/* -*- indent-tabs-mode: nil; js-indent-level: 2 -*- */ /* vim: set ft=javascript ts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ const Cu = Components.utils; const Ci = Components.interfaces; const Cr = Components.results; Cu.import("resource://gre/modules/XPCOMUtils.jsm"); XPCOMUtils.defineLazyModuleGetter(this, "Services", "resource://gre/modules/Services.jsm"); this.EXPORTED_SYMBOLS = ["LayoutHelpers"]; let LayoutHelpers = function(aTopLevelWindow) { this._topDocShell = aTopLevelWindow.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocShell); }; this.LayoutHelpers = LayoutHelpers; LayoutHelpers.prototype = { /** * Get box quads adjusted for iframes and zoom level. * @param {DOMNode} node The node for which we are to get the box model region * quads. * @param {String} region The box model region to return: "content", * "padding", "border" or "margin". * @return {Array} An array of objects that have the same structure as quads * returned by getBoxQuads. An empty array if the node has no quads or is * invalid. */ getAdjustedQuads: function(node, region) { if (!node || !node.getBoxQuads) { return []; } let quads = node.getBoxQuads({ box: region }); if (!quads.length) { return []; } let [xOffset, yOffset] = this.getFrameOffsets(node); let scale = LayoutHelpers.getCurrentZoom(node); let adjustedQuads = []; for (let quad of quads) { adjustedQuads.push({ p1: { w: quad.p1.w * scale, x: quad.p1.x * scale + xOffset, y: quad.p1.y * scale + yOffset, z: quad.p1.z * scale }, p2: { w: quad.p2.w * scale, x: quad.p2.x * scale + xOffset, y: quad.p2.y * scale + yOffset, z: quad.p2.z * scale }, p3: { w: quad.p3.w * scale, x: quad.p3.x * scale + xOffset, y: quad.p3.y * scale + yOffset, z: quad.p3.z * scale }, p4: { w: quad.p4.w * scale, x: quad.p4.x * scale + xOffset, y: quad.p4.y * scale + yOffset, z: quad.p4.z * scale }, bounds: { bottom: quad.bounds.bottom * scale + yOffset, height: quad.bounds.height * scale, left: quad.bounds.left * scale + xOffset, right: quad.bounds.right * scale + xOffset, top: quad.bounds.top * scale + yOffset, width: quad.bounds.width * scale, x: quad.bounds.x * scale + xOffset, y: quad.bounds.y * scale + yOffset } }); } return adjustedQuads; }, /** * Compute the absolute position and the dimensions of a node, relativalely * to the root window. * * @param {DOMNode} aNode * a DOM element to get the bounds for * @param {DOMWindow} aContentWindow * the content window holding the node * @return {Object} * A rect object with the {top, left, width, height} properties */ getRect: function(aNode, aContentWindow) { let frameWin = aNode.ownerDocument.defaultView; let clientRect = aNode.getBoundingClientRect(); // Go up in the tree of frames to determine the correct rectangle. // clientRect is read-only, we need to be able to change properties. let rect = {top: clientRect.top + aContentWindow.pageYOffset, left: clientRect.left + aContentWindow.pageXOffset, width: clientRect.width, height: clientRect.height}; // We iterate through all the parent windows. while (true) { // Are we in the top-level window? if (this.isTopLevelWindow(frameWin)) { break; } let frameElement = this.getFrameElement(frameWin); if (!frameElement) { break; } // We are in an iframe. // We take into account the parent iframe position and its // offset (borders and padding). let frameRect = frameElement.getBoundingClientRect(); let [offsetTop, offsetLeft] = this.getIframeContentOffset(frameElement); rect.top += frameRect.top + offsetTop; rect.left += frameRect.left + offsetLeft; frameWin = this.getParentWindow(frameWin); } return rect; }, /** * Returns iframe content offset (iframe border + padding). * Note: this function shouldn't need to exist, had the platform provided a * suitable API for determining the offset between the iframe's content and * its bounding client rect. Bug 626359 should provide us with such an API. * * @param {DOMNode} aIframe * The iframe. * @return {Array} [offsetTop, offsetLeft] * offsetTop is the distance from the top of the iframe and the top of * the content document. * offsetLeft is the distance from the left of the iframe and the left * of the content document. */ getIframeContentOffset: function(aIframe) { let style = aIframe.contentWindow.getComputedStyle(aIframe, null); // In some cases, the computed style is null if (!style) { return [0, 0]; } let paddingTop = parseInt(style.getPropertyValue("padding-top")); let paddingLeft = parseInt(style.getPropertyValue("padding-left")); let borderTop = parseInt(style.getPropertyValue("border-top-width")); let borderLeft = parseInt(style.getPropertyValue("border-left-width")); return [borderTop + paddingTop, borderLeft + paddingLeft]; }, /** * Find an element from the given coordinates. This method descends through * frames to find the element the user clicked inside frames. * * @param {DOMDocument} aDocument the document to look into. * @param {Number} aX * @param {Number} aY * @return {DOMNode} * the element node found at the given coordinates, or null if no node * was found */ getElementFromPoint: function(aDocument, aX, aY) { let node = aDocument.elementFromPoint(aX, aY); if (node && node.contentDocument) { if (node instanceof Ci.nsIDOMHTMLIFrameElement) { let rect = node.getBoundingClientRect(); // Gap between the iframe and its content window. let [offsetTop, offsetLeft] = this.getIframeContentOffset(node); aX -= rect.left + offsetLeft; aY -= rect.top + offsetTop; if (aX < 0 || aY < 0) { // Didn't reach the content document, still over the iframe. return node; } } if (node instanceof Ci.nsIDOMHTMLIFrameElement || node instanceof Ci.nsIDOMHTMLFrameElement) { let subnode = this.getElementFromPoint(node.contentDocument, aX, aY); if (subnode) { node = subnode; } } } return node; }, /** * Scroll the document so that the element "elem" appears vertically in * the viewport. * * @param {DOMNode} elem * The element that needs to appear in the viewport. * @param {Boolean} centered * true if you want it centered, false if you want it to appear on the * top of the viewport. True by default, and that is usually what * you want. */ scrollIntoViewIfNeeded: function(elem, centered) { // We want to default to centering the element in the page, // so as to keep the context of the element. centered = centered === undefined ? true: !!centered; let win = elem.ownerDocument.defaultView; let clientRect = elem.getBoundingClientRect(); // The following are always from the {top, bottom} // of the viewport, to the {top, …} of the box. // Think of them as geometrical vectors, it helps. // The origin is at the top left. let topToBottom = clientRect.bottom; let bottomToTop = clientRect.top - win.innerHeight; let yAllowed = true; // We allow one translation on the y axis. // Whatever `centered` is, the behavior is the same if the box is // (even partially) visible. if ((topToBottom > 0 || !centered) && topToBottom <= elem.offsetHeight) { win.scrollBy(0, topToBottom - elem.offsetHeight); yAllowed = false; } else if ((bottomToTop < 0 || !centered) && bottomToTop >= -elem.offsetHeight) { win.scrollBy(0, bottomToTop + elem.offsetHeight); yAllowed = false; } // If we want it centered, and the box is completely hidden, // then we center it explicitly. if (centered) { if (yAllowed && (topToBottom <= 0 || bottomToTop >= 0)) { win.scroll(win.scrollX, win.scrollY + clientRect.top - (win.innerHeight - elem.offsetHeight) / 2); } } }, /** * Check if a node and its document are still alive * and attached to the window. * * @param {DOMNode} aNode * @return {Boolean} */ isNodeConnected: function(aNode) { try { let connected = (aNode.ownerDocument && aNode.ownerDocument.defaultView && !(aNode.compareDocumentPosition(aNode.ownerDocument.documentElement) & aNode.DOCUMENT_POSITION_DISCONNECTED)); return connected; } catch (e) { // "can't access dead object" error return false; } }, /** * like win.parent === win, but goes through mozbrowsers and mozapps iframes. * * @param {DOMWindow} win * @return {Boolean} */ isTopLevelWindow: function(win) { let docShell = win.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocShell); return docShell === this._topDocShell; }, /** * Check a window is part of the top level window. * * @param {DOMWindow} win * @return {Boolean} */ isIncludedInTopLevelWindow: function LH_isIncludedInTopLevelWindow(win) { if (this.isTopLevelWindow(win)) { return true; } let parent = this.getParentWindow(win); if (!parent || parent === win) { return false; } return this.isIncludedInTopLevelWindow(parent); }, /** * like win.parent, but goes through mozbrowsers and mozapps iframes. * * @param {DOMWindow} win * @return {DOMWindow} */ getParentWindow: function(win) { if (this.isTopLevelWindow(win)) { return null; } let docShell = win.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIWebNavigation) .QueryInterface(Ci.nsIDocShell); if (docShell.isBrowserOrApp) { let parentDocShell = docShell.getSameTypeParentIgnoreBrowserAndAppBoundaries(); return parentDocShell ? parentDocShell.contentViewer.DOMDocument.defaultView : null; } else { return win.parent; } }, /** * like win.frameElement, but goes through mozbrowsers and mozapps iframes. * * @param {DOMWindow} win * The window to get the frame for * @return {DOMNode} * The element in which the window is embedded. */ getFrameElement: function(win) { if (this.isTopLevelWindow(win)) { return null; } let winUtils = win. QueryInterface(Components.interfaces.nsIInterfaceRequestor). getInterface(Components.interfaces.nsIDOMWindowUtils); return winUtils.containerElement; }, /** * Get the x/y offsets for of all the parent frames of a given node * * @param {DOMNode} node * The node for which we are to get the offset * @return {Array} * The frame offset [x, y] */ getFrameOffsets: function(node) { let xOffset = 0; let yOffset = 0; let frameWin = node.ownerDocument.defaultView; let scale = LayoutHelpers.getCurrentZoom(node); while (true) { // Are we in the top-level window? if (this.isTopLevelWindow(frameWin)) { break; } let frameElement = this.getFrameElement(frameWin); if (!frameElement) { break; } // We are in an iframe. // We take into account the parent iframe position and its // offset (borders and padding). let frameRect = frameElement.getBoundingClientRect(); let [offsetTop, offsetLeft] = this.getIframeContentOffset(frameElement); xOffset += frameRect.left + offsetLeft; yOffset += frameRect.top + offsetTop; frameWin = this.getParentWindow(frameWin); } return [xOffset * scale, yOffset * scale]; }, /** * Get the 4 bounding points for a node taking iframes into account. * Note that for transformed nodes, this will return the untransformed bound. * * @param {DOMNode} node * @return {Object} * An object with p1,p2,p3,p4 properties being {x,y} objects */ getNodeBounds: function(node) { if (!node) { return; } let scale = LayoutHelpers.getCurrentZoom(node); // Find out the offset of the node in its current frame let offsetLeft = 0; let offsetTop = 0; let el = node; while (el && el.parentNode) { offsetLeft += el.offsetLeft; offsetTop += el.offsetTop; el = el.offsetParent; } // Also take scrolled containers into account el = node; while (el && el.parentNode) { if (el.scrollTop) { offsetTop -= el.scrollTop; } if (el.scrollLeft) { offsetLeft -= el.scrollLeft; } el = el.parentNode; } // And add the potential frame offset if the node is nested let [xOffset, yOffset] = this.getFrameOffsets(node); xOffset += offsetLeft; yOffset += offsetTop; xOffset *= scale; yOffset *= scale; // Get the width and height let width = node.offsetWidth * scale; let height = node.offsetHeight * scale; return { p1: {x: xOffset, y: yOffset}, p2: {x: xOffset + width, y: yOffset}, p3: {x: xOffset + width, y: yOffset + height}, p4: {x: xOffset, y: yOffset + height} }; } }; /** * Traverse getBindingParent until arriving upon the bound element * responsible for the generation of the specified node. * See https://developer.mozilla.org/en-US/docs/XBL/XBL_1.0_Reference/DOM_Interfaces#getBindingParent. * * @param {DOMNode} node * @return {DOMNode} * If node is not anonymous, this will return node. Otherwise, * it will return the bound element * */ LayoutHelpers.getRootBindingParent = function(node) { let parent; let doc = node.ownerDocument; if (!doc) { return node; } while ((parent = doc.getBindingParent(node))) { node = parent; } return node; }; LayoutHelpers.getBindingParent = function(node) { let doc = node.ownerDocument; if (!doc) { return false; } // If there is no binding parent then it is not anonymous. let parent = doc.getBindingParent(node); if (!parent) { return false; } return parent; } /** * Determine whether a node is anonymous by determining if there * is a bindingParent. * * @param {DOMNode} node * @return {Boolean} * */ LayoutHelpers.isAnonymous = function(node) { return LayoutHelpers.getRootBindingParent(node) !== node; }; /** * Determine whether a node is native anonymous content (as opposed * to XBL anonymous or shadow DOM). * Native anonymous content includes elements like internals to form * controls and ::before/::after. * * @param {DOMNode} node * @return {Boolean} * */ LayoutHelpers.isNativeAnonymous = function(node) { if (!LayoutHelpers.getBindingParent(node)) { return false; } return !LayoutHelpers.isXBLAnonymous(node) && !LayoutHelpers.isShadowAnonymous(node); }; /** * Determine whether a node is XBL anonymous content (as opposed * to native anonymous or shadow DOM). * See https://developer.mozilla.org/en-US/docs/XBL/XBL_1.0_Reference/Anonymous_Content. * * @param {DOMNode} node * @return {Boolean} * */ LayoutHelpers.isXBLAnonymous = function(node) { let parent = LayoutHelpers.getBindingParent(node); if (!parent) { return false; } // Shadow nodes also show up in getAnonymousNodes, so return false. if (parent.shadowRoot && parent.shadowRoot.contains(node)) { return false; } let anonNodes = [...node.ownerDocument.getAnonymousNodes(parent) || []]; return anonNodes.indexOf(node) > -1; }; /** * Determine whether a node is a child of a shadow root. * See https://w3c.github.io/webcomponents/spec/shadow/ * * @param {DOMNode} node * @return {Boolean} */ LayoutHelpers.isShadowAnonymous = function(node) { let parent = LayoutHelpers.getBindingParent(node); if (!parent) { return false; } // If there is a shadowRoot and this is part of it then this // is not native anonymous return parent.shadowRoot && parent.shadowRoot.contains(node); }; /** * Get the current zoom factor applied to the container window of a given node. * Container windows are used as a weakmap key to store the corresponding * nsIDOMWindowUtils instance to avoid querying it every time. * * @param {DOMNode|DOMWindow} The node for which the zoom factor should be * calculated, or its owner window. * @return {Number} */ let windowUtils = new WeakMap; LayoutHelpers.getCurrentZoom = function(node) { let win = node.self === node ? node : node.ownerDocument.defaultView; let utils = windowUtils.get(win); if (utils) { return utils.fullZoom; } utils = win.QueryInterface(Ci.nsIInterfaceRequestor) .getInterface(Ci.nsIDOMWindowUtils); windowUtils.set(win, utils); return utils.fullZoom; };