third_party/perfetto/ui/src/frontend/pan_and_zoom_handler.ts - cobalt - Git at Google

 // Copyright (C) 2018 The Android Open Source Project
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //      http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 import {Animation} from './animation';
 import {DragGestureHandler} from './drag_gesture_handler';
 import {globals} from './globals';
 import {handleKey} from './keyboard_event_handler';

 // When first starting to pan or zoom, move at least this many units.
 const INITIAL_PAN_STEP_PX = 50;
 const INITIAL_ZOOM_STEP = 0.1;

 // The snappiness (spring constant) of pan and zoom animations [0..1].
 const SNAP_FACTOR = 0.4;

 // How much the velocity of a pan or zoom animation increases per millisecond.
 const ACCELERATION_PER_MS = 1 / 50;

 // The default duration of a pan or zoom animation. The animation may run longer
 // if the user keeps holding the respective button down or shorter if the button
 // is released. This value so chosen so that it is longer than the typical key
 // repeat timeout to avoid breaks in the animation.
 const DEFAULT_ANIMATION_DURATION = 700;

 // The minimum number of units to pan or zoom per frame (before the
 // ACCELERATION_PER_MS multiplier is applied).
 const ZOOM_RATIO_PER_FRAME = 0.008;
 const KEYBOARD_PAN_PX_PER_FRAME = 8;

 // Scroll wheel animation steps.
 const HORIZONTAL_WHEEL_PAN_SPEED = 1;
 const WHEEL_ZOOM_SPEED = -0.02;

 const EDITING_RANGE_CURSOR = 'ew-resize';
 const DRAG_CURSOR = 'default';
 const PAN_CURSOR = 'move';

 // Use key mapping based on the 'KeyboardEvent.code' property vs the
 // 'KeyboardEvent.key', because the former corresponds to the physical key
 // position rather than the glyph printed on top of it, and is unaffected by
 // the user's keyboard layout.
 // For example, 'KeyW' always corresponds to the key at the physical location of
 // the 'w' key on an English QWERTY keyboard, regardless of the user's keyboard
 // layout, or at least the layout they have configured in their OS.
 // Seeing as most users use the keys in the English QWERTY "WASD" position for
 // controlling kb+mouse applications like games, it's a good bet that these are
 // the keys most poeple are going to find natural for navigating the UI.
 // See https://www.w3.org/TR/uievents-code/#key-alphanumeric-writing-system
 export enum KeyMapping {
   KEY_PAN_LEFT = 'KeyA',
   KEY_PAN_RIGHT = 'KeyD',
   KEY_ZOOM_IN = 'KeyW',
   KEY_ZOOM_OUT = 'KeyS',
 }

 enum Pan {
   None = 0,
   Left = -1,
   Right = 1
 }
 function keyToPan(e: KeyboardEvent): Pan {
   if (e.code === KeyMapping.KEY_PAN_LEFT) return Pan.Left;
   if (e.code === KeyMapping.KEY_PAN_RIGHT) return Pan.Right;
   return Pan.None;
 }

 enum Zoom {
   None = 0,
   In = 1,
   Out = -1
 }
 function keyToZoom(e: KeyboardEvent): Zoom {
   if (e.code === KeyMapping.KEY_ZOOM_IN) return Zoom.In;
   if (e.code === KeyMapping.KEY_ZOOM_OUT) return Zoom.Out;
   return Zoom.None;
 }

 /**
  * Enables horizontal pan and zoom with mouse-based drag and WASD navigation.
  */
 export class PanAndZoomHandler {
   private mousePositionX: number|null = null;
   private boundOnMouseMove = this.onMouseMove.bind(this);
   private boundOnWheel = this.onWheel.bind(this);
   private boundOnKeyDown = this.onKeyDown.bind(this);
   private boundOnKeyUp = this.onKeyUp.bind(this);
   private shiftDown = false;
   private panning: Pan = Pan.None;
   private panOffsetPx = 0;
   private targetPanOffsetPx = 0;
   private zooming: Zoom = Zoom.None;
   private zoomRatio = 0;
   private targetZoomRatio = 0;
   private panAnimation = new Animation(this.onPanAnimationStep.bind(this));
   private zoomAnimation = new Animation(this.onZoomAnimationStep.bind(this));

   private element: HTMLElement;
   private contentOffsetX: number;
   private onPanned: (movedPx: number) => void;
   private onZoomed: (zoomPositionPx: number, zoomRatio: number) => void;
   private editSelection: (currentPx: number) => boolean;
   private onSelection:
       (dragStartX: number, dragStartY: number, prevX: number, currentX: number,
        currentY: number, editing: boolean) => void;
   private endSelection: (edit: boolean) => void;

   constructor({
     element,
     contentOffsetX,
     onPanned,
     onZoomed,
     editSelection,
     onSelection,
     endSelection,
   }: {
     element: HTMLElement,
     contentOffsetX: number,
     onPanned: (movedPx: number) => void,
     onZoomed: (zoomPositionPx: number, zoomRatio: number) => void,
     editSelection: (currentPx: number) => boolean,
     onSelection:
         (dragStartX: number, dragStartY: number, prevX: number,
          currentX: number, currentY: number, editing: boolean) => void,
     endSelection: (edit: boolean) => void,
   }) {
     this.element = element;
     this.contentOffsetX = contentOffsetX;
     this.onPanned = onPanned;
     this.onZoomed = onZoomed;
     this.editSelection = editSelection;
     this.onSelection = onSelection;
     this.endSelection = endSelection;

     document.body.addEventListener('keydown', this.boundOnKeyDown);
     document.body.addEventListener('keyup', this.boundOnKeyUp);
     this.element.addEventListener('mousemove', this.boundOnMouseMove);
     this.element.addEventListener('wheel', this.boundOnWheel, {passive: true});

     let prevX = -1;
     let dragStartX = -1;
     let dragStartY = -1;
     let edit = false;
     new DragGestureHandler(
         this.element,
         (x, y) => {
           if (this.shiftDown) {
             this.onPanned(prevX - x);
           } else {
             this.onSelection(dragStartX, dragStartY, prevX, x, y, edit);
           }
           prevX = x;
         },
         (x, y) => {
           prevX = x;
           dragStartX = x;
           dragStartY = y;
           edit = this.editSelection(x);
           // Set the cursor style based on where the cursor is when the drag
           // starts.
           if (edit) {
             this.element.style.cursor = EDITING_RANGE_CURSOR;
           } else if (!this.shiftDown) {
             this.element.style.cursor = DRAG_CURSOR;
           }
         },
         () => {
           // Reset the cursor now the drag has ended.
           this.element.style.cursor = this.shiftDown ? PAN_CURSOR : DRAG_CURSOR;
           dragStartX = -1;
           dragStartY = -1;
           this.endSelection(edit);
         });
   }


   shutdown() {
     document.body.removeEventListener('keydown', this.boundOnKeyDown);
     document.body.removeEventListener('keyup', this.boundOnKeyUp);
     this.element.removeEventListener('mousemove', this.boundOnMouseMove);
     this.element.removeEventListener('wheel', this.boundOnWheel);
   }

   private onPanAnimationStep(msSinceStartOfAnimation: number) {
     const step = (this.targetPanOffsetPx - this.panOffsetPx) * SNAP_FACTOR;
     if (this.panning !== Pan.None) {
       const velocity = 1 + msSinceStartOfAnimation * ACCELERATION_PER_MS;
       // Pan at least as fast as the snapping animation to avoid a
       // discontinuity.
       const targetStep = Math.max(KEYBOARD_PAN_PX_PER_FRAME * velocity, step);
       this.targetPanOffsetPx += this.panning * targetStep;
     }
     this.panOffsetPx += step;
     if (Math.abs(step) > 1e-1) {
       this.onPanned(step);
     } else {
       this.panAnimation.stop();
     }
   }

   private onZoomAnimationStep(msSinceStartOfAnimation: number) {
     if (this.mousePositionX === null) return;
     const step = (this.targetZoomRatio - this.zoomRatio) * SNAP_FACTOR;
     if (this.zooming !== Zoom.None) {
       const velocity = 1 + msSinceStartOfAnimation * ACCELERATION_PER_MS;
       // Zoom at least as fast as the snapping animation to avoid a
       // discontinuity.
       const targetStep = Math.max(ZOOM_RATIO_PER_FRAME * velocity, step);
       this.targetZoomRatio += this.zooming * targetStep;
     }
     this.zoomRatio += step;
     if (Math.abs(step) > 1e-6) {
       this.onZoomed(this.mousePositionX, step);
     } else {
       this.zoomAnimation.stop();
     }
   }

   private onMouseMove(e: MouseEvent) {
     const pageOffset = globals.state.sidebarVisible && !globals.hideSidebar ?
         this.contentOffsetX :
         0;
     // We can't use layerX here because there are many layers in this element.
     this.mousePositionX = e.clientX - pageOffset;
     // Only change the cursor when hovering, the DragGestureHandler handles
     // changing the cursor during drag events. This avoids the problem of
     // the cursor flickering between styles if you drag fast and get too
     // far from the current time range.
     if (e.buttons === 0) {
       if (this.editSelection(this.mousePositionX)) {
         this.element.style.cursor = EDITING_RANGE_CURSOR;
       } else {
         this.element.style.cursor = this.shiftDown ? PAN_CURSOR : DRAG_CURSOR;
       }
     }
   }

   private onWheel(e: WheelEvent) {
     if (Math.abs(e.deltaX) > Math.abs(e.deltaY)) {
       this.onPanned(e.deltaX * HORIZONTAL_WHEEL_PAN_SPEED);
       globals.rafScheduler.scheduleRedraw();
     } else if (e.ctrlKey && this.mousePositionX) {
       const sign = e.deltaY < 0 ? -1 : 1;
       const deltaY = sign * Math.log2(1 + Math.abs(e.deltaY));
       this.onZoomed(this.mousePositionX, deltaY * WHEEL_ZOOM_SPEED);
       globals.rafScheduler.scheduleRedraw();
     }
   }

   private onKeyDown(e: KeyboardEvent) {
     this.updateShift(e.shiftKey);

     // Handle key events that are not pan or zoom.
     if (handleKey(e, true)) return;

     if (keyToPan(e) !== Pan.None) {
       if (this.panning !== keyToPan(e)) {
         this.panAnimation.stop();
         this.panOffsetPx = 0;
         this.targetPanOffsetPx = keyToPan(e) * INITIAL_PAN_STEP_PX;
       }
       this.panning = keyToPan(e);
       this.panAnimation.start(DEFAULT_ANIMATION_DURATION);
     }

     if (keyToZoom(e) !== Zoom.None) {
       if (this.zooming !== keyToZoom(e)) {
         this.zoomAnimation.stop();
         this.zoomRatio = 0;
         this.targetZoomRatio = keyToZoom(e) * INITIAL_ZOOM_STEP;
       }
       this.zooming = keyToZoom(e);
       this.zoomAnimation.start(DEFAULT_ANIMATION_DURATION);
     }
   }

   private onKeyUp(e: KeyboardEvent) {
     this.updateShift(e.shiftKey);

     // Handle key events that are not pan or zoom.
     if (handleKey(e, false)) return;

     if (keyToPan(e) === this.panning) {
       this.panning = Pan.None;
     }
     if (keyToZoom(e) === this.zooming) {
       this.zooming = Zoom.None;
     }
   }

   // TODO(hjd): Move this shift handling into the viewer page.
   private updateShift(down: boolean) {
     if (down === this.shiftDown) return;
     this.shiftDown = down;
     if (this.shiftDown) {
       this.element.style.cursor = PAN_CURSOR;
     } else if (this.mousePositionX) {
       this.element.style.cursor = DRAG_CURSOR;
     }
   }
 }
	// Copyright (C) 2018 The Android Open Source Project
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	import {Animation} from './animation';
	import {DragGestureHandler} from './drag_gesture_handler';
	import {globals} from './globals';
	import {handleKey} from './keyboard_event_handler';

	// When first starting to pan or zoom, move at least this many units.
	const INITIAL_PAN_STEP_PX = 50;
	const INITIAL_ZOOM_STEP = 0.1;

	// The snappiness (spring constant) of pan and zoom animations [0..1].
	const SNAP_FACTOR = 0.4;

	// How much the velocity of a pan or zoom animation increases per millisecond.
	const ACCELERATION_PER_MS = 1 / 50;

	// The default duration of a pan or zoom animation. The animation may run longer
	// if the user keeps holding the respective button down or shorter if the button
	// is released. This value so chosen so that it is longer than the typical key
	// repeat timeout to avoid breaks in the animation.
	const DEFAULT_ANIMATION_DURATION = 700;

	// The minimum number of units to pan or zoom per frame (before the
	// ACCELERATION_PER_MS multiplier is applied).
	const ZOOM_RATIO_PER_FRAME = 0.008;
	const KEYBOARD_PAN_PX_PER_FRAME = 8;

	// Scroll wheel animation steps.
	const HORIZONTAL_WHEEL_PAN_SPEED = 1;
	const WHEEL_ZOOM_SPEED = -0.02;

	const EDITING_RANGE_CURSOR = 'ew-resize';
	const DRAG_CURSOR = 'default';
	const PAN_CURSOR = 'move';

	// Use key mapping based on the 'KeyboardEvent.code' property vs the
	// 'KeyboardEvent.key', because the former corresponds to the physical key
	// position rather than the glyph printed on top of it, and is unaffected by
	// the user's keyboard layout.
	// For example, 'KeyW' always corresponds to the key at the physical location of
	// the 'w' key on an English QWERTY keyboard, regardless of the user's keyboard
	// layout, or at least the layout they have configured in their OS.
	// Seeing as most users use the keys in the English QWERTY "WASD" position for
	// controlling kb+mouse applications like games, it's a good bet that these are
	// the keys most poeple are going to find natural for navigating the UI.
	// See https://www.w3.org/TR/uievents-code/#key-alphanumeric-writing-system
	export enum KeyMapping {
	KEY_PAN_LEFT = 'KeyA',
	KEY_PAN_RIGHT = 'KeyD',
	KEY_ZOOM_IN = 'KeyW',
	KEY_ZOOM_OUT = 'KeyS',
	}

	enum Pan {
	None = 0,
	Left = -1,
	Right = 1
	}
	function keyToPan(e: KeyboardEvent): Pan {
	if (e.code === KeyMapping.KEY_PAN_LEFT) return Pan.Left;
	if (e.code === KeyMapping.KEY_PAN_RIGHT) return Pan.Right;
	return Pan.None;
	}

	enum Zoom {
	None = 0,
	In = 1,
	Out = -1
	}
	function keyToZoom(e: KeyboardEvent): Zoom {
	if (e.code === KeyMapping.KEY_ZOOM_IN) return Zoom.In;
	if (e.code === KeyMapping.KEY_ZOOM_OUT) return Zoom.Out;
	return Zoom.None;
	}

	/**
	* Enables horizontal pan and zoom with mouse-based drag and WASD navigation.
	*/
	export class PanAndZoomHandler {
	private mousePositionX: number\|null = null;
	private boundOnMouseMove = this.onMouseMove.bind(this);
	private boundOnWheel = this.onWheel.bind(this);
	private boundOnKeyDown = this.onKeyDown.bind(this);
	private boundOnKeyUp = this.onKeyUp.bind(this);
	private shiftDown = false;
	private panning: Pan = Pan.None;
	private panOffsetPx = 0;
	private targetPanOffsetPx = 0;
	private zooming: Zoom = Zoom.None;
	private zoomRatio = 0;
	private targetZoomRatio = 0;
	private panAnimation = new Animation(this.onPanAnimationStep.bind(this));
	private zoomAnimation = new Animation(this.onZoomAnimationStep.bind(this));

	private element: HTMLElement;
	private contentOffsetX: number;
	private onPanned: (movedPx: number) => void;
	private onZoomed: (zoomPositionPx: number, zoomRatio: number) => void;
	private editSelection: (currentPx: number) => boolean;
	private onSelection:
	(dragStartX: number, dragStartY: number, prevX: number, currentX: number,
	currentY: number, editing: boolean) => void;
	private endSelection: (edit: boolean) => void;

	constructor({
	element,
	contentOffsetX,
	onPanned,
	onZoomed,
	editSelection,
	onSelection,
	endSelection,
	}: {
	element: HTMLElement,
	contentOffsetX: number,
	onPanned: (movedPx: number) => void,
	onZoomed: (zoomPositionPx: number, zoomRatio: number) => void,
	editSelection: (currentPx: number) => boolean,
	onSelection:
	(dragStartX: number, dragStartY: number, prevX: number,
	currentX: number, currentY: number, editing: boolean) => void,
	endSelection: (edit: boolean) => void,
	}) {
	this.element = element;
	this.contentOffsetX = contentOffsetX;
	this.onPanned = onPanned;
	this.onZoomed = onZoomed;
	this.editSelection = editSelection;
	this.onSelection = onSelection;
	this.endSelection = endSelection;

	document.body.addEventListener('keydown', this.boundOnKeyDown);
	document.body.addEventListener('keyup', this.boundOnKeyUp);
	this.element.addEventListener('mousemove', this.boundOnMouseMove);
	this.element.addEventListener('wheel', this.boundOnWheel, {passive: true});

	let prevX = -1;
	let dragStartX = -1;
	let dragStartY = -1;
	let edit = false;
	new DragGestureHandler(
	this.element,
	(x, y) => {
	if (this.shiftDown) {
	this.onPanned(prevX - x);
	} else {
	this.onSelection(dragStartX, dragStartY, prevX, x, y, edit);
	}
	prevX = x;
	},
	(x, y) => {
	prevX = x;
	dragStartX = x;
	dragStartY = y;
	edit = this.editSelection(x);
	// Set the cursor style based on where the cursor is when the drag
	// starts.
	if (edit) {
	this.element.style.cursor = EDITING_RANGE_CURSOR;
	} else if (!this.shiftDown) {
	this.element.style.cursor = DRAG_CURSOR;
	}
	},
	() => {
	// Reset the cursor now the drag has ended.
	this.element.style.cursor = this.shiftDown ? PAN_CURSOR : DRAG_CURSOR;
	dragStartX = -1;
	dragStartY = -1;
	this.endSelection(edit);
	});
	}


	shutdown() {
	document.body.removeEventListener('keydown', this.boundOnKeyDown);
	document.body.removeEventListener('keyup', this.boundOnKeyUp);
	this.element.removeEventListener('mousemove', this.boundOnMouseMove);
	this.element.removeEventListener('wheel', this.boundOnWheel);
	}

	private onPanAnimationStep(msSinceStartOfAnimation: number) {
	const step = (this.targetPanOffsetPx - this.panOffsetPx) * SNAP_FACTOR;
	if (this.panning !== Pan.None) {
	const velocity = 1 + msSinceStartOfAnimation * ACCELERATION_PER_MS;
	// Pan at least as fast as the snapping animation to avoid a
	// discontinuity.
	const targetStep = Math.max(KEYBOARD_PAN_PX_PER_FRAME * velocity, step);
	this.targetPanOffsetPx += this.panning * targetStep;
	}
	this.panOffsetPx += step;
	if (Math.abs(step) > 1e-1) {
	this.onPanned(step);
	} else {
	this.panAnimation.stop();
	}
	}

	private onZoomAnimationStep(msSinceStartOfAnimation: number) {
	if (this.mousePositionX === null) return;
	const step = (this.targetZoomRatio - this.zoomRatio) * SNAP_FACTOR;
	if (this.zooming !== Zoom.None) {
	const velocity = 1 + msSinceStartOfAnimation * ACCELERATION_PER_MS;
	// Zoom at least as fast as the snapping animation to avoid a
	// discontinuity.
	const targetStep = Math.max(ZOOM_RATIO_PER_FRAME * velocity, step);
	this.targetZoomRatio += this.zooming * targetStep;
	}
	this.zoomRatio += step;
	if (Math.abs(step) > 1e-6) {
	this.onZoomed(this.mousePositionX, step);
	} else {
	this.zoomAnimation.stop();
	}
	}

	private onMouseMove(e: MouseEvent) {
	const pageOffset = globals.state.sidebarVisible && !globals.hideSidebar ?
	this.contentOffsetX :
	0;
	// We can't use layerX here because there are many layers in this element.
	this.mousePositionX = e.clientX - pageOffset;
	// Only change the cursor when hovering, the DragGestureHandler handles
	// changing the cursor during drag events. This avoids the problem of
	// the cursor flickering between styles if you drag fast and get too
	// far from the current time range.
	if (e.buttons === 0) {
	if (this.editSelection(this.mousePositionX)) {
	this.element.style.cursor = EDITING_RANGE_CURSOR;
	} else {
	this.element.style.cursor = this.shiftDown ? PAN_CURSOR : DRAG_CURSOR;
	}
	}
	}

	private onWheel(e: WheelEvent) {
	if (Math.abs(e.deltaX) > Math.abs(e.deltaY)) {
	this.onPanned(e.deltaX * HORIZONTAL_WHEEL_PAN_SPEED);
	globals.rafScheduler.scheduleRedraw();
	} else if (e.ctrlKey && this.mousePositionX) {
	const sign = e.deltaY < 0 ? -1 : 1;
	const deltaY = sign * Math.log2(1 + Math.abs(e.deltaY));
	this.onZoomed(this.mousePositionX, deltaY * WHEEL_ZOOM_SPEED);
	globals.rafScheduler.scheduleRedraw();
	}
	}

	private onKeyDown(e: KeyboardEvent) {
	this.updateShift(e.shiftKey);

	// Handle key events that are not pan or zoom.
	if (handleKey(e, true)) return;

	if (keyToPan(e) !== Pan.None) {
	if (this.panning !== keyToPan(e)) {
	this.panAnimation.stop();
	this.panOffsetPx = 0;
	this.targetPanOffsetPx = keyToPan(e) * INITIAL_PAN_STEP_PX;
	}
	this.panning = keyToPan(e);
	this.panAnimation.start(DEFAULT_ANIMATION_DURATION);
	}

	if (keyToZoom(e) !== Zoom.None) {
	if (this.zooming !== keyToZoom(e)) {
	this.zoomAnimation.stop();
	this.zoomRatio = 0;
	this.targetZoomRatio = keyToZoom(e) * INITIAL_ZOOM_STEP;
	}
	this.zooming = keyToZoom(e);
	this.zoomAnimation.start(DEFAULT_ANIMATION_DURATION);
	}
	}

	private onKeyUp(e: KeyboardEvent) {
	this.updateShift(e.shiftKey);

	// Handle key events that are not pan or zoom.
	if (handleKey(e, false)) return;

	if (keyToPan(e) === this.panning) {
	this.panning = Pan.None;
	}
	if (keyToZoom(e) === this.zooming) {
	this.zooming = Zoom.None;
	}
	}

	// TODO(hjd): Move this shift handling into the viewer page.
	private updateShift(down: boolean) {
	if (down === this.shiftDown) return;
	this.shiftDown = down;
	if (this.shiftDown) {
	this.element.style.cursor = PAN_CURSOR;
	} else if (this.mousePositionX) {
	this.element.style.cursor = DRAG_CURSOR;
	}
	}
	}