export class ZoomableImage { container: HTMLDivElement; image: HTMLImageElement; scale: number; offsetX: number; offsetY: number; isDragging: boolean; lastX: number; lastY: number; initial_left_padding: number; initial_top_padding: number; initial_width: number; initial_height: number; subscribers: (({ x, y, scale }: { x: number; y: number; scale: number; }) => void)[]; handleImageLoad: () => void; real_image_size: { top: number; left: number; width: number; height: number; } = { top: 0, left: 0, width: 0, height: 0 }; last_touch_distance: number; constructor(container: HTMLDivElement, image: HTMLImageElement) { this.container = container; this.image = image; this.scale = 1; this.offsetX = 0; this.offsetY = 0; this.isDragging = false; this.lastX = 0; this.lastY = 0; this.initial_left_padding = 0; this.initial_top_padding = 0; this.initial_width = 0; this.initial_height = 0; this.subscribers = []; this.last_touch_distance = 0; this.handleWheel = this.handleWheel.bind(this); this.handleMouseDown = this.handleMouseDown.bind(this); this.handleMouseMove = this.handleMouseMove.bind(this); this.handleMouseUp = this.handleMouseUp.bind(this); this.handleImageLoad = this.init.bind(this); this.handleTouchStart = this.handleTouchStart.bind(this); this.handleTouchMove = this.handleTouchMove.bind(this); this.handleTouchEnd = this.handleTouchEnd.bind(this); this.image.addEventListener("load", this.handleImageLoad); this.container.addEventListener("wheel", this.handleWheel); this.container.addEventListener("mousedown", this.handleMouseDown); document.addEventListener("mousemove", this.handleMouseMove); document.addEventListener("mouseup", this.handleMouseUp); this.container.addEventListener("touchstart", this.handleTouchStart); document.addEventListener("touchmove", this.handleTouchMove); document.addEventListener("touchend", this.handleTouchEnd); const observer = new ResizeObserver((entries) => { for (const entry of entries) { if (entry.target === this.container) { this.handleResize(); this.get_image_size(this.image); } } }); observer.observe(this.container); } handleResize(): void { this.init(); } init(): void { const containerRect = this.container.getBoundingClientRect(); const imageRect = this.image.getBoundingClientRect(); this.initial_left_padding = imageRect.left - containerRect.left; this.initial_top_padding = imageRect.top - containerRect.top; this.initial_width = imageRect.width; this.initial_height = imageRect.height; this.reset_zoom(); this.updateTransform(); } reset_zoom(): void { this.scale = 1; this.offsetX = 0; this.offsetY = 0; this.updateTransform(); } handleMouseDown(e: MouseEvent): void { const imageRect = this.image.getBoundingClientRect(); if ( e.clientX >= imageRect.left && e.clientX <= imageRect.right && e.clientY >= imageRect.top && e.clientY <= imageRect.bottom ) { e.preventDefault(); if (this.scale === 1) return; this.isDragging = true; this.lastX = e.clientX; this.lastY = e.clientY; this.image.style.cursor = "grabbing"; } } handleMouseMove(e: MouseEvent): void { if (!this.isDragging) return; const deltaX = e.clientX - this.lastX; const deltaY = e.clientY - this.lastY; this.offsetX += deltaX; this.offsetY += deltaY; this.lastX = e.clientX; this.lastY = e.clientY; this.updateTransform(); this.updateTransform(); } handleMouseUp(): void { if (this.isDragging) { this.constrain_to_bounds(true); this.updateTransform(); this.isDragging = false; this.image.style.cursor = this.scale > 1 ? "grab" : "zoom-in"; } } async handleWheel(e: WheelEvent): Promise { e.preventDefault(); const containerRect = this.container.getBoundingClientRect(); const imageRect = this.image.getBoundingClientRect(); if ( e.clientX < imageRect.left || e.clientX > imageRect.right || e.clientY < imageRect.top || e.clientY > imageRect.bottom ) { return; } const zoomFactor = 1.05; const oldScale = this.scale; const newScale = -Math.sign(e.deltaY) > 0 ? Math.min(15, oldScale * zoomFactor) // in : Math.max(1, oldScale / zoomFactor); // out if (newScale === oldScale) return; const cursorX = e.clientX - containerRect.left - this.initial_left_padding; const cursorY = e.clientY - containerRect.top - this.initial_top_padding; this.scale = newScale; this.offsetX = this.compute_new_offset({ cursor_position: cursorX, current_offset: this.offsetX, new_scale: newScale, old_scale: oldScale }); this.offsetY = this.compute_new_offset({ cursor_position: cursorY, current_offset: this.offsetY, new_scale: newScale, old_scale: oldScale }); this.updateTransform(); // apply before constraints this.constrain_to_bounds(); this.updateTransform(); // apply again after constraints this.image.style.cursor = this.scale > 1 ? "grab" : "zoom-in"; } // compute_offset_for_positions({ position: number, scale: number }) { // return position - (scale / this.scale) * (position - this.offset); // } compute_new_position({ position, scale, anchor_position }: { position: number; scale: number; anchor_position: number; }): number { return position - (position - anchor_position) * (scale / this.scale); } compute_new_offset({ cursor_position, current_offset, new_scale, old_scale }: { cursor_position: number; current_offset: number; new_scale: number; old_scale: number; }): number { return ( cursor_position - (new_scale / old_scale) * (cursor_position - current_offset) ); } constrain_to_bounds(pan = false): void { if (this.scale === 1) { this.offsetX = 0; this.offsetY = 0; return; } const onscreen = { top: this.real_image_size.top * this.scale + this.offsetY, left: this.real_image_size.left * this.scale + this.offsetX, width: this.real_image_size.width * this.scale, height: this.real_image_size.height * this.scale, bottom: this.real_image_size.top * this.scale + this.offsetY + this.real_image_size.height * this.scale, right: this.real_image_size.left * this.scale + this.offsetX + this.real_image_size.width * this.scale }; const real_image_size_right = this.real_image_size.left + this.real_image_size.width; const real_image_size_bottom = this.real_image_size.top + this.real_image_size.height; if (pan) { if (onscreen.top > this.real_image_size.top) { this.offsetY = this.calculate_position( this.real_image_size.top, 0, "y" ); } else if (onscreen.bottom < real_image_size_bottom) { this.offsetY = this.calculate_position(real_image_size_bottom, 1, "y"); } if (onscreen.left > this.real_image_size.left) { this.offsetX = this.calculate_position( this.real_image_size.left, 0, "x" ); } else if (onscreen.right < real_image_size_right) { this.offsetX = this.calculate_position(real_image_size_right, 1, "x"); } } } updateTransform(): void { this.notify({ x: this.offsetX, y: this.offsetY, scale: this.scale }); } destroy(): void { this.container.removeEventListener("wheel", this.handleWheel); this.container.removeEventListener("mousedown", this.handleMouseDown); document.removeEventListener("mousemove", this.handleMouseMove); document.removeEventListener("mouseup", this.handleMouseUp); this.container.removeEventListener("touchstart", this.handleTouchStart); document.removeEventListener("touchmove", this.handleTouchMove); document.removeEventListener("touchend", this.handleTouchEnd); this.image.removeEventListener("load", this.handleImageLoad); } subscribe( cb: ({ x, y, scale }: { x: number; y: number; scale: number }) => void ): void { this.subscribers.push(cb); } unsubscribe( cb: ({ x, y, scale }: { x: number; y: number; scale: number }) => void ): void { this.subscribers = this.subscribers.filter( (subscriber) => subscriber !== cb ); } notify({ x, y, scale }: { x: number; y: number; scale: number }): void { this.subscribers.forEach((subscriber) => subscriber({ x, y, scale })); } handleTouchStart(e: TouchEvent): void { e.preventDefault(); const imageRect = this.image.getBoundingClientRect(); const touch = e.touches[0]; if ( touch.clientX >= imageRect.left && touch.clientX <= imageRect.right && touch.clientY >= imageRect.top && touch.clientY <= imageRect.bottom ) { if (e.touches.length === 1 && this.scale > 1) { // one finger == prepare pan this.isDragging = true; this.lastX = touch.clientX; this.lastY = touch.clientY; } else if (e.touches.length === 2) { // two fingers == prepare pinch zoom const touch1 = e.touches[0]; const touch2 = e.touches[1]; this.last_touch_distance = Math.hypot( touch2.clientX - touch1.clientX, touch2.clientY - touch1.clientY ); } } } get_image_size(img: HTMLImageElement | null): void { if (!img) return; const container = img.parentElement?.getBoundingClientRect(); if (!container) return; const naturalAspect = img.naturalWidth / img.naturalHeight; const containerAspect = container.width / container.height; let displayedWidth, displayedHeight; if (naturalAspect > containerAspect) { displayedWidth = container.width; displayedHeight = container.width / naturalAspect; } else { displayedHeight = container.height; displayedWidth = container.height * naturalAspect; } const offsetX = (container.width - displayedWidth) / 2; const offsetY = (container.height - displayedHeight) / 2; this.real_image_size = { top: offsetY, left: offsetX, width: displayedWidth, height: displayedHeight }; } handleTouchMove(e: TouchEvent): void { if (e.touches.length === 1 && this.isDragging) { // one finger == pan e.preventDefault(); const touch = e.touches[0]; const deltaX = touch.clientX - this.lastX; const deltaY = touch.clientY - this.lastY; this.offsetX += deltaX; this.offsetY += deltaY; this.lastX = touch.clientX; this.lastY = touch.clientY; this.updateTransform(); } else if (e.touches.length === 2) { // two fingers == pinch zoom e.preventDefault(); const touch1 = e.touches[0]; const touch2 = e.touches[1]; const current_distance = Math.hypot( touch2.clientX - touch1.clientX, touch2.clientY - touch1.clientY ); if (this.last_touch_distance === 0) { this.last_touch_distance = current_distance; return; } const zoomFactor = current_distance / this.last_touch_distance; const oldScale = this.scale; const newScale = Math.min(15, Math.max(1, oldScale * zoomFactor)); if (newScale === oldScale) { this.last_touch_distance = current_distance; return; } // midpoint of touches relative to image const containerRect = this.container.getBoundingClientRect(); const midX = (touch1.clientX + touch2.clientX) / 2 - containerRect.left - this.initial_left_padding; const midY = (touch1.clientY + touch2.clientY) / 2 - containerRect.top - this.initial_top_padding; this.scale = newScale; this.offsetX = this.compute_new_offset({ cursor_position: midX, current_offset: this.offsetX, new_scale: newScale, old_scale: oldScale }); this.offsetY = this.compute_new_offset({ cursor_position: midY, current_offset: this.offsetY, new_scale: newScale, old_scale: oldScale }); this.updateTransform(); this.constrain_to_bounds(); this.updateTransform(); this.last_touch_distance = current_distance; this.image.style.cursor = this.scale > 1 ? "grab" : "zoom-in"; } } handleTouchEnd(e: TouchEvent): void { if (this.isDragging) { this.constrain_to_bounds(true); this.updateTransform(); this.isDragging = false; } if (e.touches.length === 0) { this.last_touch_distance = 0; } } calculate_position( screen_coord: number, image_anchor: number, axis: "x" | "y" ): number { const containerRect = this.container.getBoundingClientRect(); // Calculate X offset if requested if (axis === "x") { const relative_screen_x = screen_coord; const anchor_x = this.real_image_size.left + image_anchor * this.real_image_size.width; return relative_screen_x - anchor_x * this.scale; } // Calculate Y offset if requested if (axis === "y") { const relative_screen_y = screen_coord; const anchor_y = this.real_image_size.top + image_anchor * this.real_image_size.height; return relative_screen_y - anchor_y * this.scale; } return 0; } }