/** * @license * Copyright Google Inc. All Rights Reserved. * * Use of this source code is governed by an MIT-style license that can be * found in the LICENSE file at https://angular.io/license */ import './ng_dev_mode'; import {assertEqual} from './assert'; import {LElementNode, TNode, TNodeFlags} from './interfaces/node'; import {RElement} from './interfaces/renderer'; import {CONTEXT, DIRECTIVES, HEADER_OFFSET, LViewData, TVIEW} from './interfaces/view'; /** * This property will be monkey-patched on elements, components and directives */ export const MONKEY_PATCH_KEY_NAME = '__ngContext__'; /** * The internal view context which is specific to a given DOM element, directive or * component instance. Each value in here (besides the LViewData and element node details) * can be present, null or undefined. If undefined then it implies the value has not been * looked up yet, otherwise, if null, then a lookup was executed and nothing was found. * * Each value will get filled when the respective value is examined within the getContext * function. The component, element and each directive instance will share the same instance * of the context. */ export interface LContext { /** * The component's parent view data. */ lViewData: LViewData; /** * The index instance of the node. */ nodeIndex: number; /** * The instance of the DOM node that is attached to the lNode. */ native: RElement; /** * The instance of the Component node. */ component: {}|null|undefined; /** * The list of active directives that exist on this element. */ directives: any[]|null|undefined; /** * The map of local references (local reference name => element or directive instance) that exist * on this element. */ localRefs: {[key: string]: any}|null|undefined; } /** Returns the matching `LContext` data for a given DOM node, directive or component instance. * * This function will examine the provided DOM element, component, or directive instance\'s * monkey-patched property to derive the `LContext` data. Once called then the monkey-patched * value will be that of the newly created `LContext`. * * If the monkey-patched value is the `LViewData` instance then the context value for that * target will be created and the monkey-patch reference will be updated. Therefore when this * function is called it may mutate the provided element\'s, component\'s or any of the associated * directive\'s monkey-patch values. * * If the monkey-patch value is not detected then the code will walk up the DOM until an element * is found which contains a monkey-patch reference. When that occurs then the provided element * will be updated with a new context (which is then returned). If the monkey-patch value is not * detected for a component/directive instance then it will throw an error (all components and * directives should be automatically monkey-patched by ivy). */ export function getContext(target: any): LContext|null { let mpValue = readPatchedData(target); if (mpValue) { // only when it's an array is it considered an LViewData instance // ... otherwise it's an already constructed LContext instance if (Array.isArray(mpValue)) { const lViewData: LViewData = mpValue !; let nodeIndex: number; let component: any = undefined; let directives: any[]|null|undefined = undefined; if (isComponentInstance(target)) { nodeIndex = findViaComponent(lViewData, target); if (nodeIndex == -1) { throw new Error('The provided component was not found in the application'); } component = target; } else if (isDirectiveInstance(target)) { nodeIndex = findViaDirective(lViewData, target); if (nodeIndex == -1) { throw new Error('The provided directive was not found in the application'); } directives = discoverDirectives(nodeIndex, lViewData); } else { nodeIndex = findViaNativeElement(lViewData, target as RElement); if (nodeIndex == -1) { return null; } } // the goal is not to fill the entire context full of data because the lookups // are expensive. Instead, only the target data (the element, compontent or // directive details) are filled into the context. If called multiple times // with different target values then the missing target data will be filled in. const lNode = getLNodeFromViewData(lViewData, nodeIndex) !; const existingCtx = readPatchedData(lNode.native); const context: LContext = (existingCtx && !Array.isArray(existingCtx)) ? existingCtx : createLContext(lViewData, nodeIndex, lNode.native); // only when the component has been discovered then update the monkey-patch if (component && context.component === undefined) { context.component = component; attachPatchData(context.component, context); } // only when the directives have been discovered then update the monkey-patch if (directives && context.directives === undefined) { context.directives = directives; for (let i = 0; i < directives.length; i++) { attachPatchData(directives[i], context); } } attachPatchData(context.native, context); mpValue = context; } } else { const rElement = target as RElement; ngDevMode && assertDomElement(rElement); // if the context is not found then we need to traverse upwards up the DOM // to find the nearest element that has already been monkey patched with data let parent = rElement as any; while (parent = parent.parentNode) { const parentContext = readPatchedData(parent); if (parentContext) { let lViewData: LViewData|null; if (Array.isArray(parentContext)) { lViewData = parentContext as LViewData; } else { lViewData = parentContext.lViewData; } // the edge of the app was also reached here through another means // (maybe because the DOM was changed manually). if (!lViewData) { return null; } const index = findViaNativeElement(lViewData, rElement); if (index >= 0) { const lNode = getLNodeFromViewData(lViewData, index) !; const context = createLContext(lViewData, index, lNode.native); attachPatchData(lNode.native, context); mpValue = context; break; } } } } return (mpValue as LContext) || null; } /** * Creates an empty instance of a `LContext` context */ function createLContext(lViewData: LViewData, lNodeIndex: number, native: RElement): LContext { return { lViewData, nodeIndex: lNodeIndex, native, component: undefined, directives: undefined, localRefs: undefined, }; } /** * A simplified lookup function for finding the LElementNode from a component instance. * * This function exists for tree-shaking purposes to avoid having to pull in everything * that `getContext` has in the event that an Angular application doesn't need to have * any programmatic access to an element's context (only change detection uses this function). */ export function getLElementFromComponent(componentInstance: {}): LElementNode { let lViewData = readPatchedData(componentInstance); let lNode: LElementNode; if (Array.isArray(lViewData)) { const lNodeIndex = findViaComponent(lViewData, componentInstance); lNode = readElementValue(lViewData[lNodeIndex]); const context = createLContext(lViewData, lNodeIndex, lNode.native); context.component = componentInstance; attachPatchData(componentInstance, context); attachPatchData(context.native, context); } else { const context = lViewData as any as LContext; lNode = readElementValue(context.lViewData[context.nodeIndex]); } return lNode; } /** * Assigns the given data to the given target (which could be a component, * directive or DOM node instance) using monkey-patching. */ export function attachPatchData(target: any, data: LViewData | LContext) { target[MONKEY_PATCH_KEY_NAME] = data; } /** * Returns the monkey-patch value data present on the target (which could be * a component, directive or a DOM node). */ export function readPatchedData(target: any): LViewData|LContext|null { return target[MONKEY_PATCH_KEY_NAME]; } export function readPatchedLViewData(target: any): LViewData|null { const value = readPatchedData(target); if (value) { return Array.isArray(value) ? value : (value as LContext).lViewData; } return null; } export function isComponentInstance(instance: any): boolean { return instance && instance.constructor && instance.constructor.ngComponentDef; } export function isDirectiveInstance(instance: any): boolean { return instance && instance.constructor && instance.constructor.ngDirectiveDef; } /** * Locates the element within the given LViewData and returns the matching index */ function findViaNativeElement(lViewData: LViewData, native: RElement): number { let tNode = lViewData[TVIEW].firstChild; while (tNode) { const lNode = getLNodeFromViewData(lViewData, tNode.index) !; if (lNode.native === native) { return tNode.index; } tNode = traverseNextElement(tNode); } return -1; } /** * Locates the next tNode (child, sibling or parent). */ function traverseNextElement(tNode: TNode): TNode|null { if (tNode.child) { return tNode.child; } else if (tNode.next) { return tNode.next; } else if (tNode.parent) { return tNode.parent.next || null; } return null; } /** * Locates the component within the given LViewData and returns the matching index */ function findViaComponent(lViewData: LViewData, componentInstance: {}): number { const componentIndices = lViewData[TVIEW].components; if (componentIndices) { for (let i = 0; i < componentIndices.length; i++) { const elementComponentIndex = componentIndices[i]; const lNodeData = readElementValue(lViewData[elementComponentIndex] !).data !; if (lNodeData[CONTEXT] === componentInstance) { return elementComponentIndex; } } } else { const rootNode = lViewData[HEADER_OFFSET]; const rootComponent = rootNode.data[CONTEXT]; if (rootComponent === componentInstance) { // we are dealing with the root element here therefore we know that the // element is the very first element after the HEADER data in the lView return HEADER_OFFSET; } } return -1; } /** * Locates the directive within the given LViewData and returns the matching index */ function findViaDirective(lViewData: LViewData, directiveInstance: {}): number { // if a directive is monkey patched then it will (by default) // have a reference to the LViewData of the current view. The // element bound to the directive being search lives somewhere // in the view data. We loop through the nodes and check their // list of directives for the instance. const directivesAcrossView = lViewData[DIRECTIVES]; let tNode = lViewData[TVIEW].firstChild; if (directivesAcrossView != null) { while (tNode) { const directiveIndexStart = getDirectiveStartIndex(tNode); const directiveIndexEnd = getDirectiveEndIndex(tNode, directiveIndexStart); for (let i = directiveIndexStart; i < directiveIndexEnd; i++) { if (directivesAcrossView[i] === directiveInstance) { return tNode.index; } } tNode = traverseNextElement(tNode); } } return -1; } function assertDomElement(element: any) { assertEqual(element.nodeType, 1, 'The provided value must be an instance of an HTMLElement'); } /** * Retruns the instance of the LElementNode at the given index in the LViewData. * * This function will also unwrap the inner value incase it's stuffed into an * array (which is what happens when [style] and [class] bindings are present * in the view instructions for the element being returned). */ function getLNodeFromViewData(lViewData: LViewData, lElementIndex: number): LElementNode|null { const value = lViewData[lElementIndex]; return value ? readElementValue(value) : null; } /** * Returns a list of directives extracted from the given view. Does not contain * the component. * * @param lViewData The target view data */ export function discoverDirectives(nodeIndex: number, lViewData: LViewData): any[]|null { const directivesAcrossView = lViewData[DIRECTIVES]; if (directivesAcrossView != null) { const tNode = lViewData[TVIEW].data[nodeIndex] as TNode; let directiveStartIndex = getDirectiveStartIndex(tNode); const directiveEndIndex = getDirectiveEndIndex(tNode, directiveStartIndex); if (tNode.flags & TNodeFlags.isComponent) directiveStartIndex++; return directivesAcrossView.slice(directiveStartIndex, directiveEndIndex); } return null; } /** * Returns a map of local references (local reference name => element or directive instance) that * exist on a given element. */ export function discoverLocalRefs(lViewData: LViewData, lNodeIndex: number): {[key: string]: any}| null { const tNode = lViewData[TVIEW].data[lNodeIndex] as TNode; if (tNode && tNode.localNames) { const result: {[key: string]: any} = {}; for (let i = 0; i < tNode.localNames.length; i += 2) { const localRefName = tNode.localNames[i]; const directiveIndex = tNode.localNames[i + 1] as number; result[localRefName] = directiveIndex === -1 ? getLNodeFromViewData(lViewData, lNodeIndex) !.native : lViewData[DIRECTIVES] ![directiveIndex]; } return result; } return null; } function getDirectiveStartIndex(tNode: TNode): number { // the tNode instances store a flag value which then has a // pointer which tells the starting index of where all the // active directives are in the master directive array return tNode.flags >> TNodeFlags.DirectiveStartingIndexShift; } function getDirectiveEndIndex(tNode: TNode, startIndex: number): number { // The end value is also a part of the same flag // (see `TNodeFlags` to see how the flag bit shifting // values are used). const count = tNode.flags & TNodeFlags.DirectiveCountMask; return count ? (startIndex + count) : -1; } export function readElementValue(value: LElementNode | any[]): LElementNode { return (Array.isArray(value) ? (value as any as any[])[0] : value) as LElementNode; }