import { library } from "@fortawesome/fontawesome-svg-core"; import { faEye } from "@fortawesome/free-regular-svg-icons"; import { faBraille, faChalkboard, faCompass, faCompressArrowsAlt, faExpandArrowsAlt, faPaintBrush, faTable, faUpload, faFileUpload } from "@fortawesome/free-solid-svg-icons"; import { action, computed, observable } from "mobx"; import { observer } from "mobx-react"; import { Doc, DocListCast, HeightSym, Opt, WidthSym } from "../../../../new_fields/Doc"; import { Id } from "../../../../new_fields/FieldSymbols"; import { InkField, StrokeData } from "../../../../new_fields/InkField"; import { createSchema, makeInterface } from "../../../../new_fields/Schema"; import { ScriptField } from "../../../../new_fields/ScriptField"; import { BoolCast, Cast, DateCast, NumCast, StrCast } from "../../../../new_fields/Types"; import { CurrentUserUtils } from "../../../../server/authentication/models/current_user_utils"; import { aggregateBounds, emptyFunction, intersectRect, returnEmptyString, returnOne, Utils } from "../../../../Utils"; import { CognitiveServices } from "../../../cognitive_services/CognitiveServices"; import { DocServer } from "../../../DocServer"; import { Docs } from "../../../documents/Documents"; import { DocumentType } from "../../../documents/DocumentTypes"; import { DocumentManager } from "../../../util/DocumentManager"; import { DragManager } from "../../../util/DragManager"; import { HistoryUtil } from "../../../util/History"; import { SelectionManager } from "../../../util/SelectionManager"; import { Transform } from "../../../util/Transform"; import { undoBatch, UndoManager } from "../../../util/UndoManager"; import { COLLECTION_BORDER_WIDTH } from "../../../views/globalCssVariables.scss"; import { ContextMenu } from "../../ContextMenu"; import { ContextMenuProps } from "../../ContextMenuItem"; import { InkingCanvas } from "../../InkingCanvas"; import { CollectionFreeFormDocumentView, positionSchema } from "../../nodes/CollectionFreeFormDocumentView"; import { DocumentContentsView } from "../../nodes/DocumentContentsView"; import { documentSchema, DocumentViewProps } from "../../nodes/DocumentView"; import { FormattedTextBox } from "../../nodes/FormattedTextBox"; import { pageSchema } from "../../nodes/ImageBox"; import PDFMenu from "../../pdf/PDFMenu"; import { CollectionSubView } from "../CollectionSubView"; import { computePivotLayout, ViewDefResult } from "./CollectionFreeFormLayoutEngines"; import { CollectionFreeFormLinksView } from "./CollectionFreeFormLinksView"; import { CollectionFreeFormRemoteCursors } from "./CollectionFreeFormRemoteCursors"; import "./CollectionFreeFormView.scss"; import { MarqueeView } from "./MarqueeView"; import React = require("react"); library.add(faEye as any, faTable, faPaintBrush, faExpandArrowsAlt, faCompressArrowsAlt, faCompass, faUpload, faBraille, faChalkboard, faFileUpload); export const panZoomSchema = createSchema({ panX: "number", panY: "number", scale: "number", arrangeScript: ScriptField, arrangeInit: ScriptField, useClusters: "boolean", isRuleProvider: "boolean", fitToBox: "boolean", panTransformType: "string", }); type PanZoomDocument = makeInterface<[typeof panZoomSchema, typeof documentSchema, typeof positionSchema, typeof pageSchema]>; const PanZoomDocument = makeInterface(panZoomSchema, documentSchema, positionSchema, pageSchema); @observer export class CollectionFreeFormView extends CollectionSubView(PanZoomDocument) { private _lastX: number = 0; private _lastY: number = 0; private _clusterDistance: number = 75; private _hitCluster = false; @observable _clusterSets: (Doc[])[] = []; @computed get fitToContent() { return (this.props.fitToBox || this.Document.fitToBox) && !this.isAnnotationOverlay; } @computed get parentScaling() { return this.props.ContentScaling && this.fitToContent && !this.isAnnotationOverlay ? this.props.ContentScaling() : 1; } @computed get contentBounds() { return aggregateBounds(this.elements.filter(e => e.bounds && !e.bounds.z).map(e => e.bounds!)); } @computed get nativeWidth() { return this.fitToContent ? 0 : this.Document.nativeWidth || 0; } @computed get nativeHeight() { return this.fitToContent ? 0 : this.Document.nativeHeight || 0; } private get isAnnotationOverlay() { return this.props.fieldExt ? true : false; } // fieldExt will be "" or "annotation". should maybe generalize this, or make it more specific (ie, 'annotation' instead of 'fieldExt') private get borderWidth() { return this.isAnnotationOverlay ? 0 : COLLECTION_BORDER_WIDTH; } private easing = () => this.props.Document.panTransformType === "Ease"; private panX = () => this.fitToContent ? (this.contentBounds.x + this.contentBounds.r) / 2 : this.Document.panX || 0; private panY = () => this.fitToContent ? (this.contentBounds.y + this.contentBounds.b) / 2 : this.Document.panY || 0; private zoomScaling = () => (1 / this.parentScaling) * (this.fitToContent ? Math.min(this.props.PanelHeight() / (this.contentBounds.b - this.contentBounds.y), this.props.PanelWidth() / (this.contentBounds.r - this.contentBounds.x)) : this.Document.scale || 1) private centeringShiftX = () => !this.nativeWidth && !this.isAnnotationOverlay ? this.props.PanelWidth() / 2 / this.parentScaling : 0; // shift so pan position is at center of window for non-overlay collections private centeringShiftY = () => !this.nativeHeight && !this.isAnnotationOverlay ? this.props.PanelHeight() / 2 / this.parentScaling : 0;// shift so pan position is at center of window for non-overlay collections private getTransform = (): Transform => this.props.ScreenToLocalTransform().translate(-this.borderWidth + 1, -this.borderWidth + 1).translate(-this.centeringShiftX(), -this.centeringShiftY()).transform(this.getLocalTransform()); private getTransformOverlay = (): Transform => this.props.ScreenToLocalTransform().translate(-this.borderWidth + 1, -this.borderWidth + 1); private getContainerTransform = (): Transform => this.props.ScreenToLocalTransform().translate(-this.borderWidth, -this.borderWidth); private getLocalTransform = (): Transform => Transform.Identity().scale(1 / this.zoomScaling()).translate(this.panX(), this.panY()); private addLiveTextBox = (newBox: Doc) => { FormattedTextBox.SelectOnLoad = newBox[Id];// track the new text box so we can give it a prop that tells it to focus itself when it's displayed let maxHeading = this.childDocs.reduce((maxHeading, doc) => NumCast(doc.heading) > maxHeading ? NumCast(doc.heading) : maxHeading, 0); let heading = maxHeading === 0 || this.childDocs.length === 0 ? 1 : maxHeading === 1 ? 2 : 0; if (heading === 0) { let sorted = this.childDocs.filter(d => d.type === DocumentType.TEXT && d.data_ext instanceof Doc && d.data_ext.lastModified).sort((a, b) => DateCast((Cast(a.data_ext, Doc) as Doc).lastModified).date > DateCast((Cast(b.data_ext, Doc) as Doc).lastModified).date ? 1 : DateCast((Cast(a.data_ext, Doc) as Doc).lastModified).date < DateCast((Cast(b.data_ext, Doc) as Doc).lastModified).date ? -1 : 0); heading = !sorted.length ? Math.max(1, maxHeading) : NumCast(sorted[sorted.length - 1].heading) === 1 ? 2 : NumCast(sorted[sorted.length - 1].heading); } !this.Document.isRuleProvider && (newBox.heading = heading); this.addDocument(newBox, false); } private addDocument = (newBox: Doc, allowDuplicates: boolean) => { let added = this.props.addDocument(newBox, false); added && this.bringToFront(newBox); added && this.updateCluster(newBox); return added; } private selectDocuments = (docs: Doc[]) => { SelectionManager.DeselectAll(); docs.map(doc => DocumentManager.Instance.getDocumentView(doc)).map(dv => dv && SelectionManager.SelectDoc(dv, true)); } public isCurrent(doc: Doc) { return !doc.isMinimized && (Math.abs(NumCast(doc.displayTimecode, -1) - NumCast(this.Document.currentTimecode, -1)) < 1.5 || NumCast(doc.displayTimecode, -1) === -1); } public getActiveDocuments = () => { return this.childLayoutPairs.filter(pair => this.isCurrent(pair.layout)).map(pair => pair.layout); } @computed get fieldExtensionDoc() { return Doc.fieldExtensionDoc(this.props.DataDoc || this.props.Document, this.props.fieldKey); } @action onDrop = (e: React.DragEvent): Promise => { var pt = this.getTransform().transformPoint(e.pageX, e.pageY); return super.onDrop(e, { x: pt[0], y: pt[1] }); } @undoBatch @action drop = (e: Event, de: DragManager.DropEvent) => { let xf = this.getTransform(); let xfo = this.getTransformOverlay(); let [xp, yp] = xf.transformPoint(de.x, de.y); let [xpo, ypo] = xfo.transformPoint(de.x, de.y); if (super.drop(e, de)) { if (de.data instanceof DragManager.DocumentDragData) { if (de.data.droppedDocuments.length) { let z = NumCast(de.data.droppedDocuments[0].z); let x = (z ? xpo : xp) - de.data.offset[0]; let y = (z ? ypo : yp) - de.data.offset[1]; let dropX = NumCast(de.data.droppedDocuments[0].x); let dropY = NumCast(de.data.droppedDocuments[0].y); de.data.droppedDocuments.forEach(action((d: Doc) => { d.x = x + NumCast(d.x) - dropX; d.y = y + NumCast(d.y) - dropY; if (!NumCast(d.width)) { d.width = 300; } if (!NumCast(d.height)) { let nw = NumCast(d.nativeWidth); let nh = NumCast(d.nativeHeight); d.height = nw && nh ? nh / nw * NumCast(d.width) : 300; } this.bringToFront(d); })); de.data.droppedDocuments.length === 1 && this.updateCluster(de.data.droppedDocuments[0]); } } else if (de.data instanceof DragManager.AnnotationDragData) { if (de.data.dropDocument) { let dragDoc = de.data.dropDocument; let x = xp - de.data.offset[0]; let y = yp - de.data.offset[1]; let dropX = NumCast(de.data.dropDocument.x); let dropY = NumCast(de.data.dropDocument.y); dragDoc.x = x + NumCast(dragDoc.x) - dropX; dragDoc.y = y + NumCast(dragDoc.y) - dropY; de.data.targetContext = this.props.Document; dragDoc.targetContext = this.props.Document; this.bringToFront(dragDoc); } } } return false; } pickCluster(probe: number[]) { return this.childLayoutPairs.map(pair => pair.layout).reduce((cluster, cd) => { let cx = NumCast(cd.x) - this._clusterDistance; let cy = NumCast(cd.y) - this._clusterDistance; let cw = NumCast(cd.width) + 2 * this._clusterDistance; let ch = NumCast(cd.height) + 2 * this._clusterDistance; return !cd.z && intersectRect({ left: cx, top: cy, width: cw, height: ch }, { left: probe[0], top: probe[1], width: 1, height: 1 }) ? NumCast(cd.cluster) : cluster; }, -1); } tryDragCluster(e: PointerEvent) { let cluster = this.pickCluster(this.getTransform().transformPoint(e.clientX, e.clientY)); if (cluster !== -1) { let eles = this.childLayoutPairs.map(pair => pair.layout).filter(cd => NumCast(cd.cluster) === cluster); // hacky way to get a list of DocumentViews in the current view given a list of Documents in the current view let prevSelected = SelectionManager.SelectedDocuments(); this.selectDocuments(eles); let clusterDocs = SelectionManager.SelectedDocuments(); SelectionManager.DeselectAll(); prevSelected.map(dv => SelectionManager.SelectDoc(dv, true)); let de = new DragManager.DocumentDragData(eles); de.moveDocument = this.props.moveDocument; const [left, top] = clusterDocs[0].props.ScreenToLocalTransform().scale(clusterDocs[0].props.ContentScaling()).inverse().transformPoint(0, 0); de.offset = this.getTransform().transformDirection(e.x - left, e.y - top); de.dropAction = e.ctrlKey || e.altKey ? "alias" : undefined; DragManager.StartDocumentDrag(clusterDocs.map(v => v.ContentDiv!), de, e.clientX, e.clientY, { handlers: { dragComplete: action(emptyFunction) }, hideSource: !de.dropAction }); return true; } return false; } @undoBatch updateClusters(useClusters: boolean) { this.props.Document.useClusters = useClusters; this._clusterSets.length = 0; this.childLayoutPairs.map(pair => pair.layout).map(c => this.updateCluster(c)); } @undoBatch @action updateCluster(doc: Doc) { let childLayouts = this.childLayoutPairs.map(pair => pair.layout); if (this.props.Document.useClusters) { this._clusterSets.map(set => Doc.IndexOf(doc, set) !== -1 && set.splice(Doc.IndexOf(doc, set), 1)); let preferredInd = NumCast(doc.cluster); doc.cluster = -1; this._clusterSets.map((set, i) => set.map(member => { if (doc.cluster === -1 && Doc.IndexOf(member, childLayouts) !== -1 && Doc.overlapping(doc, member, this._clusterDistance)) { doc.cluster = i; } })); if (doc.cluster === -1 && preferredInd !== -1 && (!this._clusterSets[preferredInd] || !this._clusterSets[preferredInd].filter(member => Doc.IndexOf(member, childLayouts) !== -1).length)) { doc.cluster = preferredInd; } this._clusterSets.map((set, i) => { if (doc.cluster === -1 && !set.filter(member => Doc.IndexOf(member, childLayouts) !== -1).length) { doc.cluster = i; } }); if (doc.cluster === -1) { doc.cluster = this._clusterSets.length; this._clusterSets.push([doc]); } else { for (let i = this._clusterSets.length; i <= doc.cluster; i++) !this._clusterSets[i] && this._clusterSets.push([]); this._clusterSets[doc.cluster].push(doc); } } } getClusterColor = (doc: Doc) => { let clusterColor = ""; let cluster = NumCast(doc.cluster); if (this.Document.useClusters) { if (this._clusterSets.length <= cluster) { setTimeout(() => this.updateCluster(doc), 0); } else { // choose a cluster color from a palette let colors = ["#da42429e", "#31ea318c", "#8c4000", "#4a7ae2c4", "#d809ff", "#ff7601", "#1dffff", "yellow", "#1b8231f2", "#000000ad"]; clusterColor = colors[cluster % colors.length]; let set = this._clusterSets[cluster] && this._clusterSets[cluster].filter(s => s.backgroundColor && (s.backgroundColor !== s.defaultBackgroundColor)); // override the cluster color with an explicitly set color on a non-background document. then override that with an explicitly set color on a background document set && set.filter(s => !s.isBackground).map(s => clusterColor = StrCast(s.backgroundColor)); set && set.filter(s => s.isBackground).map(s => clusterColor = StrCast(s.backgroundColor)); } } return clusterColor; } @action onPointerDown = (e: React.PointerEvent): void => { this._hitCluster = this.props.Document.useClusters ? this.pickCluster(this.getTransform().transformPoint(e.clientX, e.clientY)) !== -1 : false; if (e.button === 0 && !e.shiftKey && !e.altKey && (!this.isAnnotationOverlay || this.zoomScaling() !== 1) && this.props.active()) { document.removeEventListener("pointermove", this.onPointerMove); document.removeEventListener("pointerup", this.onPointerUp); document.addEventListener("pointermove", this.onPointerMove); document.addEventListener("pointerup", this.onPointerUp); this._lastX = e.pageX; this._lastY = e.pageY; } } onPointerUp = (e: PointerEvent): void => { document.removeEventListener("pointermove", this.onPointerMove); document.removeEventListener("pointerup", this.onPointerUp); } @action onPointerMove = (e: PointerEvent): void => { if (!e.cancelBubble && !this.isAnnotationOverlay) { if (this._hitCluster && this.tryDragCluster(e)) { e.stopPropagation(); // doesn't actually stop propagation since all our listeners are listening to events on 'document' however it does mark the event as cancelBubble=true which we test for in the move event handlers e.preventDefault(); document.removeEventListener("pointermove", this.onPointerMove); document.removeEventListener("pointerup", this.onPointerUp); return; } let x = this.Document.panX || 0; let y = this.Document.panY || 0; let docs = this.childLayoutPairs.map(pair => pair.layout); let [dx, dy] = this.getTransform().transformDirection(e.clientX - this._lastX, e.clientY - this._lastY); if (!this.isAnnotationOverlay) { PDFMenu.Instance.fadeOut(true); let minx = docs.length ? NumCast(docs[0].x) : 0; let maxx = docs.length ? NumCast(docs[0].width) + minx : minx; let miny = docs.length ? NumCast(docs[0].y) : 0; let maxy = docs.length ? NumCast(docs[0].height) + miny : miny; let ranges = docs.filter(doc => doc).reduce((range, doc) => { let x = NumCast(doc.x); let xe = x + NumCast(doc.width); let y = NumCast(doc.y); let ye = y + NumCast(doc.height); return [[range[0][0] > x ? x : range[0][0], range[0][1] < xe ? xe : range[0][1]], [range[1][0] > y ? y : range[1][0], range[1][1] < ye ? ye : range[1][1]]]; }, [[minx, maxx], [miny, maxy]]); let ink = Cast(this.fieldExtensionDoc.ink, InkField); if (ink && ink.inkData) { ink.inkData.forEach((value: StrokeData, key: string) => { let bounds = InkingCanvas.StrokeRect(value); ranges[0] = [Math.min(ranges[0][0], bounds.left), Math.max(ranges[0][1], bounds.right)]; ranges[1] = [Math.min(ranges[1][0], bounds.top), Math.max(ranges[1][1], bounds.bottom)]; }); } let cscale = this.props.ContainingCollectionDoc ? NumCast(this.props.ContainingCollectionDoc.scale) : 1; let panelDim = this.props.ScreenToLocalTransform().transformDirection(this.props.PanelWidth() / this.zoomScaling() * cscale, this.props.PanelHeight() / this.zoomScaling() * cscale); if (ranges[0][0] - dx > (this.panX() + panelDim[0] / 2)) x = ranges[0][1] + panelDim[0] / 2; if (ranges[0][1] - dx < (this.panX() - panelDim[0] / 2)) x = ranges[0][0] - panelDim[0] / 2; if (ranges[1][0] - dy > (this.panY() + panelDim[1] / 2)) y = ranges[1][1] + panelDim[1] / 2; if (ranges[1][1] - dy < (this.panY() - panelDim[1] / 2)) y = ranges[1][0] - panelDim[1] / 2; } this.setPan(x - dx, y - dy); this._lastX = e.pageX; this._lastY = e.pageY; e.stopPropagation(); // doesn't actually stop propagation since all our listeners are listening to events on 'document' however it does mark the event as cancelBubble=true which we test for in the move event handlers e.preventDefault(); } } @action onPointerWheel = (e: React.WheelEvent): void => { if (this.props.Document.lockedPosition || this.props.Document.inOverlay || this.isAnnotationOverlay) return; if (!e.ctrlKey && this.props.Document.scrollHeight !== undefined) { // things that can scroll vertically should do that instead of zooming e.stopPropagation(); } else if (this.props.active()) { e.stopPropagation(); let deltaScale = e.deltaY > 0 ? (1 / 1.1) : 1.1; if (deltaScale * this.zoomScaling() < 1 && this.isAnnotationOverlay) { deltaScale = 1 / this.zoomScaling(); } if (deltaScale < 0) deltaScale = -deltaScale; let [x, y] = this.getTransform().transformPoint(e.clientX, e.clientY); let localTransform = this.getLocalTransform().inverse().scaleAbout(deltaScale, x, y); let safeScale = Math.min(Math.max(0.15, localTransform.Scale), 40); this.props.Document.scale = Math.abs(safeScale); this.setPan(-localTransform.TranslateX / safeScale, -localTransform.TranslateY / safeScale); } } @action setPan(panX: number, panY: number) { if (!this.props.Document.lockedPosition || this.props.Document.inOverlay) { this.props.Document.panTransformType = "None"; var scale = this.getLocalTransform().inverse().Scale; const newPanX = Math.min((1 - 1 / scale) * this.nativeWidth, Math.max(0, panX)); const newPanY = Math.min((this.props.Document.scrollHeight !== undefined ? NumCast(this.props.Document.scrollHeight) : (1 - 1 / scale) * this.nativeHeight), Math.max(0, panY)); this.props.Document.panX = this.isAnnotationOverlay ? newPanX : panX; this.props.Document.panY = this.isAnnotationOverlay ? newPanY : panY; } } bringToFront = (doc: Doc, sendToBack?: boolean) => { if (sendToBack || doc.isBackground) { doc.zIndex = 0; } else { const docs = this.childLayoutPairs.map(pair => pair.layout); docs.slice().sort((doc1, doc2) => { if (doc1 === doc) return 1; if (doc2 === doc) return -1; return NumCast(doc1.zIndex) - NumCast(doc2.zIndex); }).forEach((doc, index) => doc.zIndex = index + 1); doc.zIndex = docs.length + 1; } } focusDocument = (doc: Doc, willZoom: boolean, scale?: number, afterFocus?: () => boolean) => { const state = HistoryUtil.getState(); // TODO This technically isn't correct if type !== "doc", as // currently nothing is done, but we should probably push a new state if (state.type === "doc" && this.Document.panX !== undefined && this.Document.panY !== undefined) { const init = state.initializers![this.Document[Id]]; if (!init) { state.initializers![this.Document[Id]] = { panX: this.Document.panX, panY: this.Document.panY }; HistoryUtil.pushState(state); } else if (init.panX !== this.Document.panX || init.panY !== this.Document.panY) { init.panX = this.Document.panX; init.panY = this.Document.panY; HistoryUtil.pushState(state); } } SelectionManager.DeselectAll(); if (this.props.Document.scrollHeight) { let annotOn = Cast(doc.annotationOn, Doc) as Doc; if (!annotOn) { this.props.focus(doc); } else { let contextHgt = Doc.AreProtosEqual(annotOn, this.props.Document) && this.props.VisibleHeight ? this.props.VisibleHeight() : NumCast(annotOn.height); let offset = annotOn && (contextHgt / 2 * 96 / 72); this.props.Document.scrollY = NumCast(doc.y) - offset; } } else { const newPanX = NumCast(doc.x) + NumCast(doc.width) / 2; const newPanY = NumCast(doc.y) + NumCast(doc.height) / 2; const newState = HistoryUtil.getState(); newState.initializers![this.Document[Id]] = { panX: newPanX, panY: newPanY }; HistoryUtil.pushState(newState); let savedState = { px: this.Document.panX, py: this.Document.panY, s: this.Document.scale, pt: this.Document.panTransformType }; this.setPan(newPanX, newPanY); this.Document.panTransformType = "Ease"; Doc.BrushDoc(this.props.Document); this.props.focus(this.props.Document); willZoom && this.setScaleToZoom(doc, scale); afterFocus && setTimeout(() => { if (afterFocus && afterFocus()) { this.Document.panX = savedState.px; this.Document.panY = savedState.py; this.Document.scale = savedState.s; this.Document.panTransformType = savedState.pt; } }, 1000); } } setScaleToZoom = (doc: Doc, scale: number = 0.5) => { this.Document.scale = scale * Math.min(this.props.PanelWidth() / NumCast(doc.width), this.props.PanelHeight() / NumCast(doc.height)); } zoomToScale = (scale: number) => { this.Document.scale = scale; } getScale = () => this.Document.scale || 1; getChildDocumentViewProps(childLayout: Doc, childData?: Doc): DocumentViewProps { return { ...this.props, DataDoc: childData, Document: childLayout, ruleProvider: this.Document.isRuleProvider && childLayout.type !== DocumentType.TEXT ? this.props.Document : this.props.ruleProvider, //bcz: hack! - currently ruleProviders apply to documents in nested colleciton, not direct children of themselves onClick: undefined, // this.props.onClick, // bcz: check this out -- I don't think we want to inherit click handlers, or we at least need a way to ignore them ScreenToLocalTransform: childLayout.z ? this.getTransformOverlay : this.getTransform, renderDepth: this.props.renderDepth + 1, PanelWidth: childLayout[WidthSym], PanelHeight: childLayout[HeightSym], ContentScaling: returnOne, ContainingCollectionView: this.props.CollectionView, ContainingCollectionDoc: this.props.Document, focus: this.focusDocument, backgroundColor: this.getClusterColor, parentActive: this.props.active, bringToFront: this.bringToFront, zoomToScale: this.zoomToScale, getScale: this.getScale }; } getDocumentViewProps(layoutDoc: Doc): DocumentViewProps { return { ...this.props, ScreenToLocalTransform: this.getTransform, PanelWidth: layoutDoc[WidthSym], PanelHeight: layoutDoc[HeightSym], ContentScaling: returnOne, ContainingCollectionView: this.props.CollectionView, focus: this.focusDocument, backgroundColor: returnEmptyString, parentActive: this.props.active, bringToFront: this.bringToFront, zoomToScale: this.zoomToScale, getScale: this.getScale }; } getCalculatedPositions(params: { doc: Doc, index: number, collection: Doc, docs: Doc[], state: any }): { x?: number, y?: number, z?: number, width?: number, height?: number, transition?: string, state?: any } { const script = this.Document.arrangeScript; const result = script && script.script.run(params, console.log); if (result && result.success) { return { ...result, transition: "transform 1s" }; } return { x: Cast(params.doc.x, "number"), y: Cast(params.doc.y, "number"), z: Cast(params.doc.z, "number"), width: Cast(params.doc.width, "number"), height: Cast(params.doc.height, "number") }; } viewDefsToJSX = (views: any[]) => { return !Array.isArray(views) ? [] : views.filter(ele => this.viewDefToJSX(ele)).map(ele => this.viewDefToJSX(ele)!); } private viewDefToJSX(viewDef: any): Opt { if (viewDef.type === "text") { const text = Cast(viewDef.text, "string"); // don't use NumCast, StrCast, etc since we want to test for undefined below const x = Cast(viewDef.x, "number"); const y = Cast(viewDef.y, "number"); const z = Cast(viewDef.z, "number"); const width = Cast(viewDef.width, "number"); const height = Cast(viewDef.height, "number"); const fontSize = Cast(viewDef.fontSize, "number"); return [text, x, y, width, height].some(val => val === undefined) ? undefined : { ele:
{text}
, bounds: { x: x!, y: y!, z: z, width: width!, height: height! } }; } } lookupLayout = (doc: Doc, dataDoc?: Doc) => { let data: any = undefined; let computedElementData: { map: Map<{ layout: Doc, data?: Doc | undefined }, any>, elements: ViewDefResult[] }; switch (this.Document.freeformLayoutEngine) { case "pivot": computedElementData = this.doPivotLayout; break; default: computedElementData = this.doFreeformLayout; break; } computedElementData.map.forEach((value: any, key: { layout: Doc, data?: Doc }) => { if (key.layout === doc && key.data === dataDoc) { data = value; } }); return data && { x: data.x, y: data.y, z: data.z, width: data.width, height: data.height, transition: data.transition }; } @computed get doPivotLayout() { return computePivotLayout(this.props.Document, this.childDocs, this.childLayoutPairs.filter(pair => this.isCurrent(pair.layout)), this.viewDefsToJSX); } @computed get doFreeformLayout() { let layoutPoolData: Map<{ layout: Doc, data?: Doc }, any> = new Map(); let layoutDocs = this.childLayoutPairs.map(pair => pair.layout); const initResult = this.Document.arrangeInit && this.Document.arrangeInit.script.run({ docs: layoutDocs, collection: this.Document }, console.log); let state = initResult && initResult.success ? initResult.result.scriptState : undefined; let elements = initResult && initResult.success ? this.viewDefsToJSX(initResult.result.views) : []; this.childLayoutPairs.filter(pair => this.isCurrent(pair.layout)).map((pair, i) => { const pos = this.getCalculatedPositions({ doc: pair.layout, index: i, collection: this.Document, docs: layoutDocs, state }); state = pos.state === undefined ? state : pos.state; layoutPoolData.set(pair, pos); }); return { map: layoutPoolData, elements: elements }; } @computed get doLayoutComputation() { let computedElementData: { map: Map<{ layout: Doc, data?: Doc | undefined }, any>, elements: ViewDefResult[] }; switch (this.Document.freeformLayoutEngine) { case "pivot": computedElementData = this.doPivotLayout; break; default: computedElementData = this.doFreeformLayout; break; } this.childLayoutPairs.filter(pair => this.isCurrent(pair.layout)).forEach(pair => computedElementData.elements.push({ ele: , bounds: this.lookupLayout(pair.layout, pair.data) })); return computedElementData; } @computed.struct get elements() { return this.doLayoutComputation.elements; } @computed.struct get views() { return this.elements.filter(ele => ele.bounds && !ele.bounds.z).map(ele => ele.ele); } @computed.struct get overlayViews() { return this.elements.filter(ele => ele.bounds && ele.bounds.z).map(ele => ele.ele); } @action onCursorMove = (e: React.PointerEvent) => { super.setCursorPosition(this.getTransform().transformPoint(e.clientX, e.clientY)); } layoutDocsInGrid = () => { UndoManager.RunInBatch(() => { const docs = DocListCast(this.Document[this.props.fieldKey]); let startX = this.Document.panX || 0; let x = startX; let y = this.Document.panY || 0; let i = 0; const width = Math.max(...docs.map(doc => NumCast(doc.width))); const height = Math.max(...docs.map(doc => NumCast(doc.height))); for (const doc of docs) { doc.x = x; doc.y = y; x += width + 20; if (++i === 6) { i = 0; x = startX; y += height + 20; } } }, "arrange contents"); } autoFormat = () => { this.Document.isRuleProvider = !this.Document.isRuleProvider; // find rule colorations when rule providing is turned on by looking at each document to see if it has a coloring -- if so, use it's color as the rule for its associated heading. this.Document.isRuleProvider && this.childLayoutPairs.map(pair => // iterate over the children of a displayed document (or if the displayed document is a template, iterate over the children of that template) DocListCast(pair.layout.layout instanceof Doc ? pair.layout.layout.data : pair.layout.data).map(heading => { let headingPair = Doc.GetLayoutDataDocPair(this.props.Document, this.props.DataDoc, this.props.fieldKey, heading); let headingLayout = headingPair.layout && (pair.layout.data_ext instanceof Doc) && (pair.layout.data_ext[`Layout[${headingPair.layout[Id]}]`] as Doc) || headingPair.layout; if (headingLayout && NumCast(headingLayout.heading) > 0 && headingLayout.backgroundColor !== headingLayout.defaultBackgroundColor) { Doc.GetProto(this.props.Document)["ruleColor_" + NumCast(headingLayout.heading)] = headingLayout.backgroundColor; } }) ); } analyzeStrokes = async () => { let data = Cast(this.fieldExtensionDoc.ink, InkField); if (data) { CognitiveServices.Inking.Appliers.ConcatenateHandwriting(this.fieldExtensionDoc, ["inkAnalysis", "handwriting"], data.inkData); } } onContextMenu = (e: React.MouseEvent) => { let layoutItems: ContextMenuProps[] = []; if (this.childDocs.some(d => BoolCast(d.isTemplate))) { layoutItems.push({ description: "Template Layout Instance", event: () => this.props.addDocTab(Doc.ApplyTemplate(this.props.Document)!, undefined, "onRight"), icon: "project-diagram" }); } layoutItems.push({ description: "reset view", event: () => { this.props.Document.panX = this.props.Document.panY = 0; this.props.Document.scale = 1; }, icon: "compress-arrows-alt" }); layoutItems.push({ description: `${this.fitToContent ? "Unset" : "Set"} Fit To Container`, event: async () => this.Document.fitToBox = !this.fitToContent, icon: !this.fitToContent ? "expand-arrows-alt" : "compress-arrows-alt" }); layoutItems.push({ description: `${this.Document.useClusters ? "Uncluster" : "Use Clusters"}`, event: () => this.updateClusters(!this.Document.useClusters), icon: "braille" }); layoutItems.push({ description: `${this.Document.isRuleProvider ? "Stop Auto Format" : "Auto Format"}`, event: this.autoFormat, icon: "chalkboard" }); layoutItems.push({ description: "Arrange contents in grid", event: this.layoutDocsInGrid, icon: "table" }); layoutItems.push({ description: "Analyze Strokes", event: this.analyzeStrokes, icon: "paint-brush" }); layoutItems.push({ description: "Jitter Rotation", event: action(() => this.props.Document.jitterRotation = 10), icon: "paint-brush" }); layoutItems.push({ description: "Import document", icon: "upload", event: ({ x, y }) => { const input = document.createElement("input"); input.type = "file"; input.accept = ".zip"; input.onchange = async _e => { const upload = Utils.prepend("/uploadDoc"); let formData = new FormData(); const file = input.files && input.files[0]; if (file) { formData.append('file', file); formData.append('remap', "true"); const response = await fetch(upload, { method: "POST", body: formData }); const json = await response.json(); if (json !== "error") { const doc = await DocServer.GetRefField(json); if (doc instanceof Doc) { const [xx, yy] = this.props.ScreenToLocalTransform().transformPoint(x, y); doc.x = xx, doc.y = yy; this.props.addDocument && this.props.addDocument(doc, false); } } } }; input.click(); } }); layoutItems.push({ description: "Add Note ...", subitems: DocListCast((CurrentUserUtils.UserDocument.noteTypes as Doc).data).map((note, i) => ({ description: (i + 1) + ": " + StrCast(note.title), event: (args: { x: number, y: number }) => this.addLiveTextBox(Docs.Create.TextDocument({ width: 200, height: 100, x: this.getTransform().transformPoint(args.x, args.y)[0], y: this.getTransform().transformPoint(args.x, args.y)[1], autoHeight: true, layout: note, title: StrCast(note.title) })), icon: "eye" })) as ContextMenuProps[], icon: "eye" }); ContextMenu.Instance.addItem({ description: "Freeform Options ...", subitems: layoutItems, icon: "eye" }); } private childViews = () => [ , ...this.views ] render() { // update the actual dimensions of the collection so that they can inquired (e.g., by a minimap) this.props.Document.fitX = this.contentBounds && this.contentBounds.x; this.props.Document.fitY = this.contentBounds && this.contentBounds.y; this.props.Document.fitW = this.contentBounds && (this.contentBounds.r - this.contentBounds.x); this.props.Document.fitH = this.contentBounds && (this.contentBounds.b - this.contentBounds.y); // if fieldExt is set, then children will be stored in the extension document for the fieldKey. // otherwise, they are stored in fieldKey. All annotations to this document are stored in the extension document Doc.UpdateDocumentExtensionForField(this.props.DataDoc || this.props.Document, this.props.fieldKey); return (
{this.childViews} {this.overlayViews}
); } } @observer class CollectionFreeFormOverlayView extends React.Component boolean }> { render() { return ; } } @observer class CollectionFreeFormBackgroundView extends React.Component boolean }> { render() { return !this.props.Document.backgroundLayout ? (null) : (); } } interface CollectionFreeFormViewPannableContentsProps { centeringShiftX: () => number; centeringShiftY: () => number; panX: () => number; panY: () => number; zoomScaling: () => number; easing: () => boolean; } @observer class CollectionFreeFormViewPannableContents extends React.Component{ render() { let freeformclass = "collectionfreeformview" + (this.props.easing() ? "-ease" : "-none"); const cenx = this.props.centeringShiftX(); const ceny = this.props.centeringShiftY(); const panx = -this.props.panX(); const pany = -this.props.panY(); const zoom = this.props.zoomScaling(); return
{this.props.children}
; } }