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merge into: crovaxon/foundryvtt-drag-ruler:pathfinding
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crovaxon/foundryvtt-drag-ruler:develop crovaxon/foundryvtt-drag-ruler:master crovaxon/foundryvtt-drag-ruler:media crovaxon/foundryvtt-drag-ruler:pathfinding-gridless-difficult-terrain crovaxon/foundryvtt-drag-ruler:pathfinding-difficult-terrain crovaxon/foundryvtt-drag-ruler:pathfinding crovaxon/foundryvtt-drag-ruler:alpha crovaxon/foundryvtt-drag-ruler:prerelease
crovaxon/foundryvtt-drag-ruler:v1.14.2-test crovaxon/foundryvtt-drag-ruler:v1.14.2 crovaxon/foundryvtt-drag-ruler:v1.14.1 crovaxon/foundryvtt-drag-ruler:v1.14.0 crovaxon/foundryvtt-drag-ruler:v1.13.8 crovaxon/foundryvtt-drag-ruler:v1.13.7 crovaxon/foundryvtt-drag-ruler:v1.13.6 crovaxon/foundryvtt-drag-ruler:v1.13.5 crovaxon/foundryvtt-drag-ruler:v1.13.4 crovaxon/foundryvtt-drag-ruler:v1.13.3 crovaxon/foundryvtt-drag-ruler:v1.13.2 crovaxon/foundryvtt-drag-ruler:v1.13.1 crovaxon/foundryvtt-drag-ruler:v1.13.0 crovaxon/foundryvtt-drag-ruler:v1.12.8 crovaxon/foundryvtt-drag-ruler:v1.12.7 crovaxon/foundryvtt-drag-ruler:v1.12.6 crovaxon/foundryvtt-drag-ruler:v1.12.5 crovaxon/foundryvtt-drag-ruler:v1.12.4 crovaxon/foundryvtt-drag-ruler:v1.12.3 crovaxon/foundryvtt-drag-ruler:v1.12.2 crovaxon/foundryvtt-drag-ruler:v1.12.1 crovaxon/foundryvtt-drag-ruler:v1.12.0 crovaxon/foundryvtt-drag-ruler:v1.11.5 crovaxon/foundryvtt-drag-ruler:v1.11.4 crovaxon/foundryvtt-drag-ruler:v1.11.3 crovaxon/foundryvtt-drag-ruler:v1.11.2 crovaxon/foundryvtt-drag-ruler:v1.11.1 crovaxon/foundryvtt-drag-ruler:v1.11.0 crovaxon/foundryvtt-drag-ruler:v1.10.3 crovaxon/foundryvtt-drag-ruler:v1.10.2 crovaxon/foundryvtt-drag-ruler:v1.10.1 crovaxon/foundryvtt-drag-ruler:v1.10.0 crovaxon/foundryvtt-drag-ruler:v1.9.1 crovaxon/foundryvtt-drag-ruler:v1.9.0 crovaxon/foundryvtt-drag-ruler:v1.8.2 crovaxon/foundryvtt-drag-ruler:v1.8.1 crovaxon/foundryvtt-drag-ruler:v1.8.0 crovaxon/foundryvtt-drag-ruler:v1.7.7 crovaxon/foundryvtt-drag-ruler:v1.7.6 crovaxon/foundryvtt-drag-ruler:v1.7.5 crovaxon/foundryvtt-drag-ruler:v1.7.4 crovaxon/foundryvtt-drag-ruler:v1.7.3 crovaxon/foundryvtt-drag-ruler:v1.7.2 crovaxon/foundryvtt-drag-ruler:v1.7.1 crovaxon/foundryvtt-drag-ruler:v1.7.0 crovaxon/foundryvtt-drag-ruler:v1.6.5 crovaxon/foundryvtt-drag-ruler:v1.6.4 crovaxon/foundryvtt-drag-ruler:v1.6.3 crovaxon/foundryvtt-drag-ruler:v1.6.2 crovaxon/foundryvtt-drag-ruler:v1.6.1 crovaxon/foundryvtt-drag-ruler:v1.6.0 crovaxon/foundryvtt-drag-ruler:v1.5.4 crovaxon/foundryvtt-drag-ruler:v1.5.3 crovaxon/foundryvtt-drag-ruler:v1.5.2 crovaxon/foundryvtt-drag-ruler:v1.5.1 crovaxon/foundryvtt-drag-ruler:v1.5.0 crovaxon/foundryvtt-drag-ruler:v1.4.6 crovaxon/foundryvtt-drag-ruler:v1.4.5 crovaxon/foundryvtt-drag-ruler:v1.4.4 crovaxon/foundryvtt-drag-ruler:v1.4.3 crovaxon/foundryvtt-drag-ruler:v1.4.2 crovaxon/foundryvtt-drag-ruler:v1.4.1 crovaxon/foundryvtt-drag-ruler:v1.4.0 crovaxon/foundryvtt-drag-ruler:v1.3.5 crovaxon/foundryvtt-drag-ruler:v1.3.4 crovaxon/foundryvtt-drag-ruler:v1.3.3 crovaxon/foundryvtt-drag-ruler:v1.3.2 crovaxon/foundryvtt-drag-ruler:v1.3.1 crovaxon/foundryvtt-drag-ruler:v1.3.0 crovaxon/foundryvtt-drag-ruler:v1.2.2 crovaxon/foundryvtt-drag-ruler:v1.2.1 crovaxon/foundryvtt-drag-ruler:v1.2.0 crovaxon/foundryvtt-drag-ruler:v1.1.1 crovaxon/foundryvtt-drag-ruler:v1.1.0 crovaxon/foundryvtt-drag-ruler:v1.0.1 crovaxon/foundryvtt-drag-ruler:v1.0.0
..
pull from: crovaxon/foundryvtt-drag-ruler:prerelease
Branches Tags
crovaxon/foundryvtt-drag-ruler:develop crovaxon/foundryvtt-drag-ruler:master crovaxon/foundryvtt-drag-ruler:media crovaxon/foundryvtt-drag-ruler:pathfinding-gridless-difficult-terrain crovaxon/foundryvtt-drag-ruler:pathfinding-difficult-terrain crovaxon/foundryvtt-drag-ruler:pathfinding crovaxon/foundryvtt-drag-ruler:alpha crovaxon/foundryvtt-drag-ruler:prerelease
crovaxon/foundryvtt-drag-ruler:v1.14.2-test crovaxon/foundryvtt-drag-ruler:v1.14.2 crovaxon/foundryvtt-drag-ruler:v1.14.1 crovaxon/foundryvtt-drag-ruler:v1.14.0 crovaxon/foundryvtt-drag-ruler:v1.13.8 crovaxon/foundryvtt-drag-ruler:v1.13.7 crovaxon/foundryvtt-drag-ruler:v1.13.6 crovaxon/foundryvtt-drag-ruler:v1.13.5 crovaxon/foundryvtt-drag-ruler:v1.13.4 crovaxon/foundryvtt-drag-ruler:v1.13.3 crovaxon/foundryvtt-drag-ruler:v1.13.2 crovaxon/foundryvtt-drag-ruler:v1.13.1 crovaxon/foundryvtt-drag-ruler:v1.13.0 crovaxon/foundryvtt-drag-ruler:v1.12.8 crovaxon/foundryvtt-drag-ruler:v1.12.7 crovaxon/foundryvtt-drag-ruler:v1.12.6 crovaxon/foundryvtt-drag-ruler:v1.12.5 crovaxon/foundryvtt-drag-ruler:v1.12.4 crovaxon/foundryvtt-drag-ruler:v1.12.3 crovaxon/foundryvtt-drag-ruler:v1.12.2 crovaxon/foundryvtt-drag-ruler:v1.12.1 crovaxon/foundryvtt-drag-ruler:v1.12.0 crovaxon/foundryvtt-drag-ruler:v1.11.5 crovaxon/foundryvtt-drag-ruler:v1.11.4 crovaxon/foundryvtt-drag-ruler:v1.11.3 crovaxon/foundryvtt-drag-ruler:v1.11.2 crovaxon/foundryvtt-drag-ruler:v1.11.1 crovaxon/foundryvtt-drag-ruler:v1.11.0 crovaxon/foundryvtt-drag-ruler:v1.10.3 crovaxon/foundryvtt-drag-ruler:v1.10.2 crovaxon/foundryvtt-drag-ruler:v1.10.1 crovaxon/foundryvtt-drag-ruler:v1.10.0 crovaxon/foundryvtt-drag-ruler:v1.9.1 crovaxon/foundryvtt-drag-ruler:v1.9.0 crovaxon/foundryvtt-drag-ruler:v1.8.2 crovaxon/foundryvtt-drag-ruler:v1.8.1 crovaxon/foundryvtt-drag-ruler:v1.8.0 crovaxon/foundryvtt-drag-ruler:v1.7.7 crovaxon/foundryvtt-drag-ruler:v1.7.6 crovaxon/foundryvtt-drag-ruler:v1.7.5 crovaxon/foundryvtt-drag-ruler:v1.7.4 crovaxon/foundryvtt-drag-ruler:v1.7.3 crovaxon/foundryvtt-drag-ruler:v1.7.2 crovaxon/foundryvtt-drag-ruler:v1.7.1 crovaxon/foundryvtt-drag-ruler:v1.7.0 crovaxon/foundryvtt-drag-ruler:v1.6.5 crovaxon/foundryvtt-drag-ruler:v1.6.4 crovaxon/foundryvtt-drag-ruler:v1.6.3 crovaxon/foundryvtt-drag-ruler:v1.6.2 crovaxon/foundryvtt-drag-ruler:v1.6.1 crovaxon/foundryvtt-drag-ruler:v1.6.0 crovaxon/foundryvtt-drag-ruler:v1.5.4 crovaxon/foundryvtt-drag-ruler:v1.5.3 crovaxon/foundryvtt-drag-ruler:v1.5.2 crovaxon/foundryvtt-drag-ruler:v1.5.1 crovaxon/foundryvtt-drag-ruler:v1.5.0 crovaxon/foundryvtt-drag-ruler:v1.4.6 crovaxon/foundryvtt-drag-ruler:v1.4.5 crovaxon/foundryvtt-drag-ruler:v1.4.4 crovaxon/foundryvtt-drag-ruler:v1.4.3 crovaxon/foundryvtt-drag-ruler:v1.4.2 crovaxon/foundryvtt-drag-ruler:v1.4.1 crovaxon/foundryvtt-drag-ruler:v1.4.0 crovaxon/foundryvtt-drag-ruler:v1.3.5 crovaxon/foundryvtt-drag-ruler:v1.3.4 crovaxon/foundryvtt-drag-ruler:v1.3.3 crovaxon/foundryvtt-drag-ruler:v1.3.2 crovaxon/foundryvtt-drag-ruler:v1.3.1 crovaxon/foundryvtt-drag-ruler:v1.3.0 crovaxon/foundryvtt-drag-ruler:v1.2.2 crovaxon/foundryvtt-drag-ruler:v1.2.1 crovaxon/foundryvtt-drag-ruler:v1.2.0 crovaxon/foundryvtt-drag-ruler:v1.1.1 crovaxon/foundryvtt-drag-ruler:v1.1.0 crovaxon/foundryvtt-drag-ruler:v1.0.1 crovaxon/foundryvtt-drag-ruler:v1.0.0

6 Commits
pathfinding .. prerelease

Author SHA1 Message Date
Manuel Vögele 0588d3ef8b Pathfinding prerelease 2021-07-19 22:40:02 +02:00
Manuel Vögele b084d25cb6 Add an option to do pathfinding automatically 2021-07-19 22:39:48 +02:00
Manuel Vögele 654847563f Reduce broken caching 2021-07-19 22:04:25 +02:00
Manuel Vögele baca42a2f8 Broadcast pathfinding waypoints to other players 2021-07-19 22:04:25 +02:00
Manuel Vögele 68ee098e61 Penalize diagonals minimally to disincentivise using unnecessary diagonals 2021-07-19 22:04:25 +02:00
Manuel Vögele 3300007f93 Initial working pathfinding impl 2021-07-19 22:04:25 +02:00
45 changed files with 683 additions and 2763 deletions
Expand all files Collapse all files
.gitignore
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foundry-*.js
artifact/
wasm/
CHANGELOG.md
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## 1.11.5
### Bugfixes
- Fixed a bug that was causing Drag Ruler to spam useless warnings into the console (this was a regression introduced in 1.11.4)
## 1.11.4
### Bugfixes
- When changing the measurement mode via a keybinding (toggle snaping or toggle pathfinding) the updated ruler will now be sent to other players immediately
- Fixed a bug that incorrectly showed a ruler to be snapped to other players despite the ruler not being snapped
- Fixed a bug that could cause a token to move to an incorrect location if the token was being dragged and dropped very rapidly
- Drag Ruler's token movement animations can now be properly waited for (this improves the interaction with modules like sequencer)
### Translation
- Updated Spanish translation (thanks to Viriato139ac#342)
## 1.11.3
### Bugfixes
- The setting to automatically start pathfinding is now visible to players again (this was a regression introduced in 1.11.2)
- Fixed a bug that would show the measurements of other players as if they were using the pathfinder, even if they were not using it.
## 1.11.2
### Bugfixes
- Fixed a memory leak that could cause the rule to slow down after using the pathfinding functionality for a while
### Misc
- GMs are now always allowed to use the pathfinding tool. The setting now only prevents players from using it.
### Compatibility
- Drag Ruler's generic speed provider is now aware of good defaults for Dungeonslayers 4
## 1.11.1
### Bugfixes
- Fixed a bug that would cause the pathfinding algorithm to make tokens of size 2 and 4 to take an unnecessary step
## 1.11.0
### New features
- Drag Ruler now supports pathfinding. Pressing the assigned button will automatically calculate the shortest route to the point you're dragging your token to and add the necessary waypoints to the ruler.
- This feature is only available for gridded maps
- This feature can only be used if it's enabled by the GM in the module settings
- The routing algorithm *does not* take difficult terrain into account
## 1.10.3
### Compatibility
- This release contains changes required to be compatible with Foundry 9.245
## 1.10.2
### Bugfixes
- Fixed a bug that could cause squares to be highlighted in the wrong color when using waypoints on a 5/10/5 gird
- When using Token Drag Vision, the temporary vision is now correctly cleaned up when dropping the token (resolves a conflict with the "Perfect Vision" module)
## 1.10.1
### Bugfixes
- Fixed a bug that caused keybindings to break if no scene is active
### Translation
- Updated Spanish translation (thanks to Viriato139ac#342)
## 1.10.0
**BREAKING** Drag Ruler 1.10.0 and onward cannot update directly from Drag Ruler versions older than 1.3.0. If you've been using Drag Ruler 1.2.2 or earlier in your world make sure to update to any Version between (inclusive) Drag Ruler 1.3.0 and 1.9.1, launch your world and log in as GM at least once. After doing so you can safely update to v1.10.0 or newer versions. Updating directly from 1.2.2 or older to 1.10.0 or newer will cause Drag Ruler to forget your Speed Prover Settings.
### New features
- Drag Ruler's key bindings can now be assigned to custom keys by the user
- Measuring difficult terrain on gridded maps with euclidean grid rule is now supported (for this to work the `Terrain Ruler` module needs to be enabled)
### Compatibility
- Drag Ruler now supports Foundry v9
- Drag Ruler now utilizes libwrapper to increase interoperability with other modules
### Translation
- Added french translation (thanks to Elfenduli)
- Updated japanese translation (thanks to touge)
## 1.9.1
### Bugfixes
- Fixed a bug that caused the ruler to misbehave or not show up at all if the speed provider isn't configured (this was a regression introduced in 1.9.0)
### Translation
- Updated the spaish translation (thanks to Viriato139ac#342)
## 1.9.0
### New features
- On Gridless scenes, tokens can now snap to their speed limits, to make full usage of a token's movement speed easier. This feature can be temporarily disabled by pressing Shift during drag and can be disabled completely in the settings.
### Bugfixes
- Non-square tokens (e.g. 2x1) now work correctly on square grids
- When modifying difficult terrain that a token has already moved over, this the movement history of the token won't change anymore (this was a regression introduced in 1.8.0)
- Fixed a bug that prevented pausing/unpausing the game when no scene was active
### API
- Added `dragRuler.getColorForDistanceAndToken` API endpoint that allows other modules to receive the highlight color for a specified distance with a given token.
## 1.8.2
### Compatibility
- The generic speed provider defaults have been updated for lance 1.0 (thanks to BoltsJ!)
- Eliminated a deprecation warning when both Drag Ruler and Hex Size Support are enabled (thanks Argonius-Angelus!)
## 1.8.1
### Bugfixes
- Fixed a bug where the function that was bound to the spacebar key wouldn't work correctly when the "Toggle Snap To Grid" module was enabled
### Translation
- Updated Spanish translation (thanks to Viriato139ac#342)
## 1.8.0
### New features
- Pressing escape during a drag now cancels the drag
- Undoing a movement via Ctrl+Z will now also remove that movement from Drag Ruler's movement history
- Drag Ruler can now configured to stay disabled by default when a Token/Template is being dragged. In that case it will activate once the button to place a waypoint is being pressed.
### Bugfixes
- Fixed a bug that caused the ruler to snap to grid when a waypoint was deleted while shift was being pressed (thanks to Michael Clavell!)
- Fixed a bug that could leave behind a single waypoint on the canvas when canceling a dragging operation while moving the mouse
### Compatibility
- Drag Ruler is now compatible with the "Toggle Snap To Grid" module (thanks to Michael Clavell!)
## 1.7.7
### Compatibility
- Updated the default settings for the swade game system. The new default speed attribute points to a speed value that gets adjusted for wounds.
LICENSE
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MIT License
Copyright (c) 2021 Manuel Vögele
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.
README.md
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[![ko-fi](https://ko-fi.com/img/githubbutton_sm.svg)](https://ko-fi.com/staebchenfisch)
# Drag Ruler
This module shows a ruler when you drag a token or measurement template to inform you how far you've dragged it from its start point. Additionally, if you're using a grid, the spaces the token will travel though will be colored depending on your tokens speed. By default, three colors are being used: green for spaces that your token can reach by walking normally are colored green, spaces that can only be reached by dashing will be colored yellow and spaces that cannot be reached with the token's speed will be colored red. If you're using a gridless map the ruler color will change to convey this information.
This module shows a ruler when you drag a token or measurement template to infrom you how far you've dragged it from it's start point. Additionally, if you're using a grid, the spaces the token will travel though will be colored depending on your tokens speed. By default three colors are being used: green for spaces that your token can reach by walking normally are colored green, spaces that can only be reached by dashing will be colored red and spaces that cannot be reached with the token's speed will be colored red. If you're using a gridless map the ruler color will change to convey this information.
![Drag Ruler being used on a square grids](https://raw.githubusercontent.com/manuelVo/foundryvtt-drag-ruler/709774b25f7dd818a90591165f74b3e6dbc788cc/media/basic_square.webp)
![Drag Ruler being used on a gridless scene](https://raw.githubusercontent.com/manuelVo/foundryvtt-drag-ruler/709774b25f7dd818a90591165f74b3e6dbc788cc/media/basic_gridless.webp)
@@ -33,24 +33,14 @@ During combat, Drag Ruler will remember the path a token has taken during it's t
## Game systems with Drag Ruler integration
Drag Ruler will work with all Foundry VTT game systems. However, some game systems offer a special integration via the [Drag Ruler API](#api), that allows Drag Ruler to take the rules of the game system into account when dispaying speeds (such as weight carried or conditions that apply to the character), offering a smoother experience. While some game systems offer this integration natively, for other game systems there are modules providing the integration. If the integration is provided via a module you need to install and activate both Drag Ruler and the integration module to benefit from the integration.
Drag Ruler will work with all Foundry VTT game systems. However some game systems offer a special integration via the [Drag Ruler API](#api), that allows Drag Ruler to take the rules of the game system into account when dispaying speeds (such as weight carried or conditions that apply to the character), offering a smoother experience. While some game systems offer this integration natively, for other game systems there are modules providing the integration. If the integration is provided via a module you need to install and activate both Drag Ruler and the integration module to benefit from the integration.
The game systems that offer Drag Ruler integration are:
- Cypher System (starting with version 1.13.0)
- DnD5e (via the module [DnD5e Drag Ruler Integration](https://foundryvtt.com/packages/elevation-drag-ruler))
- GURPS 4th Edition Game Aid (Unofficial) (starting with version 0.9.1)
- Ironclaw Second Edition (starting with version 0.2.2)
- Lancer (via the module [Lancer Speed Provider](https://foundryvtt.com/packages/lancer-speed-provider))
- Level Up: Advanced 5th Edition (Official) (via the module [A5E Drag Ruler Integration](https://foundryvtt.com/packages/a5edragruler))
- Pathfinder 1 (starting with version 0.77.3)
- Pathfinder 2e (via the module [PF2E Drag Ruler Integration](https://foundryvtt.com/packages/pf2e-dragruler/))
- Shadowrun 5th Edition (via the module [Drag Ruler Integration for Shadowrun 5E](https://foundryvtt.com/packages/drag-ruler-integration-for-shadowrun-5e))
- Shadow of the Demon Lord (starting with version 1.7.15)
- Starfinder (via the module [Starfinder Drag Ruler Integration](https://foundryvtt.com/packages/starfinder-drag-ruler))
- Stargate RPG (starting with version 1.6.0)
- Symbaroum (via the module [Symbaroum drag ruler integration](https://foundryvtt.com/packages/symbaroum-drag-ruler-integration))
- Tagmar RPG (starting with version 1.1.4)
- TheWitcherTRPG (starting with version 0.0.62)
- Tormenta20 (starting with version 1.1.37)
- Shadow of the Demon Lord (starting with version 1.7.15)
- Wasteland Ventures (starting with version 0.1.0)
build_release.py
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#!/usr/bin/env python3
import json
from pathlib import PurePath, Path
import subprocess
import tempfile
import zipfile
wasm_pack = Path("~/.cargo/bin/wasm-pack").expanduser()
root_files = ["module.json", "README.md", "CHANGELOG.md", "LICENSE"]
wasm_files = ["gridless_pathfinding_bg.wasm", "gridless_pathfinding.js"]
output_dir = Path("artifact")
copy_everything_directories = ["js", "lang", "templates", "wasm/snippets"]
wasm_dir = Path("wasm")
root_dir = Path(".")
rust_dir = Path("rust")
build_dir_tmp = tempfile.TemporaryDirectory()
build_dir = Path(build_dir_tmp.name)
with open("module.json", "r") as file:
manifest = json.load(file)
zip_root = PurePath(f'{manifest["name"]}')
filename = f'{manifest["name"]}-{manifest["version"]}.zip'
result = subprocess.run([wasm_pack, "build", "--target", "web", "--out-dir", build_dir, root_dir / rust_dir])
if result.returncode != 0:
raise Exception("Wasm build failed")
output_dir.mkdir(parents=True, exist_ok=True)
def write_directory(archive, d):
for f in (root_dir / d).iterdir():
if f.is_dir():
write_directory(archive, f)
else:
assert(f.is_file())
archive.write(f, arcname=zip_root / d / f.name)
with zipfile.ZipFile(output_dir / filename, mode="w", compression=zipfile.ZIP_DEFLATED, compresslevel=9) as archive:
for f in root_files:
archive.write(root_dir / f, arcname=zip_root / f)
for d in copy_everything_directories:
write_directory(archive, d)
for f in wasm_files:
archive.write(build_dir / f, arcname=zip_root / wasm_dir / f)
print(f"Successfully built {output_dir / filename}")
build_wasm.py
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#!/usr/bin/env python3
import sys
import subprocess
from pathlib import Path
root_dir = Path(".")
wasm_dir = root_dir / Path("wasm")
rust_dir = root_dir / Path("rust")
debug = " --debug" if len(sys.argv) >= 2 and sys.argv[1] == "--debug" else ""
result = subprocess.run(["cargo", "watch", "-C" , rust_dir, "-s", f"wasm-pack build --target web --out-dir {wasm_dir.resolve()}{debug}"])
install_dev_dependencies.sh
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#!/bin/sh
cargo install cargo-watch
cargo install wasm-pack
js/keybindings.js
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import {settingsKey} from "./settings.js";
import {getMeasurePosition, setSnapParameterOnOptions} from "./util.js";
export let disableSnap = false;
export let moveWithoutAnimation = false;
export let togglePathfinding = false;
export function registerKeybindings() {
game.keybindings.register(settingsKey, "cancelDrag", {
name: "drag-ruler.keybindings.cancelDrag",
onDown: cancelDrag,
uneditable: [{
key: "Escape",
}],
precedence: -1,
});
game.keybindings.register(settingsKey, "createWaypoint", {
name: "drag-ruler.keybindings.createWaypoint",
onDown: handleCreateWaypoint,
editable: [{
key: "Space"
}],
precedence: -1,
});
game.keybindings.register(settingsKey, "deleteWaypoint", {
name: "drag-ruler.keybindings.deleteWaypoint",
onDown: handleDeleteWaypoint,
precedence: -1,
});
game.keybindings.register(settingsKey, "disableSnap", {
name: "drag-ruler.keybindings.disableSnap.name",
hint: "drag-ruler.keybindings.disableSnap.hint",
onDown: handleDisableSnap,
onUp: handleDisableSnap,
editable: [{
key: "ShiftLeft",
}],
precedence: -1,
});
game.keybindings.register(settingsKey, "moveWithoutAnimation", {
name: "drag-ruler.keybindings.moveWithoutAnimation.name",
hint: "drag-ruler.keybindings.moveWithoutAnimation.hint",
onDown: handleMoveWithoutAnimation,
onUp: handleMoveWithoutAnimation,
editable: [{
key: "AltLeft",
}],
precedence: -1,
});
game.keybindings.register(settingsKey, "togglePathfinding", {
name: "drag-ruler.keybindings.togglePathfinding.name",
hint: "drag-ruler.keybindings.togglePathfinding.hint",
onDown: handleTogglePathfinding,
onUp: handleTogglePathfinding,
precedence: -1,
restricted: !game.settings.get(settingsKey, "allowPathfinding"),
});
}
function handleDeleteWaypoint() {
const ruler = canvas.controls.ruler;
if (!ruler?.draggedEntity)
return false;
ruler.dragRulerDeleteWaypoint();
return true;
}
function handleCreateWaypoint() {
const ruler = canvas.controls.ruler;
// .draggedEntity is used here because .isDragRuler only returns true once the ruler started measuring
// Ruler can end up being undefined here if no canvas is active
if (!ruler?.draggedEntity)
return false;
let options = {};
setSnapParameterOnOptions(ruler, options);
if (ruler._state === Ruler.STATES.INACTIVE) {
ruler.dragRulerStart(options);
}
else {
ruler.dragRulerAddWaypoint(getMeasurePosition(), options);
}
return true;
}
function cancelDrag() {
const ruler = canvas.controls.ruler;
if (!ruler?.draggedEntity)
return false;
ruler.dragRulerAbortDrag();
return true;
}
function handleDisableSnap(event) {
disableSnap = !event.up;
const ruler = canvas.controls.ruler;
if (!ruler?.isDragRuler)
return false;
if (ruler._state !== Ruler.STATES.MEASURING)
return false;
ruler.measure(getMeasurePosition(), {snap: !disableSnap});
ruler.dragRulerSendState();
return false;
}
function handleMoveWithoutAnimation(event) {
moveWithoutAnimation = !event.up;
}
function handleTogglePathfinding(event) {
togglePathfinding = !event.up;
const ruler = canvas.controls.ruler;
if (!ruler?.isDragRuler)
return false;
if (ruler._state !== Ruler.STATES.MEASURING)
return false;
ruler.measure(getMeasurePosition(), {snap: !disableSnap});
ruler.dragRulerSendState();
return false;
}
js/libwrapper_shim.js
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// SPDX-License-Identifier: MIT
// Copyright © 2021 fvtt-lib-wrapper Rui Pinheiro
'use strict';
// A shim for the libWrapper library
export let libWrapper = undefined;
export const VERSIONS = [1,11,0];
export const TGT_SPLIT_RE = new RegExp("([^.[]+|\\[('([^'\\\\]|\\\\.)+?'|\"([^\"\\\\]|\\\\.)+?\")\\])", 'g');
export const TGT_CLEANUP_RE = new RegExp("(^\\['|'\\]$|^\\[\"|\"\\]$)", 'g');
// Main shim code
Hooks.once('init', () => {
// Check if the real module is already loaded - if so, use it
if(globalThis.libWrapper && !(globalThis.libWrapper.is_fallback ?? true)) {
libWrapper = globalThis.libWrapper;
return;
}
// Fallback implementation
libWrapper = class {
static get is_fallback() { return true };
static get WRAPPER() { return 'WRAPPER' };
static get MIXED() { return 'MIXED' };
static get OVERRIDE() { return 'OVERRIDE' };
static register(package_id, target, fn, type="MIXED", {chain=undefined}={}) {
const is_setter = target.endsWith('#set');
target = !is_setter ? target : target.slice(0, -4);
const split = target.match(TGT_SPLIT_RE).map((x)=>x.replace(/\\(.)/g, '$1').replace(TGT_CLEANUP_RE,''));
const root_nm = split.splice(0,1)[0];
let obj, fn_name;
if(split.length == 0) {
obj = globalThis;
fn_name = root_nm;
}
else {
const _eval = eval;
fn_name = split.pop();
obj = split.reduce((x,y)=>x[y], globalThis[root_nm] ?? _eval(root_nm));
}
let iObj = obj;
let descriptor = null;
while(iObj) {
descriptor = Object.getOwnPropertyDescriptor(iObj, fn_name);
if(descriptor) break;
iObj = Object.getPrototypeOf(iObj);
}
if(!descriptor || descriptor?.configurable === false) throw `libWrapper Shim: '${target}' does not exist, could not be found, or has a non-configurable descriptor.`;
let original = null;
const wrapper = (chain ?? (type.toUpperCase?.() != 'OVERRIDE' && type != 3)) ? function() { return fn.call(this, original.bind(this), ...arguments); } : function() { return fn.apply(this, arguments); };
if(!is_setter) {
if(descriptor.value) {
original = descriptor.value;
descriptor.value = wrapper;
}
else {
original = descriptor.get;
descriptor.get = wrapper;
}
}
else {
if(!descriptor.set) throw `libWrapper Shim: '${target}' does not have a setter`;
original = descriptor.set;
descriptor.set = wrapper;
}
descriptor.configurable = true;
Object.defineProperty(obj, fn_name, descriptor);
}
}
});
js/main.js
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@@ -1,258 +0,0 @@
"use strict"
import {getColorForDistanceAndToken, getMovedDistanceFromToken, getRangesFromSpeedProvider, initApi, registerModule, registerSystem} from "./api.js";
import {checkDependencies, getHexSizeSupportTokenGridCenter} from "./compatibility.js";
import {moveEntities, onMouseMove} from "./foundry_imports.js"
import {disableSnap, registerKeybindings} from "./keybindings.js";
import {libWrapper} from "./libwrapper_shim.js";
import {performMigrations} from "./migration.js"
import {removeLastHistoryEntryIfAt, resetMovementHistory} from "./movement_tracking.js";
import {wipePathfindingCache} from "./pathfinding.js";
import {extendRuler} from "./ruler.js";
import {registerSettings, RightClickAction, settingsKey} from "./settings.js"
import {recalculate} from "./socket.js";
import {SpeedProvider} from "./speed_provider.js"
import {setSnapParameterOnOptions} from "./util.js";
import initGridlessPathfinding, * as GridlessPathfinding from "../wasm/gridless_pathfinding.js"
CONFIG.debug.dragRuler = false;
export let debugGraphics = undefined;
initGridlessPathfinding().then(() => {
Hooks.on("canvasInit", wipePathfindingCache);
Hooks.on("canvasReady", wipePathfindingCache);
Hooks.on("createWall", wipePathfindingCache);
Hooks.on("updateWall", wipePathfindingCache);
Hooks.on("deleteWall", wipePathfindingCache);
});
Hooks.once("init", () => {
registerSettings()
registerKeybindings()
initApi()
hookDragHandlers(Token);
hookDragHandlers(MeasuredTemplate);
libWrapper.register("drag-ruler", "TokenLayer.prototype.undoHistory", tokenLayerUndoHistory, "WRAPPER");
extendRuler();
window.dragRuler = {
getColorForDistanceAndToken,
getMovedDistanceFromToken,
registerModule,
registerSystem,
recalculate,
resetMovementHistory,
}
})
Hooks.once("ready", () => {
performMigrations()
checkDependencies();
Hooks.callAll("dragRuler.ready", SpeedProvider)
if (CONFIG.debug.dragRuler)
debugGraphics = canvas.controls.addChild(new PIXI.Container());
})
Hooks.on("canvasReady", () => {
canvas.controls.rulers.children.forEach(ruler => {
ruler.draggedEntity = null;
Object.defineProperty(ruler, "isDragRuler", {
get: function isDragRuler() {
return Boolean(this.draggedEntity) && this._state !== Ruler.STATES.INACTIVE;
}
})
})
})
Hooks.on("getCombatTrackerEntryContext", function (html, menu) {
const entry = {
name: "drag-ruler.resetMovementHistory",
icon: '<i class="fas fa-undo-alt"></i>',
callback: li => resetMovementHistory(ui.combat.viewed, li.data('combatant-id')),
};
menu.splice(1, 0, entry);
});
function forwardIfUnahndled(newFn) {
return function(oldFn, ...args) {
const eventHandled = newFn(...args);
if (!eventHandled)
oldFn(...args);
};
}
function hookDragHandlers(entityType) {
const entityName = entityType.name
libWrapper.register("drag-ruler", `${entityName}.prototype._onDragLeftStart`, onEntityLeftDragStart, "WRAPPER");
if (entityType === Token)
libWrapper.register("drag-ruler", `${entityName}.prototype._onDragLeftMove`, onEntityLeftDragMoveSnap, "WRAPPER");
else
libWrapper.register("drag-ruler", `${entityName}.prototype._onDragLeftMove`, onEntityLeftDragMove, "WRAPPER");
libWrapper.register("drag-ruler", `${entityName}.prototype._onDragLeftDrop`, forwardIfUnahndled(onEntityDragLeftDrop), "MIXED");
libWrapper.register("drag-ruler", `${entityName}.prototype._onDragLeftCancel`, forwardIfUnahndled(onEntityDragLeftCancel), "MIXED");
}
async function tokenLayerUndoHistory(wrapped) {
const historyEntry = this.history[this.history.length - 1];
const returnValue = await wrapped();
if (historyEntry.type === "update") {
for (const entry of historyEntry.data) {
const token = canvas.tokens.get(entry._id);
removeLastHistoryEntryIfAt(token, entry.x, entry.y);
}
}
return returnValue;
}
function onEntityLeftDragStart(wrapped, event) {
wrapped(event);
const isToken = this instanceof Token;
const ruler = canvas.controls.ruler
ruler.draggedEntity = this;
let entityCenter;
if (isToken && canvas.grid.isHex && game.modules.get("hex-size-support")?.active && CONFIG.hexSizeSupport.getAltSnappingFlag(this))
entityCenter = getHexSizeSupportTokenGridCenter(this);
else
entityCenter = this.center;
ruler.rulerOffset = {x: entityCenter.x - event.data.origin.x, y: entityCenter.y - event.data.origin.y};
if (game.settings.get(settingsKey, "autoStartMeasurement")) {
let options = {};
setSnapParameterOnOptions(ruler, options);
ruler.dragRulerStart(options, false);
}
}
function onEntityLeftDragMoveSnap(wrapped, event) {
applyGridlessSnapping.call(this, event);
onEntityLeftDragMove.call(this, wrapped, event);
}
function onEntityLeftDragMove(wrapped, event) {
wrapped(event);
const ruler = canvas.controls.ruler
if (ruler.isDragRuler)
onMouseMove.call(ruler, event)
}
function onEntityDragLeftDrop(event) {
const ruler = canvas.controls.ruler
if (!ruler.isDragRuler) {
ruler.draggedEntity = undefined;
return false
}
// When we're dragging a measured template no token will ever be selected,
// resulting in only the dragged template to be moved as would be expected
const selectedTokens = canvas.tokens.controlled
// This can happen if the user presses ESC during drag (maybe there are other ways too)
if (selectedTokens.length === 0)
selectedTokens.push(ruler.draggedEntity);
// This can happen if the ruler is being dragged so rapidly that the drag move handler hasn't been called before dropping
if (ruler._state === Ruler.STATES.STARTING)
onMouseMove.call(ruler, event);
ruler._state = Ruler.STATES.MOVING
moveEntities.call(ruler, ruler.draggedEntity, selectedTokens);
return true
}
function onEntityDragLeftCancel(event) {
// This function is invoked by right clicking
const ruler = canvas.controls.ruler
if (!ruler.draggedEntity || ruler._state === Ruler.STATES.MOVING)
return false
const rightClickAction = game.settings.get(settingsKey, "rightClickAction");
let options = {};
setSnapParameterOnOptions(ruler, options);
if (ruler._state === Ruler.STATES.INACTIVE) {
if (rightClickAction !== RightClickAction.CREATE_WAYPOINT)
return false;
ruler.dragRulerStart(options);
event.preventDefault();
}
else if (ruler._state === Ruler.STATES.MEASURING) {
switch (rightClickAction) {
case RightClickAction.CREATE_WAYPOINT:
event.preventDefault();
ruler.dragRulerAddWaypoint(ruler.destination, options);
break;
case RightClickAction.DELETE_WAYPOINT:
ruler.dragRulerDeleteWaypoint(event, options);
break;
case RightClickAction.ABORT_DRAG:
ruler.dragRulerAbortDrag();
break;
}
}
return true;
}
function applyGridlessSnapping(event) {
const ruler = canvas.controls.ruler;
if (!game.settings.get(settingsKey, "useGridlessRaster"))
return;
if (!ruler.isDragRuler)
return;
if (disableSnap)
return;
if (canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS)
return;
const rasterWidth = 35 / canvas.stage.scale.x;
const tokenX = event.data.destination.x;
const tokenY = event.data.destination.y;
const destination = {x: tokenX + ruler.rulerOffset.x, y: tokenY + ruler.rulerOffset.y};
const ranges = getRangesFromSpeedProvider(ruler.draggedEntity);
const terrainRulerAvailable = game.modules.get("terrain-ruler")?.active;
if (terrainRulerAvailable) {
const segments = Ruler.dragRulerGetRaysFromWaypoints(ruler.waypoints, destination).map(ray => {return {ray}});
const pinpointDistances = new Map();
for (const range of ranges) {
pinpointDistances.set(range.range, null);
}
terrainRuler.measureDistances(segments, {pinpointDistances});
const targetDistance = Array.from(pinpointDistances.entries())
.filter(([_key, val]) => val)
.reduce((value, current) => value[0] > current[0] ? value : current, [0, null]);
const rasterLocation = targetDistance[1];
if (rasterLocation) {
const deltaX = destination.x - rasterLocation.x;
const deltaY = destination.y - rasterLocation.y;
const rasterDistance = Math.hypot(deltaX, deltaY);
if (rasterDistance < rasterWidth) {
event.data.destination.x = rasterLocation.x - ruler.rulerOffset.x;
event.data.destination.y = rasterLocation.y - ruler.rulerOffset.y;
}
}
}
else {
let waypointDistance = 0;
let origin = event.data.origin;
if (ruler.waypoints.length > 1) {
const segments = Ruler.dragRulerGetRaysFromWaypoints(ruler.waypoints, destination).map(ray => {return {ray}});
origin = segments.pop().ray.A;
waypointDistance = canvas.grid.measureDistances(segments).reduce((a, b) => a + b);
origin = {x: origin.x - ruler.rulerOffset.x, y: origin.y - ruler.rulerOffset.y};
}
const deltaX = tokenX - origin.x;
const deltaY = tokenY - origin.y;
const distance = Math.hypot(deltaX, deltaY);
// targetRange will be the largest range that's still smaller than distance
let targetDistance = ranges
.map(range => range.range)
.map(range => range - waypointDistance)
.map(range => range * canvas.dimensions.size / canvas.dimensions.distance)
.filter(range => range < distance)
.reduce((a, b) => Math.max(a, b), 0);
if (targetDistance) {
if (distance < targetDistance + rasterWidth) {
event.data.destination.x = origin.x + deltaX * targetDistance / distance;
event.data.destination.y = origin.y + deltaY * targetDistance / distance;
}
}
}
}
js/migration.js
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@@ -1,43 +0,0 @@
import {RightClickAction, settingsKey} from "./settings.js"
const currentDataVersion = "1.10.0"
export async function performMigrations() {
if (game.user.isGM)
await performWorldMigraionts()
await performClientMigrations()
}
async function performWorldMigraionts() {
let dataVersion = game.settings.get(settingsKey, "dataVersion");
if (dataVersion === currentDataVersion)
return;
if (dataVersion === "fresh install") {
game.settings.set(settingsKey, "dataVersion", currentDataVersion)
return
}
if (dataVersion === "1.3.0") {
dataVersion = "1.10.0"
}
game.settings.set(settingsKey, "dataVersion", dataVersion);
}
async function performClientMigrations() {
let dataVersion = game.settings.get(settingsKey, "clientDataVersion");
if (dataVersion === "fresh install") {
// Start of migration from unnamed version (< 1.10.0). TODO Remove in a future version
const swapSpacebarRightClick = game.settings.storage.get("client").getItem(`${settingsKey}.swapSpacebarRightClick`);
if (swapSpacebarRightClick) {
game.settings.set(settingsKey, "rightClickAction", RightClickAction.CREATE_WAYPOINT);
await game.keybindings.set(settingsKey, "createWaypoint", []);
await game.keybindings.set(settingsKey, "deleteWaypoint", [{key: "Space"}]);
}
// End of migration from unnamed version
game.settings.set(settingsKey, "clientDataVersion", currentDataVersion)
}
}
js/pathfinding.js
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@@ -1,187 +0,0 @@
import {getGridPositionFromPixelsObj, getPixelsFromGridPositionObj} from "./foundry_fixes.js";
import {togglePathfinding} from "./keybindings.js";
import {debugGraphics} from "./main.js";
import {settingsKey} from "./settings.js";
import {getSnapPointForTokenObj, iterPairs} from "./util.js";
import * as GridlessPathfinding from "../wasm/gridless_pathfinding.js"
let cachedNodes = undefined;
let use5105 = false;
let gridlessPathfinders = new Map();
export function isPathfindingEnabled() {
if (this.user !== game.user)
return false;
if (!game.user.isGM && !game.settings.get(settingsKey, "allowPathfinding"))
return false;
return game.settings.get(settingsKey, "autoPathfinding") != togglePathfinding;
}
export function findPath(from, to, token, previousWaypoints) {
if (canvas.grid.type === CONST.GRID_TYPES.GRIDLESS) {
let tokenSize = Math.max(token.data.width, token.data.height) * canvas.dimensions.size;
let pathfinder = gridlessPathfinders.get(tokenSize);
if (!pathfinder) {
pathfinder = GridlessPathfinding.initialize(canvas.walls.placeables, tokenSize);
gridlessPathfinders.set(tokenSize, pathfinder);
}
paintGridlessPathfindingDebug(pathfinder);
return GridlessPathfinding.findPath(pathfinder, from, to);
}
else {
const lastNode = calculatePath(from, to, token, previousWaypoints);
if (!lastNode)
return null;
paintGriddedPathfindingDebug(lastNode, token);
const path = [];
let currentNode = lastNode;
while (currentNode) {
// TODO Check if the distance doesn't change
if (path.length >= 2 && !stepCollidesWithWall(currentNode.node, path[path.length - 2], token))
// Replace last waypoint if the current waypoint leads to a valid path
path[path.length - 1] = {x: currentNode.node.x, y: currentNode.node.y};
else
path.push({x: currentNode.node.x, y: currentNode.node.y});
currentNode = currentNode.previous;
}
return path;
}
}
export function wipePathfindingCache() {
cachedNodes = undefined;
for (const pathfinder of gridlessPathfinders.values()) {
GridlessPathfinding.free(pathfinder);
}
gridlessPathfinders.clear();
if (debugGraphics)
debugGraphics.removeChildren().forEach(c => c.destroy());
}
function getNode(pos, token, initialize=true) {
pos = {layer: 0, ...pos}; // Copy pos and set pos.layer to the default value if it's unset
if (!cachedNodes)
cachedNodes = new Array(2);
if (!cachedNodes[pos.layer])
cachedNodes[pos.layer] = new Array(Math.ceil(canvas.dimensions.height / canvas.grid.h));
if (!cachedNodes[pos.layer][pos.y])
cachedNodes[pos.layer][pos.y] = new Array(Math.ceil(canvas.dimensions.width / canvas.grid.w));
if (!cachedNodes[pos.layer][pos.y][pos.x]) {
cachedNodes[pos.layer][pos.y][pos.x] = pos;
}
const node = cachedNodes[pos.layer][pos.y][pos.x];
if (initialize && !node.edges) {
node.edges = [];
for (const neighborPos of canvas.grid.grid.getNeighbors(pos.y, pos.x).map(([y, x]) => {return {x, y};})) {
if (neighborPos.x < 0 || neighborPos.y < 0)
continue;
// TODO Work with pixels instead of grid locations
if (!stepCollidesWithWall(pos, neighborPos, token)) {
const isDiagonal = node.x !== neighborPos.x && node.y !== neighborPos.y && canvas.grid.type === CONST.GRID_TYPES.SQUARE;
let targetLayer = pos.layer;
if (use5105 && isDiagonal)
targetLayer = 1 - targetLayer;
const neighbor = getNode({...neighborPos, layer: targetLayer}, token, false);
// TODO We currently assume a cost of one or two for all transitions. Change this for difficult terrain support
let edgeCost = 1;
if (isDiagonal) {
// We charge 0.0001 more for edges to avoid unnecessary diagonal steps
edgeCost = pos.layer === 1 && targetLayer === 0 ? 2 : 1.0001;
}
node.edges.push({target: neighbor, cost: edgeCost});
}
}
}
return node;
}
function calculatePath(from, to, token, previousWaypoints) {
if (game.system.id === "pf2e")
use5105 = true;
if (canvas.grid.diagonalRule === "5105")
use5105 = true;
let startLayer = 0;
if (use5105 && canvas.grid.type === CONST.GRID_TYPES.SQUARE) {
previousWaypoints = previousWaypoints.map(w => getGridPositionFromPixelsObj(w));
startLayer = calcNoDiagonals(previousWaypoints) % 2;
}
const nextNodes = [{node: getNode({...to, layer: startLayer}, token), cost: 0, estimated: estimateCost(to, from), previous: null}];
const previousNodes = new Set();
while (nextNodes.length > 0) {
// Sort by estimated cost, high to low
// TODO Re-sorting every iteration is expensive. Think of something better
nextNodes.sort((a, b) => b.estimated - a.estimated);
// Get node with cheapest estimate
const currentNode = nextNodes.pop();
if (currentNode.node.x === from.x && currentNode.node.y === from.y)
return currentNode;
previousNodes.add(currentNode.node);
for (const edge of currentNode.node.edges) {
const neighborNode = getNode(edge.target, token);
if (previousNodes.has(neighborNode))
continue;
const neighbor = {node: neighborNode, cost: currentNode.cost + edge.cost, estimated: currentNode.cost + edge.cost + estimateCost(neighborNode, from), previous: currentNode};
const neighborIndex = nextNodes.findIndex(node => node.node === neighbor.node);
if (neighborIndex >= 0) {
// If the neighbor is cheaper to reach via the current route than through previously discovered routes, replace it
if (nextNodes[neighborIndex].cost > neighbor.cost) {
nextNodes[neighborIndex] = neighbor;
}
}
else {
nextNodes.push(neighbor);
}
}
}
}
function calcNoDiagonals(waypoints) {
let diagonals = 0;
for (const [p1, p2] of iterPairs(waypoints)) {
diagonals += Math.min(Math.abs(p1.x - p2.x), Math.abs(p1.y - p2.y));
}
return diagonals;
}
function estimateCost(pos, target) {
return Math.max(Math.abs(pos.x - target.x), Math.abs(pos.y - target.y));
}
function stepCollidesWithWall(from, to, token) {
const stepStart = getSnapPointForTokenObj(getPixelsFromGridPositionObj(from), token);
const stepEnd = getSnapPointForTokenObj(getPixelsFromGridPositionObj(to), token);
return canvas.walls.checkCollision(new Ray(stepStart, stepEnd));
}
function paintGriddedPathfindingDebug(lastNode, token) {
if (!CONFIG.debug.dragRuler)
return;
debugGraphics.removeChildren().forEach(c => c.destroy());
let currentNode = lastNode;
while (currentNode) {
let text = new PIXI.Text(currentNode.cost.toFixed(0));
let pixels = getSnapPointForTokenObj(getPixelsFromGridPositionObj(currentNode.node), token);
text.anchor.set(0.5, 1.0);
text.x = pixels.x;
text.y = pixels.y;
debugGraphics.addChild(text);
currentNode = currentNode.previous;
}
}
function paintGridlessPathfindingDebug(pathfinder) {
if (!CONFIG.debug.dragRuler)
return;
debugGraphics.removeChildren().forEach(c => c.destroy());
let graphic = new PIXI.Graphics();
graphic.lineStyle(2, 0x440000);
for (const point of GridlessPathfinding.debugGetPathfindingPoints(pathfinder)) {
graphic.drawCircle(point.x, point.y, 5);
}
debugGraphics.addChild(graphic);
}
js/ruler.js
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@@ -1,212 +0,0 @@
import {currentSpeedProvider, getColorForDistanceAndToken, getRangesFromSpeedProvider} from "./api.js";
import {getHexSizeSupportTokenGridCenter} from "./compatibility.js";
import {cancelScheduledMeasurement, measure} from "./foundry_imports.js"
import {getMovementHistory} from "./movement_tracking.js";
import {settingsKey} from "./settings.js";
import {getSnapPointForEntity} from "./util.js";
export function extendRuler() {
class DragRulerRuler extends Ruler {
// Functions below are overridden versions of functions in Ruler
constructor(user, {color=null}={}) {
super(user, {color});
this.previousWaypoints = [];
this.previousLabels = this.addChild(new PIXI.Container());
}
clear() {
super.clear();
this.previousWaypoints = [];
this.previousLabels.removeChildren().forEach(c => c.destroy());
this.dragRulerRanges = undefined;
cancelScheduledMeasurement.call(this);
}
async moveToken(event) {
// Disable moveToken if Drag Ruler is active
if (!this.isDragRuler)
return await super.moveToken(event);
}
toJSON() {
const json = super.toJSON();
if (this.draggedEntity) {
const isToken = this.draggedEntity instanceof Token;
json.draggedEntityIsToken = isToken;
json.draggedEntity = this.draggedEntity.id;
json.waypoints = json.waypoints.map(old => {
let w = duplicate(old);
w.isPathfinding = undefined;
return w;
});
}
return json;
}
update(data) {
// Don't show a GMs drag ruler to non GM players
if (data.draggedEntity && this.user.isGM && !game.user.isGM && !game.settings.get(settingsKey, "showGMRulerToPlayers"))
return;
if (data.draggedEntity) {
if (data.draggedEntityIsToken)
this.draggedEntity = canvas.tokens.get(data.draggedEntity);
else
this.draggedEntity = canvas.templates.get(data.draggedEntity);
}
super.update(data);
}
measure(destination, options={}) {
if (this.isDragRuler) {
// If this is the ruler of a remote user take the waypoints as they were transmitted and don't apply any additional snapping to them
if (this.user !== game.user)
options.snap = false;
return measure.call(this, destination, options);
}
else {
return super.measure(destination, options);
}
}
_endMeasurement() {
super._endMeasurement();
this.draggedEntity = null;
}
// The functions below aren't present in the orignal Ruler class and are added by Drag Ruler
dragRulerAddWaypoint(point, options={}) {
options.snap = options.snap ?? true;
if (options.snap) {
point = getSnapPointForEntity(point.x, point.y, this.draggedEntity);
}
this.waypoints.push(new PIXI.Point(point.x, point.y));
this.labels.addChild(new PreciseText("", CONFIG.canvasTextStyle));
this.waypoints.filter(waypoint => waypoint.isPathfinding).forEach(waypoint => waypoint.isPathfinding = false);
}
dragRulerAddWaypointHistory(waypoints) {
waypoints.forEach(waypoint => waypoint.isPrevious = true);
this.waypoints = this.waypoints.concat(waypoints);
for (const waypoint of waypoints) {
this.labels.addChild(new PreciseText("", CONFIG.canvasTextStyle));
}
}
dragRulerClearWaypoints() {
this.waypoints = [];
this.labels.removeChildren().forEach(c => c.destroy());
}
dragRulerDeleteWaypoint(event={preventDefault: () => {return}}, options={}) {
this.dragRulerRemovePathfindingWaypoints();
options.snap = options.snap ?? true;
if (this.waypoints.filter(w => !w.isPrevious).length > 1) {
event.preventDefault();
const mousePosition = canvas.app.renderer.plugins.interaction.mouse.getLocalPosition(canvas.tokens);
const rulerOffset = this.rulerOffset;
// Options are not passed to _removeWaypoint in vanilla Foundry.
// Send them in case other modules have overriden that behavior and accept an options parameter (Toggle Snap to Grid)
this._removeWaypoint({x: mousePosition.x + rulerOffset.x, y: mousePosition.y + rulerOffset.y}, options);
game.user.broadcastActivity({ruler: this});
}
else {
this.dragRulerAbortDrag(event);
}
}
dragRulerRemovePathfindingWaypoints() {
this.waypoints.filter(waypoint => waypoint.isPathfinding).forEach(_ => this.labels.removeChild(this.labels.children[this.labels.children.length - 1]).destroy());
this.waypoints = this.waypoints.filter(waypoint => !waypoint.isPathfinding);
}
dragRulerAbortDrag(event={preventDefault: () => {return}}) {
const token = this.draggedEntity;
this._endMeasurement();
// Deactivate the drag workflow in mouse
token.mouseInteractionManager._deactivateDragEvents();
token.mouseInteractionManager.state = token.mouseInteractionManager.states.HOVER;
// This will cancel the current drag operation
// Pass in a fake event that hopefully is enough to allow other modules to function
token._onDragLeftCancel(event);
}
async dragRulerRecalculate(tokenIds) {
if (this._state !== Ruler.STATES.MEASURING)
return;
if (tokenIds && !tokenIds.includes(this.draggedEntity.id))
return;
const waypoints = this.waypoints.filter(waypoint => !waypoint.isPrevious);
this.dragRulerClearWaypoints();
if (game.settings.get(settingsKey, "enableMovementHistory"))
this.dragRulerAddWaypointHistory(getMovementHistory(this.draggedEntity));
for (const waypoint of waypoints) {
this.dragRulerAddWaypoint(waypoint, {snap: false});
}
this.measure(this.destination);
game.user.broadcastActivity({ruler: this});
}
static dragRulerGetRaysFromWaypoints(waypoints, destination) {
if ( destination )
waypoints = waypoints.concat([destination]);
return waypoints.slice(1).map((wp, i) => {
const ray = new Ray(waypoints[i], wp);
ray.isPrevious = Boolean(waypoints[i].isPrevious);
return ray;
});
}
dragRulerGetColorForDistance(distance) {
if (!this.isDragRuler)
return this.color;
if (!this.draggedEntity.actor) {
return this.color;
}
// Don't apply colors if the current user doesn't have at least observer permissions
if (this.draggedEntity.actor.permission < 2) {
// If this is a pc and alwaysShowSpeedForPCs is enabled we show the color anyway
if (!(this.draggedEntity.actor.data.type === "character" && game.settings.get(settingsKey, "alwaysShowSpeedForPCs")))
return this.color;
}
distance = Math.round(distance * 100) / 100;
if (!this.dragRulerRanges)
this.dragRulerRanges = getRangesFromSpeedProvider(this.draggedEntity);
return getColorForDistanceAndToken(distance, this.draggedEntity, this.dragRulerRanges) ?? this.color;
}
dragRulerStart(options, measureImmediately=true) {
const entity = this.draggedEntity;
const isToken = entity instanceof Token;
if (isToken && !currentSpeedProvider.usesRuler(entity))
return;
const ruler = canvas.controls.ruler;
ruler.clear();
ruler._state = Ruler.STATES.STARTING;
let entityCenter;
if (isToken && canvas.grid.isHex && game.modules.get("hex-size-support")?.active && CONFIG.hexSizeSupport.getAltSnappingFlag(entity))
entityCenter = getHexSizeSupportTokenGridCenter(entity);
else
entityCenter = entity.center;
if (isToken && game.settings.get(settingsKey, "enableMovementHistory"))
ruler.dragRulerAddWaypointHistory(getMovementHistory(entity));
ruler.dragRulerAddWaypoint(entityCenter, {snap: false});
const mousePosition = canvas.app.renderer.plugins.interaction.mouse.getLocalPosition(canvas.tokens);
const destination = {x: mousePosition.x + ruler.rulerOffset.x, y: mousePosition.y + ruler.rulerOffset.y};
if (measureImmediately)
ruler.measure(destination, options);
}
dragRulerSendState() {
game.user.broadcastActivity({
ruler: this.toJSON()
});
}
}
Ruler = DragRulerRuler;
}
lang/de.json
+3 -37
View File
@@ -29,49 +29,15 @@
"dash": "sprinten"
}
},
"keybindings": {
"cancelDrag": "Ziehen beenden",
"createWaypoint": "Wegpunkt erstellen",
"deleteWaypoint": "Wegpunkt löschen",
"disableSnap": {
"name": "Raster deaktivieren",
"hint": "Während diese Taste gedrückt ist wird das Raster temporär deaktiviert"
},
"moveWithoutAnimation": {
"name": "Token animation deaktivieren",
"hint": "Wenn diese Taste gedrückt wird, während ein Token fallen gelassen wird, bewegt es sich ohne Animation zum Zielort."
},
"togglePathfinding": {
"name": "Wegfindung umschalten",
"hint": "Wenn diese Taste gedrückt gehalten wird, während ein Token gezogen wird, wird die Wegfindung vorübergehend aktiviert/deaktiviert"
}
},
"settings": {
"allowPathfinding": {
"name": "Wegfindung für Spieler erlauben",
"hint": "Erlaubt es Spielern die Wegfindungs zu benutzen. Bitte beachte, dass die Wegfindung Wege durch unerkundeten Nebel des Kriegs und Ätherische Wände berechnen kann. Dies kann deinen Spielern Geheimnisse lüften, von denen sie noch nicht erfahren sollten."
},
"alwaysShowSpeedForPCs": {
"name": "Geschwindigkeit von Spielercharakteren für jeden anzeigen",
"hint": "Wenn diese Einstellung aktiviert ist wird die Färbung der hervorgehobenen Felder bei Spielercharakteren allen Spielern angezeigt, selbst wenn diese keinen Zugriff auf den Charakterbogen haben."
},
"autoStartMeasurement": {
"name": "Automatisch mit Messen beginnen",
"hint": "Wenn diese Option aktiviert ist beginnt Drag Ruler mit dem Messen sobald das Token bewegt wird. Wenn die Option deaktiviert ist bleibt Drag Ruler deaktiviert bis der Knopf zum platzieren eines Wegpunkts betätigt wird."
},
"enableMovementHistory": {
"name": "Bewegungsverlauf während des Kampfes aktivieren",
"hint": "Wenn diesen Option aktiviert ist merkt sich Drag Ruler die Bewegungen, die während einer Runde eines Kampfes gemacht wurden und zeigt diese an, wenn das Token weiterbewegt wird."
},
"rightClickAction": {
"name": "Aktion bei Rechtsklick",
"hint": "Was soll getan werden, wenn die rechte Maustaste während des Ziehens gedrückt wird?",
"choices": {
"create": "Wegpunkt erstellen",
"delete": "Wegpunkt löschen",
"cancel": "Ziehen beenden"
}
},
"showGMRulerToPlayers": {
"name": "Lineal des Spielleiters bei Spielern anzeigen",
"hint": "Wenn diese Option deaktiviert ist wird das Lineal des Spielleiters bei den anderen Spielern nicht angezeigt."
@@ -108,9 +74,9 @@
}
}
},
"useGridlessraster": {
"name": "Geschwindigkeitsraster aktivieren",
"hint": "Lässt Spielfiguren auf gitterlosen Szenen an deren Geschwindigkeitsgrenzen einrasten."
"swapSpacebarRightClick": {
"name": "Leertaste und Rechtsklick tauschen",
"hint": "Die Funktionen der Leertaste und des Rechtsklicks sind, während eine Spielfigur bewegt wird, vertauscht. Wenn diese Option aktiviert wird können mit Rechtsklick Wegpunkte gesetzt werden und mit der Leertaste werden sie wieder gelöscht."
}
}
}
lang/en.json
+3 -37
View File
@@ -29,36 +29,11 @@
"dash": "dash"
}
},
"keybindings": {
"cancelDrag": "Cancel dragging",
"createWaypoint": "Create waypoint",
"deleteWaypoint": "Delete waypoint",
"disableSnap": {
"name": "Disable snapping",
"hint": "Snapping will be temporarily disabled while this key is being held down"
},
"moveWithoutAnimation": {
"name": "Disable token animation",
"hint": "When being held while dropping a token, the token will move to the target location without animating"
},
"togglePathfinding": {
"name": "Toggle pathfinding",
"hint": "When being held while dragging a token, the pathfinding functionality will be temporarily enabled/disabled"
}
},
"settings": {
"allowPathfinding": {
"name": "Allow pathfinding for players",
"hint": "Allows players to use Drag Ruler's pathfinding functionality in this world. Be aware that pathfinding can route through unexplored fog of war and Ethereal Walls, which might reveal secrets to your players ahead of time."
},
"alwaysShowSpeedForPCs": {
"name": "Show PC speed to everyone",
"hint": "If enabled the coloring based on actor speed for player characters will shown to everyone, even if they don't have observer permission for the character sheet."
},
"autoStartMeasurement": {
"name": "Automatically start measuring",
"hint": "If enabled, Drag Ruler will start measuring as soon as the token is being dragged. If disabled, Drag Ruler will remain inactive and will only start measuring once the button to add a waypoint is being pressed."
},
"autoPathfinding": {
"name": "Pathfinding by default",
"hint": "If enabled, dragging a token will automatically use a pathfinding ruler"
@@ -67,15 +42,6 @@
"name": "Enable movement history during combat",
"hint": "If enabled, Drag Ruler will remember the path a token took during it's turn in combat and will display it when you pick the token back up."
},
"rightClickAction": {
"name": "Right click action",
"hint": "What action shall be performed when right clicking while dragging a token?",
"choices": {
"create": "Create waypoint",
"delete": "Delete waypoint",
"cancel": "Cancel drag"
}
},
"showGMRulerToPlayers": {
"name": "Show GM ruler to players",
"hint": "If disabled the ruler of GMs will not be shown for non-GM players"
@@ -112,9 +78,9 @@
}
}
},
"useGridlessRaster": {
"name": "Use speed based snapping",
"hint": "On Gridless scenes, this makes tokens snap to the token's speed ranges."
"swapSpacebarRightClick": {
"name": "Swap spacebar and right click",
"hint": "Swaps the functions of spacebar and right click during dragging. If enabled right click will place waypoints and spacebar will delete them"
}
}
}
lang/es.json
+3 -41
View File
@@ -33,53 +33,15 @@
"dash": "correr"
}
},
"keybindings": {
"cancelDrag": "Cancelar arrastre",
"createWaypoint": "Crear punto de ruta",
"deleteWaypoint": "Borrar punto de ruta",
"disableSnap": {
"name": "Deshabilitar ajuste",
"hint": "El ajuste a la rejilla se deshabilitará temporalmente mientras se presione esta tecla"
},
"moveWithoutAnimation": {
"name": "Deshabilitar animación de icono",
"hint": "Si al soltar un icono se presiona esta tecla, se deshabilitará la animación del icono al moverse al destino"
},
"togglePathfinding": {
"name": "Conmutar búsqueda de camino",
"hint": "Cuando se presione al arrastrar un icono, la funcionalidad de búsqueda de camino será temporalmente habilitada/deshabilitada"
}
},
"settings": {
"allowPathfinding": {
"name": "Permitir búsqueda de camino a los jugadores",
"hint": "Permite a los jugadores usar en este mundo la funcionalidad de búsqueda de camino. Tenga cuidado porque la ruta puede transcurrir por lugares con niebla de guerra o muros invisibles, lo que podrá revelar algunos secretos a los jugadores antes de tiempo"
},
"alwaysShowSpeedForPCs": {
"name": "Mostrar velocidad de los PJs a todo el mundo",
"hint": "Si se habilita, se mostrará a todo el mundo los códigos de colores de las rutas de los PJs, incluso si no tienen permisos de observador para ese personaje"
},
"autoStartMeasurement": {
"name": "Comenzar a medir automáticamente",
"hint": "Si se habilita, Drag Ruler comenzará a medir en cuanto se comience a arrastrar un icono. Si se deshabilita, Drag Ruler permanecerá inactivo y comenzará a medir únicamente cuando se presione el botón configurado para añadir un nuevo punto de ruta"
},
"autoPathfinding": {
"name": "Búsqueda de camino por defecto",
"hint": "Si se habilita, al arrastrar un icono se usará automáticamente la regla de búsqueda de camino"
},
"enableMovementHistory": {
"name": "Habilitar historial de movimiento durante el combate",
"hint": "Si se habilita, Drag Ruler recordará la ruta que ha seguido un icono en su turno y la mostrará al seleccionarlo de nuevo"
},
"rightClickAction": {
"name": "Acción del botón derecho",
"hint": "Qué acción se llevará a cabo cuando se haga clic derecho mientras se arrastra un icono",
"choices": {
"create": "Crear punto de ruta",
"delete": "Borrar punto de ruta",
"cancel": "Cancelar arrastre"
}
},
"showGMRulerToPlayers": {
"name": "Mostrar regla del GM a los jugadores",
"hint": "Si se deshabilita, no se mostrará la regla de medición de los GMs al resto de usuarios"
@@ -116,9 +78,9 @@
}
}
},
"useGridlessRaster": {
"name": "Usar ajuste a la velocidad",
"hint": "Cuando no se use rejilla en la escena, este ajuste hace que los iconos se ajusten a sus rangos de velocidad. Se puede deshabilitar temporalmente pulsando la tecla Mayús mientras se arrastra"
"swapSpacebarRightClick": {
"name": "Intercambiar barra espaciadora y clic-derecho",
"hint": "Cambia el funcionamiento de la barra espaciadora y el clic-derecho del ratón mientras se arrastra un icono. Si está habilitado, clic-derecho establecerá puntos en la ruta y la barra espaciadora los borrará"
}
}
}
lang/fr.json
-86
View File
@@ -1,86 +0,0 @@
{
"drag-ruler": {
"dependencies": {
"ok": "OK",
"terrain-ruler": {
"title": "Comment mesurer un terrain difficile avec Drag Ruler",
"text": "Vous avez le module {moduleName} activé. Drag Ruler est capable de mesurer un terrain difficile qui a été placé à l'aide de ce module. Pour rendre cela possible, Drag Ruler utilise le module Terrain Ruler. Si Terrain Ruler est installé et activé Drag Ruler commencera automatiquement à respecter le terrain difficile dans ses mesures.",
"neverShowAgain": "Ne plus jamais afficher cela"
},
"socketlib": {
"title": "Module Socketlib manquant",
"text": "Drag Ruler nécessite que le module socketlib fonctionne correctement. Veuillez activer le module socketlib dans ce monde."
}
},
"resetMovementHistory": "Réinitialiser l'historique des mouvements",
"genericSpeedProvider": {
"settings": {
"dashMultiplier": {
"name": "Multiplicateur de courses",
"hint": "Cela peut être utilisé pour donner aux jetons une vitesse secondaire pendant la coloration du chemin mesuré. Réglez-le sur 0 pour désactiver la vitesse secondaire."
},
"speedAttribute": {
"name": "Attribut de vitesse",
"hint": "L'attribut qui définit la vitesse de marche d'un jeton. Il est utilisé lors de la coloration du chemin mesuré." }
},
"speeds": {
"walk": "marche",
"dash": "course"
}
},
"settings": {
"alwaysShowSpeedForPCs": {
"name": "Afficher la vitesse du PJ à tout le monde",
"hint": "Si activé, la coloration basée sur la vitesse de l'acteur pour les personnages joueurs sera montrée à tout le monde, même s'ils n'ont pas la permission d'observateur pour la feuille de personnage."
},
"autoStartMeasurement": {
"name": "Démarrer automatiquement la mesure",
"hint": "Si activé, Drag Ruler commencera à mesurer dès que le jeton est glissé. S'il est désactivé, Drag Ruler restera inactif et ne commencera à mesurer qu'une fois que le bouton pour ajouter un waypoint est enfoncé."
},
"enableMovementHistory": {
"name": "Activer l'historique des mouvements pendant le combat",
"hint": "Si activé, Drag Ruler se souviendra du chemin emprunté par un jeton pendant son tour de combat et l'affichera lorsque vous récupérerez le jeton."
},
"showGMRulerToPlayers": {
"name": "Afficher la règle MJ aux joueurs",
"hint": "Si désactivé, la règle des MJ ne sera pas affichée pour les joueurs non-MJ"
},
"speedProviderSettings": {
"name": "Paramètres du système de vitesse",
"hint": "Les paramètres du système de vitesse contiennent tous les paramètres spécifiques au système de jeu.",
"button": "Paramètres du système de vitesse",
"windowTitle": "Paramètres du système de vitesse",
"headers": {
"speedProvider": "système de vitesse",
"speedProviderSettings": "Paramètres spécifiques au système de vitesse"
},
"activeProvider": {
"name": "système de vitesse actuellement actif",
"hint": "Les paramètres indiqués ci-dessous dépendent du système de vitesse actif. Si le MJ sélectionne un système de vitesse différent, les paramètres disponibles peuvent changer."
},
"noSettings": "Ce système de vitesse n'offre aucune option de configuration.",
"color": {
"name": "Couleur pour {colorName}",
"hint": "La couleur qui sera utilisée pour colorier les carrés qui sont dans la plage {colorName}",
"unreachable": {
"name": "injoignable",
"hint": "La couleur des espaces qui ne sont pas accessibles par le jeton déplacé"
}
},
"speedProvider": {
"name": "système de paramètres de vitesse",
"indice": "Sélectionnez qui fournit les informations de vitesse pour les jetons lors de la coloration. Drag Ruler offre un système de vitesse générique qui fournit des fonctionnalités de base et devrait fonctionner pour tous les systèmes de jeu s'il est correctement configuré. Plus de systèmes de vitesse peuvent être mis à disposition via les systèmes de jeu et les modules installés . La sélection d'un autre système de vitesse que le système de vitesse générique peut offrir une meilleure intégration dans les règles du système de jeu que vous utilisez. Les options ci-dessous dépendent du système de vitesse sélectionné ici.",
"choices": {
"module": "Module {name}",
"native": "Générique",
"system": "Systéme {name}"
}
}
},
"useGridlessRaster": {
"name": "Use speed based snapping",
"hint": "On Gridless scenes, this makes tokens snap to the token's speed ranges. This can be temporarily disabled by pressing Shift during drag."
}
}
}
}
lang/ja.json
+3 -25
View File
@@ -1,19 +1,5 @@
{
"Localization Provided By": "touge",
"drag-ruler": {
"dependencies": {
"ok": "OK",
"terrain-ruler": {
"title": "Drag Rulerで移動困難地形を測定する",
"text": "「{moduleName}」モジュールが有効化されました。Drag Rulerは、同モジュールによって設定された移動困難地形を測定できます。これには「Terrain Ruler」モジュールが必要です。有効化すると、自動的に移動困難地形を考慮した測定を行います",
"neverShowAgain": "再表示しない"
},
"socketlib": {
"title": "「Socketlib」が見つかりません",
"text": "Drag Rulerの正常動作には「Socketlib」モジュールが必要です。このワールドで「Socketlib」を有効にしてください。"
}
},
"resetMovementHistory": "移動履歴のリセット",
"genericSpeedProvider": {
"settings": {
"dashMultiplier": {
@@ -35,14 +21,6 @@
"name": "プレイヤーキャラクターの移動速度を全員に公開する",
"hint": "有効にすると、アクターの観察者(Observer)権限を持たない人にも,移動範囲の色分けが表示されるようになります。"
},
"autoStartMeasurement": {
"name": "自動計測",
"hint": "有効化時、Drag Rulerはトークンがドラッグされた時点で計測を初めます。無効化の場合、ドラッグしてもDrag Rulerは起動せず、中間地点をおいたときにのみ起動します。"
},
"enableMovementHistory": {
"name": "戦闘中の移動履歴を有効にする",
"hint": "有効にすると、Drag Rulerは戦闘ターン中にコマが辿った経路を記憶するようになります。これはコマの再選択時に再表示されます。"
},
"showGMRulerToPlayers": {
"name": "GMのルーラーをプレイヤーに見せる",
"hint": "無効の場合、GMのルーラーはプレイヤーに表示されません。"
@@ -79,9 +57,9 @@
}
}
},
"useGridlessRaster": {
"name": "移動速度制限",
"hint": "グリッドの無いシーンでは、コマがドラッグできる範囲を移動速度ぶんまで制限します。Shiftキーを押すことで一時的にこの制限を無視できます。"
"swapSpacebarRightClick": {
"name": "スペースキーと右クリックを入れ替える",
"hint": "ドラッグ中のスペースキーと右クリックの機能を入れ替えます。有効にすると右クリックがウェイポイントの配置、スペースキーが削除になります。"
}
}
}
lang/ko.json
+4
View File
@@ -73,6 +73,10 @@
"system": "시스템 {name}"
}
}
},
"swapSpacebarRightClick": {
"name": "스페이스바와 우클릭 스왑",
"hint": "드래그 도중 스페이스바의 기능을 우클릭 기능과 바꾼다. 활성화된 경우 드래그시 우클릭을 사용하면 경유지가 배치되고, 스페이스바가 해당 경유지를 삭제한다."
}
}
}
lang/zh-tw.json
+4
View File
@@ -56,6 +56,10 @@
"system": "系統 {name}"
}
}
},
"swapSpacebarRightClick": {
"name": "交換空格鍵並鼠標右鍵",
"hint": "交換空格鍵和右鍵點擊在拖動過程中的功能。如果啟用,右鍵單擊將放置航點,空格鍵將刪除它們。"
}
}
}
module.json
+11 -17
View File
@@ -2,9 +2,9 @@
"name": "drag-ruler",
"title": "Drag Ruler",
"description": "When dragging a token displays a ruler showing how far you've moved that token.",
"version": "1.11.5",
"minimumCoreVersion" : "9.245",
"compatibleCoreVersion" : "9",
"version": "1.7.7-prerelease1",
"minimumCoreVersion" : "0.8.5",
"compatibleCoreVersion" : "0.8.8",
"authors": [
{
"name": "Manuel Vögele",
@@ -13,9 +13,8 @@
}
],
"esmodules": [
"js/libwrapper_shim.js",
"js/main.js",
"js/socket.js"
"src/main.js",
"src/socket.js"
],
"templates": [
"speed_provider_settings.html"
@@ -31,16 +30,6 @@
"name": "English",
"path": "lang/en.json"
},
{
"lang": "es",
"name": "Español",
"path": "lang/es.json"
},
{
"lang": "fr",
"name": "Français",
"path": "lang/fr.json"
},
{
"lang": "ja",
"name": "日本語",
@@ -55,6 +44,11 @@
"lang": "zh-tw",
"name": "正體中文",
"path": "lang/zh-tw.json"
},
{
"lang": "es",
"name": "Español",
"path": "lang/es.json"
}
],
"dependencies": [
@@ -65,7 +59,7 @@
],
"socket": true,
"url": "https://github.com/manuelVo/foundryvtt-drag-ruler",
"download": "https://github.com/manuelVo/foundryvtt-drag-ruler/archive/v1.11.5.zip",
"download": "https://codeload.github.com/manuelVo/foundryvtt-drag-ruler/zip/refs/heads/prerelease",
"manifest": "https://raw.githubusercontent.com/manuelVo/foundryvtt-drag-ruler/master/module.json",
"readme": "https://github.com/manuelVo/foundryvtt-drag-ruler/blob/master/README.md",
"changelog": "https://github.com/manuelVo/foundryvtt-drag-ruler/blob/master/CHANGELOG.md",
rust/.gitignore
-1
View File
@@ -1 +0,0 @@
target/
rust/Cargo.lock
Generated
-154
View File
@@ -1,154 +0,0 @@
# This file is automatically @generated by Cargo.
# It is not intended for manual editing.
version = 3
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rust/Cargo.toml
-19
View File
@@ -1,19 +0,0 @@
[package]
name = "gridless-pathfinding"
version = "0.1.0"
edition = "2021"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[lib]
crate-type = ["cdylib"]
[profile.release]
lto = true
#debug = true
[dependencies]
console_error_panic_hook = "0.1.7"
js-sys = "0.3.56"
rustc-hash = "1.1.0"
wasm-bindgen = "0.2.79"
rust/rustfmt.toml
-1
View File
@@ -1 +0,0 @@
hard_tabs = true
rust/src/geometry.rs
-187
View File
@@ -1,187 +0,0 @@
use std::hash::{Hash, Hasher};
use wasm_bindgen::prelude::*;
#[wasm_bindgen]
extern "C" {
pub type JsPoint;
#[wasm_bindgen(method, getter)]
fn x(this: &JsPoint) -> f64;
#[wasm_bindgen(method, getter)]
fn y(this: &JsPoint) -> f64;
}
#[wasm_bindgen]
#[derive(Debug, Copy, Clone)]
pub struct Point {
pub x: f64,
pub y: f64,
}
impl Point {
pub fn new(x: f64, y: f64) -> Self {
Self { x, y }
}
pub fn from_line_x(line: &Line, x: f64) -> Self {
let y = line.calc_y(x);
Self { x, y }
}
pub fn distance_to(&self, to: Point) -> f64 {
(self.y - to.y).hypot(self.x - to.x)
}
pub fn is_same_as(&self, other: &Self) -> bool {
let e = 0.000001;
(self.x - other.x).abs() < e && (self.y - other.y).abs() < e
}
}
impl Eq for Point {}
impl PartialEq for Point {
fn eq(&self, other: &Self) -> bool {
self.x == other.x && self.y == other.y
}
}
impl Hash for Point {
fn hash<H: Hasher>(&self, hasher: &mut H) {
self.x.to_bits().hash(hasher);
self.y.to_bits().hash(hasher);
}
}
impl From<&JsPoint> for Point {
fn from(point: &JsPoint) -> Self {
Self::new(point.x(), point.y())
}
}
#[derive(Debug, Copy, Clone)]
pub struct Line {
pub m: f64,
pub b: f64,
pub p1: Point,
}
impl Line {
pub fn new(m: f64, b: f64, p1: Point) -> Self {
Self { m, b, p1 }
}
pub fn from_points(p1: Point, p2: Point) -> Self {
let m = (p1.y - p2.y) / (p1.x - p2.x);
let b = p1.y - m * p1.x;
Self { m, b, p1 }
}
pub fn from_point_and_angle(p1: Point, angle: f64) -> Self {
let p2 = Point {
x: p1.x - angle.cos(),
y: p1.y - angle.sin(),
};
Line::from_points(p1, p2)
}
pub fn is_vertical(&self) -> bool {
self.m.is_infinite()
}
pub fn is_horizontal(&self) -> bool {
self.m == 0.0
}
pub fn calc_x(&self, y: f64) -> f64 {
(y - self.b) / self.m
}
pub fn calc_y(&self, x: f64) -> f64 {
self.m * x + self.b
}
pub fn intersection(&self, other: &Line) -> Option<Point> {
// Are both lines vertical?
if self.is_vertical() && other.is_vertical() {
return None;
}
// Are the lines paralell?
if (self.m - other.m).abs() < 0.00000005 {
return None;
}
// Is one of the lines vertical?
if self.is_vertical() || other.is_vertical() {
let vertical;
let regular;
if self.is_vertical() {
vertical = self;
regular = other;
} else {
vertical = other;
regular = self;
}
return Some(Point::from_line_x(regular, vertical.p1.x));
}
// Calculate x coordinate of intersection point between both lines
// Find intersection point: x * m1 + b1 = x * m2 + b2
// Solve for x: x = (b1 - b2) / (m2 - m1)
let x = (self.b - other.b) / (other.m - self.m);
if self.m.abs() < other.m.abs() {
Some(Point::from_line_x(self, x))
} else {
Some(Point::from_line_x(other, x))
}
}
pub fn get_perpendicular_through_point(&self, p: Point) -> Self {
let m = -1.0 / self.m;
let b = p.y - m * p.x;
Self { m, b, p1: p }
}
}
#[derive(Debug, Clone, Copy)]
pub struct LineSegment {
pub p1: Point,
pub p2: Point,
pub line: Line,
}
impl LineSegment {
pub fn new(p1: Point, p2: Point) -> Self {
Self {
p1,
p2,
line: Line::from_points(p1, p2),
}
}
pub fn intersection(&self, other: &LineSegment) -> Option<Point> {
let intersection = self.line.intersection(&other.line);
intersection.filter(|intersection| {
self.is_intersection_on_segment(*intersection)
&& other.is_intersection_on_segment(*intersection)
})
}
fn is_intersection_on_segment(&self, intersection: Point) -> bool {
if intersection.is_same_as(&self.p1) || intersection.is_same_as(&self.p2) {
return true;
}
if self.line.is_vertical() || self.line.m.abs() > 1.0 {
return between(intersection.y, self.p1.y, self.p2.y);
}
between(intersection.x, self.p1.x, self.p2.x)
}
}
pub fn between<T: Copy + PartialOrd>(num: T, a: T, b: T) -> bool {
let (min, max) = if a < b { (a, b) } else { (b, a) };
num >= min && num <= max
}
rust/src/js_api.rs
-237
View File
@@ -1,237 +0,0 @@
use js_sys::Array;
use wasm_bindgen::prelude::*;
use crate::{
geometry::Point,
pathfinder::{DiscoveredNodePtr, Pathfinder},
};
#[allow(unused)]
macro_rules! log {
( $( $t:tt )* ) => {
log(&format!( $( $t )* ));
};
}
#[wasm_bindgen]
extern "C" {
#[wasm_bindgen(js_namespace = console, js_name=warn)]
pub fn log(s: &str);
}
#[wasm_bindgen]
extern "C" {
pub type JsWall;
pub type JsWallData;
#[wasm_bindgen(method, getter)]
fn data(this: &JsWall) -> JsWallData;
#[wasm_bindgen(method, getter)]
fn c(this: &JsWallData) -> Vec<f64>;
#[wasm_bindgen(method, getter, js_name = "door")]
fn door_type(this: &JsWallData) -> DoorType;
#[wasm_bindgen(method, getter, js_name = "ds")]
fn door_state(this: &JsWallData) -> DoorState;
#[wasm_bindgen(method, getter, js_name = "move")]
fn move_type(this: &JsWallData) -> WallSenseType;
}
#[wasm_bindgen]
extern "C" {
pub type JsPoint;
#[wasm_bindgen(method, getter)]
fn x(this: &JsPoint) -> f64;
#[wasm_bindgen(method, getter)]
fn y(this: &JsPoint) -> f64;
}
impl From<JsPoint> for Point {
fn from(point: JsPoint) -> Self {
Point {
x: point.x(),
y: point.y(),
}
}
}
#[wasm_bindgen]
#[derive(Debug, Copy, Clone, PartialEq)]
pub enum DoorState {
CLOSED = 0,
OPEN = 1,
LOCKED = 2,
}
impl TryFrom<usize> for DoorState {
type Error = ();
fn try_from(value: usize) -> Result<Self, Self::Error> {
match value {
x if x == Self::CLOSED as usize => Ok(Self::CLOSED),
x if x == Self::OPEN as usize => Ok(Self::OPEN),
x if x == Self::LOCKED as usize => Ok(Self::LOCKED),
_ => Err(()),
}
}
}
#[wasm_bindgen]
#[derive(Debug, Copy, Clone, PartialEq)]
pub enum DoorType {
NONE = 0,
DOOR = 1,
SECRET = 2,
}
impl TryFrom<usize> for DoorType {
type Error = ();
fn try_from(value: usize) -> Result<Self, Self::Error> {
match value {
x if x == Self::NONE as usize => Ok(Self::NONE),
x if x == Self::DOOR as usize => Ok(Self::DOOR),
x if x == Self::SECRET as usize => Ok(Self::SECRET),
_ => Err(()),
}
}
}
#[wasm_bindgen]
#[derive(Debug, Copy, Clone, PartialEq)]
pub enum WallSenseType {
NONE = 0,
LIMITED = 10,
NORMAL = 20,
}
impl TryFrom<usize> for WallSenseType {
type Error = ();
fn try_from(value: usize) -> Result<Self, Self::Error> {
match value {
x if x == Self::NONE as usize => Ok(Self::NONE),
x if x == Self::LIMITED as usize => Ok(Self::LIMITED),
x if x == Self::NORMAL as usize => Ok(Self::NORMAL),
_ => Err(()),
}
}
}
#[derive(Debug, Clone, Copy)]
pub struct Wall {
pub p1: Point,
pub p2: Point,
pub door_type: DoorType,
pub door_state: DoorState,
pub move_type: WallSenseType,
}
impl Wall {
pub fn new(
p1: Point,
p2: Point,
door_type: DoorType,
door_state: DoorState,
move_type: WallSenseType,
) -> Self {
Self {
p1,
p2,
door_type,
door_state,
move_type,
}
}
pub fn is_door(&self) -> bool {
self.door_type != DoorType::NONE
}
pub fn is_open(&self) -> bool {
self.door_state == DoorState::OPEN
}
}
impl Wall {
fn from_js(wall: &JsWall) -> Self {
let data = wall.data();
let mut c = data.c();
c.iter_mut().for_each(|val| *val = val.round());
Self::new(
Point::new(c[0], c[1]),
Point::new(c[2], c[3]),
data.door_type(),
data.door_state(),
data.move_type(),
)
}
}
#[allow(dead_code)]
#[wasm_bindgen]
pub fn initialize(js_walls: Vec<JsValue>, token_size: f64) -> Pathfinder {
let mut walls = Vec::with_capacity(js_walls.len());
for wall in js_walls {
let wall = JsWall::from(wall);
walls.push(Wall::from_js(&wall));
}
Pathfinder::initialize(walls, token_size)
}
#[allow(dead_code)]
#[wasm_bindgen]
pub fn free(pathfinder: Pathfinder) {
drop(pathfinder);
}
#[allow(dead_code)]
#[wasm_bindgen(js_name=findPath)]
pub fn find_path(pathfinder: &mut Pathfinder, from: JsPoint, to: JsPoint) -> Option<Array> {
pathfinder
.find_path(from.into(), to.into())
.map(|first_node| first_node.iter_path().map(JsValue::from).collect())
}
#[allow(dead_code)]
#[wasm_bindgen(js_name=debugGetPathfindingPoints)]
pub fn debug_get_pathfinding_points(pathfinder: &Pathfinder) -> Array {
pathfinder
.nodes
.iter()
.map(|node| node.borrow().point)
.map(JsValue::from)
.collect()
}
trait IteratePath {
fn iter_path(&self) -> PathIterator;
}
impl IteratePath for DiscoveredNodePtr {
fn iter_path(&self) -> PathIterator {
PathIterator {
current_node: Some(self.clone()),
}
}
}
struct PathIterator {
current_node: Option<DiscoveredNodePtr>,
}
impl Iterator for PathIterator {
type Item = Point;
fn next(&mut self) -> Option<Self::Item> {
if let Some(node) = self.current_node.clone() {
let point = node.borrow().node.borrow().point;
self.current_node = node.borrow().previous.clone();
Some(point)
} else {
None
}
}
}
rust/src/lib.rs
-12
View File
@@ -1,12 +0,0 @@
mod geometry;
#[macro_use]
mod js_api;
mod pathfinder;
mod ptr_indexed_hash_set;
use wasm_bindgen::prelude::*;
#[wasm_bindgen(start)]
pub fn main() {
std::panic::set_hook(Box::new(console_error_panic_hook::hook));
}
rust/src/pathfinder.rs
-334
View File
@@ -1,334 +0,0 @@
use std::{cell::RefCell, f64::consts::PI, rc::Rc};
use wasm_bindgen::prelude::*;
use rustc_hash::FxHashMap;
use crate::{
geometry::{LineSegment, Point},
js_api::{Wall, WallSenseType},
ptr_indexed_hash_set::PtrIndexedHashSet,
};
pub struct Edge {
target: NodePtr,
cost: f64,
}
pub struct Node {
pub point: Point,
edges: Option<Vec<Edge>>,
final_edge: Option<Option<Edge>>,
}
impl Node {
pub fn new(point: Point) -> Self {
Self {
point,
edges: None,
final_edge: None,
}
}
fn iter_edges(
&self,
) -> std::iter::Chain<std::slice::Iter<'_, Edge>, std::option::Iter<'_, Edge>> {
self.edges
.as_ref()
.unwrap()
.iter()
.chain(self.final_edge.as_ref().unwrap().iter())
}
}
type NodePtr = Rc<RefCell<Node>>;
impl From<Node> for NodePtr {
fn from(node: Node) -> Self {
Rc::new(RefCell::new(node))
}
}
pub struct DiscoveredNode {
pub node: NodePtr,
cost: f64,
estimated: f64,
pub previous: Option<DiscoveredNodePtr>,
}
pub type DiscoveredNodePtr = Rc<RefCell<DiscoveredNode>>;
impl From<DiscoveredNode> for DiscoveredNodePtr {
fn from(node: DiscoveredNode) -> Self {
Rc::new(RefCell::new(node))
}
}
#[derive(Default, Clone)]
pub struct NodeStorage {
regular_nodes: Vec<NodePtr>,
final_node: Option<NodePtr>,
}
pub type NodeStorageIterator<'a> = std::iter::Chain<
std::slice::Iter<'a, Rc<RefCell<Node>>>,
std::option::Iter<'a, Rc<RefCell<Node>>>,
>;
impl NodeStorage {
fn new() -> Self {
Self::default()
}
fn push(&mut self, node: NodePtr) {
self.regular_nodes.push(node);
}
fn initialize_edges(&mut self, node: &NodePtr, walls: &[LineSegment]) {
if node.borrow().final_edge.is_none() {
let final_edge = self
.final_node
.as_ref()
.filter(|neighbor| {
!self.collides_with_wall(
&LineSegment::new(node.borrow().point, neighbor.borrow().point),
walls,
)
})
.map(|neighbor| Edge {
target: neighbor.clone(),
cost: node.borrow().point.distance_to(neighbor.borrow().point),
});
node.borrow_mut().final_edge = Some(final_edge);
}
if node.borrow().edges.is_some() {
return;
}
let point = node.borrow().point;
let mut edges = Vec::new();
for neighbor in &self.regular_nodes {
if Rc::ptr_eq(neighbor, node) {
continue;
}
let neighbor_point = neighbor.borrow().point;
if !self.collides_with_wall(&LineSegment::new(point, neighbor_point), walls) {
let cost = point.distance_to(neighbor_point);
edges.push(Edge {
target: neighbor.clone(),
cost,
});
}
}
node.borrow_mut().edges = Some(edges);
}
fn collides_with_wall(&self, line: &LineSegment, walls: &[LineSegment]) -> bool {
walls.iter().any(|wall| line.intersection(wall).is_some())
}
pub fn cleanup_final_edges(&mut self) {
for node in &self.regular_nodes {
node.borrow_mut().final_edge = None;
}
}
pub fn iter(&self) -> NodeStorageIterator {
self.regular_nodes.iter().chain(self.final_node.iter())
}
}
#[wasm_bindgen]
pub struct Pathfinder {
#[wasm_bindgen(skip)]
pub nodes: NodeStorage,
#[wasm_bindgen(skip)]
pub walls: Vec<LineSegment>,
}
impl Pathfinder {
pub fn initialize<I>(walls: I, token_size: f64) -> Self
where
I: IntoIterator<Item = Wall>,
{
let distance_from_walls = token_size / 2.0;
let mut endpoints = FxHashMap::<Point, Vec<f64>>::default();
let mut line_segments = Vec::new();
for wall in walls {
if wall.move_type == WallSenseType::NONE {
continue;
}
if wall.is_door() && wall.is_open() {
continue;
}
let x_diff = wall.p2.x - wall.p1.x;
let y_diff = wall.p2.y - wall.p1.y;
let p1_angle = y_diff.atan2(x_diff).rem_euclid(2.0 * PI);
let p2_angle = (p1_angle + PI).rem_euclid(2.0 * PI);
for (point, angle) in [(wall.p1, p1_angle), (wall.p2, p2_angle)] {
let angles = endpoints.entry(point).or_insert_with(Vec::new);
angles.push(angle);
}
line_segments.push(LineSegment::new(wall.p1, wall.p2));
}
endpoints
.values_mut()
.for_each(|angles| angles.sort_by(|a, b| a.partial_cmp(b).unwrap()));
let mut nodes = NodeStorage::new();
for (point, angles) in endpoints {
assert!(!angles.is_empty());
for i in 1..angles.len() {
let angle1 = angles[i - 1];
let angle2 = angles[i];
if angle1 == angle2 {
continue;
}
let angle_diff = angle2 - angle1;
if angle_diff <= PI {
continue;
}
{
let angle_between = angle_diff / 2.0 + angle1;
let pathfinding_node = calc_pathfinding_node(
point,
angle_between,
distance_from_walls,
&mut line_segments,
);
if angle_diff > 1.5 * PI {
nodes.push(pathfinding_node);
}
}
nodes.push(calc_pathfinding_node(
point,
angle1 + 0.5 * PI,
distance_from_walls,
&mut line_segments,
));
nodes.push(calc_pathfinding_node(
point,
angle2 - 0.5 * PI,
distance_from_walls,
&mut line_segments,
));
}
let angle1 = angles.last().unwrap();
let angle2 = angles.first().unwrap() + 2.0 * PI;
let angle_diff = angle2 - angle1;
if angle_diff <= PI {
continue;
}
if angle_diff > 1.5 * PI {
let angle_between = angle_diff / 2.0 + angle1;
nodes.push(calc_pathfinding_node(
point,
angle_between,
distance_from_walls,
&mut line_segments,
));
}
nodes.push(calc_pathfinding_node(
point,
angle1 + 0.5 * PI,
distance_from_walls,
&mut line_segments,
));
nodes.push(calc_pathfinding_node(
point,
angle2 - 0.5 * PI,
distance_from_walls,
&mut line_segments,
));
}
// TODO Eliminating nodes close to each other may improve performance
Self {
nodes,
walls: line_segments,
}
}
pub fn find_path(&mut self, from: Point, to: Point) -> Option<DiscoveredNodePtr> {
self.nodes.cleanup_final_edges();
let mut nodes = self.nodes.clone();
nodes.final_node = Some(NodePtr::from(Node::new(from)));
let to_node = NodePtr::from(Node::new(to));
nodes.initialize_edges(&to_node, &self.walls);
let to = DiscoveredNode {
node: to_node,
cost: 0.0,
estimated: to.distance_to(from),
previous: None,
};
// TODO Use a sorted set for next_nodes for better performance
let mut next_nodes = vec![DiscoveredNodePtr::from(to)];
let mut previous_nodes = PtrIndexedHashSet::new();
while !next_nodes.is_empty() {
// Sort by estimated cost, high to low
// TODO Maybe tere's a faster way to do this than re-sorting every iteration?
next_nodes.sort_by(|a, b| {
b.borrow()
.estimated
.partial_cmp(&a.borrow().estimated)
.unwrap()
});
// Get node with cheapest estimate
let current_node = next_nodes.pop().unwrap();
if current_node.borrow().node.borrow().point.x == from.x
&& current_node.borrow().node.borrow().point.y == from.y
{
return Some(current_node);
}
previous_nodes.insert(current_node.borrow().node.clone());
for edge in current_node.borrow().node.borrow().iter_edges() {
let neighbor = &edge.target;
if previous_nodes.contains(neighbor) {
continue;
}
nodes.initialize_edges(neighbor, &self.walls);
// Add a flat 0.00001 cost per node to discurage creation of unnecessary waypoints
let cost = current_node.borrow().cost + edge.cost + 0.00001;
let discovered_neighbor = DiscoveredNode {
node: neighbor.clone(),
cost,
estimated: cost + neighbor.borrow().point.distance_to(from),
previous: Some(current_node.clone()),
};
let neighbor_entry = next_nodes
.iter()
.find(|node| Rc::ptr_eq(&node.borrow().node, neighbor));
if let Some(entry) = neighbor_entry {
// If the neighbor is cheaper to reach via the current route than through previously discovered routes, replace it
if entry.borrow().cost > cost {
*entry.borrow_mut() = discovered_neighbor;
}
} else {
next_nodes.push(discovered_neighbor.into());
}
}
}
None
}
}
fn calc_pathfinding_node(
p: Point,
angle: f64,
distance_from_walls: f64,
line_segments: &mut Vec<LineSegment>,
) -> NodePtr {
let offset_x = angle.cos() * distance_from_walls;
let offset_y = angle.sin() * distance_from_walls;
line_segments.push(LineSegment::new(
p,
Point {
x: p.x + offset_x * 0.99,
y: p.y + offset_y * 0.99,
},
));
NodePtr::from(Node::new(Point {
x: p.x + offset_x,
y: p.y + offset_y,
}))
}
rust/src/ptr_indexed_hash_set.rs
-68
View File
@@ -1,68 +0,0 @@
use rustc_hash::FxHashSet;
use std::collections::hash_set;
use std::hash::{Hash, Hasher};
use std::rc::Rc;
#[derive(Default)]
pub struct PtrIndexedHashSet<T>(FxHashSet<PtrIndexedRc<T>>);
impl<T> PtrIndexedHashSet<T> {
pub fn new() -> Self {
PtrIndexedHashSet(FxHashSet::default())
}
pub fn insert(&mut self, value: Rc<T>) -> bool {
self.0.insert(PtrIndexedRc(value))
}
pub fn remove(&mut self, value: &Rc<T>) -> bool {
self.0.remove(&PtrIndexedRc(Rc::clone(value)))
}
pub fn contains(&mut self, value: &Rc<T>) -> bool {
self.0.contains(&PtrIndexedRc(Rc::clone(value)))
}
}
impl<T: std::fmt::Debug> std::fmt::Debug for PtrIndexedHashSet<T> {
fn fmt(&self, f: &mut std::fmt::Formatter) -> std::fmt::Result {
f.debug_set().entries(self.0.iter().map(|e| &e.0)).finish()
}
}
struct PtrIndexedRc<T>(Rc<T>);
impl<T> Hash for PtrIndexedRc<T> {
fn hash<H: Hasher>(&self, state: &mut H) {
Rc::as_ptr(&self.0).hash(state)
}
}
impl<T> PartialEq for PtrIndexedRc<T> {
fn eq(&self, other: &Self) -> bool {
Rc::ptr_eq(&self.0, &other.0)
}
}
impl<T> Eq for PtrIndexedRc<T> {}
pub struct PtrIndexedHashSetIterator<'a, T>(hash_set::Iter<'a, PtrIndexedRc<T>>);
impl<'a, T> Iterator for PtrIndexedHashSetIterator<'a, T> {
type Item = &'a Rc<T>;
fn next(&mut self) -> Option<Self::Item> {
match self.0.next() {
Some(item) => Some(&item.0),
None => None,
}
}
}
impl<'a, T> IntoIterator for &'a PtrIndexedHashSet<T> {
type Item = &'a Rc<T>;
type IntoIter = PtrIndexedHashSetIterator<'a, T>;
fn into_iter(self) -> Self::IntoIter {
PtrIndexedHashSetIterator::<T>((&self.0).iter())
}
}
js/api.js → src/api.js
+4 -19
View File
@@ -103,12 +103,12 @@ export function getUnreachableColorFromSpeedProvider() {
}
}
export function getCostFromSpeedProvider(token, area, options) {
export function getCostFromSpeedProvider(token, area) {
try {
if (currentSpeedProvider instanceof Function) {
return SpeedProvider.prototype.getCostForStep.call(undefined, token, area, options);
return SpeedProvider.prototype.getCostForStep.call(undefined, token, area);
}
return currentSpeedProvider.getCostForStep(token, area, options);
return currentSpeedProvider.getCostForStep(token, area);
}
catch (e) {
console.error(e);
@@ -116,26 +116,11 @@ export function getCostFromSpeedProvider(token, area, options) {
}
}
export function getColorForDistanceAndToken(distance, token, ranges=null) {
if (!ranges) {
ranges = getRangesFromSpeedProvider(token);
}
if (ranges.length === 0)
return null;
const currentRange = ranges.reduce((minRange, currentRange) => {
if (distance <= currentRange.range && currentRange.range < minRange.range)
return currentRange;
return minRange;
}, {range: Infinity, color: getUnreachableColorFromSpeedProvider()});
return currentRange.color;
}
export function getMovedDistanceFromToken(token) {
const terrainRulerAvailable = game.modules.get("terrain-ruler")?.active;
const history = getMovementHistory(token);
const segments = Ruler.dragRulerGetRaysFromWaypoints(history, {x: token.x, y: token.y}).map(ray => {return {ray}});
const shape = getTokenShape(token);
const distances = measureDistances(segments, token, shape, {enableTerrainRuler: terrainRulerAvailable});
const distances = measureDistances(segments, token, shape);
// Sum up the distances
return distances.reduce((acc, val) => acc + val, 0);
}
js/compatibility.js → src/compatibility.js
+11 -12
View File
@@ -1,4 +1,5 @@
import {getCostFromSpeedProvider} from "./api.js";
import {getColorForDistance} from "./main.js"
import {settingsKey} from "./settings.js";
import {getAreaFromPositionAndShape, highlightTokenShape} from "./util.js";
@@ -9,35 +10,30 @@ export function getHexSizeSupportTokenGridCenter(token) {
export function highlightMeasurementTerrainRuler(ray, startDistance, tokenShape=[{x: 0, y: 0}], alpha=1) {
for (const space of ray.terrainRulerVisitedSpaces.reverse()) {
const color = this.dragRulerGetColorForDistance(startDistance + space.distance);
const color = getColorForDistance.call(this, startDistance, space.distance)
highlightTokenShape.call(this, space, tokenShape, color, alpha)
}
}
export function measureDistances(segments, entity, shape, options={}) {
const isToken = entity instanceof Token;
const opts = duplicate(options)
if (canvas.grid.diagonalRule === "EUCL") {
opts.ignoreGrid = true;
opts.gridSpaes = false;
}
if (opts.enableTerrainRuler) {
if (!opts.gridSpaces)
opts.gridSpaces = true;
const terrainRulerAvailable = isToken && game.modules.get("terrain-ruler")?.active && (!game.modules.get("TerrainLayer")?.active || canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS);
if (terrainRulerAvailable) {
const firstNewSegmentIndex = segments.findIndex(segment => !segment.ray.dragRulerVisitedSpaces);
const previousSegments = segments.slice(0, firstNewSegmentIndex);
const newSegments = segments.slice(firstNewSegmentIndex);
const distances = previousSegments.map(segment => segment.ray.dragRulerVisitedSpaces[segment.ray.dragRulerVisitedSpaces.length - 1].distance);
previousSegments.forEach(segment => segment.ray.terrainRulerVisitedSpaces = duplicate(segment.ray.dragRulerVisitedSpaces));
opts.costFunction = (x, y, costOptions={}) => { return getCostFromSpeedProvider(entity, getAreaFromPositionAndShape({x, y}, shape), costOptions); }
opts.costFunction = (x, y) => getCostFromSpeedProvider(entity, getAreaFromPositionAndShape({x, y}, shape), {x, y});
if (previousSegments.length > 0)
opts.terrainRulerInitialState = previousSegments[previousSegments.length - 1].ray.dragRulerFinalState;
return distances.concat(terrainRuler.measureDistances(newSegments, opts));
}
else {
// If another module wants to enable grid measurements but disable grid highlighting,
// manually set the *duplicate* option's gridSpaces value to true for the Foundry logic to work properly
if(!opts.ignoreGrid) {
opts.gridSpaces = true;
}
return canvas.grid.measureDistances(segments, opts);
}
}
@@ -65,6 +61,9 @@ export function checkDependencies() {
if (game.modules.get("enhanced-terrain-layer")?.active) {
enabledTerrainModule = game.modules.get("enhanced-terrain-layer").data.title;
}
else if (game.modules.get("TerrainLayer")?.active) {
enabledTerrainModule = game.modules.get("TerrainLayer").data.title;
}
if (enabledTerrainModule) {
new Dialog({
title: game.i18n.localize("drag-ruler.dependencies.terrain-ruler.title"),
js/foundry_fixes.js → src/foundry_fixes.js
View File
js/foundry_imports.js → src/foundry_imports.js
+36 -71
View File
@@ -1,12 +1,12 @@
import {highlightMeasurementTerrainRuler, measureDistances} from "./compatibility.js";
import {getGridPositionFromPixels, getGridPositionFromPixelsObj, getPixelsFromGridPositionObj} from "./foundry_fixes.js";
import {getCenterFromGridPositionObj, getGridPositionFromPixels, getGridPositionFromPixelsObj} from "./foundry_fixes.js";
import {Line} from "./geometry.js";
import {disableSnap, moveWithoutAnimation} from "./keybindings.js";
import {getColorForDistance} from "./main.js"
import {trackRays} from "./movement_tracking.js"
import {findPath, isPathfindingEnabled} from "./pathfinding.js";
import {find_path} from "./pathfinding.js";
import {settingsKey} from "./settings.js";
import {recalculate} from "./socket.js";
import {applyTokenSizeOffset, enumeratedZip, getSnapPointForEntity, getSnapPointForToken, getSnapPointForTokenObj, getTokenShape, highlightTokenShape, sum} from "./util.js";
import {applyTokenSizeOffset, getSnapPointForEntity, getSnapPointForToken, getTokenShape, highlightTokenShape, zip} from "./util.js";
// This is a modified version of Ruler.moveToken from foundry 0.7.9
export async function moveEntities(draggedEntity, selectedEntities) {
@@ -72,13 +72,14 @@ async function animateEntities(entities, draggedEntity, draggedRays, wasPaused)
});
const isToken = draggedEntity instanceof Token;
const animate = isToken && !moveWithoutAnimation;
const animate = isToken && !game.keyboard.isDown("Alt");
const startWaypoint = animate ? 0 : entityAnimationData[0].rays.length - 1;
// This is a flag of the "Monk's Active Tile Triggers" module that signals that the movement should be cancelled early
this.cancelMovement = false;
for (let i = startWaypoint;i < entityAnimationData[0].rays.length; i++) {
if (!wasPaused && game.paused) break;
const entityPaths = entityAnimationData.map(({entity, rays, dx, dy}) => {
const ray = rays[i];
@@ -91,7 +92,7 @@ async function animateEntities(entities, draggedEntity, draggedRays, wasPaused)
});
await draggedEntity.scene.updateEmbeddedDocuments(draggedEntity.constructor.embeddedName, updates, {animate});
if (animate)
await Promise.all(entityPaths.map(({entity}) => CanvasAnimation.getAnimation(entity.movementAnimationName)?.promise));
await Promise.all(entityPaths.map(({entity, path}) => entity.animateMovement(path)));
// This is a flag of the "Monk's Active Tile Triggers" module that signals that the movement should be cancelled early
if (this.cancelMovement) {
@@ -103,6 +104,7 @@ async function animateEntities(entities, draggedEntity, draggedRays, wasPaused)
trackRays(entities, entityAnimationData.map(({rays}) => rays)).then(() => recalculate(entities));
}
function calculateEntityOffset(entityA, entityB) {
return {x: entityA.data.x - entityB.data.x, y: entityA.data.y - entityB.data.y};
}
@@ -118,6 +120,7 @@ export function onMouseMove(event) {
if (this._state === Ruler.STATES.MOVING) return;
// Extract event data
const destination = {x: event.data.destination.x + this.rulerOffset.x, y: event.data.destination.y + this.rulerOffset.y}
// Hide any existing Token HUD
@@ -133,10 +136,12 @@ function scheduleMeasurement(destination, event) {
const mt = event._measureTime || 0;
const originalEvent = event.data.originalEvent;
if (Date.now() - mt > measurementInterval) {
this.measure(destination, {snap: !disableSnap});
this.measure(destination, {snap: !originalEvent.shiftKey, pathfinding: game.settings.get(settingsKey, "autoPathfinding") != game.keyboard.isDown("y")});
event._measureTime = Date.now();
this._state = Ruler.STATES.MEASURING;
cancelScheduledMeasurement.call(this);
window.clearTimeout(this.deferredMeasurementTimeout);
this.deferredMeasurementTimeout = undefined;
this.deferredMeasurementResolve?.();
}
else {
this.deferredMeasurementData = {destination, event};
@@ -147,46 +152,24 @@ function scheduleMeasurement(destination, event) {
}
}
export function cancelScheduledMeasurement() {
window.clearTimeout(this.deferredMeasurementTimeout);
this.deferredMeasurementTimeout = undefined;
this.deferredMeasurementResolve?.();
}
// This is a modified version of Ruler.measure form foundry 0.7.9
export function measure(destination, options={}) {
export function measure(destination, {gridSpaces=true, snap=false, pathfinding=false} = {}) {
const isToken = this.draggedEntity instanceof Token;
if (isToken && !this.draggedEntity.isVisible)
return []
options.snap = options.snap ?? !disableSnap;
if (options.snap) {
if (snap) {
destination = getSnapPointForEntity(destination.x, destination.y, this.draggedEntity);
}
this.dragRulerRemovePathfindingWaypoints();
// Remove waypoints generated by pathfinding
this.waypoints = this.waypoints.filter(waypoint => !waypoint.isPathfinding);
if (isToken && isPathfindingEnabled.call(this)) {
const from = getGridPositionFromPixelsObj(this.waypoints[this.waypoints.length - 1]);
const to = getGridPositionFromPixelsObj(destination);
let path = findPath(from, to, this.draggedEntity, this.waypoints);
if (isToken && pathfinding) {
let path = find_path(getGridPositionFromPixelsObj(this.waypoints[this.waypoints.length - 1]), getGridPositionFromPixelsObj(destination));
if (path) {
path = path.map(point => getSnapPointForTokenObj(getPixelsFromGridPositionObj(point), this.draggedEntity));
// If the token is snapped to the grid, the first point of the path is already handled by the ruler
if (path[0].x === this.waypoints[this.waypoints.length - 1].x && path[0].y === this.waypoints[this.waypoints.length - 1].y)
path = path.slice(1);
// If snapping is enabled, the last point of the path is already handled by the ruler
if (options.snap)
path = path.slice(0, path.length - 1);
for (const point of path) {
point.isPathfinding = true;
this.labels.addChild(new PreciseText("", CONFIG.canvasTextStyle));
}
path = path.map(point => getCenterFromGridPositionObj(point));
path.forEach(point => point.isPathfinding = true);
this.waypoints = this.waypoints.concat(path);
}
else {
@@ -195,26 +178,13 @@ export function measure(destination, options={}) {
}
}
if(options.gridSpaces === undefined) {
options.gridSpaces = canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS;
}
if (canvas.grid.diagonalRule === "EUCL") {
options.gridSpaces = false;
options.ignoreGrid = true;
}
if(options.ignoreGrid === undefined) {
options.ignoreGrid = false;
}
options.enableTerrainRuler = isToken && game.modules.get("terrain-ruler")?.active;
const terrainRulerAvailable = isToken && game.modules.get("terrain-ruler")?.active && (!game.modules.get("TerrainLayer")?.active || canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS);
const waypoints = this.waypoints.concat([destination]);
// Move the waypoints to the center of the grid if a size is used that measures from edge to edge
const centeredWaypoints = isToken ? applyTokenSizeOffset(waypoints, this.draggedEntity) : duplicate(waypoints);
// Foundries native ruler requires the waypoints to sit in the dead center of the square to work properly
if (!options.enableTerrainRuler && !options.ignoreGrid)
if (!terrainRulerAvailable)
centeredWaypoints.forEach(w => [w.x, w.y] = canvas.grid.getCenter(w.x, w.y));
const r = this.ruler;
@@ -248,7 +218,7 @@ export function measure(destination, options={}) {
const shape = isToken ? getTokenShape(this.draggedEntity) : null;
// Compute measured distance
const distances = measureDistances(centeredSegments, this.draggedEntity, shape, options);
const distances = measureDistances(centeredSegments, this.draggedEntity, shape, {gridSpaces});
let totalDistance = 0;
for (let [i, d] of distances.entries()) {
@@ -267,11 +237,11 @@ export function measure(destination, options={}) {
// Draw measured path
r.clear();
let rulerColor
if (!options.gridSpaces || canvas.grid.type === CONST.GRID_TYPES.GRIDLESS)
rulerColor = this.dragRulerGetColorForDistance(totalDistance);
if (canvas.grid.type === CONST.GRID_TYPES.GRIDLESS)
rulerColor = getColorForDistance.call(this, totalDistance)
else
rulerColor = this.color
for (const [i, s, cs] of enumeratedZip([...segments].reverse(), [...centeredSegments].reverse())) {
for (const [s, cs] of zip(segments.reverse(), centeredSegments.reverse())) {
const { label, text, last } = cs;
// Draw line segment
@@ -303,14 +273,11 @@ export function measure(destination, options={}) {
}
// Highlight grid positions
if (isToken && canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS && options.gridSpaces) {
if (options.enableTerrainRuler) {
if (isToken && canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS) {
if (terrainRulerAvailable)
highlightMeasurementTerrainRuler.call(this, cs.ray, cs.startDistance, shape, opacityMultiplier)
}
else {
const previousSegments = centeredSegments.slice(0, segments.length - 1 - i);
highlightMeasurementNative.call(this, cs.ray, previousSegments, shape, opacityMultiplier);
}
else
highlightMeasurementNative.call(this, cs.ray, cs.startDistance, shape, opacityMultiplier);
}
}
@@ -323,7 +290,7 @@ export function measure(destination, options={}) {
return segments;
}
export function highlightMeasurementNative(ray, previousSegments, tokenShape=[{x: 0, y: 0}], alpha=1) {
export function highlightMeasurementNative(ray, startDistance, tokenShape=[{x: 0, y: 0}], alpha=1) {
const spacer = canvas.scene.data.gridType === CONST.GRID_TYPES.SQUARE ? 1.41 : 1;
const nMax = Math.max(Math.floor(ray.distance / (spacer * Math.min(canvas.grid.w, canvas.grid.h))), 1);
const tMax = Array.fromRange(nMax+1).map(t => t / nMax);
@@ -342,9 +309,8 @@ export function highlightMeasurementNative(ray, previousSegments, tokenShape=[{x
// Highlight the grid position
let [xg, yg] = canvas.grid.grid.getPixelsFromGridPosition(x1, y1);
const pathUntilSpace = previousSegments.concat([{ray: new Ray(ray.A, {x: xg, y: yg})}]);
const distance = sum(canvas.grid.measureDistances(pathUntilSpace, {gridSpaces: true}));
const color = this.dragRulerGetColorForDistance(distance);
const subDistance = canvas.grid.measureDistances([{ray: new Ray(ray.A, {x: xg, y: yg})}], {gridSpaces: true})[0]
const color = dragRuler.getColorForDistance.call(this, startDistance, subDistance)
const snapPoint = getSnapPointForToken(...canvas.grid.getTopLeft(x, y), this.draggedEntity);
const [snapX, snapY] = getGridPositionFromPixels(snapPoint.x + 1, snapPoint.y + 1);
@@ -356,9 +322,8 @@ export function highlightMeasurementNative(ray, previousSegments, tokenShape=[{x
let {x, y} = ray.project(th);
let [x1h, y1h] = canvas.grid.grid.getGridPositionFromPixels(x, y);
let [xgh, ygh] = canvas.grid.grid.getPixelsFromGridPosition(x1h, y1h);
const pathUntilSpace = previousSegments.concat([{ray: new Ray(ray.A, {x: xgh, y: ygh})}]);
const distance = sum(canvas.grid.measureDistances(pathUntilSpace, {gridSpaces: true}));
const color = this.dragRulerGetColorForDistance(distance);
const subDistance = canvas.grid.measureDistances([{ray: new Ray(ray.A, {x: xgh, y: ygh})}], {gridSpaces: true})[0]
const color = dragRuler.getColorForDistance.call(this, startDistance, subDistance)
const snapPoint = getSnapPointForToken(...canvas.grid.getTopLeft(x, y), this.draggedEntity);
const [snapX, snapY] = getGridPositionFromPixels(snapPoint.x + 1, snapPoint.y + 1);
highlightTokenShape.call(this, {x: snapX, y: snapY}, tokenShape, color, alpha);
js/geometry.js → src/geometry.js
View File
src/main.js
+212
View File
@@ -0,0 +1,212 @@
"use strict"
import {currentSpeedProvider, getMovedDistanceFromToken, getRangesFromSpeedProvider, getUnreachableColorFromSpeedProvider, initApi, registerModule, registerSystem} from "./api.js"
import {checkDependencies, getHexSizeSupportTokenGridCenter} from "./compatibility.js";
import {moveEntities, onMouseMove} from "./foundry_imports.js"
import {performMigrations} from "./migration.js"
import {DragRulerRuler} from "./ruler.js";
import {getMovementHistory, resetMovementHistory} from "./movement_tracking.js";
import {registerSettings, settingsKey} from "./settings.js"
import {recalculate} from "./socket.js";
import {SpeedProvider} from "./speed_provider.js"
import { wipe_cache } from "./pathfinding.js";
Hooks.once("init", () => {
registerSettings()
initApi()
hookDragHandlers(Token);
hookDragHandlers(MeasuredTemplate);
hookKeyboardManagerFunctions()
Ruler = DragRulerRuler;
window.dragRuler = {
getColorForDistance,
getMovedDistanceFromToken,
registerModule,
registerSystem,
recalculate,
resetMovementHistory,
}
})
Hooks.once("ready", () => {
performMigrations()
checkDependencies();
Hooks.callAll("dragRuler.ready", SpeedProvider)
})
Hooks.on("canvasReady", () => {
canvas.controls.rulers.children.forEach(ruler => {
ruler.draggedEntity = null;
Object.defineProperty(ruler, "isDragRuler", {
get: function isDragRuler() {
return Boolean(this.draggedEntity); // If draggedEntity is set this is a drag ruler
}
})
})
})
Hooks.on("getCombatTrackerEntryContext", function (html, menu) {
const entry = {
name: "drag-ruler.resetMovementHistory",
icon: '<i class="fas fa-undo-alt"></i>',
callback: li => resetMovementHistory(ui.combat.viewed, li.data('combatant-id')),
};
menu.splice(1, 0, entry);
});
function hookDragHandlers(entityType) {
const originalDragLeftStartHandler = entityType.prototype._onDragLeftStart
entityType.prototype._onDragLeftStart = function(event) {
originalDragLeftStartHandler.call(this, event)
onEntityLeftDragStart.call(this, event)
}
const originalDragLeftMoveHandler = entityType.prototype._onDragLeftMove
entityType.prototype._onDragLeftMove = function (event) {
originalDragLeftMoveHandler.call(this, event)
onEntityLeftDragMove.call(this, event)
}
const originalDragLeftDropHandler = entityType.prototype._onDragLeftDrop
entityType.prototype._onDragLeftDrop = function (event) {
const eventHandled = onEntityDragLeftDrop.call(this, event)
if (!eventHandled)
originalDragLeftDropHandler.call(this, event)
}
const originalDragLeftCancelHandler = entityType.prototype._onDragLeftCancel
entityType.prototype._onDragLeftCancel = function (event) {
const eventHandled = onEntityDragLeftCancel.call(this, event)
if (!eventHandled)
originalDragLeftCancelHandler.call(this, event)
}
}
function hookKeyboardManagerFunctions() {
const originalHandleKeys = KeyboardManager.prototype._handleKeys
KeyboardManager.prototype._handleKeys = function (event, key, up) {
const eventHandled = handleKeys.call(this, event, key, up)
if (!eventHandled)
originalHandleKeys.call(this, event, key, up)
}
}
function handleKeys(event, key, up) {
if (event.repeat || this.hasFocus)
return false
if (key.toLowerCase() === "x") return onKeyX(up)
if (key.toLowerCase() === "shift") return onKeyShift(up)
return false
}
function onKeyX(up) {
if (up)
return false
const ruler = canvas.controls.ruler;
if (!ruler.isDragRuler)
return false
ruler.dragRulerDeleteWaypoint();
return true
}
function onKeyShift(up) {
const ruler = canvas.controls.ruler
if (!ruler.isDragRuler)
return false
if (ruler._state !== Ruler.STATES.MEASURING)
return false;
const mousePosition = canvas.app.renderer.plugins.interaction.mouse.getLocalPosition(canvas.tokens)
const rulerOffset = ruler.rulerOffset
const measurePosition = {x: mousePosition.x + rulerOffset.x, y: mousePosition.y + rulerOffset.y}
ruler.measure(measurePosition, {snap: up})
}
function onEntityLeftDragStart(event) {
const isToken = this instanceof Token;
if (isToken && !currentSpeedProvider.usesRuler(this))
return
const ruler = canvas.controls.ruler
ruler.draggedEntity = this;
let entityCenter;
if (isToken && canvas.grid.isHex && game.modules.get("hex-size-support")?.active && CONFIG.hexSizeSupport.getAltSnappingFlag(this))
entityCenter = getHexSizeSupportTokenGridCenter(this);
else
entityCenter = this.center;
ruler.clear();
wipe_cache();
ruler._state = Ruler.STATES.STARTING;
ruler.rulerOffset = {x: entityCenter.x - event.data.origin.x, y: entityCenter.y - event.data.origin.y};
if (isToken && game.settings.get(settingsKey, "enableMovementHistory"))
ruler.dragRulerAddWaypointHistory(getMovementHistory(this));
ruler.dragRulerAddWaypoint(entityCenter, false);
}
function onEntityLeftDragMove(event) {
const ruler = canvas.controls.ruler
if (ruler.isDragRuler)
onMouseMove.call(ruler, event)
}
function onEntityDragLeftDrop(event) {
const ruler = canvas.controls.ruler
if (!ruler.isDragRuler)
return false
// When we're dragging a measured template no token will ever be selected,
// resulting in only the dragged template to be moved as would be expected
const selectedTokens = canvas.tokens.controlled
// This can happen if the user presses ESC during drag (maybe there are other ways too)
if (selectedTokens.length === 0)
selectedTokens.push(ruler.draggedEntity);
ruler._state = Ruler.STATES.MOVING
moveEntities.call(ruler, ruler.draggedEntity, selectedTokens);
return true
}
function onEntityDragLeftCancel(event) {
// This function is invoked by right clicking
const ruler = canvas.controls.ruler
if (!ruler.isDragRuler || ruler._state === Ruler.STATES.MOVING)
return false
if (ruler._state === Ruler.STATES.MEASURING) {
if (!game.settings.get(settingsKey, "swapSpacebarRightClick")) {
ruler.dragRulerDeleteWaypoint(event);
}
else {
event.preventDefault()
const snap = !event.shiftKey
ruler.dragRulerAddWaypoint(ruler.destination, snap);
}
}
return true
}
export function getColorForDistance(startDistance, subDistance=0) {
if (!this.isDragRuler)
return this.color
if (!this.draggedEntity.actor) {
return this.color;
}
// Don't apply colors if the current user doesn't have at least observer permissions
if (this.draggedEntity.actor.permission < 2) {
// If this is a pc and alwaysShowSpeedForPCs is enabled we show the color anyway
if (!(this.draggedEntity.actor.data.type === "character" && game.settings.get(settingsKey, "alwaysShowSpeedForPCs")))
return this.color
}
const distance = startDistance + subDistance
if (!this.dragRulerRanges)
this.dragRulerRanges = getRangesFromSpeedProvider(this.draggedEntity);
const ranges = this.dragRulerRanges;
if (ranges.length === 0)
return this.color
const currentRange = ranges.reduce((minRange, currentRange) => {
if (distance <= currentRange.range && currentRange.range < minRange.range)
return currentRange
return minRange
}, {range: Infinity, color: getUnreachableColorFromSpeedProvider()})
return currentRange.color
}
src/migration.js
+27
View File
@@ -0,0 +1,27 @@
import {settingsKey} from "./settings.js"
const currentDataVersion = "1.3.0"
export function performMigrations() {
if (!game.user.isGM)
return
let dataVersion = game.settings.get(settingsKey, "dataVersion")
if (dataVersion === "fresh install") {
// Migration from unnamed version. TODO Remove this in a future version
let speedAttribute = game.settings.storage.get("world").get(`${settingsKey}.speedAttribute`)
if (speedAttribute)
speedAttribute = speedAttribute.slice(1, speedAttribute.length - 1)
const speedAttributeDefault = game.settings.get(settingsKey, "speedProviders.native.setting.speedAttribute")
if (speedAttribute !== speedAttributeDefault)
game.settings.set(settingsKey, "speedProviders.native.setting.speedAttribute", speedAttribute)
let dashMultiplier = game.settings.storage.get("world").get(`${settingsKey}.dashMultiplier`)
const dashMultiplierDefault = game.settings.get(settingsKey, "speedProviders.native.setting.dashMultiplier")
if (dashMultiplier !== dashMultiplierDefault)
game.settings.set(settingsKey, "speedProviders.native.setting.dashMultiplier", dashMultiplier)
// End of unnamed version migration code
game.settings.set(settingsKey, "dataVersion", currentDataVersion)
return
}
}
js/movement_tracking.js → src/movement_tracking.js
+3 -17
View File
@@ -1,6 +1,6 @@
import {measureDistances} from "./compatibility.js";
import {recalculate, updateCombatantDragRulerFlags} from "./socket.js";
import {getTokenShape, isClose, zip} from "./util.js";
import {getTokenShape, zip} from "./util.js";
function initTrackingFlag(combatant) {
const initialFlag = {passedWaypoints: [], trackedRound: 0};
@@ -49,14 +49,14 @@ function calculateUpdate(combat, token, rays) {
}
// Add the passed waypoints to the combatant
const terrainRulerAvailable = game.modules.get("terrain-ruler")?.active;
const terrainRulerAvailable = game.modules.get("terrain-ruler")?.active && (!game.modules.get("TerrainLayer")?.active || canvas.grid.type !== CONST.GRID_TYPES.GRIDLESS);
const dragRulerFlags = combatant.data.flags.dragRuler;
const waypoints = dragRulerFlags.passedWaypoints;
for (const ray of rays) {
// Ignore rays that have the same start and end coordinates
if (ray.A.x !== ray.B.x || ray.A.y !== ray.B.y) {
if (terrainRulerAvailable) {
measureDistances([{ray}], token, getTokenShape(token), {terrainRulerInitialState: waypoints[waypoints.length - 1]?.dragRulerFinalState, enableTerrainRuler: terrainRulerAvailable});
measureDistances([{ray}], token, getTokenShape(token), {terrainRulerInitialState: waypoints[waypoints.length - 1]?.dragRulerFinalState});
ray.A.dragRulerVisitedSpaces = ray.terrainRulerVisitedSpaces;
ray.A.dragRulerFinalState = ray.terrainRulerFinalState;
}
@@ -81,20 +81,6 @@ export function getMovementHistory(token) {
return dragRulerFlags.passedWaypoints ?? [];
}
export async function removeLastHistoryEntryIfAt(token, x, y) {
const history = getMovementHistory(token);
if (history.length === 0)
return;
const entry = history[history.length - 1];
if (!isClose(x + token.w / 2, entry.x, 0.1) || !isClose(y + token.h / 2, entry.y, 0.1)) {
return;
}
history.pop();
const combat = game.combat;
const combatant = combat.getCombatantByToken(token.id);
await updateCombatantDragRulerFlags(combat, [{_id: combatant.id, dragRulerFlags: combatant.data.flags.dragRuler}]);
}
export async function resetMovementHistory(combat, combatantId) {
const combatant = combat.combatants.get(combatantId);
const dragRulerFlags = combatant.data.flags.dragRuler;
src/pathfinding.js
+98
View File
@@ -0,0 +1,98 @@
import {getCenterFromGridPositionObj} from "./foundry_fixes.js";
// TODO Wipe cache if walls layer is being modified
let cached_nodes = undefined;
function get_node(pos, initialize=true) {
if (!cached_nodes)
// TODO Check if ceil is the right thing to do here
cached_nodes = new Array(Math.ceil(canvas.dimensions.sceneHeight / canvas.dimensions.size));
if (!cached_nodes[pos.y])
cached_nodes[pos.y] = new Array(Math.ceil(canvas.dimensions.sceneWidth / canvas.dimensions.size));
if (!cached_nodes[pos.y][pos.x]) {
cached_nodes[pos.y][pos.x] = {x: pos.x, y: pos.y};
}
const node = cached_nodes[pos.y][pos.x];
if (initialize && !node.edges) {
node.edges = [];
for (const neighborPos of neighbors(pos)) {
// TODO Work with pixels instead of grid locations
if (!canvas.walls.checkCollision(new Ray(getCenterFromGridPositionObj(pos), getCenterFromGridPositionObj(neighborPos)))) {
const neighbor = get_node(neighborPos, false);
node.edges.push({target: neighbor, cost: 1});
}
}
}
return node;
}
function* neighbors(pos) {
for (let y = -1;y < 2;y++) {
for (let x = -1;x < 2;x++) {
if (x != 0 || y != 0)
yield {x: pos.x + x, y: pos.y + y};
}
}
}
function calculate_path(from, to) {
const nextNodes = [{node: get_node(to), cost: 0, estimated: estimate_cost(to, from), previous: null}];
const previousNodes = new Set();
while (nextNodes.length > 0) {
// Sort by estimated cost, high to low
// TODO Re-sorting every iteration is expensive. Think of something better
nextNodes.sort((a, b) => b.estimated - a.estimated);
// Get node with cheapest estimate
const currentNode = nextNodes.pop();
if (currentNode.node.x === from.x && currentNode.node.y === from.y)
return currentNode;
previousNodes.add(currentNode.node);
for (const edge of currentNode.node.edges) {
const neighborNode = get_node(edge.target);
if (previousNodes.has(neighborNode))
continue;
// TODO We currently assume a cost of one for all transitions. Change this for 5/10/5 or difficult terrain support
// We charge an extra 0.0001 for diagonals
const isDiagonal = currentNode.node.x !== neighborNode.x && currentNode.node.y !== neighborNode.y;
const edgeCost = isDiagonal ? 1.0001 : 1;
const neighbor = {node: neighborNode, cost: currentNode.cost + edgeCost, estimated: currentNode.cost + edgeCost + estimate_cost(neighborNode, from), previous: currentNode};
const neighborIndex = nextNodes.findIndex(node => node.node === neighbor.node);
if (neighborIndex >= 0) {
// If the neighbor is cheaper to reach via the current route than through previously discovered routes, replace it
if (nextNodes[neighborIndex].cost > neighbor.cost) {
nextNodes[neighborIndex] = neighbor;
}
}
else {
nextNodes.push(neighbor);
}
}
}
}
function estimate_cost(pos, target) {
return Math.max(Math.abs(pos.x - target.x), Math.abs(pos.y - target.y));
}
export function find_path(from, to) {
const lastNode = calculate_path(from, to);
if (!lastNode)
return null;
const path = [];
let currentNode = lastNode;
while (currentNode) {
// TODO Check if the distance doesn't change
if (path.length >= 2 && !canvas.walls.checkCollision(new Ray(getCenterFromGridPositionObj(currentNode.node), getCenterFromGridPositionObj(path[path.length - 2]))))
// Replace last waypoint if the current waypoint leads to a valid path
path[path.length - 1] = {x: currentNode.node.x, y: currentNode.node.y};
else
path.push({x: currentNode.node.x, y: currentNode.node.y});
currentNode = currentNode.previous;
}
return path;
}
export function wipe_cache() {
cached_nodes = undefined;
}
src/ruler.js
+146
View File
@@ -0,0 +1,146 @@
import {measure} from "./foundry_imports.js"
import {getMovementHistory} from "./movement_tracking.js";
import {settingsKey} from "./settings.js";
import {getSnapPointForEntity} from "./util.js";
export class DragRulerRuler extends Ruler {
// Functions below are overridden versions of functions in Ruler
constructor(user, {color=null}={}) {
super(user, {color});
this.previousWaypoints = [];
this.previousLabels = this.addChild(new PIXI.Container());
}
clear() {
super.clear();
this.previousWaypoints = [];
this.previousLabels.removeChildren().forEach(c => c.destroy());
this.dragRulerRanges = undefined;
}
async moveToken(event) {
// This function is invoked by left clicking
if (!this.isDragRuler)
return await super.moveToken(event);
if (!game.settings.get(settingsKey, "swapSpacebarRightClick")) {
const snap = !event.shiftKey;
this.dragRulerAddWaypoint(this.destination, snap);
}
else {
this.dragRulerDeleteWaypoint();
}
}
toJSON() {
const json = super.toJSON();
if (this.draggedEntity) {
const isToken = this.draggedEntity instanceof Token;
json.draggedEntityIsToken = isToken;
json.draggedEntity = this.draggedEntity.id;
json.waypoints = json.waypoints.map(old => {
let w = duplicate(old);
w.isPathfinding = undefined;
return w;
});
}
return json;
}
update(data) {
// Don't show a GMs drag ruler to non GM players
if (data.draggedEntity && this.user.isGM && !game.user.isGM && !game.settings.get(settingsKey, "showGMRulerToPlayers"))
return;
if (data.draggedEntity) {
if (data.draggedEntityIsToken)
this.draggedEntity = canvas.tokens.get(data.draggedEntity);
else
this.draggedEntity = canvas.templates.get(data.draggedEntity);
}
super.update(data);
}
measure(destination, options={}) {
if (this.isDragRuler) {
return measure.call(this, destination, options);
}
else {
return super.measure(destination, options);
}
}
_endMeasurement() {
super._endMeasurement();
this.draggedEntity = null;
}
// The functions below aren't present in the orignal Ruler class and are added by Drag Ruler
dragRulerAddWaypoint(point, snap=true) {
if (snap) {
point = getSnapPointForEntity(point.x, point.y, this.draggedEntity);
}
this.waypoints.push(new PIXI.Point(point.x, point.y));
this.labels.addChild(new PreciseText("", CONFIG.canvasTextStyle));
}
dragRulerAddWaypointHistory(waypoints) {
waypoints.forEach(waypoint => waypoint.isPrevious = true);
this.waypoints = this.waypoints.concat(waypoints);
for (const waypoint of waypoints) {
this.labels.addChild(new PreciseText("", CONFIG.canvasTextStyle));
}
}
dragRulerClearWaypoints() {
this.waypoints = [];
this.labels.removeChildren().forEach(c => c.destroy());
}
dragRulerDeleteWaypoint(event={preventDefault: () => {return}}) {
if (this.waypoints.filter(w => !w.isPrevious).length > 1) {
event.preventDefault();
const mousePosition = canvas.app.renderer.plugins.interaction.mouse.getLocalPosition(canvas.tokens);
const rulerOffset = this.rulerOffset;
this._removeWaypoint({x: mousePosition.x + rulerOffset.x, y: mousePosition.y + rulerOffset.y});
game.user.broadcastActivity({ruler: this});
}
else {
const token = this.draggedEntity;
this._endMeasurement();
// Deactivate the drag workflow in mouse
token.mouseInteractionManager._deactivateDragEvents();
token.mouseInteractionManager.state = token.mouseInteractionManager.states.HOVER;
// This will cancel the current drag operation
// Pass in a fake event that hopefully is enough to allow other modules to function
token._onDragLeftCancel(event);
}
}
async dragRulerRecalculate(tokenIds) {
if (this._state !== Ruler.STATES.MEASURING)
return;
if (tokenIds && !tokenIds.includes(this.draggedEntity.id))
return;
const waypoints = this.waypoints.filter(waypoint => !waypoint.isPrevious);
this.dragRulerClearWaypoints();
if (game.settings.get(settingsKey, "enableMovementHistory"))
this.dragRulerAddWaypointHistory(getMovementHistory(this.draggedEntity));
for (const waypoint of waypoints) {
this.dragRulerAddWaypoint(waypoint, false);
}
this.measure(this.destination);
game.user.broadcastActivity({ruler: this});
}
static dragRulerGetRaysFromWaypoints(waypoints, destination) {
if ( destination )
waypoints = waypoints.concat([destination]);
return waypoints.slice(1).map((wp, i) => {
const ray = new Ray(waypoints[i], wp);
ray.isPrevious = Boolean(waypoints[i].isPrevious);
return ray;
});
}
}
js/settings.js → src/settings.js
+7 -53
View File
@@ -1,15 +1,8 @@
import {availableSpeedProviders, currentSpeedProvider, getDefaultSpeedProvider, updateSpeedProvider} from "./api.js";
import {SpeedProvider} from "./speed_provider.js"
import { early_isGM } from "./util.js";
export const settingsKey = "drag-ruler";
export const RightClickAction = Object.freeze({
CREATE_WAYPOINT: 0,
DELETE_WAYPOINT: 1,
ABORT_DRAG:2,
});
export function registerSettings() {
game.settings.register(settingsKey, "dataVersion", {
scope: "world",
@@ -18,43 +11,14 @@ export function registerSettings() {
default: "fresh install"
})
game.settings.register(settingsKey, "clientDataVersion", {
scope: "client",
config: false,
type: String,
default: "fresh install"
});
game.settings.register(settingsKey, "rightClickAction", {
name: "drag-ruler.settings.rightClickAction.name",
hint: "drag-ruler.settings.rightClickAction.hint",
config: true,
type: Number,
default: RightClickAction.DELETE_WAYPOINT,
choices: {
0: "drag-ruler.settings.rightClickAction.choices.create",
1: "drag-ruler.settings.rightClickAction.choices.delete",
2: "drag-ruler.settings.rightClickAction.choices.cancel",
},
});
game.settings.register(settingsKey, "autoStartMeasurement", {
name: "drag-ruler.settings.autoStartMeasurement.name",
hint: "drag-ruler.settings.autoStartMeasurement.hint",
game.settings.register(settingsKey, "swapSpacebarRightClick", {
name: "drag-ruler.settings.swapSpacebarRightClick.name",
hint: "drag-ruler.settings.swapSpacebarRightClick.hint",
scope: "client",
config: true,
type: Boolean,
default: true,
});
game.settings.register(settingsKey, "useGridlessRaster", {
name: "drag-ruler.settings.useGridlessRaster.name",
hint: "drag-ruler.settings.useGridlessRaster.hint",
scope: "client",
config: true,
type: Boolean,
default: true,
});
default: false,
})
game.settings.register(settingsKey, "alwaysShowSpeedForPCs", {
name: "drag-ruler.settings.alwaysShowSpeedForPCs.name",
@@ -83,23 +47,13 @@ export function registerSettings() {
default: true,
});
game.settings.register(settingsKey, "allowPathfinding", {
name: "drag-ruler.settings.allowPathfinding.name",
hint: "drag-ruler.settings.allowPathfinding.hint",
scope: "world",
config: true,
type: Boolean,
default: false,
onChange: () => location.reload(),
});
game.settings.register(settingsKey, "autoPathfinding", {
name: "drag-ruler.settings.autoPathfinding.name",
hint: "drag-ruler.settings.autoPathfinding.hint",
scpoe: "client",
config: early_isGM() || game.settings.get(settingsKey, "allowPathfinding"),
config: true,
type: Boolean,
defualt: false,
defualt: true,
});
game.settings.register(settingsKey, "lastTerrainRulerHintTime", {
js/socket.js → src/socket.js
View File
js/speed_provider.js → src/speed_provider.js
+3 -8
View File
@@ -61,18 +61,13 @@ export class SpeedProvider {
* The area indicates the whole area that the token will occupy (for tokens larger than 1x1) the array will more than one entry.
* The return value should be an integer indicating a multiplicator by that the cost of that step should be increased.
* (1 is regular cost, 2 costs double, 3 costs triple, ...)
*
* Parameters:
* - options: An object used to configure Enhanced Terrain Layer's cost calculation. Ex: If options.ignoreGrid is set to true, then Euclidean measurement can be forced on a gridded map.
*
* This function is only called if the Enhanced Terrain Layer and Terrain Ruler modules are enabled.
* This function is only called if the TerrainLayer and TerrainRuler modules are enabled.
*
* Implementing this method is optional and only needs to be done if you want to provide a custom cost function (for example to allow tokens to ignore difficult terrain)
*/
getCostForStep(token, area, options={}) {
getCostForStep(token, area) {
// Lookup the cost for each square occupied by the token
options.token = token;
const costs = area.map(space => terrainRuler.getCost(space.x, space.y, options));
const costs = area.map(space => terrainRuler.getCost(space.x, space.y, {token}));
// Return the maximum of the costs
return costs.reduce((max, current) => Math.max(max, current))
}
js/systems.js → src/systems.js
+2 -4
View File
@@ -1,3 +1,4 @@
export function getDefaultSpeedAttribute() {
switch (game.system.id) {
case "CoC7":
@@ -7,7 +8,7 @@ export function getDefaultSpeedAttribute() {
case "dnd5e":
return "actor.data.data.attributes.movement.walk"
case "lancer":
return "actor.data.data.derived.speed"
return "actor.data.data.mech.speed"
case "pf1":
case "D35E":
return "actor.data.data.attributes.speed.land.total"
@@ -17,8 +18,6 @@ export function getDefaultSpeedAttribute() {
return "actor.data.data.movement.walk.value";
case "swade":
return "actor.data.data.stats.speed.adjusted";
case "ds4":
return "actor.data.data.combatValues.movement.total";
}
return ""
}
@@ -34,7 +33,6 @@ export function getDefaultDashMultiplier() {
case "D35E":
case "sfrpg":
case "shadowrun5e":
case "ds4":
return 2
case "CoC7":
return 5;
js/util.js → src/util.js
+16 -97
View File
@@ -1,5 +1,4 @@
import {getPixelsFromGridPosition} from "./foundry_fixes.js"
import { disableSnap } from "./keybindings.js";
export function* zip(it1, it2) {
for (let i = 0;i < Math.min(it1.length, it2.length);i++) {
@@ -7,87 +6,37 @@ export function* zip(it1, it2) {
}
}
export function* enumeratedZip(it1, it2) {
let i = 0;
for (const [v1, v2] of zip(it1, it2)) {
yield [i, v1, v2];
i++;
}
}
export function* iterPairs(l) {
for (let i = 1;i < l.length;i++) {
yield [l[i - 1], l[i]];
}
}
export function sum(arr) {
return arr.reduce((a, b) => a + b, 0);
}
export function getSnapPointForToken(x, y, token) {
if (canvas.grid.type === CONST.GRID_TYPES.GRIDLESS) {
return new PIXI.Point(x, y);
}
if (canvas.grid.isHex) {
if (game.modules.get("hex-size-support")?.active && CONFIG.hexSizeSupport.getAltSnappingFlag(token)) {
if (token.document.getFlag("hex-size-support", "borderSize") % 2 === 0) {
const snapPoint = CONFIG.hexSizeSupport.findVertexSnapPoint(x, y, token, canvas.grid.grid)
return new PIXI.Point(snapPoint.x, snapPoint.y)
}
else {
return new PIXI.Point(...canvas.grid.getCenter(x, y))
}
if (canvas.grid.isHex && game.modules.get("hex-size-support")?.active && CONFIG.hexSizeSupport.getAltSnappingFlag(token)) {
if (token.getFlag("hex-size-support", "borderSize") % 2 === 0) {
const snapPoint = CONFIG.hexSizeSupport.findVertexSnapPoint(x, y, token, canvas.grid.grid)
return new PIXI.Point(snapPoint.x, snapPoint.y)
}
else {
return new PIXI.Point(...canvas.grid.getCenter(x, y));
return new PIXI.Point(...canvas.grid.getCenter(x, y))
}
}
const [topLeftX, topLeftY] = canvas.grid.getTopLeft(x, y);
let cellX, cellY;
if (token.data.width % 2 === 0)
cellX = x - canvas.grid.h / 2;
else
cellX = x;
if (token.data.height % 2 === 0)
cellY = y - canvas.grid.h / 2;
else
cellY = y;
const [centerX, centerY] = canvas.grid.getCenter(cellX, cellY);
let snapX, snapY;
// Tiny tokens can snap to the cells corners
if (token.data.width <= 0.5) {
if (!canvas.grid.isHex && token.data.width <= 0.5) {
const [topLeftX, topLeftY] = canvas.grid.getTopLeft(x, y);
const offsetX = x - topLeftX;
const offsetY = y - topLeftY;
const subGridWidth = Math.floor(canvas.grid.w / 2);
const subGridHeight = Math.floor(canvas.grid.h / 2);
const subGridPosX = Math.floor(offsetX / subGridWidth);
snapX = topLeftX + (subGridPosX + 0.5) * subGridWidth;
const subGridPosY = Math.floor(offsetY / subGridHeight);
return new PIXI.Point(topLeftX + (subGridPosX + 0.5) * subGridWidth, topLeftY + (subGridPosY + 0.5) * subGridHeight);
}
// Tokens with odd multipliers (1x1, 3x3, ...) and tokens smaller than 1x1 but bigger than 0.5x0.5 snap to the center of the grid cell
else if (Math.round(token.data.width) % 2 === 1 || token.data.width < 1) {
snapX = centerX;
// Hex tokens, tokens with odd multipliers (1x1, 3x3, ...) and tokens smaller than 1x1 but bigger than 0.5x0.5 snap to the center of the grid cell
if (canvas.grid.isHex || Math.round(token.data.width) % 2 === 1 || token.data.width < 1) {
return new PIXI.Point(...canvas.grid.getCenter(x, y))
}
// All remaining tokens (those with even or fractional multipliers on square grids) snap to the intersection points of the grid
else {
snapX = centerX + canvas.grid.w / 2;
}
if (token.data.height <= 0.5) {
const offsetY = y - topLeftY;
const subGridHeight = Math.floor(canvas.grid.h / 2);
const subGridPosY = Math.floor(offsetY / subGridHeight);
snapY = topLeftY + (subGridPosY + 0.5) * subGridHeight;
}
else if (Math.round(token.data.height) % 2 === 1 || token.data.height < 1) {
snapY = centerY;
}
else {
snapY = centerY + canvas.grid.h / 2;
}
return new PIXI.Point(snapX, snapY);
}
export function getSnapPointForTokenObj(pos, token) {
return getSnapPointForToken(pos.x, pos.y, token);
const [snappedX, snappedY] = canvas.grid.getCenter(x - canvas.grid.w / 2, y - canvas.grid.h / 2)
return new PIXI.Point(snappedX + canvas.grid.w / 2, snappedY + canvas.grid.h / 2)
}
export function getSnapPointForMeasuredTemplate(x, y) {
@@ -249,33 +198,3 @@ export function applyTokenSizeOffset(waypoints, token) {
return waypoints.map(w => new PIXI.Point(w.x + waypointOffset.x, w.y + waypointOffset.y))
}
export function setSnapParameterOnOptions(sourceObject, options) {
// Allow outside modules to override snapping
if (sourceObject.snapOverride?.active) {
options.snapOverrideActive = true;
options.snap = sourceObject.snapOverride.snap;
sourceObject.snapOverride = undefined; // remove it to prevent any lingering data issues
}
else {
options.snap = !disableSnap;
}
}
export function isClose(a, b, delta) {
return Math.abs(a - b) <= delta;
}
export function getMeasurePosition() {
const mousePosition = canvas.app.renderer.plugins.interaction.mouse.getLocalPosition(canvas.tokens);
const rulerOffset = canvas.controls.ruler.rulerOffset;
const measurePosition = {x: mousePosition.x + rulerOffset.x, y: mousePosition.y + rulerOffset.y};
return measurePosition;
}
// isGM function for use during loading when game.user isn't available yet
export function early_isGM() {
const level = game.data.users.find(u => u._id == game.data.userId).role;
const gmLevel = CONST.USER_ROLES.ASSISTANT;
return level >= gmLevel;
}