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base: lucasoskorep:feat/add-window-resize
Branches Tags
lucasoskorep:main lucasoskorep:feat/add-window-resize lucasoskorep:feat/add-resizing-with-partitions lucasoskorep:feat/bad-resize-impl lucasoskorep:feat/fix-login-issues lucasoskorep:feat/window-grouping-messing-around
lucasoskorep:v0.2.0
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compare: lucasoskorep:main
Branches Tags
lucasoskorep:feat/add-window-resize lucasoskorep:feat/add-resizing-with-partitions lucasoskorep:main lucasoskorep:feat/bad-resize-impl lucasoskorep:feat/fix-login-issues lucasoskorep:feat/window-grouping-messing-around
lucasoskorep:v0.2.0

10 Commits
feat/add-w ... main

Author SHA1 Message Date
Lucas Oskorep
5da4001a32 feat: gitea pipeline fix for upload
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Build and Test / release (push) Successful in 11s
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2025-10-17 02:50:21 -04:00
Lucas Oskorep
9011cd48f2 feat: gitea pipeline fix for upload
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Build and Test / build (push) Successful in 36s
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2025-10-17 02:46:56 -04:00
Lucas Oskorep
e065acd37d feat: gitea pipeline
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2025-10-17 02:42:12 -04:00
Lucas Oskorep
b4afd6d4dc feat: gitea pipeline
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2025-10-17 02:38:04 -04:00
Lucas Oskorep
1ae379868b feat: adding basic unit tests and framework for them 2025-10-17 02:06:16 -04:00
Lucas Oskorep
8d4e51284d bugfixes 2025-10-17 01:56:09 -04:00
Lucas Oskorep
9f46347179 feat: cleanup 2025-10-17 01:26:57 -04:00
Lucas Oskorep
5a6c3ccd72 Finish adding debugging command and ability to swap the orientation of a container 2025-10-17 01:25:47 -04:00
Lucas Oskorep
c977c61714 adding debug command 2025-10-17 01:09:13 -04:00
Lucas Oskorep
e615efceb9 feat: removing prettyborders zip 2025-10-17 00:08:57 -04:00
17 changed files with 3047 additions and 636 deletions
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99
.gitea/workflows/build.yaml Normal file
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@@ -0,0 +1,99 @@
name: Build and Test
on:
push:
branches:
- main
pull_request:
branches:
- main
jobs:
build:
runs-on: ubuntu-latest
container:
image: node:20
steps:
- name: Checkout code
uses: actions/checkout@v4
- name: Install pnpm and TypeScript
run: npm install -g pnpm typescript@5.8.3
- name: Install just
run: |
curl --proto '=https' --tlsv1.2 -sSf https://just.systems/install.sh | bash -s -- --to /usr/local/bin
- name: Install system dependencies
run: |
apt-get update
apt-get install -y libglib2.0-dev glib-networking zip
- name: Install project dependencies
run: pnpm install
- name: Run unit tests
run: just test
- name: Build and package extension
run: just build-package
- name: Upload extension package
uses: actions/upload-artifact@v3
with:
name: aerospike-extension
path: aerospike.zip
retention-days: 30
release:
needs: build
runs-on: ubuntu-latest
if: github.ref == 'refs/heads/main' && github.event_name == 'push'
environment:
name: production
container:
image: node:20
steps:
- name: Checkout code
uses: actions/checkout@v4
- name: Download artifact
uses: actions/download-artifact@v3
with:
name: aerospike-extension
- name: Get version from package.json
id: get_version
run: |
VERSION=$(node -p "require('./package.json').version")
echo "version=v${VERSION}" >> $GITHUB_OUTPUT
- name: Create Gitea Release
env:
GITEA_TOKEN: ${{ secrets.GITEA_TOKEN }}
run: |
curl -X POST \
-H "Authorization: token ${GITEA_TOKEN}" \
-H "Content-Type: application/json" \
-d '{
"tag_name": "${{ steps.get_version.outputs.version }}",
"name": "Release ${{ steps.get_version.outputs.version }}",
"body": "Automated release of aerospike GNOME extension ${{ steps.get_version.outputs.version }}\n\n## Installation\nDownload aerospike.zip and install it as a GNOME extension."
}' \
"${GITHUB_API_URL}/repos/${GITHUB_REPOSITORY}/releases"
- name: Upload Release Asset
env:
GITEA_TOKEN: ${{ secrets.GITEA_TOKEN }}
run: |
RELEASE_ID=$(curl -H "Authorization: token ${GITEA_TOKEN}" \
"${GITHUB_API_URL}/repos/${GITHUB_REPOSITORY}/releases/tags/${{ steps.get_version.outputs.version }}" | \
grep -Po '"id":\s*\K[0-9]+' | head -1)
curl -X POST \
-H "Authorization: token ${GITEA_TOKEN}" \
-H "Content-Type: multipart/form-data" \
-F "attachment=@aerospike.zip" \
"${GITHUB_API_URL}/repos/${GITHUB_REPOSITORY}/releases/${RELEASE_ID}/assets?name=aerospike.zip"

2
README.md
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@@ -1 +1 @@
# Aerospike Gnome (Tiling Window Manager)
# Aerospike Gnome (Tiling Window Manager)

32
extension.ts
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@@ -53,9 +53,14 @@ export default class aerospike extends Extension {
this.refreshKeybinding('join-with-right');
});
this.settings.connect('changed::remove-all-dividers', () => {
log(`Keybinding remove-all-dividers changed to: ${this.settings.get_strv('remove-all-dividers')}`);
this.refreshKeybinding('remove-all-dividers');
this.settings.connect('changed::print-tree', () => {
log(`Print tree keybinding changed to: ${this.settings.get_strv('print-tree')}`);
this.refreshKeybinding('print-tree');
});
this.settings.connect('changed::toggle-orientation', () => {
log(`Toggle orientation keybinding changed to: ${this.settings.get_strv('toggle-orientation')}`);
this.refreshKeybinding('toggle-orientation');
});
this.settings.connect('changed::dropdown-option', () => {
@@ -93,10 +98,14 @@ export default class aerospike extends Extension {
Logger.info('Keybinding 4 was pressed!');
});
break;
case 'remove-all-dividers':
this.bindKeybinding('remove-all-dividers', () => {
Logger.info('Remove all dividers keybinding pressed!');
this.windowManager.removeAllDividersFromActiveContainer();
case 'print-tree':
this.bindKeybinding('print-tree', () => {
this.windowManager.printTreeStructure();
});
break;
case 'toggle-orientation':
this.bindKeybinding('toggle-orientation', () => {
this.windowManager.toggleActiveContainerOrientation();
});
break;
}
@@ -126,9 +135,12 @@ export default class aerospike extends Extension {
Logger.info('Keybinding 4 was pressed!');
});
this.bindKeybinding('remove-all-dividers', () => {
Logger.info('Remove all dividers keybinding pressed!');
this.windowManager.removeAllDividersFromActiveContainer();
this.bindKeybinding('print-tree', () => {
this.windowManager.printTreeStructure();
});
this.bindKeybinding('toggle-orientation', () => {
this.windowManager.toggleActiveContainerOrientation();
});
}

23
jest.config.js Normal file
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@@ -0,0 +1,23 @@
export default {
preset: 'ts-jest/presets/default-esm',
testEnvironment: 'node',
extensionsToTreatAsEsm: ['.ts'],
moduleNameMapper: {
'^(\\.{1,2}/.*)\\.js$': '$1',
},
transform: {
'^.+\\.ts$': [
'ts-jest',
{
useESM: true,
},
],
},
testMatch: ['**/__tests__/**/*.test.ts', '**/?(*.)+(spec|test).ts'],
collectCoverageFrom: [
'src/**/*.ts',
'!src/**/*.d.ts',
'!src/**/__tests__/**',
],
modulePathIgnorePatterns: ['<rootDir>/dist/', '<rootDir>/node_modules/'],
};

16
justfile
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@@ -28,13 +28,25 @@ install: build
cp -r dist/* ~/.local/share/gnome-shell/extensions/{{NAME}}@{{DOMAIN}}/
run:
env MUTTER_DEBUG_DUMMY_MODE_SPECS=1280x720 dbus-run-session -- gnome-shell --nested --wayland
env MUTTER_DEBUG_DUMMY_MODE_SPECS=1280x720 dbus-run-session -- gnome-shell --devkit --wayland
install-and-run: install run
live-debug:
journalctl /usr/bin/gnome-shell -f -o cat | tee debug.log
test:
pnpm test
test-watch:
pnpm test:watch
test-coverage:
pnpm test:coverage
ci-local:
act -W .gitea/workflows/build.yaml
#pack: build
# gnome-extensions pack dist \
# --force \
@@ -42,4 +54,4 @@ live-debug:
# --schema ../schemas/org.gnome.shell.extensions.aerospike.gschema.xml
#
#install-pack: pack
# gnome-extensions install ./{{FULL_NAME}}.shell-extension.zip --force
# gnome-extensions install ./{{FULL_NAME}}.shell-extension.zip --force

9
package.json
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@@ -15,11 +15,20 @@
},
"homepage": "https://github.com/example/my-extension#readme",
"sideEffects": false,
"scripts": {
"test": "jest",
"test:watch": "jest --watch",
"test:coverage": "jest --coverage"
},
"devDependencies": {
"@girs/gjs": "4.0.0-beta.38",
"@girs/gnome-shell": "49.0.1",
"@jest/globals": "^29.7.0",
"@types/jest": "^29.5.12",
"eslint": "^9.36.0",
"eslint-plugin-jsdoc": "^50.8.0",
"jest": "^29.7.0",
"ts-jest": "^29.1.2",
"typescript": "^5.9.2"
},
"dependencies": {

2377
pnpm-lock.yaml generated
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File diff suppressed because it is too large Load Diff

14
schemas/org.gnome.shell.extensions.aerospike.gschema.xml
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@@ -37,10 +37,16 @@
<description>Keyboard shortcut for triggering action 4</description>
</key>
<key name="remove-all-dividers" type="as">
<default><![CDATA[['<Alt>z']]]></default>
<summary>Remove all dividers from active container</summary>
<description>Keyboard shortcut for removing all dividers from the container with the active window</description>
<key name="print-tree" type="as">
<default><![CDATA[['<Super><Shift>x']]]></default>
<summary>Print window tree structure</summary>
<description>Prints the current tree of containers and windows per monitor to logs</description>
</key>
<key name="toggle-orientation" type="as">
<default><![CDATA[['<Super><Shift>comma']]]></default>
<summary>Toggle active container orientation</summary>
<description>Toggles the orientation of the container holding the active window between horizontal and vertical</description>
</key>
</schema>

182
src/__tests__/container.test.ts Normal file
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@@ -0,0 +1,182 @@
import { describe, test, expect, jest, beforeEach } from '@jest/globals';
// Mock the dependencies
jest.mock('../utils/logger.js', () => ({
Logger: {
log: jest.fn(),
info: jest.fn(),
debug: jest.fn(),
warn: jest.fn(),
error: jest.fn(),
},
}));
jest.mock('../utils/events.js', () => ({
default: jest.fn(),
}));
// Since we can't import the actual WindowContainer that depends on GNOME APIs,
// we'll test the logic patterns used in the container
describe('Container Logic Tests', () => {
describe('Orientation Toggle Logic', () => {
enum Orientation {
HORIZONTAL = 0,
VERTICAL = 1,
}
const toggleOrientation = (current: Orientation): Orientation => {
return current === Orientation.HORIZONTAL
? Orientation.VERTICAL
: Orientation.HORIZONTAL;
};
test('should toggle from HORIZONTAL to VERTICAL', () => {
const result = toggleOrientation(Orientation.HORIZONTAL);
expect(result).toBe(Orientation.VERTICAL);
});
test('should toggle from VERTICAL to HORIZONTAL', () => {
const result = toggleOrientation(Orientation.VERTICAL);
expect(result).toBe(Orientation.HORIZONTAL);
});
});
describe('Window Bounds Calculation', () => {
test('should calculate horizontal bounds correctly', () => {
const workArea = { x: 0, y: 0, width: 1000, height: 500 };
const itemCount = 3;
const windowWidth = Math.floor(workArea.width / itemCount);
const bounds = Array.from({ length: itemCount }, (_, index) => ({
x: workArea.x + (index * windowWidth),
y: workArea.y,
width: windowWidth,
height: workArea.height,
}));
expect(bounds.length).toBe(3);
expect(bounds[0].x).toBe(0);
expect(bounds[1].x).toBe(333);
expect(bounds[2].x).toBe(666);
expect(bounds[0].width).toBe(333);
});
test('should calculate vertical bounds correctly', () => {
const workArea = { x: 0, y: 0, width: 1000, height: 900 };
const itemCount = 3;
const windowHeight = Math.floor(workArea.height / itemCount);
const bounds = Array.from({ length: itemCount }, (_, index) => ({
x: workArea.x,
y: workArea.y + (index * windowHeight),
width: workArea.width,
height: windowHeight,
}));
expect(bounds.length).toBe(3);
expect(bounds[0].y).toBe(0);
expect(bounds[1].y).toBe(300);
expect(bounds[2].y).toBe(600);
expect(bounds[0].height).toBe(300);
});
test('should handle single window bounds', () => {
const workArea = { x: 100, y: 50, width: 800, height: 600 };
const itemCount = 1;
const windowWidth = Math.floor(workArea.width / itemCount);
const bounds = [{
x: workArea.x,
y: workArea.y,
width: windowWidth,
height: workArea.height,
}];
expect(bounds[0].x).toBe(100);
expect(bounds[0].y).toBe(50);
expect(bounds[0].width).toBe(800);
expect(bounds[0].height).toBe(600);
});
});
describe('Window Index Finding', () => {
test('should find window index in array', () => {
const windows = [
{ id: 1, title: 'Window 1' },
{ id: 2, title: 'Window 2' },
{ id: 3, title: 'Window 3' },
];
const findIndex = (id: number) => {
for (let i = 0; i < windows.length; i++) {
if (windows[i].id === id) {
return i;
}
}
return -1;
};
expect(findIndex(2)).toBe(1);
expect(findIndex(3)).toBe(2);
expect(findIndex(999)).toBe(-1);
});
test('should safely remove window by index', () => {
const windows = [
{ id: 1, title: 'Window 1' },
{ id: 2, title: 'Window 2' },
{ id: 3, title: 'Window 3' },
];
const removeWindow = (id: number) => {
const index = windows.findIndex(w => w.id === id);
if (index !== -1) {
windows.splice(index, 1);
return true;
}
return false;
};
const removed = removeWindow(2);
expect(removed).toBe(true);
expect(windows.length).toBe(2);
expect(windows.find(w => w.id === 2)).toBeUndefined();
});
});
describe('Container Item Reordering', () => {
test('should reorder items correctly', () => {
const items = ['A', 'B', 'C', 'D'];
const originalIndex = 1; // 'B'
const newIndex = 3;
// Remove from original position and insert at new position
const [item] = items.splice(originalIndex, 1);
items.splice(newIndex, 0, item);
expect(items).toEqual(['A', 'C', 'D', 'B']);
});
test('should handle reordering to same position', () => {
const items = ['A', 'B', 'C'];
const originalIndex = 1;
const newIndex = 1;
if (originalIndex !== newIndex) {
const [item] = items.splice(originalIndex, 1);
items.splice(newIndex, 0, item);
}
expect(items).toEqual(['A', 'B', 'C']);
});
test('should handle moving first item to last', () => {
const items = ['A', 'B', 'C'];
const [item] = items.splice(0, 1);
items.splice(2, 0, item);
expect(items).toEqual(['B', 'C', 'A']);
});
});
});

75
src/__tests__/rect.test.ts Normal file
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@@ -0,0 +1,75 @@
import { describe, test, expect } from '@jest/globals';
import type { Rect } from '../utils/rect.js';
describe('Rect Type Tests', () => {
test('should create a valid Rect object', () => {
const rect: Rect = {
x: 10,
y: 20,
width: 100,
height: 200,
};
expect(rect.x).toBe(10);
expect(rect.y).toBe(20);
expect(rect.width).toBe(100);
expect(rect.height).toBe(200);
});
test('should handle zero dimensions', () => {
const rect: Rect = {
x: 0,
y: 0,
width: 0,
height: 0,
};
expect(rect.width).toBe(0);
expect(rect.height).toBe(0);
});
test('should handle negative coordinates', () => {
const rect: Rect = {
x: -50,
y: -100,
width: 200,
height: 300,
};
expect(rect.x).toBe(-50);
expect(rect.y).toBe(-100);
});
test('should calculate rect area correctly', () => {
const rect: Rect = {
x: 0,
y: 0,
width: 100,
height: 50,
};
const area = rect.width * rect.height;
expect(area).toBe(5000);
});
test('should determine if point is inside rect', () => {
const rect: Rect = {
x: 10,
y: 10,
width: 100,
height: 100,
};
const pointInside = { x: 50, y: 50 };
const pointOutside = { x: 200, y: 200 };
const isInside = (point: { x: number; y: number }, r: Rect) =>
point.x >= r.x &&
point.x <= r.x + r.width &&
point.y >= r.y &&
point.y <= r.y + r.height;
expect(isInside(pointInside, rect)).toBe(true);
expect(isInside(pointOutside, rect)).toBe(false);
});
});

18
src/prefs/prefs.ts
View File

@@ -155,6 +155,24 @@ export default class AerospikeExtensions extends ExtensionPreferences {
})
);
keybindingsGroup.add(
new EntryRow({
title: _('Print Tree Structure'),
settings: settings,
bind: 'print-tree',
map: keybindingMap
})
);
keybindingsGroup.add(
new EntryRow({
title: _('Toggle Orientation'),
settings: settings,
bind: 'toggle-orientation',
map: keybindingMap
})
);
}

527
src/wm/container.ts
View File

@@ -3,24 +3,21 @@ import {Logger} from "../utils/logger.js";
import Meta from "gi://Meta";
import queueEvent from "../utils/events.js";
import {Rect} from "../utils/rect.js";
import {Divider} from "./divider.js";
enum Orientation {
HORIZONTAL = 0,
VERTICAL = 1,
}
type ContainerItem = WindowWrapper | WindowContainer | Divider;
export default class WindowContainer {
_tiledItems: ContainerItem[];
_tiledItems: (WindowWrapper | WindowContainer)[];
_tiledWindowLookup: Map<number, WindowWrapper>;
_orientation: Orientation = Orientation.HORIZONTAL;
_workArea: Rect;
constructor(workspaceArea: Rect,) {
// this._id = monitorId;
this._tiledItems = [];
this._tiledWindowLookup = new Map<number, WindowWrapper>();
this._workArea = workspaceArea;
@@ -32,11 +29,17 @@ export default class WindowContainer {
this.tileWindows();
}
toggleOrientation(): void {
this._orientation = this._orientation === Orientation.HORIZONTAL
? Orientation.VERTICAL
: Orientation.HORIZONTAL;
Logger.info(`Container orientation toggled to ${this._orientation === Orientation.HORIZONTAL ? 'HORIZONTAL' : 'VERTICAL'}`);
this.tileWindows();
}
addWindow(winWrap: WindowWrapper): void {
// Add window to managed windows
this._tiledItems.push(winWrap);
this._tiledWindowLookup.set(winWrap.getWindowId(), winWrap);
// winWrap.setParent(this);
queueEvent({
name: "tiling-windows",
callback: () => {
@@ -51,14 +54,12 @@ export default class WindowContainer {
return this._tiledWindowLookup.get(win_id);
}
for (const item of this._tiledItems) {
if (Divider.isDivider(item)) {
continue; // Skip dividers
} else if (item instanceof WindowContainer) {
if (item instanceof WindowContainer) {
const win = item.getWindow(win_id);
if (win) {
return win;
}
} else if (item instanceof WindowWrapper && item.getWindowId() === win_id) {
} else if (item.getWindowId() === win_id) {
return item;
}
}
@@ -77,10 +78,12 @@ export default class WindowContainer {
removeWindow(win_id: number): void {
if (this._tiledWindowLookup.has(win_id)) {
// Get index before deleting from lookup to avoid race condition
const index = this._getIndexOfWindow(win_id);
this._tiledWindowLookup.delete(win_id);
const index = this._getIndexOfWindow(win_id)
this._tiledItems.splice(index, 1);
this._cleanupInvalidDividers();
if (index !== -1) {
this._tiledItems.splice(index, 1);
}
} else {
for (const item of this._tiledItems) {
if (item instanceof WindowContainer) {
@@ -91,44 +94,11 @@ export default class WindowContainer {
this.tileWindows()
}
/**
* Removes invalid dividers from the items list.
* Invalid dividers are:
* - Dividers at the start or end of the list (no window on one side)
* - Consecutive dividers (two dividers in a row)
*/
_cleanupInvalidDividers(): void {
let i = 0;
while (i < this._tiledItems.length) {
const item = this._tiledItems[i];
if (Divider.isDivider(item)) {
// Check if divider is at start or end
const isAtStart = i === 0;
const isAtEnd = i === this._tiledItems.length - 1;
// Check if next item is also a divider
const nextIsDivider = i < this._tiledItems.length - 1 &&
Divider.isDivider(this._tiledItems[i + 1]);
if (isAtStart || isAtEnd || nextIsDivider) {
Logger.log(`Removing invalid divider at index ${i}`);
this._tiledItems.splice(i, 1);
continue; // Don't increment i, check the same position again
}
}
i++;
}
}
disconnectSignals(): void {
this._tiledItems.forEach((item) => {
if (Divider.isDivider(item)) {
// Skip dividers - they don't have signals
return;
} else if (item instanceof WindowContainer) {
if (item instanceof WindowContainer) {
item.disconnectSignals()
} else if (item instanceof WindowWrapper) {
} else {
item.disconnectWindowSignals();
}
}
@@ -145,7 +115,6 @@ export default class WindowContainer {
Logger.log("WorkArea", this._workArea);
// Get all windows for current workspaceArea
this._tileItems()
return true
@@ -156,21 +125,13 @@ export default class WindowContainer {
return;
}
const bounds = this.getBounds();
// Apply bounds to non-divider items
let boundsIndex = 0;
this._tiledItems.forEach((item) => {
if (Divider.isDivider(item)) {
return; // Skip dividers
}
const rect = bounds[boundsIndex];
this._tiledItems.forEach((item, index) => {
const rect = bounds[index];
if (item instanceof WindowContainer) {
item.move(rect);
} else if (item instanceof WindowWrapper) {
} else {
item.safelyResizeWindow(rect);
}
boundsIndex++;
})
}
@@ -183,177 +144,42 @@ export default class WindowContainer {
}
getVerticalBounds(): Rect[] {
// Filter out dividers to get only windows/containers
const nonDividerItems = this._tiledItems.filter(item => !Divider.isDivider(item));
if (nonDividerItems.length === 0) {
return [];
}
// If no dividers, use equal distribution
const hasDividers = this._tiledItems.some(item => Divider.isDivider(item));
if (!hasDividers) {
const containerHeight = Math.floor(this._workArea.height / nonDividerItems.length);
return nonDividerItems.map((_, index) => {
const y = this._workArea.y + (index * containerHeight);
return {
x: this._workArea.x,
y: y,
width: this._workArea.width,
height: containerHeight
} as Rect;
});
}
// Calculate bounds based on divider positions
const bounds: Rect[] = [];
let currentY = this._workArea.y;
let itemIndex = 0;
for (let i = 0; i < this._tiledItems.length; i++) {
const item = this._tiledItems[i];
if (Divider.isDivider(item)) {
// Next segment starts at divider position
currentY = this._workArea.y + Math.floor(item.getPosition() * this._workArea.height);
} else {
// Find the end position for this item
let endY: number = this._workArea.y + this._workArea.height;
// Look ahead to find next divider or end of container
for (let j = i + 1; j < this._tiledItems.length; j++) {
if (Divider.isDivider(this._tiledItems[j])) {
const divider = this._tiledItems[j] as Divider;
endY = this._workArea.y + Math.floor(divider.getPosition() * this._workArea.height);
break;
}
}
// Count non-divider items until next divider
let itemCount = 0;
let itemsInSegment: number[] = [];
for (let j = i; j < this._tiledItems.length; j++) {
if (Divider.isDivider(this._tiledItems[j])) {
break;
}
itemsInSegment.push(j);
itemCount++;
}
// Divide space equally among items in this segment
const segmentHeight = endY - currentY;
const itemHeight = Math.floor(segmentHeight / itemCount);
for (let k = 0; k < itemsInSegment.length; k++) {
const itemY = currentY + (k * itemHeight);
bounds.push({
x: this._workArea.x,
y: itemY,
width: this._workArea.width,
height: itemHeight
} as Rect);
}
// Skip the items we just processed
i += itemCount - 1;
currentY = endY;
}
}
return bounds;
const items = this._tiledItems
const containerHeight = Math.floor(this._workArea.height / items.length);
return items.map((_, index) => {
const y = this._workArea.y + (index * containerHeight);
return {
x: this._workArea.x,
y: y,
width: this._workArea.width,
height: containerHeight
} as Rect;
});
}
getHorizontalBounds(): Rect[] {
// Filter out dividers to get only windows/containers
const nonDividerItems = this._tiledItems.filter(item => !Divider.isDivider(item));
const windowWidth = Math.floor(this._workArea.width / this._tiledItems.length);
if (nonDividerItems.length === 0) {
return [];
}
// If no dividers, use equal distribution
const hasDividers = this._tiledItems.some(item => Divider.isDivider(item));
if (!hasDividers) {
const windowWidth = Math.floor(this._workArea.width / nonDividerItems.length);
return nonDividerItems.map((_, index) => {
const x = this._workArea.x + (index * windowWidth);
return {
x: x,
y: this._workArea.y,
width: windowWidth,
height: this._workArea.height
} as Rect;
});
}
// Calculate bounds based on divider positions
const bounds: Rect[] = [];
let currentX = this._workArea.x;
for (let i = 0; i < this._tiledItems.length; i++) {
const item = this._tiledItems[i];
if (Divider.isDivider(item)) {
// Next segment starts at divider position
currentX = this._workArea.x + Math.floor(item.getPosition() * this._workArea.width);
} else {
// Find the end position for this item
let endX: number = this._workArea.x + this._workArea.width;
// Look ahead to find next divider or end of container
for (let j = i + 1; j < this._tiledItems.length; j++) {
if (Divider.isDivider(this._tiledItems[j])) {
const divider = this._tiledItems[j] as Divider;
endX = this._workArea.x + Math.floor(divider.getPosition() * this._workArea.width);
break;
}
}
// Count non-divider items until next divider
let itemCount = 0;
let itemsInSegment: number[] = [];
for (let j = i; j < this._tiledItems.length; j++) {
if (Divider.isDivider(this._tiledItems[j])) {
break;
}
itemsInSegment.push(j);
itemCount++;
}
// Divide space equally among items in this segment
const segmentWidth = endX - currentX;
const itemWidth = Math.floor(segmentWidth / itemCount);
for (let k = 0; k < itemsInSegment.length; k++) {
const itemX = currentX + (k * itemWidth);
bounds.push({
x: itemX,
y: this._workArea.y,
width: itemWidth,
height: this._workArea.height
} as Rect);
}
// Skip the items we just processed
i += itemCount - 1;
currentX = endX;
}
}
return bounds;
return this._tiledItems.map((_, index) => {
const x = this._workArea.x + (index * windowWidth);
return {
x: x,
y: this._workArea.y,
width: windowWidth,
height: this._workArea.height
} as Rect;
});
}
getIndexOfItemNested(item: WindowWrapper): number {
for (let i = 0; i < this._tiledItems.length; i++) {
const container = this._tiledItems[i];
if (Divider.isDivider(container)) {
continue; // Skip dividers
} else if (container instanceof WindowContainer) {
if (container instanceof WindowContainer) {
const index = container.getIndexOfItemNested(item);
if (index !== -1) {
return i;
}
} else if (container instanceof WindowWrapper && container.getWindowId() === item.getWindowId()) {
} else if (container.getWindowId() === item.getWindowId()) {
return i;
}
}
@@ -362,271 +188,24 @@ export default class WindowContainer {
// TODO: update this to work with nested containers - all other logic should already be working
itemDragged(item: WindowWrapper, x: number, y: number): void {
// Find the actual index in _tiledItems (including dividers)
const original_actual_index = this._getIndexOfWindow(item.getWindowId());
let original_index = this.getIndexOfItemNested(item);
if (original_actual_index === -1) {
if (original_index === -1) {
Logger.error("Item not found in container during drag op", item.getWindowId());
return;
}
// Find which visual slot (non-divider index) we're moving to
let new_visual_index = this.getIndexOfItemNested(item);
const bounds = this.getBounds();
bounds.forEach((rect, index) => {
let new_index = this.getIndexOfItemNested(item);
this.getBounds().forEach((rect, index) => {
if (rect.x < x && rect.x + rect.width > x && rect.y < y && rect.y + rect.height > y) {
new_visual_index = index;
new_index = index;
}
})
// Get current visual index (counting only non-dividers before this item)
let original_visual_index = 0;
for (let i = 0; i < original_actual_index; i++) {
if (!Divider.isDivider(this._tiledItems[i])) {
original_visual_index++;
}
if (original_index !== new_index) {
this._tiledItems.splice(original_index, 1);
this._tiledItems.splice(new_index, 0, item);
this.tileWindows()
}
if (original_visual_index === new_visual_index) {
return; // No movement needed
}
Logger.log(`Swapping window from visual index ${original_visual_index} to ${new_visual_index}`);
// Find the target window at the new visual index
let target_actual_index = -1;
let visual_count = 0;
for (let i = 0; i < this._tiledItems.length; i++) {
if (!Divider.isDivider(this._tiledItems[i])) {
if (visual_count === new_visual_index) {
target_actual_index = i;
break;
}
visual_count++;
}
}
if (target_actual_index === -1) {
Logger.warn("Could not find target position for drag");
return;
}
// Simply swap the two windows in place, leaving dividers where they are
const temp = this._tiledItems[original_actual_index];
this._tiledItems[original_actual_index] = this._tiledItems[target_actual_index];
this._tiledItems[target_actual_index] = temp;
this.tileWindows();
}
/**
* Handles window resize operations. Creates or updates dividers based on resize direction.
* @param item - The window being resized
* @param resizeEdge - The edge being resized (N, S, E, W, etc.)
* @param newRect - The new rectangle after resize
*/
handleWindowResize(item: WindowWrapper, resizeEdge: Meta.GrabOp, newRect: Rect): void {
const itemIndex = this._getIndexOfWindow(item.getWindowId());
if (itemIndex === -1) {
Logger.warn("Window not found in container during resize", item.getWindowId());
return;
}
// Determine if this is a valid resize for this container orientation
const isHorizontalResize = this._isHorizontalResizeOp(resizeEdge);
const isVerticalResize = this._isVerticalResizeOp(resizeEdge);
// Only allow horizontal resizes in horizontal containers
// Only allow vertical resizes in vertical containers
if (this._orientation === Orientation.HORIZONTAL && !isHorizontalResize) {
Logger.log("Ignoring vertical resize in horizontal container");
return;
}
if (this._orientation === Orientation.VERTICAL && !isVerticalResize) {
Logger.log("Ignoring horizontal resize in vertical container");
return;
}
// Determine which edge is being resized and find adjacent window
let adjacentIndex = -1;
let dividerPosition = 0;
if (this._orientation === Orientation.HORIZONTAL) {
// East/West resize
if (this._isEastResizeOp(resizeEdge)) {
// Resizing east edge - divider goes after this window
adjacentIndex = itemIndex + 1;
// Calculate divider position as ratio of container width
const rightEdge = newRect.x + newRect.width;
dividerPosition = (rightEdge - this._workArea.x) / this._workArea.width;
} else if (this._isWestResizeOp(resizeEdge)) {
// Resizing west edge - divider goes before this window
adjacentIndex = itemIndex - 1;
dividerPosition = (newRect.x - this._workArea.x) / this._workArea.width;
}
} else {
// Vertical orientation - North/South resize
if (this._isSouthResizeOp(resizeEdge)) {
// Resizing south edge - divider goes after this window
adjacentIndex = itemIndex + 1;
const bottomEdge = newRect.y + newRect.height;
dividerPosition = (bottomEdge - this._workArea.y) / this._workArea.height;
} else if (this._isNorthResizeOp(resizeEdge)) {
// Resizing north edge - divider goes before this window
adjacentIndex = itemIndex - 1;
dividerPosition = (newRect.y - this._workArea.y) / this._workArea.height;
}
}
// Make sure there's an adjacent item
if (adjacentIndex < 0 || adjacentIndex >= this._tiledItems.length) {
Logger.log("No adjacent window for resize operation");
return;
}
// Skip if adjacent item is already a divider
if (Divider.isDivider(this._tiledItems[adjacentIndex])) {
// Update existing divider
const divider = this._tiledItems[adjacentIndex] as Divider;
divider.setPosition(dividerPosition);
Logger.log(`Updated divider at index ${adjacentIndex} to position ${dividerPosition}`);
} else {
// Insert new divider between items
const dividerIndex = Math.max(itemIndex, adjacentIndex);
const newDivider = new Divider(dividerPosition, this._orientation);
this._tiledItems.splice(dividerIndex, 0, newDivider);
Logger.log(`Inserted new divider at index ${dividerIndex} with position ${dividerPosition}`);
}
this.tileWindows();
}
private _isHorizontalResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_E ||
op === Meta.GrabOp.RESIZING_W ||
op === Meta.GrabOp.RESIZING_NE ||
op === Meta.GrabOp.RESIZING_NW ||
op === Meta.GrabOp.RESIZING_SE ||
op === Meta.GrabOp.RESIZING_SW;
}
private _isVerticalResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_N ||
op === Meta.GrabOp.RESIZING_S ||
op === Meta.GrabOp.RESIZING_NE ||
op === Meta.GrabOp.RESIZING_NW ||
op === Meta.GrabOp.RESIZING_SE ||
op === Meta.GrabOp.RESIZING_SW;
}
private _isEastResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_E ||
op === Meta.GrabOp.RESIZING_NE ||
op === Meta.GrabOp.RESIZING_SE;
}
private _isWestResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_W ||
op === Meta.GrabOp.RESIZING_NW ||
op === Meta.GrabOp.RESIZING_SW;
}
private _isSouthResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_S ||
op === Meta.GrabOp.RESIZING_SE ||
op === Meta.GrabOp.RESIZING_SW;
}
private _isNorthResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_N ||
op === Meta.GrabOp.RESIZING_NE ||
op === Meta.GrabOp.RESIZING_NW;
}
/**
* Removes all dividers from this container, reverting to equal space distribution
*/
removeAllDividers(): void {
Logger.log("Removing all dividers from container");
this._tiledItems = this._tiledItems.filter(item => !Divider.isDivider(item));
this.tileWindows();
}
/**
* Updates divider position during a live resize operation (or creates if doesn't exist)
* This is called repeatedly during resize for live feedback
*/
updateDividerDuringResize(item: WindowWrapper, resizeEdge: Meta.GrabOp, newRect: Rect): void {
const itemIndex = this._getIndexOfWindow(item.getWindowId());
if (itemIndex === -1) {
return;
}
// Determine if this is a valid resize for this container orientation
const isHorizontalResize = this._isHorizontalResizeOp(resizeEdge);
const isVerticalResize = this._isVerticalResizeOp(resizeEdge);
if (this._orientation === Orientation.HORIZONTAL && !isHorizontalResize) {
return;
}
if (this._orientation === Orientation.VERTICAL && !isVerticalResize) {
return;
}
// Determine which edge is being resized and find adjacent window
let adjacentIndex = -1;
let dividerPosition = 0;
if (this._orientation === Orientation.HORIZONTAL) {
if (this._isEastResizeOp(resizeEdge)) {
adjacentIndex = itemIndex + 1;
const rightEdge = newRect.x + newRect.width;
dividerPosition = (rightEdge - this._workArea.x) / this._workArea.width;
} else if (this._isWestResizeOp(resizeEdge)) {
adjacentIndex = itemIndex - 1;
dividerPosition = (newRect.x - this._workArea.x) / this._workArea.width;
}
} else {
if (this._isSouthResizeOp(resizeEdge)) {
adjacentIndex = itemIndex + 1;
const bottomEdge = newRect.y + newRect.height;
dividerPosition = (bottomEdge - this._workArea.y) / this._workArea.height;
} else if (this._isNorthResizeOp(resizeEdge)) {
adjacentIndex = itemIndex - 1;
dividerPosition = (newRect.y - this._workArea.y) / this._workArea.height;
}
}
// Make sure there's an adjacent item (window or container, not out of bounds)
if (adjacentIndex < 0 || adjacentIndex >= this._tiledItems.length) {
Logger.log(`No adjacent item at index ${adjacentIndex}`);
return;
}
// Determine where divider should be inserted/updated
// For East/South resizes: divider between current (itemIndex) and next (itemIndex+1)
// For West/North resizes: divider between previous (itemIndex-1) and current (itemIndex)
let dividerIndex: number;
if (this._orientation === Orientation.HORIZONTAL) {
dividerIndex = this._isEastResizeOp(resizeEdge) ? itemIndex + 1 : itemIndex;
} else {
dividerIndex = this._isSouthResizeOp(resizeEdge) ? itemIndex + 1 : itemIndex;
}
// Check if there's already a divider at this position
if (dividerIndex < this._tiledItems.length && Divider.isDivider(this._tiledItems[dividerIndex])) {
// Update existing divider
const divider = this._tiledItems[dividerIndex] as Divider;
divider.setPosition(dividerPosition);
} else {
// Insert new divider
const newDivider = new Divider(dividerPosition, this._orientation);
this._tiledItems.splice(dividerIndex, 0, newDivider);
}
// Retile to show live updates
this.tileWindows();
}

45
src/wm/divider.ts
View File

@@ -1,45 +0,0 @@
import {Logger} from "../utils/logger.js";
enum Orientation {
HORIZONTAL = 0,
VERTICAL = 1,
}
/**
* Represents a divider between windows in a container.
* Dividers track the split position as a ratio (0-1) of the container's size.
*/
export class Divider {
private _position: number; // Position as ratio 0-1
private _orientation: Orientation;
/**
* Creates a new divider
* @param position - Position as ratio between 0 and 1
* @param orientation - Orientation of the divider (HORIZONTAL or VERTICAL)
*/
constructor(position: number, orientation: Orientation) {
this._position = Math.max(0, Math.min(1, position)); // Clamp between 0 and 1
this._orientation = orientation;
}
getPosition(): number {
return this._position;
}
setPosition(position: number): void {
this._position = Math.max(0, Math.min(1, position)); // Clamp between 0 and 1
Logger.log(`Divider position updated to ${this._position}`);
}
getOrientation(): Orientation {
return this._orientation;
}
/**
* Check if this is a divider instance
*/
static isDivider(item: any): item is Divider {
return item instanceof Divider;
}
}

13
src/wm/monitor.ts
View File

@@ -83,17 +83,4 @@ export default class Monitor {
this._workspaces[item.getWorkspace()].itemDragged(item, x, y);
}
handleWindowResize(item: WindowWrapper, resizeEdge: Meta.GrabOp, newRect: Rect): void {
this._workspaces[item.getWorkspace()].handleWindowResize(item, resizeEdge, newRect);
}
updateDividerDuringResize(item: WindowWrapper, resizeEdge: Meta.GrabOp, newRect: Rect): void {
this._workspaces[item.getWorkspace()].updateDividerDuringResize(item, resizeEdge, newRect);
}
removeAllDividersFromActiveContainer(): void {
const activeWorkspace = global.workspace_manager.get_active_workspace();
this._workspaces[activeWorkspace.index()].removeAllDividers();
}
}

23
src/wm/window.ts
View File

@@ -16,7 +16,6 @@ export class WindowWrapper {
readonly _signals: number[] = [];
_parent: WindowContainer | null = null;
_dragging: boolean = false;
_resizing: boolean = false;
constructor(
window: Meta.Window,
@@ -54,13 +53,6 @@ export class WindowWrapper {
this._dragging = false;
}
startResizing(): void {
this._resizing = true;
}
stopResizing(): void {
this._resizing = false;
}
// setParent(parent: WindowContainer): void {
// this._parent = parent;
// }
@@ -93,11 +85,6 @@ export class WindowWrapper {
}
}),
this._window.connect('notify::has-focus', () => {
if (this._window.has_focus()) {
windowManager._activeWindowId = windowId;
}
}),
this._window.connect('notify::maximized-horizontally', () => {
if (this._window.is_maximized()) {
Logger.log(`Window maximized: ${windowId}`);
@@ -132,8 +119,8 @@ export class WindowWrapper {
safelyResizeWindow(rect: Rect, _retry: number = 2): void {
// Keep minimal logging
if (this._dragging && !this._resizing) {
// During drag operations (not resize), skip this entirely
if (this._dragging) {
Logger.info("STOPPED RESIZE BECAUSE ITEM IS BEING DRAGGED")
return;
}
// Logger.log("SAFELY RESIZE", rect.x, rect.y, rect.width, rect.height);
@@ -150,12 +137,6 @@ export class WindowWrapper {
this._window.move_frame(true, rect.x, rect.y);
// Logger.info("RESIZING MOVING")
this._window.move_resize_frame(true, rect.x, rect.y, rect.width, rect.height);
// Don't retry during live resize operations - it causes spam and isn't needed
if (this._resizing) {
return;
}
let new_rect = this._window.get_frame_rect();
if ( _retry > 0 && (new_rect.x != rect.x || rect.y != new_rect.y || rect.width < new_rect.width || rect.height < new_rect.height)) {
Logger.warn("RESIZING FAILED AS SMALLER", new_rect.x, new_rect.y, new_rect.width, new_rect.height, rect.x, rect.y, rect.width, rect.height);

226
src/wm/windowManager.ts
View File

@@ -7,6 +7,7 @@ import * as Main from "resource:///org/gnome/shell/ui/main.js";
// import Mtk from "@girs/mtk-16";
import {Logger} from "../utils/logger.js";
import Monitor from "./monitor.js";
import WindowContainer from "./container.js";
export interface IWindowManager {
@@ -44,7 +45,6 @@ export default class WindowManager implements IWindowManager {
_grabbedWindowMonitor: number = _UNUSED_MONITOR_ID;
_grabbedWindowId: number = _UNUSED_WINDOW_ID;
_grabbedOp: Meta.GrabOp | null = null;
_changingGrabbedMonitor: boolean = false;
_showingOverview: boolean = false;
@@ -65,6 +65,9 @@ export default class WindowManager implements IWindowManager {
}
this.captureExistingWindows();
// Sync the initially focused window
this.syncActiveWindow();
}
instantiateDisplaySignals(): void {
@@ -87,6 +90,9 @@ export default class WindowManager implements IWindowManager {
global.display.connect('window-created', (display, window) => {
this.handleWindowCreated(display, window);
}),
global.display.connect('notify::focus-window', () => {
this.syncActiveWindow();
}),
global.display.connect("showing-desktop-changed", () => {
Logger.log("SHOWING DESKTOP CHANGED");
@@ -158,10 +164,13 @@ export default class WindowManager implements IWindowManager {
}
removeAllWindows(): void {
// Disconnect signals from minimized windows before clearing
this.disconnectMinimizedSignals();
this._minimizedItems.clear();
this._monitors.forEach((monitor: Monitor) => {
monitor.removeAllWindows();
})
this._minimizedItems.clear();
}
@@ -206,56 +215,22 @@ export default class WindowManager implements IWindowManager {
Logger.log("Grab Op Start", op);
Logger.log(display, window, op)
Logger.log(window.get_monitor())
const winWrap = this._getWrappedWindow(window);
if (this._isResizeOp(op)) {
winWrap?.startResizing();
} else {
winWrap?.startDragging();
}
this._getWrappedWindow(window)?.startDragging();
this._grabbedWindowMonitor = window.get_monitor();
this._grabbedWindowId = window.get_id();
this._grabbedOp = op;
}
handleGrabOpEnd(display: Meta.Display, window: Meta.Window, op: Meta.GrabOp): void {
Logger.log("Grab Op End ", op);
Logger.log("primary display", display.get_primary_monitor())
// Handle resize operations
if (this._isResizeOp(op)) {
const winWrap = this._getWrappedWindow(window);
if (winWrap && this._grabbedOp) {
const newRect = window.get_frame_rect();
const monitorId = window.get_monitor();
Logger.log(`Handling resize operation: ${op}, new rect:`, newRect);
this._monitors.get(monitorId)?.handleWindowResize(winWrap, this._grabbedOp, newRect);
winWrap.stopResizing();
}
} else {
this._getWrappedWindow(window)?.stopDragging();
}
this._grabbedWindowId = _UNUSED_WINDOW_ID;
this._grabbedOp = null;
this._getWrappedWindow(window)?.stopDragging();
this._tileMonitors();
Logger.info("monitor_start and monitor_end", this._grabbedWindowMonitor, window.get_monitor());
}
private _isResizeOp(op: Meta.GrabOp): boolean {
return op === Meta.GrabOp.RESIZING_E ||
op === Meta.GrabOp.RESIZING_W ||
op === Meta.GrabOp.RESIZING_N ||
op === Meta.GrabOp.RESIZING_S ||
op === Meta.GrabOp.RESIZING_NE ||
op === Meta.GrabOp.RESIZING_NW ||
op === Meta.GrabOp.RESIZING_SE ||
op === Meta.GrabOp.RESIZING_SW;
}
_getWrappedWindow(window: Meta.Window): WindowWrapper | undefined {
let wrapped = undefined;
let wrapped: WindowWrapper | undefined = undefined;
for (const monitor of this._monitors.values()) {
wrapped = monitor.getWindow(window.get_id());
if (wrapped !== undefined) {
@@ -266,7 +241,7 @@ export default class WindowManager implements IWindowManager {
}
_getAndRemoveWrappedWindow(window: Meta.Window): WindowWrapper | undefined {
let wrapped = undefined;
let wrapped: WindowWrapper | undefined = undefined;
for (const monitor of this._monitors.values()) {
wrapped = monitor.getWindow(window.get_id());
if (wrapped !== undefined) {
@@ -281,7 +256,7 @@ export default class WindowManager implements IWindowManager {
let wrapped = this._getAndRemoveWrappedWindow(window);
if (wrapped === undefined) {
Logger.error("WINDOW NOT DEFINED")
wrapped = new WindowWrapper(window, this.handleWindowMinimized);
wrapped = new WindowWrapper(window, (winWrap) => this.handleWindowMinimized(winWrap));
wrapped.connectWindowSignals(this);
}
let new_mon = this._monitors.get(monitorId);
@@ -293,16 +268,6 @@ export default class WindowManager implements IWindowManager {
if (this._changingGrabbedMonitor) {
return;
}
// Handle resize operations - update dividers in real-time
if (this._grabbedOp && this._isResizeOp(this._grabbedOp)) {
const window = winWrap.getWindow();
const newRect = window.get_frame_rect();
const monitorId = window.get_monitor();
this._monitors.get(monitorId)?.updateDividerDuringResize(winWrap, this._grabbedOp, newRect);
return;
}
if (winWrap.getWindowId() === this._grabbedWindowId) {
const [mouseX, mouseY, _] = global.get_pointer();
@@ -392,7 +357,7 @@ export default class WindowManager implements IWindowManager {
public addWindowToMonitor(window: Meta.Window) {
Logger.log("ADDING WINDOW TO MONITOR", window, window);
var wrapper = new WindowWrapper(window, this.handleWindowMinimized)
var wrapper = new WindowWrapper(window, (winWrap) => this.handleWindowMinimized(winWrap))
wrapper.connectWindowSignals(this);
this._addWindowWrapperToMonitor(wrapper);
@@ -461,28 +426,157 @@ export default class WindowManager implements IWindowManager {
* @returns The window ID of the active window, or null if no window is active
*/
public syncActiveWindow(): number | null {
const focusWindow = global.display.focus_window;
if (focusWindow) {
this._activeWindowId = focusWindow.get_id();
Logger.debug(`Active window changed to: ${this._activeWindowId} (${focusWindow.get_title()})`);
} else {
this._activeWindowId = null;
Logger.debug('No active window');
}
return this._activeWindowId;
}
/**
* Toggles the orientation of the active container (the container holding the active window)
*/
public toggleActiveContainerOrientation(): void {
if (this._activeWindowId === null) {
Logger.warn("No active window, cannot toggle container orientation");
return;
}
// Find the active window's container
const activeContainer = this._findActiveContainer();
if (activeContainer) {
activeContainer.toggleOrientation();
} else {
Logger.warn("Could not find container for active window");
}
}
/**
* Finds the container that directly contains the active window
* @returns The container holding the active window, or null if not found
*/
private _findActiveContainer(): WindowContainer | null {
if (this._activeWindowId === null) {
return null;
}
for (const monitor of this._monitors.values()) {
const activeWorkspaceIndex = global.workspace_manager.get_active_workspace().index();
// Bounds check to prevent accessing invalid workspace
if (activeWorkspaceIndex >= monitor._workspaces.length || activeWorkspaceIndex < 0) {
Logger.warn(`Active workspace index ${activeWorkspaceIndex} out of bounds for monitor with ${monitor._workspaces.length} workspaces`);
continue;
}
const workspace = monitor._workspaces[activeWorkspaceIndex];
// Check if the window is directly in the workspace container
const windowWrapper = workspace.getWindow(this._activeWindowId);
if (windowWrapper) {
// Try to find the parent container
const container = this._findContainerHoldingWindow(workspace, this._activeWindowId);
return container;
}
}
return null;
}
/**
* Removes all dividers from the container with the currently active window
* Recursively finds the container that directly contains a specific window
* @param container The container to search
* @param windowId The window ID to find
* @returns The container that directly contains the window, or null if not found
*/
public removeAllDividersFromActiveContainer(): void {
const activeWindow = global.display.focus_window;
if (!activeWindow) {
Logger.log("No active window, cannot remove dividers");
return;
private _findContainerHoldingWindow(container: WindowContainer, windowId: number): WindowContainer | null {
// Check if this container directly contains the window
for (const item of container._tiledItems) {
if (item instanceof WindowContainer) {
// Recursively search nested containers
const result = this._findContainerHoldingWindow(item, windowId);
if (result) {
return result;
}
} else if (item.getWindowId() === windowId) {
// Found it! Return this container as it directly holds the window
return container;
}
}
const monitorId = activeWindow.get_monitor();
const monitor = this._monitors.get(monitorId);
return null;
}
if (monitor) {
Logger.log(`Removing all dividers from monitor ${monitorId}`);
monitor.removeAllDividersFromActiveContainer();
} else {
Logger.warn(`Monitor ${monitorId} not found`);
}
/**
* Prints the tree structure of all monitors, workspaces, containers, and windows to the logs
*/
public printTreeStructure(): void {
Logger.info("=".repeat(80));
Logger.info("WINDOW TREE STRUCTURE");
Logger.info("=".repeat(80));
Logger.info(`Active Window ID: ${this._activeWindowId ?? 'none'}`);
Logger.info("=".repeat(80));
const activeWorkspaceIndex = global.workspace_manager.get_active_workspace().index();
this._monitors.forEach((monitor: Monitor, monitorId: number) => {
const isActiveMonitor = this._activeWindowId !== null &&
monitor.getWindow(this._activeWindowId) !== undefined;
const monitorMarker = isActiveMonitor ? ' *' : '';
Logger.info(`Monitor ${monitorId}${monitorMarker}:`);
Logger.info(` Work Area: x=${monitor._workArea.x}, y=${monitor._workArea.y}, w=${monitor._workArea.width}, h=${monitor._workArea.height}`);
monitor._workspaces.forEach((workspace, workspaceIndex) => {
const isActiveWorkspace = workspaceIndex === activeWorkspaceIndex;
const workspaceMarker = isActiveWorkspace && isActiveMonitor ? ' *' : '';
Logger.info(` Workspace ${workspaceIndex}${workspaceMarker}:`);
Logger.info(` Orientation: ${workspace._orientation === 0 ? 'HORIZONTAL' : 'VERTICAL'}`);
Logger.info(` Items: ${workspace._tiledItems.length}`);
this._printContainerTree(workspace, 4);
});
});
Logger.info("=".repeat(80));
}
/**
* Recursively prints the container tree structure
* @param container The container to print
* @param indentLevel The indentation level (number of spaces)
*/
private _printContainerTree(container: any, indentLevel: number): void {
const indent = " ".repeat(indentLevel);
container._tiledItems.forEach((item: any, index: number) => {
if (item instanceof WindowContainer) {
// Check if this container contains the active window
const containsActiveWindow = this._activeWindowId !== null &&
item.getWindow(this._activeWindowId) !== undefined;
const containerMarker = containsActiveWindow ? ' *' : '';
Logger.info(`${indent}[${index}] Container (${item._orientation === 0 ? 'HORIZONTAL' : 'VERTICAL'})${containerMarker}:`);
Logger.info(`${indent} Items: ${item._tiledItems.length}`);
Logger.info(`${indent} Work Area: x=${item._workArea.x}, y=${item._workArea.y}, w=${item._workArea.width}, h=${item._workArea.height}`);
this._printContainerTree(item, indentLevel + 4);
} else {
const window = item.getWindow();
const isActiveWindow = this._activeWindowId === item.getWindowId();
const windowMarker = isActiveWindow ? ' *' : '';
Logger.info(`${indent}[${index}] Window ID: ${item.getWindowId()}${windowMarker}`);
Logger.info(`${indent} Title: "${window.get_title()}"`);
Logger.info(`${indent} Class: ${window.get_wm_class()}`);
const rect = item.getRect();
Logger.info(`${indent} Rect: x=${rect.x}, y=${rect.y}, w=${rect.width}, h=${rect.height}`);
}
});
}

2
tsconfig.json
View File

@@ -5,6 +5,8 @@
"outDir": "./dist",
"sourceMap": false,
"strict": true,
"noImplicitAny": false,
"skipLibCheck": true,
"target": "ES2022",
"lib": [
"ES2022"