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base: yonote:v13.0.0-105
Branches Tags
yonote:main yonote:fix/ts5-compability yonote:diffing yonote:master yonote:move yonote:#271 yonote:v13-refactor yonote:ydb-integration yonote:experimental-connectors yonote:v13-doc yonote:v13 yonote:v12 yonote:dist yonote:v11 yonote:0.5
yonote:v13.6.24 yonote:v13.6.23 yonote:v13.6.22 yonote:v13.6.21 yonote:v13.6.20 yonote:v13.6.19 yonote:v13.6.18 yonote:v13.6.17 yonote:v13.6.16 yonote:v13.6.15 yonote:v13.6.14 yonote:v13.6.13 yonote:v13.6.12 yonote:v13.6.11 yonote:v13.6.10 yonote:v13.6.9 yonote:v13.6.8 yonote:v13.6.7 yonote:v14.0.0-1 yonote:v13.6.6 yonote:v13.6.5 yonote:v13.6.4 yonote:v13.6.3 yonote:v13.6.2 yonote:v13.6.1 yonote:v13.6.0 yonote:v13.5.53 yonote:v13.5.52 yonote:v13.5.51 yonote:v13.5.50 yonote:v13.5.49 yonote:v13.5.48 yonote:v13.5.47 yonote:v13.5.46 yonote:v13.5.45 yonote:v13.5.44 yonote:v13.5.43 yonote:v13.5.42 yonote:v14.0.0-0 yonote:v13.5.41 yonote:v13.5.40 yonote:v13.5.39 yonote:v13.5.38 yonote:v13.5.37 yonote:v13.5.36 yonote:v13.5.35 yonote:v13.5.34 yonote:v13.5.33 yonote:v13.5.32 yonote:v13.5.31 yonote:v13.5.30 yonote:v13.5.29 yonote:v13.5.28 yonote:v13.5.27 yonote:v13.5.26 yonote:v13.5.25 yonote:v13.5.24 yonote:v13.5.23 yonote:v13.6.0-2 yonote:v13.6.0-1 yonote:v13.6.0-0 yonote:v13.5.22 yonote:v13.5.21 yonote:v13.5.20 yonote:v13.5.19 yonote:v13.5.18 yonote:v13.5.17 yonote:v13.5.16 yonote:v13.5.14 yonote:v13.5.13 yonote:v13.5.12 yonote:v13.5.11 yonote:v13.5.10 yonote:v13.5.9 yonote:v13.5.8 yonote:v13.5.7 yonote:v13.5.6 yonote:v13.5.5 yonote:v13.5.4 yonote:v13.5.3 yonote:v13.5.2 yonote:v13.5.1 yonote:v13.5.0 yonote:v13.4.14 yonote:v13.4.13 yonote:v13.4.12 yonote:v13.4.11 yonote:v13.4.10 yonote:v13.4.9 yonote:v13.4.8 yonote:v13.4.7 yonote:v13.4.6 yonote:v13.4.5 yonote:v13.4.4 yonote:v13.4.3 yonote:v13.4.2 yonote:v13.4.1 yonote:v13.4.0 yonote:v13.4.0-0 yonote:v13.3.2 yonote:v13.3.1 yonote:v13.3.0 yonote:v13.2.0 yonote:v13.1.1 yonote:v13.1.0 yonote:v13.0.8 yonote:v13.0.7 yonote:v13.0.6 yonote:v13.0.5 yonote:v13.0.4 yonote:v13.0.3 yonote:v13.0.2 yonote:v13.0.1 yonote:v13.0.0 yonote:v13.0.0-108 yonote:v13.0.0-107 yonote:v13.0.0-106 yonote:v13.0.0-105 yonote:v13.0.0-104 yonote:v13.0.0-103 yonote:v13.0.0-102 yonote:v13.0.0-101 yonote:v13.0.0-100 yonote:v13.0.0-99 yonote:v13.0.0-98 yonote:v13.0.0-97 yonote:v13.0.0-96 yonote:v13.0.0-95 yonote:v13.0.0-94 yonote:v13.0.0-93 yonote:v13.0.0-92 yonote:v13.0.0-91 yonote:v13.0.0-90 yonote:v13.0.0-89 yonote:v13.0.0-88 yonote:v13.0.0-87 yonote:v13.0.0-86 yonote:v13.0.0-85 yonote:v13.0.0-84 yonote:v13.0.0-83 yonote:v13.0.0-82 yonote:v13.0.0-81 yonote:v13.0.0-80 yonote:v13.0.0-79 yonote:v13.0.0-78 yonote:v13.0.0-77 yonote:v13.0.0-76 yonote:v13.0.0-75 yonote:v13.0.0-73 yonote:v13.0.0-72 yonote:v13.0.0-71 yonote:v13.0.0-70 yonote:v13.0.0-66 yonote:v13.0.0-65 yonote:v13.0.0-64 yonote:v13.0.0-63 yonote:v13.0.0-62 yonote:v13.0.0-61 yonote:v13.0.0-60 yonote:v13.0.0-59 yonote:v13.0.0-58 yonote:v13.0.0-57 yonote:v13.0.0-56 yonote:v13.0.0-55 yonote:v13.0.0-54 yonote:v13.0.0-53 yonote:v13.0.0-52 yonote:v13.0.0-51 yonote:v13.0.0-50 yonote:v13.0.0-49 yonote:v13.0.0-48 yonote:v13.0.0-47 yonote:v13.0.0-46 yonote:v13.0.0-45 yonote:v13.0.0-44 yonote:v13.0.0-43 yonote:v13.0.0-42 yonote:v13.0.0-41 yonote:v13.0.0-40 yonote:v13.0.0-39 yonote:v13.0.0-38 yonote:v13.0.0-37 yonote:v13.0.0-36 yonote:v13.0.0-35 yonote:v13.0.0-34 yonote:v13.0.0-33 yonote:v13.0.0-32 yonote:v13.0.0-31 yonote:v13.0.0-30 yonote:v13.0.0-29 yonote:v13.0.0-28 yonote:v13.0.0-27 yonote:v13.0.0-26 yonote:v13.0.0-25 yonote:v13.0.0-24 yonote:v13.0.0-23 yonote:v13.0.0-22 yonote:v13.0.0-21 yonote:v13.0.0-20 yonote:v13.0.0-19 yonote:v13.0.0-18 yonote:v13.0.0-17 yonote:v13.0.0-16 yonote:v13.0.0-15 yonote:v13.0.0-14 yonote:v13.0.0-13 yonote:v12.3.3 yonote:v13.0.0-12 yonote:v13.0.0-11 yonote:v13.0.0-10 yonote:v13.0.0-9 yonote:v13.0.0-8 yonote:v13.0.0-7 yonote:v13.0.0-6 yonote:v13.0.0-5 yonote:v12.3.2 yonote:v13.0.0-4 yonote:v13.0.0-3 yonote:v13.0.0-2 yonote:v13.0.0-1 yonote:v13.0.0-0 yonote:v12.3.1 yonote:v12.3.0 yonote:v12.2.1 yonote:v12.2.0 yonote:v12.1.7 yonote:v12.1.6 yonote:v12.1.5 yonote:v12.1.4 yonote:v12.1.3 yonote:v12.1.2 yonote:v12.1.1 yonote:v12.1.0 yonote:v12.0.4 yonote:v12.0.3 yonote:v12.0.2 yonote:v11.2.6 yonote:v12.0.1 yonote:v12.0.0 yonote:v11.2.5 yonote:v11.2.4 yonote:v11.2.2 yonote:v11.2.1 yonote:v11.2.0 yonote:v11.1.0 yonote:v11.0.4 yonote:v11.0.3 yonote:v11.0.2 yonote:v11.0.1 yonote:v11.0.0 yonote:v10.0.3 yonote:v10.0.2 yonote:v10.0.1 yonote:v9.0.4 yonote:v9.0.3 yonote:v9.0.2 yonote:v9.0.1 yonote:v0.8.28 yonote:v0.8.27 yonote:v0.8.26 yonote:v0.8.25 yonote:v0.8.23 yonote:v0.8.22 yonote:v0.8.21 yonote:v0.8.20 yonote:v0.8.18 yonote:v0.8.17 yonote:v0.8.16 yonote:v0.8.15 yonote:v0.8.14 yonote:v0.8.13 yonote:v0.8.12 yonote:v0.8.11 yonote:v0.8.9 yonote:v0.8.8 yonote:v0.8.7 yonote:v0.8.6 yonote:v0.8.5 yonote:v0.8.4 yonote:v0.8.3 yonote:v0.8.2 yonote:v0.8.1 yonote:v0.8.0 yonote:v0.7.6 yonote:v0.7.5 yonote:v0.7.3 yonote:v0.7.2 yonote:v0.7.1 yonote:v0.7.0 yonote:v0.6.43 yonote:v0.6.42 yonote:v0.6.40 yonote:v0.6.32 yonote:v0.6.22 yonote:v0.6.21 yonote:v0.6.20 yonote:v0.6.19 yonote:v0.6.18 yonote:v0.6.17 yonote:v0.6.14 yonote:v0.6.13 yonote:v0.6.12 yonote:v0.6.10 yonote:v0.6.8 yonote:v0.6.2 yonote:v0.6.1 yonote:v0.5.3 yonote:v0.5.2 yonote:v0.5.1 yonote:v0.4.1 yonote:v0.4.0 yonote:v0.3.2 yonote:v0.3.1.1 yonote:v0.3.1 yonote:v0.3.0 yonote:v0.1.0 yonote:v0.0.8 yonote:v0.0.7 yonote:v0.0.6 yonote:v0.0.5 yonote:v0.0.0
..
compare: yonote:0.5
Branches Tags
yonote:fix/ts5-compability yonote:main yonote:diffing yonote:master yonote:move yonote:#271 yonote:v13-refactor yonote:ydb-integration yonote:experimental-connectors yonote:v13-doc yonote:v13 yonote:v12 yonote:dist yonote:v11 yonote:0.5
yonote:v13.6.24 yonote:v13.6.23 yonote:v13.6.22 yonote:v13.6.21 yonote:v13.6.20 yonote:v13.6.19 yonote:v13.6.18 yonote:v13.6.17 yonote:v13.6.16 yonote:v13.6.15 yonote:v13.6.14 yonote:v13.6.13 yonote:v13.6.12 yonote:v13.6.11 yonote:v13.6.10 yonote:v13.6.9 yonote:v13.6.8 yonote:v13.6.7 yonote:v14.0.0-1 yonote:v13.6.6 yonote:v13.6.5 yonote:v13.6.4 yonote:v13.6.3 yonote:v13.6.2 yonote:v13.6.1 yonote:v13.6.0 yonote:v13.5.53 yonote:v13.5.52 yonote:v13.5.51 yonote:v13.5.50 yonote:v13.5.49 yonote:v13.5.48 yonote:v13.5.47 yonote:v13.5.46 yonote:v13.5.45 yonote:v13.5.44 yonote:v13.5.43 yonote:v13.5.42 yonote:v14.0.0-0 yonote:v13.5.41 yonote:v13.5.40 yonote:v13.5.39 yonote:v13.5.38 yonote:v13.5.37 yonote:v13.5.36 yonote:v13.5.35 yonote:v13.5.34 yonote:v13.5.33 yonote:v13.5.32 yonote:v13.5.31 yonote:v13.5.30 yonote:v13.5.29 yonote:v13.5.28 yonote:v13.5.27 yonote:v13.5.26 yonote:v13.5.25 yonote:v13.5.24 yonote:v13.5.23 yonote:v13.6.0-2 yonote:v13.6.0-1 yonote:v13.6.0-0 yonote:v13.5.22 yonote:v13.5.21 yonote:v13.5.20 yonote:v13.5.19 yonote:v13.5.18 yonote:v13.5.17 yonote:v13.5.16 yonote:v13.5.14 yonote:v13.5.13 yonote:v13.5.12 yonote:v13.5.11 yonote:v13.5.10 yonote:v13.5.9 yonote:v13.5.8 yonote:v13.5.7 yonote:v13.5.6 yonote:v13.5.5 yonote:v13.5.4 yonote:v13.5.3 yonote:v13.5.2 yonote:v13.5.1 yonote:v13.5.0 yonote:v13.4.14 yonote:v13.4.13 yonote:v13.4.12 yonote:v13.4.11 yonote:v13.4.10 yonote:v13.4.9 yonote:v13.4.8 yonote:v13.4.7 yonote:v13.4.6 yonote:v13.4.5 yonote:v13.4.4 yonote:v13.4.3 yonote:v13.4.2 yonote:v13.4.1 yonote:v13.4.0 yonote:v13.4.0-0 yonote:v13.3.2 yonote:v13.3.1 yonote:v13.3.0 yonote:v13.2.0 yonote:v13.1.1 yonote:v13.1.0 yonote:v13.0.8 yonote:v13.0.7 yonote:v13.0.6 yonote:v13.0.5 yonote:v13.0.4 yonote:v13.0.3 yonote:v13.0.2 yonote:v13.0.1 yonote:v13.0.0 yonote:v13.0.0-108 yonote:v13.0.0-107 yonote:v13.0.0-106 yonote:v13.0.0-105 yonote:v13.0.0-104 yonote:v13.0.0-103 yonote:v13.0.0-102 yonote:v13.0.0-101 yonote:v13.0.0-100 yonote:v13.0.0-99 yonote:v13.0.0-98 yonote:v13.0.0-97 yonote:v13.0.0-96 yonote:v13.0.0-95 yonote:v13.0.0-94 yonote:v13.0.0-93 yonote:v13.0.0-92 yonote:v13.0.0-91 yonote:v13.0.0-90 yonote:v13.0.0-89 yonote:v13.0.0-88 yonote:v13.0.0-87 yonote:v13.0.0-86 yonote:v13.0.0-85 yonote:v13.0.0-84 yonote:v13.0.0-83 yonote:v13.0.0-82 yonote:v13.0.0-81 yonote:v13.0.0-80 yonote:v13.0.0-79 yonote:v13.0.0-78 yonote:v13.0.0-77 yonote:v13.0.0-76 yonote:v13.0.0-75 yonote:v13.0.0-73 yonote:v13.0.0-72 yonote:v13.0.0-71 yonote:v13.0.0-70 yonote:v13.0.0-66 yonote:v13.0.0-65 yonote:v13.0.0-64 yonote:v13.0.0-63 yonote:v13.0.0-62 yonote:v13.0.0-61 yonote:v13.0.0-60 yonote:v13.0.0-59 yonote:v13.0.0-58 yonote:v13.0.0-57 yonote:v13.0.0-56 yonote:v13.0.0-55 yonote:v13.0.0-54 yonote:v13.0.0-53 yonote:v13.0.0-52 yonote:v13.0.0-51 yonote:v13.0.0-50 yonote:v13.0.0-49 yonote:v13.0.0-48 yonote:v13.0.0-47 yonote:v13.0.0-46 yonote:v13.0.0-45 yonote:v13.0.0-44 yonote:v13.0.0-43 yonote:v13.0.0-42 yonote:v13.0.0-41 yonote:v13.0.0-40 yonote:v13.0.0-39 yonote:v13.0.0-38 yonote:v13.0.0-37 yonote:v13.0.0-36 yonote:v13.0.0-35 yonote:v13.0.0-34 yonote:v13.0.0-33 yonote:v13.0.0-32 yonote:v13.0.0-31 yonote:v13.0.0-30 yonote:v13.0.0-29 yonote:v13.0.0-28 yonote:v13.0.0-27 yonote:v13.0.0-26 yonote:v13.0.0-25 yonote:v13.0.0-24 yonote:v13.0.0-23 yonote:v13.0.0-22 yonote:v13.0.0-21 yonote:v13.0.0-20 yonote:v13.0.0-19 yonote:v13.0.0-18 yonote:v13.0.0-17 yonote:v13.0.0-16 yonote:v13.0.0-15 yonote:v13.0.0-14 yonote:v13.0.0-13 yonote:v12.3.3 yonote:v13.0.0-12 yonote:v13.0.0-11 yonote:v13.0.0-10 yonote:v13.0.0-9 yonote:v13.0.0-8 yonote:v13.0.0-7 yonote:v13.0.0-6 yonote:v13.0.0-5 yonote:v12.3.2 yonote:v13.0.0-4 yonote:v13.0.0-3 yonote:v13.0.0-2 yonote:v13.0.0-1 yonote:v13.0.0-0 yonote:v12.3.1 yonote:v12.3.0 yonote:v12.2.1 yonote:v12.2.0 yonote:v12.1.7 yonote:v12.1.6 yonote:v12.1.5 yonote:v12.1.4 yonote:v12.1.3 yonote:v12.1.2 yonote:v12.1.1 yonote:v12.1.0 yonote:v12.0.4 yonote:v12.0.3 yonote:v12.0.2 yonote:v11.2.6 yonote:v12.0.1 yonote:v12.0.0 yonote:v11.2.5 yonote:v11.2.4 yonote:v11.2.2 yonote:v11.2.1 yonote:v11.2.0 yonote:v11.1.0 yonote:v11.0.4 yonote:v11.0.3 yonote:v11.0.2 yonote:v11.0.1 yonote:v11.0.0 yonote:v10.0.3 yonote:v10.0.2 yonote:v10.0.1 yonote:v9.0.4 yonote:v9.0.3 yonote:v9.0.2 yonote:v9.0.1 yonote:v0.8.28 yonote:v0.8.27 yonote:v0.8.26 yonote:v0.8.25 yonote:v0.8.23 yonote:v0.8.22 yonote:v0.8.21 yonote:v0.8.20 yonote:v0.8.18 yonote:v0.8.17 yonote:v0.8.16 yonote:v0.8.15 yonote:v0.8.14 yonote:v0.8.13 yonote:v0.8.12 yonote:v0.8.11 yonote:v0.8.9 yonote:v0.8.8 yonote:v0.8.7 yonote:v0.8.6 yonote:v0.8.5 yonote:v0.8.4 yonote:v0.8.3 yonote:v0.8.2 yonote:v0.8.1 yonote:v0.8.0 yonote:v0.7.6 yonote:v0.7.5 yonote:v0.7.3 yonote:v0.7.2 yonote:v0.7.1 yonote:v0.7.0 yonote:v0.6.43 yonote:v0.6.42 yonote:v0.6.40 yonote:v0.6.32 yonote:v0.6.22 yonote:v0.6.21 yonote:v0.6.20 yonote:v0.6.19 yonote:v0.6.18 yonote:v0.6.17 yonote:v0.6.14 yonote:v0.6.13 yonote:v0.6.12 yonote:v0.6.10 yonote:v0.6.8 yonote:v0.6.2 yonote:v0.6.1 yonote:v0.5.3 yonote:v0.5.2 yonote:v0.5.1 yonote:v0.4.1 yonote:v0.4.0 yonote:v0.3.2 yonote:v0.3.1.1 yonote:v0.3.1 yonote:v0.3.0 yonote:v0.1.0 yonote:v0.0.8 yonote:v0.0.7 yonote:v0.0.6 yonote:v0.0.5 yonote:v0.0.0

3 Commits
v13.0.0-10 ... 0.5

Author SHA1 Message Date
Kevin Jahns
2d4c38eace bumb version 2015-08-18 18:18:17 +02:00
Kevin Jahns
5350b26cb3 fixed y-js/y-webrtc#2 2015-08-18 18:10:50 +02:00
Kevin Jahns
4feaf6c6fb fix #28 2015-07-10 09:39:10 +02:00
98 changed files with 151944 additions and 13423 deletions
Expand all files Collapse all files

3
.bowerrc Normal file
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@@ -0,0 +1,3 @@
{
"directory": "../"
}

12
.github/FUNDING.yml vendored
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# These are supported funding model platforms
github: # Replace with up to 4 GitHub Sponsors-enabled usernames e.g., [user1, user2]
patreon: dmonad
open_collective: # Replace with a single Open Collective username
ko_fi: # Replace with a single Ko-fi username
tidelift: # Replace with a single Tidelift platform-name/package-name e.g., npm/babel
community_bridge: # Replace with a single Community Bridge project-name e.g., cloud-foundry
liberapay: # Replace with a single Liberapay username
issuehunt: # Replace with a single IssueHunt username
otechie: # Replace with a single Otechie username
custom: # Replace with up to 4 custom sponsorship URLs e.g., ['link1', 'link2']

10
.gitignore vendored
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@@ -1,4 +1,6 @@
node_modules
dist
.vscode
docs
/node_modules/
bower_components
.directory
.c9
.codio
.settings

50
.jsdoc.json
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@@ -1,50 +0,0 @@
{
"sourceType": "module",
"tags": {
"allowUnknownTags": true,
"dictionaries": ["jsdoc"]
},
"source": {
"include": ["./src"],
"includePattern": ".js$"
},
"plugins": [
"plugins/markdown"
],
"templates": {
"referenceTitle": "Yjs",
"disableSort": false,
"useCollapsibles": true,
"collapse": true,
"resources": {
"yjs.dev": "Yjs website"
},
"logo": {
"url": "https://user-images.githubusercontent.com/5553757/48975307-61efb100-f06d-11e8-9177-ee895e5916e5.png",
"width": "162px",
"height": "162px",
"link": "/"
},
"tabNames": {
"api": "API",
"tutorials": "Examples"
},
"footerText": "Shared Editing",
"css": [
"./style.css"
],
"default": {
"staticFiles": {
"include": ["examples/"]
}
}
},
"opts": {
"destination": "./docs/",
"encoding": "utf8",
"private": false,
"recurse": true,
"template": "./node_modules/tui-jsdoc-template",
"tutorials": "./examples"
}
}

4
.markdownlint.json
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{
"default": true,
"no-inline-html": false
}

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.travis.yml Normal file
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language: node_js
before_install:
- "npm install -g bower coffee-script"
- "bower install"
node_js:
- "0.12"
- "0.11"
- "0.10"
branches:
only:
- master

4
LICENSE → LICENSE.txt
View File

@@ -1,8 +1,6 @@
The MIT License (MIT)
Copyright (c) 2014
- Kevin Jahns <kevin.jahns@rwth-aachen.de>.
- Chair of Computer Science 5 (Databases & Information Systems), RWTH Aachen University, Germany
Copyright (c) 2014 Kevin Jahns <kevin.jahns@rwth-aachen.de>.
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal

919
README.md
View File

@@ -1,862 +1,137 @@
# ![Yjs](https://yjs.dev/images/logo/yjs-120x120.png)
# ![Yjs](http://y-js.org/files/layout/yjs.svg)
> A CRDT framework with a powerful abstraction of shared data
[![Build Status](https://travis-ci.org/y-js/yjs.svg)](https://travis-ci.org/y-js/yjs)
Yjs is a [CRDT implementation](#Yjs-CRDT-Algorithm) that exposes its internal
data structure as *shared types*. Shared types are common data types like `Map`
or `Array` with superpowers: changes are automatically distributed to other
peers and merged without merge conflicts.
Yjs is a framework for optimistic concurrency control and automatic conflict resolution on arbitrary data types. The framework implements a new OT-like concurrency algorithm and provides similar functionality as [ShareJs] and [OpenCoweb]. Yjs was designed to handle concurrent actions on arbitrary complex data types like Text, Json, and XML. We provide a tutorial and some applications for this framework on our [homepage](http://y-js.org/).
Yjs is **network agnostic** (p2p!), supports many existing **rich text
editors**, **offline editing**, **version snapshots**, **undo/redo** and
**shared cursors**. It scales well with an unlimited number of users and is well
suited for even large documents.
You can create you own data types easily. Therefore, you can take matters into your own hand by defining the meaning of the shared types and ensure that it is valid, while Yjs ensures data consistency (everyone will eventually end up with the same data). We already provide data types for
* Demos: [https://github.com/yjs/yjs-demos](https://github.com/yjs/yjs-demos)
* Discuss: [https://discuss.yjs.dev](https://discuss.yjs.dev)
* Benchmarks:
[https://github.com/dmonad/crdt-benchmarks](https://github.com/dmonad/crdt-benchmarks)
* Podcast [**"Yjs Deep Dive into real time collaborative editing solutions":**](https://www.tag1consulting.com/blog/deep-dive-real-time-collaborative-editing-solutions-tagteamtalk-001-0)
* Podcast [**"Google Docs-style editing in Gutenberg with the YJS framework":**](https://publishpress.com/blog/yjs/)
| Name | Description
| ---------------------------------------------------- | ---------------------------------------------
y-object | Add, update, and remove properties of an object. Circular references are supported. Included in Yjs
[y-list](https://github.com/y-js/y-list) | A shared linked list implementation. Circular references are supported
[y-selections](https://github.com/y-js/y-selections) | Manages selections on types that use linear structures (e.g. the y-list type). You can select a range of elements and assign meaning to them.
[y-xml](https://github.com/y-js/y-xml) | An implementation of the DOM. You can create a two way binding to Browser DOM objects
[y-text](https://github.com/y-js/y-text) | Collaborate on text. You can create a two way binding to textareas, input elements, or HTML elements (e.g. *h1*, or *p*)
[y-richtext](https://github.com/y-js/y-richtext) | Collaborate on rich text. You can create a two way binding to several editors
:warning: This is the documentation for v13 (still in alpha). For the stable v12
release checkout the [v12 docs](./README.v12.md) :warning:
Unlike other frameworks, Yjs supports P2P message propagation and is not bound to a specific communication protocol. Therefore, Yjs is extremely scalable and can be used in a wide range of application scenarios.
:construction_worker_woman: If you are looking for professional support to build
collaborative or distributed applications ping us at <yjs@tag1consulting.com>.
We support several communication protocols as so called *Connectors*. You can create your own connector too - read [this wiki page](https://github.com/y-js/yjs/wiki/Custom-Connectors). Currently, we support the following communication protocols:
## Table of Contents
Name | Description
---------------------------------------- | -------------------------------------------------------
[y-xmpp](https://github.com/y-js/y-xmpp) | Propagate updates in a XMPP multi-user-chat room ([XEP-0045](http://xmpp.org/extensions/xep-0045.html))
[y-webrtc](https://github.com/y-js/y-webrtc) | Propagate updates Browser2Browser via WebRTC
[y-test](https://github.com/y-js/y-test) | A Connector for testing purposes. It is designed to simulate delays that happen in worst case scenarios
* [Overview](#Overview)
* [Bindings](#Bindings)
* [Providers](#Providers)
* [Getting Started](#Getting-Started)
* [API](#API)
* [Shared Types](#Shared-Types)
* [Y.Doc](#YDoc)
* [Document Updates](#Document-Updates)
* [Relative Positions](#Relative-Positions)
* [Y.UndoManager](#YUndoManager)
* [Miscellaneous](#Miscellaneous)
* [Typescript Declarations](#Typescript-Declarations)
* [Yjs CRDT Algorithm](#Yjs-CRDT-Algorithm)
* [Evaluation](#Evaluation)
* [Existing shared editing libraries](#Exisisting-Javascript-Libraries)
* [CRDT Algorithms](#CRDT-Algorithms)
* [Comparison of CRDT with OT](#Comparing-CRDT-with-OT)
* [Comparison of CRDT Algorithms](#Comparing-CRDT-Algorithms)
* [Comparison of Yjs with other Implementations](#Comparing-Yjs-with-other-Implementations)
* [License and Author](#License-and-Author)
## Overview
You can use Yjs client-, and server- side. You can get it as via npm, and bower. We even provide polymer elements for Yjs!
This repository contains a collection of shared types that can be observed for
changes and manipulated concurrently. Network functionality and two-way-bindings
are implemented in separate modules.
The advantages over similar frameworks are support for
* .. P2P message propagation and arbitrary communication protocols
* .. arbitrary complex data types
* .. offline editing: Only relevant changes are propagated on rejoin (unimplemented)
* .. AnyUndo: Undo *any* action that was executed in constant time (unimplemented)
* .. Intention Preservation: When working on Text, the intention of your changes are preserved. This is particularily important when working offline. Every type has a notion on how we define Intention Preservation on it.
### Bindings
| Name | Cursors | Binding | Demo |
|---|:-:|---|---|
| [ProseMirror](https://prosemirror.net/) &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; &nbsp; | ✔ | [y-prosemirror](http://github.com/yjs/y-prosemirror) | [demo](https://yjs-demos.now.sh/prosemirror/) |
| [Quill](https://quilljs.com/) | ✔ | [y-quill](http://github.com/yjs/y-quill) | [demo](https://yjs-demos.now.sh/quill/) |
| [CodeMirror](https://codemirror.net/) | ✔ | [y-codemirror](http://github.com/yjs/y-codemirror) | [demo](https://yjs-demos.now.sh/codemirror/) |
| [Monaco](https://microsoft.github.io/monaco-editor/) | ✔ | [y-monaco](http://github.com/yjs/y-monaco) | [demo](https://yjs-demos.now.sh/monaco/) |
| [Ace](https://ace.c9.io/) | | [y-ace](http://github.com/yjs/y-ace) | [demo](https://yjs-demos.now.sh/ace/) |
| [Textarea](https://developer.mozilla.org/en-US/docs/Web/HTML/Element/textarea) | | [y-textarea](http://github.com/yjs/y-textarea) | [demo](https://yjs-demos.now.sh/textarea/) |
| [DOM](https://developer.mozilla.org/en-US/docs/Web/API/Document_Object_Model) | | [y-dom](http://github.com/yjs/y-dom) | [demo](https://yjs-demos.now.sh/dom/) |
## Use it!
You can find a tutorial, and examples on the [website](http://y-js.org). Furthermore, the [github wiki](https://github.com/y-js/yjs/wiki) offers more information about how you can use Yjs in your application.
### Providers
Either clone this git repository, install it with [bower](http://bower.io/), or install it with [npm](https://www.npmjs.org/package/yjs).
Setting up the communication between clients, managing awareness information,
and storing shared data for offline usage is quite a hassle. **Providers**
manage all that for you and are the perfect starting point for your
collaborative app.
<dl>
<dt><a href="http://github.com/yjs/y-webrtc">y-webrtc</a></dt>
<dd>
Propagates document updates peer-to-peer using WebRTC. The peers exchange
signaling data over signaling servers. Publically available signaling servers
are available. Communication over the signaling servers can be encrypted by
providing a shared secret, keeping the connection information and the shared
document private.
</dd>
<dt><a href="http://github.com/yjs/y-websocket">y-websocket</a></dt>
<dd>
A module that contains a simple websocket backend and a websocket client that
connects to that backend. The backend can be extended to persist updates in a
leveldb database.
</dd>
<dt><a href="http://github.com/yjs/y-dat">y-dat</a></dt>
<dd>
[WIP] Write document updates effinciently to the dat network using
<a href="https://github.com/kappa-db/multifeed">multifeed</a>. Each client has
an append-only log of CRDT local updates (hypercore). Multifeed manages and sync
hypercores and y-dat listens to changes and applies them to the Yjs document.
</dd>
</dl>
## Getting Started
Install Yjs and a provider with your favorite package manager:
```sh
npm i yjs@13.0.0-103 y-websocket@1.0.0-6
### Bower
```
bower install y-js/yjs
```
Then you include the libraries directly from the installation folder.
```
<script src="./bower_components/yjs/y.js"></script>
```
Start the y-websocket server:
```sh
PORT=1234 node ./node_modules/y-websocket/bin/server.js
### Npm
```
npm install yjs --save
```
### Example: Observe types
```js
const yarray = doc.getArray('my-array')
yarray.observe(event => {
console.log('yarray was modified')
})
// every time a local or remote client modifies yarray, the observer is called
yarray.insert(0, ['val']) // => "yarray was modified"
And use it like this with *npm*:
```
Y = require("yjs");
```
### Example: Nest types
Remember, shared types are just plain old data types. The only limitation is
that a shared type must exist only once in the shared document.
```js
const ymap = doc.getMap('map')
const foodArray = new Y.Array()
foodArray.insert(0, ['apple', 'banana'])
ymap.set('food', foodArray)
ymap.get('food') === foodArray // => true
ymap.set('fruit', foodArray) // => Error! foodArray is already defined
# Y()
In order to create an instance of Y, you need to have a connection object (instance of a Connector). Then, you can create a shared data type like this:
```
var y = new Y(connector);
```
Now you understand how types are defined on a shared document. Next you can jump
to the [demo repository](https://github.com/yjs/yjs-demos) or continue reading
the API docs.
## API
# Y.Object
Yjs includes only one type by default - the Y.Object type. It mimics the behaviour of a JSON Object. You can create, update, and remove properies on the Y.Object type. Furthermore, you can observe changes on this type as you can observe changes on Javascript Objects with [Object.observe](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Object/observe) - an ECMAScript 7 proposal which is likely to become accepted by the committee. Until then, we have our own implementation.
```js
import * as Y from 'yjs'
##### Reference
* Create
```
### Shared Types
<details>
<summary><b>Y.Array</b></summary>
<br>
<p>
A shareable Array-like type that supports efficient insert/delete of elements
at any position. Internally it uses a linked list of Arrays that is split when
necessary.
</p>
<pre>const yarray = new Y.Array()</pre>
<dl>
<b><code>insert(index:number, content:Array&lt;object|boolean|Array|string|number|Uint8Array|Y.Type&gt;)</code></b>
<dd>
Insert content at <var>index</var>. Note that content is an array of elements.
I.e. <code>array.insert(0, [1]</code> splices the list and inserts 1 at
position 0.
</dd>
<b><code>push(Array&lt;Object|boolean|Array|string|number|Uint8Array|Y.Type&gt;)</code></b>
<dd></dd>
<b><code>delete(index:number, length:number)</code></b>
<dd></dd>
<b><code>get(index:number)</code></b>
<dd></dd>
<b><code>length:number</code></b>
<dd></dd>
<b>
<code>
forEach(function(value:object|boolean|Array|string|number|Uint8Array|Y.Type,
index:number, array: Y.Array))
</code>
</b>
<dd></dd>
<b><code>map(function(T, number, YArray):M):Array&lt;M&gt;</code></b>
<dd></dd>
<b><code>toArray():Array&lt;object|boolean|Array|string|number|Uint8Array|Y.Type&gt;</code></b>
<dd>Copies the content of this YArray to a new Array.</dd>
<b><code>toJSON():Array&lt;Object|boolean|Array|string|number&gt;</code></b>
<dd>
Copies the content of this YArray to a new Array. It transforms all child types
to JSON using their <code>toJSON</code> method.
</dd>
<b><code>[Symbol.Iterator]</code></b>
<dd>
Returns an YArray Iterator that contains the values for each index in the array.
<pre>for (let value of yarray) { .. }</pre>
</dd>
<b><code>observe(function(YArrayEvent, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type is modified. In the case this type is modified in the event listener,
the event listener will be called again after the current event listener returns.
</dd>
<b><code>unobserve(function(YArrayEvent, Transaction):void)</code></b>
<dd>
Removes an <code>observe</code> event listener from this type.
</dd>
<b><code>observeDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type or any of its children is modified. In the case this type is modified
in the event listener, the event listener will be called again after the current
event listener returns. The event listener receives all Events created by itself
or any of its children.
</dd>
<b><code>unobserveDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Removes an <code>observeDeep</code> event listener from this type.
</dd>
</dl>
</details>
<details>
<summary><b>Y.Map</b></summary>
<br>
<p>
A shareable Map type.
</p>
<pre><code>const ymap = new Y.Map()</code></pre>
<dl>
<b><code>get(key:string):object|boolean|string|number|Uint8Array|Y.Type</code></b>
<dd></dd>
<b><code>set(key:string, value:object|boolean|string|number|Uint8Array|Y.Type)</code></b>
<dd></dd>
<b><code>delete(key:string)</code></b>
<dd></dd>
<b><code>has(key:string):boolean</code></b>
<dd></dd>
<b><code>get(index:number)</code></b>
<dd></dd>
<b><code>toJSON():Object&lt;string, Object|boolean|Array|string|number|Uint8Array&gt;</code></b>
<dd>
Copies the <code>[key,value]</code> pairs of this YMap to a new Object.It
transforms all child types to JSON using their <code>toJSON</code> method.
</dd>
<b><code>forEach(function(value:object|boolean|Array|string|number|Uint8Array|Y.Type,
key:string, map: Y.Map))</code></b>
<dd>
Execute the provided function once for every key-value pair.
</dd>
<b><code>[Symbol.Iterator]</code></b>
<dd>
Returns an Iterator of <code>[key, value]</code> pairs.
<pre>for (let [key, value] of ymap) { .. }</pre>
</dd>
<b><code>entries()</code></b>
<dd>
Returns an Iterator of <code>[key, value]</code> pairs.
</dd>
<b><code>values()</code></b>
<dd>
Returns an Iterator of all values.
</dd>
<b><code>keys()</code></b>
<dd>
Returns an Iterator of all keys.
</dd>
<b><code>observe(function(YMapEvent, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type is modified. In the case this type is modified in the event listener,
the event listener will be called again after the current event listener returns.
</dd>
<b><code>unobserve(function(YMapEvent, Transaction):void)</code></b>
<dd>
Removes an <code>observe</code> event listener from this type.
</dd>
<b><code>observeDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type or any of its children is modified. In the case this type is modified
in the event listener, the event listener will be called again after the current
event listener returns. The event listener receives all Events created by itself
or any of its children.
</dd>
<b><code>unobserveDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Removes an <code>observeDeep</code> event listener from this type.
</dd>
</dl>
</details>
<details>
<summary><b>Y.Text</b></summary>
<br>
<p>
A shareable type that is optimized for shared editing on text. It allows to
assign properties to ranges in the text. This makes it possible to implement
rich-text bindings to this type.
</p>
<p>
This type can also be transformed to the
<a href="https://quilljs.com/docs/delta">delta format</a>. Similarly the
YTextEvents compute changes as deltas.
</p>
<pre>const ytext = new Y.Text()</pre>
<dl>
<b><code>insert(index:number, content:string, [formattingAttributes:Object&lt;string,string&gt;])</code></b>
<dd>
Insert a string at <var>index</var> and assign formatting attributes to it.
<pre>ytext.insert(0, 'bold text', { bold: true })</pre>
</dd>
<b><code>delete(index:number, length:number)</code></b>
<dd></dd>
<b><code>format(index:number, length:number, formattingAttributes:Object&lt;string,string&gt;)</code></b>
<dd>Assign formatting attributes to a range in the text</dd>
<b><code>applyDelta(delta)</code></b>
<dd>See <a href="https://quilljs.com/docs/delta/">Quill Delta</a></dd>
<b><code>length:number</code></b>
<dd></dd>
<b><code>toString():string</code></b>
<dd>Transforms this type, without formatting options, into a string.</dd>
<b><code>toJSON():string</code></b>
<dd>See <code>toString</code></dd>
<b><code>toDelta():Delta</code></b>
<dd>
Transforms this type to a <a href="https://quilljs.com/docs/delta/">Quill Delta</a>
</dd>
<b><code>observe(function(YTextEvent, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type is modified. In the case this type is modified in the event listener,
the event listener will be called again after the current event listener returns.
</dd>
<b><code>unobserve(function(YTextEvent, Transaction):void)</code></b>
<dd>
Removes an <code>observe</code> event listener from this type.
</dd>
<b><code>observeDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type or any of its children is modified. In the case this type is modified
in the event listener, the event listener will be called again after the current
event listener returns. The event listener receives all Events created by itself
or any of its children.
</dd>
<b><code>unobserveDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Removes an <code>observeDeep</code> event listener from this type.
</dd>
</dl>
</details>
<details>
<summary><b>Y.XmlFragment</b></summary>
<br>
<p>
A container that holds an Array of Y.XmlElements.
</p>
<pre><code>const yxml = new Y.XmlFragment()</code></pre>
<dl>
<b><code>insert(index:number, content:Array&lt;Y.XmlElement|Y.XmlText&gt;)</code></b>
<dd></dd>
<b><code>delete(index:number, length:number)</code></b>
<dd></dd>
<b><code>get(index:number)</code></b>
<dd></dd>
<b><code>length:number</code></b>
<dd></dd>
<b><code>toArray():Array&lt;Y.XmlElement|Y.XmlText&gt;</code></b>
<dd>Copies the children to a new Array.</dd>
<b><code>toDOM():DocumentFragment</code></b>
<dd>Transforms this type and all children to new DOM elements.</dd>
<b><code>toString():string</code></b>
<dd>Get the XML serialization of all descendants.</dd>
<b><code>toJSON():string</code></b>
<dd>See <code>toString</code>.</dd>
<b><code>observe(function(YXmlEvent, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type is modified. In the case this type is modified in the event listener,
the event listener will be called again after the current event listener returns.
</dd>
<b><code>unobserve(function(YXmlEvent, Transaction):void)</code></b>
<dd>
Removes an <code>observe</code> event listener from this type.
</dd>
<b><code>observeDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type or any of its children is modified. In the case this type is modified
in the event listener, the event listener will be called again after the current
event listener returns. The event listener receives all Events created by itself
or any of its children.
</dd>
<b><code>unobserveDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Removes an <code>observeDeep</code> event listener from this type.
</dd>
</dl>
</details>
<details>
<summary><b>Y.XmlElement</b></summary>
<br>
<p>
A shareable type that represents an XML Element. It has a <code>nodeName</code>,
attributes, and a list of children. But it makes no effort to validate its
content and be actually XML compliant.
</p>
<pre><code>const yxml = new Y.XmlElement()</code></pre>
<dl>
<b><code>insert(index:number, content:Array&lt;Y.XmlElement|Y.XmlText&gt;)</code></b>
<dd></dd>
<b><code>delete(index:number, length:number)</code></b>
<dd></dd>
<b><code>get(index:number)</code></b>
<dd></dd>
<b><code>length:number</code></b>
<dd></dd>
<b><code>setAttribute(attributeName:string, attributeValue:string)</code></b>
<dd></dd>
<b><code>removeAttribute(attributeName:string)</code></b>
<dd></dd>
<b><code>getAttribute(attributeName:string):string</code></b>
<dd></dd>
<b><code>getAttributes(attributeName:string):Object&lt;string,string&gt;</code></b>
<dd></dd>
<b><code>toArray():Array&lt;Y.XmlElement|Y.XmlText&gt;</code></b>
<dd>Copies the children to a new Array.</dd>
<b><code>toDOM():Element</code></b>
<dd>Transforms this type and all children to a new DOM element.</dd>
<b><code>toString():string</code></b>
<dd>Get the XML serialization of all descendants.</dd>
<b><code>toJSON():string</code></b>
<dd>See <code>toString</code>.</dd>
<b><code>observe(function(YXmlEvent, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every
time this type is modified. In the case this type is modified in the event
listener, the event listener will be called again after the current event
listener returns.
</dd>
<b><code>unobserve(function(YXmlEvent, Transaction):void)</code></b>
<dd>
Removes an <code>observe</code> event listener from this type.
</dd>
<b><code>observeDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Adds an event listener to this type that will be called synchronously every time
this type or any of its children is modified. In the case this type is modified
in the event listener, the event listener will be called again after the current
event listener returns. The event listener receives all Events created by itself
or any of its children.
</dd>
<b><code>unobserveDeep(function(Array&lt;YEvent&gt;, Transaction):void)</code></b>
<dd>
Removes an <code>observeDeep</code> event listener from this type.
</dd>
</dl>
</details>
### Y.Doc
```js
const doc = new Y.Doc()
var y = new Y.Object();
```
<dl>
<b><code>clientID</code></b>
<dd>A unique id that identifies this client. (readonly)</dd>
<b><code>transact(function(Transaction):void [, origin:any])</code></b>
<dd>
Every change on the shared document happens in a transaction. Observer calls and
the <code>update</code> event are called after each transaction. You should
<i>bundle</i> changes into a single transaction to reduce the amount of event
calls. I.e. <code>doc.transact(() => { yarray.insert(..); ymap.set(..) })</code>
triggers a single change event. <br>You can specify an optional <code>origin</code>
parameter that is stored on <code>transaction.origin</code> and
<code>on('update', (update, origin) => ..)</code>.
</dd>
<b><code>get(string, Y.[TypeClass]):[Type]</code></b>
<dd>Define a shared type.</dd>
<b><code>getArray(string):Y.Array</code></b>
<dd>Define a shared Y.Array type. Is equivalent to <code>y.get(string, Y.Array)</code>.</dd>
<b><code>getMap(string):Y.Map</code></b>
<dd>Define a shared Y.Map type. Is equivalent to <code>y.get(string, Y.Map)</code>.</dd>
<b><code>getXmlFragment(string):Y.XmlFragment</code></b>
<dd>Define a shared Y.XmlFragment type. Is equivalent to <code>y.get(string, Y.XmlFragment)</code>.</dd>
<b><code>on(string, function)</code></b>
<dd>Register an event listener on the shared type</dd>
<b><code>off(string, function)</code></b>
<dd>Unregister an event listener from the shared type</dd>
</dl>
#### Y.Doc Events
<dl>
<b><code>on('update', function(updateMessage:Uint8Array, origin:any, Y.Doc):void)</code></b>
<dd>
Listen to document updates. Document updates must be transmitted to all other
peers. You can apply document updates in any order and multiple times.
</dd>
<b><code>on('beforeTransaction', function(Y.Transaction, Y.Doc):void)</code></b>
<dd>Emitted before each transaction.</dd>
<b><code>on('afterTransaction', function(Y.Transaction, Y.Doc):void)</code></b>
<dd>Emitted after each transaction.</dd>
</dl>
### Document Updates
Changes on the shared document are encoded into *document updates*. Document
updates are *commutative* and *idempotent*. This means that they can be applied
in any order and multiple times.
#### Example: Listen to update events and apply them on remote client
```js
const doc1 = new Y.Doc()
const doc2 = new Y.Doc()
doc1.on('update', update => {
Y.applyUpdate(doc2, update)
})
doc2.on('update', update => {
Y.applyUpdate(doc1, update)
})
// All changes are also applied to the other document
doc1.getArray('myarray').insert(0, ['Hello doc2, you got this?'])
doc2.getArray('myarray').get(0) // => 'Hello doc2, you got this?'
* Create with existing Object
```
Yjs internally maintains a [state vector](#State-Vector) that denotes the next
expected clock from each client. In a different interpretation it holds the
number of structs created by each client. When two clients sync, you can either
exchange the complete document structure or only the differences by sending the
state vector to compute the differences.
#### Example: Sync two clients by exchanging the complete document structure
```js
const state1 = Y.encodeStateAsUpdate(ydoc1)
const state2 = Y.encodeStateAsUpdate(ydoc2)
Y.applyUpdate(ydoc1, state2)
Y.applyUpdate(ydoc2, state1)
var y = new Y.Object({number: 73});
```
#### Example: Sync two clients by computing the differences
This example shows how to sync two clients with the minimal amount of exchanged
data by computing only the differences using the state vector of the remote
client. Syncing clients using the state vector requires another roundtrip, but
can safe a lot of bandwidth.
```js
const stateVector1 = Y.encodeStateVector(ydoc1)
const stateVector2 = Y.encodeStateVector(ydoc2)
const diff1 = Y.encodeStateAsUpdate(ydoc1, stateVector2)
const diff2 = Y.encodeStateAsUpdate(ydoc2, stateVector1)
Y.applyUpdate(ydoc1, diff2)
Y.applyUpdate(ydoc2, diff1)
* Every instance of Y is an Y.Object
```
<dl>
<b><code>Y.applyUpdate(Y.Doc, update:Uint8Array, [transactionOrigin:any])</code></b>
<dd>
Apply a document update on the shared document. Optionally you can specify
<code>transactionOrigin</code> that will be stored on
<code>transaction.origin</code>
and <code>ydoc.on('update', (update, origin) => ..)</code>.
</dd>
<b><code>Y.encodeStateAsUpdate(Y.Doc, [encodedTargetStateVector:Uint8Array]):Uint8Array</code></b>
<dd>
Encode the document state as a single update message that can be applied on the
remote document. Optionally specify the target state vector to only write the
differences to the update message.
</dd>
<b><code>Y.encodeStateVector(Y.Doc):Uint8Array</code></b>
<dd>Computes the state vector and encodes it into an Uint8Array.</dd>
</dl>
### Relative Positions
> This API is not stable yet
This feature is intended for managing selections / cursors. When working with
other users that manipulate the shared document, you can't trust that an index
position (an integer) will stay at the intended location. A *relative position*
is fixated to an element in the shared document and is not affected by remote
changes. I.e. given the document `"a|c"`, the relative position is attached to
`c`. When a remote user modifies the document by inserting a character before
the cursor, the cursor will stay attached to the character `c`. `insert(1,
'x')("a|c") = "ax|c"`. When the *relative position* is set to the end of the
document, it will stay attached to the end of the document.
#### Example: Transform to RelativePosition and back
```js
const relPos = Y.createRelativePositionFromTypeIndex(ytext, 2)
const pos = Y.createAbsolutePositionFromRelativePosition(relPos, doc)
pos.type === ytext // => true
pos.index === 2 // => true
var y = new Y(connector);
```
* .val()
* Retrieve all properties of this type as a JSON Object
* .val(name)
* Retrieve the value of a property
* .val(name, value)
* Set/update a property. Returns `this` Y.Object
* .delete(name)
* Delete a property
* .observe(observer)
* The `observer` is called whenever something on this object changes. Throws *add*, *update*, and *delete* events
* .unobserve(f)
* Delete an observer
#### Example: Send relative position to remote client (json)
# A note on intention preservation
When users create/update/delete the same property concurrently, only one change will prevail. Changes on different properties do not conflict with each other.
```js
const relPos = Y.createRelativePositionFromTypeIndex(ytext, 2)
const encodedRelPos = JSON.stringify(relPos)
// send encodedRelPos to remote client..
const parsedRelPos = JSON.parse(encodedRelPos)
const pos = Y.createAbsolutePositionFromRelativePosition(parsedRelPos, remoteDoc)
pos.type === remoteytext // => true
pos.index === 2 // => true
```
# A note on time complexities
* .val()
* O(|properties|)
* .val(name)
* O(1)
* .val(name, value)
* O(1)
* .delete(name)
* O(1)
* Apply a delete operation from another user
* O(1)
* Apply an update operation from another user (set/update a property)
* Yjs does not transform against operations that do not conflict with each other.
* An operation conflicts with another operation if it changes the same property.
* Overall worst case complexety: O(|conflicts|!)
#### Example: Send relative position to remote client (Uint8Array)
# Status
Yjs is a work in progress. Different versions of the *y-* repositories may not work together. Just drop me a line if you run into troubles.
```js
const relPos = Y.createRelativePositionFromTypeIndex(ytext, 2)
const encodedRelPos = Y.encodeRelativePosition(relPos)
// send encodedRelPos to remote client..
const parsedRelPos = Y.decodeRelativePosition(encodedRelPos)
const pos = Y.createAbsolutePositionFromRelativePosition(parsedRelPos, remoteDoc)
pos.type === remoteytext // => true
pos.index === 2 // => true
```
## Get help
[![Gitter](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/y-js/yjs?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge)
<dl>
<b><code>Y.createRelativePositionFromTypeIndex(Uint8Array|Y.Type, number)</code></b>
<dd></dd>
<b><code>Y.createAbsolutePositionFromRelativePosition(RelativePosition, Y.Doc)</code></b>
<dd></dd>
<b><code>Y.encodeRelativePosition(RelativePosition):Uint8Array</code></b>
<dd></dd>
<b><code>Y.decodeRelativePosition(Uint8Array):RelativePosition</code></b>
<dd></dd>
</dl>
Please report _any_ issues to the [Github issue page](https://github.com/y-js/yjs/issues)! I try to fix them very soon, if possible.
### Y.UndoManager
## Contribution
I created this framework during my bachelor thesis at the chair of computer science 5 [(i5)](http://dbis.rwth-aachen.de/cms), RWTH University. Since December 2014 I'm working on Yjs as a part of my student worker job at the i5.
Yjs ships with an Undo/Redo manager for selective undo/redo of of changes on a
Yjs type. The changes can be optionally scoped to transaction origins.
## License
Yjs is licensed under the [MIT License](./LICENSE.txt).
```js
const ytext = doc.getArray('array')
const undoManager = new Y.UndoManager(ytext)
<yjs@dbis.rwth-aachen.de>
ytext.insert(0, 'abc')
undoManager.undo()
ytext.toString() // => ''
undoManager.redo()
ytext.toString() // => 'abc'
```
<dl>
<b><code>constructor(scope:Y.AbstractType|Array&lt;Y.AbstractType&gt;,
[[{captureTimeout:number,trackedOrigins:Set&lt;any&gt;,deleteFilter:function(item):boolean}]])</code></b>
<dd>Accepts either single type as scope or an array of types.</dd>
<b><code>undo()</code></b>
<dd></dd>
<b><code>redo()</code></b>
<dd></dd>
<b><code>stopCapturing()</code></b>
<dd></dd>
<b>
<code>
on('stack-item-added', { stackItem: { meta: Map&lt;any,any&gt; }, type: 'undo'
| 'redo' })
</code>
</b>
<dd>
Register an event that is called when a <code>StackItem</code> is added to the
undo- or the redo-stack.
</dd>
<b>
<code>
on('stack-item-popped', { stackItem: { meta: Map&lt;any,any&gt; }, type: 'undo'
| 'redo' })
</code>
</b>
<dd>
Register an event that is called when a <code>StackItem</code> is popped from
the undo- or the redo-stack.
</dd>
</dl>
#### Example: Stop Capturing
UndoManager merges Undo-StackItems if they are created within time-gap
smaller than `options.captureTimeout`. Call `um.stopCapturing()` so that the next
StackItem won't be merged.
```js
// without stopCapturing
ytext.insert(0, 'a')
ytext.insert(1, 'b')
um.undo()
ytext.toString() // => '' (note that 'ab' was removed)
// with stopCapturing
ytext.insert(0, 'a')
um.stopCapturing()
ytext.insert(0, 'b')
um.undo()
ytext.toString() // => 'a' (note that only 'b' was removed)
```
#### Example: Specify tracked origins
Every change on the shared document has an origin. If no origin was specified,
it defaults to `null`. By specifying `trackedTransactionOrigins` you can
selectively specify which changes should be tracked by `UndoManager`. The
UndoManager instance is always added to `trackedTransactionOrigins`.
```js
class CustomBinding {}
const ytext = doc.getArray('array')
const undoManager = new Y.UndoManager(ytext, new Set([42, CustomBinding]))
ytext.insert(0, 'abc')
undoManager.undo()
ytext.toString() // => 'abc' (does not track because origin `null` and not part
// of `trackedTransactionOrigins`)
ytext.delete(0, 3) // revert change
doc.transact(() => {
ytext.insert(0, 'abc')
}, 42)
undoManager.undo()
ytext.toString() // => '' (tracked because origin is an instance of `trackedTransactionorigins`)
doc.transact(() => {
ytext.insert(0, 'abc')
}, 41)
undoManager.undo()
ytext.toString() // => '' (not tracked because 41 is not an instance of
// `trackedTransactionorigins`)
ytext.delete(0, 3) // revert change
doc.transact(() => {
ytext.insert(0, 'abc')
}, new CustomBinding())
undoManager.undo()
ytext.toString() // => '' (tracked because origin is a `CustomBinding` and
// `CustomBinding` is in `trackedTransactionorigins`)
```
#### Example: Add additional information to the StackItems
When undoing or redoing a previous action, it is often expected to restore
additional meta information like the cursor location or the view on the
document. You can assign meta-information to Undo-/Redo-StackItems.
```js
const ytext = doc.getArray('array')
const undoManager = new Y.UndoManager(ytext, new Set([42, CustomBinding]))
undoManager.on('stack-item-added', event => {
// save the current cursor location on the stack-item
event.stackItem.meta.set('cursor-location', getRelativeCursorLocation())
})
undoManager.on('stack-item-popped', event => {
// restore the current cursor location on the stack-item
restoreCursorLocation(event.stackItem.meta.get('cursor-location'))
})
```
## Miscellaneous
### Typescript Declarations
Yjs has type descriptions. But until [this
ticket](https://github.com/Microsoft/TypeScript/issues/7546) is fixed, this is
how you can make use of Yjs type declarations.
```json
{
"compilerOptions": {
"allowJs": true,
"checkJs": true,
},
"maxNodeModuleJsDepth": 5
}
```
## Yjs CRDT Algorithm
*Conflict-free replicated data types* (CRDT) for collaborative editing are an
alternative approach to *operational transformation* (OT). A very simple
differenciation between the two approaches is that OT attempts to transform
index positions to ensure convergence (all clients end up with the same
content), while CRDTs use mathematical models that usually do not involve index
transformations, like linked lists. OT is currently the de-facto standard for
shared editing on text. OT approaches that support shared editing without a
central source of truth (a central server) require too much bookkeeping to be
viable in practice. CRDTs are better suited for distributed systems, provide
additional guarantees that the document can be synced with remote clients, and
do not require a central source of truth.
Yjs implements a modified version of the algorithm described in [this
paper](https://www.researchgate.net/publication/310212186_Near_Real-Time_Peer-to-Peer_Shared_Editing_on_Extensible_Data_Types).
I will eventually publish a paper that describes why this approach works so well
in practice. Note: Since operations make up the document structure, we prefer
the term *struct* now.
CRDTs suitable for shared text editing suffer from the fact that they only grow
in size. There are CRDTs that do not grow in size, but they do not have the
characteristics that are benificial for shared text editing (like intention
preservation). Yjs implements many improvements to the original algorithm that
diminish the trade-off that the document only grows in size. We can't garbage
collect deleted structs (tombstones) while ensuring a unique order of the
structs. But we can 1. merge preceeding structs into a single struct to reduce
the amount of meta information, 2. we can delete content from the struct if it
is deleted, and 3. we can garbage collect tombstones if we don't care about the
order of the structs anymore (e.g. if the parent was deleted).
**Examples:**
1. If a user inserts elements in sequence, the struct will be merged into a
single struct. E.g. `array.insert(0, ['a']), array.insert(0, ['b']);` is
first represented as two structs (`[{id: {client, clock: 0}, content: 'a'},
{id: {client, clock: 1}, content: 'b'}`) and then merged into a single
struct: `[{id: {client, clock: 0}, content: 'ab'}]`.
2. When a struct that contains content (e.g. `ItemString`) is deleted, the
struct will be replaced with an `ItemDeleted` that does not contain content
anymore.
3. When a type is deleted, all child elements are transformed to `GC` structs. A
`GC` struct only denotes the existence of a struct and that it is deleted.
`GC` structs can always be merged with other `GC` structs if the id's are
adjacent.
Especially when working on structured content (e.g. shared editing on
ProseMirror), these improvements yield very good results when
[benchmarking](https://github.com/dmonad/crdt-benchmarks) random document edits.
In practice they show even better results, because users usually edit text in
sequence, resulting in structs that can easily be merged. The benchmarks show
that even in the worst case scenario that a user edits text from right to left,
Yjs achieves good performance even for huge documents.
### State Vector
Yjs has the ability to exchange only the differences when syncing two clients.
We use lamport timestamps to identify structs and to track in which order a
client created them. Each struct has an `struct.id = { client: number, clock:
number}` that uniquely identifies a struct. We define the next expected `clock`
by each client as the *state vector*. This data structure is similar to the
[version vectors](https://en.wikipedia.org/wiki/Version_vector) data structure.
But we use state vectors only to describe the state of the local document, so we
can compute the missing struct of the remote client. We do not use it to track
causality.
## License and Author
Yjs and all related projects are [**MIT licensed**](./LICENSE).
Yjs is based on my research as a student at the [RWTH
i5](http://dbis.rwth-aachen.de/). Now I am working on Yjs in my spare time.
Fund this project by donating on [Patreon](https://www.patreon.com/dmonad) or
hiring [me](https://github.com/dmonad) for professional support.
[ShareJs]: https://github.com/share/ShareJS
[OpenCoweb]: https://github.com/opencoweb/coweb

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# ![Yjs](https://user-images.githubusercontent.com/5553757/48975307-61efb100-f06d-11e8-9177-ee895e5916e5.png)
Yjs is a framework for offline-first p2p shared editing on structured data like
text, richtext, json, or XML. It is fairly easy to get started, as Yjs hides
most of the complexity of concurrent editing. For additional information, demos,
and tutorials visit [y-js.org](http://y-js.org/).
:warning: Checkout the [v13 docs](./README.md) for the upcoming release :warning:
### Extensions
Yjs only knows how to resolve conflicts on shared data. You have to choose a ..
* *Connector* - a communication protocol that propagates changes to the clients
* *Database* - a database to store your changes
* one or more *Types* - that represent the shared data
Connectors, Databases, and Types are available as modules that extend Yjs. Here
is a list of the modules we know of:
##### Connectors
|Name | Description |
|----------------|-----------------------------------|
|[webrtc](https://github.com/y-js/y-webrtc) | Propagate updates Browser2Browser via WebRTC|
|[websockets](https://github.com/y-js/y-websockets-client) | Set up [a central server](https://github.com/y-js/y-websockets-client), and connect to it via websockets |
|[xmpp](https://github.com/y-js/y-xmpp) | Propagate updates in a XMPP multi-user-chat room ([XEP-0045](http://xmpp.org/extensions/xep-0045.html))|
|[ipfs](https://github.com/ipfs-labs/y-ipfs-connector) | Connector for the [Interplanetary File System](https://ipfs.io/)!|
|[test](https://github.com/y-js/y-test) | A Connector for testing purposes. It is designed to simulate delays that happen in worst case scenarios|
##### Database adapters
|Name | Description |
|----------------|-----------------------------------|
|[memory](https://github.com/y-js/y-memory) | In-memory storage. |
|[indexeddb](https://github.com/y-js/y-indexeddb) | Offline storage for the browser |
|[leveldb](https://github.com/y-js/y-leveldb) | Persistent storage for node apps |
##### Types
| Name | Description |
|----------|-------------------|
|[map](https://github.com/y-js/y-map) | A shared Map implementation. Maps from text to any stringify-able object |
|[array](https://github.com/y-js/y-array) | A shared Array implementation |
|[xml](https://github.com/y-js/y-xml) | An implementation of the DOM. You can create a two way binding to Browser DOM objects |
|[text](https://github.com/y-js/y-text) | Collaborate on text. Supports two way binding to the [Ace Editor](https://ace.c9.io), [CodeMirror](https://codemirror.net/), [Monaco](https://github.com/Microsoft/monaco-editor), textareas, input elements, and HTML elements (e.g. <*h1*>, or <*p*>) |
|[richtext](https://github.com/y-js/y-richtext) | Collaborate on rich text. Supports two way binding to the [Quill Rich Text Editor](http://quilljs.com/)|
##### Other
| Name | Description |
|-----------|-------------------|
|[y-element](http://y-js.org/y-element/) | Yjs Polymer Element |
## Use it!
Install Yjs, and its modules with [bower](http://bower.io/), or
[npm](https://www.npmjs.org/package/yjs).
### Bower
```
bower install --save yjs y-array % add all y-* modules you want to use
```
You only need to include the `y.js` file. Yjs is able to automatically require
missing modules.
```
<script src="./bower_components/yjs/y.js"></script>
```
### CDN
```
<script src="https://cdn.jsdelivr.net/npm/yjs@12/dist/y.js"></script>
<script src="https://cdn.jsdelivr.net/npm/y-array@10/dist/y-array.js"></script>
<script src="https://cdn.jsdelivr.net/npm/y-websockets-client@8/dist/y-websockets-client.js"></script>
<script src="https://cdn.jsdelivr.net/npm/y-memory@8/dist/y-memory.js"></script>
<script src="https://cdn.jsdelivr.net/npm/y-map@10/dist/y-map.js"></script>
<script src="https://cdn.jsdelivr.net/npm/y-text@9/dist/y-text.js"></script>
// ..
// do the same for all modules you want to use
```
### Npm
```
npm install --save yjs % add all y-* modules you want to use
```
If you don't include via script tag, you have to explicitly include all modules!
(Same goes for other module systems)
```
var Y = require('yjs')
require('y-array')(Y) // add the y-array type to Yjs
require('y-websockets-client')(Y)
require('y-memory')(Y)
require('y-map')(Y)
require('y-text')(Y)
// ..
// do the same for all modules you want to use
```
### ES6 Syntax
```
import Y from 'yjs'
import yArray from 'y-array'
import yWebsocketsClient from 'y-webrtc'
import yMemory from 'y-memory'
import yMap from 'y-map'
import yText from 'y-text'
// ..
Y.extend(yArray, yWebsocketsClient, yMemory, yArray, yMap, yText /*, .. */)
```
# Text editing example
Install dependencies
```
bower i yjs y-memory y-webrtc y-array y-text
```
Here is a simple example of a shared textarea
```HTML
<!DOCTYPE html>
<html>
<body>
<script src="./bower_components/yjs/y.js"></script>
<!-- Yjs automatically includes all missing dependencies (browser only) -->
<script>
Y({
db: {
name: 'memory' // use memory database adapter.
// name: 'indexeddb' // use indexeddb database adapter instead for offline apps
},
connector: {
name: 'webrtc', // use webrtc connector
// name: 'websockets-client'
// name: 'xmpp'
room: 'my-room' // clients connecting to the same room share data
},
sourceDir: './bower_components', // location of the y-* modules (browser only)
share: {
textarea: 'Text' // y.share.textarea is of type y-text
}
}).then(function (y) {
// The Yjs instance `y` is available
// y.share.* contains the shared types
// Bind `y.share.textarea` to `<textarea/>`
y.share.textarea.bind(document.querySelector('textarea'))
})
</script>
<textarea></textarea>
</body>
</html>
```
## Get Help & Give Help
There are some friendly people on [![Gitter](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/y-js/yjs?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge) who are eager to help, and answer questions. Please join!
Report _any_ issues to the
[Github issue page](https://github.com/y-js/yjs/issues)! I try to fix them very
soon, if possible.
# API
### Y(options)
* Y.extend(module1, module2, ..)
* Add extensions to Y
* `Y.extend(require('y-webrtc'))` has the same semantics as
`require('y-webrtc')(Y)`
* options.db
* Will be forwarded to the database adapter. Specify the database adaper on
`options.db.name`.
* Have a look at the used database adapter repository to see all available
options.
* options.connector
* Will be forwarded to the connector adapter. Specify the connector adaper on
`options.connector.name`.
* All our connectors implement a `room` property. Clients that specify the
same room share the same data.
* All of our connectors specify an `url` property that defines the connection
endpoint of the used connector.
* All of our connectors also have a default connection endpoint that you can
use for development.
* Set `options.connector.generateUserId = true` in order to genenerate a
userid, instead of receiving one from the server. This way the `Y(..)` is
immediately going to be resolved, without waiting for any confirmation from
the server. Use with caution.
* Have a look at the used connector repository to see all available options.
* *Only if you know what you are doing:* Set
`options.connector.preferUntransformed = true` in order receive the shared
data untransformed. This is very efficient as the database content is simply
copied to this client. This does only work if this client receives content
from only one client.
* options.sourceDir (browser only)
* Path where all y-* modules are stored
* Defaults to `/bower_components`
* Not required when running on `nodejs` / `iojs`
* When using nodejs you need to manually extend Yjs:
```
var Y = require('yjs')
// you have to require a db, connector, and *all* types you use!
require('y-memory')(Y)
require('y-webrtc')(Y)
require('y-map')(Y)
// ..
```
* options.share
* Specify on `options.share[arbitraryName]` types that are shared among all
users.
* E.g. Specify `options.share[arbitraryName] = 'Array'` to require y-array and
create an y-array type on `y.share[arbitraryName]`.
* If userA doesn't specify `options.share[arbitraryName]`, it won't be
available for userA.
* If userB specifies `options.share[arbitraryName]`, it still won't be
available for userA. But all the updates are send from userB to userA.
* In contrast to y-map, types on `y.share.*` cannot be overwritten or deleted.
Instead, they are merged among all users. This feature is only available on
`y.share.*`
* Weird behavior: It is supported that two users specify different types with
the same property name.
E.g. userA specifies `options.share.x = 'Array'`, and userB specifies
`options.share.x = 'Text'`. But they only share data if they specified the
same type with the same property name
* options.type (browser only)
* Array of modules that Yjs needs to require, before instantiating a shared
type.
* By default Yjs requires the specified database adapter, the specified
connector, and all modules that are used in `options.share.*`
* Put all types here that you intend to use, but are not used in y.share.*
### Instantiated Y object (y)
`Y(options)` returns a promise that is fulfilled when..
* All modules are loaded
* The specified database adapter is loaded
* The specified connector is loaded
* All types are included
* The connector is initialized, and a unique user id is set (received from the
server)
* Note: When using y-indexeddb, a retrieved user id is stored on `localStorage`
The promise returns an instance of Y. We denote it with a lower case `y`.
* y.share.*
* Instances of the types you specified on options.share.*
* y.share.* can only be defined once when you instantiate Y!
* y.connector is an instance of Y.AbstractConnector
* y.connector.onUserEvent(function (event) {..})
* Observe user events (event.action is either 'userLeft' or 'userJoined')
* y.connector.whenSynced(listener)
* `listener` is executed when y synced with at least one user.
* `listener` is not called when no other user is in the same room.
* y-websockets-client aways waits to sync with the server
* y.connector.disconnect()
* Force to disconnect this instance from the other instances
* y.connector.connect()
* Try to reconnect to the other instances (needs to be supported by the
connector)
* Not supported by y-xmpp
* y.close()
* Destroy this object.
* Destroys all types (they will throw weird errors if you still use them)
* Disconnects from the other instances (via connector)
* Returns a promise
* y.destroy()
* calls y.close()
* Removes all data from the database
* Returns a promise
* y.db.stopGarbageCollector()
* Stop the garbage collector. Call y.db.garbageCollect() to continue garbage
collection
* y.db.gc :: Boolean
* Whether gc is turned on
* y.db.gcTimeout :: Number (defaults to 50000 ms)
* Time interval between two garbage collect cycles
* It is required that all instances exchanged all messages after two garbage
collect cycles (after 100000 ms per default)
* y.db.userId :: String
* The used user id for this client. **Never overwrite this**
### Logging
Yjs uses [debug](https://github.com/visionmedia/debug) for logging. The flag
`y*` enables logging for all y-* components. You can selectively remove
components you are not interested in: E.g. The flag `y*,-y:connector-message`
will not log the long `y:connector-message` messages.
##### Enable logging in Node.js
```sh
DEBUG=y* node app.js
```
Remove the colors in order to log to a file:
```sh
DEBUG_COLORS=0 DEBUG=y* node app.js > log
```
##### Enable logging in the browser
```js
localStorage.debug = 'y*'
```
## License
Yjs is licensed under the [MIT License](./LICENSE).

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{
"name": "yjs",
"version": "0.5.3",
"homepage": "https://github.com/DadaMonad/yjs",
"authors": [
"Kevin Jahns <kevin.jahns@rwth-aachen.de>"
],
"description": "A Framework that enables Real-Time collaboration on arbitrary data structures.",
"main": [
"./y.js",
"./y-object.html",
"./build/node/y.js"
],
"keywords": [
"OT",
"collaboration",
"synchronization",
"ShareJS",
"Coweb",
"concurrency"
],
"license": "MIT",
"ignore": [
"node_modules",
"bower_components",
"test",
"extras",
"test"
],
"devDependencies": {
"y-test" : "y-test#~0.4.0"
}
}

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# Directories
### build/browser
You find the browserified (not minified) version of yjs here. This is nice for debugging, since it also includes sourcemaps. For production, however, you should use the version that you find in the main directory.
### build/node
Yjs for nodejs is located here. You can only use the submodules, or require 'y' in your node project. Also works with browserify.
### build/test
Start build/test/index.html' in your browser, to perform testing Yjs.

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<polymer-element name="y-object" hidden attributes="val connector y">
</polymer-element>
<polymer-element name="y-property" hidden attributes="val name y">
</polymer-element>
<script src="./y-object.js"></script>

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var ConnectorClass, adaptConnector;
ConnectorClass = require("./ConnectorClass");
adaptConnector = function(connector, engine, HB, execution_listener) {
var applyHB, encode_state_vector, f, getHB, getStateVector, name, parse_state_vector, send_;
for (name in ConnectorClass) {
f = ConnectorClass[name];
connector[name] = f;
}
encode_state_vector = function(v) {
var results, value;
results = [];
for (name in v) {
value = v[name];
results.push({
user: name,
state: value
});
}
return results;
};
parse_state_vector = function(v) {
var i, len, s, state_vector;
state_vector = {};
for (i = 0, len = v.length; i < len; i++) {
s = v[i];
state_vector[s.user] = s.state;
}
return state_vector;
};
getStateVector = function() {
return encode_state_vector(HB.getOperationCounter());
};
getHB = function(v) {
var hb, json, state_vector;
state_vector = parse_state_vector(v);
hb = HB._encode(state_vector);
json = {
hb: hb,
state_vector: encode_state_vector(HB.getOperationCounter())
};
return json;
};
applyHB = function(hb, fromHB) {
return engine.applyOp(hb, fromHB);
};
connector.getStateVector = getStateVector;
connector.getHB = getHB;
connector.applyHB = applyHB;
if (connector.receive_handlers == null) {
connector.receive_handlers = [];
}
connector.receive_handlers.push(function(sender, op) {
if (op.uid.creator !== HB.getUserId()) {
return engine.applyOp(op);
}
});
connector.setIsBoundToY();
send_ = function(o) {
if ((o.uid.creator === HB.getUserId()) && (typeof o.uid.op_number !== "string") && (HB.getUserId() !== "_temp")) {
return connector.broadcast(o);
}
};
if (connector.invokeSync != null) {
HB.setInvokeSyncHandler(connector.invokeSync);
}
return execution_listener.push(send_);
};
module.exports = adaptConnector;

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module.exports = {
init: function(options) {
var req;
req = (function(_this) {
return function(name, choices) {
if (options[name] != null) {
if ((choices == null) || choices.some(function(c) {
return c === options[name];
})) {
return _this[name] = options[name];
} else {
throw new Error("You can set the '" + name + "' option to one of the following choices: " + JSON.encode(choices));
}
} else {
throw new Error("You must specify " + name + ", when initializing the Connector!");
}
};
})(this);
req("syncMethod", ["syncAll", "master-slave"]);
req("role", ["master", "slave"]);
req("user_id");
if (typeof this.on_user_id_set === "function") {
this.on_user_id_set(this.user_id);
}
if (options.perform_send_again != null) {
this.perform_send_again = options.perform_send_again;
} else {
this.perform_send_again = true;
}
if (this.role === "master") {
this.syncMethod = "syncAll";
}
this.is_synced = false;
this.connections = {};
if (this.receive_handlers == null) {
this.receive_handlers = [];
}
this.connections = {};
this.current_sync_target = null;
this.sent_hb_to_all_users = false;
return this.is_initialized = true;
},
onUserEvent: function(f) {
if (this.connections_listeners == null) {
this.connections_listeners = [];
}
return this.connections_listeners.push(f);
},
isRoleMaster: function() {
return this.role === "master";
},
isRoleSlave: function() {
return this.role === "slave";
},
findNewSyncTarget: function() {
var c, ref, user;
this.current_sync_target = null;
if (this.syncMethod === "syncAll") {
ref = this.connections;
for (user in ref) {
c = ref[user];
if (!c.is_synced) {
this.performSync(user);
break;
}
}
}
if (this.current_sync_target == null) {
this.setStateSynced();
}
return null;
},
userLeft: function(user) {
var f, i, len, ref, results;
delete this.connections[user];
this.findNewSyncTarget();
if (this.connections_listeners != null) {
ref = this.connections_listeners;
results = [];
for (i = 0, len = ref.length; i < len; i++) {
f = ref[i];
results.push(f({
action: "userLeft",
user: user
}));
}
return results;
}
},
userJoined: function(user, role) {
var base, f, i, len, ref, results;
if (role == null) {
throw new Error("Internal: You must specify the role of the joined user! E.g. userJoined('uid:3939','slave')");
}
if ((base = this.connections)[user] == null) {
base[user] = {};
}
this.connections[user].is_synced = false;
if ((!this.is_synced) || this.syncMethod === "syncAll") {
if (this.syncMethod === "syncAll") {
this.performSync(user);
} else if (role === "master") {
this.performSyncWithMaster(user);
}
}
if (this.connections_listeners != null) {
ref = this.connections_listeners;
results = [];
for (i = 0, len = ref.length; i < len; i++) {
f = ref[i];
results.push(f({
action: "userJoined",
user: user,
role: role
}));
}
return results;
}
},
whenSynced: function(args) {
if (args.constructor === Function) {
args = [args];
}
if (this.is_synced) {
return args[0].apply(this, args.slice(1));
} else {
if (this.compute_when_synced == null) {
this.compute_when_synced = [];
}
return this.compute_when_synced.push(args);
}
},
onReceive: function(f) {
return this.receive_handlers.push(f);
},
/*
* Broadcast a message to all connected peers.
* @param message {Object} The message to broadcast.
#
broadcast: (message)->
throw new Error "You must implement broadcast!"
#
* Send a message to a peer, or set of peers
#
send: (peer_s, message)->
throw new Error "You must implement send!"
*/
performSync: function(user) {
var _hb, hb, i, len, o;
if (this.current_sync_target == null) {
this.current_sync_target = user;
this.send(user, {
sync_step: "getHB",
send_again: "true",
data: this.getStateVector()
});
if (!this.sent_hb_to_all_users) {
this.sent_hb_to_all_users = true;
hb = this.getHB([]).hb;
_hb = [];
for (i = 0, len = hb.length; i < len; i++) {
o = hb[i];
_hb.push(o);
if (_hb.length > 10) {
this.broadcast({
sync_step: "applyHB_",
data: _hb
});
_hb = [];
}
}
return this.broadcast({
sync_step: "applyHB",
data: _hb
});
}
}
},
performSyncWithMaster: function(user) {
var _hb, hb, i, len, o;
this.current_sync_target = user;
this.send(user, {
sync_step: "getHB",
send_again: "true",
data: this.getStateVector()
});
hb = this.getHB([]).hb;
_hb = [];
for (i = 0, len = hb.length; i < len; i++) {
o = hb[i];
_hb.push(o);
if (_hb.length > 10) {
this.broadcast({
sync_step: "applyHB_",
data: _hb
});
_hb = [];
}
}
return this.broadcast({
sync_step: "applyHB",
data: _hb
});
},
setStateSynced: function() {
var args, el, f, i, len, ref;
if (!this.is_synced) {
this.is_synced = true;
if (this.compute_when_synced != null) {
ref = this.compute_when_synced;
for (i = 0, len = ref.length; i < len; i++) {
el = ref[i];
f = el[0];
args = el.slice(1);
f.apply(args);
}
delete this.compute_when_synced;
}
return null;
}
},
whenReceivedStateVector: function(f) {
if (this.when_received_state_vector_listeners == null) {
this.when_received_state_vector_listeners = [];
}
return this.when_received_state_vector_listeners.push(f);
},
receiveMessage: function(sender, res) {
var _hb, data, f, hb, i, j, k, len, len1, len2, o, ref, ref1, results, sendApplyHB, send_again;
if (res.sync_step == null) {
ref = this.receive_handlers;
results = [];
for (i = 0, len = ref.length; i < len; i++) {
f = ref[i];
results.push(f(sender, res));
}
return results;
} else {
if (sender === this.user_id) {
return;
}
if (res.sync_step === "getHB") {
if (this.when_received_state_vector_listeners != null) {
ref1 = this.when_received_state_vector_listeners;
for (j = 0, len1 = ref1.length; j < len1; j++) {
f = ref1[j];
f.call(this, res.data);
}
}
delete this.when_received_state_vector_listeners;
data = this.getHB(res.data);
hb = data.hb;
_hb = [];
if (this.is_synced) {
sendApplyHB = (function(_this) {
return function(m) {
return _this.send(sender, m);
};
})(this);
} else {
sendApplyHB = (function(_this) {
return function(m) {
return _this.broadcast(m);
};
})(this);
}
for (k = 0, len2 = hb.length; k < len2; k++) {
o = hb[k];
_hb.push(o);
if (_hb.length > 10) {
sendApplyHB({
sync_step: "applyHB_",
data: _hb
});
_hb = [];
}
}
sendApplyHB({
sync_step: "applyHB",
data: _hb
});
if ((res.send_again != null) && this.perform_send_again) {
send_again = (function(_this) {
return function(sv) {
return function() {
var l, len3;
hb = _this.getHB(sv).hb;
for (l = 0, len3 = hb.length; l < len3; l++) {
o = hb[l];
_hb.push(o);
if (_hb.length > 10) {
_this.send(sender, {
sync_step: "applyHB_",
data: _hb
});
_hb = [];
}
}
return _this.send(sender, {
sync_step: "applyHB",
data: _hb,
sent_again: "true"
});
};
};
})(this)(data.state_vector);
return setTimeout(send_again, 3000);
}
} else if (res.sync_step === "applyHB") {
this.applyHB(res.data, sender === this.current_sync_target);
if ((this.syncMethod === "syncAll" || (res.sent_again != null)) && (!this.is_synced) && ((this.current_sync_target === sender) || (this.current_sync_target == null))) {
this.connections[sender].is_synced = true;
return this.findNewSyncTarget();
}
} else if (res.sync_step === "applyHB_") {
return this.applyHB(res.data, sender === this.current_sync_target);
}
}
},
parseMessageFromXml: function(m) {
var parse_array, parse_object;
parse_array = function(node) {
var i, len, n, ref, results;
ref = node.children;
results = [];
for (i = 0, len = ref.length; i < len; i++) {
n = ref[i];
if (n.getAttribute("isArray") === "true") {
results.push(parse_array(n));
} else {
results.push(parse_object(n));
}
}
return results;
};
parse_object = function(node) {
var i, int, json, len, n, name, ref, ref1, value;
json = {};
ref = node.attrs;
for (name in ref) {
value = ref[name];
int = parseInt(value);
if (isNaN(int) || ("" + int) !== value) {
json[name] = value;
} else {
json[name] = int;
}
}
ref1 = node.children;
for (i = 0, len = ref1.length; i < len; i++) {
n = ref1[i];
name = n.name;
if (n.getAttribute("isArray") === "true") {
json[name] = parse_array(n);
} else {
json[name] = parse_object(n);
}
}
return json;
};
return parse_object(m);
},
encodeMessageToXml: function(m, json) {
var encode_array, encode_object;
encode_object = function(m, json) {
var name, value;
for (name in json) {
value = json[name];
if (value == null) {
} else if (value.constructor === Object) {
encode_object(m.c(name), value);
} else if (value.constructor === Array) {
encode_array(m.c(name), value);
} else {
m.setAttribute(name, value);
}
}
return m;
};
encode_array = function(m, array) {
var e, i, len;
m.setAttribute("isArray", "true");
for (i = 0, len = array.length; i < len; i++) {
e = array[i];
if (e.constructor === Object) {
encode_object(m.c("array-element"), e);
} else {
encode_array(m.c("array-element"), e);
}
}
return m;
};
if (json.constructor === Object) {
return encode_object(m.c("y", {
xmlns: "http://y.ninja/connector-stanza"
}), json);
} else if (json.constructor === Array) {
return encode_array(m.c("y", {
xmlns: "http://y.ninja/connector-stanza"
}), json);
} else {
throw new Error("I can't encode this json!");
}
},
setIsBoundToY: function() {
if (typeof this.on_bound_to_y === "function") {
this.on_bound_to_y();
}
delete this.when_bound_to_y;
return this.is_bound_to_y = true;
}
};

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var Engine;
if (typeof window !== "undefined" && window !== null) {
window.unprocessed_counter = 0;
}
if (typeof window !== "undefined" && window !== null) {
window.unprocessed_exec_counter = 0;
}
if (typeof window !== "undefined" && window !== null) {
window.unprocessed_types = [];
}
Engine = (function() {
function Engine(HB, types) {
this.HB = HB;
this.types = types;
this.unprocessed_ops = [];
}
Engine.prototype.parseOperation = function(json) {
var type;
type = this.types[json.type];
if ((type != null ? type.parse : void 0) != null) {
return type.parse(json);
} else {
throw new Error("You forgot to specify a parser for type " + json.type + ". The message is " + (JSON.stringify(json)) + ".");
}
};
/*
applyOpsBundle: (ops_json)->
ops = []
for o in ops_json
ops.push @parseOperation o
for o in ops
if not o.execute()
@unprocessed_ops.push o
@tryUnprocessed()
*/
Engine.prototype.applyOpsCheckDouble = function(ops_json) {
var i, len, o, results;
results = [];
for (i = 0, len = ops_json.length; i < len; i++) {
o = ops_json[i];
if (this.HB.getOperation(o.uid) == null) {
results.push(this.applyOp(o));
} else {
results.push(void 0);
}
}
return results;
};
Engine.prototype.applyOps = function(ops_json) {
return this.applyOp(ops_json);
};
Engine.prototype.applyOp = function(op_json_array, fromHB) {
var i, len, o, op_json;
if (fromHB == null) {
fromHB = false;
}
if (op_json_array.constructor !== Array) {
op_json_array = [op_json_array];
}
for (i = 0, len = op_json_array.length; i < len; i++) {
op_json = op_json_array[i];
if (fromHB) {
op_json.fromHB = "true";
}
o = this.parseOperation(op_json);
o.parsed_from_json = op_json;
if (op_json.fromHB != null) {
o.fromHB = op_json.fromHB;
}
if (this.HB.getOperation(o) != null) {
} else if (((!this.HB.isExpectedOperation(o)) && (o.fromHB == null)) || (!o.execute())) {
this.unprocessed_ops.push(o);
if (typeof window !== "undefined" && window !== null) {
window.unprocessed_types.push(o.type);
}
}
}
return this.tryUnprocessed();
};
Engine.prototype.tryUnprocessed = function() {
var i, len, old_length, op, ref, unprocessed;
while (true) {
old_length = this.unprocessed_ops.length;
unprocessed = [];
ref = this.unprocessed_ops;
for (i = 0, len = ref.length; i < len; i++) {
op = ref[i];
if (this.HB.getOperation(op) != null) {
} else if ((!this.HB.isExpectedOperation(op) && (op.fromHB == null)) || (!op.execute())) {
unprocessed.push(op);
}
}
this.unprocessed_ops = unprocessed;
if (this.unprocessed_ops.length === old_length) {
break;
}
}
if (this.unprocessed_ops.length !== 0) {
return this.HB.invokeSync();
}
};
return Engine;
})();
module.exports = Engine;

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var HistoryBuffer,
bind = function(fn, me){ return function(){ return fn.apply(me, arguments); }; };
HistoryBuffer = (function() {
function HistoryBuffer(user_id1) {
this.user_id = user_id1;
this.emptyGarbage = bind(this.emptyGarbage, this);
this.operation_counter = {};
this.buffer = {};
this.change_listeners = [];
this.garbage = [];
this.trash = [];
this.performGarbageCollection = true;
this.garbageCollectTimeout = 30000;
this.reserved_identifier_counter = 0;
setTimeout(this.emptyGarbage, this.garbageCollectTimeout);
}
HistoryBuffer.prototype.setUserId = function(user_id1, state_vector) {
var base, buff, counter_diff, name, o, o_name, ref;
this.user_id = user_id1;
if ((base = this.buffer)[name = this.user_id] == null) {
base[name] = [];
}
buff = this.buffer[this.user_id];
counter_diff = state_vector[this.user_id] || 0;
if (this.buffer._temp != null) {
ref = this.buffer._temp;
for (o_name in ref) {
o = ref[o_name];
o.uid.creator = this.user_id;
o.uid.op_number += counter_diff;
buff[o.uid.op_number] = o;
}
}
this.operation_counter[this.user_id] = (this.operation_counter._temp || 0) + counter_diff;
delete this.operation_counter._temp;
return delete this.buffer._temp;
};
HistoryBuffer.prototype.emptyGarbage = function() {
var i, len, o, ref;
ref = this.garbage;
for (i = 0, len = ref.length; i < len; i++) {
o = ref[i];
if (typeof o.cleanup === "function") {
o.cleanup();
}
}
this.garbage = this.trash;
this.trash = [];
if (this.garbageCollectTimeout !== -1) {
this.garbageCollectTimeoutId = setTimeout(this.emptyGarbage, this.garbageCollectTimeout);
}
return void 0;
};
HistoryBuffer.prototype.getUserId = function() {
return this.user_id;
};
HistoryBuffer.prototype.addToGarbageCollector = function() {
var i, len, o, results;
if (this.performGarbageCollection) {
results = [];
for (i = 0, len = arguments.length; i < len; i++) {
o = arguments[i];
if (o != null) {
results.push(this.garbage.push(o));
} else {
results.push(void 0);
}
}
return results;
}
};
HistoryBuffer.prototype.stopGarbageCollection = function() {
this.performGarbageCollection = false;
this.setManualGarbageCollect();
this.garbage = [];
return this.trash = [];
};
HistoryBuffer.prototype.setManualGarbageCollect = function() {
this.garbageCollectTimeout = -1;
clearTimeout(this.garbageCollectTimeoutId);
return this.garbageCollectTimeoutId = void 0;
};
HistoryBuffer.prototype.setGarbageCollectTimeout = function(garbageCollectTimeout) {
this.garbageCollectTimeout = garbageCollectTimeout;
};
HistoryBuffer.prototype.getReservedUniqueIdentifier = function() {
return {
creator: '_',
op_number: "_" + (this.reserved_identifier_counter++)
};
};
HistoryBuffer.prototype.getOperationCounter = function(user_id) {
var ctn, ref, res, user;
if (user_id == null) {
res = {};
ref = this.operation_counter;
for (user in ref) {
ctn = ref[user];
res[user] = ctn;
}
return res;
} else {
return this.operation_counter[user_id];
}
};
HistoryBuffer.prototype.isExpectedOperation = function(o) {
var base, name;
if ((base = this.operation_counter)[name = o.uid.creator] == null) {
base[name] = 0;
}
o.uid.op_number <= this.operation_counter[o.uid.creator];
return true;
};
HistoryBuffer.prototype._encode = function(state_vector) {
var json, o, o_json, o_next, o_number, o_prev, ref, u_name, unknown, user;
if (state_vector == null) {
state_vector = {};
}
json = [];
unknown = function(user, o_number) {
if ((user == null) || (o_number == null)) {
throw new Error("dah!");
}
return (state_vector[user] == null) || state_vector[user] <= o_number;
};
ref = this.buffer;
for (u_name in ref) {
user = ref[u_name];
if (u_name === "_") {
continue;
}
for (o_number in user) {
o = user[o_number];
if ((o.uid.noOperation == null) && unknown(u_name, o_number)) {
o_json = o._encode();
if (o.next_cl != null) {
o_next = o.next_cl;
while ((o_next.next_cl != null) && unknown(o_next.uid.creator, o_next.uid.op_number)) {
o_next = o_next.next_cl;
}
o_json.next = o_next.getUid();
} else if (o.prev_cl != null) {
o_prev = o.prev_cl;
while ((o_prev.prev_cl != null) && unknown(o_prev.uid.creator, o_prev.uid.op_number)) {
o_prev = o_prev.prev_cl;
}
o_json.prev = o_prev.getUid();
}
json.push(o_json);
}
}
}
return json;
};
HistoryBuffer.prototype.getNextOperationIdentifier = function(user_id) {
var uid;
if (user_id == null) {
user_id = this.user_id;
}
if (this.operation_counter[user_id] == null) {
this.operation_counter[user_id] = 0;
}
uid = {
'creator': user_id,
'op_number': this.operation_counter[user_id]
};
this.operation_counter[user_id]++;
return uid;
};
HistoryBuffer.prototype.getOperation = function(uid) {
var o, ref;
if (uid.uid != null) {
uid = uid.uid;
}
o = (ref = this.buffer[uid.creator]) != null ? ref[uid.op_number] : void 0;
if ((uid.sub != null) && (o != null)) {
return o.retrieveSub(uid.sub);
} else {
return o;
}
};
HistoryBuffer.prototype.addOperation = function(o) {
if (this.buffer[o.uid.creator] == null) {
this.buffer[o.uid.creator] = {};
}
if (this.buffer[o.uid.creator][o.uid.op_number] != null) {
throw new Error("You must not overwrite operations!");
}
if ((o.uid.op_number.constructor !== String) && (!this.isExpectedOperation(o)) && (o.fromHB == null)) {
throw new Error("this operation was not expected!");
}
this.addToCounter(o);
this.buffer[o.uid.creator][o.uid.op_number] = o;
return o;
};
HistoryBuffer.prototype.removeOperation = function(o) {
var ref;
return (ref = this.buffer[o.uid.creator]) != null ? delete ref[o.uid.op_number] : void 0;
};
HistoryBuffer.prototype.setInvokeSyncHandler = function(f) {
return this.invokeSync = f;
};
HistoryBuffer.prototype.invokeSync = function() {};
HistoryBuffer.prototype.renewStateVector = function(state_vector) {
var results, state, user;
results = [];
for (user in state_vector) {
state = state_vector[user];
if (((this.operation_counter[user] == null) || (this.operation_counter[user] < state_vector[user])) && (state_vector[user] != null)) {
results.push(this.operation_counter[user] = state_vector[user]);
} else {
results.push(void 0);
}
}
return results;
};
HistoryBuffer.prototype.addToCounter = function(o) {
var base, name;
if ((base = this.operation_counter)[name = o.uid.creator] == null) {
base[name] = 0;
}
if (o.uid.op_number === this.operation_counter[o.uid.creator]) {
this.operation_counter[o.uid.creator]++;
}
while (this.buffer[o.uid.creator][this.operation_counter[o.uid.creator]] != null) {
this.operation_counter[o.uid.creator]++;
}
return void 0;
};
return HistoryBuffer;
})();
module.exports = HistoryBuffer;

91
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var YObject;
YObject = (function() {
function YObject(_object) {
var name, ref, val;
this._object = _object != null ? _object : {};
if (this._object.constructor === Object) {
ref = this._object;
for (name in ref) {
val = ref[name];
if (val.constructor === Object) {
this._object[name] = new YObject(val);
}
}
} else {
throw new Error("Y.Object accepts Json Objects only");
}
}
YObject.prototype._name = "Object";
YObject.prototype._getModel = function(types, ops) {
var n, o, ref;
if (this._model == null) {
this._model = new ops.MapManager(this).execute();
ref = this._object;
for (n in ref) {
o = ref[n];
this._model.val(n, o);
}
}
delete this._object;
return this._model;
};
YObject.prototype._setModel = function(_model) {
this._model = _model;
return delete this._object;
};
YObject.prototype.observe = function(f) {
this._model.observe(f);
return this;
};
YObject.prototype.unobserve = function(f) {
this._model.unobserve(f);
return this;
};
YObject.prototype.val = function(name, content) {
var n, ref, res, v;
if (this._model != null) {
return this._model.val.apply(this._model, arguments);
} else {
if (content != null) {
return this._object[name] = content;
} else if (name != null) {
return this._object[name];
} else {
res = {};
ref = this._object;
for (n in ref) {
v = ref[n];
res[n] = v;
}
return res;
}
}
};
YObject.prototype["delete"] = function(name) {
this._model["delete"](name);
return this;
};
return YObject;
})();
if (typeof window !== "undefined" && window !== null) {
if (window.Y != null) {
window.Y.Object = YObject;
} else {
throw new Error("You must first import Y!");
}
}
if (typeof module !== "undefined" && module !== null) {
module.exports = YObject;
}

670
build/node/Operations/Basic.js Normal file
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var slice = [].slice,
extend = function(child, parent) { for (var key in parent) { if (hasProp.call(parent, key)) child[key] = parent[key]; } function ctor() { this.constructor = child; } ctor.prototype = parent.prototype; child.prototype = new ctor(); child.__super__ = parent.prototype; return child; },
hasProp = {}.hasOwnProperty;
module.exports = function() {
var execution_listener, ops;
ops = {};
execution_listener = [];
ops.Operation = (function() {
function Operation(custom_type, uid, content, content_operations) {
var name, op;
if (custom_type != null) {
this.custom_type = custom_type;
}
this.is_deleted = false;
this.garbage_collected = false;
this.event_listeners = [];
if (uid != null) {
this.uid = uid;
}
if (content === void 0) {
} else if ((content != null) && (content.creator != null)) {
this.saveOperation('content', content);
} else {
this.content = content;
}
if (content_operations != null) {
this.content_operations = {};
for (name in content_operations) {
op = content_operations[name];
this.saveOperation(name, op, 'content_operations');
}
}
}
Operation.prototype.type = "Operation";
Operation.prototype.getContent = function(name) {
var content, n, ref, ref1, v;
if (this.content != null) {
if (this.content.getCustomType != null) {
return this.content.getCustomType();
} else if (this.content.constructor === Object) {
if (name != null) {
if (this.content[name] != null) {
return this.content[name];
} else {
return this.content_operations[name].getCustomType();
}
} else {
content = {};
ref = this.content;
for (n in ref) {
v = ref[n];
content[n] = v;
}
if (this.content_operations != null) {
ref1 = this.content_operations;
for (n in ref1) {
v = ref1[n];
v = v.getCustomType();
content[n] = v;
}
}
return content;
}
} else {
return this.content;
}
} else {
return this.content;
}
};
Operation.prototype.retrieveSub = function() {
throw new Error("sub properties are not enable on this operation type!");
};
Operation.prototype.observe = function(f) {
return this.event_listeners.push(f);
};
Operation.prototype.unobserve = function(f) {
return this.event_listeners = this.event_listeners.filter(function(g) {
return f !== g;
});
};
Operation.prototype.deleteAllObservers = function() {
return this.event_listeners = [];
};
Operation.prototype["delete"] = function() {
(new ops.Delete(void 0, this)).execute();
return null;
};
Operation.prototype.callEvent = function() {
var callon;
if (this.custom_type != null) {
callon = this.getCustomType();
} else {
callon = this;
}
return this.forwardEvent.apply(this, [callon].concat(slice.call(arguments)));
};
Operation.prototype.forwardEvent = function() {
var args, f, j, len, op, ref, results;
op = arguments[0], args = 2 <= arguments.length ? slice.call(arguments, 1) : [];
ref = this.event_listeners;
results = [];
for (j = 0, len = ref.length; j < len; j++) {
f = ref[j];
results.push(f.call.apply(f, [op].concat(slice.call(args))));
}
return results;
};
Operation.prototype.isDeleted = function() {
return this.is_deleted;
};
Operation.prototype.applyDelete = function(garbagecollect) {
if (garbagecollect == null) {
garbagecollect = true;
}
if (!this.garbage_collected) {
this.is_deleted = true;
if (garbagecollect) {
this.garbage_collected = true;
return this.HB.addToGarbageCollector(this);
}
}
};
Operation.prototype.cleanup = function() {
this.HB.removeOperation(this);
return this.deleteAllObservers();
};
Operation.prototype.setParent = function(parent1) {
this.parent = parent1;
};
Operation.prototype.getParent = function() {
return this.parent;
};
Operation.prototype.getUid = function() {
var map_uid;
if (this.uid.noOperation == null) {
return this.uid;
} else {
if (this.uid.alt != null) {
map_uid = this.uid.alt.cloneUid();
map_uid.sub = this.uid.sub;
return map_uid;
} else {
return void 0;
}
}
};
Operation.prototype.cloneUid = function() {
var n, ref, uid, v;
uid = {};
ref = this.getUid();
for (n in ref) {
v = ref[n];
uid[n] = v;
}
return uid;
};
Operation.prototype.execute = function() {
var j, l, len;
if (this.validateSavedOperations()) {
this.is_executed = true;
if (this.uid == null) {
this.uid = this.HB.getNextOperationIdentifier();
}
if (this.uid.noOperation == null) {
this.HB.addOperation(this);
for (j = 0, len = execution_listener.length; j < len; j++) {
l = execution_listener[j];
l(this._encode());
}
}
return this;
} else {
return false;
}
};
Operation.prototype.saveOperation = function(name, op, base) {
var base1, dest, j, last_path, len, path, paths;
if (base == null) {
base = "this";
}
if ((op != null) && (op._getModel != null)) {
op = op._getModel(this.custom_types, this.operations);
}
if (op == null) {
} else if ((op.execute != null) || !((op.op_number != null) && (op.creator != null))) {
if (base === "this") {
return this[name] = op;
} else {
dest = this[base];
paths = name.split("/");
last_path = paths.pop();
for (j = 0, len = paths.length; j < len; j++) {
path = paths[j];
dest = dest[path];
}
return dest[last_path] = op;
}
} else {
if (this.unchecked == null) {
this.unchecked = {};
}
if ((base1 = this.unchecked)[base] == null) {
base1[base] = {};
}
return this.unchecked[base][name] = op;
}
};
Operation.prototype.validateSavedOperations = function() {
var base, base_name, dest, j, last_path, len, name, op, op_uid, path, paths, ref, success, uninstantiated;
uninstantiated = {};
success = true;
ref = this.unchecked;
for (base_name in ref) {
base = ref[base_name];
for (name in base) {
op_uid = base[name];
op = this.HB.getOperation(op_uid);
if (op) {
if (base_name === "this") {
this[name] = op;
} else {
dest = this[base_name];
paths = name.split("/");
last_path = paths.pop();
for (j = 0, len = paths.length; j < len; j++) {
path = paths[j];
dest = dest[path];
}
dest[last_path] = op;
}
} else {
if (uninstantiated[base_name] == null) {
uninstantiated[base_name] = {};
}
uninstantiated[base_name][name] = op_uid;
success = false;
}
}
}
if (!success) {
this.unchecked = uninstantiated;
return false;
} else {
delete this.unchecked;
return this;
}
};
Operation.prototype.getCustomType = function() {
var Type, j, len, ref, t;
if (this.custom_type == null) {
return this;
} else {
if (this.custom_type.constructor === String) {
Type = this.custom_types;
ref = this.custom_type.split(".");
for (j = 0, len = ref.length; j < len; j++) {
t = ref[j];
Type = Type[t];
}
this.custom_type = new Type();
this.custom_type._setModel(this);
}
return this.custom_type;
}
};
Operation.prototype._encode = function(json) {
var n, o, operations, ref, ref1;
if (json == null) {
json = {};
}
json.type = this.type;
json.uid = this.getUid();
if (this.custom_type != null) {
if (this.custom_type.constructor === String) {
json.custom_type = this.custom_type;
} else {
json.custom_type = this.custom_type._name;
}
}
if (((ref = this.content) != null ? ref.getUid : void 0) != null) {
json.content = this.content.getUid();
} else {
json.content = this.content;
}
if (this.content_operations != null) {
operations = {};
ref1 = this.content_operations;
for (n in ref1) {
o = ref1[n];
if (o._getModel != null) {
o = o._getModel(this.custom_types, this.operations);
}
operations[n] = o.getUid();
}
json.content_operations = operations;
}
return json;
};
return Operation;
})();
ops.Delete = (function(superClass) {
extend(Delete, superClass);
function Delete(custom_type, uid, deletes) {
this.saveOperation('deletes', deletes);
Delete.__super__.constructor.call(this, custom_type, uid);
}
Delete.prototype.type = "Delete";
Delete.prototype._encode = function() {
return {
'type': "Delete",
'uid': this.getUid(),
'deletes': this.deletes.getUid()
};
};
Delete.prototype.execute = function() {
var res;
if (this.validateSavedOperations()) {
res = Delete.__super__.execute.apply(this, arguments);
if (res) {
this.deletes.applyDelete(this);
}
return res;
} else {
return false;
}
};
return Delete;
})(ops.Operation);
ops.Delete.parse = function(o) {
var deletes_uid, uid;
uid = o['uid'], deletes_uid = o['deletes'];
return new this(null, uid, deletes_uid);
};
ops.Insert = (function(superClass) {
extend(Insert, superClass);
function Insert(custom_type, content, content_operations, parent, uid, prev_cl, next_cl, origin) {
this.saveOperation('parent', parent);
this.saveOperation('prev_cl', prev_cl);
this.saveOperation('next_cl', next_cl);
if (origin != null) {
this.saveOperation('origin', origin);
} else {
this.saveOperation('origin', prev_cl);
}
Insert.__super__.constructor.call(this, custom_type, uid, content, content_operations);
}
Insert.prototype.type = "Insert";
Insert.prototype.val = function() {
return this.getContent();
};
Insert.prototype.getNext = function(i) {
var n;
if (i == null) {
i = 1;
}
n = this;
while (i > 0 && (n.next_cl != null)) {
n = n.next_cl;
if (!n.is_deleted) {
i--;
}
}
if (n.is_deleted) {
null;
}
return n;
};
Insert.prototype.getPrev = function(i) {
var n;
if (i == null) {
i = 1;
}
n = this;
while (i > 0 && (n.prev_cl != null)) {
n = n.prev_cl;
if (!n.is_deleted) {
i--;
}
}
if (n.is_deleted) {
return null;
} else {
return n;
}
};
Insert.prototype.applyDelete = function(o) {
var callLater, garbagecollect;
if (this.deleted_by == null) {
this.deleted_by = [];
}
callLater = false;
if ((this.parent != null) && !this.is_deleted && (o != null)) {
callLater = true;
}
if (o != null) {
this.deleted_by.push(o);
}
garbagecollect = false;
if (this.next_cl.isDeleted()) {
garbagecollect = true;
}
Insert.__super__.applyDelete.call(this, garbagecollect);
if (callLater) {
this.parent.callOperationSpecificDeleteEvents(this, o);
}
if ((this.prev_cl != null) && this.prev_cl.isDeleted() && this.prev_cl.garbage_collected !== true) {
return this.prev_cl.applyDelete();
}
};
Insert.prototype.cleanup = function() {
var d, j, len, o, ref;
if (this.next_cl.isDeleted()) {
ref = this.deleted_by;
for (j = 0, len = ref.length; j < len; j++) {
d = ref[j];
d.cleanup();
}
o = this.next_cl;
while (o.type !== "Delimiter") {
if (o.origin === this) {
o.origin = this.prev_cl;
}
o = o.next_cl;
}
this.prev_cl.next_cl = this.next_cl;
this.next_cl.prev_cl = this.prev_cl;
if (this.content instanceof ops.Operation && !(this.content instanceof ops.Insert)) {
this.content.referenced_by--;
if (this.content.referenced_by <= 0 && !this.content.is_deleted) {
this.content.applyDelete();
}
}
delete this.content;
return Insert.__super__.cleanup.apply(this, arguments);
}
};
Insert.prototype.getDistanceToOrigin = function() {
var d, o;
d = 0;
o = this.prev_cl;
while (true) {
if (this.origin === o) {
break;
}
d++;
o = o.prev_cl;
}
return d;
};
Insert.prototype.execute = function() {
var base1, distance_to_origin, i, o;
if (!this.validateSavedOperations()) {
return false;
} else {
if (this.content instanceof ops.Operation) {
this.content.insert_parent = this;
if ((base1 = this.content).referenced_by == null) {
base1.referenced_by = 0;
}
this.content.referenced_by++;
}
if (this.parent != null) {
if (this.prev_cl == null) {
this.prev_cl = this.parent.beginning;
}
if (this.origin == null) {
this.origin = this.prev_cl;
} else if (this.origin === "Delimiter") {
this.origin = this.parent.beginning;
}
if (this.next_cl == null) {
this.next_cl = this.parent.end;
}
}
if (this.prev_cl != null) {
distance_to_origin = this.getDistanceToOrigin();
o = this.prev_cl.next_cl;
i = distance_to_origin;
while (true) {
if (o !== this.next_cl) {
if (o.getDistanceToOrigin() === i) {
if (o.uid.creator < this.uid.creator) {
this.prev_cl = o;
distance_to_origin = i + 1;
} else {
}
} else if (o.getDistanceToOrigin() < i) {
if (i - distance_to_origin <= o.getDistanceToOrigin()) {
this.prev_cl = o;
distance_to_origin = i + 1;
} else {
}
} else {
break;
}
i++;
o = o.next_cl;
} else {
break;
}
}
this.next_cl = this.prev_cl.next_cl;
this.prev_cl.next_cl = this;
this.next_cl.prev_cl = this;
}
this.setParent(this.prev_cl.getParent());
Insert.__super__.execute.apply(this, arguments);
this.parent.callOperationSpecificInsertEvents(this);
return this;
}
};
Insert.prototype.getPosition = function() {
var position, prev;
position = 0;
prev = this.prev_cl;
while (true) {
if (prev instanceof ops.Delimiter) {
break;
}
if (!prev.isDeleted()) {
position++;
}
prev = prev.prev_cl;
}
return position;
};
Insert.prototype._encode = function(json) {
if (json == null) {
json = {};
}
json.prev = this.prev_cl.getUid();
json.next = this.next_cl.getUid();
if (this.origin.type === "Delimiter") {
json.origin = "Delimiter";
} else if (this.origin !== this.prev_cl) {
json.origin = this.origin.getUid();
}
json.parent = this.parent.getUid();
return Insert.__super__._encode.call(this, json);
};
return Insert;
})(ops.Operation);
ops.Insert.parse = function(json) {
var content, content_operations, next, origin, parent, prev, uid;
content = json['content'], content_operations = json['content_operations'], uid = json['uid'], prev = json['prev'], next = json['next'], origin = json['origin'], parent = json['parent'];
return new this(null, content, content_operations, parent, uid, prev, next, origin);
};
ops.Delimiter = (function(superClass) {
extend(Delimiter, superClass);
function Delimiter(prev_cl, next_cl, origin) {
this.saveOperation('prev_cl', prev_cl);
this.saveOperation('next_cl', next_cl);
this.saveOperation('origin', prev_cl);
Delimiter.__super__.constructor.call(this, null, {
noOperation: true
});
}
Delimiter.prototype.type = "Delimiter";
Delimiter.prototype.applyDelete = function() {
var o;
Delimiter.__super__.applyDelete.call(this);
o = this.prev_cl;
while (o != null) {
o.applyDelete();
o = o.prev_cl;
}
return void 0;
};
Delimiter.prototype.cleanup = function() {
return Delimiter.__super__.cleanup.call(this);
};
Delimiter.prototype.execute = function() {
var ref, ref1;
if (((ref = this.unchecked) != null ? ref['next_cl'] : void 0) != null) {
return Delimiter.__super__.execute.apply(this, arguments);
} else if ((ref1 = this.unchecked) != null ? ref1['prev_cl'] : void 0) {
if (this.validateSavedOperations()) {
if (this.prev_cl.next_cl != null) {
throw new Error("Probably duplicated operations");
}
this.prev_cl.next_cl = this;
return Delimiter.__super__.execute.apply(this, arguments);
} else {
return false;
}
} else if ((this.prev_cl != null) && (this.prev_cl.next_cl == null)) {
delete this.prev_cl.unchecked.next_cl;
this.prev_cl.next_cl = this;
return Delimiter.__super__.execute.apply(this, arguments);
} else if ((this.prev_cl != null) || (this.next_cl != null) || true) {
return Delimiter.__super__.execute.apply(this, arguments);
}
};
Delimiter.prototype._encode = function() {
var ref, ref1;
return {
'type': this.type,
'uid': this.getUid(),
'prev': (ref = this.prev_cl) != null ? ref.getUid() : void 0,
'next': (ref1 = this.next_cl) != null ? ref1.getUid() : void 0
};
};
return Delimiter;
})(ops.Operation);
ops.Delimiter.parse = function(json) {
var next, prev, uid;
uid = json['uid'], prev = json['prev'], next = json['next'];
return new this(uid, prev, next);
};
return {
'operations': ops,
'execution_listener': execution_listener
};
};

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build/node/Operations/Structured.js Normal file
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var basic_ops_uninitialized,
extend = function(child, parent) { for (var key in parent) { if (hasProp.call(parent, key)) child[key] = parent[key]; } function ctor() { this.constructor = child; } ctor.prototype = parent.prototype; child.prototype = new ctor(); child.__super__ = parent.prototype; return child; },
hasProp = {}.hasOwnProperty;
basic_ops_uninitialized = require("./Basic");
module.exports = function() {
var basic_ops, ops;
basic_ops = basic_ops_uninitialized();
ops = basic_ops.operations;
ops.MapManager = (function(superClass) {
extend(MapManager, superClass);
function MapManager(custom_type, uid, content, content_operations) {
this._map = {};
MapManager.__super__.constructor.call(this, custom_type, uid, content, content_operations);
}
MapManager.prototype.type = "MapManager";
MapManager.prototype.applyDelete = function() {
var name, p, ref;
ref = this._map;
for (name in ref) {
p = ref[name];
p.applyDelete();
}
return MapManager.__super__.applyDelete.call(this);
};
MapManager.prototype.cleanup = function() {
return MapManager.__super__.cleanup.call(this);
};
MapManager.prototype.map = function(f) {
var n, ref, v;
ref = this._map;
for (n in ref) {
v = ref[n];
f(n, v);
}
return void 0;
};
MapManager.prototype.val = function(name, content) {
var o, prop, ref, rep, res, result;
if (arguments.length > 1) {
if ((content != null) && (content._getModel != null)) {
rep = content._getModel(this.custom_types, this.operations);
} else {
rep = content;
}
this.retrieveSub(name).replace(rep);
return this.getCustomType();
} else if (name != null) {
prop = this._map[name];
if ((prop != null) && !prop.isContentDeleted()) {
res = prop.val();
if (res instanceof ops.Operation) {
return res.getCustomType();
} else {
return res;
}
} else {
return void 0;
}
} else {
result = {};
ref = this._map;
for (name in ref) {
o = ref[name];
if (!o.isContentDeleted()) {
result[name] = o.val();
}
}
return result;
}
};
MapManager.prototype["delete"] = function(name) {
var ref;
if ((ref = this._map[name]) != null) {
ref.deleteContent();
}
return this;
};
MapManager.prototype.retrieveSub = function(property_name) {
var event_properties, event_this, rm, rm_uid;
if (this._map[property_name] == null) {
event_properties = {
name: property_name
};
event_this = this;
rm_uid = {
noOperation: true,
sub: property_name,
alt: this
};
rm = new ops.ReplaceManager(null, event_properties, event_this, rm_uid);
this._map[property_name] = rm;
rm.setParent(this, property_name);
rm.execute();
}
return this._map[property_name];
};
return MapManager;
})(ops.Operation);
ops.MapManager.parse = function(json) {
var content, content_operations, custom_type, uid;
uid = json['uid'], custom_type = json['custom_type'], content = json['content'], content_operations = json['content_operations'];
return new this(custom_type, uid, content, content_operations);
};
ops.ListManager = (function(superClass) {
extend(ListManager, superClass);
function ListManager(custom_type, uid, content, content_operations) {
this.beginning = new ops.Delimiter(void 0, void 0);
this.end = new ops.Delimiter(this.beginning, void 0);
this.beginning.next_cl = this.end;
this.beginning.execute();
this.end.execute();
ListManager.__super__.constructor.call(this, custom_type, uid, content, content_operations);
}
ListManager.prototype.type = "ListManager";
ListManager.prototype.applyDelete = function() {
var o;
o = this.beginning;
while (o != null) {
o.applyDelete();
o = o.next_cl;
}
return ListManager.__super__.applyDelete.call(this);
};
ListManager.prototype.cleanup = function() {
return ListManager.__super__.cleanup.call(this);
};
ListManager.prototype.toJson = function(transform_to_value) {
var i, j, len, o, results, val;
if (transform_to_value == null) {
transform_to_value = false;
}
val = this.val();
results = [];
for (o = j = 0, len = val.length; j < len; o = ++j) {
i = val[o];
if (o instanceof ops.Object) {
results.push(o.toJson(transform_to_value));
} else if (o instanceof ops.ListManager) {
results.push(o.toJson(transform_to_value));
} else if (transform_to_value && o instanceof ops.Operation) {
results.push(o.val());
} else {
results.push(o);
}
}
return results;
};
ListManager.prototype.execute = function() {
if (this.validateSavedOperations()) {
this.beginning.setParent(this);
this.end.setParent(this);
return ListManager.__super__.execute.apply(this, arguments);
} else {
return false;
}
};
ListManager.prototype.getLastOperation = function() {
return this.end.prev_cl;
};
ListManager.prototype.getFirstOperation = function() {
return this.beginning.next_cl;
};
ListManager.prototype.toArray = function() {
var o, result;
o = this.beginning.next_cl;
result = [];
while (o !== this.end) {
if (!o.is_deleted) {
result.push(o.val());
}
o = o.next_cl;
}
return result;
};
ListManager.prototype.map = function(f) {
var o, result;
o = this.beginning.next_cl;
result = [];
while (o !== this.end) {
if (!o.is_deleted) {
result.push(f(o));
}
o = o.next_cl;
}
return result;
};
ListManager.prototype.fold = function(init, f) {
var o;
o = this.beginning.next_cl;
while (o !== this.end) {
if (!o.is_deleted) {
init = f(init, o);
}
o = o.next_cl;
}
return init;
};
ListManager.prototype.val = function(pos) {
var o;
if (pos != null) {
o = this.getOperationByPosition(pos + 1);
if (!(o instanceof ops.Delimiter)) {
return o.val();
} else {
throw new Error("this position does not exist");
}
} else {
return this.toArray();
}
};
ListManager.prototype.ref = function(pos) {
var o;
if (pos != null) {
o = this.getOperationByPosition(pos + 1);
if (!(o instanceof ops.Delimiter)) {
return o;
} else {
return null;
}
} else {
throw new Error("you must specify a position parameter");
}
};
ListManager.prototype.getOperationByPosition = function(position) {
var o;
o = this.beginning;
while (true) {
if (o instanceof ops.Delimiter && (o.prev_cl != null)) {
o = o.prev_cl;
while (o.isDeleted() && (o.prev_cl != null)) {
o = o.prev_cl;
}
break;
}
if (position <= 0 && !o.isDeleted()) {
break;
}
o = o.next_cl;
if (!o.isDeleted()) {
position -= 1;
}
}
return o;
};
ListManager.prototype.push = function(content) {
return this.insertAfter(this.end.prev_cl, [content]);
};
ListManager.prototype.insertAfter = function(left, contents) {
var c, j, len, right, tmp;
right = left.next_cl;
while (right.isDeleted()) {
right = right.next_cl;
}
left = right.prev_cl;
if (contents instanceof ops.Operation) {
(new ops.Insert(null, content, null, void 0, void 0, left, right)).execute();
} else {
for (j = 0, len = contents.length; j < len; j++) {
c = contents[j];
if ((c != null) && (c._name != null) && (c._getModel != null)) {
c = c._getModel(this.custom_types, this.operations);
}
tmp = (new ops.Insert(null, c, null, void 0, void 0, left, right)).execute();
left = tmp;
}
}
return this;
};
ListManager.prototype.insert = function(position, contents) {
var ith;
ith = this.getOperationByPosition(position);
return this.insertAfter(ith, contents);
};
ListManager.prototype["delete"] = function(position, length) {
var d, delete_ops, i, j, o, ref;
if (length == null) {
length = 1;
}
o = this.getOperationByPosition(position + 1);
delete_ops = [];
for (i = j = 0, ref = length; 0 <= ref ? j < ref : j > ref; i = 0 <= ref ? ++j : --j) {
if (o instanceof ops.Delimiter) {
break;
}
d = (new ops.Delete(null, void 0, o)).execute();
o = o.next_cl;
while ((!(o instanceof ops.Delimiter)) && o.isDeleted()) {
o = o.next_cl;
}
delete_ops.push(d._encode());
}
return this;
};
ListManager.prototype.callOperationSpecificInsertEvents = function(op) {
var getContentType;
getContentType = function(content) {
if (content instanceof ops.Operation) {
return content.getCustomType();
} else {
return content;
}
};
return this.callEvent([
{
type: "insert",
reference: op,
position: op.getPosition(),
object: this.getCustomType(),
changedBy: op.uid.creator,
value: getContentType(op.val())
}
]);
};
ListManager.prototype.callOperationSpecificDeleteEvents = function(op, del_op) {
return this.callEvent([
{
type: "delete",
reference: op,
position: op.getPosition(),
object: this.getCustomType(),
length: 1,
changedBy: del_op.uid.creator,
oldValue: op.val()
}
]);
};
return ListManager;
})(ops.Operation);
ops.ListManager.parse = function(json) {
var content, content_operations, custom_type, uid;
uid = json['uid'], custom_type = json['custom_type'], content = json['content'], content_operations = json['content_operations'];
return new this(custom_type, uid, content, content_operations);
};
ops.Composition = (function(superClass) {
extend(Composition, superClass);
function Composition(custom_type, _composition_value, composition_value_operations, uid, tmp_composition_ref) {
var n, o;
this._composition_value = _composition_value;
Composition.__super__.constructor.call(this, custom_type, uid);
if (tmp_composition_ref != null) {
this.tmp_composition_ref = tmp_composition_ref;
} else {
this.composition_ref = this.end.prev_cl;
}
if (composition_value_operations != null) {
this.composition_value_operations = {};
for (n in composition_value_operations) {
o = composition_value_operations[n];
this.saveOperation(n, o, '_composition_value');
}
}
}
Composition.prototype.type = "Composition";
Composition.prototype.execute = function() {
var composition_ref;
if (this.validateSavedOperations()) {
this.getCustomType()._setCompositionValue(this._composition_value);
delete this._composition_value;
if (this.tmp_composition_ref) {
composition_ref = this.HB.getOperation(this.tmp_composition_ref);
if (composition_ref != null) {
delete this.tmp_composition_ref;
this.composition_ref = composition_ref;
}
}
return Composition.__super__.execute.apply(this, arguments);
} else {
return false;
}
};
Composition.prototype.callOperationSpecificInsertEvents = function(op) {
var o;
if (this.tmp_composition_ref != null) {
if (op.uid.creator === this.tmp_composition_ref.creator && op.uid.op_number === this.tmp_composition_ref.op_number) {
this.composition_ref = op;
delete this.tmp_composition_ref;
op = op.next_cl;
if (op === this.end) {
return;
}
} else {
return;
}
}
o = this.end.prev_cl;
while (o !== op) {
this.getCustomType()._unapply(o.undo_delta);
o = o.prev_cl;
}
while (o !== this.end) {
o.undo_delta = this.getCustomType()._apply(o.val());
o = o.next_cl;
}
this.composition_ref = this.end.prev_cl;
return this.callEvent([
{
type: "update",
changedBy: op.uid.creator,
newValue: this.val()
}
]);
};
Composition.prototype.callOperationSpecificDeleteEvents = function(op, del_op) {};
Composition.prototype.applyDelta = function(delta, operations) {
(new ops.Insert(null, delta, operations, this, null, this.end.prev_cl, this.end)).execute();
return void 0;
};
Composition.prototype._encode = function(json) {
var custom, n, o, ref;
if (json == null) {
json = {};
}
custom = this.getCustomType()._getCompositionValue();
json.composition_value = custom.composition_value;
if (custom.composition_value_operations != null) {
json.composition_value_operations = {};
ref = custom.composition_value_operations;
for (n in ref) {
o = ref[n];
json.composition_value_operations[n] = o.getUid();
}
}
if (this.composition_ref != null) {
json.composition_ref = this.composition_ref.getUid();
} else {
json.composition_ref = this.tmp_composition_ref;
}
return Composition.__super__._encode.call(this, json);
};
return Composition;
})(ops.ListManager);
ops.Composition.parse = function(json) {
var composition_ref, composition_value, composition_value_operations, custom_type, uid;
uid = json['uid'], custom_type = json['custom_type'], composition_value = json['composition_value'], composition_value_operations = json['composition_value_operations'], composition_ref = json['composition_ref'];
return new this(custom_type, composition_value, composition_value_operations, uid, composition_ref);
};
ops.ReplaceManager = (function(superClass) {
extend(ReplaceManager, superClass);
function ReplaceManager(custom_type, event_properties1, event_this1, uid) {
this.event_properties = event_properties1;
this.event_this = event_this1;
if (this.event_properties['object'] == null) {
this.event_properties['object'] = this.event_this.getCustomType();
}
ReplaceManager.__super__.constructor.call(this, custom_type, uid);
}
ReplaceManager.prototype.type = "ReplaceManager";
ReplaceManager.prototype.callEventDecorator = function(events) {
var event, j, len, name, prop, ref;
if (!this.isDeleted()) {
for (j = 0, len = events.length; j < len; j++) {
event = events[j];
ref = this.event_properties;
for (name in ref) {
prop = ref[name];
event[name] = prop;
}
}
this.event_this.callEvent(events);
}
return void 0;
};
ReplaceManager.prototype.callOperationSpecificInsertEvents = function(op) {
var old_value;
if (op.next_cl.type === "Delimiter" && op.prev_cl.type !== "Delimiter") {
if (!op.is_deleted) {
old_value = op.prev_cl.val();
this.callEventDecorator([
{
type: "update",
changedBy: op.uid.creator,
oldValue: old_value
}
]);
}
op.prev_cl.applyDelete();
} else if (op.next_cl.type !== "Delimiter") {
op.applyDelete();
} else {
this.callEventDecorator([
{
type: "add",
changedBy: op.uid.creator
}
]);
}
return void 0;
};
ReplaceManager.prototype.callOperationSpecificDeleteEvents = function(op, del_op) {
if (op.next_cl.type === "Delimiter") {
return this.callEventDecorator([
{
type: "delete",
changedBy: del_op.uid.creator,
oldValue: op.val()
}
]);
}
};
ReplaceManager.prototype.replace = function(content, replaceable_uid) {
var o, relp;
o = this.getLastOperation();
relp = (new ops.Insert(null, content, null, this, replaceable_uid, o, o.next_cl)).execute();
return void 0;
};
ReplaceManager.prototype.isContentDeleted = function() {
return this.getLastOperation().isDeleted();
};
ReplaceManager.prototype.deleteContent = function() {
var last_op;
last_op = this.getLastOperation();
if ((!last_op.isDeleted()) && last_op.type !== "Delimiter") {
(new ops.Delete(null, void 0, this.getLastOperation().uid)).execute();
}
return void 0;
};
ReplaceManager.prototype.val = function() {
var o;
o = this.getLastOperation();
return typeof o.val === "function" ? o.val() : void 0;
};
return ReplaceManager;
})(ops.ListManager);
return basic_ops;
};

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var bindToChildren;
bindToChildren = function(that) {
var attr, i, j, ref;
for (i = j = 0, ref = that.children.length; 0 <= ref ? j < ref : j > ref; i = 0 <= ref ? ++j : --j) {
attr = that.children.item(i);
if (attr.name != null) {
attr.val = that.val.val(attr.name);
}
}
return that.val.observe(function(events) {
var event, k, len, newVal, results;
results = [];
for (k = 0, len = events.length; k < len; k++) {
event = events[k];
if (event.name != null) {
results.push((function() {
var l, ref1, results1;
results1 = [];
for (i = l = 0, ref1 = that.children.length; 0 <= ref1 ? l < ref1 : l > ref1; i = 0 <= ref1 ? ++l : --l) {
attr = that.children.item(i);
if ((attr.name != null) && attr.name === event.name) {
newVal = that.val.val(attr.name);
if (attr.val !== newVal) {
results1.push(attr.val = newVal);
} else {
results1.push(void 0);
}
} else {
results1.push(void 0);
}
}
return results1;
})());
} else {
results.push(void 0);
}
}
return results;
});
};
Polymer("y-object", {
ready: function() {
if (this.connector != null) {
this.val = new Y(this.connector);
return bindToChildren(this);
} else if (this.val != null) {
return bindToChildren(this);
}
},
valChanged: function() {
if ((this.val != null) && this.val._name === "Object") {
return bindToChildren(this);
}
},
connectorChanged: function() {
if (this.val == null) {
this.val = new Y(this.connector);
return bindToChildren(this);
}
}
});
Polymer("y-property", {
ready: function() {
if ((this.val != null) && (this.name != null)) {
if (this.val.constructor === Object) {
this.val = this.parentElement.val(this.name, new Y.Object(this.val)).val(this.name);
} else if (typeof this.val === "string") {
this.parentElement.val(this.name, this.val);
}
if (this.val._name === "Object") {
return bindToChildren(this);
}
}
},
valChanged: function() {
var ref;
if ((this.val != null) && (this.name != null)) {
if (this.val.constructor === Object) {
return this.val = this.parentElement.val.val(this.name, new Y.Object(this.val)).val(this.name);
} else if (this.val._name === "Object") {
return bindToChildren(this);
} else if ((((ref = this.parentElement.val) != null ? ref.val : void 0) != null) && this.val !== this.parentElement.val.val(this.name)) {
return this.parentElement.val.val(this.name, this.val);
}
}
}
});

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var Engine, HistoryBuffer, adaptConnector, createY, structured_ops_uninitialized;
structured_ops_uninitialized = require("./Operations/Structured");
HistoryBuffer = require("./HistoryBuffer");
Engine = require("./Engine");
adaptConnector = require("./ConnectorAdapter");
createY = function(connector) {
var HB, ct, engine, model, ops, ops_manager, user_id;
if (connector.user_id != null) {
user_id = connector.user_id;
} else {
user_id = "_temp";
connector.when_received_state_vector_listeners = [
function(state_vector) {
return HB.setUserId(this.user_id, state_vector);
}
];
}
HB = new HistoryBuffer(user_id);
ops_manager = structured_ops_uninitialized(HB, this.constructor);
ops = ops_manager.operations;
engine = new Engine(HB, ops);
adaptConnector(connector, engine, HB, ops_manager.execution_listener);
ops.Operation.prototype.HB = HB;
ops.Operation.prototype.operations = ops;
ops.Operation.prototype.engine = engine;
ops.Operation.prototype.connector = connector;
ops.Operation.prototype.custom_types = this.constructor;
ct = new createY.Object();
model = new ops.MapManager(ct, HB.getReservedUniqueIdentifier()).execute();
ct._setModel(model);
return ct;
};
module.exports = createY;
if (typeof window !== "undefined" && window !== null) {
window.Y = createY;
}
createY.Object = require("./ObjectType");

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<html>
<head>
<meta charset="utf-8">
<title>Test Yjs!</title>
<link rel="stylesheet" href="../../node_modules/mocha/mocha.css" />
</head>
<body>
<div id="mocha"></div>
<script src="../../node_modules/mocha/mocha.js" class="awesome"></script>
<script>
mocha.setup('bdd');
mocha.ui('bdd');
mocha.reporter('html');
</script>
<script src="object-test.js"></script>
<script src="xml-test.js"></script>
<script src="list-test.js"></script>
<script src="text-test.js"></script>
<script>
//mocha.checkLeaks();
//mocha.run();
window.onerror = null;
if (window.mochaPhantomJS) { mochaPhantomJS.run(); }
else { mocha.run(); }
</script>
</body>
</html>

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# Examples
Here you find some (hopefully) usefull examples on how to use Yjs!
Feel free to use the code of the examples in your own project. They include basic examples how to use Yjs.

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<!DOCTYPE HTML>
<html>
<head>
<meta charset=utf-8 />
<title>Y Example</title>
<script src="../../../webcomponentsjs/webcomponents.min.js"></script>
<link rel="import" href="../../../polymer/polymer.html">
<link rel="import" href="y-test.html">
</head>
<body>
<y-test></y-test>
</body>
</html>

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<script src="../../build/browser/y.js"></script>
<script src="../../../y-text/build/browser/y-text.js"></script>
<link rel="import" href="../../build/browser/y-object.html">
<link rel="import" href="../../../y-xmpp/build/browser/y-xmpp.html">
<link rel="import" href="../../../paper-slider/paper-slider.html">
<polymer-element name="y-test" attributes="y connector stuff">
<template>
<h1 id="text" contentEditable> Check this out !</h1>
<y-xmpp id="connector" connector={{connector}} room="testy-xmpp-polymer" syncMode="syncAll" debug="true"></y-xmpp>
<y-object connector={{connector}} val={{y}}>
<y-property name="slider" val={{slider}}>
</y-property>
<y-property name="stuff" val={{stuff}}>
<y-property id="otherstuff" name="otherstuff" val={{otherstuff}}>
</y-property>
</y-property>
</y-object>
<y-object val={{otherstuff}}>
<y-property name="nostuff" val={{nostuff}}>
</y-property>
</y-object>
<paper-slider min="0" max="200" immediateValue={{slider}}></paper-slider>
</template>
<script>
Polymer({
ready: function(){
window.y_stuff_property = this.$.otherstuff;
this.y.val("slider",50)
var that = this;
this.connector.whenSynced(function(){
if(that.y.val("text") == null){
that.y.val("text",new Y.Text("stuff"));
}
that.y.val("text").bind(that.$.text,that.shadowRoot)
})
// Everything is initialized. Lets test stuff!
window.y_test = this;
window.y_test.y.val("stuff",{otherstuff:{nostuff:"this is no stuff"}})
setTimeout(function(){
var res = y_test.y.val("stuff");
if(!(y_test.nostuff === "this is no stuff")){
console.log("Deep inherit doesn't work!")
}
window.y_stuff_property.val = {nostuff: "this is also no stuff"};
setTimeout(function(){
if(!(y_test.nostuff === "this is also no stuff")){
console.log("Element val overwrite doesn't work")
}
console.log("Everything is fine :)");
},500)
},500);
}
})
</script>
</polymer-element>

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<!DOCTYPE html>
<html>
<head>
<meta charset=utf-8 />
<title>Y Example</title>
<script src="../../build/browser/y.js"></script>
<script src="../../../y-text/build/browser/y-text.js"></script>
<script src="../../../y-xmpp/y-xmpp.js"></script>
<script src="./index.js"></script>
</head>
<body>
<h1 contentEditable> yjs Tutorial</h1>
<p> Collaborative Json editing with <a href="https://github.com/rwth-acis/yjs/">yjs</a>
and XMPP Connector. </p>
<textarea style="width:80%;" rows=40 id="textfield"></textarea>
<p> <a href="https://github.com/y-js/yjs/">yjs</a> is a Framework for Real-Time collaboration on arbitrary data types.
</p>
</body>
</html>

26
examples/XMPP/index.js Normal file
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connector = new Y.XMPP().join("testy-xmpp-json3", {syncMode: "syncAll"});
connector.debug = true
y = new Y(connector);
window.onload = function(){
var textbox = document.getElementById("textfield");
y.observe(function(events){
for(var i=0; i<events.length; i++){
var event = events[i];
if(event.name === "textfield" && event.type !== "delete"){
y.val("textfield").bind(textbox);
y.val("headline").bind(document.querySelector("h1"))
}
}
});
connector.whenSynced(function(){
if(y.val("textfield") == null){
y.val("headline", new Y.Text("headline"));
y.val("textfield",new Y.Text("stuff"))
}
})
};

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gulpfile.coffee Normal file
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gulp = require('gulp')
coffee = require('gulp-coffee')
concat = require('gulp-concat')
uglify = require 'gulp-uglify'
sourcemaps = require('gulp-sourcemaps')
browserify = require('gulp-browserify')
rename = require 'gulp-rename'
rimraf = require 'gulp-rimraf'
gulpif = require 'gulp-if'
ignore = require 'gulp-ignore'
git = require 'gulp-git'
debug = require 'gulp-debug'
coffeelint = require 'gulp-coffeelint'
mocha = require 'gulp-mocha'
run = require 'gulp-run'
ljs = require 'gulp-ljs'
plumber = require 'gulp-plumber'
cache = require 'gulp-cached'
coffeeify = require 'gulp-coffeeify'
exit = require 'gulp-exit'
gulp.task 'default', ['build_browser']
files =
lib : ['./lib/**/*.coffee']
browser : ['./lib/y.coffee','./lib/y-object.coffee']
test : ['./test/**/*test.coffee', '../y-*/test/*test.coffee']
#test : ['./test/Json_test.coffee', './test/Text_test.coffee']
gulp : ['./gulpfile.coffee']
examples : ['./examples/**/*.js']
other: ['./lib/**/*', './test/*']
files.all = []
for name,file_list of files
if name isnt 'build'
files.all = files.all.concat file_list
gulp.task 'deploy_nodejs', ->
gulp.src files.lib
.pipe sourcemaps.init()
.pipe coffee()
.pipe sourcemaps.write './'
.pipe gulp.dest 'build/node/'
.pipe gulpif '!**/', git.add({args : "-A"})
gulp.task 'deploy', ['mocha', 'build_browser', 'deploy_nodejs', 'lint', 'codo']
gulp.task 'build_browser', ->
gulp.src files.browser, { read: false }
.pipe plumber()
.pipe browserify
transform: ['coffeeify']
extensions: ['.coffee']
debug : true
.pipe rename
extname: ".js"
.pipe gulp.dest './build/browser/'
.pipe uglify()
.pipe gulp.dest '.'
gulp.src files.test, {read: false}
.pipe plumber()
.pipe browserify
transform: ['coffeeify']
extensions: ['.coffee']
debug: true
.pipe rename
extname: ".js"
dirname: "./"
.pipe gulp.dest './build/test/'
gulp.task 'build_node', ->
gulp.src files.lib
.pipe plumber()
.pipe coffee({bare:true})
.pipe gulp.dest './build/node'
gulp.task 'build', ['build_node', 'build_browser'], ->
gulp.task 'watch', ['build'], ->
gulp.watch files.all, ['build']
gulp.task 'mocha', ->
gulp.src files.test, { read: false }
.pipe mocha {reporter : 'list'}
.pipe exit()
gulp.task 'lint', ->
gulp.src files.all
.pipe ignore.include '**/*.coffee'
.pipe coffeelint {
"max_line_length":
"level": "ignore"
}
.pipe coffeelint.reporter()
gulp.task 'literate', ->
gulp.src files.examples
.pipe ljs { code : true }
.pipe rename
basename : "README"
extname : ".md"
.pipe gulp.dest 'examples/'
.pipe gulpif '!**/', git.add({args : "-A"})
gulp.task 'codo', [], ()->
command = './node_modules/codo/bin/codo -o "./doc" --name "yjs" --readme "README.md" --undocumented false --private true --title "yjs API" ./lib - LICENSE.txt '
run(command).exec()
gulp.task 'clean', ->
gulp.src ['./build/{browser,test,node}/**/*.{js,map}','./doc/'], { read: false }
.pipe rimraf()
gulp.task 'default', ['clean','build'], ->

61
lib/ConnectorAdapter.coffee Normal file
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ConnectorClass = require "./ConnectorClass"
#
# @param {Engine} engine The transformation engine
# @param {HistoryBuffer} HB
# @param {Array<Function>} execution_listener You must ensure that whenever an operation is executed, every function in this Array is called.
#
adaptConnector = (connector, engine, HB, execution_listener)->
for name, f of ConnectorClass
connector[name] = f
# For the XMPPConnector: lets send it as an array
# therefore, we have to restructure it later
encode_state_vector = (v)->
for name,value of v
user: name
state: value
parse_state_vector = (v)->
state_vector = {}
for s in v
state_vector[s.user] = s.state
state_vector
getStateVector = ()->
encode_state_vector HB.getOperationCounter()
getHB = (v)->
state_vector = parse_state_vector v
hb = HB._encode state_vector
json =
hb: hb
state_vector: encode_state_vector HB.getOperationCounter()
json
applyHB = (hb, fromHB)->
engine.applyOp hb, fromHB
connector.getStateVector = getStateVector
connector.getHB = getHB
connector.applyHB = applyHB
connector.receive_handlers ?= []
connector.receive_handlers.push (sender, op)->
if op.uid.creator isnt HB.getUserId()
engine.applyOp op
connector.setIsBoundToY()
send_ = (o)->
if (o.uid.creator is HB.getUserId()) and
(typeof o.uid.op_number isnt "string") and # TODO: i don't think that we need this anymore..
(HB.getUserId() isnt "_temp")
connector.broadcast o
if connector.invokeSync?
HB.setInvokeSyncHandler connector.invokeSync
execution_listener.push send_
module.exports = adaptConnector

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module.exports =
#
# @params new Connector(options)
# @param options.syncMethod {String} is either "syncAll" or "master-slave".
# @param options.role {String} The role of this client
# (slave or master (only used when syncMethod is master-slave))
# @param options.perform_send_again {Boolean} Whetehr to whether to resend the HB after some time period. This reduces sync errors, but has some overhead (optional)
#
init: (options)->
req = (name, choices)=>
if options[name]?
if (not choices?) or choices.some((c)->c is options[name])
@[name] = options[name]
else
throw new Error "You can set the '"+name+"' option to one of the following choices: "+JSON.encode(choices)
else
throw new Error "You must specify "+name+", when initializing the Connector!"
req "syncMethod", ["syncAll", "master-slave"]
req "role", ["master", "slave"]
req "user_id"
@on_user_id_set?(@user_id)
# whether to resend the HB after some time period. This reduces sync errors.
# But this is not necessary in the test-connector
if options.perform_send_again?
@perform_send_again = options.perform_send_again
else
@perform_send_again = true
# A Master should sync with everyone! TODO: really? - for now its safer this way!
if @role is "master"
@syncMethod = "syncAll"
# is set to true when this is synced with all other connections
@is_synced = false
# Peerjs Connections: key: conn-id, value: object
@connections = {}
# List of functions that shall process incoming data
@receive_handlers ?= []
# whether this instance is bound to any y instance
@connections = {}
@current_sync_target = null
@sent_hb_to_all_users = false
@is_initialized = true
onUserEvent: (f)->
@connections_listeners ?= []
@connections_listeners.push f
isRoleMaster: ->
@role is "master"
isRoleSlave: ->
@role is "slave"
findNewSyncTarget: ()->
@current_sync_target = null
if @syncMethod is "syncAll"
for user, c of @connections
if not c.is_synced
@performSync user
break
if not @current_sync_target?
@setStateSynced()
null
userLeft: (user)->
delete @connections[user]
@findNewSyncTarget()
if @connections_listeners?
for f in @connections_listeners
f {
action: "userLeft"
user: user
}
userJoined: (user, role)->
if not role?
throw new Error "Internal: You must specify the role of the joined user! E.g. userJoined('uid:3939','slave')"
# a user joined the room
@connections[user] ?= {}
@connections[user].is_synced = false
if (not @is_synced) or @syncMethod is "syncAll"
if @syncMethod is "syncAll"
@performSync user
else if role is "master"
# TODO: What if there are two masters? Prevent sending everything two times!
@performSyncWithMaster user
if @connections_listeners?
for f in @connections_listeners
f {
action: "userJoined"
user: user
role: role
}
#
# Execute a function _when_ we are connected. If not connected, wait until connected.
# @param f {Function} Will be executed on the Connector context.
#
whenSynced: (args)->
if args.constructor is Function
args = [args]
if @is_synced
args[0].apply this, args[1..]
else
@compute_when_synced ?= []
@compute_when_synced.push args
#
# Execute an function when a message is received.
# @param f {Function} Will be executed on the PeerJs-Connector context. f will be called with (sender_id, broadcast {true|false}, message).
#
onReceive: (f)->
@receive_handlers.push f
###
# Broadcast a message to all connected peers.
# @param message {Object} The message to broadcast.
#
broadcast: (message)->
throw new Error "You must implement broadcast!"
#
# Send a message to a peer, or set of peers
#
send: (peer_s, message)->
throw new Error "You must implement send!"
###
#
# perform a sync with a specific user.
#
performSync: (user)->
if not @current_sync_target?
@current_sync_target = user
@send user,
sync_step: "getHB"
send_again: "true"
data: @getStateVector()
if not @sent_hb_to_all_users
@sent_hb_to_all_users = true
hb = @getHB([]).hb
_hb = []
for o in hb
_hb.push o
if _hb.length > 10
@broadcast
sync_step: "applyHB_"
data: _hb
_hb = []
@broadcast
sync_step: "applyHB"
data: _hb
#
# When a master node joined the room, perform this sync with him. It will ask the master for the HB,
# and will broadcast his own HB
#
performSyncWithMaster: (user)->
@current_sync_target = user
@send user,
sync_step: "getHB"
send_again: "true"
data: @getStateVector()
hb = @getHB([]).hb
_hb = []
for o in hb
_hb.push o
if _hb.length > 10
@broadcast
sync_step: "applyHB_"
data: _hb
_hb = []
@broadcast
sync_step: "applyHB"
data: _hb
#
# You are sure that all clients are synced, call this function.
#
setStateSynced: ()->
if not @is_synced
@is_synced = true
if @compute_when_synced?
for el in @compute_when_synced
f = el[0]
args = el[1..]
f.apply(args)
delete @compute_when_synced
null
# executed when the a state_vector is received. listener will be called only once!
whenReceivedStateVector: (f)->
@when_received_state_vector_listeners ?= []
@when_received_state_vector_listeners.push f
#
# You received a raw message, and you know that it is intended for to Yjs. Then call this function.
#
receiveMessage: (sender, res)->
if not res.sync_step?
for f in @receive_handlers
f sender, res
else
if sender is @user_id
return
if res.sync_step is "getHB"
# call listeners
if @when_received_state_vector_listeners?
for f in @when_received_state_vector_listeners
f.call this, res.data
delete @when_received_state_vector_listeners
data = @getHB(res.data)
hb = data.hb
_hb = []
# always broadcast, when not synced.
# This reduces errors, when the clients goes offline prematurely.
# When this client only syncs to one other clients, but looses connectors,
# before syncing to the other clients, the online clients have different states.
# Since we do not want to perform regular syncs, this is a good alternative
if @is_synced
sendApplyHB = (m)=>
@send sender, m
else
sendApplyHB = (m)=>
@broadcast m
for o in hb
_hb.push o
if _hb.length > 10
sendApplyHB
sync_step: "applyHB_"
data: _hb
_hb = []
sendApplyHB
sync_step : "applyHB"
data: _hb
if res.send_again? and @perform_send_again
send_again = do (sv = data.state_vector)=>
()=>
hb = @getHB(sv).hb
for o in hb
_hb.push o
if _hb.length > 10
@send sender,
sync_step: "applyHB_"
data: _hb
_hb = []
@send sender,
sync_step: "applyHB",
data: _hb
sent_again: "true"
setTimeout send_again, 3000
else if res.sync_step is "applyHB"
@applyHB(res.data, sender is @current_sync_target)
if (@syncMethod is "syncAll" or res.sent_again?) and (not @is_synced) and ((@current_sync_target is sender) or (not @current_sync_target?))
@connections[sender].is_synced = true
@findNewSyncTarget()
else if res.sync_step is "applyHB_"
@applyHB(res.data, sender is @current_sync_target)
# Currently, the HB encodes operations as JSON. For the moment I want to keep it
# that way. Maybe we support encoding in the HB as XML in the future, but for now I don't want
# too much overhead. Y is very likely to get changed a lot in the future
#
# Because we don't want to encode JSON as string (with character escaping, wich makes it pretty much unreadable)
# we encode the JSON as XML.
#
# When the HB support encoding as XML, the format should look pretty much like this.
# does not support primitive values as array elements
# expects an ltx (less than xml) object
parseMessageFromXml: (m)->
parse_array = (node)->
for n in node.children
if n.getAttribute("isArray") is "true"
parse_array n
else
parse_object n
parse_object = (node)->
json = {}
for name, value of node.attrs
int = parseInt(value)
if isNaN(int) or (""+int) isnt value
json[name] = value
else
json[name] = int
for n in node.children
name = n.name
if n.getAttribute("isArray") is "true"
json[name] = parse_array n
else
json[name] = parse_object n
json
parse_object m
# encode message in xml
# we use string because Strophe only accepts an "xml-string"..
# So {a:4,b:{c:5}} will look like
# <y a="4">
# <b c="5"></b>
# </y>
# m - ltx element
# json - guess it ;)
#
encodeMessageToXml: (m, json)->
# attributes is optional
encode_object = (m, json)->
for name,value of json
if not value?
# nop
else if value.constructor is Object
encode_object m.c(name), value
else if value.constructor is Array
encode_array m.c(name), value
else
m.setAttribute(name,value)
m
encode_array = (m, array)->
m.setAttribute("isArray","true")
for e in array
if e.constructor is Object
encode_object m.c("array-element"), e
else
encode_array m.c("array-element"), e
m
if json.constructor is Object
encode_object m.c("y",{xmlns:"http://y.ninja/connector-stanza"}), json
else if json.constructor is Array
encode_array m.c("y",{xmlns:"http://y.ninja/connector-stanza"}), json
else
throw new Error "I can't encode this json!"
setIsBoundToY: ()->
@on_bound_to_y?()
delete @when_bound_to_y
@is_bound_to_y = true

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window?.unprocessed_counter = 0 # del this
window?.unprocessed_exec_counter = 0 # TODO
window?.unprocessed_types = []
#
# @nodoc
# The Engine handles how and in which order to execute operations and add operations to the HistoryBuffer.
#
class Engine
#
# @param {HistoryBuffer} HB
# @param {Object} types list of available types
#
constructor: (@HB, @types)->
@unprocessed_ops = []
#
# Parses an operatio from the json format. It uses the specified parser in your OperationType module.
#
parseOperation: (json)->
type = @types[json.type]
if type?.parse?
type.parse json
else
throw new Error "You forgot to specify a parser for type #{json.type}. The message is #{JSON.stringify json}."
#
# Apply a set of operations. E.g. the operations you received from another users HB._encode().
# @note You must not use this method when you already have ops in your HB!
###
applyOpsBundle: (ops_json)->
ops = []
for o in ops_json
ops.push @parseOperation o
for o in ops
if not o.execute()
@unprocessed_ops.push o
@tryUnprocessed()
###
#
# Same as applyOps but operations that are already in the HB are not applied.
# @see Engine.applyOps
#
applyOpsCheckDouble: (ops_json)->
for o in ops_json
if not @HB.getOperation(o.uid)?
@applyOp o
#
# Apply a set of operations. (Helper for using applyOp on Arrays)
# @see Engine.applyOp
applyOps: (ops_json)->
@applyOp ops_json
#
# Apply an operation that you received from another peer.
# TODO: make this more efficient!!
# - operations may only executed in order by creator, order them in object of arrays (key by creator)
# - you can probably make something like dependencies (creator1 waits for creator2)
applyOp: (op_json_array, fromHB = false)->
if op_json_array.constructor isnt Array
op_json_array = [op_json_array]
for op_json in op_json_array
if fromHB
op_json.fromHB = "true" # execute immediately, if
# $parse_and_execute will return false if $o_json was parsed and executed, otherwise the parsed operadion
o = @parseOperation op_json
o.parsed_from_json = op_json
if op_json.fromHB?
o.fromHB = op_json.fromHB
# @HB.addOperation o
if @HB.getOperation(o)?
# nop
else if ((not @HB.isExpectedOperation(o)) and (not o.fromHB?)) or (not o.execute())
@unprocessed_ops.push o
window?.unprocessed_types.push o.type # TODO: delete this
@tryUnprocessed()
#
# Call this method when you applied a new operation.
# It checks if operations that were previously not executable are now executable.
#
tryUnprocessed: ()->
while true
old_length = @unprocessed_ops.length
unprocessed = []
for op in @unprocessed_ops
if @HB.getOperation(op)?
# nop
else if (not @HB.isExpectedOperation(op) and (not op.fromHB?)) or (not op.execute())
unprocessed.push op
@unprocessed_ops = unprocessed
if @unprocessed_ops.length is old_length
break
if @unprocessed_ops.length isnt 0
@HB.invokeSync()
module.exports = Engine

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#
# @nodoc
# An object that holds all applied operations.
#
# @note The HistoryBuffer is commonly abbreviated to HB.
#
class HistoryBuffer
#
# Creates an empty HB.
# @param {Object} user_id Creator of the HB.
#
constructor: (@user_id)->
@operation_counter = {}
@buffer = {}
@change_listeners = []
@garbage = [] # Will be cleaned on next call of garbageCollector
@trash = [] # Is deleted. Wait until it is not used anymore.
@performGarbageCollection = true
@garbageCollectTimeout = 30000
@reserved_identifier_counter = 0
setTimeout @emptyGarbage, @garbageCollectTimeout
# At the beginning (when the user id was not assigned yet),
# the operations are added to buffer._temp. When you finally get your user id,
# the operations are copies from buffer._temp to buffer[id]. Furthermore, when buffer[id] does already contain operations
# (because of a previous session), the uid.op_numbers of the operations have to be reassigned.
# This is what this function does. It adds them to buffer[id],
# and assigns them the correct uid.op_number and uid.creator
setUserId: (@user_id, state_vector)->
@buffer[@user_id] ?= []
buff = @buffer[@user_id]
# we assumed that we started with counter = 0.
# when we receive tha state_vector, and actually have
# counter = 10. Then we have to add 10 to every op_counter
counter_diff = state_vector[@user_id] or 0
if @buffer._temp?
for o_name,o of @buffer._temp
o.uid.creator = @user_id
o.uid.op_number += counter_diff
buff[o.uid.op_number] = o
@operation_counter[@user_id] = (@operation_counter._temp or 0) + counter_diff
delete @operation_counter._temp
delete @buffer._temp
emptyGarbage: ()=>
for o in @garbage
#if @getOperationCounter(o.uid.creator) > o.uid.op_number
o.cleanup?()
@garbage = @trash
@trash = []
if @garbageCollectTimeout isnt -1
@garbageCollectTimeoutId = setTimeout @emptyGarbage, @garbageCollectTimeout
undefined
#
# Get the user id with wich the History Buffer was initialized.
#
getUserId: ()->
@user_id
addToGarbageCollector: ()->
if @performGarbageCollection
for o in arguments
if o?
@garbage.push o
stopGarbageCollection: ()->
@performGarbageCollection = false
@setManualGarbageCollect()
@garbage = []
@trash = []
setManualGarbageCollect: ()->
@garbageCollectTimeout = -1
clearTimeout @garbageCollectTimeoutId
@garbageCollectTimeoutId = undefined
setGarbageCollectTimeout: (@garbageCollectTimeout)->
#
# I propose to use it in your Framework, to create something like a root element.
# An operation with this identifier is not propagated to other clients.
# This is why everybode must create the same operation with this uid.
#
getReservedUniqueIdentifier: ()->
{
creator : '_'
op_number : "_#{@reserved_identifier_counter++}"
}
#
# Get the operation counter that describes the current state of the document.
#
getOperationCounter: (user_id)->
if not user_id?
res = {}
for user,ctn of @operation_counter
res[user] = ctn
res
else
@operation_counter[user_id]
isExpectedOperation: (o)->
@operation_counter[o.uid.creator] ?= 0
o.uid.op_number <= @operation_counter[o.uid.creator]
true #TODO: !! this could break stuff. But I dunno why
#
# Encode this operation in such a way that it can be parsed by remote peers.
# TODO: Make this more efficient!
_encode: (state_vector={})->
json = []
unknown = (user, o_number)->
if (not user?) or (not o_number?)
throw new Error "dah!"
not state_vector[user]? or state_vector[user] <= o_number
for u_name,user of @buffer
# TODO next, if @state_vector[user] <= state_vector[user]
if u_name is "_"
continue
for o_number,o of user
if (not o.uid.noOperation?) and unknown(u_name, o_number)
# its necessary to send it, and not known in state_vector
o_json = o._encode()
if o.next_cl? # applies for all ops but the most right delimiter!
# search for the next _known_ operation. (When state_vector is {} then this is the Delimiter)
o_next = o.next_cl
while o_next.next_cl? and unknown(o_next.uid.creator, o_next.uid.op_number)
o_next = o_next.next_cl
o_json.next = o_next.getUid()
else if o.prev_cl? # most right delimiter only!
# same as the above with prev.
o_prev = o.prev_cl
while o_prev.prev_cl? and unknown(o_prev.uid.creator, o_prev.uid.op_number)
o_prev = o_prev.prev_cl
o_json.prev = o_prev.getUid()
json.push o_json
json
#
# Get the number of operations that were created by a user.
# Accordingly you will get the next operation number that is expected from that user.
# This will increment the operation counter.
#
getNextOperationIdentifier: (user_id)->
if not user_id?
user_id = @user_id
if not @operation_counter[user_id]?
@operation_counter[user_id] = 0
uid =
'creator' : user_id
'op_number' : @operation_counter[user_id]
@operation_counter[user_id]++
uid
#
# Retrieve an operation from a unique id.
#
# when uid has a "sub" property, the value of it will be applied
# on the operations retrieveSub method (which must! be defined)
#
getOperation: (uid)->
if uid.uid?
uid = uid.uid
o = @buffer[uid.creator]?[uid.op_number]
if uid.sub? and o?
o.retrieveSub uid.sub
else
o
#
# Add an operation to the HB. Note that this will not link it against
# other operations (it wont executed)
#
addOperation: (o)->
if not @buffer[o.uid.creator]?
@buffer[o.uid.creator] = {}
if @buffer[o.uid.creator][o.uid.op_number]?
throw new Error "You must not overwrite operations!"
if (o.uid.op_number.constructor isnt String) and (not @isExpectedOperation(o)) and (not o.fromHB?) # you already do this in the engine, so delete it here!
throw new Error "this operation was not expected!"
@addToCounter(o)
@buffer[o.uid.creator][o.uid.op_number] = o
o
removeOperation: (o)->
delete @buffer[o.uid.creator]?[o.uid.op_number]
# When the HB determines inconsistencies, then the invokeSync
# handler wil be called, which should somehow invoke the sync with another collaborator.
# The parameter of the sync handler is the user_id with wich an inconsistency was determined
setInvokeSyncHandler: (f)->
@invokeSync = f
# empty per default # TODO: do i need this?
invokeSync: ()->
# after you received the HB of another user (in the sync process),
# you renew your own state_vector to the state_vector of the other user
renewStateVector: (state_vector)->
for user,state of state_vector
if ((not @operation_counter[user]?) or (@operation_counter[user] < state_vector[user])) and state_vector[user]?
@operation_counter[user] = state_vector[user]
#
# Increment the operation_counter that defines the current state of the Engine.
#
addToCounter: (o)->
@operation_counter[o.uid.creator] ?= 0
# TODO: check if operations are send in order
if o.uid.op_number is @operation_counter[o.uid.creator]
@operation_counter[o.uid.creator]++
while @buffer[o.uid.creator][@operation_counter[o.uid.creator]]?
@operation_counter[o.uid.creator]++
undefined
module.exports = HistoryBuffer

74
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class YObject
constructor: (@_object = {})->
if @_object.constructor is Object
for name, val of @_object
if val.constructor is Object
@_object[name] = new YObject(val)
else
throw new Error "Y.Object accepts Json Objects only"
_name: "Object"
_getModel: (types, ops)->
if not @_model?
@_model = new ops.MapManager(@).execute()
for n,o of @_object
@_model.val n, o
delete @_object
@_model
_setModel: (@_model)->
delete @_object
observe: (f)->
@_model.observe f
@
unobserve: (f)->
@_model.unobserve f
@
#
# @overload val()
# Get this as a Json object.
# @return [Json]
#
# @overload val(name)
# Get value of a property.
# @param {String} name Name of the object property.
# @return [*] Depends on the value of the property.
#
# @overload val(name, content)
# Set a new property.
# @param {String} name Name of the object property.
# @param {Object|String} content Content of the object property.
# @return [Object Type] This object. (supports chaining)
#
val: (name, content)->
if @_model?
@_model.val.apply @_model, arguments
else
if content?
@_object[name] = content
else if name?
@_object[name]
else
res = {}
for n,v of @_object
res[n] = v
res
delete: (name)->
@_model.delete(name)
@
if window?
if window.Y?
window.Y.Object = YObject
else
throw new Error "You must first import Y!"
if module?
module.exports = YObject

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module.exports = ()->
# @see Engine.parse
ops = {}
execution_listener = []
#
# @private
# @abstract
# @nodoc
# A generic interface to ops.
#
# An operation has the following methods:
# * _encode: encodes an operation (needed only if instance of this operation is sent).
# * execute: execute the effects of this operations. Good examples are Insert-type and AddName-type
# * val: in the case that the operation holds a value
#
# Furthermore an encodable operation has a parser. We extend the parser object in order to parse encoded operations.
#
class ops.Operation
#
# @param {Object} uid A unique identifier.
# If uid is undefined, a new uid will be created before at the end of the execution sequence
#
constructor: (custom_type, uid, content, content_operations)->
if custom_type?
@custom_type = custom_type
@is_deleted = false
@garbage_collected = false
@event_listeners = [] # TODO: rename to observers or sth like that
if uid?
@uid = uid
# see encode to see, why we are doing it this way
if content is undefined
# nop
else if content? and content.creator?
@saveOperation 'content', content
else
@content = content
if content_operations?
@content_operations = {}
for name, op of content_operations
@saveOperation name, op, 'content_operations'
type: "Operation"
getContent: (name)->
if @content?
if @content.getCustomType?
@content.getCustomType()
else if @content.constructor is Object
if name?
if @content[name]?
@content[name]
else
@content_operations[name].getCustomType()
else
content = {}
for n,v of @content
content[n] = v
if @content_operations?
for n,v of @content_operations
v = v.getCustomType()
content[n] = v
content
else
@content
else
@content
retrieveSub: ()->
throw new Error "sub properties are not enable on this operation type!"
#
# Add an event listener. It depends on the operation which events are supported.
# @param {Function} f f is executed in case the event fires.
#
observe: (f)->
@event_listeners.push f
#
# Deletes function from the observer list
# @see Operation.observe
#
# @overload unobserve(event, f)
# @param f {Function} The function that you want to delete
unobserve: (f)->
@event_listeners = @event_listeners.filter (g)->
f isnt g
#
# Deletes all subscribed event listeners.
# This should be called, e.g. after this has been replaced.
# (Then only one replace event should fire. )
# This is also called in the cleanup method.
deleteAllObservers: ()->
@event_listeners = []
delete: ()->
(new ops.Delete undefined, @).execute()
null
#
# Fire an event.
# TODO: Do something with timeouts. You don't want this to fire for every operation (e.g. insert).
# TODO: do you need callEvent+forwardEvent? Only one suffices probably
callEvent: ()->
if @custom_type?
callon = @getCustomType()
else
callon = @
@forwardEvent callon, arguments...
#
# Fire an event and specify in which context the listener is called (set 'this').
# TODO: do you need this ?
forwardEvent: (op, args...)->
for f in @event_listeners
f.call op, args...
isDeleted: ()->
@is_deleted
applyDelete: (garbagecollect = true)->
if not @garbage_collected
#console.log "applyDelete: #{@type}"
@is_deleted = true
if garbagecollect
@garbage_collected = true
@HB.addToGarbageCollector @
cleanup: ()->
#console.log "cleanup: #{@type}"
@HB.removeOperation @
@deleteAllObservers()
#
# Set the parent of this operation.
#
setParent: (@parent)->
#
# Get the parent of this operation.
#
getParent: ()->
@parent
#
# Computes a unique identifier (uid) that identifies this operation.
#
getUid: ()->
if not @uid.noOperation?
@uid
else
if @uid.alt? # could be (safely) undefined
map_uid = @uid.alt.cloneUid()
map_uid.sub = @uid.sub
map_uid
else
undefined
cloneUid: ()->
uid = {}
for n,v of @getUid()
uid[n] = v
uid
#
# @private
# If not already done, set the uid
# Add this to the HB
# Notify the all the listeners.
#
execute: ()->
if @validateSavedOperations()
@is_executed = true
if not @uid?
# When this operation was created without a uid, then set it here.
# There is only one other place, where this can be done - before an Insertion
# is executed (because we need the creator_id)
@uid = @HB.getNextOperationIdentifier()
if not @uid.noOperation?
@HB.addOperation @
for l in execution_listener
l @_encode()
@
else
false
#
# @private
# Operations may depend on other operations (linked lists, etc.).
# The saveOperation and validateSavedOperations methods provide
# an easy way to refer to these operations via an uid or object reference.
#
# For example: We can create a new Delete operation that deletes the operation $o like this
# - var d = new Delete(uid, $o); or
# - var d = new Delete(uid, $o.getUid());
# Either way we want to access $o via d.deletes. In the second case validateSavedOperations must be called first.
#
# @overload saveOperation(name, op_uid)
# @param {String} name The name of the operation. After validating (with validateSavedOperations) the instantiated operation will be accessible via this[name].
# @param {Object} op_uid A uid that refers to an operation
# @overload saveOperation(name, op)
# @param {String} name The name of the operation. After calling this function op is accessible via this[name].
# @param {Operation} op An Operation object
#
saveOperation: (name, op, base = "this")->
if op? and op._getModel?
op = op._getModel(@custom_types, @operations)
#
# Every instance of $Operation must have an $execute function.
# We use duck-typing to check if op is instantiated since there
# could exist multiple classes of $Operation
#
if not op?
# nop
else if op.execute? or not (op.op_number? and op.creator?)
# is instantiated, or op is string. Currently "Delimiter" is saved as string
# (in combination with @parent you can retrieve the delimiter..)
if base is "this"
@[name] = op
else
dest = @[base]
paths = name.split("/")
last_path = paths.pop()
for path in paths
dest = dest[path]
dest[last_path] = op
else
# not initialized. Do it when calling $validateSavedOperations()
@unchecked ?= {}
@unchecked[base] ?= {}
@unchecked[base][name] = op
#
# @private
# After calling this function all not instantiated operations will be accessible.
# @see Operation.saveOperation
#
# @return [Boolean] Whether it was possible to instantiate all operations.
#
validateSavedOperations: ()->
uninstantiated = {}
success = true
for base_name, base of @unchecked
for name, op_uid of base
op = @HB.getOperation op_uid
if op
if base_name is "this"
@[name] = op
else
dest = @[base_name]
paths = name.split("/")
last_path = paths.pop()
for path in paths
dest = dest[path]
dest[last_path] = op
else
uninstantiated[base_name] ?= {}
uninstantiated[base_name][name] = op_uid
success = false
if not success
@unchecked = uninstantiated
return false
else
delete @unchecked
return @
getCustomType: ()->
if not @custom_type?
# throw new Error "This operation was not initialized with a custom type"
@
else
if @custom_type.constructor is String
# has not been initialized yet (only the name is specified)
Type = @custom_types
for t in @custom_type.split(".")
Type = Type[t]
@custom_type = new Type()
@custom_type._setModel @
@custom_type
#
# @private
# Encode this operation in such a way that it can be parsed by remote peers.
#
_encode: (json = {})->
json.type = @type
json.uid = @getUid()
if @custom_type?
if @custom_type.constructor is String
json.custom_type = @custom_type
else
json.custom_type = @custom_type._name
if @content?.getUid?
json.content = @content.getUid()
else
json.content = @content
if @content_operations?
operations = {}
for n,o of @content_operations
if o._getModel?
o = o._getModel(@custom_types, @operations)
operations[n] = o.getUid()
json.content_operations = operations
json
#
# @nodoc
# A simple Delete-type operation that deletes an operation.
#
class ops.Delete extends ops.Operation
#
# @param {Object} uid A unique identifier. If uid is undefined, a new uid will be created.
# @param {Object} deletes UID or reference of the operation that this to be deleted.
#
constructor: (custom_type, uid, deletes)->
@saveOperation 'deletes', deletes
super custom_type, uid
type: "Delete"
#
# @private
# Convert all relevant information of this operation to the json-format.
# This result can be sent to other clients.
#
_encode: ()->
{
'type': "Delete"
'uid': @getUid()
'deletes': @deletes.getUid()
}
#
# @private
# Apply the deletion.
#
execute: ()->
if @validateSavedOperations()
res = super
if res
@deletes.applyDelete @
res
else
false
#
# Define how to parse Delete operations.
#
ops.Delete.parse = (o)->
{
'uid' : uid
'deletes': deletes_uid
} = o
new this(null, uid, deletes_uid)
#
# @nodoc
# A simple insert-type operation.
#
# An insert operation is always positioned between two other insert operations.
# Internally this is realized as associative lists, whereby each insert operation has a predecessor and a successor.
# For the sake of efficiency we maintain two lists:
# - The short-list (abbrev. sl) maintains only the operations that are not deleted (unimplemented, good idea?)
# - The complete-list (abbrev. cl) maintains all operations
#
class ops.Insert extends ops.Operation
#
# @param {Object} uid A unique identifier. If uid is undefined, a new uid will be created.
# @param {Operation} prev_cl The predecessor of this operation in the complete-list (cl)
# @param {Operation} next_cl The successor of this operation in the complete-list (cl)
#
constructor: (custom_type, content, content_operations, parent, uid, prev_cl, next_cl, origin)->
@saveOperation 'parent', parent
@saveOperation 'prev_cl', prev_cl
@saveOperation 'next_cl', next_cl
if origin?
@saveOperation 'origin', origin
else
@saveOperation 'origin', prev_cl
super custom_type, uid, content, content_operations
type: "Insert"
val: ()->
@getContent()
getNext: (i=1)->
n = @
while i > 0 and n.next_cl?
n = n.next_cl
if not n.is_deleted
i--
if n.is_deleted
null
n
getPrev: (i=1)->
n = @
while i > 0 and n.prev_cl?
n = n.prev_cl
if not n.is_deleted
i--
if n.is_deleted
null
else
n
#
# set content to null and other stuff
# @private
#
applyDelete: (o)->
@deleted_by ?= []
callLater = false
if @parent? and not @is_deleted and o? # o? : if not o?, then the delimiter deleted this Insertion. Furthermore, it would be wrong to call it. TODO: make this more expressive and save
# call iff wasn't deleted earlyer
callLater = true
if o?
@deleted_by.push o
garbagecollect = false
if @next_cl.isDeleted()
garbagecollect = true
super garbagecollect
if callLater
@parent.callOperationSpecificDeleteEvents(this, o)
if @prev_cl? and @prev_cl.isDeleted() and @prev_cl.garbage_collected isnt true
# garbage collect prev_cl
@prev_cl.applyDelete()
cleanup: ()->
if @next_cl.isDeleted()
# delete all ops that delete this insertion
for d in @deleted_by
d.cleanup()
# throw new Error "right is not deleted. inconsistency!, wrararar"
# change origin references to the right
o = @next_cl
while o.type isnt "Delimiter"
if o.origin is @
o.origin = @prev_cl
o = o.next_cl
# reconnect left/right
@prev_cl.next_cl = @next_cl
@next_cl.prev_cl = @prev_cl
# delete content
# - we must not do this in applyDelete, because this would lead to inconsistencies
# (e.g. the following operation order must be invertible :
# Insert refers to content, then the content is deleted)
# Therefore, we have to do this in the cleanup
# * NODE: We never delete Insertions!
if @content instanceof ops.Operation and not (@content instanceof ops.Insert)
@content.referenced_by--
if @content.referenced_by <= 0 and not @content.is_deleted
@content.applyDelete()
delete @content
super
# else
# Someone inserted something in the meantime.
# Remember: this can only be garbage collected when next_cl is deleted
#
# @private
# The amount of positions that $this operation was moved to the right.
#
getDistanceToOrigin: ()->
d = 0
o = @prev_cl
while true
if @origin is o
break
d++
o = o.prev_cl
d
#
# @private
# Include this operation in the associative lists.
execute: ()->
if not @validateSavedOperations()
return false
else
if @content instanceof ops.Operation
@content.insert_parent = @ # TODO: this is probably not necessary and only nice for debugging
@content.referenced_by ?= 0
@content.referenced_by++
if @parent?
if not @prev_cl?
@prev_cl = @parent.beginning
if not @origin?
@origin = @prev_cl
else if @origin is "Delimiter"
@origin = @parent.beginning
if not @next_cl?
@next_cl = @parent.end
if @prev_cl?
distance_to_origin = @getDistanceToOrigin() # most cases: 0
o = @prev_cl.next_cl
i = distance_to_origin # loop counter
# $this has to find a unique position between origin and the next known character
# case 1: $origin equals $o.origin: the $creator parameter decides if left or right
# let $OL= [o1,o2,o3,o4], whereby $this is to be inserted between o1 and o4
# o2,o3 and o4 origin is 1 (the position of o2)
# there is the case that $this.creator < o2.creator, but o3.creator < $this.creator
# then o2 knows o3. Since on another client $OL could be [o1,o3,o4] the problem is complex
# therefore $this would be always to the right of o3
# case 2: $origin < $o.origin
# if current $this insert_position > $o origin: $this ins
# else $insert_position will not change
# (maybe we encounter case 1 later, then this will be to the right of $o)
# case 3: $origin > $o.origin
# $this insert_position is to the left of $o (forever!)
while true
if o isnt @next_cl
# $o happened concurrently
if o.getDistanceToOrigin() is i
# case 1
if o.uid.creator < @uid.creator
@prev_cl = o
distance_to_origin = i + 1
else
# nop
else if o.getDistanceToOrigin() < i
# case 2
if i - distance_to_origin <= o.getDistanceToOrigin()
@prev_cl = o
distance_to_origin = i + 1
else
#nop
else
# case 3
break
i++
o = o.next_cl
else
# $this knows that $o exists,
break
# now reconnect everything
@next_cl = @prev_cl.next_cl
@prev_cl.next_cl = @
@next_cl.prev_cl = @
@setParent @prev_cl.getParent() # do Insertions always have a parent?
super # notify the execution_listeners
@parent.callOperationSpecificInsertEvents(this)
@
#
# Compute the position of this operation.
#
getPosition: ()->
position = 0
prev = @prev_cl
while true
if prev instanceof ops.Delimiter
break
if not prev.isDeleted()
position++
prev = prev.prev_cl
position
#
# Convert all relevant information of this operation to the json-format.
# This result can be send to other clients.
#
_encode: (json = {})->
json.prev = @prev_cl.getUid()
json.next = @next_cl.getUid()
if @origin.type is "Delimiter"
json.origin = "Delimiter"
else if @origin isnt @prev_cl
json.origin = @origin.getUid()
# if not (json.prev? and json.next?)
json.parent = @parent.getUid()
super json
ops.Insert.parse = (json)->
{
'content' : content
'content_operations' : content_operations
'uid' : uid
'prev': prev
'next': next
'origin' : origin
'parent' : parent
} = json
new this null, content, content_operations, parent, uid, prev, next, origin
#
# @nodoc
# A delimiter is placed at the end and at the beginning of the associative lists.
# This is necessary in order to have a beginning and an end even if the content
# of the Engine is empty.
#
class ops.Delimiter extends ops.Operation
#
# @param {Object} uid A unique identifier. If uid is undefined, a new uid will be created.
# @param {Operation} prev_cl The predecessor of this operation in the complete-list (cl)
# @param {Operation} next_cl The successor of this operation in the complete-list (cl)
#
constructor: (prev_cl, next_cl, origin)->
@saveOperation 'prev_cl', prev_cl
@saveOperation 'next_cl', next_cl
@saveOperation 'origin', prev_cl
super null, {noOperation: true}
type: "Delimiter"
applyDelete: ()->
super()
o = @prev_cl
while o?
o.applyDelete()
o = o.prev_cl
undefined
cleanup: ()->
super()
#
# @private
#
execute: ()->
if @unchecked?['next_cl']?
super
else if @unchecked?['prev_cl']
if @validateSavedOperations()
if @prev_cl.next_cl?
throw new Error "Probably duplicated operations"
@prev_cl.next_cl = @
super
else
false
else if @prev_cl? and not @prev_cl.next_cl?
delete @prev_cl.unchecked.next_cl
@prev_cl.next_cl = @
super
else if @prev_cl? or @next_cl? or true # TODO: are you sure? This can happen right?
super
#else
# throw new Error "Delimiter is unsufficient defined!"
#
# @private
#
_encode: ()->
{
'type' : @type
'uid' : @getUid()
'prev' : @prev_cl?.getUid()
'next' : @next_cl?.getUid()
}
ops.Delimiter.parse = (json)->
{
'uid' : uid
'prev' : prev
'next' : next
} = json
new this(uid, prev, next)
# This is what this module exports after initializing it with the HistoryBuffer
{
'operations' : ops
'execution_listener' : execution_listener
}

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basic_ops_uninitialized = require "./Basic"
module.exports = ()->
basic_ops = basic_ops_uninitialized()
ops = basic_ops.operations
#
# @nodoc
# Manages map like objects. E.g. Json-Type and XML attributes.
#
class ops.MapManager extends ops.Operation
#
# @param {Object} uid A unique identifier. If uid is undefined, a new uid will be created.
#
constructor: (custom_type, uid, content, content_operations)->
@_map = {}
super custom_type, uid, content, content_operations
type: "MapManager"
applyDelete: ()->
for name,p of @_map
p.applyDelete()
super()
cleanup: ()->
super()
map: (f)->
for n,v of @_map
f(n,v)
undefined
#
# @see JsonOperations.val
#
val: (name, content)->
if arguments.length > 1
if content? and content._getModel?
rep = content._getModel(@custom_types, @operations)
else
rep = content
@retrieveSub(name).replace rep
@getCustomType()
else if name?
prop = @_map[name]
if prop? and not prop.isContentDeleted()
res = prop.val()
if res instanceof ops.Operation
res.getCustomType()
else
res
else
undefined
else
result = {}
for name,o of @_map
if not o.isContentDeleted()
result[name] = o.val()
result
delete: (name)->
@_map[name]?.deleteContent()
@
retrieveSub: (property_name)->
if not @_map[property_name]?
event_properties =
name: property_name
event_this = @
rm_uid =
noOperation: true
sub: property_name
alt: @
rm = new ops.ReplaceManager null, event_properties, event_this, rm_uid # this operation shall not be saved in the HB
@_map[property_name] = rm
rm.setParent @, property_name
rm.execute()
@_map[property_name]
ops.MapManager.parse = (json)->
{
'uid' : uid
'custom_type' : custom_type
'content' : content
'content_operations' : content_operations
} = json
new this(custom_type, uid, content, content_operations)
#
# @nodoc
# Manages a list of Insert-type operations.
#
class ops.ListManager extends ops.Operation
#
# A ListManager maintains a non-empty list that has a beginning and an end (both Delimiters!)
# @param {Object} uid A unique identifier. If uid is undefined, a new uid will be created.
# @param {Delimiter} beginning Reference or Object.
# @param {Delimiter} end Reference or Object.
constructor: (custom_type, uid, content, content_operations)->
@beginning = new ops.Delimiter undefined, undefined
@end = new ops.Delimiter @beginning, undefined
@beginning.next_cl = @end
@beginning.execute()
@end.execute()
super custom_type, uid, content, content_operations
type: "ListManager"
applyDelete: ()->
o = @beginning
while o?
o.applyDelete()
o = o.next_cl
super()
cleanup: ()->
super()
toJson: (transform_to_value = false)->
val = @val()
for i, o in val
if o instanceof ops.Object
o.toJson(transform_to_value)
else if o instanceof ops.ListManager
o.toJson(transform_to_value)
else if transform_to_value and o instanceof ops.Operation
o.val()
else
o
#
# @private
# @see Operation.execute
#
execute: ()->
if @validateSavedOperations()
@beginning.setParent @
@end.setParent @
super
else
false
# Get the element previous to the delemiter at the end
getLastOperation: ()->
@end.prev_cl
# similar to the above
getFirstOperation: ()->
@beginning.next_cl
# Transforms the the list to an array
# Doesn't return left-right delimiter.
toArray: ()->
o = @beginning.next_cl
result = []
while o isnt @end
if not o.is_deleted
result.push o.val()
o = o.next_cl
result
map: (f)->
o = @beginning.next_cl
result = []
while o isnt @end
if not o.is_deleted
result.push f(o)
o = o.next_cl
result
fold: (init, f)->
o = @beginning.next_cl
while o isnt @end
if not o.is_deleted
init = f(init, o)
o = o.next_cl
init
val: (pos)->
if pos?
o = @getOperationByPosition(pos+1)
if not (o instanceof ops.Delimiter)
o.val()
else
throw new Error "this position does not exist"
else
@toArray()
ref: (pos)->
if pos?
o = @getOperationByPosition(pos+1)
if not (o instanceof ops.Delimiter)
o
else
null
# throw new Error "this position does not exist"
else
throw new Error "you must specify a position parameter"
#
# Retrieves the x-th not deleted element.
# e.g. "abc" : the 1th character is "a"
# the 0th character is the left Delimiter
#
getOperationByPosition: (position)->
o = @beginning
while true
# find the i-th op
if o instanceof ops.Delimiter and o.prev_cl?
# the user or you gave a position parameter that is to big
# for the current array. Therefore we reach a Delimiter.
# Then, we'll just return the last character.
o = o.prev_cl
while o.isDeleted() and o.prev_cl?
o = o.prev_cl
break
if position <= 0 and not o.isDeleted()
break
o = o.next_cl
if not o.isDeleted()
position -= 1
o
push: (content)->
@insertAfter @end.prev_cl, [content]
insertAfter: (left, contents)->
right = left.next_cl
while right.isDeleted()
right = right.next_cl # find the first character to the right, that is not deleted. In the case that position is 0, its the Delimiter.
left = right.prev_cl
# TODO: always expect an array as content. Then you can combine this with the other option (else)
if contents instanceof ops.Operation
(new ops.Insert null, content, null, undefined, undefined, left, right).execute()
else
for c in contents
if c? and c._name? and c._getModel?
c = c._getModel(@custom_types, @operations)
tmp = (new ops.Insert null, c, null, undefined, undefined, left, right).execute()
left = tmp
@
#
# Inserts an array of content into this list.
# @Note: This expects an array as content!
#
# @return {ListManager Type} This String object.
#
insert: (position, contents)->
ith = @getOperationByPosition position
# the (i-1)th character. e.g. "abc" the 1th character is "a"
# the 0th character is the left Delimiter
@insertAfter ith, contents
#
# Deletes a part of the word.
#
# @return {ListManager Type} This String object
#
delete: (position, length = 1)->
o = @getOperationByPosition(position+1) # position 0 in this case is the deletion of the first character
delete_ops = []
for i in [0...length]
if o instanceof ops.Delimiter
break
d = (new ops.Delete null, undefined, o).execute()
o = o.next_cl
while (not (o instanceof ops.Delimiter)) and o.isDeleted()
o = o.next_cl
delete_ops.push d._encode()
@
callOperationSpecificInsertEvents: (op)->
getContentType = (content)->
if content instanceof ops.Operation
content.getCustomType()
else
content
@callEvent [
type: "insert"
reference: op
position: op.getPosition()
object: @getCustomType()
changedBy: op.uid.creator
value: getContentType op.val()
]
callOperationSpecificDeleteEvents: (op, del_op)->
@callEvent [
type: "delete"
reference: op
position: op.getPosition()
object: @getCustomType() # TODO: You can combine getPosition + getParent in a more efficient manner! (only left Delimiter will hold @parent)
length: 1
changedBy: del_op.uid.creator
oldValue: op.val()
]
ops.ListManager.parse = (json)->
{
'uid' : uid
'custom_type': custom_type
'content' : content
'content_operations' : content_operations
} = json
new this(custom_type, uid, content, content_operations)
class ops.Composition extends ops.ListManager
constructor: (custom_type, @_composition_value, composition_value_operations, uid, tmp_composition_ref)->
# we can't use @seveOperation 'composition_ref', tmp_composition_ref here,
# because then there is a "loop" (insertion refers to parent, refers to insertion..)
# This is why we have to check in @callOperationSpecificInsertEvents until we find it
super custom_type, uid
if tmp_composition_ref?
@tmp_composition_ref = tmp_composition_ref
else
@composition_ref = @end.prev_cl
if composition_value_operations?
@composition_value_operations = {}
for n,o of composition_value_operations
@saveOperation n, o, '_composition_value'
type: "Composition"
#
# @private
# @see Operation.execute
#
execute: ()->
if @validateSavedOperations()
@getCustomType()._setCompositionValue @_composition_value
delete @_composition_value
# check if tmp_composition_ref already exists
if @tmp_composition_ref
composition_ref = @HB.getOperation @tmp_composition_ref
if composition_ref?
delete @tmp_composition_ref
@composition_ref = composition_ref
super
else
false
#
# This is called, when the Insert-operation was successfully executed.
#
callOperationSpecificInsertEvents: (op)->
if @tmp_composition_ref?
if op.uid.creator is @tmp_composition_ref.creator and op.uid.op_number is @tmp_composition_ref.op_number
@composition_ref = op
delete @tmp_composition_ref
op = op.next_cl
if op is @end
return
else
return
o = @end.prev_cl
while o isnt op
@getCustomType()._unapply o.undo_delta
o = o.prev_cl
while o isnt @end
o.undo_delta = @getCustomType()._apply o.val()
o = o.next_cl
@composition_ref = @end.prev_cl
@callEvent [
type: "update"
changedBy: op.uid.creator
newValue: @val()
]
callOperationSpecificDeleteEvents: (op, del_op)->
return
#
# Create a new Delta
# - inserts new Content at the end of the list
# - updates the composition_value
# - updates the composition_ref
#
# @param delta The delta that is applied to the composition_value
#
applyDelta: (delta, operations)->
(new ops.Insert null, delta, operations, @, null, @end.prev_cl, @end).execute()
undefined
#
# Encode this operation in such a way that it can be parsed by remote peers.
#
_encode: (json = {})->
custom = @getCustomType()._getCompositionValue()
json.composition_value = custom.composition_value
if custom.composition_value_operations?
json.composition_value_operations = {}
for n,o of custom.composition_value_operations
json.composition_value_operations[n] = o.getUid()
if @composition_ref?
json.composition_ref = @composition_ref.getUid()
else
json.composition_ref = @tmp_composition_ref
super json
ops.Composition.parse = (json)->
{
'uid' : uid
'custom_type': custom_type
'composition_value' : composition_value
'composition_value_operations' : composition_value_operations
'composition_ref' : composition_ref
} = json
new this(custom_type, composition_value, composition_value_operations, uid, composition_ref)
#
# @nodoc
# Adds support for replace. The ReplaceManager manages Replaceable operations.
# Each Replaceable holds a value that is now replaceable.
#
# The TextType-type has implemented support for replace
# @see TextType
#
class ops.ReplaceManager extends ops.ListManager
#
# @param {Object} event_properties Decorates the event that is thrown by the RM
# @param {Object} event_this The object on which the event shall be executed
# @param {Operation} initial_content Initialize this with a Replaceable that holds the initial_content.
# @param {Object} uid A unique identifier. If uid is undefined, a new uid will be created.
# @param {Delimiter} beginning Reference or Object.
# @param {Delimiter} end Reference or Object.
constructor: (custom_type, @event_properties, @event_this, uid)->
if not @event_properties['object']?
@event_properties['object'] = @event_this.getCustomType()
super custom_type, uid
type: "ReplaceManager"
#
# This doesn't throw the same events as the ListManager. Therefore, the
# Replaceables also not throw the same events.
# So, ReplaceManager and ListManager both implement
# these functions that are called when an Insertion is executed (at the end).
#
#
callEventDecorator: (events)->
if not @isDeleted()
for event in events
for name,prop of @event_properties
event[name] = prop
@event_this.callEvent events
undefined
#
# This is called, when the Insert-type was successfully executed.
# TODO: consider doing this in a more consistent manner. This could also be
# done with execute. But currently, there are no specital Insert-ops for ListManager.
#
callOperationSpecificInsertEvents: (op)->
if op.next_cl.type is "Delimiter" and op.prev_cl.type isnt "Delimiter"
# this replaces another Replaceable
if not op.is_deleted # When this is received from the HB, this could already be deleted!
old_value = op.prev_cl.val()
@callEventDecorator [
type: "update"
changedBy: op.uid.creator
oldValue: old_value
]
op.prev_cl.applyDelete()
else if op.next_cl.type isnt "Delimiter"
# This won't be recognized by the user, because another
# concurrent operation is set as the current value of the RM
op.applyDelete()
else # prev _and_ next are Delimiters. This is the first created Replaceable in the RM
@callEventDecorator [
type: "add"
changedBy: op.uid.creator
]
undefined
callOperationSpecificDeleteEvents: (op, del_op)->
if op.next_cl.type is "Delimiter"
@callEventDecorator [
type: "delete"
changedBy: del_op.uid.creator
oldValue: op.val()
]
#
# Replace the existing word with a new word.
#
# @param content {Operation} The new value of this ReplaceManager.
# @param replaceable_uid {UID} Optional: Unique id of the Replaceable that is created
#
replace: (content, replaceable_uid)->
o = @getLastOperation()
relp = (new ops.Insert null, content, null, @, replaceable_uid, o, o.next_cl).execute()
# TODO: delete repl (for debugging)
undefined
isContentDeleted: ()->
@getLastOperation().isDeleted()
deleteContent: ()->
last_op = @getLastOperation()
if (not last_op.isDeleted()) and last_op.type isnt "Delimiter"
(new ops.Delete null, undefined, @getLastOperation().uid).execute()
undefined
#
# Get the value of this
# @return {String}
#
val: ()->
o = @getLastOperation()
#if o instanceof ops.Delimiter
# throw new Error "Replace Manager doesn't contain anything."
o.val?() # ? - for the case that (currently) the RM does not contain anything (then o is a Delimiter)
basic_ops

55
lib/y-object.coffee Normal file
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@@ -0,0 +1,55 @@
bindToChildren = (that)->
for i in [0...that.children.length]
attr = that.children.item(i)
if attr.name?
attr.val = that.val.val(attr.name)
that.val.observe (events)->
for event in events
if event.name?
for i in [0...that.children.length]
attr = that.children.item(i)
if attr.name? and attr.name is event.name
newVal = that.val.val(attr.name)
if attr.val isnt newVal
attr.val = newVal
Polymer "y-object",
ready: ()->
if @connector?
@val = new Y @connector
bindToChildren @
else if @val?
bindToChildren @
valChanged: ()->
if @val? and @val._name is "Object"
bindToChildren @
connectorChanged: ()->
if (not @val?)
@val = new Y @connector
bindToChildren @
Polymer "y-property",
ready: ()->
if @val? and @name?
if @val.constructor is Object
@val = @parentElement.val(@name,new Y.Object(@val)).val(@name)
# TODO: please use instanceof instead of ._name,
# since it is more safe (consider someone putting a custom Object type here)
else if typeof @val is "string"
@parentElement.val(@name,@val)
if @val._name is "Object"
bindToChildren @
valChanged: ()->
if @val? and @name?
if @val.constructor is Object
@val = @parentElement.val.val(@name, new Y.Object(@val)).val(@name)
# TODO: please use instanceof instead of ._name,
# since it is more safe (consider someone putting a custom Object type here)
else if @val._name is "Object"
bindToChildren @
else if @parentElement.val?.val? and @val isnt @parentElement.val.val(@name)
@parentElement.val.val @name, @val

38
lib/y.coffee Normal file
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@@ -0,0 +1,38 @@
structured_ops_uninitialized = require "./Operations/Structured"
HistoryBuffer = require "./HistoryBuffer"
Engine = require "./Engine"
adaptConnector = require "./ConnectorAdapter"
createY = (connector)->
if connector.user_id?
user_id = connector.user_id # TODO: change to getUniqueId()
else
user_id = "_temp"
connector.when_received_state_vector_listeners = [(state_vector)->
HB.setUserId this.user_id, state_vector
]
HB = new HistoryBuffer user_id
ops_manager = structured_ops_uninitialized HB, this.constructor
ops = ops_manager.operations
engine = new Engine HB, ops
adaptConnector connector, engine, HB, ops_manager.execution_listener
ops.Operation.prototype.HB = HB
ops.Operation.prototype.operations = ops
ops.Operation.prototype.engine = engine
ops.Operation.prototype.connector = connector
ops.Operation.prototype.custom_types = this.constructor
ct = new createY.Object()
model = new ops.MapManager(ct, HB.getReservedUniqueIdentifier()).execute()
ct._setModel model
ct
module.exports = createY
if window?
window.Y = createY
createY.Object = require "./ObjectType"

2616
package-lock.json generated
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99
package.json
View File

@@ -1,70 +1,65 @@
{
"name": "yjs",
"version": "13.0.0-105",
"description": "Shared Editing Library",
"main": "./dist/yjs.cjs",
"module": "./src/index.js",
"sideEffects": false,
"version": "0.5.3",
"description": "A Framework that enables Real-Time Collaboration on arbitrary data structures.",
"main": "./build/node/y.js",
"scripts": {
"test": "npm run dist && node ./dist/tests.cjs --repitition-time 50",
"test-exhaustive": "npm run lint && npm run dist && node ./dist/tests.cjs --production --repitition-time 10000",
"dist": "rm -rf dist && rollup -c",
"watch": "rollup -wc",
"lint": "markdownlint README.md && standard && tsc",
"docs": "rm -rf docs; jsdoc --configure ./.jsdoc.json --verbose --readme ./README.md --package ./package.json || true",
"serve-docs": "npm run docs && http-server ./docs/",
"preversion": "npm run lint && PRODUCTION=1 npm run dist && npm run docs && node ./dist/tests.cjs --repitition-time 1000",
"postversion": "git push && git push --tags",
"debug": "concurrently 'http-server -o test.html' 'npm run watch'",
"trace-deopt": "clear && rollup -c && node --trace-deopt dist/test.cjs",
"trace-opt": "clear && rollup -c && node --trace-opt dist/test.cjs"
},
"files": [
"dist/*",
"src/*",
"tests/*",
"docs/*"
],
"dictionaries": {
"doc": "docs",
"test": "tests"
},
"standard": {
"ignore": [
"/dist",
"/node_modules",
"/docs"
]
"prepublish": "./node_modules/gulp/bin/gulp.js build_node",
"test": "./node_modules/gulp/bin/gulp.js mocha"
},
"repository": {
"type": "git",
"url": "https://github.com/yjs/yjs.git"
"url": "https://github.com/rwth-acis/yjs"
},
"keywords": [
"crdt"
"OT",
"collaboration",
"synchronization",
"ShareJS",
"Coweb",
"concurrency"
],
"author": "Kevin Jahns",
"email": "kevin.jahns@protonmail.com",
"email": "kevin.jahns@rwth-aachen.de",
"license": "MIT",
"bugs": {
"url": "https://github.com/yjs/yjs/issues"
"url": "https://github.com/rwth-acis/yjs/issues"
},
"homepage": "https://yjs.dev",
"homepage": "https://dadamonad.github.io/yjs/",
"dependencies": {
"lib0": "^0.2.2"
},
"devDependencies": {
"@rollup/plugin-commonjs": "^11.0.1",
"@rollup/plugin-node-resolve": "^7.0.0",
"concurrently": "^3.6.1",
"http-server": "^0.12.1",
"jsdoc": "^3.6.3",
"markdownlint-cli": "^0.19.0",
"rollup": "^1.29.0",
"rollup-cli": "^1.0.9",
"standard": "^11.0.1",
"tui-jsdoc-template": "^1.2.2",
"typescript": "^3.6.2",
"y-protocols": "0.0.6"
"chai": "^2.2.0",
"codo": "^2.0.9",
"coffee-errors": "~0.8.6",
"coffee-script": "^1.7.1",
"coffeeify": "^0.6.0",
"gulp": "^3.8.7",
"gulp-browserify": "^0.5.0",
"gulp-cached": "^1.0.1",
"gulp-coffee": "^2.1.1",
"gulp-coffeeify": "^0.1.2",
"gulp-coffeelint": "^0.3.3",
"gulp-concat": "^2.3.4",
"gulp-copy": "0.0.2",
"gulp-debug": "^1.0.0",
"gulp-exit": "0.0.2",
"gulp-git": "^0.5.0",
"gulp-if": "^1.2.4",
"gulp-ignore": "^1.2.0",
"gulp-ljs": "^0.1.1",
"gulp-mocha": "^0.5.2",
"gulp-plumber": "^0.6.6",
"gulp-rename": "^1.2.0",
"gulp-rimraf": "^0.1.0",
"gulp-run": "^1.6.3",
"gulp-sourcemaps": "^1.1.1",
"gulp-uglify": "^0.3.1",
"gulp-watch": "^3.0.0",
"jquery": "^2.1.1",
"underscore": "^1.6.0",
"mocha": "^2.1.0",
"sinon": "^1.12.2",
"sinon-chai": "^2.7.0"
}
}

87
rollup.config.js
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@@ -1,87 +0,0 @@
import nodeResolve from '@rollup/plugin-node-resolve'
import commonjs from '@rollup/plugin-commonjs'
const localImports = process.env.LOCALIMPORTS
const customModules = new Set([
'y-websocket',
'y-codemirror',
'y-ace',
'y-textarea',
'y-quill',
'y-dom',
'y-prosemirror'
])
/**
* @type {Set<any>}
*/
const customLibModules = new Set([
'lib0',
'y-protocols'
])
const debugResolve = {
resolveId (importee) {
if (importee === 'yjs') {
return `${process.cwd()}/src/index.js`
}
if (localImports) {
if (customModules.has(importee.split('/')[0])) {
return `${process.cwd()}/../${importee}/src/${importee}.js`
}
if (customLibModules.has(importee.split('/')[0])) {
return `${process.cwd()}/../${importee}`
}
}
return null
}
}
export default [{
input: './src/index.js',
output: {
name: 'Y',
file: 'dist/yjs.cjs',
format: 'cjs',
sourcemap: true,
paths: path => {
if (/^lib0\//.test(path)) {
return `lib0/dist/${path.slice(5, -3)}.cjs`
}
return path
}
},
external: id => /^lib0\//.test(id)
}, {
input: './tests/index.js',
output: {
name: 'test',
file: 'dist/tests.js',
format: 'iife',
sourcemap: true
},
plugins: [
debugResolve,
nodeResolve({
sourcemap: true,
mainFields: ['module', 'browser', 'main']
}),
commonjs()
]
}, {
input: './tests/index.js',
output: {
name: 'test',
file: 'dist/tests.cjs',
format: 'cjs',
sourcemap: true
},
plugins: [
debugResolve,
nodeResolve({
sourcemap: true,
mainFields: ['module', 'main']
}),
commonjs()
],
external: ['isomorphic.js']
}]

58
src/index.js
View File

@@ -1,58 +0,0 @@
export {
Doc,
Transaction,
YArray as Array,
YMap as Map,
YText as Text,
YXmlText as XmlText,
YXmlHook as XmlHook,
YXmlElement as XmlElement,
YXmlFragment as XmlFragment,
YXmlEvent,
YMapEvent,
YArrayEvent,
YEvent,
Item,
AbstractStruct,
GC,
ContentBinary,
ContentDeleted,
ContentEmbed,
ContentFormat,
ContentJSON,
ContentAny,
ContentString,
ContentType,
AbstractType,
RelativePosition,
createRelativePositionFromTypeIndex,
createRelativePositionFromJSON,
createAbsolutePositionFromRelativePosition,
compareRelativePositions,
writeRelativePosition,
readRelativePosition,
ID,
createID,
compareIDs,
getState,
Snapshot,
createSnapshot,
createDeleteSet,
createDeleteSetFromStructStore,
snapshot,
emptySnapshot,
findRootTypeKey,
typeListToArraySnapshot,
typeMapGetSnapshot,
iterateDeletedStructs,
applyUpdate,
encodeStateAsUpdate,
encodeStateVector,
UndoManager,
decodeSnapshot,
encodeSnapshot,
isDeleted,
equalSnapshots,
PermanentUserData // @TODO experimental
} from './internals.js'

36
src/internals.js
View File

@@ -1,36 +0,0 @@
export * from './utils/DeleteSet.js'
export * from './utils/Doc.js'
export * from './utils/encoding.js'
export * from './utils/EventHandler.js'
export * from './utils/ID.js'
export * from './utils/isParentOf.js'
export * from './utils/PermanentUserData.js'
export * from './utils/RelativePosition.js'
export * from './utils/Snapshot.js'
export * from './utils/StructStore.js'
export * from './utils/Transaction.js'
export * from './utils/UndoManager.js'
export * from './utils/YEvent.js'
export * from './types/AbstractType.js'
export * from './types/YArray.js'
export * from './types/YMap.js'
export * from './types/YText.js'
export * from './types/YXmlFragment.js'
export * from './types/YXmlElement.js'
export * from './types/YXmlEvent.js'
export * from './types/YXmlHook.js'
export * from './types/YXmlText.js'
export * from './structs/AbstractStruct.js'
export * from './structs/GC.js'
export * from './structs/ContentBinary.js'
export * from './structs/ContentDeleted.js'
export * from './structs/ContentEmbed.js'
export * from './structs/ContentFormat.js'
export * from './structs/ContentJSON.js'
export * from './structs/ContentAny.js'
export * from './structs/ContentString.js'
export * from './structs/ContentType.js'
export * from './structs/Item.js'

88
src/structs/AbstractStruct.js
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@@ -1,88 +0,0 @@
import {
StructStore, ID, Transaction // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js' // eslint-disable-line
import * as error from 'lib0/error.js'
/**
* @private
*/
export class AbstractStruct {
/**
* @param {ID} id
* @param {number} length
*/
constructor (id, length) {
/**
* The uniqe identifier of this struct.
* @type {ID}
* @readonly
*/
this.id = id
this.length = length
this.deleted = false
}
/**
* Merge this struct with the item to the right.
* This method is already assuming that `this.id.clock + this.length === this.id.clock`.
* Also this method does *not* remove right from StructStore!
* @param {AbstractStruct} right
* @return {boolean} wether this merged with right
*/
mergeWith (right) {
return false
}
/**
* @param {encoding.Encoder} encoder The encoder to write data to.
* @param {number} offset
* @param {number} encodingRef
* @private
*/
write (encoder, offset, encodingRef) {
throw error.methodUnimplemented()
}
/**
* @param {Transaction} transaction
*/
integrate (transaction) {
throw error.methodUnimplemented()
}
}
/**
* @private
*/
export class AbstractStructRef {
/**
* @param {ID} id
*/
constructor (id) {
/**
* @type {Array<ID>}
*/
this._missing = []
/**
* The uniqe identifier of this type.
* @type {ID}
*/
this.id = id
}
/**
* @param {Transaction} transaction
* @return {Array<ID|null>}
*/
getMissing (transaction) {
return this._missing
}
/**
* @param {Transaction} transaction
* @param {StructStore} store
* @param {number} offset
* @return {AbstractStruct}
*/
toStruct (transaction, store, offset) {
throw error.methodUnimplemented()
}
}

108
src/structs/ContentAny.js
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@@ -1,108 +0,0 @@
import {
Transaction, Item, StructStore // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
/**
* @private
*/
export class ContentAny {
/**
* @param {Array<any>} arr
*/
constructor (arr) {
/**
* @type {Array<any>}
*/
this.arr = arr
}
/**
* @return {number}
*/
getLength () {
return this.arr.length
}
/**
* @return {Array<any>}
*/
getContent () {
return this.arr
}
/**
* @return {boolean}
*/
isCountable () {
return true
}
/**
* @return {ContentAny}
*/
copy () {
return new ContentAny(this.arr)
}
/**
* @param {number} offset
* @return {ContentAny}
*/
splice (offset) {
const right = new ContentAny(this.arr.slice(offset))
this.arr = this.arr.slice(0, offset)
return right
}
/**
* @param {ContentAny} right
* @return {boolean}
*/
mergeWith (right) {
this.arr = this.arr.concat(right.arr)
return true
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
const len = this.arr.length
encoding.writeVarUint(encoder, len - offset)
for (let i = offset; i < len; i++) {
const c = this.arr[i]
encoding.writeAny(encoder, c)
}
}
/**
* @return {number}
*/
getRef () {
return 8
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentAny}
*/
export const readContentAny = decoder => {
const len = decoding.readVarUint(decoder)
const cs = []
for (let i = 0; i < len; i++) {
cs.push(decoding.readAny(decoder))
}
return new ContentAny(cs)
}

92
src/structs/ContentBinary.js
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@@ -1,92 +0,0 @@
import {
StructStore, Item, Transaction // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as buffer from 'lib0/buffer.js'
import * as error from 'lib0/error.js'
/**
* @private
*/
export class ContentBinary {
/**
* @param {Uint8Array} content
*/
constructor (content) {
this.content = content
}
/**
* @return {number}
*/
getLength () {
return 1
}
/**
* @return {Array<any>}
*/
getContent () {
return [this.content]
}
/**
* @return {boolean}
*/
isCountable () {
return true
}
/**
* @return {ContentBinary}
*/
copy () {
return new ContentBinary(this.content)
}
/**
* @param {number} offset
* @return {ContentBinary}
*/
splice (offset) {
throw error.methodUnimplemented()
}
/**
* @param {ContentBinary} right
* @return {boolean}
*/
mergeWith (right) {
return false
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
encoding.writeVarUint8Array(encoder, this.content)
}
/**
* @return {number}
*/
getRef () {
return 3
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentBinary}
*/
export const readContentBinary = decoder => new ContentBinary(buffer.copyUint8Array(decoding.readVarUint8Array(decoder)))

98
src/structs/ContentDeleted.js
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@@ -1,98 +0,0 @@
import {
addToDeleteSet,
StructStore, Item, Transaction // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
/**
* @private
*/
export class ContentDeleted {
/**
* @param {number} len
*/
constructor (len) {
this.len = len
}
/**
* @return {number}
*/
getLength () {
return this.len
}
/**
* @return {Array<any>}
*/
getContent () {
return []
}
/**
* @return {boolean}
*/
isCountable () {
return false
}
/**
* @return {ContentDeleted}
*/
copy () {
return new ContentDeleted(this.len)
}
/**
* @param {number} offset
* @return {ContentDeleted}
*/
splice (offset) {
const right = new ContentDeleted(this.len - offset)
this.len = offset
return right
}
/**
* @param {ContentDeleted} right
* @return {boolean}
*/
mergeWith (right) {
this.len += right.len
return true
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {
addToDeleteSet(transaction.deleteSet, item.id, this.len)
item.deleted = true
}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
encoding.writeVarUint(encoder, this.len - offset)
}
/**
* @return {number}
*/
getRef () {
return 1
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentDeleted}
*/
export const readContentDeleted = decoder => new ContentDeleted(decoding.readVarUint(decoder))

92
src/structs/ContentEmbed.js
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@@ -1,92 +0,0 @@
import {
StructStore, Item, Transaction // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as error from 'lib0/error.js'
/**
* @private
*/
export class ContentEmbed {
/**
* @param {Object} embed
*/
constructor (embed) {
this.embed = embed
}
/**
* @return {number}
*/
getLength () {
return 1
}
/**
* @return {Array<any>}
*/
getContent () {
return [this.embed]
}
/**
* @return {boolean}
*/
isCountable () {
return true
}
/**
* @return {ContentEmbed}
*/
copy () {
return new ContentEmbed(this.embed)
}
/**
* @param {number} offset
* @return {ContentEmbed}
*/
splice (offset) {
throw error.methodUnimplemented()
}
/**
* @param {ContentEmbed} right
* @return {boolean}
*/
mergeWith (right) {
return false
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
encoding.writeVarString(encoder, JSON.stringify(this.embed))
}
/**
* @return {number}
*/
getRef () {
return 5
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentEmbed}
*/
export const readContentEmbed = decoder => new ContentEmbed(JSON.parse(decoding.readVarString(decoder)))

95
src/structs/ContentFormat.js
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@@ -1,95 +0,0 @@
import {
Item, StructStore, Transaction // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as error from 'lib0/error.js'
/**
* @private
*/
export class ContentFormat {
/**
* @param {string} key
* @param {Object} value
*/
constructor (key, value) {
this.key = key
this.value = value
}
/**
* @return {number}
*/
getLength () {
return 1
}
/**
* @return {Array<any>}
*/
getContent () {
return []
}
/**
* @return {boolean}
*/
isCountable () {
return false
}
/**
* @return {ContentFormat}
*/
copy () {
return new ContentFormat(this.key, this.value)
}
/**
* @param {number} offset
* @return {ContentFormat}
*/
splice (offset) {
throw error.methodUnimplemented()
}
/**
* @param {ContentFormat} right
* @return {boolean}
*/
mergeWith (right) {
return false
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
encoding.writeVarString(encoder, this.key)
encoding.writeVarString(encoder, JSON.stringify(this.value))
}
/**
* @return {number}
*/
getRef () {
return 6
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentFormat}
*/
export const readContentFormat = decoder => new ContentFormat(decoding.readVarString(decoder), JSON.parse(decoding.readVarString(decoder)))

113
src/structs/ContentJSON.js
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@@ -1,113 +0,0 @@
import {
Transaction, Item, StructStore // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
/**
* @private
*/
export class ContentJSON {
/**
* @param {Array<any>} arr
*/
constructor (arr) {
/**
* @type {Array<any>}
*/
this.arr = arr
}
/**
* @return {number}
*/
getLength () {
return this.arr.length
}
/**
* @return {Array<any>}
*/
getContent () {
return this.arr
}
/**
* @return {boolean}
*/
isCountable () {
return true
}
/**
* @return {ContentJSON}
*/
copy () {
return new ContentJSON(this.arr)
}
/**
* @param {number} offset
* @return {ContentJSON}
*/
splice (offset) {
const right = new ContentJSON(this.arr.slice(offset))
this.arr = this.arr.slice(0, offset)
return right
}
/**
* @param {ContentJSON} right
* @return {boolean}
*/
mergeWith (right) {
this.arr = this.arr.concat(right.arr)
return true
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
const len = this.arr.length
encoding.writeVarUint(encoder, len - offset)
for (let i = offset; i < len; i++) {
const c = this.arr[i]
encoding.writeVarString(encoder, c === undefined ? 'undefined' : JSON.stringify(c))
}
}
/**
* @return {number}
*/
getRef () {
return 2
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentJSON}
*/
export const readContentJSON = decoder => {
const len = decoding.readVarUint(decoder)
const cs = []
for (let i = 0; i < len; i++) {
const c = decoding.readVarString(decoder)
if (c === 'undefined') {
cs.push(undefined)
} else {
cs.push(JSON.parse(c))
}
}
return new ContentJSON(cs)
}

96
src/structs/ContentString.js
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@@ -1,96 +0,0 @@
import {
Transaction, Item, StructStore // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
/**
* @private
*/
export class ContentString {
/**
* @param {string} str
*/
constructor (str) {
/**
* @type {string}
*/
this.str = str
}
/**
* @return {number}
*/
getLength () {
return this.str.length
}
/**
* @return {Array<any>}
*/
getContent () {
return this.str.split('')
}
/**
* @return {boolean}
*/
isCountable () {
return true
}
/**
* @return {ContentString}
*/
copy () {
return new ContentString(this.str)
}
/**
* @param {number} offset
* @return {ContentString}
*/
splice (offset) {
const right = new ContentString(this.str.slice(offset))
this.str = this.str.slice(0, offset)
return right
}
/**
* @param {ContentString} right
* @return {boolean}
*/
mergeWith (right) {
this.str += right.str
return true
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {}
/**
* @param {Transaction} transaction
*/
delete (transaction) {}
/**
* @param {StructStore} store
*/
gc (store) {}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
encoding.writeVarString(encoder, offset === 0 ? this.str : this.str.slice(offset))
}
/**
* @return {number}
*/
getRef () {
return 4
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentString}
*/
export const readContentString = decoder => new ContentString(decoding.readVarString(decoder))

163
src/structs/ContentType.js
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@@ -1,163 +0,0 @@
import {
readYArray,
readYMap,
readYText,
readYXmlElement,
readYXmlFragment,
readYXmlHook,
readYXmlText,
StructStore, Transaction, Item, YEvent, AbstractType // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js' // eslint-disable-line
import * as decoding from 'lib0/decoding.js'
import * as error from 'lib0/error.js'
/**
* @type {Array<function(decoding.Decoder):AbstractType<any>>}
* @private
*/
export const typeRefs = [
readYArray,
readYMap,
readYText,
readYXmlElement,
readYXmlFragment,
readYXmlHook,
readYXmlText
]
export const YArrayRefID = 0
export const YMapRefID = 1
export const YTextRefID = 2
export const YXmlElementRefID = 3
export const YXmlFragmentRefID = 4
export const YXmlHookRefID = 5
export const YXmlTextRefID = 6
/**
* @private
*/
export class ContentType {
/**
* @param {AbstractType<YEvent>} type
*/
constructor (type) {
/**
* @type {AbstractType<any>}
*/
this.type = type
}
/**
* @return {number}
*/
getLength () {
return 1
}
/**
* @return {Array<any>}
*/
getContent () {
return [this.type]
}
/**
* @return {boolean}
*/
isCountable () {
return true
}
/**
* @return {ContentType}
*/
copy () {
return new ContentType(this.type._copy())
}
/**
* @param {number} offset
* @return {ContentType}
*/
splice (offset) {
throw error.methodUnimplemented()
}
/**
* @param {ContentType} right
* @return {boolean}
*/
mergeWith (right) {
return false
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {
this.type._integrate(transaction.doc, item)
}
/**
* @param {Transaction} transaction
*/
delete (transaction) {
let item = this.type._start
while (item !== null) {
if (!item.deleted) {
item.delete(transaction)
} else {
// Whis will be gc'd later and we want to merge it if possible
// We try to merge all deleted items after each transaction,
// but we have no knowledge about that this needs to be merged
// since it is not in transaction.ds. Hence we add it to transaction._mergeStructs
transaction._mergeStructs.add(item.id)
}
item = item.right
}
this.type._map.forEach(item => {
if (!item.deleted) {
item.delete(transaction)
} else {
// same as above
transaction._mergeStructs.add(item.id)
}
})
transaction.changed.delete(this.type)
}
/**
* @param {StructStore} store
*/
gc (store) {
let item = this.type._start
while (item !== null) {
item.gc(store, true)
item = item.right
}
this.type._start = null
this.type._map.forEach(/** @param {Item | null} item */ (item) => {
while (item !== null) {
item.gc(store, true)
item = item.left
}
})
this.type._map = new Map()
}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
this.type._write(encoder)
}
/**
* @return {number}
*/
getRef () {
return 7
}
}
/**
* @private
*
* @param {decoding.Decoder} decoder
* @return {ContentType}
*/
export const readContentType = decoder => new ContentType(typeRefs[decoding.readVarUint(decoder)](decoder))

89
src/structs/GC.js
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@@ -1,89 +0,0 @@
import {
AbstractStructRef,
AbstractStruct,
createID,
addStruct,
StructStore, Transaction, ID // eslint-disable-line
} from '../internals.js'
import * as decoding from 'lib0/decoding.js'
import * as encoding from 'lib0/encoding.js'
export const structGCRefNumber = 0
/**
* @private
*/
export class GC extends AbstractStruct {
/**
* @param {ID} id
* @param {number} length
*/
constructor (id, length) {
super(id, length)
this.deleted = true
}
delete () {}
/**
* @param {GC} right
* @return {boolean}
*/
mergeWith (right) {
this.length += right.length
return true
}
/**
* @param {Transaction} transaction
*/
integrate (transaction) {
addStruct(transaction.doc.store, this)
}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
encoding.writeUint8(encoder, structGCRefNumber)
encoding.writeVarUint(encoder, this.length - offset)
}
}
/**
* @private
*/
export class GCRef extends AbstractStructRef {
/**
* @param {decoding.Decoder} decoder
* @param {ID} id
* @param {number} info
*/
constructor (decoder, id, info) {
super(id)
/**
* @type {number}
*/
this.length = decoding.readVarUint(decoder)
}
/**
* @param {Transaction} transaction
* @param {StructStore} store
* @param {number} offset
* @return {GC}
*/
toStruct (transaction, store, offset) {
if (offset > 0) {
// @ts-ignore
this.id = createID(this.id.client, this.id.clock + offset)
this.length -= offset
}
return new GC(
this.id,
this.length
)
}
}

772
src/structs/Item.js
View File

@@ -1,772 +0,0 @@
import {
readID,
createID,
writeID,
GC,
nextID,
AbstractStructRef,
AbstractStruct,
replaceStruct,
addStruct,
addToDeleteSet,
findRootTypeKey,
compareIDs,
getItem,
getItemCleanEnd,
getItemCleanStart,
readContentDeleted,
readContentBinary,
readContentJSON,
readContentAny,
readContentString,
readContentEmbed,
readContentFormat,
readContentType,
addChangedTypeToTransaction,
ContentType, ContentDeleted, StructStore, ID, AbstractType, Transaction // eslint-disable-line
} from '../internals.js'
import * as error from 'lib0/error.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as maplib from 'lib0/map.js'
import * as set from 'lib0/set.js'
import * as binary from 'lib0/binary.js'
/**
* @todo This should return several items
*
* @param {StructStore} store
* @param {ID} id
* @return {{item:Item, diff:number}}
*/
export const followRedone = (store, id) => {
/**
* @type {ID|null}
*/
let nextID = id
let diff = 0
let item
do {
if (diff > 0) {
nextID = createID(nextID.client, nextID.clock + diff)
}
item = getItem(store, nextID)
diff = nextID.clock - item.id.clock
nextID = item.redone
} while (nextID !== null && item instanceof Item)
return {
item, diff
}
}
/**
* Make sure that neither item nor any of its parents is ever deleted.
*
* This property does not persist when storing it into a database or when
* sending it to other peers
*
* @param {Item|null} item
*/
export const keepItem = item => {
while (item !== null && !item.keep) {
item.keep = true
item = item.parent._item
}
}
/**
* Split leftItem into two items
* @param {Transaction} transaction
* @param {Item} leftItem
* @param {number} diff
* @return {Item}
*
* @function
* @private
*/
export const splitItem = (transaction, leftItem, diff) => {
const id = leftItem.id
// create rightItem
const rightItem = new Item(
createID(id.client, id.clock + diff),
leftItem,
createID(id.client, id.clock + diff - 1),
leftItem.right,
leftItem.rightOrigin,
leftItem.parent,
leftItem.parentSub,
leftItem.content.splice(diff)
)
if (leftItem.deleted) {
rightItem.deleted = true
}
if (leftItem.keep) {
rightItem.keep = true
}
if (leftItem.redone !== null) {
rightItem.redone = createID(leftItem.redone.client, leftItem.redone.clock + diff)
}
// update left (do not set leftItem.rightOrigin as it will lead to problems when syncing)
leftItem.right = rightItem
// update right
if (rightItem.right !== null) {
rightItem.right.left = rightItem
}
// right is more specific.
transaction._mergeStructs.add(rightItem.id)
// update parent._map
if (rightItem.parentSub !== null && rightItem.right === null) {
rightItem.parent._map.set(rightItem.parentSub, rightItem)
}
leftItem.length = diff
return rightItem
}
/**
* Redoes the effect of this operation.
*
* @param {Transaction} transaction The Yjs instance.
* @param {Item} item
* @param {Set<Item>} redoitems
*
* @return {Item|null}
*
* @private
*/
export const redoItem = (transaction, item, redoitems) => {
if (item.redone !== null) {
return getItemCleanStart(transaction, item.redone)
}
let parentItem = item.parent._item
/**
* @type {Item|null}
*/
let left
/**
* @type {Item|null}
*/
let right
if (item.parentSub === null) {
// Is an array item. Insert at the old position
left = item.left
right = item
} else {
// Is a map item. Insert as current value
left = item
while (left.right !== null) {
left = left.right
if (left.id.client !== transaction.doc.clientID) {
// It is not possible to redo this item because it conflicts with a
// change from another client
return null
}
}
if (left.right !== null) {
left = /** @type {Item} */ (item.parent._map.get(item.parentSub))
}
right = null
}
// make sure that parent is redone
if (parentItem !== null && parentItem.deleted === true && parentItem.redone === null) {
// try to undo parent if it will be undone anyway
if (!redoitems.has(parentItem) || redoItem(transaction, parentItem, redoitems) === null) {
return null
}
}
if (parentItem !== null && parentItem.redone !== null) {
while (parentItem.redone !== null) {
parentItem = getItemCleanStart(transaction, parentItem.redone)
}
// find next cloned_redo items
while (left !== null) {
/**
* @type {Item|null}
*/
let leftTrace = left
// trace redone until parent matches
while (leftTrace !== null && leftTrace.parent._item !== parentItem) {
leftTrace = leftTrace.redone === null ? null : getItemCleanStart(transaction, leftTrace.redone)
}
if (leftTrace !== null && leftTrace.parent._item === parentItem) {
left = leftTrace
break
}
left = left.left
}
while (right !== null) {
/**
* @type {Item|null}
*/
let rightTrace = right
// trace redone until parent matches
while (rightTrace !== null && rightTrace.parent._item !== parentItem) {
rightTrace = rightTrace.redone === null ? null : getItemCleanStart(transaction, rightTrace.redone)
}
if (rightTrace !== null && rightTrace.parent._item === parentItem) {
right = rightTrace
break
}
right = right.right
}
}
const redoneItem = new Item(
nextID(transaction),
left, left === null ? null : left.lastId,
right, right === null ? null : right.id,
parentItem === null ? item.parent : /** @type {ContentType} */ (parentItem.content).type,
item.parentSub,
item.content.copy()
)
item.redone = redoneItem.id
keepItem(redoneItem)
redoneItem.integrate(transaction)
return redoneItem
}
/**
* Abstract class that represents any content.
*/
export class Item extends AbstractStruct {
/**
* @param {ID} id
* @param {Item | null} left
* @param {ID | null} origin
* @param {Item | null} right
* @param {ID | null} rightOrigin
* @param {AbstractType<any>} parent
* @param {string | null} parentSub
* @param {AbstractContent} content
*/
constructor (id, left, origin, right, rightOrigin, parent, parentSub, content) {
super(id, content.getLength())
/**
* The item that was originally to the left of this item.
* @type {ID | null}
* @readonly
*/
this.origin = origin
/**
* The item that is currently to the left of this item.
* @type {Item | null}
*/
this.left = left
/**
* The item that is currently to the right of this item.
* @type {Item | null}
*/
this.right = right
/**
* The item that was originally to the right of this item.
* @readonly
* @type {ID | null}
*/
this.rightOrigin = rightOrigin
/**
* The parent type.
* @type {AbstractType<any>}
* @readonly
*/
this.parent = parent
/**
* If the parent refers to this item with some kind of key (e.g. YMap, the
* key is specified here. The key is then used to refer to the list in which
* to insert this item. If `parentSub = null` type._start is the list in
* which to insert to. Otherwise it is `parent._map`.
* @type {String | null}
* @readonly
*/
this.parentSub = parentSub
/**
* Whether this item was deleted or not.
* @type {Boolean}
*/
this.deleted = false
/**
* If this type's effect is reundone this type refers to the type that undid
* this operation.
* @type {ID | null}
*/
this.redone = null
/**
* @type {AbstractContent}
*/
this.content = content
this.length = content.getLength()
this.countable = content.isCountable()
/**
* If true, do not garbage collect this Item.
*/
this.keep = false
}
/**
* @param {Transaction} transaction
* @private
*/
integrate (transaction) {
const store = transaction.doc.store
const id = this.id
const parent = this.parent
const parentSub = this.parentSub
const length = this.length
/**
* @type {Item|null}
*/
let o
// set o to the first conflicting item
if (this.left !== null) {
o = this.left.right
} else if (parentSub !== null) {
o = parent._map.get(parentSub) || null
while (o !== null && o.left !== null) {
o = o.left
}
} else {
o = parent._start
}
// TODO: use something like DeleteSet here (a tree implementation would be best)
/**
* @type {Set<Item>}
*/
const conflictingItems = new Set()
/**
* @type {Set<Item>}
*/
const itemsBeforeOrigin = new Set()
// Let c in conflictingItems, b in itemsBeforeOrigin
// ***{origin}bbbb{this}{c,b}{c,b}{o}***
// Note that conflictingItems is a subset of itemsBeforeOrigin
while (o !== null && o !== this.right) {
itemsBeforeOrigin.add(o)
conflictingItems.add(o)
if (compareIDs(this.origin, o.origin)) {
// case 1
if (o.id.client < id.client) {
this.left = o
conflictingItems.clear()
}
} else if (o.origin !== null && itemsBeforeOrigin.has(getItem(store, o.origin))) {
// case 2
if (o.origin === null || !conflictingItems.has(getItem(store, o.origin))) {
this.left = o
conflictingItems.clear()
}
} else {
break
}
o = o.right
}
// reconnect left/right + update parent map/start if necessary
if (this.left !== null) {
const right = this.left.right
this.right = right
this.left.right = this
} else {
let r
if (parentSub !== null) {
r = parent._map.get(parentSub) || null
while (r !== null && r.left !== null) {
r = r.left
}
} else {
r = parent._start
parent._start = this
}
this.right = r
}
if (this.right !== null) {
this.right.left = this
} else if (parentSub !== null) {
// set as current parent value if right === null and this is parentSub
parent._map.set(parentSub, this)
if (this.left !== null) {
// this is the current attribute value of parent. delete right
this.left.delete(transaction)
}
}
// adjust length of parent
if (parentSub === null && this.countable && !this.deleted) {
parent._length += length
}
addStruct(store, this)
this.content.integrate(transaction, this)
// add parent to transaction.changed
addChangedTypeToTransaction(transaction, parent, parentSub)
if ((parent._item !== null && parent._item.deleted) || (this.right !== null && parentSub !== null)) {
// delete if parent is deleted or if this is not the current attribute value of parent
this.delete(transaction)
}
}
/**
* Returns the next non-deleted item
* @private
*/
get next () {
let n = this.right
while (n !== null && n.deleted) {
n = n.right
}
return n
}
/**
* Returns the previous non-deleted item
* @private
*/
get prev () {
let n = this.left
while (n !== null && n.deleted) {
n = n.left
}
return n
}
/**
* Computes the last content address of this Item.
*/
get lastId () {
return createID(this.id.client, this.id.clock + this.length - 1)
}
/**
* Try to merge two items
*
* @param {Item} right
* @return {boolean}
*/
mergeWith (right) {
if (
compareIDs(right.origin, this.lastId) &&
this.right === right &&
compareIDs(this.rightOrigin, right.rightOrigin) &&
this.id.client === right.id.client &&
this.id.clock + this.length === right.id.clock &&
this.deleted === right.deleted &&
this.redone === null &&
right.redone === null &&
this.content.constructor === right.content.constructor &&
this.content.mergeWith(right.content)
) {
if (right.keep) {
this.keep = true
}
this.right = right.right
if (this.right !== null) {
this.right.left = this
}
this.length += right.length
return true
}
return false
}
/**
* Mark this Item as deleted.
*
* @param {Transaction} transaction
*/
delete (transaction) {
if (!this.deleted) {
const parent = this.parent
// adjust the length of parent
if (this.countable && this.parentSub === null) {
parent._length -= this.length
}
this.deleted = true
addToDeleteSet(transaction.deleteSet, this.id, this.length)
maplib.setIfUndefined(transaction.changed, parent, set.create).add(this.parentSub)
this.content.delete(transaction)
}
}
/**
* @param {StructStore} store
* @param {boolean} parentGCd
*
* @private
*/
gc (store, parentGCd) {
if (!this.deleted) {
throw error.unexpectedCase()
}
this.content.gc(store)
if (parentGCd) {
replaceStruct(store, this, new GC(this.id, this.length))
} else {
this.content = new ContentDeleted(this.length)
}
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @param {encoding.Encoder} encoder The encoder to write data to.
* @param {number} offset
*
* @private
*/
write (encoder, offset) {
const origin = offset > 0 ? createID(this.id.client, this.id.clock + offset - 1) : this.origin
const rightOrigin = this.rightOrigin
const parentSub = this.parentSub
const info = (this.content.getRef() & binary.BITS5) |
(origin === null ? 0 : binary.BIT8) | // origin is defined
(rightOrigin === null ? 0 : binary.BIT7) | // right origin is defined
(parentSub === null ? 0 : binary.BIT6) // parentSub is non-null
encoding.writeUint8(encoder, info)
if (origin !== null) {
writeID(encoder, origin)
}
if (rightOrigin !== null) {
writeID(encoder, rightOrigin)
}
if (origin === null && rightOrigin === null) {
const parent = this.parent
if (parent._item === null) {
// parent type on y._map
// find the correct key
const ykey = findRootTypeKey(parent)
encoding.writeVarUint(encoder, 1) // write parentYKey
encoding.writeVarString(encoder, ykey)
} else {
encoding.writeVarUint(encoder, 0) // write parent id
writeID(encoder, parent._item.id)
}
if (parentSub !== null) {
encoding.writeVarString(encoder, parentSub)
}
}
this.content.write(encoder, offset)
}
}
/**
* @param {decoding.Decoder} decoder
* @param {number} info
*/
const readItemContent = (decoder, info) => contentRefs[info & binary.BITS5](decoder)
/**
* A lookup map for reading Item content.
*
* @type {Array<function(decoding.Decoder):AbstractContent>}
*/
export const contentRefs = [
() => { throw error.unexpectedCase() }, // GC is not ItemContent
readContentDeleted,
readContentJSON,
readContentBinary,
readContentString,
readContentEmbed,
readContentFormat,
readContentType,
readContentAny
]
/**
* Do not implement this class!
*/
export class AbstractContent {
/**
* @return {number}
*/
getLength () {
throw error.methodUnimplemented()
}
/**
* @return {Array<any>}
*/
getContent () {
throw error.methodUnimplemented()
}
/**
* Should return false if this Item is some kind of meta information
* (e.g. format information).
*
* * Whether this Item should be addressable via `yarray.get(i)`
* * Whether this Item should be counted when computing yarray.length
*
* @return {boolean}
*/
isCountable () {
throw error.methodUnimplemented()
}
/**
* @return {AbstractContent}
*/
copy () {
throw error.methodUnimplemented()
}
/**
* @param {number} offset
* @return {AbstractContent}
*/
splice (offset) {
throw error.methodUnimplemented()
}
/**
* @param {AbstractContent} right
* @return {boolean}
*/
mergeWith (right) {
throw error.methodUnimplemented()
}
/**
* @param {Transaction} transaction
* @param {Item} item
*/
integrate (transaction, item) {
throw error.methodUnimplemented()
}
/**
* @param {Transaction} transaction
*/
delete (transaction) {
throw error.methodUnimplemented()
}
/**
* @param {StructStore} store
*/
gc (store) {
throw error.methodUnimplemented()
}
/**
* @param {encoding.Encoder} encoder
* @param {number} offset
*/
write (encoder, offset) {
throw error.methodUnimplemented()
}
/**
* @return {number}
*/
getRef () {
throw error.methodUnimplemented()
}
}
/**
* @private
*/
export class ItemRef extends AbstractStructRef {
/**
* @param {decoding.Decoder} decoder
* @param {ID} id
* @param {number} info
*/
constructor (decoder, id, info) {
super(id)
/**
* The item that was originally to the left of this item.
* @type {ID | null}
*/
this.left = (info & binary.BIT8) === binary.BIT8 ? readID(decoder) : null
/**
* The item that was originally to the right of this item.
* @type {ID | null}
*/
this.right = (info & binary.BIT7) === binary.BIT7 ? readID(decoder) : null
const canCopyParentInfo = (info & (binary.BIT7 | binary.BIT8)) === 0
const hasParentYKey = canCopyParentInfo ? decoding.readVarUint(decoder) === 1 : false
/**
* If parent = null and neither left nor right are defined, then we know that `parent` is child of `y`
* and we read the next string as parentYKey.
* It indicates how we store/retrieve parent from `y.share`
* @type {string|null}
*/
this.parentYKey = canCopyParentInfo && hasParentYKey ? decoding.readVarString(decoder) : null
/**
* The parent type.
* @type {ID | null}
*/
this.parent = canCopyParentInfo && !hasParentYKey ? readID(decoder) : null
/**
* If the parent refers to this item with some kind of key (e.g. YMap, the
* key is specified here. The key is then used to refer to the list in which
* to insert this item. If `parentSub = null` type._start is the list in
* which to insert to. Otherwise it is `parent._map`.
* @type {String | null}
*/
this.parentSub = canCopyParentInfo && (info & binary.BIT6) === binary.BIT6 ? decoding.readVarString(decoder) : null
const missing = this._missing
if (this.left !== null) {
missing.push(this.left)
}
if (this.right !== null) {
missing.push(this.right)
}
if (this.parent !== null) {
missing.push(this.parent)
}
/**
* @type {AbstractContent}
*/
this.content = readItemContent(decoder, info)
this.length = this.content.getLength()
}
/**
* @param {Transaction} transaction
* @param {StructStore} store
* @param {number} offset
* @return {Item|GC}
*/
toStruct (transaction, store, offset) {
if (offset > 0) {
/**
* @type {ID}
*/
const id = this.id
this.id = createID(id.client, id.clock + offset)
this.left = createID(this.id.client, this.id.clock - 1)
this.content = this.content.splice(offset)
this.length -= offset
}
const left = this.left === null ? null : getItemCleanEnd(transaction, store, this.left)
const right = this.right === null ? null : getItemCleanStart(transaction, this.right)
let parent = null
let parentSub = this.parentSub
if (this.parent !== null) {
const parentItem = getItem(store, this.parent)
// Edge case: toStruct is called with an offset > 0. In this case left is defined.
// Depending in which order structs arrive, left may be GC'd and the parent not
// deleted. This is why we check if left is GC'd. Strictly we don't have
// to check if right is GC'd, but we will in case we run into future issues
if (!parentItem.deleted && (left === null || left.constructor !== GC) && (right === null || right.constructor !== GC)) {
parent = /** @type {ContentType} */ (parentItem.content).type
}
} else if (this.parentYKey !== null) {
parent = transaction.doc.get(this.parentYKey)
} else if (left !== null) {
if (left.constructor !== GC) {
parent = left.parent
parentSub = left.parentSub
}
} else if (right !== null) {
if (right.constructor !== GC) {
parent = right.parent
parentSub = right.parentSub
}
} else {
throw error.unexpectedCase()
}
return parent === null
? new GC(this.id, this.length)
: new Item(
this.id,
left,
this.left,
right,
this.right,
parent,
parentSub,
this.content
)
}
}

601
src/types/AbstractType.js
View File

@@ -1,601 +0,0 @@
import {
removeEventHandlerListener,
callEventHandlerListeners,
addEventHandlerListener,
createEventHandler,
nextID,
isVisible,
ContentType,
ContentAny,
ContentBinary,
createID,
getItemCleanStart,
Doc, Snapshot, Transaction, EventHandler, YEvent, Item, // eslint-disable-line
} from '../internals.js'
import * as map from 'lib0/map.js'
import * as iterator from 'lib0/iterator.js'
import * as error from 'lib0/error.js'
import * as encoding from 'lib0/encoding.js' // eslint-disable-line
/**
* Call event listeners with an event. This will also add an event to all
* parents (for `.observeDeep` handlers).
* @private
*
* @template EventType
* @param {AbstractType<EventType>} type
* @param {Transaction} transaction
* @param {EventType} event
*/
export const callTypeObservers = (type, transaction, event) => {
const changedType = type
const changedParentTypes = transaction.changedParentTypes
while (true) {
// @ts-ignore
map.setIfUndefined(changedParentTypes, type, () => []).push(event)
if (type._item === null) {
break
}
type = type._item.parent
}
callEventHandlerListeners(changedType._eH, event, transaction)
}
/**
* @template EventType
* Abstract Yjs Type class
*/
export class AbstractType {
constructor () {
/**
* @type {Item|null}
*/
this._item = null
/**
* @private
* @type {Map<string,Item>}
*/
this._map = new Map()
/**
* @private
* @type {Item|null}
*/
this._start = null
/**
* @private
* @type {Doc|null}
*/
this.doc = null
this._length = 0
/**
* Event handlers
* @type {EventHandler<EventType,Transaction>}
*/
this._eH = createEventHandler()
/**
* Deep event handlers
* @type {EventHandler<Array<YEvent>,Transaction>}
*/
this._dEH = createEventHandler()
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item|null} item
* @private
*/
_integrate (y, item) {
this.doc = y
this._item = item
}
/**
* @return {AbstractType<EventType>}
* @private
*/
_copy () {
throw error.methodUnimplemented()
}
/**
* @param {encoding.Encoder} encoder
* @private
*/
_write (encoder) { }
/**
* The first non-deleted item
*/
get _first () {
let n = this._start
while (n !== null && n.deleted) {
n = n.right
}
return n
}
/**
* Creates YEvent and calls all type observers.
* Must be implemented by each type.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*
* @private
*/
_callObserver (transaction, parentSubs) { /* skip if no type is specified */ }
/**
* Observe all events that are created on this type.
*
* @param {function(EventType, Transaction):void} f Observer function
*/
observe (f) {
addEventHandlerListener(this._eH, f)
}
/**
* Observe all events that are created by this type and its children.
*
* @param {function(Array<YEvent>,Transaction):void} f Observer function
*/
observeDeep (f) {
addEventHandlerListener(this._dEH, f)
}
/**
* Unregister an observer function.
*
* @param {function(EventType,Transaction):void} f Observer function
*/
unobserve (f) {
removeEventHandlerListener(this._eH, f)
}
/**
* Unregister an observer function.
*
* @param {function(Array<YEvent>,Transaction):void} f Observer function
*/
unobserveDeep (f) {
removeEventHandlerListener(this._dEH, f)
}
/**
* @abstract
* @return {Object | Array | number | string}
*/
toJSON () {}
}
/**
* @param {AbstractType<any>} type
* @return {Array<any>}
*
* @private
* @function
*/
export const typeListToArray = type => {
const cs = []
let n = type._start
while (n !== null) {
if (n.countable && !n.deleted) {
const c = n.content.getContent()
for (let i = 0; i < c.length; i++) {
cs.push(c[i])
}
}
n = n.right
}
return cs
}
/**
* @param {AbstractType<any>} type
* @param {Snapshot} snapshot
* @return {Array<any>}
*
* @private
* @function
*/
export const typeListToArraySnapshot = (type, snapshot) => {
const cs = []
let n = type._start
while (n !== null) {
if (n.countable && isVisible(n, snapshot)) {
const c = n.content.getContent()
for (let i = 0; i < c.length; i++) {
cs.push(c[i])
}
}
n = n.right
}
return cs
}
/**
* Executes a provided function on once on overy element of this YArray.
*
* @param {AbstractType<any>} type
* @param {function(any,number,any):void} f A function to execute on every element of this YArray.
*
* @private
* @function
*/
export const typeListForEach = (type, f) => {
let index = 0
let n = type._start
while (n !== null) {
if (n.countable && !n.deleted) {
const c = n.content.getContent()
for (let i = 0; i < c.length; i++) {
f(c[i], index++, type)
}
}
n = n.right
}
}
/**
* @template C,R
* @param {AbstractType<any>} type
* @param {function(C,number,AbstractType<any>):R} f
* @return {Array<R>}
*
* @private
* @function
*/
export const typeListMap = (type, f) => {
/**
* @type {Array<any>}
*/
const result = []
typeListForEach(type, (c, i) => {
result.push(f(c, i, type))
})
return result
}
/**
* @param {AbstractType<any>} type
* @return {IterableIterator<any>}
*
* @private
* @function
*/
export const typeListCreateIterator = type => {
let n = type._start
/**
* @type {Array<any>|null}
*/
let currentContent = null
let currentContentIndex = 0
return {
[Symbol.iterator] () {
return this
},
next: () => {
// find some content
if (currentContent === null) {
while (n !== null && n.deleted) {
n = n.right
}
// check if we reached the end, no need to check currentContent, because it does not exist
if (n === null) {
return {
done: true,
value: undefined
}
}
// we found n, so we can set currentContent
currentContent = n.content.getContent()
currentContentIndex = 0
n = n.right // we used the content of n, now iterate to next
}
const value = currentContent[currentContentIndex++]
// check if we need to empty currentContent
if (currentContent.length <= currentContentIndex) {
currentContent = null
}
return {
done: false,
value
}
}
}
}
/**
* Executes a provided function on once on overy element of this YArray.
* Operates on a snapshotted state of the document.
*
* @param {AbstractType<any>} type
* @param {function(any,number,AbstractType<any>):void} f A function to execute on every element of this YArray.
* @param {Snapshot} snapshot
*
* @private
* @function
*/
export const typeListForEachSnapshot = (type, f, snapshot) => {
let index = 0
let n = type._start
while (n !== null) {
if (n.countable && isVisible(n, snapshot)) {
const c = n.content.getContent()
for (let i = 0; i < c.length; i++) {
f(c[i], index++, type)
}
}
n = n.right
}
}
/**
* @param {AbstractType<any>} type
* @param {number} index
* @return {any}
*
* @private
* @function
*/
export const typeListGet = (type, index) => {
for (let n = type._start; n !== null; n = n.right) {
if (!n.deleted && n.countable) {
if (index < n.length) {
return n.content.getContent()[index]
}
index -= n.length
}
}
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {Item?} referenceItem
* @param {Array<Object<string,any>|Array<any>|boolean|number|string|Uint8Array>} content
*
* @private
* @function
*/
export const typeListInsertGenericsAfter = (transaction, parent, referenceItem, content) => {
let left = referenceItem
const right = referenceItem === null ? parent._start : referenceItem.right
/**
* @type {Array<Object|Array|number>}
*/
let jsonContent = []
const packJsonContent = () => {
if (jsonContent.length > 0) {
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, new ContentAny(jsonContent))
left.integrate(transaction)
jsonContent = []
}
}
content.forEach(c => {
switch (c.constructor) {
case Number:
case Object:
case Boolean:
case Array:
case String:
jsonContent.push(c)
break
default:
packJsonContent()
switch (c.constructor) {
case Uint8Array:
case ArrayBuffer:
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, new ContentBinary(new Uint8Array(/** @type {Uint8Array} */ (c))))
left.integrate(transaction)
break
default:
if (c instanceof AbstractType) {
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, new ContentType(c))
left.integrate(transaction)
} else {
throw new Error('Unexpected content type in insert operation')
}
}
}
})
packJsonContent()
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {number} index
* @param {Array<Object<string,any>|Array<any>|number|string|Uint8Array>} content
*
* @private
* @function
*/
export const typeListInsertGenerics = (transaction, parent, index, content) => {
if (index === 0) {
return typeListInsertGenericsAfter(transaction, parent, null, content)
}
let n = parent._start
for (; n !== null; n = n.right) {
if (!n.deleted && n.countable) {
if (index <= n.length) {
if (index < n.length) {
// insert in-between
getItemCleanStart(transaction, createID(n.id.client, n.id.clock + index))
}
break
}
index -= n.length
}
}
return typeListInsertGenericsAfter(transaction, parent, n, content)
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {number} index
* @param {number} length
*
* @private
* @function
*/
export const typeListDelete = (transaction, parent, index, length) => {
if (length === 0) { return }
let n = parent._start
// compute the first item to be deleted
for (; n !== null && index > 0; n = n.right) {
if (!n.deleted && n.countable) {
if (index < n.length) {
getItemCleanStart(transaction, createID(n.id.client, n.id.clock + index))
}
index -= n.length
}
}
// delete all items until done
while (length > 0 && n !== null) {
if (!n.deleted) {
if (length < n.length) {
getItemCleanStart(transaction, createID(n.id.client, n.id.clock + length))
}
n.delete(transaction)
length -= n.length
}
n = n.right
}
if (length > 0) {
throw error.create('array length exceeded')
}
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {string} key
*
* @private
* @function
*/
export const typeMapDelete = (transaction, parent, key) => {
const c = parent._map.get(key)
if (c !== undefined) {
c.delete(transaction)
}
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {string} key
* @param {Object|number|Array<any>|string|Uint8Array|AbstractType<any>} value
*
* @private
* @function
*/
export const typeMapSet = (transaction, parent, key, value) => {
const left = parent._map.get(key) || null
let content
if (value == null) {
content = new ContentAny([value])
} else {
switch (value.constructor) {
case Number:
case Object:
case Boolean:
case Array:
case String:
content = new ContentAny([value])
break
case Uint8Array:
content = new ContentBinary(value)
break
default:
if (value instanceof AbstractType) {
content = new ContentType(value)
} else {
throw new Error('Unexpected content type')
}
}
}
new Item(nextID(transaction), left, left === null ? null : left.lastId, null, null, parent, key, content).integrate(transaction)
}
/**
* @param {AbstractType<any>} parent
* @param {string} key
* @return {Object<string,any>|number|Array<any>|string|Uint8Array|AbstractType<any>|undefined}
*
* @private
* @function
*/
export const typeMapGet = (parent, key) => {
const val = parent._map.get(key)
return val !== undefined && !val.deleted ? val.content.getContent()[val.length - 1] : undefined
}
/**
* @param {AbstractType<any>} parent
* @return {Object<string,Object<string,any>|number|Array<any>|string|Uint8Array|AbstractType<any>|undefined>}
*
* @private
* @function
*/
export const typeMapGetAll = (parent) => {
/**
* @type {Object<string,any>}
*/
let res = {}
for (const [key, value] of parent._map) {
if (!value.deleted) {
res[key] = value.content.getContent()[value.length - 1]
}
}
return res
}
/**
* @param {AbstractType<any>} parent
* @param {string} key
* @return {boolean}
*
* @private
* @function
*/
export const typeMapHas = (parent, key) => {
const val = parent._map.get(key)
return val !== undefined && !val.deleted
}
/**
* @param {AbstractType<any>} parent
* @param {string} key
* @param {Snapshot} snapshot
* @return {Object<string,any>|number|Array<any>|string|Uint8Array|AbstractType<any>|undefined}
*
* @private
* @function
*/
export const typeMapGetSnapshot = (parent, key, snapshot) => {
let v = parent._map.get(key) || null
while (v !== null && (!snapshot.sv.has(v.id.client) || v.id.clock >= (snapshot.sv.get(v.id.client) || 0))) {
v = v.left
}
return v !== null && isVisible(v, snapshot) ? v.content.getContent()[v.length - 1] : undefined
}
/**
* @param {Map<string,Item>} map
* @return {IterableIterator<Array<any>>}
*
* @private
* @function
*/
export const createMapIterator = map => iterator.iteratorFilter(map.entries(), /** @param {any} entry */ entry => !entry[1].deleted)

214
src/types/YArray.js
View File

@@ -1,214 +0,0 @@
/**
* @module YArray
*/
import {
YEvent,
AbstractType,
typeListGet,
typeListToArray,
typeListForEach,
typeListCreateIterator,
typeListInsertGenerics,
typeListDelete,
typeListMap,
YArrayRefID,
callTypeObservers,
transact,
Doc, Transaction, Item // eslint-disable-line
} from '../internals.js'
import * as decoding from 'lib0/decoding.js' // eslint-disable-line
import * as encoding from 'lib0/encoding.js'
/**
* Event that describes the changes on a YArray
* @template T
*/
export class YArrayEvent extends YEvent {
/**
* @param {YArray<T>} yarray The changed type
* @param {Transaction} transaction The transaction object
*/
constructor (yarray, transaction) {
super(yarray, transaction)
this._transaction = transaction
}
}
/**
* A shared Array implementation.
* @template T
* @extends AbstractType<YArrayEvent<T>>
* @implements {IterableIterator<T>}
*/
export class YArray extends AbstractType {
constructor () {
super()
/**
* @type {Array<any>?}
* @private
*/
this._prelimContent = []
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
*
* @private
*/
_integrate (y, item) {
super._integrate(y, item)
this.insert(0, /** @type {Array} */ (this._prelimContent))
this._prelimContent = null
}
_copy () {
return new YArray()
}
get length () {
return this._prelimContent === null ? this._length : this._prelimContent.length
}
/**
* Creates YArrayEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*
* @private
*/
_callObserver (transaction, parentSubs) {
callTypeObservers(this, transaction, new YArrayEvent(this, transaction))
}
/**
* Inserts new content at an index.
*
* Important: This function expects an array of content. Not just a content
* object. The reason for this "weirdness" is that inserting several elements
* is very efficient when it is done as a single operation.
*
* @example
* // Insert character 'a' at position 0
* yarray.insert(0, ['a'])
* // Insert numbers 1, 2 at position 1
* yarray.insert(1, [1, 2])
*
* @param {number} index The index to insert content at.
* @param {Array<T>} content The array of content
*/
insert (index, content) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeListInsertGenerics(transaction, this, index, content)
})
} else {
/** @type {Array} */ (this._prelimContent).splice(index, 0, ...content)
}
}
/**
* Appends content to this YArray.
*
* @param {Array<T>} content Array of content to append.
*/
push (content) {
this.insert(this.length, content)
}
/**
* Deletes elements starting from an index.
*
* @param {number} index Index at which to start deleting elements
* @param {number} length The number of elements to remove. Defaults to 1.
*/
delete (index, length = 1) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeListDelete(transaction, this, index, length)
})
} else {
/** @type {Array} */ (this._prelimContent).splice(index, length)
}
}
/**
* Returns the i-th element from a YArray.
*
* @param {number} index The index of the element to return from the YArray
* @return {T}
*/
get (index) {
return typeListGet(this, index)
}
/**
* Transforms this YArray to a JavaScript Array.
*
* @return {Array<T>}
*/
toArray () {
return typeListToArray(this)
}
/**
* Transforms this Shared Type to a JSON object.
*
* @return {Array<any>}
*/
toJSON () {
return this.map(c => c instanceof AbstractType ? c.toJSON() : c)
}
/**
* Returns an Array with the result of calling a provided function on every
* element of this YArray.
*
* @template T,M
* @param {function(T,number,YArray<T>):M} f Function that produces an element of the new Array
* @return {Array<M>} A new array with each element being the result of the
* callback function
*/
map (f) {
return typeListMap(this, /** @type {any} */ (f))
}
/**
* Executes a provided function on once on overy element of this YArray.
*
* @param {function(T,number,YArray<T>):void} f A function to execute on every element of this YArray.
*/
forEach (f) {
typeListForEach(this, f)
}
/**
* @return {IterableIterator<T>}
*/
[Symbol.iterator] () {
return typeListCreateIterator(this)
}
/**
* @param {encoding.Encoder} encoder
* @private
*/
_write (encoder) {
encoding.writeVarUint(encoder, YArrayRefID)
}
}
/**
* @param {decoding.Decoder} decoder
*
* @private
* @function
*/
export const readYArray = decoder => new YArray()

231
src/types/YMap.js
View File

@@ -1,231 +0,0 @@
/**
* @module YMap
*/
import {
YEvent,
AbstractType,
typeMapDelete,
typeMapSet,
typeMapGet,
typeMapHas,
createMapIterator,
YMapRefID,
callTypeObservers,
transact,
Doc, Transaction, Item // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js' // eslint-disable-line
import * as iterator from 'lib0/iterator.js'
/**
* @template T
* Event that describes the changes on a YMap.
*/
export class YMapEvent extends YEvent {
/**
* @param {YMap<T>} ymap The YArray that changed.
* @param {Transaction} transaction
* @param {Set<any>} subs The keys that changed.
*/
constructor (ymap, transaction, subs) {
super(ymap, transaction)
this.keysChanged = subs
}
}
/**
* @template T number|string|Object|Array|Uint8Array
* A shared Map implementation.
*
* @extends AbstractType<YMapEvent<T>>
* @implements {IterableIterator}
*/
export class YMap extends AbstractType {
constructor () {
super()
/**
* @type {Map<string,any>?}
* @private
*/
this._prelimContent = new Map()
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
*
* @private
*/
_integrate (y, item) {
super._integrate(y, item)
for (let [key, value] of /** @type {Map<string, any>} */ (this._prelimContent)) {
this.set(key, value)
}
this._prelimContent = null
}
_copy () {
return new YMap()
}
/**
* Creates YMapEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*
* @private
*/
_callObserver (transaction, parentSubs) {
callTypeObservers(this, transaction, new YMapEvent(this, transaction, parentSubs))
}
/**
* Transforms this Shared Type to a JSON object.
*
* @return {Object<string,T>}
*/
toJSON () {
/**
* @type {Object<string,T>}
*/
const map = {}
for (let [key, item] of this._map) {
if (!item.deleted) {
const v = item.content.getContent()[item.length - 1]
map[key] = v instanceof AbstractType ? v.toJSON() : v
}
}
return map
}
/**
* Returns the keys for each element in the YMap Type.
*
* @return {IterableIterator<string>}
*/
keys () {
return iterator.iteratorMap(createMapIterator(this._map), /** @param {any} v */ v => v[0])
}
/**
* Returns the keys for each element in the YMap Type.
*
* @return {IterableIterator<string>}
*/
values () {
return iterator.iteratorMap(createMapIterator(this._map), /** @param {any} v */ v => v[1].content.getContent()[v[1].length - 1])
}
/**
* Returns an Iterator of [key, value] pairs
*
* @return {IterableIterator<any>}
*/
entries () {
return iterator.iteratorMap(createMapIterator(this._map), /** @param {any} v */ v => [v[0], v[1].content.getContent()[v[1].length - 1]])
}
/**
* Executes a provided function on once on overy key-value pair.
*
* @param {function(T,string,YMap<T>):void} f A function to execute on every element of this YArray.
*/
forEach (f) {
/**
* @type {Object<string,T>}
*/
const map = {}
for (let [key, item] of this._map) {
if (!item.deleted) {
f(item.content.getContent()[item.length - 1], key, this)
}
}
return map
}
/**
* @return {IterableIterator<T>}
*/
[Symbol.iterator] () {
return this.entries()
}
/**
* Remove a specified element from this YMap.
*
* @param {string} key The key of the element to remove.
*/
delete (key) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeMapDelete(transaction, this, key)
})
} else {
/** @type {Map<string, any>} */ (this._prelimContent).delete(key)
}
}
/**
* Adds or updates an element with a specified key and value.
*
* @param {string} key The key of the element to add to this YMap
* @param {T} value The value of the element to add
*/
set (key, value) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeMapSet(transaction, this, key, value)
})
} else {
/** @type {Map<string, any>} */ (this._prelimContent).set(key, value)
}
return value
}
/**
* Returns a specified element from this YMap.
*
* @param {string} key
* @return {T|undefined}
*/
get (key) {
return /** @type {any} */ (typeMapGet(this, key))
}
/**
* Returns a boolean indicating whether the specified key exists or not.
*
* @param {string} key The key to test.
* @return {boolean}
*/
has (key) {
return typeMapHas(this, key)
}
/**
* @param {encoding.Encoder} encoder
*
* @private
*/
_write (encoder) {
encoding.writeVarUint(encoder, YMapRefID)
}
}
/**
* @param {decoding.Decoder} decoder
*
* @private
* @function
*/
export const readYMap = decoder => new YMap()

922
src/types/YText.js
View File

@@ -1,922 +0,0 @@
/**
* @module YText
*/
import {
YEvent,
AbstractType,
nextID,
createID,
getItemCleanStart,
isVisible,
YTextRefID,
callTypeObservers,
transact,
ContentEmbed,
ContentFormat,
ContentString,
splitSnapshotAffectedStructs,
ID, Doc, Item, Snapshot, Transaction // eslint-disable-line
} from '../internals.js'
import * as decoding from 'lib0/decoding.js' // eslint-disable-line
import * as encoding from 'lib0/encoding.js'
import * as object from 'lib0/object.js'
/**
* @param {any} a
* @param {any} b
* @return {boolean}
*/
const equalAttrs = (a, b) => a === b || (typeof a === 'object' && typeof b === 'object' && a && b && object.equalFlat(a, b))
export class ItemListPosition {
/**
* @param {Item|null} left
* @param {Item|null} right
*/
constructor (left, right) {
this.left = left
this.right = right
}
}
export class ItemTextListPosition extends ItemListPosition {
/**
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} currentAttributes
*/
constructor (left, right, currentAttributes) {
super(left, right)
this.currentAttributes = currentAttributes
}
}
export class ItemInsertionResult extends ItemListPosition {
/**
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} negatedAttributes
*/
constructor (left, right, negatedAttributes) {
super(left, right)
this.negatedAttributes = negatedAttributes
}
}
/**
* @param {Transaction} transaction
* @param {Map<string,any>} currentAttributes
* @param {Item|null} left
* @param {Item|null} right
* @param {number} count
* @return {ItemTextListPosition}
*
* @private
* @function
*/
const findNextPosition = (transaction, currentAttributes, left, right, count) => {
while (right !== null && count > 0) {
switch (right.content.constructor) {
case ContentEmbed:
case ContentString:
if (!right.deleted) {
if (count < right.length) {
// split right
getItemCleanStart(transaction, createID(right.id.client, right.id.clock + count))
}
count -= right.length
}
break
case ContentFormat:
if (!right.deleted) {
updateCurrentAttributes(currentAttributes, /** @type {ContentFormat} */ (right.content))
}
break
}
left = right
right = right.right
}
return new ItemTextListPosition(left, right, currentAttributes)
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {number} index
* @return {ItemTextListPosition}
*
* @private
* @function
*/
const findPosition = (transaction, parent, index) => {
let currentAttributes = new Map()
let left = null
let right = parent._start
return findNextPosition(transaction, currentAttributes, left, right, index)
}
/**
* Negate applied formats
*
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} negatedAttributes
* @return {ItemListPosition}
*
* @private
* @function
*/
const insertNegatedAttributes = (transaction, parent, left, right, negatedAttributes) => {
// check if we really need to remove attributes
while (
right !== null && (
right.deleted === true || (
right.content.constructor === ContentFormat &&
equalAttrs(negatedAttributes.get(/** @type {ContentFormat} */ (right.content).key), /** @type {ContentFormat} */ (right.content).value)
)
)
) {
if (!right.deleted) {
negatedAttributes.delete(/** @type {ContentFormat} */ (right.content).key)
}
left = right
right = right.right
}
for (let [key, val] of negatedAttributes) {
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, new ContentFormat(key, val))
left.integrate(transaction)
}
return { left, right }
}
/**
* @param {Map<string,any>} currentAttributes
* @param {ContentFormat} format
*
* @private
* @function
*/
const updateCurrentAttributes = (currentAttributes, format) => {
const { key, value } = format
if (value === null) {
currentAttributes.delete(key)
} else {
currentAttributes.set(key, value)
}
}
/**
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} currentAttributes
* @param {Object<string,any>} attributes
* @return {ItemListPosition}
*
* @private
* @function
*/
const minimizeAttributeChanges = (left, right, currentAttributes, attributes) => {
// go right while attributes[right.key] === right.value (or right is deleted)
while (true) {
if (right === null) {
break
} else if (right.deleted) {
// continue
} else if (right.content.constructor === ContentFormat && equalAttrs(attributes[(/** @type {ContentFormat} */ (right.content)).key] || null, /** @type {ContentFormat} */ (right.content).value)) {
// found a format, update currentAttributes and continue
updateCurrentAttributes(currentAttributes, /** @type {ContentFormat} */ (right.content))
} else {
break
}
left = right
right = right.right
}
return new ItemListPosition(left, right)
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} currentAttributes
* @param {Object<string,any>} attributes
* @return {ItemInsertionResult}
*
* @private
* @function
**/
const insertAttributes = (transaction, parent, left, right, currentAttributes, attributes) => {
const negatedAttributes = new Map()
// insert format-start items
for (let key in attributes) {
const val = attributes[key]
const currentVal = currentAttributes.get(key) || null
if (!equalAttrs(currentVal, val)) {
// save negated attribute (set null if currentVal undefined)
negatedAttributes.set(key, currentVal)
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, new ContentFormat(key, val))
left.integrate(transaction)
}
}
return new ItemInsertionResult(left, right, negatedAttributes)
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} currentAttributes
* @param {string|object} text
* @param {Object<string,any>} attributes
* @return {ItemListPosition}
*
* @private
* @function
**/
const insertText = (transaction, parent, left, right, currentAttributes, text, attributes) => {
for (let [key] of currentAttributes) {
if (attributes[key] === undefined) {
attributes[key] = null
}
}
const minPos = minimizeAttributeChanges(left, right, currentAttributes, attributes)
const insertPos = insertAttributes(transaction, parent, minPos.left, minPos.right, currentAttributes, attributes)
left = insertPos.left
right = insertPos.right
// insert content
const content = text.constructor === String ? new ContentString(text) : new ContentEmbed(text)
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, content)
left.integrate(transaction)
return insertNegatedAttributes(transaction, parent, left, insertPos.right, insertPos.negatedAttributes)
}
/**
* @param {Transaction} transaction
* @param {AbstractType<any>} parent
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} currentAttributes
* @param {number} length
* @param {Object<string,any>} attributes
* @return {ItemListPosition}
*
* @private
* @function
*/
const formatText = (transaction, parent, left, right, currentAttributes, length, attributes) => {
const minPos = minimizeAttributeChanges(left, right, currentAttributes, attributes)
const insertPos = insertAttributes(transaction, parent, minPos.left, minPos.right, currentAttributes, attributes)
const negatedAttributes = insertPos.negatedAttributes
left = insertPos.left
right = insertPos.right
// iterate until first non-format or null is found
// delete all formats with attributes[format.key] != null
while (length > 0 && right !== null) {
if (!right.deleted) {
switch (right.content.constructor) {
case ContentFormat:
const { key, value } = /** @type {ContentFormat} */ (right.content)
const attr = attributes[key]
if (attr !== undefined) {
if (equalAttrs(attr, value)) {
negatedAttributes.delete(key)
} else {
negatedAttributes.set(key, value)
}
right.delete(transaction)
}
updateCurrentAttributes(currentAttributes, /** @type {ContentFormat} */ (right.content))
break
case ContentEmbed:
case ContentString:
if (length < right.length) {
getItemCleanStart(transaction, createID(right.id.client, right.id.clock + length))
}
length -= right.length
break
}
}
left = right
right = right.right
}
// Quill just assumes that the editor starts with a newline and that it always
// ends with a newline. We only insert that newline when a new newline is
// inserted - i.e when length is bigger than type.length
if (length > 0) {
let newlines = ''
for (; length > 0; length--) {
newlines += '\n'
}
left = new Item(nextID(transaction), left, left === null ? null : left.lastId, right, right === null ? null : right.id, parent, null, new ContentString(newlines))
left.integrate(transaction)
}
return insertNegatedAttributes(transaction, parent, left, right, negatedAttributes)
}
/**
* @param {Transaction} transaction
* @param {Item|null} left
* @param {Item|null} right
* @param {Map<string,any>} currentAttributes
* @param {number} length
* @return {ItemListPosition}
*
* @private
* @function
*/
const deleteText = (transaction, left, right, currentAttributes, length) => {
while (length > 0 && right !== null) {
if (right.deleted === false) {
switch (right.content.constructor) {
case ContentFormat:
updateCurrentAttributes(currentAttributes, /** @type {ContentFormat} */ (right.content))
break
case ContentEmbed:
case ContentString:
if (length < right.length) {
getItemCleanStart(transaction, createID(right.id.client, right.id.clock + length))
}
length -= right.length
right.delete(transaction)
break
}
}
left = right
right = right.right
}
return { left, right }
}
/**
* The Quill Delta format represents changes on a text document with
* formatting information. For mor information visit {@link https://quilljs.com/docs/delta/|Quill Delta}
*
* @example
* {
* ops: [
* { insert: 'Gandalf', attributes: { bold: true } },
* { insert: ' the ' },
* { insert: 'Grey', attributes: { color: '#cccccc' } }
* ]
* }
*
*/
/**
* Attributes that can be assigned to a selection of text.
*
* @example
* {
* bold: true,
* font-size: '40px'
* }
*
* @typedef {Object} TextAttributes
*/
/**
* @typedef {Object} DeltaItem
* @property {number|undefined} DeltaItem.delete
* @property {number|undefined} DeltaItem.retain
* @property {string|undefined} DeltaItem.string
* @property {Object<string,any>} DeltaItem.attributes
*/
/**
* Event that describes the changes on a YText type.
*/
export class YTextEvent extends YEvent {
/**
* @param {YText} ytext
* @param {Transaction} transaction
*/
constructor (ytext, transaction) {
super(ytext, transaction)
/**
* @private
* @type {Array<DeltaItem>|null}
*/
this._delta = null
}
/**
* Compute the changes in the delta format.
* A {@link https://quilljs.com/docs/delta/|Quill Delta}) that represents the changes on the document.
*
* @type {Array<DeltaItem>}
*
* @public
*/
get delta () {
if (this._delta === null) {
const y = /** @type {Doc} */ (this.target.doc)
this._delta = []
transact(y, transaction => {
const delta = /** @type {Array<DeltaItem>} */ (this._delta)
const currentAttributes = new Map() // saves all current attributes for insert
const oldAttributes = new Map()
let item = this.target._start
/**
* @type {string?}
*/
let action = null
/**
* @type {Object<string,any>}
*/
let attributes = {} // counts added or removed new attributes for retain
let insert = ''
let retain = 0
let deleteLen = 0
const addOp = () => {
if (action !== null) {
/**
* @type {any}
*/
let op
switch (action) {
case 'delete':
op = { delete: deleteLen }
deleteLen = 0
break
case 'insert':
op = { insert }
if (currentAttributes.size > 0) {
op.attributes = {}
for (let [key, value] of currentAttributes) {
if (value !== null) {
op.attributes[key] = value
}
}
}
insert = ''
break
case 'retain':
op = { retain }
if (Object.keys(attributes).length > 0) {
op.attributes = {}
for (let key in attributes) {
op.attributes[key] = attributes[key]
}
}
retain = 0
break
}
delta.push(op)
action = null
}
}
while (item !== null) {
switch (item.content.constructor) {
case ContentEmbed:
if (this.adds(item)) {
if (!this.deletes(item)) {
addOp()
action = 'insert'
insert = /** @type {ContentEmbed} */ (item.content).embed
addOp()
}
} else if (this.deletes(item)) {
if (action !== 'delete') {
addOp()
action = 'delete'
}
deleteLen += 1
} else if (!item.deleted) {
if (action !== 'retain') {
addOp()
action = 'retain'
}
retain += 1
}
break
case ContentString:
if (this.adds(item)) {
if (!this.deletes(item)) {
if (action !== 'insert') {
addOp()
action = 'insert'
}
insert += /** @type {ContentString} */ (item.content).str
}
} else if (this.deletes(item)) {
if (action !== 'delete') {
addOp()
action = 'delete'
}
deleteLen += item.length
} else if (!item.deleted) {
if (action !== 'retain') {
addOp()
action = 'retain'
}
retain += item.length
}
break
case ContentFormat:
const { key, value } = /** @type {ContentFormat} */ (item.content)
if (this.adds(item)) {
if (!this.deletes(item)) {
const curVal = currentAttributes.get(key) || null
if (!equalAttrs(curVal, value)) {
if (action === 'retain') {
addOp()
}
if (equalAttrs(value, (oldAttributes.get(key) || null))) {
delete attributes[key]
} else {
attributes[key] = value
}
} else {
item.delete(transaction)
}
}
} else if (this.deletes(item)) {
oldAttributes.set(key, value)
const curVal = currentAttributes.get(key) || null
if (!equalAttrs(curVal, value)) {
if (action === 'retain') {
addOp()
}
attributes[key] = curVal
}
} else if (!item.deleted) {
oldAttributes.set(key, value)
const attr = attributes[key]
if (attr !== undefined) {
if (!equalAttrs(attr, value)) {
if (action === 'retain') {
addOp()
}
if (value === null) {
attributes[key] = value
} else {
delete attributes[key]
}
} else {
item.delete(transaction)
}
}
}
if (!item.deleted) {
if (action === 'insert') {
addOp()
}
updateCurrentAttributes(currentAttributes, /** @type {ContentFormat} */ (item.content))
}
break
}
item = item.right
}
addOp()
while (delta.length > 0) {
let lastOp = delta[delta.length - 1]
if (lastOp.retain !== undefined && lastOp.attributes === undefined) {
// retain delta's if they don't assign attributes
delta.pop()
} else {
break
}
}
})
}
return this._delta
}
}
/**
* Type that represents text with formatting information.
*
* This type replaces y-richtext as this implementation is able to handle
* block formats (format information on a paragraph), embeds (complex elements
* like pictures and videos), and text formats (**bold**, *italic*).
*
* @extends AbstractType<YTextEvent>
*/
export class YText extends AbstractType {
/**
* @param {String} [string] The initial value of the YText.
*/
constructor (string) {
super()
/**
* Array of pending operations on this type
* @type {Array<function():void>?}
* @private
*/
this._pending = string !== undefined ? [() => this.insert(0, string)] : []
}
get length () {
return this._length
}
/**
* @param {Doc} y
* @param {Item} item
*
* @private
*/
_integrate (y, item) {
super._integrate(y, item)
try {
/** @type {Array<function>} */ (this._pending).forEach(f => f())
} catch (e) {
console.error(e)
}
this._pending = null
}
_copy () {
return new YText()
}
/**
* Creates YTextEvent and calls observers.
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*
* @private
*/
_callObserver (transaction, parentSubs) {
callTypeObservers(this, transaction, new YTextEvent(this, transaction))
}
/**
* Returns the unformatted string representation of this YText type.
*
* @public
*/
toString () {
let str = ''
/**
* @type {Item|null}
*/
let n = this._start
while (n !== null) {
if (!n.deleted && n.countable && n.content.constructor === ContentString) {
str += /** @type {ContentString} */ (n.content).str
}
n = n.right
}
return str
}
/**
* Apply a {@link Delta} on this shared YText type.
*
* @param {any} delta The changes to apply on this element.
*
* @public
*/
applyDelta (delta) {
if (this.doc !== null) {
transact(this.doc, transaction => {
/**
* @type {ItemListPosition}
*/
let pos = new ItemListPosition(null, this._start)
const currentAttributes = new Map()
for (let i = 0; i < delta.length; i++) {
const op = delta[i]
if (op.insert !== undefined) {
// Quill assumes that the content starts with an empty paragraph.
// Yjs/Y.Text assumes that it starts empty. We always hide that
// there is a newline at the end of the content.
// If we omit this step, clients will see a different number of
// paragraphs, but nothing bad will happen.
const ins = (typeof op.insert === 'string' && i === delta.length - 1 && pos.right === null && op.insert.slice(-1) === '\n') ? op.insert.slice(0, -1) : op.insert
if (typeof ins !== 'string' || ins.length > 0) {
pos = insertText(transaction, this, pos.left, pos.right, currentAttributes, ins, op.attributes || {})
}
} else if (op.retain !== undefined) {
pos = formatText(transaction, this, pos.left, pos.right, currentAttributes, op.retain, op.attributes || {})
} else if (op.delete !== undefined) {
pos = deleteText(transaction, pos.left, pos.right, currentAttributes, op.delete)
}
}
})
} else {
/** @type {Array<function>} */ (this._pending).push(() => this.applyDelta(delta))
}
}
/**
* Returns the Delta representation of this YText type.
*
* @param {Snapshot} [snapshot]
* @param {Snapshot} [prevSnapshot]
* @param {function('removed' | 'added', ID):any} [computeYChange]
* @return {any} The Delta representation of this type.
*
* @public
*/
toDelta (snapshot, prevSnapshot, computeYChange) {
/**
* @type{Array<any>}
*/
const ops = []
const currentAttributes = new Map()
const doc = /** @type {Doc} */ (this.doc)
let str = ''
let n = this._start
function packStr () {
if (str.length > 0) {
// pack str with attributes to ops
/**
* @type {Object<string,any>}
*/
const attributes = {}
let addAttributes = false
for (let [key, value] of currentAttributes) {
addAttributes = true
attributes[key] = value
}
/**
* @type {Object<string,any>}
*/
const op = { insert: str }
if (addAttributes) {
op.attributes = attributes
}
ops.push(op)
str = ''
}
}
// snapshots are merged again after the transaction, so we need to keep the
// transalive until we are done
transact(doc, transaction => {
if (snapshot) {
splitSnapshotAffectedStructs(transaction, snapshot)
}
if (prevSnapshot) {
splitSnapshotAffectedStructs(transaction, prevSnapshot)
}
while (n !== null) {
if (isVisible(n, snapshot) || (prevSnapshot !== undefined && isVisible(n, prevSnapshot))) {
switch (n.content.constructor) {
case ContentString:
const cur = currentAttributes.get('ychange')
if (snapshot !== undefined && !isVisible(n, snapshot)) {
if (cur === undefined || cur.user !== n.id.client || cur.state !== 'removed') {
packStr()
currentAttributes.set('ychange', computeYChange ? computeYChange('removed', n.id) : { type: 'removed' })
}
} else if (prevSnapshot !== undefined && !isVisible(n, prevSnapshot)) {
if (cur === undefined || cur.user !== n.id.client || cur.state !== 'added') {
packStr()
currentAttributes.set('ychange', computeYChange ? computeYChange('added', n.id) : { type: 'added' })
}
} else if (cur !== undefined) {
packStr()
currentAttributes.delete('ychange')
}
str += /** @type {ContentString} */ (n.content).str
break
case ContentEmbed:
packStr()
ops.push({
insert: /** @type {ContentEmbed} */ (n.content).embed
})
break
case ContentFormat:
if (isVisible(n, snapshot)) {
packStr()
updateCurrentAttributes(currentAttributes, /** @type {ContentFormat} */ (n.content))
}
break
}
}
n = n.right
}
packStr()
}, splitSnapshotAffectedStructs)
return ops
}
/**
* Insert text at a given index.
*
* @param {number} index The index at which to start inserting.
* @param {String} text The text to insert at the specified position.
* @param {TextAttributes} [attributes] Optionally define some formatting
* information to apply on the inserted
* Text.
* @public
*/
insert (index, text, attributes) {
if (text.length <= 0) {
return
}
const y = this.doc
if (y !== null) {
transact(y, transaction => {
const { left, right, currentAttributes } = findPosition(transaction, this, index)
if (!attributes) {
attributes = {}
currentAttributes.forEach((v, k) => { attributes[k] = v })
}
insertText(transaction, this, left, right, currentAttributes, text, attributes)
})
} else {
/** @type {Array<function>} */ (this._pending).push(() => this.insert(index, text, attributes))
}
}
/**
* Inserts an embed at a index.
*
* @param {number} index The index to insert the embed at.
* @param {Object} embed The Object that represents the embed.
* @param {TextAttributes} attributes Attribute information to apply on the
* embed
*
* @public
*/
insertEmbed (index, embed, attributes = {}) {
if (embed.constructor !== Object) {
throw new Error('Embed must be an Object')
}
const y = this.doc
if (y !== null) {
transact(y, transaction => {
const { left, right, currentAttributes } = findPosition(transaction, this, index)
insertText(transaction, this, left, right, currentAttributes, embed, attributes)
})
} else {
/** @type {Array<function>} */ (this._pending).push(() => this.insertEmbed(index, embed, attributes))
}
}
/**
* Deletes text starting from an index.
*
* @param {number} index Index at which to start deleting.
* @param {number} length The number of characters to remove. Defaults to 1.
*
* @public
*/
delete (index, length) {
if (length === 0) {
return
}
const y = this.doc
if (y !== null) {
transact(y, transaction => {
const { left, right, currentAttributes } = findPosition(transaction, this, index)
deleteText(transaction, left, right, currentAttributes, length)
})
} else {
/** @type {Array<function>} */ (this._pending).push(() => this.delete(index, length))
}
}
/**
* Assigns properties to a range of text.
*
* @param {number} index The position where to start formatting.
* @param {number} length The amount of characters to assign properties to.
* @param {TextAttributes} attributes Attribute information to apply on the
* text.
*
* @public
*/
format (index, length, attributes) {
const y = this.doc
if (y !== null) {
transact(y, transaction => {
let { left, right, currentAttributes } = findPosition(transaction, this, index)
if (right === null) {
return
}
formatText(transaction, this, left, right, currentAttributes, length, attributes)
})
} else {
/** @type {Array<function>} */ (this._pending).push(() => this.format(index, length, attributes))
}
}
/**
* @param {encoding.Encoder} encoder
*
* @private
*/
_write (encoder) {
encoding.writeVarUint(encoder, YTextRefID)
}
}
/**
* @param {decoding.Decoder} decoder
* @return {YText}
*
* @private
* @function
*/
export const readYText = decoder => new YText()

203
src/types/YXmlElement.js
View File

@@ -1,203 +0,0 @@
import {
YXmlFragment,
transact,
typeMapDelete,
typeMapSet,
typeMapGet,
typeMapGetAll,
typeListForEach,
YXmlElementRefID,
Snapshot, Doc, Item // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
/**
* An YXmlElement imitates the behavior of a
* {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}.
*
* * An YXmlElement has attributes (key value pairs)
* * An YXmlElement has childElements that must inherit from YXmlElement
*/
export class YXmlElement extends YXmlFragment {
constructor (nodeName = 'UNDEFINED') {
super()
this.nodeName = nodeName
/**
* @type {Map<string, any>|null}
* @private
*/
this._prelimAttrs = new Map()
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
* @private
*/
_integrate (y, item) {
super._integrate(y, item)
;(/** @type {Map<string, any>} */ (this._prelimAttrs)).forEach((value, key) => {
this.setAttribute(key, value)
})
this._prelimAttrs = null
}
/**
* Creates an Item with the same effect as this Item (without position effect)
*
* @return {YXmlElement}
* @private
*/
_copy () {
return new YXmlElement(this.nodeName)
}
/**
* Returns the XML serialization of this YXmlElement.
* The attributes are ordered by attribute-name, so you can easily use this
* method to compare YXmlElements
*
* @return {string} The string representation of this type.
*
* @public
*/
toString () {
const attrs = this.getAttributes()
const stringBuilder = []
const keys = []
for (let key in attrs) {
keys.push(key)
}
keys.sort()
const keysLen = keys.length
for (let i = 0; i < keysLen; i++) {
const key = keys[i]
stringBuilder.push(key + '="' + attrs[key] + '"')
}
const nodeName = this.nodeName.toLocaleLowerCase()
const attrsString = stringBuilder.length > 0 ? ' ' + stringBuilder.join(' ') : ''
return `<${nodeName}${attrsString}>${super.toString()}</${nodeName}>`
}
/**
* Removes an attribute from this YXmlElement.
*
* @param {String} attributeName The attribute name that is to be removed.
*
* @public
*/
removeAttribute (attributeName) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeMapDelete(transaction, this, attributeName)
})
} else {
/** @type {Map<string,any>} */ (this._prelimAttrs).delete(attributeName)
}
}
/**
* Sets or updates an attribute.
*
* @param {String} attributeName The attribute name that is to be set.
* @param {String} attributeValue The attribute value that is to be set.
*
* @public
*/
setAttribute (attributeName, attributeValue) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeMapSet(transaction, this, attributeName, attributeValue)
})
} else {
/** @type {Map<string, any>} */ (this._prelimAttrs).set(attributeName, attributeValue)
}
}
/**
* Returns an attribute value that belongs to the attribute name.
*
* @param {String} attributeName The attribute name that identifies the
* queried value.
* @return {String} The queried attribute value.
*
* @public
*/
getAttribute (attributeName) {
return /** @type {any} */ (typeMapGet(this, attributeName))
}
/**
* Returns all attribute name/value pairs in a JSON Object.
*
* @param {Snapshot} [snapshot]
* @return {Object} A JSON Object that describes the attributes.
*
* @public
*/
getAttributes (snapshot) {
return typeMapGetAll(this)
}
/**
* Creates a Dom Element that mirrors this YXmlElement.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object<string, any>} [hooks={}] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type.
* @return {Node} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM (_document = document, hooks = {}, binding) {
const dom = _document.createElement(this.nodeName)
let attrs = this.getAttributes()
for (let key in attrs) {
dom.setAttribute(key, attrs[key])
}
typeListForEach(this, yxml => {
dom.appendChild(yxml.toDOM(_document, hooks, binding))
})
if (binding !== undefined) {
binding._createAssociation(dom, this)
}
return dom
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @private
* @param {encoding.Encoder} encoder The encoder to write data to.
*/
_write (encoder) {
encoding.writeVarUint(encoder, YXmlElementRefID)
encoding.writeVarString(encoder, this.nodeName)
}
}
/**
* @param {decoding.Decoder} decoder
* @return {YXmlElement}
*
* @private
* @function
*/
export const readYXmlElement = decoder => new YXmlElement(decoding.readVarString(decoder))

39
src/types/YXmlEvent.js
View File

@@ -1,39 +0,0 @@
import {
YEvent,
YXmlElement, YXmlFragment, Transaction // eslint-disable-line
} from '../internals.js'
/**
* An Event that describes changes on a YXml Element or Yxml Fragment
*/
export class YXmlEvent extends YEvent {
/**
* @param {YXmlElement|YXmlFragment} target The target on which the event is created.
* @param {Set<string|null>} subs The set of changed attributes. `null` is included if the
* child list changed.
* @param {Transaction} transaction The transaction instance with wich the
* change was created.
*/
constructor (target, subs, transaction) {
super(target, transaction)
/**
* Whether the children changed.
* @type {Boolean}
* @private
*/
this.childListChanged = false
/**
* Set of all changed attributes.
* @type {Set<string|null>}
*/
this.attributesChanged = new Set()
subs.forEach((sub) => {
if (sub === null) {
this.childListChanged = true
} else {
this.attributesChanged.add(sub)
}
})
}
}

339
src/types/YXmlFragment.js
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@@ -1,339 +0,0 @@
/**
* @module YXml
*/
import {
YXmlEvent,
YXmlElement,
AbstractType,
typeListMap,
typeListForEach,
typeListInsertGenerics,
typeListDelete,
typeListToArray,
YXmlFragmentRefID,
callTypeObservers,
transact,
Doc, ContentType, Transaction, Item, YXmlText, YXmlHook, Snapshot // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js' // eslint-disable-line
/**
* Define the elements to which a set of CSS queries apply.
* {@link https://developer.mozilla.org/en-US/docs/Web/CSS/CSS_Selectors|CSS_Selectors}
*
* @example
* query = '.classSelector'
* query = 'nodeSelector'
* query = '#idSelector'
*
* @typedef {string} CSS_Selector
*/
/**
* Dom filter function.
*
* @callback domFilter
* @param {string} nodeName The nodeName of the element
* @param {Map} attributes The map of attributes.
* @return {boolean} Whether to include the Dom node in the YXmlElement.
*/
/**
* Represents a subset of the nodes of a YXmlElement / YXmlFragment and a
* position within them.
*
* Can be created with {@link YXmlFragment#createTreeWalker}
*
* @public
* @implements {IterableIterator}
*/
export class YXmlTreeWalker {
/**
* @param {YXmlFragment | YXmlElement} root
* @param {function(AbstractType<any>):boolean} [f]
*/
constructor (root, f = () => true) {
this._filter = f
this._root = root
/**
* @type {Item}
*/
this._currentNode = /** @type {Item} */ (root._start)
this._firstCall = true
}
[Symbol.iterator] () {
return this
}
/**
* Get the next node.
*
* @return {IteratorResult<YXmlElement|YXmlText|YXmlHook>} The next node.
*
* @public
*/
next () {
/**
* @type {Item|null}
*/
let n = this._currentNode
let type = /** @type {ContentType} */ (n.content).type
if (n !== null && (!this._firstCall || n.deleted || !this._filter(type))) { // if first call, we check if we can use the first item
do {
type = /** @type {ContentType} */ (n.content).type
if (!n.deleted && (type.constructor === YXmlElement || type.constructor === YXmlFragment) && type._start !== null) {
// walk down in the tree
n = type._start
} else {
// walk right or up in the tree
while (n !== null) {
if (n.right !== null) {
n = n.right
break
} else if (n.parent === this._root) {
n = null
} else {
n = n.parent._item
}
}
}
} while (n !== null && (n.deleted || !this._filter(/** @type {ContentType} */ (n.content).type)))
}
this._firstCall = false
if (n === null) {
// @ts-ignore
return { value: undefined, done: true }
}
this._currentNode = n
return { value: /** @type {any} */ (n.content).type, done: false }
}
}
/**
* Represents a list of {@link YXmlElement}.and {@link YXmlText} types.
* A YxmlFragment is similar to a {@link YXmlElement}, but it does not have a
* nodeName and it does not have attributes. Though it can be bound to a DOM
* element - in this case the attributes and the nodeName are not shared.
*
* @public
* @extends AbstractType<YXmlEvent>
*/
export class YXmlFragment extends AbstractType {
constructor () {
super()
/**
* @type {Array<any>|null}
* @private
*/
this._prelimContent = []
}
/**
* Integrate this type into the Yjs instance.
*
* * Save this struct in the os
* * This type is sent to other client
* * Observer functions are fired
*
* @param {Doc} y The Yjs instance
* @param {Item} item
* @private
*/
_integrate (y, item) {
super._integrate(y, item)
this.insert(0, /** @type {Array} */ (this._prelimContent))
this._prelimContent = null
}
_copy () {
return new YXmlFragment()
}
get length () {
return this._prelimContent === null ? this._length : this._prelimContent.length
}
/**
* Create a subtree of childNodes.
*
* @example
* const walker = elem.createTreeWalker(dom => dom.nodeName === 'div')
* for (let node in walker) {
* // `node` is a div node
* nop(node)
* }
*
* @param {function(AbstractType<any>):boolean} filter Function that is called on each child element and
* returns a Boolean indicating whether the child
* is to be included in the subtree.
* @return {YXmlTreeWalker} A subtree and a position within it.
*
* @public
*/
createTreeWalker (filter) {
return new YXmlTreeWalker(this, filter)
}
/**
* Returns the first YXmlElement that matches the query.
* Similar to DOM's {@link querySelector}.
*
* Query support:
* - tagname
* TODO:
* - id
* - attribute
*
* @param {CSS_Selector} query The query on the children.
* @return {YXmlElement|YXmlText|YXmlHook|null} The first element that matches the query or null.
*
* @public
*/
querySelector (query) {
query = query.toUpperCase()
// @ts-ignore
const iterator = new YXmlTreeWalker(this, element => element.nodeName && element.nodeName.toUpperCase() === query)
const next = iterator.next()
if (next.done) {
return null
} else {
return next.value
}
}
/**
* Returns all YXmlElements that match the query.
* Similar to Dom's {@link querySelectorAll}.
*
* @todo Does not yet support all queries. Currently only query by tagName.
*
* @param {CSS_Selector} query The query on the children
* @return {Array<YXmlElement|YXmlText|YXmlHook|null>} The elements that match this query.
*
* @public
*/
querySelectorAll (query) {
query = query.toUpperCase()
// @ts-ignore
return Array.from(new YXmlTreeWalker(this, element => element.nodeName && element.nodeName.toUpperCase() === query))
}
/**
* Creates YXmlEvent and calls observers.
* @private
*
* @param {Transaction} transaction
* @param {Set<null|string>} parentSubs Keys changed on this type. `null` if list was modified.
*/
_callObserver (transaction, parentSubs) {
callTypeObservers(this, transaction, new YXmlEvent(this, parentSubs, transaction))
}
/**
* Get the string representation of all the children of this YXmlFragment.
*
* @return {string} The string representation of all children.
*/
toString () {
return typeListMap(this, xml => xml.toString()).join('')
}
toJSON () {
return this.toString()
}
/**
* Creates a Dom Element that mirrors this YXmlElement.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object<string, any>} [hooks={}] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type.
* @return {Node} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM (_document = document, hooks = {}, binding) {
const fragment = _document.createDocumentFragment()
if (binding !== undefined) {
binding._createAssociation(fragment, this)
}
typeListForEach(this, xmlType => {
fragment.insertBefore(xmlType.toDOM(_document, hooks, binding), null)
})
return fragment
}
/**
* Inserts new content at an index.
*
* @example
* // Insert character 'a' at position 0
* xml.insert(0, [new Y.XmlText('text')])
*
* @param {number} index The index to insert content at
* @param {Array<YXmlElement|YXmlText>} content The array of content
*/
insert (index, content) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeListInsertGenerics(transaction, this, index, content)
})
} else {
// @ts-ignore _prelimContent is defined because this is not yet integrated
this._prelimContent.splice(index, 0, ...content)
}
}
/**
* Deletes elements starting from an index.
*
* @param {number} index Index at which to start deleting elements
* @param {number} [length=1] The number of elements to remove. Defaults to 1.
*/
delete (index, length = 1) {
if (this.doc !== null) {
transact(this.doc, transaction => {
typeListDelete(transaction, this, index, length)
})
} else {
// @ts-ignore _prelimContent is defined because this is not yet integrated
this._prelimContent.splice(index, length)
}
}
/**
* Transforms this YArray to a JavaScript Array.
*
* @return {Array<YXmlElement|YXmlText|YXmlHook>}
*/
toArray () {
return typeListToArray(this)
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @private
* @param {encoding.Encoder} encoder The encoder to write data to.
*/
_write (encoder) {
encoding.writeVarUint(encoder, YXmlFragmentRefID)
}
}
/**
* @param {decoding.Decoder} decoder
* @return {YXmlFragment}
*
* @private
* @function
*/
export const readYXmlFragment = decoder => new YXmlFragment()

90
src/types/YXmlHook.js
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@@ -1,90 +0,0 @@
import {
YMap,
YXmlHookRefID
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
/**
* You can manage binding to a custom type with YXmlHook.
*
* @extends {YMap<any>}
*/
export class YXmlHook extends YMap {
/**
* @param {string} hookName nodeName of the Dom Node.
*/
constructor (hookName) {
super()
/**
* @type {string}
*/
this.hookName = hookName
}
/**
* Creates an Item with the same effect as this Item (without position effect)
*
* @private
*/
_copy () {
return new YXmlHook(this.hookName)
}
/**
* Creates a Dom Element that mirrors this YXmlElement.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object.<string, any>} [hooks] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type
* @return {Element} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM (_document = document, hooks = {}, binding) {
const hook = hooks[this.hookName]
let dom
if (hook !== undefined) {
dom = hook.createDom(this)
} else {
dom = document.createElement(this.hookName)
}
dom.setAttribute('data-yjs-hook', this.hookName)
if (binding !== undefined) {
binding._createAssociation(dom, this)
}
return dom
}
/**
* Transform the properties of this type to binary and write it to an
* BinaryEncoder.
*
* This is called when this Item is sent to a remote peer.
*
* @param {encoding.Encoder} encoder The encoder to write data to.
*
* @private
*/
_write (encoder) {
super._write(encoder)
encoding.writeVarUint(encoder, YXmlHookRefID)
encoding.writeVarString(encoder, this.hookName)
}
}
/**
* @param {decoding.Decoder} decoder
* @return {YXmlHook}
*
* @private
* @function
*/
export const readYXmlHook = decoder =>
new YXmlHook(decoding.readVarString(decoder))

93
src/types/YXmlText.js
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@@ -1,93 +0,0 @@
import { YText, YXmlTextRefID } from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js' // eslint-disable-line
/**
* Represents text in a Dom Element. In the future this type will also handle
* simple formatting information like bold and italic.
*/
export class YXmlText extends YText {
_copy () {
return new YXmlText()
}
/**
* Creates a Dom Element that mirrors this YXmlText.
*
* @param {Document} [_document=document] The document object (you must define
* this when calling this method in
* nodejs)
* @param {Object<string, any>} [hooks] Optional property to customize how hooks
* are presented in the DOM
* @param {any} [binding] You should not set this property. This is
* used if DomBinding wants to create a
* association to the created DOM type.
* @return {Text} The {@link https://developer.mozilla.org/en-US/docs/Web/API/Element|Dom Element}
*
* @public
*/
toDOM (_document = document, hooks, binding) {
const dom = _document.createTextNode(this.toString())
if (binding !== undefined) {
binding._createAssociation(dom, this)
}
return dom
}
toString () {
// @ts-ignore
return this.toDelta().map(delta => {
const nestedNodes = []
for (let nodeName in delta.attributes) {
const attrs = []
for (let key in delta.attributes[nodeName]) {
attrs.push({ key, value: delta.attributes[nodeName][key] })
}
// sort attributes to get a unique order
attrs.sort((a, b) => a.key < b.key ? -1 : 1)
nestedNodes.push({ nodeName, attrs })
}
// sort node order to get a unique order
nestedNodes.sort((a, b) => a.nodeName < b.nodeName ? -1 : 1)
// now convert to dom string
let str = ''
for (let i = 0; i < nestedNodes.length; i++) {
const node = nestedNodes[i]
str += `<${node.nodeName}`
for (let j = 0; j < node.attrs.length; j++) {
const attr = node.attrs[j]
str += ` ${attr.key}="${attr.value}"`
}
str += '>'
}
str += delta.insert
for (let i = nestedNodes.length - 1; i >= 0; i--) {
str += `</${nestedNodes[i].nodeName}>`
}
return str
}).join('')
}
toJSON () {
return this.toString()
}
/**
* @param {encoding.Encoder} encoder
*
* @private
*/
_write (encoder) {
encoding.writeVarUint(encoder, YXmlTextRefID)
}
}
/**
* @param {decoding.Decoder} decoder
* @return {YXmlText}
*
* @private
* @function
*/
export const readYXmlText = decoder => new YXmlText()

314
src/utils/DeleteSet.js
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@@ -1,314 +0,0 @@
import {
findIndexSS,
createID,
getState,
splitItem,
iterateStructs,
Item, GC, StructStore, Transaction, ID // eslint-disable-line
} from '../internals.js'
import * as array from 'lib0/array.js'
import * as math from 'lib0/math.js'
import * as map from 'lib0/map.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
export class DeleteItem {
/**
* @param {number} clock
* @param {number} len
*/
constructor (clock, len) {
/**
* @type {number}
*/
this.clock = clock
/**
* @type {number}
*/
this.len = len
}
}
/**
* We no longer maintain a DeleteStore. DeleteSet is a temporary object that is created when needed.
* - When created in a transaction, it must only be accessed after sorting, and merging
* - This DeleteSet is send to other clients
* - We do not create a DeleteSet when we send a sync message. The DeleteSet message is created directly from StructStore
* - We read a DeleteSet as part of a sync/update message. In this case the DeleteSet is already sorted and merged.
*/
export class DeleteSet {
constructor () {
/**
* @type {Map<number,Array<DeleteItem>>}
* @private
*/
this.clients = new Map()
}
}
/**
* Iterate over all structs that the DeleteSet gc's.
*
* @param {Transaction} transaction
* @param {DeleteSet} ds
* @param {function(GC|Item):void} f
*
* @function
*/
export const iterateDeletedStructs = (transaction, ds, f) =>
ds.clients.forEach((deletes, clientid) => {
const structs = /** @type {Array<GC|Item>} */ (transaction.doc.store.clients.get(clientid))
for (let i = 0; i < deletes.length; i++) {
const del = deletes[i]
iterateStructs(transaction, structs, del.clock, del.len, f)
}
})
/**
* @param {Array<DeleteItem>} dis
* @param {number} clock
* @return {number|null}
*
* @private
* @function
*/
export const findIndexDS = (dis, clock) => {
let left = 0
let right = dis.length - 1
while (left <= right) {
const midindex = math.floor((left + right) / 2)
const mid = dis[midindex]
const midclock = mid.clock
if (midclock <= clock) {
if (clock < midclock + mid.len) {
return midindex
}
left = midindex + 1
} else {
right = midindex - 1
}
}
return null
}
/**
* @param {DeleteSet} ds
* @param {ID} id
* @return {boolean}
*
* @private
* @function
*/
export const isDeleted = (ds, id) => {
const dis = ds.clients.get(id.client)
return dis !== undefined && findIndexDS(dis, id.clock) !== null
}
/**
* @param {DeleteSet} ds
*
* @private
* @function
*/
export const sortAndMergeDeleteSet = ds => {
ds.clients.forEach(dels => {
dels.sort((a, b) => a.clock - b.clock)
// merge items without filtering or splicing the array
// i is the current pointer
// j refers to the current insert position for the pointed item
// try to merge dels[i] into dels[j-1] or set dels[j]=dels[i]
let i, j
for (i = 1, j = 1; i < dels.length; i++) {
const left = dels[j - 1]
const right = dels[i]
if (left.clock + left.len === right.clock) {
left.len += right.len
} else {
if (j < i) {
dels[j] = right
}
j++
}
}
dels.length = j
})
}
/**
* @param {Array<DeleteSet>} dss
* @return {DeleteSet} A fresh DeleteSet
*/
export const mergeDeleteSets = dss => {
const merged = new DeleteSet()
for (let dssI = 0; dssI < dss.length; dssI++) {
dss[dssI].clients.forEach((delsLeft, client) => {
if (!merged.clients.has(client)) {
// Write all missing keys from current ds and all following.
// If merged already contains `client` current ds has already been added.
/**
* @type {Array<DeleteItem>}
*/
const dels = delsLeft.slice()
for (let i = dssI + 1; i < dss.length; i++) {
array.appendTo(dels, dss[i].clients.get(client) || [])
}
merged.clients.set(client, dels)
}
})
}
sortAndMergeDeleteSet(merged)
return merged
}
/**
* @param {DeleteSet} ds
* @param {ID} id
* @param {number} length
*
* @private
* @function
*/
export const addToDeleteSet = (ds, id, length) => {
map.setIfUndefined(ds.clients, id.client, () => []).push(new DeleteItem(id.clock, length))
}
export const createDeleteSet = () => new DeleteSet()
/**
* @param {StructStore} ss
* @return {DeleteSet} Merged and sorted DeleteSet
*
* @private
* @function
*/
export const createDeleteSetFromStructStore = ss => {
const ds = createDeleteSet()
ss.clients.forEach((structs, client) => {
/**
* @type {Array<DeleteItem>}
*/
const dsitems = []
for (let i = 0; i < structs.length; i++) {
const struct = structs[i]
if (struct.deleted) {
const clock = struct.id.clock
let len = struct.length
if (i + 1 < structs.length) {
for (let next = structs[i + 1]; i + 1 < structs.length && next.id.clock === clock + len && next.deleted; next = structs[++i + 1]) {
len += next.length
}
}
dsitems.push(new DeleteItem(clock, len))
}
}
if (dsitems.length > 0) {
ds.clients.set(client, dsitems)
}
})
return ds
}
/**
* @param {encoding.Encoder} encoder
* @param {DeleteSet} ds
*
* @private
* @function
*/
export const writeDeleteSet = (encoder, ds) => {
encoding.writeVarUint(encoder, ds.clients.size)
ds.clients.forEach((dsitems, client) => {
encoding.writeVarUint(encoder, client)
const len = dsitems.length
encoding.writeVarUint(encoder, len)
for (let i = 0; i < len; i++) {
const item = dsitems[i]
encoding.writeVarUint(encoder, item.clock)
encoding.writeVarUint(encoder, item.len)
}
})
}
/**
* @param {decoding.Decoder} decoder
* @return {DeleteSet}
*
* @private
* @function
*/
export const readDeleteSet = decoder => {
const ds = new DeleteSet()
const numClients = decoding.readVarUint(decoder)
for (let i = 0; i < numClients; i++) {
const client = decoding.readVarUint(decoder)
const numberOfDeletes = decoding.readVarUint(decoder)
for (let i = 0; i < numberOfDeletes; i++) {
addToDeleteSet(ds, createID(client, decoding.readVarUint(decoder)), decoding.readVarUint(decoder))
}
}
return ds
}
/**
* @param {decoding.Decoder} decoder
* @param {Transaction} transaction
* @param {StructStore} store
*
* @private
* @function
*/
export const readAndApplyDeleteSet = (decoder, transaction, store) => {
const unappliedDS = new DeleteSet()
const numClients = decoding.readVarUint(decoder)
for (let i = 0; i < numClients; i++) {
const client = decoding.readVarUint(decoder)
const numberOfDeletes = decoding.readVarUint(decoder)
const structs = store.clients.get(client) || []
const state = getState(store, client)
for (let i = 0; i < numberOfDeletes; i++) {
const clock = decoding.readVarUint(decoder)
const len = decoding.readVarUint(decoder)
if (clock < state) {
if (state < clock + len) {
addToDeleteSet(unappliedDS, createID(client, state), clock + len - state)
}
let index = findIndexSS(structs, clock)
/**
* We can ignore the case of GC and Delete structs, because we are going to skip them
* @type {Item}
*/
// @ts-ignore
let struct = structs[index]
// split the first item if necessary
if (!struct.deleted && struct.id.clock < clock) {
structs.splice(index + 1, 0, splitItem(transaction, struct, clock - struct.id.clock))
index++ // increase we now want to use the next struct
}
while (index < structs.length) {
// @ts-ignore
struct = structs[index++]
if (struct.id.clock < clock + len) {
if (!struct.deleted) {
if (clock + len < struct.id.clock + struct.length) {
structs.splice(index, 0, splitItem(transaction, struct, clock + len - struct.id.clock))
}
struct.delete(transaction)
}
} else {
break
}
}
} else {
addToDeleteSet(unappliedDS, createID(client, clock), len)
}
}
}
if (unappliedDS.clients.size > 0) {
// TODO: no need for encoding+decoding ds anymore
const unappliedDSEncoder = encoding.createEncoder()
writeDeleteSet(unappliedDSEncoder, unappliedDS)
store.pendingDeleteReaders.push(decoding.createDecoder(encoding.toUint8Array(unappliedDSEncoder)))
}
}

185
src/utils/Doc.js
View File

@@ -1,185 +0,0 @@
/**
* @module Y
*/
import {
StructStore,
AbstractType,
YArray,
YText,
YMap,
YXmlFragment,
transact,
Item, Transaction, YEvent // eslint-disable-line
} from '../internals.js'
import { Observable } from 'lib0/observable.js'
import * as random from 'lib0/random.js'
import * as map from 'lib0/map.js'
/**
* A Yjs instance handles the state of shared data.
* @extends Observable<string>
*/
export class Doc extends Observable {
/**
* @param {Object} conf configuration
* @param {boolean} [conf.gc] Disable garbage collection (default: gc=true)
*/
constructor ({ gc = true } = {}) {
super()
this.gc = gc
this.clientID = random.uint32()
/**
* @type {Map<string, AbstractType<YEvent>>}
*/
this.share = new Map()
this.store = new StructStore()
/**
* @type {Transaction | null}
* @private
*/
this._transaction = null
/**
* @type {Array<Transaction>}
* @private
*/
this._transactionCleanups = []
}
/**
* Changes that happen inside of a transaction are bundled. This means that
* the observer fires _after_ the transaction is finished and that all changes
* that happened inside of the transaction are sent as one message to the
* other peers.
*
* @param {function(Transaction):void} f The function that should be executed as a transaction
* @param {any} [origin] Origin of who started the transaction. Will be stored on transaction.origin
*
* @public
*/
transact (f, origin = null) {
transact(this, f, origin)
}
/**
* Define a shared data type.
*
* Multiple calls of `y.get(name, TypeConstructor)` yield the same result
* and do not overwrite each other. I.e.
* `y.define(name, Y.Array) === y.define(name, Y.Array)`
*
* After this method is called, the type is also available on `y.share.get(name)`.
*
* *Best Practices:*
* Define all types right after the Yjs instance is created and store them in a separate object.
* Also use the typed methods `getText(name)`, `getArray(name)`, ..
*
* @example
* const y = new Y(..)
* const appState = {
* document: y.getText('document')
* comments: y.getArray('comments')
* }
*
* @param {string} name
* @param {Function} TypeConstructor The constructor of the type definition. E.g. Y.Text, Y.Array, Y.Map, ...
* @return {AbstractType<any>} The created type. Constructed with TypeConstructor
*
* @public
*/
get (name, TypeConstructor = AbstractType) {
const type = map.setIfUndefined(this.share, name, () => {
// @ts-ignore
const t = new TypeConstructor()
t._integrate(this, null)
return t
})
const Constr = type.constructor
if (TypeConstructor !== AbstractType && Constr !== TypeConstructor) {
if (Constr === AbstractType) {
// @ts-ignore
const t = new TypeConstructor()
t._map = type._map
type._map.forEach(/** @param {Item?} n */ n => {
for (; n !== null; n = n.left) {
n.parent = t
}
})
t._start = type._start
for (let n = t._start; n !== null; n = n.right) {
n.parent = t
}
t._length = type._length
this.share.set(name, t)
t._integrate(this, null)
return t
} else {
throw new Error(`Type with the name ${name} has already been defined with a different constructor`)
}
}
return type
}
/**
* @template T
* @param {string} name
* @return {YArray<T>}
*
* @public
*/
getArray (name) {
// @ts-ignore
return this.get(name, YArray)
}
/**
* @param {string} name
* @return {YText}
*
* @public
*/
getText (name) {
// @ts-ignore
return this.get(name, YText)
}
/**
* @param {string} name
* @return {YMap<any>}
*
* @public
*/
getMap (name) {
// @ts-ignore
return this.get(name, YMap)
}
/**
* @param {string} name
* @return {YXmlFragment}
*
* @public
*/
getXmlFragment (name) {
// @ts-ignore
return this.get(name, YXmlFragment)
}
/**
* Emit `destroy` event and unregister all event handlers.
*
* @protected
*/
destroy () {
this.emit('destroyed', [true])
super.destroy()
}
/**
* @param {string} eventName
* @param {function} f
*/
on (eventName, f) {
super.on(eventName, f)
}
/**
* @param {string} eventName
* @param {function} f
*/
off (eventName, f) {
super.off(eventName, f)
}
}

82
src/utils/EventHandler.js
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@@ -1,82 +0,0 @@
import * as f from 'lib0/function.js'
/**
* General event handler implementation.
*
* @template ARG0, ARG1
*
* @private
*/
export class EventHandler {
constructor () {
/**
* @type {Array<function(ARG0, ARG1):void>}
*/
this.l = []
}
}
/**
* @template ARG0,ARG1
* @returns {EventHandler<ARG0,ARG1>}
*
* @private
* @function
*/
export const createEventHandler = () => new EventHandler()
/**
* Adds an event listener that is called when
* {@link EventHandler#callEventListeners} is called.
*
* @template ARG0,ARG1
* @param {EventHandler<ARG0,ARG1>} eventHandler
* @param {function(ARG0,ARG1):void} f The event handler.
*
* @private
* @function
*/
export const addEventHandlerListener = (eventHandler, f) =>
eventHandler.l.push(f)
/**
* Removes an event listener.
*
* @template ARG0,ARG1
* @param {EventHandler<ARG0,ARG1>} eventHandler
* @param {function(ARG0,ARG1):void} f The event handler that was added with
* {@link EventHandler#addEventListener}
*
* @private
* @function
*/
export const removeEventHandlerListener = (eventHandler, f) => {
eventHandler.l = eventHandler.l.filter(g => f !== g)
}
/**
* Removes all event listeners.
* @template ARG0,ARG1
* @param {EventHandler<ARG0,ARG1>} eventHandler
*
* @private
* @function
*/
export const removeAllEventHandlerListeners = eventHandler => {
eventHandler.l.length = 0
}
/**
* Call all event listeners that were added via
* {@link EventHandler#addEventListener}.
*
* @template ARG0,ARG1
* @param {EventHandler<ARG0,ARG1>} eventHandler
* @param {ARG0} arg0
* @param {ARG1} arg1
*
* @private
* @function
*/
export const callEventHandlerListeners = (eventHandler, arg0, arg1) =>
f.callAll(eventHandler.l, [arg0, arg1])

90
src/utils/ID.js
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@@ -1,90 +0,0 @@
import { AbstractType } from '../internals.js' // eslint-disable-line
import * as decoding from 'lib0/decoding.js'
import * as encoding from 'lib0/encoding.js'
import * as error from 'lib0/error.js'
export class ID {
/**
* @param {number} client client id
* @param {number} clock unique per client id, continuous number
*/
constructor (client, clock) {
/**
* Client id
* @type {number}
*/
this.client = client
/**
* unique per client id, continuous number
* @type {number}
*/
this.clock = clock
}
}
/**
* @param {ID | null} a
* @param {ID | null} b
* @return {boolean}
*
* @function
*/
export const compareIDs = (a, b) => a === b || (a !== null && b !== null && a.client === b.client && a.clock === b.clock)
/**
* @param {number} client
* @param {number} clock
*
* @private
* @function
*/
export const createID = (client, clock) => new ID(client, clock)
/**
* @param {encoding.Encoder} encoder
* @param {ID} id
*
* @private
* @function
*/
export const writeID = (encoder, id) => {
encoding.writeVarUint(encoder, id.client)
encoding.writeVarUint(encoder, id.clock)
}
/**
* Read ID.
* * If first varUint read is 0xFFFFFF a RootID is returned.
* * Otherwise an ID is returned
*
* @param {decoding.Decoder} decoder
* @return {ID}
*
* @private
* @function
*/
export const readID = decoder =>
createID(decoding.readVarUint(decoder), decoding.readVarUint(decoder))
/**
* The top types are mapped from y.share.get(keyname) => type.
* `type` does not store any information about the `keyname`.
* This function finds the correct `keyname` for `type` and throws otherwise.
*
* @param {AbstractType<any>} type
* @return {string}
*
* @private
* @function
*/
export const findRootTypeKey = type => {
// @ts-ignore _y must be defined, otherwise unexpected case
for (let [key, value] of type.doc.share) {
if (value === type) {
return key
}
}
throw error.unexpectedCase()
}

138
src/utils/PermanentUserData.js
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@@ -1,138 +0,0 @@
import {
YArray,
YMap,
readDeleteSet,
writeDeleteSet,
createDeleteSet,
ID, DeleteSet, YArrayEvent, Transaction, Doc // eslint-disable-line
} from '../internals.js'
import * as decoding from 'lib0/decoding.js'
import * as encoding from 'lib0/encoding.js'
import { mergeDeleteSets, isDeleted } from './DeleteSet.js'
export class PermanentUserData {
/**
* @param {Doc} doc
* @param {string} key
*/
constructor (doc, key = 'users') {
const users = doc.getMap(key)
/**
* @type {Map<string,DeleteSet>}
*/
const dss = new Map()
this.yusers = users
this.doc = doc
/**
* Maps from clientid to userDescription
*
* @type {Map<number,string>}
*/
this.clients = new Map()
this.dss = dss
/**
* @param {YMap<any>} user
* @param {string} userDescription
*/
const initUser = (user, userDescription) => {
/**
* @type {YArray<Uint8Array>}
*/
const ds = user.get('ds')
const ids = user.get('ids')
const addClientId = /** @param {number} clientid */ clientid => this.clients.set(clientid, userDescription)
ds.observe(/** @param {YArrayEvent<any>} event */ event => {
event.changes.added.forEach(item => {
item.content.getContent().forEach(encodedDs => {
if (encodedDs instanceof Uint8Array) {
this.dss.set(userDescription, mergeDeleteSets([this.dss.get(userDescription) || createDeleteSet(), readDeleteSet(decoding.createDecoder(encodedDs))]))
}
})
})
})
this.dss.set(userDescription, mergeDeleteSets(ds.map(encodedDs => readDeleteSet(decoding.createDecoder(encodedDs)))))
ids.observe(/** @param {YArrayEvent<any>} event */ event =>
event.changes.added.forEach(item => item.content.getContent().forEach(addClientId))
)
ids.forEach(addClientId)
}
// observe users
users.observe(event => {
event.keysChanged.forEach(userDescription =>
initUser(users.get(userDescription), userDescription)
)
})
// add intial data
users.forEach(initUser)
}
/**
* @param {Doc} doc
* @param {number} clientid
* @param {string} userDescription
*/
setUserMapping (doc, clientid, userDescription) {
const users = this.yusers
let user = users.get(userDescription)
if (!user) {
user = new YMap()
user.set('ids', new YArray())
user.set('ds', new YArray())
users.set(userDescription, user)
}
user.get('ids').push([clientid])
users.observe(event => {
setTimeout(() => {
const userOverwrite = users.get(userDescription)
if (userOverwrite !== user) {
// user was overwritten, port all data over to the next user object
// @todo Experiment with Y.Sets here
user = userOverwrite
// @todo iterate over old type
this.clients.forEach((_userDescription, clientid) => {
if (userDescription === _userDescription) {
user.get('ids').push([clientid])
}
})
const encoder = encoding.createEncoder()
const ds = this.dss.get(userDescription)
if (ds) {
writeDeleteSet(encoder, ds)
user.get('ds').push([encoding.toUint8Array(encoder)])
}
}
}, 0)
})
doc.on('afterTransaction', /** @param {Transaction} transaction */ transaction => {
setTimeout(() => {
const yds = user.get('ds')
const ds = transaction.deleteSet
if (transaction.local && ds.clients.size > 0) {
const encoder = encoding.createEncoder()
writeDeleteSet(encoder, ds)
yds.push([encoding.toUint8Array(encoder)])
}
})
})
}
/**
* @param {number} clientid
* @return {any}
*/
getUserByClientId (clientid) {
return this.clients.get(clientid) || null
}
/**
* @param {ID} id
* @return {string | null}
*/
getUserByDeletedId (id) {
for (const [userDescription, ds] of this.dss) {
if (isDeleted(ds, id)) {
return userDescription
}
}
return null
}
}

272
src/utils/RelativePosition.js
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@@ -1,272 +0,0 @@
import {
createID,
writeID,
readID,
compareIDs,
getState,
findRootTypeKey,
Item,
ContentType,
followRedone,
ID, Doc, AbstractType // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as error from 'lib0/error.js'
/**
* A relative position is based on the Yjs model and is not affected by document changes.
* E.g. If you place a relative position before a certain character, it will always point to this character.
* If you place a relative position at the end of a type, it will always point to the end of the type.
*
* A numeric position is often unsuited for user selections, because it does not change when content is inserted
* before or after.
*
* ```Insert(0, 'x')('a|bc') = 'xa|bc'``` Where | is the relative position.
*
* One of the properties must be defined.
*
* @example
* // Current cursor position is at position 10
* const relativePosition = createRelativePositionFromIndex(yText, 10)
* // modify yText
* yText.insert(0, 'abc')
* yText.delete(3, 10)
* // Compute the cursor position
* const absolutePosition = createAbsolutePositionFromRelativePosition(y, relativePosition)
* absolutePosition.type === yText // => true
* console.log('cursor location is ' + absolutePosition.index) // => cursor location is 3
*
*/
export class RelativePosition {
/**
* @param {ID|null} type
* @param {string|null} tname
* @param {ID|null} item
*/
constructor (type, tname, item) {
/**
* @type {ID|null}
*/
this.type = type
/**
* @type {string|null}
*/
this.tname = tname
/**
* @type {ID | null}
*/
this.item = item
}
}
/**
* @param {Object} json
* @return {RelativePosition}
*
* @function
*/
export const createRelativePositionFromJSON = json => new RelativePosition(json.type == null ? null : createID(json.type.client, json.type.clock), json.tname || null, json.item == null ? null : createID(json.item.client, json.item.clock))
export class AbsolutePosition {
/**
* @param {AbstractType<any>} type
* @param {number} index
*/
constructor (type, index) {
/**
* @type {AbstractType<any>}
*/
this.type = type
/**
* @type {number}
*/
this.index = index
}
}
/**
* @param {AbstractType<any>} type
* @param {number} index
*
* @function
*/
export const createAbsolutePosition = (type, index) => new AbsolutePosition(type, index)
/**
* @param {AbstractType<any>} type
* @param {ID|null} item
*
* @function
*/
export const createRelativePosition = (type, item) => {
let typeid = null
let tname = null
if (type._item === null) {
tname = findRootTypeKey(type)
} else {
typeid = type._item.id
}
return new RelativePosition(typeid, tname, item)
}
/**
* Create a relativePosition based on a absolute position.
*
* @param {AbstractType<any>} type The base type (e.g. YText or YArray).
* @param {number} index The absolute position.
* @return {RelativePosition}
*
* @function
*/
export const createRelativePositionFromTypeIndex = (type, index) => {
let t = type._start
while (t !== null) {
if (!t.deleted && t.countable) {
if (t.length > index) {
// case 1: found position somewhere in the linked list
return createRelativePosition(type, createID(t.id.client, t.id.clock + index))
}
index -= t.length
}
t = t.right
}
return createRelativePosition(type, null)
}
/**
* @param {encoding.Encoder} encoder
* @param {RelativePosition} rpos
*
* @function
*/
export const writeRelativePosition = (encoder, rpos) => {
const { type, tname, item } = rpos
if (item !== null) {
encoding.writeVarUint(encoder, 0)
writeID(encoder, item)
} else if (tname !== null) {
// case 2: found position at the end of the list and type is stored in y.share
encoding.writeUint8(encoder, 1)
encoding.writeVarString(encoder, tname)
} else if (type !== null) {
// case 3: found position at the end of the list and type is attached to an item
encoding.writeUint8(encoder, 2)
writeID(encoder, type)
} else {
throw error.unexpectedCase()
}
return encoder
}
/**
* @param {RelativePosition} rpos
* @return {Uint8Array}
*/
export const encodeRelativePosition = rpos => {
const encoder = encoding.createEncoder()
writeRelativePosition(encoder, rpos)
return encoding.toUint8Array(encoder)
}
/**
* @param {decoding.Decoder} decoder
* @return {RelativePosition|null}
*
* @function
*/
export const readRelativePosition = decoder => {
let type = null
let tname = null
let itemID = null
switch (decoding.readVarUint(decoder)) {
case 0:
// case 1: found position somewhere in the linked list
itemID = readID(decoder)
break
case 1:
// case 2: found position at the end of the list and type is stored in y.share
tname = decoding.readVarString(decoder)
break
case 2: {
// case 3: found position at the end of the list and type is attached to an item
type = readID(decoder)
}
}
return new RelativePosition(type, tname, itemID)
}
/**
* @param {Uint8Array} uint8Array
* @return {RelativePosition|null}
*/
export const decodeRelativePosition = uint8Array => readRelativePosition(decoding.createDecoder(uint8Array))
/**
* @param {RelativePosition} rpos
* @param {Doc} doc
* @return {AbsolutePosition|null}
*
* @function
*/
export const createAbsolutePositionFromRelativePosition = (rpos, doc) => {
const store = doc.store
const rightID = rpos.item
const typeID = rpos.type
const tname = rpos.tname
let type = null
let index = 0
if (rightID !== null) {
if (getState(store, rightID.client) <= rightID.clock) {
return null
}
const res = followRedone(store, rightID)
const right = res.item
if (!(right instanceof Item)) {
return null
}
type = right.parent
if (type._item === null || !type._item.deleted) {
index = right.deleted || !right.countable ? 0 : res.diff
let n = right.left
while (n !== null) {
if (!n.deleted && n.countable) {
index += n.length
}
n = n.left
}
}
} else {
if (tname !== null) {
type = doc.get(tname)
} else if (typeID !== null) {
if (getState(store, typeID.client) <= typeID.clock) {
// type does not exist yet
return null
}
const { item } = followRedone(store, typeID)
if (item instanceof Item && item.content instanceof ContentType) {
type = item.content.type
} else {
// struct is garbage collected
return null
}
} else {
throw error.unexpectedCase()
}
index = type._length
}
return createAbsolutePosition(type, index)
}
/**
* @param {RelativePosition|null} a
* @param {RelativePosition|null} b
*
* @function
*/
export const compareRelativePositions = (a, b) => a === b || (
a !== null && b !== null && a.tname === b.tname && compareIDs(a.item, b.item) && compareIDs(a.type, b.type)
)

140
src/utils/Snapshot.js
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@@ -1,140 +0,0 @@
import {
isDeleted,
createDeleteSetFromStructStore,
getStateVector,
getItemCleanStart,
createID,
iterateDeletedStructs,
writeDeleteSet,
writeStateVector,
readDeleteSet,
readStateVector,
createDeleteSet,
getState,
Transaction, Doc, DeleteSet, Item // eslint-disable-line
} from '../internals.js'
import * as map from 'lib0/map.js'
import * as set from 'lib0/set.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
export class Snapshot {
/**
* @param {DeleteSet} ds
* @param {Map<number,number>} sv state map
*/
constructor (ds, sv) {
/**
* @type {DeleteSet}
* @private
*/
this.ds = ds
/**
* State Map
* @type {Map<number,number>}
* @private
*/
this.sv = sv
}
}
/**
* @param {Snapshot} snap1
* @param {Snapshot} snap2
* @return {boolean}
*/
export const equalSnapshots = (snap1, snap2) => {
const ds1 = snap1.ds.clients
const ds2 = snap2.ds.clients
const sv1 = snap1.sv
const sv2 = snap2.sv
if (sv1.size !== sv2.size || ds1.size !== ds2.size) {
return false
}
for (const [key, value] of sv1) {
if (sv2.get(key) !== value) {
return false
}
}
for (const [client, dsitems1] of ds1) {
const dsitems2 = ds2.get(client) || []
if (dsitems1.length !== dsitems2.length) {
return false
}
for (let i = 0; i < dsitems1.length; i++) {
const dsitem1 = dsitems1[i]
const dsitem2 = dsitems2[i]
if (dsitem1.clock !== dsitem2.clock || dsitem1.len !== dsitem2.len) {
return false
}
}
}
return true
}
/**
* @param {Snapshot} snapshot
* @return {Uint8Array}
*/
export const encodeSnapshot = snapshot => {
const encoder = encoding.createEncoder()
writeDeleteSet(encoder, snapshot.ds)
writeStateVector(encoder, snapshot.sv)
return encoding.toUint8Array(encoder)
}
/**
* @param {Uint8Array} buf
* @return {Snapshot}
*/
export const decodeSnapshot = buf => {
const decoder = decoding.createDecoder(buf)
return new Snapshot(readDeleteSet(decoder), readStateVector(decoder))
}
/**
* @param {DeleteSet} ds
* @param {Map<number,number>} sm
* @return {Snapshot}
*/
export const createSnapshot = (ds, sm) => new Snapshot(ds, sm)
export const emptySnapshot = createSnapshot(createDeleteSet(), new Map())
/**
* @param {Doc} doc
* @return {Snapshot}
*/
export const snapshot = doc => createSnapshot(createDeleteSetFromStructStore(doc.store), getStateVector(doc.store))
/**
* @param {Item} item
* @param {Snapshot|undefined} snapshot
*
* @protected
* @function
*/
export const isVisible = (item, snapshot) => snapshot === undefined ? !item.deleted : (
snapshot.sv.has(item.id.client) && (snapshot.sv.get(item.id.client) || 0) > item.id.clock && !isDeleted(snapshot.ds, item.id)
)
/**
* @param {Transaction} transaction
* @param {Snapshot} snapshot
*/
export const splitSnapshotAffectedStructs = (transaction, snapshot) => {
const meta = map.setIfUndefined(transaction.meta, splitSnapshotAffectedStructs, set.create)
const store = transaction.doc.store
// check if we already split for this snapshot
if (!meta.has(snapshot)) {
snapshot.sv.forEach((clock, client) => {
if (clock < getState(store, client)) {
getItemCleanStart(transaction, createID(client, clock))
}
})
iterateDeletedStructs(transaction, snapshot.ds, item => {})
meta.add(snapshot)
}
}

275
src/utils/StructStore.js
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@@ -1,275 +0,0 @@
import {
GC,
splitItem,
GCRef, ItemRef, Transaction, ID, Item // eslint-disable-line
} from '../internals.js'
import * as math from 'lib0/math.js'
import * as error from 'lib0/error.js'
import * as decoding from 'lib0/decoding.js' // eslint-disable-line
export class StructStore {
constructor () {
/**
* @type {Map<number,Array<GC|Item>>}
* @private
*/
this.clients = new Map()
/**
* Store incompleted struct reads here
* `i` denotes to the next read operation
* We could shift the array of refs instead, but shift is incredible
* slow in Chrome for arrays with more than 100k elements
* @see tryResumePendingStructRefs
* @type {Map<number,{i:number,refs:Array<GCRef|ItemRef>}>}
* @private
*/
this.pendingClientsStructRefs = new Map()
/**
* Stack of pending structs waiting for struct dependencies
* Maximum length of stack is structReaders.size
* @type {Array<GCRef|ItemRef>}
* @private
*/
this.pendingStack = []
/**
* @type {Array<decoding.Decoder>}
* @private
*/
this.pendingDeleteReaders = []
}
}
/**
* Return the states as a Map<client,clock>.
* Note that clock refers to the next expected clock id.
*
* @param {StructStore} store
* @return {Map<number,number>}
*
* @public
* @function
*/
export const getStateVector = store => {
const sm = new Map()
store.clients.forEach((structs, client) => {
const struct = structs[structs.length - 1]
sm.set(client, struct.id.clock + struct.length)
})
return sm
}
/**
* @param {StructStore} store
* @param {number} client
* @return {number}
*
* @public
* @function
*/
export const getState = (store, client) => {
const structs = store.clients.get(client)
if (structs === undefined) {
return 0
}
const lastStruct = structs[structs.length - 1]
return lastStruct.id.clock + lastStruct.length
}
/**
* @param {StructStore} store
*
* @private
* @function
*/
export const integretyCheck = store => {
store.clients.forEach(structs => {
for (let i = 1; i < structs.length; i++) {
const l = structs[i - 1]
const r = structs[i]
if (l.id.clock + l.length !== r.id.clock) {
throw new Error('StructStore failed integrety check')
}
}
})
}
/**
* @param {StructStore} store
* @param {GC|Item} struct
*
* @private
* @function
*/
export const addStruct = (store, struct) => {
let structs = store.clients.get(struct.id.client)
if (structs === undefined) {
structs = []
store.clients.set(struct.id.client, structs)
} else {
const lastStruct = structs[structs.length - 1]
if (lastStruct.id.clock + lastStruct.length !== struct.id.clock) {
throw error.unexpectedCase()
}
}
structs.push(struct)
}
/**
* Perform a binary search on a sorted array
* @param {Array<any>} structs
* @param {number} clock
* @return {number}
*
* @private
* @function
*/
export const findIndexSS = (structs, clock) => {
let left = 0
let right = structs.length - 1
while (left <= right) {
const midindex = math.floor((left + right) / 2)
const mid = structs[midindex]
const midclock = mid.id.clock
if (midclock <= clock) {
if (clock < midclock + mid.length) {
return midindex
}
left = midindex + 1
} else {
right = midindex - 1
}
}
// Always check state before looking for a struct in StructStore
// Therefore the case of not finding a struct is unexpected
throw error.unexpectedCase()
}
/**
* Expects that id is actually in store. This function throws or is an infinite loop otherwise.
*
* @param {StructStore} store
* @param {ID} id
* @return {GC|Item}
*
* @private
* @function
*/
export const find = (store, id) => {
/**
* @type {Array<GC|Item>}
*/
// @ts-ignore
const structs = store.clients.get(id.client)
return structs[findIndexSS(structs, id.clock)]
}
/**
* Expects that id is actually in store. This function throws or is an infinite loop otherwise.
*
* @param {StructStore} store
* @param {ID} id
* @return {Item}
*
* @private
* @function
*/
// @ts-ignore
export const getItem = (store, id) => find(store, id)
/**
* @param {Transaction} transaction
* @param {Array<Item|GC>} structs
* @param {number} clock
*/
export const findIndexCleanStart = (transaction, structs, clock) => {
const index = findIndexSS(structs, clock)
let struct = structs[index]
if (struct.id.clock < clock && struct instanceof Item) {
structs.splice(index + 1, 0, splitItem(transaction, struct, clock - struct.id.clock))
return index + 1
}
return index
}
/**
* Expects that id is actually in store. This function throws or is an infinite loop otherwise.
*
* @param {Transaction} transaction
* @param {ID} id
* @return {Item}
*
* @private
* @function
*/
export const getItemCleanStart = (transaction, id) => {
const structs = /** @type {Array<Item>} */ (transaction.doc.store.clients.get(id.client))
return structs[findIndexCleanStart(transaction, structs, id.clock)]
}
/**
* Expects that id is actually in store. This function throws or is an infinite loop otherwise.
*
* @param {Transaction} transaction
* @param {StructStore} store
* @param {ID} id
* @return {Item}
*
* @private
* @function
*/
export const getItemCleanEnd = (transaction, store, id) => {
/**
* @type {Array<Item>}
*/
// @ts-ignore
const structs = store.clients.get(id.client)
const index = findIndexSS(structs, id.clock)
const struct = structs[index]
if (id.clock !== struct.id.clock + struct.length - 1 && struct.constructor !== GC) {
structs.splice(index + 1, 0, splitItem(transaction, struct, id.clock - struct.id.clock + 1))
}
return struct
}
/**
* Replace `item` with `newitem` in store
* @param {StructStore} store
* @param {GC|Item} struct
* @param {GC|Item} newStruct
*
* @private
* @function
*/
export const replaceStruct = (store, struct, newStruct) => {
const structs = /** @type {Array<GC|Item>} */ (store.clients.get(struct.id.client))
structs[findIndexSS(structs, struct.id.clock)] = newStruct
}
/**
* Iterate over a range of structs
*
* @param {Transaction} transaction
* @param {Array<Item|GC>} structs
* @param {number} clockStart Inclusive start
* @param {number} len
* @param {function(GC|Item):void} f
*
* @function
*/
export const iterateStructs = (transaction, structs, clockStart, len, f) => {
if (len === 0) {
return
}
const clockEnd = clockStart + len
let index = findIndexCleanStart(transaction, structs, clockStart)
let struct
do {
struct = structs[index++]
if (clockEnd < struct.id.clock + struct.length) {
findIndexCleanStart(transaction, structs, clockEnd)
}
f(struct)
} while (index < structs.length && structs[index].id.clock < clockEnd)
}

340
src/utils/Transaction.js
View File

@@ -1,340 +0,0 @@
import {
getState,
createID,
writeStructsFromTransaction,
writeDeleteSet,
DeleteSet,
sortAndMergeDeleteSet,
getStateVector,
findIndexSS,
callEventHandlerListeners,
Item,
ID, AbstractType, AbstractStruct, YEvent, Doc // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as map from 'lib0/map.js'
import * as math from 'lib0/math.js'
import * as set from 'lib0/set.js'
import { callAll } from 'lib0/function.js'
/**
* A transaction is created for every change on the Yjs model. It is possible
* to bundle changes on the Yjs model in a single transaction to
* minimize the number on messages sent and the number of observer calls.
* If possible the user of this library should bundle as many changes as
* possible. Here is an example to illustrate the advantages of bundling:
*
* @example
* const map = y.define('map', YMap)
* // Log content when change is triggered
* map.observe(() => {
* console.log('change triggered')
* })
* // Each change on the map type triggers a log message:
* map.set('a', 0) // => "change triggered"
* map.set('b', 0) // => "change triggered"
* // When put in a transaction, it will trigger the log after the transaction:
* y.transact(() => {
* map.set('a', 1)
* map.set('b', 1)
* }) // => "change triggered"
*
* @public
*/
export class Transaction {
/**
* @param {Doc} doc
* @param {any} origin
* @param {boolean} local
*/
constructor (doc, origin, local) {
/**
* The Yjs instance.
* @type {Doc}
*/
this.doc = doc
/**
* Describes the set of deleted items by ids
* @type {DeleteSet}
*/
this.deleteSet = new DeleteSet()
/**
* Holds the state before the transaction started.
* @type {Map<Number,Number>}
*/
this.beforeState = getStateVector(doc.store)
/**
* Holds the state after the transaction.
* @type {Map<Number,Number>}
*/
this.afterState = new Map()
/**
* All types that were directly modified (property added or child
* inserted/deleted). New types are not included in this Set.
* Maps from type to parentSubs (`item.parentSub = null` for YArray)
* @type {Map<AbstractType<YEvent>,Set<String|null>>}
*/
this.changed = new Map()
/**
* Stores the events for the types that observe also child elements.
* It is mainly used by `observeDeep`.
* @type {Map<AbstractType<YEvent>,Array<YEvent>>}
*/
this.changedParentTypes = new Map()
/**
* @type {Set<ID>}
* @private
*/
this._mergeStructs = new Set()
/**
* @type {any}
*/
this.origin = origin
/**
* Stores meta information on the transaction
* @type {Map<any,any>}
*/
this.meta = new Map()
/**
* Whether this change originates from this doc.
* @type {boolean}
*/
this.local = local
}
}
/**
* @param {Transaction} transaction
*/
export const computeUpdateMessageFromTransaction = transaction => {
if (transaction.deleteSet.clients.size === 0 && !map.any(transaction.afterState, (clock, client) => transaction.beforeState.get(client) !== clock)) {
return null
}
const encoder = encoding.createEncoder()
sortAndMergeDeleteSet(transaction.deleteSet)
writeStructsFromTransaction(encoder, transaction)
writeDeleteSet(encoder, transaction.deleteSet)
return encoder
}
/**
* @param {Transaction} transaction
*
* @private
* @function
*/
export const nextID = transaction => {
const y = transaction.doc
return createID(y.clientID, getState(y.store, y.clientID))
}
/**
* If `type.parent` was added in current transaction, `type` technically
* did not change, it was just added and we should not fire events for `type`.
*
* @param {Transaction} transaction
* @param {AbstractType<YEvent>} type
* @param {string|null} parentSub
*/
export const addChangedTypeToTransaction = (transaction, type, parentSub) => {
const item = type._item
if (item === null || (item.id.clock < (transaction.beforeState.get(item.id.client) || 0) && !item.deleted)) {
map.setIfUndefined(transaction.changed, type, set.create).add(parentSub)
}
}
/**
* @param {Array<Transaction>} transactionCleanups
* @param {number} i
*/
const cleanupTransactions = (transactionCleanups, i) => {
if (i < transactionCleanups.length) {
const transaction = transactionCleanups[i]
const doc = transaction.doc
const store = doc.store
const ds = transaction.deleteSet
try {
sortAndMergeDeleteSet(ds)
transaction.afterState = getStateVector(transaction.doc.store)
doc._transaction = null
doc.emit('beforeObserverCalls', [transaction, doc])
/**
* An array of event callbacks.
*
* Each callback is called even if the other ones throw errors.
*
* @type {Array<function():void>}
*/
const fs = []
// observe events on changed types
transaction.changed.forEach((subs, itemtype) =>
fs.push(() => {
if (itemtype._item === null || !itemtype._item.deleted) {
itemtype._callObserver(transaction, subs)
}
})
)
fs.push(() => {
// deep observe events
transaction.changedParentTypes.forEach((events, type) =>
fs.push(() => {
// We need to think about the possibility that the user transforms the
// Y.Doc in the event.
if (type._item === null || !type._item.deleted) {
events = events
.filter(event =>
event.target._item === null || !event.target._item.deleted
)
events
.forEach(event => {
event.currentTarget = type
})
// We don't need to check for events.length
// because we know it has at least one element
callEventHandlerListeners(type._dEH, events, transaction)
}
})
)
fs.push(() => doc.emit('afterTransaction', [transaction, doc]))
})
callAll(fs, [])
} finally {
/**
* @param {Array<AbstractStruct>} structs
* @param {number} pos
*/
const tryToMergeWithLeft = (structs, pos) => {
const left = structs[pos - 1]
const right = structs[pos]
if (left.deleted === right.deleted && left.constructor === right.constructor) {
if (left.mergeWith(right)) {
structs.splice(pos, 1)
if (right instanceof Item && right.parentSub !== null && right.parent._map.get(right.parentSub) === right) {
right.parent._map.set(right.parentSub, /** @type {Item} */ (left))
}
}
}
}
// Replace deleted items with ItemDeleted / GC.
// This is where content is actually remove from the Yjs Doc.
if (doc.gc) {
for (const [client, deleteItems] of ds.clients) {
const structs = /** @type {Array<AbstractStruct>} */ (store.clients.get(client))
for (let di = deleteItems.length - 1; di >= 0; di--) {
const deleteItem = deleteItems[di]
const endDeleteItemClock = deleteItem.clock + deleteItem.len
for (
let si = findIndexSS(structs, deleteItem.clock), struct = structs[si];
si < structs.length && struct.id.clock < endDeleteItemClock;
struct = structs[++si]
) {
const struct = structs[si]
if (deleteItem.clock + deleteItem.len <= struct.id.clock) {
break
}
if (struct instanceof Item && struct.deleted && !struct.keep) {
struct.gc(store, false)
}
}
}
}
}
// try to merge deleted / gc'd items
// merge from right to left for better efficiecy and so we don't miss any merge targets
for (const [client, deleteItems] of ds.clients) {
const structs = /** @type {Array<AbstractStruct>} */ (store.clients.get(client))
for (let di = deleteItems.length - 1; di >= 0; di--) {
const deleteItem = deleteItems[di]
// start with merging the item next to the last deleted item
const mostRightIndexToCheck = math.min(structs.length - 1, 1 + findIndexSS(structs, deleteItem.clock + deleteItem.len - 1))
for (
let si = mostRightIndexToCheck, struct = structs[si];
si > 0 && struct.id.clock >= deleteItem.clock;
struct = structs[--si]
) {
tryToMergeWithLeft(structs, si)
}
}
}
// on all affected store.clients props, try to merge
for (const [client, clock] of transaction.afterState) {
const beforeClock = transaction.beforeState.get(client) || 0
if (beforeClock !== clock) {
const structs = /** @type {Array<AbstractStruct>} */ (store.clients.get(client))
// we iterate from right to left so we can safely remove entries
const firstChangePos = math.max(findIndexSS(structs, beforeClock), 1)
for (let i = structs.length - 1; i >= firstChangePos; i--) {
tryToMergeWithLeft(structs, i)
}
}
}
// try to merge mergeStructs
// @todo: it makes more sense to transform mergeStructs to a DS, sort it, and merge from right to left
// but at the moment DS does not handle duplicates
for (const mid of transaction._mergeStructs) {
const client = mid.client
const clock = mid.clock
const structs = /** @type {Array<AbstractStruct>} */ (store.clients.get(client))
const replacedStructPos = findIndexSS(structs, clock)
if (replacedStructPos + 1 < structs.length) {
tryToMergeWithLeft(structs, replacedStructPos + 1)
}
if (replacedStructPos > 0) {
tryToMergeWithLeft(structs, replacedStructPos)
}
}
// @todo Merge all the transactions into one and provide send the data as a single update message
doc.emit('afterTransactionCleanup', [transaction, doc])
if (doc._observers.has('update')) {
const updateMessage = computeUpdateMessageFromTransaction(transaction)
if (updateMessage !== null) {
doc.emit('update', [encoding.toUint8Array(updateMessage), transaction.origin, doc])
}
}
if (transactionCleanups.length <= i + 1) {
doc._transactionCleanups = []
} else {
cleanupTransactions(transactionCleanups, i + 1)
}
}
}
}
/**
* Implements the functionality of `y.transact(()=>{..})`
*
* @param {Doc} doc
* @param {function(Transaction):void} f
* @param {any} [origin=true]
*
* @private
* @function
*/
export const transact = (doc, f, origin = null, local = true) => {
const transactionCleanups = doc._transactionCleanups
let initialCall = false
if (doc._transaction === null) {
initialCall = true
doc._transaction = new Transaction(doc, origin, local)
transactionCleanups.push(doc._transaction)
doc.emit('beforeTransaction', [doc._transaction, doc])
}
try {
f(doc._transaction)
} finally {
if (initialCall && transactionCleanups[0] === doc._transaction) {
// The first transaction ended, now process observer calls.
// Observer call may create new transactions for which we need to call the observers and do cleanup.
// We don't want to nest these calls, so we execute these calls one after
// another.
// Also we need to ensure that all cleanups are called, even if the
// observes throw errors.
// This file is full of hacky try {} finally {} blocks to ensure that an
// event can throw errors and also that the cleanup is called.
cleanupTransactions(transactionCleanups, 0)
}
}
}

264
src/utils/UndoManager.js
View File

@@ -1,264 +0,0 @@
import {
mergeDeleteSets,
iterateDeletedStructs,
keepItem,
transact,
redoItem,
iterateStructs,
isParentOf,
createID,
followRedone,
getItemCleanStart,
getState,
Transaction, Doc, Item, GC, DeleteSet, AbstractType // eslint-disable-line
} from '../internals.js'
import * as time from 'lib0/time.js'
import { Observable } from 'lib0/observable.js'
class StackItem {
/**
* @param {DeleteSet} ds
* @param {number} start clock start of the local client
* @param {number} len
*/
constructor (ds, start, len) {
this.ds = ds
this.start = start
this.len = len
/**
* Use this to save and restore metadata like selection range
*/
this.meta = new Map()
}
}
/**
* @param {UndoManager} undoManager
* @param {Array<StackItem>} stack
* @param {string} eventType
* @return {StackItem?}
*/
const popStackItem = (undoManager, stack, eventType) => {
/**
* Whether a change happened
* @type {StackItem?}
*/
let result = null
const doc = undoManager.doc
const scope = undoManager.scope
transact(doc, transaction => {
while (stack.length > 0 && result === null) {
const store = doc.store
const clientID = doc.clientID
const stackItem = /** @type {StackItem} */ (stack.pop())
const stackStartClock = stackItem.start
const stackEndClock = stackItem.start + stackItem.len
const itemsToRedo = new Set()
// @todo iterateStructs should not need the structs parameter
const structs = /** @type {Array<GC|Item>} */ (store.clients.get(clientID))
let performedChange = false
if (stackStartClock !== stackEndClock) {
// make sure structs don't overlap with the range of created operations [stackItem.start, stackItem.start + stackItem.end)
getItemCleanStart(transaction, createID(clientID, stackStartClock))
if (stackEndClock < getState(doc.store, clientID)) {
getItemCleanStart(transaction, createID(clientID, stackEndClock))
}
}
iterateDeletedStructs(transaction, stackItem.ds, struct => {
if (
struct instanceof Item &&
scope.some(type => isParentOf(type, struct)) &&
// Never redo structs in [stackItem.start, stackItem.start + stackItem.end) because they were created and deleted in the same capture interval.
!(struct.id.client === clientID && struct.id.clock >= stackStartClock && struct.id.clock < stackEndClock)
) {
itemsToRedo.add(struct)
}
})
itemsToRedo.forEach(struct => {
performedChange = redoItem(transaction, struct, itemsToRedo) !== null || performedChange
})
/**
* @type {Array<Item>}
*/
const itemsToDelete = []
iterateStructs(transaction, structs, stackStartClock, stackItem.len, struct => {
if (struct instanceof Item) {
if (struct.redone !== null) {
let { item, diff } = followRedone(store, struct.id)
if (diff > 0) {
item = getItemCleanStart(transaction, createID(item.id.client, item.id.clock + diff))
}
if (item.length > stackItem.len) {
getItemCleanStart(transaction, createID(item.id.client, stackEndClock))
}
struct = item
}
if (!struct.deleted && scope.some(type => isParentOf(type, /** @type {Item} */ (struct)))) {
itemsToDelete.push(struct)
}
}
})
// We want to delete in reverse order so that children are deleted before
// parents, so we have more information available when items are filtered.
for (let i = itemsToDelete.length - 1; i >= 0; i--) {
const item = itemsToDelete[i]
if (undoManager.deleteFilter(item)) {
item.delete(transaction)
performedChange = true
}
}
result = stackItem
if (result != null) {
undoManager.emit('stack-item-popped', [{ stackItem: result, type: eventType }, undoManager])
}
}
}, undoManager)
return result
}
/**
* @typedef {Object} UndoManagerOptions
* @property {number} [UndoManagerOptions.captureTimeout=500]
* @property {function(Item):boolean} [UndoManagerOptions.deleteFilter=()=>true] Sometimes
* it is necessary to filter whan an Undo/Redo operation can delete. If this
* filter returns false, the type/item won't be deleted even it is in the
* undo/redo scope.
* @property {Set<any>} [UndoManagerOptions.trackedOrigins=new Set([null])]
*/
/**
* Fires 'stack-item-added' event when a stack item was added to either the undo- or
* the redo-stack. You may store additional stack information via the
* metadata property on `event.stackItem.meta` (it is a `Map` of metadata properties).
* Fires 'stack-item-popped' event when a stack item was popped from either the
* undo- or the redo-stack. You may restore the saved stack information from `event.stackItem.meta`.
*
* @extends {Observable<'stack-item-added'|'stack-item-popped'>}
*/
export class UndoManager extends Observable {
/**
* @param {AbstractType<any>|Array<AbstractType<any>>} typeScope Accepts either a single type, or an array of types
* @param {UndoManagerOptions} options
*/
constructor (typeScope, { captureTimeout, deleteFilter = () => true, trackedOrigins = new Set([null]) } = {}) {
if (captureTimeout == null) {
captureTimeout = 500
}
super()
this.scope = typeScope instanceof Array ? typeScope : [typeScope]
this.deleteFilter = deleteFilter
trackedOrigins.add(this)
this.trackedOrigins = trackedOrigins
/**
* @type {Array<StackItem>}
*/
this.undoStack = []
/**
* @type {Array<StackItem>}
*/
this.redoStack = []
/**
* Whether the client is currently undoing (calling UndoManager.undo)
*
* @type {boolean}
*/
this.undoing = false
this.redoing = false
this.doc = /** @type {Doc} */ (this.scope[0].doc)
this.lastChange = 0
this.doc.on('afterTransaction', /** @param {Transaction} transaction */ transaction => {
// Only track certain transactions
if (!this.scope.some(type => transaction.changedParentTypes.has(type)) || (!this.trackedOrigins.has(transaction.origin) && (!transaction.origin || !this.trackedOrigins.has(transaction.origin.constructor)))) {
return
}
const undoing = this.undoing
const redoing = this.redoing
const stack = undoing ? this.redoStack : this.undoStack
if (undoing) {
this.stopCapturing() // next undo should not be appended to last stack item
} else if (!redoing) {
// neither undoing nor redoing: delete redoStack
this.redoStack = []
}
const beforeState = transaction.beforeState.get(this.doc.clientID) || 0
const afterState = transaction.afterState.get(this.doc.clientID) || 0
const now = time.getUnixTime()
if (now - this.lastChange < captureTimeout && stack.length > 0 && !undoing && !redoing) {
// append change to last stack op
const lastOp = stack[stack.length - 1]
lastOp.ds = mergeDeleteSets([lastOp.ds, transaction.deleteSet])
lastOp.len = afterState - lastOp.start
} else {
// create a new stack op
stack.push(new StackItem(transaction.deleteSet, beforeState, afterState - beforeState))
}
if (!undoing && !redoing) {
this.lastChange = now
}
// make sure that deleted structs are not gc'd
iterateDeletedStructs(transaction, transaction.deleteSet, /** @param {Item|GC} item */ item => {
if (item instanceof Item && this.scope.some(type => isParentOf(type, item))) {
keepItem(item)
}
})
this.emit('stack-item-added', [{ stackItem: stack[stack.length - 1], origin: transaction.origin, type: undoing ? 'redo' : 'undo' }, this])
})
}
/**
* UndoManager merges Undo-StackItem if they are created within time-gap
* smaller than `options.captureTimeout`. Call `um.stopCapturing()` so that the next
* StackItem won't be merged.
*
*
* @example
* // without stopCapturing
* ytext.insert(0, 'a')
* ytext.insert(1, 'b')
* um.undo()
* ytext.toString() // => '' (note that 'ab' was removed)
* // with stopCapturing
* ytext.insert(0, 'a')
* um.stopCapturing()
* ytext.insert(0, 'b')
* um.undo()
* ytext.toString() // => 'a' (note that only 'b' was removed)
*
*/
stopCapturing () {
this.lastChange = 0
}
/**
* Undo last changes on type.
*
* @return {StackItem?} Returns StackItem if a change was applied
*/
undo () {
this.undoing = true
let res
try {
res = popStackItem(this, this.undoStack, 'undo')
} finally {
this.undoing = false
}
return res
}
/**
* Redo last undo operation.
*
* @return {StackItem?} Returns StackItem if a change was applied
*/
redo () {
this.redoing = true
let res
try {
res = popStackItem(this, this.redoStack, 'redo')
} finally {
this.redoing = false
}
return res
}
}

226
src/utils/YEvent.js
View File

@@ -1,226 +0,0 @@
import {
isDeleted,
Item, AbstractType, Transaction, AbstractStruct // eslint-disable-line
} from '../internals.js'
import * as set from 'lib0/set.js'
import * as array from 'lib0/array.js'
/**
* YEvent describes the changes on a YType.
*/
export class YEvent {
/**
* @param {AbstractType<any>} target The changed type.
* @param {Transaction} transaction
*/
constructor (target, transaction) {
/**
* The type on which this event was created on.
* @type {AbstractType<any>}
*/
this.target = target
/**
* The current target on which the observe callback is called.
* @type {AbstractType<any>}
*/
this.currentTarget = target
/**
* The transaction that triggered this event.
* @type {Transaction}
*/
this.transaction = transaction
/**
* @type {Object|null}
*/
this._changes = null
}
/**
* Computes the path from `y` to the changed type.
*
* The following property holds:
* @example
* let type = y
* event.path.forEach(dir => {
* type = type.get(dir)
* })
* type === event.target // => true
*/
get path () {
// @ts-ignore _item is defined because target is integrated
return getPathTo(this.currentTarget, this.target)
}
/**
* Check if a struct is deleted by this event.
*
* In contrast to change.deleted, this method also returns true if the struct was added and then deleted.
*
* @param {AbstractStruct} struct
* @return {boolean}
*/
deletes (struct) {
return isDeleted(this.transaction.deleteSet, struct.id)
}
/**
* Check if a struct is added by this event.
*
* In contrast to change.deleted, this method also returns true if the struct was added and then deleted.
*
* @param {AbstractStruct} struct
* @return {boolean}
*/
adds (struct) {
return struct.id.clock >= (this.transaction.beforeState.get(struct.id.client) || 0)
}
/**
* @return {{added:Set<Item>,deleted:Set<Item>,delta:Array<{insert:Array<any>}|{delete:number}|{retain:number}>}}
*/
get changes () {
let changes = this._changes
if (changes === null) {
const target = this.target
const added = set.create()
const deleted = set.create()
/**
* @type {Array<{insert:Array<any>}|{delete:number}|{retain:number}>}
*/
const delta = []
/**
* @type {Map<string,{ action: 'add' | 'update' | 'delete', oldValue: any}>}
*/
const keys = new Map()
changes = {
added, deleted, delta, keys
}
const changed = /** @type Set<string|null> */ (this.transaction.changed.get(target))
if (changed.has(null)) {
/**
* @type {any}
*/
let lastOp = null
const packOp = () => {
if (lastOp) {
delta.push(lastOp)
}
}
for (let item = target._start; item !== null; item = item.right) {
if (item.deleted) {
if (this.deletes(item) && !this.adds(item)) {
if (lastOp === null || lastOp.delete === undefined) {
packOp()
lastOp = { delete: 0 }
}
lastOp.delete += item.length
deleted.add(item)
} // else nop
} else {
if (this.adds(item)) {
if (lastOp === null || lastOp.insert === undefined) {
packOp()
lastOp = { insert: [] }
}
lastOp.insert = lastOp.insert.concat(item.content.getContent())
added.add(item)
} else {
if (lastOp === null || lastOp.retain === undefined) {
packOp()
lastOp = { retain: 0 }
}
lastOp.retain += item.length
}
}
}
if (lastOp !== null && lastOp.retain === undefined) {
packOp()
}
}
changed.forEach(key => {
if (key !== null) {
const item = /** @type {Item} */ (target._map.get(key))
/**
* @type {'delete' | 'add' | 'update'}
*/
let action
let oldValue
if (this.adds(item)) {
let prev = item.left
while (prev !== null && this.adds(prev)) {
prev = prev.left
}
if (this.deletes(item)) {
if (prev !== null && this.deletes(prev)) {
action = 'delete'
oldValue = array.last(prev.content.getContent())
} else {
return
}
} else {
if (prev !== null && this.deletes(prev)) {
action = 'update'
oldValue = array.last(prev.content.getContent())
} else {
action = 'add'
oldValue = undefined
}
}
} else {
if (this.deletes(item)) {
action = 'delete'
oldValue = array.last(/** @type {Item} */ item.content.getContent())
} else {
return // nop
}
}
keys.set(key, { action, oldValue })
}
})
this._changes = changes
}
return changes
}
}
/**
* Compute the path from this type to the specified target.
*
* @example
* // `child` should be accessible via `type.get(path[0]).get(path[1])..`
* const path = type.getPathTo(child)
* // assuming `type instanceof YArray`
* console.log(path) // might look like => [2, 'key1']
* child === type.get(path[0]).get(path[1])
*
* @param {AbstractType<any>} parent
* @param {AbstractType<any>} child target
* @return {Array<string|number>} Path to the target
*
* @private
* @function
*/
const getPathTo = (parent, child) => {
const path = []
while (child._item !== null && child !== parent) {
if (child._item.parentSub !== null) {
// parent is map-ish
path.unshift(child._item.parentSub)
} else {
// parent is array-ish
let i = 0
let c = child._item.parent._start
while (c !== child._item && c !== null) {
if (!c.deleted) {
i++
}
c = c.right
}
path.unshift(i)
}
child = child._item.parent
}
return path
}

423
src/utils/encoding.js
View File

@@ -1,423 +0,0 @@
/**
* @module encoding
*
* We use the first five bits in the info flag for determining the type of the struct.
*
* 0: GC
* 1: Item with Deleted content
* 2: Item with JSON content
* 3: Item with Binary content
* 4: Item with String content
* 5: Item with Embed content (for richtext content)
* 6: Item with Format content (a formatting marker for richtext content)
* 7: Item with Type
*/
import {
findIndexSS,
GCRef,
ItemRef,
writeID,
createID,
readID,
getState,
getStateVector,
readAndApplyDeleteSet,
writeDeleteSet,
createDeleteSetFromStructStore,
transact,
Doc, Transaction, AbstractStruct, StructStore, ID // eslint-disable-line
} from '../internals.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as binary from 'lib0/binary.js'
/**
* @param {encoding.Encoder} encoder
* @param {Array<AbstractStruct>} structs All structs by `client`
* @param {number} client
* @param {number} clock write structs starting with `ID(client,clock)`
*
* @function
*/
const writeStructs = (encoder, structs, client, clock) => {
// write first id
const startNewStructs = findIndexSS(structs, clock)
// write # encoded structs
encoding.writeVarUint(encoder, structs.length - startNewStructs)
writeID(encoder, createID(client, clock))
const firstStruct = structs[startNewStructs]
// write first struct with an offset
firstStruct.write(encoder, clock - firstStruct.id.clock, 0)
for (let i = startNewStructs + 1; i < structs.length; i++) {
structs[i].write(encoder, 0, 0)
}
}
/**
* @param {decoding.Decoder} decoder
* @param {number} numOfStructs
* @param {ID} nextID
* @return {Array<GCRef|ItemRef>}
*
* @private
* @function
*/
const readStructRefs = (decoder, numOfStructs, nextID) => {
/**
* @type {Array<GCRef|ItemRef>}
*/
const refs = []
for (let i = 0; i < numOfStructs; i++) {
const info = decoding.readUint8(decoder)
const ref = (binary.BITS5 & info) === 0 ? new GCRef(decoder, nextID, info) : new ItemRef(decoder, nextID, info)
nextID = createID(nextID.client, nextID.clock + ref.length)
refs.push(ref)
}
return refs
}
/**
* @param {encoding.Encoder} encoder
* @param {StructStore} store
* @param {Map<number,number>} _sm
*
* @private
* @function
*/
export const writeClientsStructs = (encoder, store, _sm) => {
// we filter all valid _sm entries into sm
const sm = new Map()
_sm.forEach((clock, client) => {
// only write if new structs are available
if (getState(store, client) > clock) {
sm.set(client, clock)
}
})
getStateVector(store).forEach((clock, client) => {
if (!_sm.has(client)) {
sm.set(client, 0)
}
})
// write # states that were updated
encoding.writeVarUint(encoder, sm.size)
sm.forEach((clock, client) => {
// @ts-ignore
writeStructs(encoder, store.clients.get(client), client, clock)
})
}
/**
* @param {decoding.Decoder} decoder The decoder object to read data from.
* @return {Map<number,Array<GCRef|ItemRef>>}
*
* @private
* @function
*/
export const readClientsStructRefs = decoder => {
/**
* @type {Map<number,Array<GCRef|ItemRef>>}
*/
const clientRefs = new Map()
const numOfStateUpdates = decoding.readVarUint(decoder)
for (let i = 0; i < numOfStateUpdates; i++) {
const numberOfStructs = decoding.readVarUint(decoder)
const nextID = readID(decoder)
const refs = readStructRefs(decoder, numberOfStructs, nextID)
clientRefs.set(nextID.client, refs)
}
return clientRefs
}
/**
* Resume computing structs generated by struct readers.
*
* While there is something to do, we integrate structs in this order
* 1. top element on stack, if stack is not empty
* 2. next element from current struct reader (if empty, use next struct reader)
*
* If struct causally depends on another struct (ref.missing), we put next reader of
* `ref.id.client` on top of stack.
*
* At some point we find a struct that has no causal dependencies,
* then we start emptying the stack.
*
* It is not possible to have circles: i.e. struct1 (from client1) depends on struct2 (from client2)
* depends on struct3 (from client1). Therefore the max stack size is eqaul to `structReaders.length`.
*
* This method is implemented in a way so that we can resume computation if this update
* causally depends on another update.
*
* @param {Transaction} transaction
* @param {StructStore} store
*
* @private
* @function
*/
const resumeStructIntegration = (transaction, store) => {
const stack = store.pendingStack
const clientsStructRefs = store.pendingClientsStructRefs
// iterate over all struct readers until we are done
while (stack.length !== 0 || clientsStructRefs.size !== 0) {
if (stack.length === 0) {
// take any first struct from clientsStructRefs and put it on the stack
const [client, structRefs] = clientsStructRefs.entries().next().value
stack.push(structRefs.refs[structRefs.i++])
if (structRefs.refs.length === structRefs.i) {
clientsStructRefs.delete(client)
}
}
const ref = stack[stack.length - 1]
const m = ref._missing
const client = ref.id.client
const localClock = getState(store, client)
const offset = ref.id.clock < localClock ? localClock - ref.id.clock : 0
if (ref.id.clock + offset !== localClock) {
// A previous message from this client is missing
// check if there is a pending structRef with a smaller clock and switch them
const structRefs = clientsStructRefs.get(client)
if (structRefs !== undefined) {
const r = structRefs.refs[structRefs.i]
if (r.id.clock < ref.id.clock) {
// put ref with smaller clock on stack instead and continue
structRefs.refs[structRefs.i] = ref
stack[stack.length - 1] = r
// sort the set because this approach might bring the list out of order
structRefs.refs = structRefs.refs.slice(structRefs.i).sort((r1, r2) => r1.id.clock - r2.id.clock)
structRefs.i = 0
continue
}
}
// wait until missing struct is available
return
}
while (m.length > 0) {
const missing = m[m.length - 1]
if (getState(store, missing.client) <= missing.clock) {
const client = missing.client
// get the struct reader that has the missing struct
const structRefs = clientsStructRefs.get(client)
if (structRefs === undefined) {
// This update message causally depends on another update message.
return
}
stack.push(structRefs.refs[structRefs.i++])
if (structRefs.i === structRefs.refs.length) {
clientsStructRefs.delete(client)
}
break
}
ref._missing.pop()
}
if (m.length === 0) {
if (offset < ref.length) {
ref.toStruct(transaction, store, offset).integrate(transaction)
}
stack.pop()
}
}
}
/**
* @param {Transaction} transaction
* @param {StructStore} store
*
* @private
* @function
*/
export const tryResumePendingDeleteReaders = (transaction, store) => {
const pendingReaders = store.pendingDeleteReaders
store.pendingDeleteReaders = []
for (let i = 0; i < pendingReaders.length; i++) {
readAndApplyDeleteSet(pendingReaders[i], transaction, store)
}
}
/**
* @param {encoding.Encoder} encoder
* @param {Transaction} transaction
*
* @private
* @function
*/
export const writeStructsFromTransaction = (encoder, transaction) => writeClientsStructs(encoder, transaction.doc.store, transaction.beforeState)
/**
* @param {StructStore} store
* @param {Map<number, Array<GCRef|ItemRef>>} clientsStructsRefs
*
* @private
* @function
*/
const mergeReadStructsIntoPendingReads = (store, clientsStructsRefs) => {
const pendingClientsStructRefs = store.pendingClientsStructRefs
for (const [client, structRefs] of clientsStructsRefs) {
const pendingStructRefs = pendingClientsStructRefs.get(client)
if (pendingStructRefs === undefined) {
pendingClientsStructRefs.set(client, { refs: structRefs, i: 0 })
} else {
// merge into existing structRefs
const merged = pendingStructRefs.i > 0 ? pendingStructRefs.refs.slice(pendingStructRefs.i) : pendingStructRefs.refs
for (let i = 0; i < structRefs.length; i++) {
merged.push(structRefs[i])
}
pendingStructRefs.i = 0
pendingStructRefs.refs = merged.sort((r1, r2) => r1.id.clock - r2.id.clock)
}
}
}
/**
* Read the next Item in a Decoder and fill this Item with the read data.
*
* This is called when data is received from a remote peer.
*
* @param {decoding.Decoder} decoder The decoder object to read data from.
* @param {Transaction} transaction
* @param {StructStore} store
*
* @private
* @function
*/
export const readStructs = (decoder, transaction, store) => {
const clientsStructRefs = readClientsStructRefs(decoder)
mergeReadStructsIntoPendingReads(store, clientsStructRefs)
resumeStructIntegration(transaction, store)
tryResumePendingDeleteReaders(transaction, store)
}
/**
* Read and apply a document update.
*
* This function has the same effect as `applyUpdate` but accepts an decoder.
*
* @param {decoding.Decoder} decoder
* @param {Doc} ydoc
* @param {any} [transactionOrigin] This will be stored on `transaction.origin` and `.on('update', (update, origin))`
*
* @function
*/
export const readUpdate = (decoder, ydoc, transactionOrigin) =>
transact(ydoc, transaction => {
readStructs(decoder, transaction, ydoc.store)
readAndApplyDeleteSet(decoder, transaction, ydoc.store)
}, transactionOrigin, false)
/**
* Apply a document update created by, for example, `y.on('update', update => ..)` or `update = encodeStateAsUpdate()`.
*
* This function has the same effect as `readUpdate` but accepts an Uint8Array instead of a Decoder.
*
* @param {Doc} ydoc
* @param {Uint8Array} update
* @param {any} [transactionOrigin] This will be stored on `transaction.origin` and `.on('update', (update, origin))`
*
* @function
*/
export const applyUpdate = (ydoc, update, transactionOrigin) =>
readUpdate(decoding.createDecoder(update), ydoc, transactionOrigin)
/**
* Write all the document as a single update message. If you specify the state of the remote client (`targetStateVector`) it will
* only write the operations that are missing.
*
* @param {encoding.Encoder} encoder
* @param {Doc} doc
* @param {Map<number,number>} [targetStateVector] The state of the target that receives the update. Leave empty to write all known structs
*
* @function
*/
export const writeStateAsUpdate = (encoder, doc, targetStateVector = new Map()) => {
writeClientsStructs(encoder, doc.store, targetStateVector)
writeDeleteSet(encoder, createDeleteSetFromStructStore(doc.store))
}
/**
* Write all the document as a single update message that can be applied on the remote document. If you specify the state of the remote client (`targetState`) it will
* only write the operations that are missing.
*
* Use `writeStateAsUpdate` instead if you are working with lib0/encoding.js#Encoder
*
* @param {Doc} doc
* @param {Uint8Array} [encodedTargetStateVector] The state of the target that receives the update. Leave empty to write all known structs
* @return {Uint8Array}
*
* @function
*/
export const encodeStateAsUpdate = (doc, encodedTargetStateVector) => {
const encoder = encoding.createEncoder()
const targetStateVector = encodedTargetStateVector == null ? new Map() : decodeStateVector(encodedTargetStateVector)
writeStateAsUpdate(encoder, doc, targetStateVector)
return encoding.toUint8Array(encoder)
}
/**
* Read state vector from Decoder and return as Map
*
* @param {decoding.Decoder} decoder
* @return {Map<number,number>} Maps `client` to the number next expected `clock` from that client.
*
* @function
*/
export const readStateVector = decoder => {
const ss = new Map()
const ssLength = decoding.readVarUint(decoder)
for (let i = 0; i < ssLength; i++) {
const client = decoding.readVarUint(decoder)
const clock = decoding.readVarUint(decoder)
ss.set(client, clock)
}
return ss
}
/**
* Read decodedState and return State as Map.
*
* @param {Uint8Array} decodedState
* @return {Map<number,number>} Maps `client` to the number next expected `clock` from that client.
*
* @function
*/
export const decodeStateVector = decodedState => readStateVector(decoding.createDecoder(decodedState))
/**
* Write State Vector to `lib0/encoding.js#Encoder`.
*
* @param {encoding.Encoder} encoder
* @param {Map<number,number>} sv
* @function
*/
export const writeStateVector = (encoder, sv) => {
encoding.writeVarUint(encoder, sv.size)
sv.forEach((clock, client) => {
encoding.writeVarUint(encoder, client)
encoding.writeVarUint(encoder, clock)
})
return encoder
}
/**
* Write State Vector to `lib0/encoding.js#Encoder`.
*
* @param {encoding.Encoder} encoder
* @param {Doc} doc
*
* @function
*/
export const writeDocumentStateVector = (encoder, doc) => writeStateVector(encoder, getStateVector(doc.store))
/**
* Encode State as Uint8Array.
*
* @param {Doc} doc
* @return {Uint8Array}
*
* @function
*/
export const encodeStateVector = doc => {
const encoder = encoding.createEncoder()
writeDocumentStateVector(encoder, doc)
return encoding.toUint8Array(encoder)
}

22
src/utils/isParentOf.js
View File

@@ -1,22 +0,0 @@
import { AbstractType, Item } from '../internals.js' // eslint-disable-line
/**
* Check if `parent` is a parent of `child`.
*
* @param {AbstractType<any>} parent
* @param {Item|null} child
* @return {Boolean} Whether `parent` is a parent of `child`.
*
* @private
* @function
*/
export const isParentOf = (parent, child) => {
while (child !== null) {
if (child.parent === parent) {
return true
}
child = child.parent._item
}
return false
}

9
test.html
View File

@@ -1,9 +0,0 @@
<!DOCTYPE html>
<html>
<head>
<title>Testing Yjs</title>
</head>
<body>
<script type="module" src="./dist/tests.js"></script>
</body>
</html>

219
test/TestSuite.coffee Normal file
View File

@@ -0,0 +1,219 @@
chai = require('chai')
expect = chai.expect
sinon = require('sinon')
sinonChai = require('sinon-chai')
_ = require("underscore")
chai.use(sinonChai)
Connector = require "../../y-test/lib/y-test.coffee"
Y = null # need global reference!
module.exports = class Test
constructor: (@name_suffix = "", Yjs)->
Y = Yjs
@number_of_test_cases_multiplier = 1
@repeat_this = 1 * @number_of_test_cases_multiplier
@doSomething_amount = 123 * @number_of_test_cases_multiplier
@number_of_engines = 5 + @number_of_test_cases_multiplier - 1
@time = 0 # denotes to the time when run was started
@ops = 0 # number of operations (used with @time)
@time_now = 0 # current time
@max_depth = 3
@debug = false
@reinitialize()
for gf in @getGeneratingFunctions(0)
if not (gf.types? and gf.f?)
throw new Error "Generating Functions are not initialized properly!"
for t in gf.types
if not t?
throw new Error "You havent includedt this type in Y (do require 'y-whatever')"
reinitialize: ()->
@users = []
for i in [0...@number_of_engines]
u = @makeNewUser (i+@name_suffix)
for user in @users
u._model.connector.join(user._model.connector) # TODO: change the test-connector to make this more convenient
@users.push u
@initUsers?(@users[0])
@flushAll()
# is called by implementing class
makeNewUser: (user)->
user._model.HB.stopGarbageCollection()
user
getSomeUser: ()->
i = _.random 0, (@users.length-1)
@users[i]
getRandomText: (chars, min_length = 0)->
chars ?= "abcdefghijklmnopqrstuvwxyz"
length = _.random min_length, 10
#length = 1
nextchar = chars[(_.random 0, (chars.length-1))]
text = ""
_(length).times ()-> text += nextchar
text
getRandomObject: ()->
result = {}
key1 = @getRandomKey()
key2 = @getRandomKey()
val1 = @getRandomText()
val2 = null
if _.random(0,1) is 1
val2 = @getRandomObject()
else
val2 = @getRandomText()
result[key1] = val1
result[key2] = val2
result
getRandomKey: ()->
@getRandomText [1,2,'x','y'], 1 # only 4 keys
getGeneratingFunctions: (user_num)=>
types = @users[user_num]._model.operations
[]
getRandomRoot: (user_num)->
throw new Error "implement me!"
compare: (o1, o2, depth = (@max_depth+1))->
if o1 is o2 or depth <= 0
true
else if o1._name? and o1._name isnt o2._name
throw new Error "different types"
else if o1._model?
@compare o1._model, o2._model, depth
else if o1.type is "MapManager"
for name, val of o1.val()
@compare(val, o2.val(name), depth-1)
else if o1.type is "ListManager"
for val,i in o1.val()
@compare(val, o2.val(i), depth-1)
else if o1.constructor is Array and o2.constructor is Array
if o1.length isnt o2.length
throw new Error "The Arrays do not have the same size!"
for o,i in o1
@compare o, o2[i], (depth-1)
else if o1 isnt o2
throw new Error "different values"
else
throw new Error "I don't know what to do .. "
generateRandomOp: (user_num)=>
y = @getRandomRoot(user_num)
choices = @getGeneratingFunctions(user_num).filter (gf)->
_.some gf.types, (type)->
y instanceof type
if choices.length is 0
console.dir(y)
throw new Error "You forgot to specify a test generation methot for this Operation! (#{y.type})"
i = _.random 0, (choices.length-1)
choices[i].f y
applyRandomOp: (user_num)=>
user = @users[user_num]
user._model.connector.flushOneRandom()
doSomething: ()->
user_num = _.random (@number_of_engines-1)
choices = [@applyRandomOp, @generateRandomOp]
choice = _.random (choices.length-1)
choices[choice](user_num)
flushAll: (final)->
# TODO:!!
final = false
if @users.length <= 1 or not final
for user,user_number in @users
user._model.connector.flushAll()
else
for user,user_number in @users[1..]
user._model.connector.flushAll()
ops = @users[1].getHistoryBuffer()._encode @users[0].HB.getOperationCounter()
@users[0].engine.applyOpsCheckDouble ops
compareAll: (test_number)->
@flushAll(true)
@time += (new Date()).getTime() - @time_now
number_of_created_operations = 0
for i in [0...(@users.length)]
number_of_created_operations += @users[i]._model.connector.getOpsInExecutionOrder().length
@ops += number_of_created_operations*@users.length
ops_per_msek = Math.floor(@ops/@time)
if test_number? # and @debug
console.log "#{test_number}/#{@repeat_this}: #{number_of_created_operations} were created and applied on (#{@users.length}) users ops in a different order." + " Over all we consumed #{@ops} operations in #{@time/1000} seconds (#{ops_per_msek} ops/msek)."
for i in [0...(@users.length-1)]
if @debug
if not _.isEqual @getContent(i), @getContent(i+1)
printOpsInExecutionOrder = (otnumber, otherotnumber)=>
ops = _.filter @users[otnumber]._model.connector.getOpsInExecutionOrder(), (o)->
typeof o.uid.op_name isnt 'string' and o.uid.creator isnt '_'
for s,j in ops
console.log "op#{j} = " + (JSON.stringify s)
console.log ""
s = "ops = ["
for o,j in ops
if j isnt 0
s += ", "
s += "op#{j}"
s += "]"
console.log s
console.log "@test_user.engine.applyOps ops"
console.log "expect(@test_user.val('name').val()).to.equal(\"#{@users[otherotnumber].val('name').val()}\")"
ops
console.log ""
console.log "Found an OT Puzzle!"
console.log "OT states:"
for u,j in @users
console.log "OT#{j}: "+u.val('name').val()
console.log "\nOT execution order (#{i},#{i+1}):"
printOpsInExecutionOrder i, i+1
console.log ""
ops = printOpsInExecutionOrder i+1, i
console.log ""
expect(@compare(@users[i], @users[i+1])).to.not.be.undefined
run: ()->
if @debug
console.log ''
for times in [1..@repeat_this]
@time_now = (new Date).getTime()
for i in [1..Math.floor(@doSomething_amount/2)]
@doSomething()
@flushAll(false)
for u in @users
u._model.HB.emptyGarbage()
for i in [1..Math.floor(@doSomething_amount/2)]
@doSomething()
@compareAll(times)
@testHBencoding()
if times isnt @repeat_this
@reinitialize()
testHBencoding: ()->
# in case of JsonFramework, every user will create its JSON first! therefore, the testusers id must be small than all the others (see InsertType)
@users[@users.length] = @makeNewUser (-1) # this does not want to join with anymody
@users[@users.length-1]._model.HB.renewStateVector @users[0]._model.HB.getOperationCounter()
@users[@users.length-1]._model.engine.applyOps @users[0]._model.HB._encode()
#if @getContent(@users.length-1) isnt @getContent(0)
# console.log "testHBencoding:"
# console.log "Unprocessed ops first: #{@users[0].engine.unprocessed_ops.length}"
# console.log "Unprocessed ops last: #{@users[@users.length-1].engine.unprocessed_ops.length}"
expect(@compare(@users[@users.length-1], @users[0])).to.not.be.undefined

324
test/object-test.coffee Normal file
View File

@@ -0,0 +1,324 @@
chai = require('chai')
expect = chai.expect
should = chai.should()
sinon = require('sinon')
sinonChai = require('sinon-chai')
_ = require("underscore")
chai.use(sinonChai)
Y = require "../lib/y.coffee"
Y.Test = require "../../y-test/lib/y-test.coffee"
Y.Text = require "../../y-text/lib/y-text"
Y.List = require "../../y-list/lib/y-list"
TestSuite = require "./TestSuite"
class ObjectTest extends TestSuite
constructor: (suffix)->
super suffix, Y
makeNewUser: (userId)->
conn = new Y.Test userId
super new Y conn
type: "ObjectTest"
getRandomRoot: (user_num, root, depth = @max_depth)->
root ?= @users[user_num]
if depth is 0 or _.random(0,1) is 1 # take root
root
else # take child
depth--
elems = null
if root._name is "Object"
elems =
for oname,val of root.val()
val
else if root._name is "Array"
elems = root.val()
else
return root
elems = elems.filter (elem)->
elem? and ((elem._name is "Array") or (elem._name is "Object"))
if elems.length is 0
root
else
p = elems[_.random(0, elems.length-1)]
@getRandomRoot user_num, p, depth
getGeneratingFunctions: (user_num)->
super(user_num).concat [
f : (y)=> # Delete Object Property
list = for name, o of y.val()
name
if list.length > 0
key = list[_.random(0,list.length-1)]
y.delete(key)
types: [Y.Object]
,
f : (y)=> # SET Object Property
y.val(@getRandomKey(), new Y.Object(@getRandomObject()))
types: [Y.Object]
,
f : (y)=> # SET PROPERTY TEXT
y.val(@getRandomKey(), new Y.Text(@getRandomText()))
types: [Y.Object]
,
f : (y)=> # SET PROPERTY List
y.val(@getRandomKey(), new Y.List(@getRandomText().split("")))
types: [Y.Object]
,
f : (y)=> # Delete Array Element
list = y.val()
if list.length > 0
i = _.random(0,list.length-1)
y.delete(i)
types: [Y.List]
,
f : (y)=> # insert Object mutable
l = y.val().length
y.insert(_.random(0, l-1), new Y.Object(@getRandomObject()))
types: [Y.List]
,
f : (y)=> # insert Text mutable
l = y.val().length
y.insert(_.random(0, l-1), new Y.Text(@getRandomText()))
types : [Y.List]
,
f : (y)=> # insert List mutable
l = y.val().length
y.insert(_.random(0, l-1), new Y.List(@getRandomText().split("")))
types : [Y.List]
,
f : (y)=> # insert Number (primitive object)
l = y.val().length
y.insert(_.random(0,l-1), _.random(0,42))
types : [Y.List]
,
f : (y)=> # SET Object Property (circular)
y.val(@getRandomKey(), @getRandomRoot user_num)
types: [Y.Object]
,
f : (y)=> # insert Object mutable (circular)
l = y.val().length
y.insert(_.random(0, l-1), @getRandomRoot user_num)
types: [Y.List]
,
f : (y)=> # INSERT TEXT
y
pos = _.random 0, (y.val().length-1)
y.insert pos, @getRandomText()
null
types: [Y.Text]
,
f : (y)-> # DELETE TEXT
if y.val().length > 0
pos = _.random 0, (y.val().length-1) # TODO: put here also arbitrary number (test behaviour in error cases)
length = _.random 0, (y.val().length - pos)
ops1 = y.delete pos, length
undefined
types : [Y.Text]
]
module.exports = ObjectTest
describe "Object Test", ->
@timeout 500000
beforeEach (done)->
@yTest = new ObjectTest()
@users = @yTest.users
@test_user = @yTest.makeNewUser "test_user"
done()
it "can handle many engines, many operations, concurrently (random)", ->
console.log "" # TODO
@yTest.run()
it "has a working test suite", ->
@yTest.compareAll()
it "handles double-late-join", ->
test = new ObjectTest("double")
test.run()
@yTest.run()
u1 = test.users[0]
u2 = @yTest.users[1]
ops1 = u1._model.HB._encode()
ops2 = u2._model.HB._encode()
u1._model.engine.applyOp ops2, true
u2._model.engine.applyOp ops1, true
expect(@yTest.compare(u1, u2)).to.not.be.undefined
it "can handle creaton of complex json (1)", ->
@yTest.users[0].val('a', new Y.Text('q'))
@yTest.users[1].val('a', new Y.Text('t'))
@yTest.compareAll()
q = @yTest.users[2].val('a')
q.insert(0,'A')
@yTest.compareAll()
expect(@yTest.getSomeUser().val("a").val()).to.equal("At")
it "can handle creaton of complex json (2)", ->
@yTest.getSomeUser().val('x', new Y.Object({'a':'b'}))
@yTest.getSomeUser().val('a', new Y.Object({'a':{q: new Y.Text("dtrndtrtdrntdrnrtdnrtdnrtdnrtdnrdnrdt")}}))
@yTest.getSomeUser().val('b', new Y.Object({'a':{}}))
@yTest.getSomeUser().val('c', new Y.Object({'a':'c'}))
@yTest.getSomeUser().val('c', new Y.Object({'a':'b'}))
@yTest.compareAll()
q = @yTest.getSomeUser().val("a").val("a").val("q")
q.insert(0,'A')
@yTest.compareAll()
expect(@yTest.getSomeUser().val("a").val("a").val("q").val()).to.equal("Adtrndtrtdrntdrnrtdnrtdnrtdnrtdnrdnrdt")
it "can handle creaton of complex json (3)", ->
@yTest.users[0].val('l', new Y.List([1,2,3]))
@yTest.users[1].val('l', new Y.List([4,5,6]))
@yTest.compareAll()
@yTest.users[2].val('l').insert(0,'A')
w = @yTest.users[1].val('l').insert(0,new Y.Text('B')).val(0)
w.insert 1, "C"
expect(w.val()).to.equal("BC")
@yTest.compareAll()
it "handles immutables and primitive data types", ->
@yTest.getSomeUser().val('string', "text")
@yTest.getSomeUser().val('number', 4)
@yTest.getSomeUser().val('object', new Y.Object({q:"rr"}))
@yTest.getSomeUser().val('null', null)
@yTest.compareAll()
expect(@yTest.getSomeUser().val('string')).to.equal "text"
expect(@yTest.getSomeUser().val('number')).to.equal 4
expect(@yTest.getSomeUser().val('object').val('q')).to.equal "rr"
expect(@yTest.getSomeUser().val('null') is null).to.be.ok
it "handles immutables and primitive data types (2)", ->
@yTest.users[0].val('string', "text")
@yTest.users[1].val('number', 4)
@yTest.users[2].val('object', new Y.Object({q:"rr"}))
@yTest.users[0].val('null', null)
@yTest.compareAll()
expect(@yTest.getSomeUser().val('string')).to.equal "text"
expect(@yTest.getSomeUser().val('number')).to.equal 4
expect(@yTest.getSomeUser().val('object').val('q')).to.equal "rr"
expect(@yTest.getSomeUser().val('null') is null).to.be.ok
it "Observers work on JSON Types (add type observers, local and foreign)", ->
u = @yTest.users[0]
@yTest.flushAll()
last_task = null
observer1 = (changes)->
expect(changes.length).to.equal(1)
change = changes[0]
expect(change.type).to.equal("add")
expect(change.object).to.equal(u)
expect(change.changedBy).to.equal('0')
expect(change.name).to.equal("newStuff")
last_task = "observer1"
u.observe observer1
u.val("newStuff",new Y.Text("someStuff"))
expect(last_task).to.equal("observer1")
u.unobserve observer1
observer2 = (changes)->
expect(changes.length).to.equal(1)
change = changes[0]
expect(change.type).to.equal("add")
expect(change.object).to.equal(u)
expect(change.changedBy).to.equal('1')
expect(change.name).to.equal("moreStuff")
last_task = "observer2"
u.observe observer2
v = @yTest.users[1]
v.val("moreStuff","someMoreStuff")
@yTest.flushAll()
expect(last_task).to.equal("observer2")
u.unobserve observer2
it "Observers work on JSON Types (update type observers, local and foreign)", ->
u = @yTest.users[0].val("newStuff", new Y.Text("oldStuff")).val("moreStuff",new Y.Text("moreOldStuff"))
@yTest.flushAll()
last_task = null
observer1 = (changes)->
expect(changes.length).to.equal(1)
change = changes[0]
expect(change.type).to.equal("update")
expect(change.object).to.equal(u)
expect(change.changedBy).to.equal('0')
expect(change.name).to.equal("newStuff")
expect(change.oldValue.val()).to.equal("oldStuff")
last_task = "observer1"
u.observe observer1
u.val("newStuff","someStuff")
expect(last_task).to.equal("observer1")
u.unobserve observer1
observer2 = (changes)->
expect(changes.length).to.equal(1)
change = changes[0]
expect(change.type).to.equal("update")
expect(change.object).to.equal(u)
expect(change.changedBy).to.equal('1')
expect(change.name).to.equal("moreStuff")
expect(change.oldValue.val()).to.equal("moreOldStuff")
last_task = "observer2"
u.observe observer2
v = @yTest.users[1]
v.val("moreStuff","someMoreStuff")
@yTest.flushAll()
expect(last_task).to.equal("observer2")
u.unobserve observer2
it "Observers work on JSON Types (delete type observers, local and foreign)", ->
u = @yTest.users[0].val("newStuff",new Y.Text("oldStuff")).val("moreStuff",new Y.Text("moreOldStuff"))
@yTest.flushAll()
last_task = null
observer1 = (changes)->
expect(changes.length).to.equal(1)
change = changes[0]
expect(change.type).to.equal("delete")
expect(change.object).to.equal(u)
expect(change.changedBy).to.equal('0')
expect(change.name).to.equal("newStuff")
expect(change.oldValue.val()).to.equal("oldStuff")
last_task = "observer1"
u.observe observer1
u.delete("newStuff")
expect(last_task).to.equal("observer1")
u.unobserve observer1
observer2 = (changes)->
expect(changes.length).to.equal(1)
change = changes[0]
expect(change.type).to.equal("delete")
expect(change.object).to.equal(u)
expect(change.changedBy).to.equal('1')
expect(change.name).to.equal("moreStuff")
expect(change.oldValue.val()).to.equal("moreOldStuff")
last_task = "observer2"
u.observe observer2
v = @yTest.users[1]
v.delete("moreStuff")
@yTest.flushAll()
expect(last_task).to.equal("observer2")
u.unobserve observer2
it "can handle circular JSON", ->
u = @yTest.users[0]
u.val("me", u)
@yTest.compareAll()
u.val("stuff", new Y.Object({x: true}))
u.val("same_stuff", u.val("stuff"))
u.val("same_stuff").val("x", 5)
expect(u.val("same_stuff").val("x")).to.equal(5)
@yTest.compareAll()
u.val("stuff").val("y", u.val("stuff"))
@yTest.compareAll()

28
tests/encoding.tests.js
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@@ -1,28 +0,0 @@
import * as t from 'lib0/testing.js'
import {
contentRefs,
readContentBinary,
readContentDeleted,
readContentString,
readContentJSON,
readContentEmbed,
readContentType,
readContentFormat,
readContentAny
} from '../src/internals.js'
/**
* @param {t.TestCase} tc
*/
export const testStructReferences = tc => {
t.assert(contentRefs.length === 9)
t.assert(contentRefs[1] === readContentDeleted)
t.assert(contentRefs[2] === readContentJSON) // TODO: deprecate content json?
t.assert(contentRefs[3] === readContentBinary)
t.assert(contentRefs[4] === readContentString)
t.assert(contentRefs[5] === readContentEmbed)
t.assert(contentRefs[6] === readContentFormat)
t.assert(contentRefs[7] === readContentType)
t.assert(contentRefs[8] === readContentAny)
}

23
tests/index.js
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@@ -1,23 +0,0 @@
import * as array from './y-array.tests.js'
import * as map from './y-map.tests.js'
import * as text from './y-text.tests.js'
import * as xml from './y-xml.tests.js'
import * as encoding from './encoding.tests.js'
import * as undoredo from './undo-redo.tests.js'
import { runTests } from 'lib0/testing.js'
import { isBrowser, isNode } from 'lib0/environment.js'
import * as log from 'lib0/logging.js'
if (isBrowser) {
log.createVConsole(document.body)
}
runTests({
map, array, text, xml, encoding, undoredo
}).then(success => {
/* istanbul ignore next */
if (isNode) {
process.exit(success ? 0 : 1)
}
})

404
tests/testHelper.js
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@@ -1,404 +0,0 @@
import * as Y from '../src/index.js'
import {
createDeleteSetFromStructStore,
getStateVector,
Item,
DeleteItem, DeleteSet, StructStore, Doc // eslint-disable-line
} from '../src/internals.js'
import * as t from 'lib0/testing.js'
import * as prng from 'lib0/prng.js'
import * as encoding from 'lib0/encoding.js'
import * as decoding from 'lib0/decoding.js'
import * as syncProtocol from 'y-protocols/sync.js'
export * from '../src/internals.js'
/**
* @param {TestYInstance} y // publish message created by `y` to all other online clients
* @param {Uint8Array} m
*/
const broadcastMessage = (y, m) => {
if (y.tc.onlineConns.has(y)) {
y.tc.onlineConns.forEach(remoteYInstance => {
if (remoteYInstance !== y) {
remoteYInstance._receive(m, y)
}
})
}
}
export class TestYInstance extends Doc {
/**
* @param {TestConnector} testConnector
* @param {number} clientID
*/
constructor (testConnector, clientID) {
super()
this.userID = clientID // overwriting clientID
/**
* @type {TestConnector}
*/
this.tc = testConnector
/**
* @type {Map<TestYInstance, Array<Uint8Array>>}
*/
this.receiving = new Map()
testConnector.allConns.add(this)
// set up observe on local model
this.on('update', /** @param {Uint8Array} update @param {any} origin */ (update, origin) => {
if (origin !== testConnector) {
const encoder = encoding.createEncoder()
syncProtocol.writeUpdate(encoder, update)
broadcastMessage(this, encoding.toUint8Array(encoder))
}
})
this.connect()
}
/**
* Disconnect from TestConnector.
*/
disconnect () {
this.receiving = new Map()
this.tc.onlineConns.delete(this)
}
/**
* Append yourself to the list of known Y instances in testconnector.
* Also initiate sync with all clients.
*/
connect () {
if (!this.tc.onlineConns.has(this)) {
this.tc.onlineConns.add(this)
const encoder = encoding.createEncoder()
syncProtocol.writeSyncStep1(encoder, this)
// publish SyncStep1
broadcastMessage(this, encoding.toUint8Array(encoder))
this.tc.onlineConns.forEach(remoteYInstance => {
if (remoteYInstance !== this) {
// remote instance sends instance to this instance
const encoder = encoding.createEncoder()
syncProtocol.writeSyncStep1(encoder, remoteYInstance)
this._receive(encoding.toUint8Array(encoder), remoteYInstance)
}
})
}
}
/**
* Receive a message from another client. This message is only appended to the list of receiving messages.
* TestConnector decides when this client actually reads this message.
*
* @param {Uint8Array} message
* @param {TestYInstance} remoteClient
*/
_receive (message, remoteClient) {
let messages = this.receiving.get(remoteClient)
if (messages === undefined) {
messages = []
this.receiving.set(remoteClient, messages)
}
messages.push(message)
}
}
/**
* Keeps track of TestYInstances.
*
* The TestYInstances add/remove themselves from the list of connections maiained in this object.
* I think it makes sense. Deal with it.
*/
export class TestConnector {
/**
* @param {prng.PRNG} gen
*/
constructor (gen) {
/**
* @type {Set<TestYInstance>}
*/
this.allConns = new Set()
/**
* @type {Set<TestYInstance>}
*/
this.onlineConns = new Set()
/**
* @type {prng.PRNG}
*/
this.prng = gen
}
/**
* Create a new Y instance and add it to the list of connections
* @param {number} clientID
*/
createY (clientID) {
return new TestYInstance(this, clientID)
}
/**
* Choose random connection and flush a random message from a random sender.
*
* If this function was unable to flush a message, because there are no more messages to flush, it returns false. true otherwise.
* @return {boolean}
*/
flushRandomMessage () {
const gen = this.prng
const conns = Array.from(this.onlineConns).filter(conn => conn.receiving.size > 0)
if (conns.length > 0) {
const receiver = prng.oneOf(gen, conns)
const [sender, messages] = prng.oneOf(gen, Array.from(receiver.receiving))
const m = messages.shift()
if (messages.length === 0) {
receiver.receiving.delete(sender)
}
if (m === undefined) {
return this.flushRandomMessage()
}
const encoder = encoding.createEncoder()
// console.log('receive (' + sender.userID + '->' + receiver.userID + '):\n', syncProtocol.stringifySyncMessage(decoding.createDecoder(m), receiver))
// do not publish data created when this function is executed (could be ss2 or update message)
syncProtocol.readSyncMessage(decoding.createDecoder(m), encoder, receiver, receiver.tc)
if (encoding.length(encoder) > 0) {
// send reply message
sender._receive(encoding.toUint8Array(encoder), receiver)
}
return true
}
return false
}
/**
* @return {boolean} True iff this function actually flushed something
*/
flushAllMessages () {
let didSomething = false
while (this.flushRandomMessage()) {
didSomething = true
}
return didSomething
}
reconnectAll () {
this.allConns.forEach(conn => conn.connect())
}
disconnectAll () {
this.allConns.forEach(conn => conn.disconnect())
}
syncAll () {
this.reconnectAll()
this.flushAllMessages()
}
/**
* @return {boolean} Whether it was possible to disconnect a randon connection.
*/
disconnectRandom () {
if (this.onlineConns.size === 0) {
return false
}
prng.oneOf(this.prng, Array.from(this.onlineConns)).disconnect()
return true
}
/**
* @return {boolean} Whether it was possible to reconnect a random connection.
*/
reconnectRandom () {
/**
* @type {Array<TestYInstance>}
*/
const reconnectable = []
this.allConns.forEach(conn => {
if (!this.onlineConns.has(conn)) {
reconnectable.push(conn)
}
})
if (reconnectable.length === 0) {
return false
}
prng.oneOf(this.prng, reconnectable).connect()
return true
}
}
/**
* @template T
* @param {t.TestCase} tc
* @param {{users?:number}} conf
* @param {InitTestObjectCallback<T>} [initTestObject]
* @return {{testObjects:Array<any>,testConnector:TestConnector,users:Array<TestYInstance>,array0:Y.Array<any>,array1:Y.Array<any>,array2:Y.Array<any>,map0:Y.Map<any>,map1:Y.Map<any>,map2:Y.Map<any>,map3:Y.Map<any>,text0:Y.Text,text1:Y.Text,text2:Y.Text,xml0:Y.XmlElement,xml1:Y.XmlElement,xml2:Y.XmlElement}}
*/
export const init = (tc, { users = 5 } = {}, initTestObject) => {
/**
* @type {Object<string,any>}
*/
const result = {
users: []
}
const gen = tc.prng
const testConnector = new TestConnector(gen)
result.testConnector = testConnector
for (let i = 0; i < users; i++) {
const y = testConnector.createY(i)
y.clientID = i
result.users.push(y)
result['array' + i] = y.get('array', Y.Array)
result['map' + i] = y.get('map', Y.Map)
result['xml' + i] = y.get('xml', Y.XmlElement)
result['text' + i] = y.get('text', Y.Text)
}
testConnector.syncAll()
result.testObjects = result.users.map(initTestObject || (() => null))
return /** @type {any} */ (result)
}
/**
* 1. reconnect and flush all
* 2. user 0 gc
* 3. get type content
* 4. disconnect & reconnect all (so gc is propagated)
* 5. compare os, ds, ss
*
* @param {Array<TestYInstance>} users
*/
export const compare = users => {
users.forEach(u => u.connect())
while (users[0].tc.flushAllMessages()) {}
const userArrayValues = users.map(u => u.getArray('array').toJSON())
const userMapValues = users.map(u => u.getMap('map').toJSON())
const userXmlValues = users.map(u => u.get('xml', Y.XmlElement).toString())
const userTextValues = users.map(u => u.getText('text').toDelta())
for (const u of users) {
t.assert(u.store.pendingDeleteReaders.length === 0)
t.assert(u.store.pendingStack.length === 0)
t.assert(u.store.pendingClientsStructRefs.size === 0)
}
// Test Array iterator
t.compare(users[0].getArray('array').toArray(), Array.from(users[0].getArray('array')))
// Test Map iterator
const ymapkeys = Array.from(users[0].getMap('map').keys())
t.assert(ymapkeys.length === Object.keys(userMapValues[0]).length)
ymapkeys.forEach(key => t.assert(userMapValues[0].hasOwnProperty(key)))
/**
* @type {Object<string,any>}
*/
const mapRes = {}
for (let [k, v] of users[0].getMap('map')) {
mapRes[k] = v instanceof Y.AbstractType ? v.toJSON() : v
}
t.compare(userMapValues[0], mapRes)
// Compare all users
for (let i = 0; i < users.length - 1; i++) {
t.compare(userArrayValues[i].length, users[i].getArray('array').length)
t.compare(userArrayValues[i], userArrayValues[i + 1])
t.compare(userMapValues[i], userMapValues[i + 1])
t.compare(userXmlValues[i], userXmlValues[i + 1])
t.compare(userTextValues[i].map(/** @param {any} a */ a => typeof a.insert === 'string' ? a.insert : ' ').join('').length, users[i].getText('text').length)
t.compare(userTextValues[i], userTextValues[i + 1])
t.compare(getStateVector(users[i].store), getStateVector(users[i + 1].store))
compareDS(createDeleteSetFromStructStore(users[i].store), createDeleteSetFromStructStore(users[i + 1].store))
compareStructStores(users[i].store, users[i + 1].store)
}
users.map(u => u.destroy())
}
/**
* @param {Item?} a
* @param {Item?} b
* @return {boolean}
*/
export const compareItemIDs = (a, b) => a === b || (a !== null && b != null && Y.compareIDs(a.id, b.id))
/**
* @param {StructStore} ss1
* @param {StructStore} ss2
*/
export const compareStructStores = (ss1, ss2) => {
t.assert(ss1.clients.size === ss2.clients.size)
for (const [client, structs1] of ss1.clients) {
const structs2 = /** @type {Array<Y.AbstractStruct>} */ (ss2.clients.get(client))
t.assert(structs2 !== undefined && structs1.length === structs2.length)
for (let i = 0; i < structs1.length; i++) {
const s1 = structs1[i]
const s2 = structs2[i]
// checks for abstract struct
if (
s1.constructor !== s2.constructor ||
!Y.compareIDs(s1.id, s2.id) ||
s1.deleted !== s2.deleted ||
s1.length !== s2.length
) {
t.fail('Structs dont match')
}
if (s1 instanceof Item) {
if (
!(s2 instanceof Item) ||
!((s1.left === null && s2.left === null) || (s1.left !== null && s2.left !== null && Y.compareIDs(s1.left.lastId, s2.left.lastId))) ||
!compareItemIDs(s1.right, s2.right) ||
!Y.compareIDs(s1.origin, s2.origin) ||
!Y.compareIDs(s1.rightOrigin, s2.rightOrigin) ||
s1.parentSub !== s2.parentSub
) {
return t.fail('Items dont match')
}
// make sure that items are connected correctly
t.assert(s1.left === null || s1.left.right === s1)
t.assert(s1.right === null || s1.right.left === s1)
t.assert(s2.left === null || s2.left.right === s2)
t.assert(s2.right === null || s2.right.left === s2)
}
}
}
}
/**
* @param {DeleteSet} ds1
* @param {DeleteSet} ds2
*/
export const compareDS = (ds1, ds2) => {
t.assert(ds1.clients.size === ds2.clients.size)
for (const [client, deleteItems1] of ds1.clients) {
const deleteItems2 = /** @type {Array<DeleteItem>} */ (ds2.clients.get(client))
t.assert(deleteItems2 !== undefined && deleteItems1.length === deleteItems2.length)
for (let i = 0; i < deleteItems1.length; i++) {
const di1 = deleteItems1[i]
const di2 = deleteItems2[i]
if (di1.clock !== di2.clock || di1.len !== di2.len) {
t.fail('DeleteSets dont match')
}
}
}
}
/**
* @template T
* @callback InitTestObjectCallback
* @param {TestYInstance} y
* @return {T}
*/
/**
* @template T
* @param {t.TestCase} tc
* @param {Array<function(Y.Doc,prng.PRNG,T):void>} mods
* @param {number} iterations
* @param {InitTestObjectCallback<T>} [initTestObject]
*/
export const applyRandomTests = (tc, mods, iterations, initTestObject) => {
const gen = tc.prng
const result = init(tc, { users: 5 }, initTestObject)
const { testConnector, users } = result
for (let i = 0; i < iterations; i++) {
if (prng.int31(gen, 0, 100) <= 2) {
// 2% chance to disconnect/reconnect a random user
if (prng.bool(gen)) {
testConnector.disconnectRandom()
} else {
testConnector.reconnectRandom()
}
} else if (prng.int31(gen, 0, 100) <= 1) {
// 1% chance to flush all
testConnector.flushAllMessages()
} else if (prng.int31(gen, 0, 100) <= 50) {
// 50% chance to flush a random message
testConnector.flushRandomMessage()
}
const user = prng.int31(gen, 0, users.length - 1)
const test = prng.oneOf(gen, mods)
test(users[user], gen, result.testObjects[user])
}
compare(users)
return result
}

248
tests/undo-redo.tests.js
View File

@@ -1,248 +0,0 @@
import { init, compare, applyRandomTests, Doc } from './testHelper.js' // eslint-disable-line
import {
UndoManager
} from '../src/internals.js'
import * as Y from '../src/index.js'
import * as t from 'lib0/testing.js'
/**
* @param {t.TestCase} tc
*/
export const testUndoText = tc => {
const { testConnector, text0, text1 } = init(tc, { users: 3 })
const undoManager = new UndoManager(text0)
// items that are added & deleted in the same transaction won't be undo
text0.insert(0, 'test')
text0.delete(0, 4)
undoManager.undo()
t.assert(text0.toString() === '')
// follow redone items
text0.insert(0, 'a')
undoManager.stopCapturing()
text0.delete(0, 1)
undoManager.stopCapturing()
undoManager.undo()
t.assert(text0.toString() === 'a')
undoManager.undo()
t.assert(text0.toString() === '')
text0.insert(0, 'abc')
text1.insert(0, 'xyz')
testConnector.syncAll()
undoManager.undo()
t.assert(text0.toString() === 'xyz')
undoManager.redo()
t.assert(text0.toString() === 'abcxyz')
testConnector.syncAll()
text1.delete(0, 1)
testConnector.syncAll()
undoManager.undo()
t.assert(text0.toString() === 'xyz')
undoManager.redo()
t.assert(text0.toString() === 'bcxyz')
// test marks
text0.format(1, 3, { bold: true })
t.compare(text0.toDelta(), [{ insert: 'b' }, { insert: 'cxy', attributes: { bold: true } }, { insert: 'z' }])
undoManager.undo()
t.compare(text0.toDelta(), [{ insert: 'bcxyz' }])
undoManager.redo()
t.compare(text0.toDelta(), [{ insert: 'b' }, { insert: 'cxy', attributes: { bold: true } }, { insert: 'z' }])
}
/**
* @param {t.TestCase} tc
*/
export const testUndoMap = tc => {
const { testConnector, map0, map1 } = init(tc, { users: 2 })
map0.set('a', 0)
const undoManager = new UndoManager(map0)
map0.set('a', 1)
undoManager.undo()
t.assert(map0.get('a') === 0)
undoManager.redo()
t.assert(map0.get('a') === 1)
// testing sub-types and if it can restore a whole type
const subType = new Y.Map()
map0.set('a', subType)
subType.set('x', 42)
t.compare(map0.toJSON(), /** @type {any} */ ({ 'a': { x: 42 } }))
undoManager.undo()
t.assert(map0.get('a') === 1)
undoManager.redo()
t.compare(map0.toJSON(), /** @type {any} */ ({ 'a': { x: 42 } }))
testConnector.syncAll()
// if content is overwritten by another user, undo operations should be skipped
map1.set('a', 44)
testConnector.syncAll()
undoManager.undo()
t.assert(map0.get('a') === 44)
undoManager.redo()
t.assert(map0.get('a') === 44)
// test setting value multiple times
map0.set('b', 'initial')
undoManager.stopCapturing()
map0.set('b', 'val1')
map0.set('b', 'val2')
undoManager.stopCapturing()
undoManager.undo()
t.assert(map0.get('b') === 'initial')
}
/**
* @param {t.TestCase} tc
*/
export const testUndoArray = tc => {
const { testConnector, array0, array1 } = init(tc, { users: 3 })
const undoManager = new UndoManager(array0)
array0.insert(0, [1, 2, 3])
array1.insert(0, [4, 5, 6])
testConnector.syncAll()
t.compare(array0.toArray(), [1, 2, 3, 4, 5, 6])
undoManager.undo()
t.compare(array0.toArray(), [4, 5, 6])
undoManager.redo()
t.compare(array0.toArray(), [1, 2, 3, 4, 5, 6])
testConnector.syncAll()
array1.delete(0, 1) // user1 deletes [1]
testConnector.syncAll()
undoManager.undo()
t.compare(array0.toArray(), [4, 5, 6])
undoManager.redo()
t.compare(array0.toArray(), [2, 3, 4, 5, 6])
array0.delete(0, 5)
// test nested structure
const ymap = new Y.Map()
array0.insert(0, [ymap])
t.compare(array0.toJSON(), [{}])
undoManager.stopCapturing()
ymap.set('a', 1)
t.compare(array0.toJSON(), [{ a: 1 }])
undoManager.undo()
t.compare(array0.toJSON(), [{}])
undoManager.undo()
t.compare(array0.toJSON(), [2, 3, 4, 5, 6])
undoManager.redo()
t.compare(array0.toJSON(), [{}])
undoManager.redo()
t.compare(array0.toJSON(), [{ a: 1 }])
testConnector.syncAll()
array1.get(0).set('b', 2)
testConnector.syncAll()
t.compare(array0.toJSON(), [{ a: 1, b: 2 }])
undoManager.undo()
t.compare(array0.toJSON(), [{ b: 2 }])
undoManager.undo()
t.compare(array0.toJSON(), [2, 3, 4, 5, 6])
undoManager.redo()
t.compare(array0.toJSON(), [{ b: 2 }])
undoManager.redo()
t.compare(array0.toJSON(), [{ a: 1, b: 2 }])
}
/**
* @param {t.TestCase} tc
*/
export const testUndoXml = tc => {
const { xml0 } = init(tc, { users: 3 })
const undoManager = new UndoManager(xml0)
const child = new Y.XmlElement('p')
xml0.insert(0, [child])
const textchild = new Y.XmlText('content')
child.insert(0, [textchild])
t.assert(xml0.toString() === '<undefined><p>content</p></undefined>')
// format textchild and revert that change
undoManager.stopCapturing()
textchild.format(3, 4, { bold: {} })
t.assert(xml0.toString() === '<undefined><p>con<bold>tent</bold></p></undefined>')
undoManager.undo()
t.assert(xml0.toString() === '<undefined><p>content</p></undefined>')
undoManager.redo()
t.assert(xml0.toString() === '<undefined><p>con<bold>tent</bold></p></undefined>')
xml0.delete(0, 1)
t.assert(xml0.toString() === '<undefined></undefined>')
undoManager.undo()
t.assert(xml0.toString() === '<undefined><p>con<bold>tent</bold></p></undefined>')
}
/**
* @param {t.TestCase} tc
*/
export const testUndoEvents = tc => {
const { text0 } = init(tc, { users: 3 })
const undoManager = new UndoManager(text0)
let counter = 0
let receivedMetadata = -1
undoManager.on('stack-item-added', /** @param {any} event */ event => {
t.assert(event.type != null)
event.stackItem.meta.set('test', counter++)
})
undoManager.on('stack-item-popped', /** @param {any} event */ event => {
t.assert(event.type != null)
receivedMetadata = event.stackItem.meta.get('test')
})
text0.insert(0, 'abc')
undoManager.undo()
t.assert(receivedMetadata === 0)
undoManager.redo()
t.assert(receivedMetadata === 1)
}
/**
* @param {t.TestCase} tc
*/
export const testTrackClass = tc => {
const { users, text0 } = init(tc, { users: 3 })
// only track origins that are numbers
const undoManager = new UndoManager(text0, { trackedOrigins: new Set([Number]) })
users[0].transact(() => {
text0.insert(0, 'abc')
}, 42)
t.assert(text0.toString() === 'abc')
undoManager.undo()
t.assert(text0.toString() === '')
}
/**
* @param {t.TestCase} tc
*/
export const testTypeScope = tc => {
const { array0 } = init(tc, { users: 3 })
// only track origins that are numbers
const text0 = new Y.Text()
const text1 = new Y.Text()
array0.insert(0, [text0, text1])
const undoManager = new UndoManager(text0)
const undoManagerBoth = new UndoManager([text0, text1])
text1.insert(0, 'abc')
t.assert(undoManager.undoStack.length === 0)
t.assert(undoManagerBoth.undoStack.length === 1)
t.assert(text1.toString() === 'abc')
undoManager.undo()
t.assert(text1.toString() === 'abc')
undoManagerBoth.undo()
t.assert(text1.toString() === '')
}
/**
* @param {t.TestCase} tc
*/
export const testUndoDeleteFilter = tc => {
/**
* @type {Array<Y.Map<any>>}
*/
const array0 = /** @type {any} */ (init(tc, { users: 3 }).array0)
const undoManager = new UndoManager(array0, { deleteFilter: item => !(item instanceof Y.Item) || (item.content instanceof Y.ContentType && item.content.type._map.size === 0) })
const map0 = new Y.Map()
map0.set('hi', 1)
const map1 = new Y.Map()
array0.insert(0, [map0, map1])
undoManager.undo()
t.assert(array0.length === 1)
array0.get(0)
t.assert(Array.from(array0.get(0).keys()).length === 1)
}

494
tests/y-array.tests.js
View File

@@ -1,494 +0,0 @@
import { init, compare, applyRandomTests, Doc } from './testHelper.js' // eslint-disable-line
import * as Y from '../src/index.js'
import * as t from 'lib0/testing.js'
import * as prng from 'lib0/prng.js'
import * as math from 'lib0/math.js'
/**
* @param {t.TestCase} tc
*/
export const testDeleteInsert = tc => {
const { users, array0 } = init(tc, { users: 2 })
array0.delete(0, 0)
t.describe('Does not throw when deleting zero elements with position 0')
t.fails(() => {
array0.delete(1, 1)
})
array0.insert(0, ['A'])
array0.delete(1, 0)
t.describe('Does not throw when deleting zero elements with valid position 1')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testInsertThreeElementsTryRegetProperty = tc => {
const { testConnector, users, array0, array1 } = init(tc, { users: 2 })
array0.insert(0, [1, true, false])
t.compare(array0.toJSON(), [1, true, false], '.toJSON() works')
testConnector.flushAllMessages()
t.compare(array1.toJSON(), [1, true, false], '.toJSON() works after sync')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testConcurrentInsertWithThreeConflicts = tc => {
var { users, array0, array1, array2 } = init(tc, { users: 3 })
array0.insert(0, [0])
array1.insert(0, [1])
array2.insert(0, [2])
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testConcurrentInsertDeleteWithThreeConflicts = tc => {
const { testConnector, users, array0, array1, array2 } = init(tc, { users: 3 })
array0.insert(0, ['x', 'y', 'z'])
testConnector.flushAllMessages()
array0.insert(1, [0])
array1.delete(0)
array1.delete(1, 1)
array2.insert(1, [2])
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testInsertionsInLateSync = tc => {
const { testConnector, users, array0, array1, array2 } = init(tc, { users: 3 })
array0.insert(0, ['x', 'y'])
testConnector.flushAllMessages()
users[1].disconnect()
users[2].disconnect()
array0.insert(1, ['user0'])
array1.insert(1, ['user1'])
array2.insert(1, ['user2'])
users[1].connect()
users[2].connect()
testConnector.flushAllMessages()
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testDisconnectReallyPreventsSendingMessages = tc => {
var { testConnector, users, array0, array1 } = init(tc, { users: 3 })
array0.insert(0, ['x', 'y'])
testConnector.flushAllMessages()
users[1].disconnect()
users[2].disconnect()
array0.insert(1, ['user0'])
array1.insert(1, ['user1'])
t.compare(array0.toJSON(), ['x', 'user0', 'y'])
t.compare(array1.toJSON(), ['x', 'user1', 'y'])
users[1].connect()
users[2].connect()
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testDeletionsInLateSync = tc => {
const { testConnector, users, array0, array1 } = init(tc, { users: 2 })
array0.insert(0, ['x', 'y'])
testConnector.flushAllMessages()
users[1].disconnect()
array1.delete(1, 1)
array0.delete(0, 2)
users[1].connect()
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testInsertThenMergeDeleteOnSync = tc => {
const { testConnector, users, array0, array1 } = init(tc, { users: 2 })
array0.insert(0, ['x', 'y', 'z'])
testConnector.flushAllMessages()
users[0].disconnect()
array1.delete(0, 3)
users[0].connect()
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testInsertAndDeleteEvents = tc => {
const { array0, users } = init(tc, { users: 2 })
/**
* @type {Object<string,any>?}
*/
let event = null
array0.observe(e => {
event = e
})
array0.insert(0, [0, 1, 2])
t.assert(event !== null)
event = null
array0.delete(0)
t.assert(event !== null)
event = null
array0.delete(0, 2)
t.assert(event !== null)
event = null
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testNestedObserverEvents = tc => {
const { array0, users } = init(tc, { users: 2 })
/**
* @type {Array<number>}
*/
const vals = []
array0.observe(e => {
if (array0.length === 1) {
// inserting, will call this observer again
// we expect that this observer is called after this event handler finishedn
array0.insert(1, [1])
vals.push(0)
} else {
// this should be called the second time an element is inserted (above case)
vals.push(1)
}
})
array0.insert(0, [0])
t.compareArrays(vals, [0, 1])
t.compareArrays(array0.toArray(), [0, 1])
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testInsertAndDeleteEventsForTypes = tc => {
const { array0, users } = init(tc, { users: 2 })
/**
* @type {Object<string,any>|null}
*/
let event = null
array0.observe(e => {
event = e
})
array0.insert(0, [new Y.Array()])
t.assert(event !== null)
event = null
array0.delete(0)
t.assert(event !== null)
event = null
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testChangeEvent = tc => {
const { array0, users } = init(tc, { users: 2 })
/**
* @type {any}
*/
let changes = null
array0.observe(e => {
changes = e.changes
})
const newArr = new Y.Array()
array0.insert(0, [newArr, 4, 'dtrn'])
t.assert(changes !== null && changes.added.size === 2 && changes.deleted.size === 0)
t.compare(changes.delta, [{ insert: [newArr, 4, 'dtrn'] }])
changes = null
array0.delete(0, 2)
t.assert(changes !== null && changes.added.size === 0 && changes.deleted.size === 2)
t.compare(changes.delta, [{ delete: 2 }])
changes = null
array0.insert(1, [0.1])
t.assert(changes !== null && changes.added.size === 1 && changes.deleted.size === 0)
t.compare(changes.delta, [{ retain: 1 }, { insert: [0.1] }])
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testInsertAndDeleteEventsForTypes2 = tc => {
const { array0, users } = init(tc, { users: 2 })
/**
* @type {Array<Object<string,any>>}
*/
let events = []
array0.observe(e => {
events.push(e)
})
array0.insert(0, ['hi', new Y.Map()])
t.assert(events.length === 1, 'Event is triggered exactly once for insertion of two elements')
array0.delete(1)
t.assert(events.length === 2, 'Event is triggered exactly once for deletion')
compare(users)
}
/**
* This issue has been reported here https://github.com/yjs/yjs/issues/155
* @param {t.TestCase} tc
*/
export const testNewChildDoesNotEmitEventInTransaction = tc => {
const { array0, users } = init(tc, { users: 2 })
let fired = false
users[0].transact(() => {
const newMap = new Y.Map()
newMap.observe(() => {
fired = true
})
array0.insert(0, [newMap])
newMap.set('tst', 42)
})
t.assert(!fired, 'Event does not trigger')
}
/**
* @param {t.TestCase} tc
*/
export const testGarbageCollector = tc => {
const { testConnector, users, array0 } = init(tc, { users: 3 })
array0.insert(0, ['x', 'y', 'z'])
testConnector.flushAllMessages()
users[0].disconnect()
array0.delete(0, 3)
users[0].connect()
testConnector.flushAllMessages()
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testEventTargetIsSetCorrectlyOnLocal = tc => {
const { array0, users } = init(tc, { users: 3 })
/**
* @type {any}
*/
let event
array0.observe(e => {
event = e
})
array0.insert(0, ['stuff'])
t.assert(event.target === array0, '"target" property is set correctly')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testEventTargetIsSetCorrectlyOnRemote = tc => {
const { testConnector, array0, array1, users } = init(tc, { users: 3 })
/**
* @type {any}
*/
let event
array0.observe(e => {
event = e
})
array1.insert(0, ['stuff'])
testConnector.flushAllMessages()
t.assert(event.target === array0, '"target" property is set correctly')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testIteratingArrayContainingTypes = tc => {
const y = new Y.Doc()
const arr = y.getArray('arr')
const numItems = 10
for (let i = 0; i < numItems; i++) {
const map = new Y.Map()
map.set('value', i)
arr.push([map])
}
let cnt = 0
for (let item of arr) {
t.assert(item.get('value') === cnt++, 'value is correct')
}
y.destroy()
}
let _uniqueNumber = 0
const getUniqueNumber = () => _uniqueNumber++
/**
* @type {Array<function(Doc,prng.PRNG,any):void>}
*/
const arrayTransactions = [
function insert (user, gen) {
const yarray = user.getArray('array')
var uniqueNumber = getUniqueNumber()
var content = []
var len = prng.int31(gen, 1, 4)
for (var i = 0; i < len; i++) {
content.push(uniqueNumber)
}
var pos = prng.int31(gen, 0, yarray.length)
yarray.insert(pos, content)
},
function insertTypeArray (user, gen) {
const yarray = user.getArray('array')
var pos = prng.int31(gen, 0, yarray.length)
yarray.insert(pos, [new Y.Array()])
var array2 = yarray.get(pos)
array2.insert(0, [1, 2, 3, 4])
},
function insertTypeMap (user, gen) {
const yarray = user.getArray('array')
var pos = prng.int31(gen, 0, yarray.length)
yarray.insert(pos, [new Y.Map()])
var map = yarray.get(pos)
map.set('someprop', 42)
map.set('someprop', 43)
map.set('someprop', 44)
},
function _delete (user, gen) {
const yarray = user.getArray('array')
var length = yarray.length
if (length > 0) {
var somePos = prng.int31(gen, 0, length - 1)
var delLength = prng.int31(gen, 1, math.min(2, length - somePos))
if (prng.bool(gen)) {
var type = yarray.get(somePos)
if (type.length > 0) {
somePos = prng.int31(gen, 0, type.length - 1)
delLength = prng.int31(gen, 0, math.min(2, type.length - somePos))
type.delete(somePos, delLength)
}
} else {
yarray.delete(somePos, delLength)
}
}
}
]
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests4 = tc => {
applyRandomTests(tc, arrayTransactions, 4)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests40 = tc => {
applyRandomTests(tc, arrayTransactions, 40)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests42 = tc => {
applyRandomTests(tc, arrayTransactions, 42)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests43 = tc => {
applyRandomTests(tc, arrayTransactions, 43)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests44 = tc => {
applyRandomTests(tc, arrayTransactions, 44)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests45 = tc => {
applyRandomTests(tc, arrayTransactions, 45)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests46 = tc => {
applyRandomTests(tc, arrayTransactions, 46)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests300 = tc => {
applyRandomTests(tc, arrayTransactions, 300)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests400 = tc => {
applyRandomTests(tc, arrayTransactions, 400)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests500 = tc => {
applyRandomTests(tc, arrayTransactions, 500)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests600 = tc => {
applyRandomTests(tc, arrayTransactions, 600)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests1000 = tc => {
applyRandomTests(tc, arrayTransactions, 1000)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests1800 = tc => {
applyRandomTests(tc, arrayTransactions, 1800)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests3000 = tc => {
t.skip(!t.production)
applyRandomTests(tc, arrayTransactions, 3000)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests5000 = tc => {
t.skip(!t.production)
applyRandomTests(tc, arrayTransactions, 5000)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYarrayTests30000 = tc => {
t.skip(!t.production)
applyRandomTests(tc, arrayTransactions, 30000)
}

566
tests/y-map.tests.js
View File

@@ -1,566 +0,0 @@
import { init, compare, applyRandomTests, Doc } from './testHelper.js' // eslint-disable-line
import {
compareIDs
} from '../src/internals.js'
import * as Y from '../src/index.js'
import * as t from 'lib0/testing.js'
import * as prng from 'lib0/prng.js'
/**
* @param {t.TestCase} tc
*/
export const testBasicMapTests = tc => {
const { testConnector, users, map0, map1, map2 } = init(tc, { users: 3 })
users[2].disconnect()
map0.set('number', 1)
map0.set('string', 'hello Y')
map0.set('object', { key: { key2: 'value' } })
map0.set('y-map', new Y.Map())
map0.set('boolean1', true)
map0.set('boolean0', false)
const map = map0.get('y-map')
map.set('y-array', new Y.Array())
const array = map.get('y-array')
array.insert(0, [0])
array.insert(0, [-1])
t.assert(map0.get('number') === 1, 'client 0 computed the change (number)')
t.assert(map0.get('string') === 'hello Y', 'client 0 computed the change (string)')
t.assert(map0.get('boolean0') === false, 'client 0 computed the change (boolean)')
t.assert(map0.get('boolean1') === true, 'client 0 computed the change (boolean)')
t.compare(map0.get('object'), { key: { key2: 'value' } }, 'client 0 computed the change (object)')
t.assert(map0.get('y-map').get('y-array').get(0) === -1, 'client 0 computed the change (type)')
users[2].connect()
testConnector.flushAllMessages()
t.assert(map1.get('number') === 1, 'client 1 received the update (number)')
t.assert(map1.get('string') === 'hello Y', 'client 1 received the update (string)')
t.assert(map1.get('boolean0') === false, 'client 1 computed the change (boolean)')
t.assert(map1.get('boolean1') === true, 'client 1 computed the change (boolean)')
t.compare(map1.get('object'), { key: { key2: 'value' } }, 'client 1 received the update (object)')
t.assert(map1.get('y-map').get('y-array').get(0) === -1, 'client 1 received the update (type)')
// compare disconnected user
t.assert(map2.get('number') === 1, 'client 2 received the update (number) - was disconnected')
t.assert(map2.get('string') === 'hello Y', 'client 2 received the update (string) - was disconnected')
t.assert(map2.get('boolean0') === false, 'client 2 computed the change (boolean)')
t.assert(map2.get('boolean1') === true, 'client 2 computed the change (boolean)')
t.compare(map2.get('object'), { key: { key2: 'value' } }, 'client 2 received the update (object) - was disconnected')
t.assert(map2.get('y-map').get('y-array').get(0) === -1, 'client 2 received the update (type) - was disconnected')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetAndSetOfMapProperty = tc => {
const { testConnector, users, map0 } = init(tc, { users: 2 })
map0.set('stuff', 'stuffy')
map0.set('undefined', undefined)
map0.set('null', null)
t.compare(map0.get('stuff'), 'stuffy')
testConnector.flushAllMessages()
for (let user of users) {
const u = user.getMap('map')
t.compare(u.get('stuff'), 'stuffy')
t.assert(u.get('undefined') === undefined, 'undefined')
t.compare(u.get('null'), null, 'null')
}
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testYmapSetsYmap = tc => {
const { users, map0 } = init(tc, { users: 2 })
const map = map0.set('Map', new Y.Map())
t.assert(map0.get('Map') === map)
map.set('one', 1)
t.compare(map.get('one'), 1)
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testYmapSetsYarray = tc => {
const { users, map0 } = init(tc, { users: 2 })
const array = map0.set('Array', new Y.Array())
t.assert(array === map0.get('Array'))
array.insert(0, [1, 2, 3])
// @ts-ignore
t.compare(map0.toJSON(), { Array: [1, 2, 3] })
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetAndSetOfMapPropertySyncs = tc => {
const { testConnector, users, map0 } = init(tc, { users: 2 })
map0.set('stuff', 'stuffy')
t.compare(map0.get('stuff'), 'stuffy')
testConnector.flushAllMessages()
for (let user of users) {
var u = user.getMap('map')
t.compare(u.get('stuff'), 'stuffy')
}
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetAndSetOfMapPropertyWithConflict = tc => {
const { testConnector, users, map0, map1 } = init(tc, { users: 3 })
map0.set('stuff', 'c0')
map1.set('stuff', 'c1')
testConnector.flushAllMessages()
for (let user of users) {
var u = user.getMap('map')
t.compare(u.get('stuff'), 'c1')
}
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetAndSetAndDeleteOfMapProperty = tc => {
const { testConnector, users, map0, map1 } = init(tc, { users: 3 })
map0.set('stuff', 'c0')
map1.set('stuff', 'c1')
map1.delete('stuff')
testConnector.flushAllMessages()
for (let user of users) {
var u = user.getMap('map')
t.assert(u.get('stuff') === undefined)
}
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetAndSetOfMapPropertyWithThreeConflicts = tc => {
const { testConnector, users, map0, map1, map2 } = init(tc, { users: 3 })
map0.set('stuff', 'c0')
map1.set('stuff', 'c1')
map1.set('stuff', 'c2')
map2.set('stuff', 'c3')
testConnector.flushAllMessages()
for (let user of users) {
var u = user.getMap('map')
t.compare(u.get('stuff'), 'c3')
}
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetAndSetAndDeleteOfMapPropertyWithThreeConflicts = tc => {
const { testConnector, users, map0, map1, map2, map3 } = init(tc, { users: 4 })
map0.set('stuff', 'c0')
map1.set('stuff', 'c1')
map1.set('stuff', 'c2')
map2.set('stuff', 'c3')
testConnector.flushAllMessages()
map0.set('stuff', 'deleteme')
map1.set('stuff', 'c1')
map2.set('stuff', 'c2')
map3.set('stuff', 'c3')
map3.delete('stuff')
testConnector.flushAllMessages()
for (let user of users) {
var u = user.getMap('map')
t.assert(u.get('stuff') === undefined)
}
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testObserveDeepProperties = tc => {
const { testConnector, users, map1, map2, map3 } = init(tc, { users: 4 })
const _map1 = map1.set('map', new Y.Map())
let calls = 0
let dmapid
map1.observeDeep(events => {
events.forEach(event => {
calls++
// @ts-ignore
t.assert(event.keysChanged.has('deepmap'))
t.assert(event.path.length === 1)
t.assert(event.path[0] === 'map')
// @ts-ignore
dmapid = event.target.get('deepmap')._item.id
})
})
testConnector.flushAllMessages()
const _map3 = map3.get('map')
_map3.set('deepmap', new Y.Map())
testConnector.flushAllMessages()
const _map2 = map2.get('map')
_map2.set('deepmap', new Y.Map())
testConnector.flushAllMessages()
const dmap1 = _map1.get('deepmap')
const dmap2 = _map2.get('deepmap')
const dmap3 = _map3.get('deepmap')
t.assert(calls > 0)
t.assert(compareIDs(dmap1._item.id, dmap2._item.id))
t.assert(compareIDs(dmap1._item.id, dmap3._item.id))
// @ts-ignore we want the possibility of dmapid being undefined
t.assert(compareIDs(dmap1._item.id, dmapid))
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testObserversUsingObservedeep = tc => {
const { users, map0 } = init(tc, { users: 2 })
/**
* @type {Array<Array<string|number>>}
*/
const pathes = []
let calls = 0
map0.observeDeep(events => {
events.forEach(event => {
pathes.push(event.path)
})
calls++
})
map0.set('map', new Y.Map())
map0.get('map').set('array', new Y.Array())
map0.get('map').get('array').insert(0, ['content'])
t.assert(calls === 3)
t.compare(pathes, [[], ['map'], ['map', 'array']])
compare(users)
}
// TODO: Test events in Y.Map
/**
* @param {Object<string,any>} is
* @param {Object<string,any>} should
*/
const compareEvent = (is, should) => {
for (var key in should) {
t.compare(should[key], is[key])
}
}
/**
* @param {t.TestCase} tc
*/
export const testThrowsAddAndUpdateAndDeleteEvents = tc => {
const { users, map0 } = init(tc, { users: 2 })
/**
* @type {Object<string,any>}
*/
let event = {}
map0.observe(e => {
event = e // just put it on event, should be thrown synchronously anyway
})
map0.set('stuff', 4)
compareEvent(event, {
target: map0,
keysChanged: new Set(['stuff'])
})
// update, oldValue is in contents
map0.set('stuff', new Y.Array())
compareEvent(event, {
target: map0,
keysChanged: new Set(['stuff'])
})
// update, oldValue is in opContents
map0.set('stuff', 5)
// delete
map0.delete('stuff')
compareEvent(event, {
keysChanged: new Set(['stuff']),
target: map0
})
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testChangeEvent = tc => {
const { map0, users } = init(tc, { users: 2 })
/**
* @type {any}
*/
let changes = null
/**
* @type {any}
*/
let keyChange = null
map0.observe(e => {
changes = e.changes
})
map0.set('a', 1)
keyChange = changes.keys.get('a')
t.assert(changes !== null && keyChange.action === 'add' && keyChange.oldValue === undefined)
map0.set('a', 2)
keyChange = changes.keys.get('a')
t.assert(changes !== null && keyChange.action === 'update' && keyChange.oldValue === 1)
users[0].transact(() => {
map0.set('a', 3)
map0.set('a', 4)
})
keyChange = changes.keys.get('a')
t.assert(changes !== null && keyChange.action === 'update' && keyChange.oldValue === 2)
users[0].transact(() => {
map0.set('b', 1)
map0.set('b', 2)
})
keyChange = changes.keys.get('b')
t.assert(changes !== null && keyChange.action === 'add' && keyChange.oldValue === undefined)
users[0].transact(() => {
map0.set('c', 1)
map0.delete('c')
})
t.assert(changes !== null && changes.keys.size === 0)
users[0].transact(() => {
map0.set('d', 1)
map0.set('d', 2)
})
keyChange = changes.keys.get('d')
t.assert(changes !== null && keyChange.action === 'add' && keyChange.oldValue === undefined)
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testYmapEventExceptionsShouldCompleteTransaction = tc => {
const doc = new Y.Doc()
const map = doc.getMap('map')
let updateCalled = false
let throwingObserverCalled = false
let throwingDeepObserverCalled = false
doc.on('update', () => {
updateCalled = true
})
const throwingObserver = () => {
throwingObserverCalled = true
throw new Error('Failure')
}
const throwingDeepObserver = () => {
throwingDeepObserverCalled = true
throw new Error('Failure')
}
map.observe(throwingObserver)
map.observeDeep(throwingDeepObserver)
t.fails(() => {
map.set('y', '2')
})
t.assert(updateCalled)
t.assert(throwingObserverCalled)
t.assert(throwingDeepObserverCalled)
// check if it works again
updateCalled = false
throwingObserverCalled = false
throwingDeepObserverCalled = false
t.fails(() => {
map.set('z', '3')
})
t.assert(updateCalled)
t.assert(throwingObserverCalled)
t.assert(throwingDeepObserverCalled)
t.assert(map.get('z') === '3')
}
/**
* @param {t.TestCase} tc
*/
export const testYmapEventHasCorrectValueWhenSettingAPrimitive = tc => {
const { users, map0 } = init(tc, { users: 3 })
/**
* @type {Object<string,any>}
*/
let event = {}
map0.observe(e => {
event = e
})
map0.set('stuff', 2)
t.compare(event.value, event.target.get(event.name))
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testYmapEventHasCorrectValueWhenSettingAPrimitiveFromOtherUser = tc => {
const { users, map0, map1, testConnector } = init(tc, { users: 3 })
/**
* @type {Object<string,any>}
*/
let event = {}
map0.observe(e => {
event = e
})
map1.set('stuff', 2)
testConnector.flushAllMessages()
t.compare(event.value, event.target.get(event.name))
compare(users)
}
/**
* @type {Array<function(Doc,prng.PRNG):void>}
*/
const mapTransactions = [
function set (user, gen) {
let key = prng.oneOf(gen, ['one', 'two'])
var value = prng.utf16String(gen)
user.getMap('map').set(key, value)
},
function setType (user, gen) {
let key = prng.oneOf(gen, ['one', 'two'])
var type = prng.oneOf(gen, [new Y.Array(), new Y.Map()])
user.getMap('map').set(key, type)
if (type instanceof Y.Array) {
type.insert(0, [1, 2, 3, 4])
} else {
type.set('deepkey', 'deepvalue')
}
},
function _delete (user, gen) {
let key = prng.oneOf(gen, ['one', 'two'])
user.getMap('map').delete(key)
}
]
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests10 = tc => {
applyRandomTests(tc, mapTransactions, 10)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests40 = tc => {
applyRandomTests(tc, mapTransactions, 40)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests42 = tc => {
applyRandomTests(tc, mapTransactions, 42)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests43 = tc => {
applyRandomTests(tc, mapTransactions, 43)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests44 = tc => {
applyRandomTests(tc, mapTransactions, 44)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests45 = tc => {
applyRandomTests(tc, mapTransactions, 45)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests46 = tc => {
applyRandomTests(tc, mapTransactions, 46)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests300 = tc => {
applyRandomTests(tc, mapTransactions, 300)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests400 = tc => {
applyRandomTests(tc, mapTransactions, 400)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests500 = tc => {
applyRandomTests(tc, mapTransactions, 500)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests600 = tc => {
applyRandomTests(tc, mapTransactions, 600)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests1000 = tc => {
applyRandomTests(tc, mapTransactions, 1000)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests1800 = tc => {
applyRandomTests(tc, mapTransactions, 1800)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests5000 = tc => {
t.skip(!t.production)
applyRandomTests(tc, mapTransactions, 5000)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests10000 = tc => {
t.skip(!t.production)
applyRandomTests(tc, mapTransactions, 10000)
}
/**
* @param {t.TestCase} tc
*/
export const testRepeatGeneratingYmapTests100000 = tc => {
t.skip(!t.production)
applyRandomTests(tc, mapTransactions, 100000)
}

151
tests/y-text.tests.js
View File

@@ -1,151 +0,0 @@
import * as Y from './testHelper.js'
import * as t from 'lib0/testing.js'
const { init, compare } = Y
/**
* @param {t.TestCase} tc
*/
export const testBasicInsertAndDelete = tc => {
const { users, text0 } = init(tc, { users: 2 })
let delta
text0.observe(event => {
delta = event.delta
})
text0.delete(0, 0)
t.assert(true, 'Does not throw when deleting zero elements with position 0')
text0.insert(0, 'abc')
t.assert(text0.toString() === 'abc', 'Basic insert works')
t.compare(delta, [{ insert: 'abc' }])
text0.delete(0, 1)
t.assert(text0.toString() === 'bc', 'Basic delete works (position 0)')
t.compare(delta, [{ delete: 1 }])
text0.delete(1, 1)
t.assert(text0.toString() === 'b', 'Basic delete works (position 1)')
t.compare(delta, [{ retain: 1 }, { delete: 1 }])
users[0].transact(() => {
text0.insert(0, '1')
text0.delete(0, 1)
})
t.compare(delta, [])
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testBasicFormat = tc => {
const { users, text0 } = init(tc, { users: 2 })
let delta
text0.observe(event => {
delta = event.delta
})
text0.insert(0, 'abc', { bold: true })
t.assert(text0.toString() === 'abc', 'Basic insert with attributes works')
t.compare(text0.toDelta(), [{ insert: 'abc', attributes: { bold: true } }])
t.compare(delta, [{ insert: 'abc', attributes: { bold: true } }])
text0.delete(0, 1)
t.assert(text0.toString() === 'bc', 'Basic delete on formatted works (position 0)')
t.compare(text0.toDelta(), [{ insert: 'bc', attributes: { bold: true } }])
t.compare(delta, [{ delete: 1 }])
text0.delete(1, 1)
t.assert(text0.toString() === 'b', 'Basic delete works (position 1)')
t.compare(text0.toDelta(), [{ insert: 'b', attributes: { bold: true } }])
t.compare(delta, [{ retain: 1 }, { delete: 1 }])
text0.insert(0, 'z', { bold: true })
t.assert(text0.toString() === 'zb')
t.compare(text0.toDelta(), [{ insert: 'zb', attributes: { bold: true } }])
t.compare(delta, [{ insert: 'z', attributes: { bold: true } }])
// @ts-ignore
t.assert(text0._start.right.right.right.content.str === 'b', 'Does not insert duplicate attribute marker')
text0.insert(0, 'y')
t.assert(text0.toString() === 'yzb')
t.compare(text0.toDelta(), [{ insert: 'y' }, { insert: 'zb', attributes: { bold: true } }])
t.compare(delta, [{ insert: 'y' }])
text0.format(0, 2, { bold: null })
t.assert(text0.toString() === 'yzb')
t.compare(text0.toDelta(), [{ insert: 'yz' }, { insert: 'b', attributes: { bold: true } }])
t.compare(delta, [{ retain: 1 }, { retain: 1, attributes: { bold: null } }])
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testGetDeltaWithEmbeds = tc => {
const { text0 } = init(tc, { users: 1 })
text0.applyDelta([{
insert: { linebreak: 's' }
}])
t.compare(text0.toDelta(), [{
insert: { linebreak: 's' }
}])
}
/**
* @param {t.TestCase} tc
*/
export const testSnapshot = tc => {
const { text0 } = init(tc, { users: 1 })
const doc0 = /** @type {Y.Doc} */ (text0.doc)
doc0.gc = false
text0.applyDelta([{
insert: 'abcd'
}])
const snapshot1 = Y.snapshot(doc0)
text0.applyDelta([{
retain: 1
}, {
insert: 'x'
}, {
delete: 1
}])
const snapshot2 = Y.snapshot(doc0)
text0.applyDelta([{
retain: 2
}, {
delete: 3
}, {
insert: 'x'
}, {
delete: 1
}])
const state1 = text0.toDelta(snapshot1)
t.compare(state1, [{ insert: 'abcd' }])
const state2 = text0.toDelta(snapshot2)
t.compare(state2, [{ insert: 'axcd' }])
const state2Diff = text0.toDelta(snapshot2, snapshot1)
// @ts-ignore Remove userid info
state2Diff.forEach(v => {
if (v.attributes && v.attributes.ychange) {
delete v.attributes.ychange.user
}
})
t.compare(state2Diff, [{ insert: 'a' }, { insert: 'x', attributes: { ychange: { type: 'added' } } }, { insert: 'b', attributes: { ychange: { type: 'removed' } } }, { insert: 'cd' }])
}
/**
* @param {t.TestCase} tc
*/
export const testSnapshotDeleteAfter = tc => {
const { text0 } = init(tc, { users: 1 })
const doc0 = /** @type {Y.Doc} */ (text0.doc)
doc0.gc = false
text0.applyDelta([{
insert: 'abcd'
}])
const snapshot1 = Y.snapshot(doc0)
text0.applyDelta([{
retain: 4
}, {
insert: 'e'
}])
const state1 = text0.toDelta(snapshot1)
t.compare(state1, [{ insert: 'abcd' }])
}

75
tests/y-xml.tests.js
View File

@@ -1,75 +0,0 @@
import { init, compare } from './testHelper.js'
import * as Y from '../src/index.js'
import * as t from 'lib0/testing.js'
/**
* @param {t.TestCase} tc
*/
export const testSetProperty = tc => {
const { testConnector, users, xml0, xml1 } = init(tc, { users: 2 })
xml0.setAttribute('height', '10')
t.assert(xml0.getAttribute('height') === '10', 'Simple set+get works')
testConnector.flushAllMessages()
t.assert(xml1.getAttribute('height') === '10', 'Simple set+get works (remote)')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testEvents = tc => {
const { testConnector, users, xml0, xml1 } = init(tc, { users: 2 })
/**
* @type {any}
*/
let event
/**
* @type {any}
*/
let remoteEvent
xml0.observe(e => {
event = e
})
xml1.observe(e => {
remoteEvent = e
})
xml0.setAttribute('key', 'value')
t.assert(event.attributesChanged.has('key'), 'YXmlEvent.attributesChanged on updated key')
testConnector.flushAllMessages()
t.assert(remoteEvent.attributesChanged.has('key'), 'YXmlEvent.attributesChanged on updated key (remote)')
// check attributeRemoved
xml0.removeAttribute('key')
t.assert(event.attributesChanged.has('key'), 'YXmlEvent.attributesChanged on removed attribute')
testConnector.flushAllMessages()
t.assert(remoteEvent.attributesChanged.has('key'), 'YXmlEvent.attributesChanged on removed attribute (remote)')
xml0.insert(0, [new Y.XmlText('some text')])
t.assert(event.childListChanged, 'YXmlEvent.childListChanged on inserted element')
testConnector.flushAllMessages()
t.assert(remoteEvent.childListChanged, 'YXmlEvent.childListChanged on inserted element (remote)')
// test childRemoved
xml0.delete(0)
t.assert(event.childListChanged, 'YXmlEvent.childListChanged on deleted element')
testConnector.flushAllMessages()
t.assert(remoteEvent.childListChanged, 'YXmlEvent.childListChanged on deleted element (remote)')
compare(users)
}
/**
* @param {t.TestCase} tc
*/
export const testTreewalker = tc => {
const { users, xml0 } = init(tc, { users: 3 })
let paragraph1 = new Y.XmlElement('p')
let paragraph2 = new Y.XmlElement('p')
let text1 = new Y.XmlText('init')
let text2 = new Y.XmlText('text')
paragraph1.insert(0, [text1, text2])
xml0.insert(0, [paragraph1, paragraph2, new Y.XmlElement('img')])
let allParagraphs = xml0.querySelectorAll('p')
t.assert(allParagraphs.length === 2, 'found exactly two paragraphs')
t.assert(allParagraphs[0] === paragraph1, 'querySelectorAll found paragraph1')
t.assert(allParagraphs[1] === paragraph2, 'querySelectorAll found paragraph2')
t.assert(xml0.querySelector('p') === paragraph1, 'querySelector found paragraph1')
compare(users)
}

67
tsconfig.json
View File

@@ -1,67 +0,0 @@
{
"compilerOptions": {
/* Basic Options */
"target": "es2018",
"lib": ["es2018", "dom"], /* Specify library files to be included in the compilation. */
"allowJs": true, /* Allow javascript files to be compiled. */
"checkJs": true, /* Report errors in .js files. */
// "jsx": "preserve", /* Specify JSX code generation: 'preserve', 'react-native', or 'react'. */
// "declaration": true, /* Generates corresponding '.d.ts' file. */
// "declarationMap": true, /* Generates a sourcemap for each corresponding '.d.ts' file. */
// "sourceMap": true, /* Generates corresponding '.map' file. */
// "outFile": "./", /* Concatenate and emit output to single file. */
// "outDir": "./build", /* Redirect output structure to the directory. */
// "rootDir": "./", /* Specify the root directory of input files. Use to control the output directory structure with --outDir. */
// "composite": true, /* Enable project compilation */
// "removeComments": true, /* Do not emit comments to output. */
"noEmit": true, /* Do not emit outputs. */
// "importHelpers": true, /* Import emit helpers from 'tslib'. */
// "downlevelIteration": true, /* Provide full support for iterables in 'for-of', spread, and destructuring when targeting 'ES5' or 'ES3'. */
// "isolatedModules": true, /* Transpile each file as a separate module (similar to 'ts.transpileModule'). */
/* Strict Type-Checking Options */
"strict": true, /* Enable all strict type-checking options. */
"noImplicitAny": true, /* Raise error on expressions and declarations with an implied 'any' type. */
// "strictNullChecks": true, /* Enable strict null checks. */
// "strictFunctionTypes": true, /* Enable strict checking of function types. */
// "strictPropertyInitialization": true, /* Enable strict checking of property initialization in classes. */
// "noImplicitThis": true, /* Raise error on 'this' expressions with an implied 'any' type. */
// "alwaysStrict": true, /* Parse in strict mode and emit "use strict" for each source file. */
/* Additional Checks */
// "noUnusedLocals": true, /* Report errors on unused locals. */
// "noUnusedParameters": true, /* Report errors on unused parameters. */
// "noImplicitReturns": true, /* Report error when not all code paths in function return a value. */
// "noFallthroughCasesInSwitch": true, /* Report errors for fallthrough cases in switch statement. */
/* Module Resolution Options */
"moduleResolution": "node", /* Specify module resolution strategy: 'node' (Node.js) or 'classic' (TypeScript pre-1.6). */
"baseUrl": "./", /* Base directory to resolve non-absolute module names. */
"paths": {
"yjs": ["./src/index.js"],
"lib0/*": ["node_modules/lib0/*"],
"lib0/set.js": ["node_modules/lib0/set.js"],
"lib0/function.js": ["node_modules/lib0/function.js"]
}, /* A series of entries which re-map imports to lookup locations relative to the 'baseUrl'. */
// "rootDirs": [], /* List of root folders whose combined content represents the structure of the project at runtime. */
// "typeRoots": [], /* List of folders to include type definitions from. */
// "types": [], /* Type declaration files to be included in compilation. */
// "allowSyntheticDefaultImports": true, /* Allow default imports from modules with no default export. This does not affect code emit, just typechecking. */
"esModuleInterop": true, /* Enables emit interoperability between CommonJS and ES Modules via creation of namespace objects for all imports. Implies 'allowSyntheticDefaultImports'. */
// "preserveSymlinks": true, /* Do not resolve the real path of symlinks. */
/* Source Map Options */
// "sourceRoot": "", /* Specify the location where debugger should locate TypeScript files instead of source locations. */
// "mapRoot": "", /* Specify the location where debugger should locate map files instead of generated locations. */
// "inlineSourceMap": true, /* Emit a single file with source maps instead of having a separate file. */
// "inlineSources": true, /* Emit the source alongside the sourcemaps within a single file; requires '--inlineSourceMap' or '--sourceMap' to be set. */
/* Experimental Options */
// "experimentalDecorators": true, /* Enables experimental support for ES7 decorators. */
// "emitDecoratorMetadata": true, /* Enables experimental support for emitting type metadata for decorators. */
"maxNodeModuleJsDepth": 5,
// "types": ["./src/utils/typedefs.js"]
},
"include": ["./src/**/*", "./tests/**/*"],
"exclude": ["../lib0/**/*", "node_modules/**/*", "dist", "dist/**/*.js"]
}

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<polymer-element name="y-object" hidden attributes="val connector y">
</polymer-element>
<polymer-element name="y-property" hidden attributes="val name y">
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<script src="./y-object.js"></script>

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