fixes to imports and syntax errors

src/mxgraph/handler/mxEdgeHandler.js

@@ -1601,7 +1601,7 @@ class mxEdgeHandler {
         // Resets the offset inside the geometry to find the offset
         // from the resulting point
         geometry.offset = new mxPoint(0, 0);
-        let pt = this.graph.view.getPoint(edgeState, geometry);
+        pt = this.graph.view.getPoint(edgeState, geometry);
         geometry.offset = new mxPoint(Math.round((x - pt.x) / scale), Math.round((y - pt.y) / scale));
       } else {
         let points = edgeState.absolutePoints;

src/mxgraph/handler/mxEdgeSegmentHandler.js

@@ -3,6 +3,11 @@
  * Copyright (c) 2006-2015, Gaudenz Alder
  * Updated to ES9 syntax by David Morrissey 2021
  */
+import mxPoint from "../util/mxPoint";
+import mxConstants from "../util/mxConstants";
+import mxRectangle from "../util/mxRectangle";
+import mxUtils from "../util/mxUtils";
+import mxElbowEdgeHandler from "./mxElbowEdgeHandler";
 
 class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
   constructor(state) {
@@ -22,7 +27,7 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
       // Special case for straight edges where we add a virtual middle handle for moving the edge
       let tol = Math.max(1, this.graph.view.scale);
 
-      if (pts.length == 2 || (pts.length == 3 &&
+      if (pts.length === 2 || (pts.length === 3 &&
           (Math.abs(pts[0].x - pts[1].x) < tol && Math.abs(pts[1].x - pts[2].x) < tol ||
               Math.abs(pts[0].y - pts[1].y) < tol && Math.abs(pts[1].y - pts[2].y) < tol))) {
         let cx = pts[0].x + (pts[pts.length - 1].x - pts[0].x) / 2;
@@ -72,7 +77,7 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
       }
 
       // Replaces single point that intersects with source or target
-      if (result.length == 1) {
+      if (result.length === 1) {
         let source = this.state.getVisibleTerminalState(true);
         let target = this.state.getVisibleTerminalState(false);
         let scale = this.state.view.getScale();
@@ -126,13 +131,13 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
       let rpts = this.state.absolutePoints;
 
       // A straight line is represented by 3 handles
-      if (result.length == 0 && (Math.round(pts[0].x - pts[pts.length - 1].x) == 0 ||
+      if (result.length === 0 && (Math.round(pts[0].x - pts[pts.length - 1].x) === 0 ||
-          Math.round(pts[0].y - pts[pts.length - 1].y) == 0)) {
+          Math.round(pts[0].y - pts[pts.length - 1].y) === 0)) {
         result = [point, point];
       }
       // Handles special case of transitions from straight vertical to routed
-      else if (pts.length == 5 && result.length == 2 && source != null && target != null &&
+      else if (pts.length === 5 && result.length === 2 && source != null && target != null &&
-          rpts != null && Math.round(rpts[0].x - rpts[rpts.length - 1].x) == 0) {
+          rpts != null && Math.round(rpts[0].x - rpts[rpts.length - 1].x) === 0) {
         let view = this.graph.getView();
         let scale = view.getScale();
         let tr = view.getTranslate();
@@ -196,8 +201,8 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
         var pt2 = pts[i];
 
         // Merges adjacent segments only if more than 2 to allow for straight edges
-        if ((Math.round(pt0.x - pt1.x) != 0 || Math.round(pt1.x - pt2.x) != 0) &&
+        if ((Math.round(pt0.x - pt1.x) !== 0 || Math.round(pt1.x - pt2.x) !== 0) &&
-            (Math.round(pt0.y - pt1.y) != 0 || Math.round(pt1.y - pt2.y) != 0)) {
+            (Math.round(pt0.y - pt1.y) !== 0 || Math.round(pt1.y - pt2.y) !== 0)) {
           result.push(this.convertPoint(pt1.clone(), false));
         }
 
@@ -275,11 +280,11 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
       for (let i = 0; i < pts.length - 1; i++) {
         bend = this.createVirtualBend();
         bends.push(bend);
-        let horizontal = Math.round(pts[i].x - pts[i + 1].x) == 0;
+        let horizontal = Math.round(pts[i].x - pts[i + 1].x) === 0;
 
         // Special case where dy is 0 as well
-        if (Math.round(pts[i].y - pts[i + 1].y) == 0 && i < pts.length - 2) {
+        if (Math.round(pts[i].y - pts[i + 1].y) === 0 && i < pts.length - 2) {
-          horizontal = Math.round(pts[i].x - pts[i + 2].x) == 0;
+          horizontal = Math.round(pts[i].x - pts[i + 2].x) === 0;
         }
 
         bend.setCursor((horizontal) ? 'col-resize' : 'row-resize');
@@ -288,7 +293,7 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
     }
 
     // Target
-    let bend = this.createHandleShape(pts.length);
+    bend = this.createHandleShape(pts.length);
     this.initBend(bend);
     bend.setCursor(mxConstants.CURSOR_TERMINAL_HANDLE);
     bends.push(bend);
@@ -319,10 +324,10 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
         let straight = false;
 
         // Puts handle in the center of straight edges
-        if (pts.length == 4 && Math.round(pts[1].x - pts[2].x) == 0 && Math.round(pts[1].y - pts[2].y) == 0) {
+        if (pts.length === 4 && Math.round(pts[1].x - pts[2].x) === 0 && Math.round(pts[1].y - pts[2].y) === 0) {
           straight = true;
 
-          if (Math.round(pts[0].y - pts[pts.length - 1].y) == 0) {
+          if (Math.round(pts[0].y - pts[pts.length - 1].y) === 0) {
             let cx = pts[0].x + (pts[pts.length - 1].x - pts[0].x) / 2;
             pts[1] = new mxPoint(cx, pts[1].y);
             pts[2] = new mxPoint(cx, pts[2].y);
@@ -335,7 +340,7 @@ class mxEdgeSegmentHandler extends mxElbowEdgeHandler {
 
         for (let i = 0; i < pts.length - 1; i++) {
           if (this.bends[i + 1] != null) {
-            var p0 = pts[i];
+            let p0 = pts[i];
             let pe = pts[i + 1];
             let pt = new mxPoint(p0.x + (pe.x - p0.x) / 2, p0.y + (pe.y - p0.y) / 2);
             let b = this.bends[i + 1].bounds;

src/mxgraph/handler/mxVertexHandler.js

@@ -977,8 +977,8 @@ class mxVertexHandler {
 
     var c2 = new mxPoint(this.bounds.getCenterX(), this.bounds.getCenterY());
 
-    let dx = c2.x - ct.x;
+    dx = c2.x - ct.x;
-    let dy = c2.y - ct.y;
+    dy = c2.y - ct.y;
 
     var dx2 = cos * dx - sin * dy;
     var dy2 = sin * dx + cos * dy;

src/mxgraph/model/mxGeometry.js

@@ -4,7 +4,7 @@
  * Updated to ES9 syntax by David Morrissey 2021
  */
 
-import mxPoint from "FIXME";
+import mxPoint from "../util/mxPoint";
 import mxRectangle from "../util/mxRectangle";
 
 class mxGeometry extends mxRectangle {

src/mxgraph/shape/mxText.js

@@ -930,7 +930,7 @@ class mxText extends mxShape {
     }
 
     // Workaround for rendering offsets
-    let dy = 0;
+    dy = 0;
 
     style.zoom = s;
     style.left = Math.round(this.bounds.x + left_fix - w / 2) + 'px';

src/mxgraph/shape/mxTriangle.js

@@ -4,7 +4,10 @@
  * Updated to ES9 syntax by David Morrissey 2021
  */
 
-import mxPoint from "FIXME";
+import mxPoint from "../util/mxPoint";
+import mxActor from "./mxActor";
+import mxUtils from "../util/mxUtils";
+import mxConstants from "../util/mxConstants";
 
 class mxTriangle extends mxActor {
   /**

src/mxgraph/util/mxUtils.js

@@ -5,6 +5,7 @@
  */
 import mxEffects from "./mxEffects";
 import mxXmlRequest from "./mxXmlRequest";
+import mxClient from "../mxClient";
 
 let mxUtils = {
   /**
@@ -95,11 +96,11 @@ let mxUtils = {
    * medium and thick (2, 4 and 6).
    */
   parseCssNumber: (value) => {
-    if (value == 'thin') {
+    if (value === 'thin') {
       value = '2';
-    } else if (value == 'medium') {
+    } else if (value === 'medium') {
       value = '4';
-    } else if (value == 'thick') {
+    } else if (value === 'thick') {
       value = '6';
     }
 

src/mxgraph/view/mxCellEditor.js

@@ -6,7 +6,7 @@
 
 import mxUtils from "../util/mxUtils"
 import mxRectangle from "../util/mxRectangle";
-import mxEvent from "FIXME";
+import mxEvent from "../util/mxEvent";
 
 class mxCellEditor {
   /**

src/mxgraph/view/mxCellRenderer.js

@@ -3,25 +3,26 @@
  * Copyright (c) 2006-2017, Gaudenz Alder
  */
 
-import mxRectangleShape from "FIXME";
+import mxRectangleShape from "../shape/mxRectangleShape";
-import mxEllipse from "FIXME";
+import mxEllipse from "../shape/mxEllipse";
-import mxRhombus from "FIXME";
+import mxRhombus from "../shape/mxRhombus";
-import mxCylinder from "FIXME";
+import mxCylinder from "../shape/mxCylinder";
-import mxConnector from "FIXME";
+import mxConnector from "../shape/mxConnector";
-import mxActor from "FIXME";
+import mxActor from "../shape/mxActor";
-import mxTriangle from "FIXME";
+import mxTriangle from "../shape/mxTriangle";
-import mxHexagon from "FIXME";
+import mxHexagon from "../shape/mxHexagon";
-import mxCloud from "FIXME";
+import mxCloud from "../shape/mxCloud";
-import mxLine from "FIXME";
+import mxLine from "../shape/mxLine";
-import mxArrow from "FIXME";
+import mxArrow from "../shape/mxArrow";
-import mxArrowConnector from "FIXME";
+import mxArrowConnector from "../shape/mxArrowConnector";
-import mxDoubleEllipse from "FIXME";
+import mxDoubleEllipse from "../shape/mxDoubleEllipse";
-import mxSwimlane from "FIXME";
+import mxSwimlane from "../shape/mxSwimlane";
-import mxImageShape from "FIXME";
+import mxImageShape from "../shape/mxImageShape";
-import mxLabel from "FIXME";
+import mxLabel from "../shape/mxLabel";
-import mxText from "FIXME";
+import mxText from "../shape/mxText";
-import mxConstants from "FIXME";
+import mxConstants from "../util/mxConstants";
 import mxUtils from "../util/mxUtils";
+import mxRectangle from "../util/mxRectangle";
 
 class mxCellRenderer {
   /**
@@ -840,9 +841,9 @@ class mxCellRenderer {
       let nextScale = this.getTextScale(state);
       this.resolveColor(state, 'color', mxConstants.STYLE_FONTCOLOR);
 
-      if (forced || state.text.value != value || state.text.isWrapping != wrapping ||
+      if (forced || state.text.value !== value || state.text.isWrapping !== wrapping ||
-          state.text.overflow != overflow || state.text.isClipping != clipping ||
+          state.text.overflow !== overflow || state.text.isClipping !== clipping ||
-          state.text.scale != nextScale || state.text.dialect != dialect ||
+          state.text.scale !== nextScale || state.text.dialect !== dialect ||
           state.text.bounds == null || !state.text.bounds.equals(bounds)) {
         state.text.dialect = dialect;
         state.text.value = value;
@@ -875,12 +876,12 @@ class mxCellRenderer {
       let result = false;
 
       // Workaround for spacing added to directional spacing
-      if (stylename == 'spacingTop' || stylename == 'spacingRight' ||
+      if (stylename === 'spacingTop' || stylename === 'spacingRight' ||
-          stylename == 'spacingBottom' || stylename == 'spacingLeft') {
+          stylename === 'spacingBottom' || stylename === 'spacingLeft') {
-        result = parseFloat(shape[property]) - parseFloat(shape.spacing) !=
+        result = parseFloat(shape[property]) - parseFloat(shape.spacing) !==
             (state.style[stylename] || defaultValue);
       } else {
-        result = shape[property] != (state.style[stylename] || defaultValue);
+        result = shape[property] !== (state.style[stylename] || defaultValue);
       }
 
       return result;
@@ -987,7 +988,7 @@ class mxCellRenderer {
       let hpos = mxUtils.getValue(state.style, mxConstants.STYLE_LABEL_POSITION, mxConstants.ALIGN_CENTER);
       let vpos = mxUtils.getValue(state.style, mxConstants.STYLE_VERTICAL_LABEL_POSITION, mxConstants.ALIGN_MIDDLE);
 
-      if (hpos == mxConstants.ALIGN_CENTER && vpos == mxConstants.ALIGN_MIDDLE) {
+      if (hpos === mxConstants.ALIGN_CENTER && vpos === mxConstants.ALIGN_MIDDLE) {
         bounds = state.shape.getLabelBounds(bounds);
       }
     }
@@ -1021,7 +1022,7 @@ class mxCellRenderer {
     bounds.y -= state.text.margin.y * bounds.height;
     bounds.x -= state.text.margin.x * bounds.width;
 
-    if (!this.legacySpacing || (state.style[mxConstants.STYLE_OVERFLOW] != 'fill' && state.style[mxConstants.STYLE_OVERFLOW] != 'width')) {
+    if (!this.legacySpacing || (state.style[mxConstants.STYLE_OVERFLOW] !== 'fill' && state.style[mxConstants.STYLE_OVERFLOW] !== 'width')) {
       let s = state.view.scale;
       let spacing = state.text.getSpacing();
       bounds.x += spacing.x * s;
@@ -1031,18 +1032,18 @@ class mxCellRenderer {
       let vpos = mxUtils.getValue(state.style, mxConstants.STYLE_VERTICAL_LABEL_POSITION, mxConstants.ALIGN_MIDDLE);
       let lw = mxUtils.getValue(state.style, mxConstants.STYLE_LABEL_WIDTH, null);
 
-      bounds.width = Math.max(0, bounds.width - ((hpos == mxConstants.ALIGN_CENTER && lw == null) ? (state.text.spacingLeft * s + state.text.spacingRight * s) : 0));
+      bounds.width = Math.max(0, bounds.width - ((hpos === mxConstants.ALIGN_CENTER && lw == null) ? (state.text.spacingLeft * s + state.text.spacingRight * s) : 0));
-      bounds.height = Math.max(0, bounds.height - ((vpos == mxConstants.ALIGN_MIDDLE) ? (state.text.spacingTop * s + state.text.spacingBottom * s) : 0));
+      bounds.height = Math.max(0, bounds.height - ((vpos === mxConstants.ALIGN_MIDDLE) ? (state.text.spacingTop * s + state.text.spacingBottom * s) : 0));
     }
 
     let theta = state.text.getTextRotation();
 
     // Only needed if rotated around another center
-    if (theta != 0 && state != null && state.view.graph.model.isVertex(state.cell)) {
+    if (theta !== 0 && state != null && state.view.graph.model.isVertex(state.cell)) {
       let cx = state.getCenterX();
       let cy = state.getCenterY();
 
-      if (bounds.x != cx || bounds.y != cy) {
+      if (bounds.x !== cx || bounds.y !== cy) {
         let rad = theta * (Math.PI / 180);
         let pt = mxUtils.getRotatedPoint(new mxPoint(bounds.x, bounds.y),
             Math.cos(rad), Math.sin(rad), new mxPoint(cx, cy));
@@ -1391,7 +1392,7 @@ class mxCellRenderer {
    * Returns true if the given shape must be repainted.
    */
   isShapeInvalid = (state, shape) => {
-    return shape.bounds == null || shape.scale != state.view.scale ||
+    return shape.bounds == null || shape.scale !== state.view.scale ||
         (state.absolutePoints == null && !shape.bounds.equals(state)) ||
         (state.absolutePoints != null && !mxUtils.equalPoints(shape.points, state.absolutePoints))
   };