/** * @licstart The following is the entire license notice for the * Javascript code in this page * * Copyright 2020 Mozilla Foundation * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * @licend The above is the entire license notice for the * Javascript code in this page */ "use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.getShadingPatternFromIR = getShadingPatternFromIR; exports.TilingPattern = void 0; var _util = require("../shared/util.js"); var ShadingIRs = {}; function applyBoundingBox(ctx, bbox) { if (!bbox || typeof Path2D === "undefined") { return; } const width = bbox[2] - bbox[0]; const height = bbox[3] - bbox[1]; const region = new Path2D(); region.rect(bbox[0], bbox[1], width, height); ctx.clip(region); } ShadingIRs.RadialAxial = { fromIR: function RadialAxial_fromIR(raw) { var type = raw[1]; var bbox = raw[2]; var colorStops = raw[3]; var p0 = raw[4]; var p1 = raw[5]; var r0 = raw[6]; var r1 = raw[7]; return { type: "Pattern", getPattern: function RadialAxial_getPattern(ctx) { applyBoundingBox(ctx, bbox); var grad; if (type === "axial") { grad = ctx.createLinearGradient(p0[0], p0[1], p1[0], p1[1]); } else if (type === "radial") { grad = ctx.createRadialGradient(p0[0], p0[1], r0, p1[0], p1[1], r1); } for (var i = 0, ii = colorStops.length; i < ii; ++i) { var c = colorStops[i]; grad.addColorStop(c[0], c[1]); } return grad; } }; } }; var createMeshCanvas = function createMeshCanvasClosure() { function drawTriangle(data, context, p1, p2, p3, c1, c2, c3) { var coords = context.coords, colors = context.colors; var bytes = data.data, rowSize = data.width * 4; var tmp; if (coords[p1 + 1] > coords[p2 + 1]) { tmp = p1; p1 = p2; p2 = tmp; tmp = c1; c1 = c2; c2 = tmp; } if (coords[p2 + 1] > coords[p3 + 1]) { tmp = p2; p2 = p3; p3 = tmp; tmp = c2; c2 = c3; c3 = tmp; } if (coords[p1 + 1] > coords[p2 + 1]) { tmp = p1; p1 = p2; p2 = tmp; tmp = c1; c1 = c2; c2 = tmp; } var x1 = (coords[p1] + context.offsetX) * context.scaleX; var y1 = (coords[p1 + 1] + context.offsetY) * context.scaleY; var x2 = (coords[p2] + context.offsetX) * context.scaleX; var y2 = (coords[p2 + 1] + context.offsetY) * context.scaleY; var x3 = (coords[p3] + context.offsetX) * context.scaleX; var y3 = (coords[p3 + 1] + context.offsetY) * context.scaleY; if (y1 >= y3) { return; } var c1r = colors[c1], c1g = colors[c1 + 1], c1b = colors[c1 + 2]; var c2r = colors[c2], c2g = colors[c2 + 1], c2b = colors[c2 + 2]; var c3r = colors[c3], c3g = colors[c3 + 1], c3b = colors[c3 + 2]; var minY = Math.round(y1), maxY = Math.round(y3); var xa, car, cag, cab; var xb, cbr, cbg, cbb; for (var y = minY; y <= maxY; y++) { if (y < y2) { let k; if (y < y1) { k = 0; } else if (y1 === y2) { k = 1; } else { k = (y1 - y) / (y1 - y2); } xa = x1 - (x1 - x2) * k; car = c1r - (c1r - c2r) * k; cag = c1g - (c1g - c2g) * k; cab = c1b - (c1b - c2b) * k; } else { let k; if (y > y3) { k = 1; } else if (y2 === y3) { k = 0; } else { k = (y2 - y) / (y2 - y3); } xa = x2 - (x2 - x3) * k; car = c2r - (c2r - c3r) * k; cag = c2g - (c2g - c3g) * k; cab = c2b - (c2b - c3b) * k; } let k; if (y < y1) { k = 0; } else if (y > y3) { k = 1; } else { k = (y1 - y) / (y1 - y3); } xb = x1 - (x1 - x3) * k; cbr = c1r - (c1r - c3r) * k; cbg = c1g - (c1g - c3g) * k; cbb = c1b - (c1b - c3b) * k; var x1_ = Math.round(Math.min(xa, xb)); var x2_ = Math.round(Math.max(xa, xb)); var j = rowSize * y + x1_ * 4; for (var x = x1_; x <= x2_; x++) { k = (xa - x) / (xa - xb); if (k < 0) { k = 0; } else if (k > 1) { k = 1; } bytes[j++] = car - (car - cbr) * k | 0; bytes[j++] = cag - (cag - cbg) * k | 0; bytes[j++] = cab - (cab - cbb) * k | 0; bytes[j++] = 255; } } } function drawFigure(data, figure, context) { var ps = figure.coords; var cs = figure.colors; var i, ii; switch (figure.type) { case "lattice": var verticesPerRow = figure.verticesPerRow; var rows = Math.floor(ps.length / verticesPerRow) - 1; var cols = verticesPerRow - 1; for (i = 0; i < rows; i++) { var q = i * verticesPerRow; for (var j = 0; j < cols; j++, q++) { drawTriangle(data, context, ps[q], ps[q + 1], ps[q + verticesPerRow], cs[q], cs[q + 1], cs[q + verticesPerRow]); drawTriangle(data, context, ps[q + verticesPerRow + 1], ps[q + 1], ps[q + verticesPerRow], cs[q + verticesPerRow + 1], cs[q + 1], cs[q + verticesPerRow]); } } break; case "triangles": for (i = 0, ii = ps.length; i < ii; i += 3) { drawTriangle(data, context, ps[i], ps[i + 1], ps[i + 2], cs[i], cs[i + 1], cs[i + 2]); } break; default: throw new Error("illegal figure"); } } function createMeshCanvas(bounds, combinesScale, coords, colors, figures, backgroundColor, cachedCanvases, webGLContext) { var EXPECTED_SCALE = 1.1; var MAX_PATTERN_SIZE = 3000; var BORDER_SIZE = 2; var offsetX = Math.floor(bounds[0]); var offsetY = Math.floor(bounds[1]); var boundsWidth = Math.ceil(bounds[2]) - offsetX; var boundsHeight = Math.ceil(bounds[3]) - offsetY; var width = Math.min(Math.ceil(Math.abs(boundsWidth * combinesScale[0] * EXPECTED_SCALE)), MAX_PATTERN_SIZE); var height = Math.min(Math.ceil(Math.abs(boundsHeight * combinesScale[1] * EXPECTED_SCALE)), MAX_PATTERN_SIZE); var scaleX = boundsWidth / width; var scaleY = boundsHeight / height; var context = { coords, colors, offsetX: -offsetX, offsetY: -offsetY, scaleX: 1 / scaleX, scaleY: 1 / scaleY }; var paddedWidth = width + BORDER_SIZE * 2; var paddedHeight = height + BORDER_SIZE * 2; var canvas, tmpCanvas, i, ii; if (webGLContext.isEnabled) { canvas = webGLContext.drawFigures({ width, height, backgroundColor, figures, context }); tmpCanvas = cachedCanvases.getCanvas("mesh", paddedWidth, paddedHeight, false); tmpCanvas.context.drawImage(canvas, BORDER_SIZE, BORDER_SIZE); canvas = tmpCanvas.canvas; } else { tmpCanvas = cachedCanvases.getCanvas("mesh", paddedWidth, paddedHeight, false); var tmpCtx = tmpCanvas.context; var data = tmpCtx.createImageData(width, height); if (backgroundColor) { var bytes = data.data; for (i = 0, ii = bytes.length; i < ii; i += 4) { bytes[i] = backgroundColor[0]; bytes[i + 1] = backgroundColor[1]; bytes[i + 2] = backgroundColor[2]; bytes[i + 3] = 255; } } for (i = 0; i < figures.length; i++) { drawFigure(data, figures[i], context); } tmpCtx.putImageData(data, BORDER_SIZE, BORDER_SIZE); canvas = tmpCanvas.canvas; } return { canvas, offsetX: offsetX - BORDER_SIZE * scaleX, offsetY: offsetY - BORDER_SIZE * scaleY, scaleX, scaleY }; } return createMeshCanvas; }(); ShadingIRs.Mesh = { fromIR: function Mesh_fromIR(raw) { var coords = raw[2]; var colors = raw[3]; var figures = raw[4]; var bounds = raw[5]; var matrix = raw[6]; var bbox = raw[7]; var background = raw[8]; return { type: "Pattern", getPattern: function Mesh_getPattern(ctx, owner, shadingFill) { applyBoundingBox(ctx, bbox); var scale; if (shadingFill) { scale = _util.Util.singularValueDecompose2dScale(ctx.mozCurrentTransform); } else { scale = _util.Util.singularValueDecompose2dScale(owner.baseTransform); if (matrix) { var matrixScale = _util.Util.singularValueDecompose2dScale(matrix); scale = [scale[0] * matrixScale[0], scale[1] * matrixScale[1]]; } } var temporaryPatternCanvas = createMeshCanvas(bounds, scale, coords, colors, figures, shadingFill ? null : background, owner.cachedCanvases, owner.webGLContext); if (!shadingFill) { ctx.setTransform.apply(ctx, owner.baseTransform); if (matrix) { ctx.transform.apply(ctx, matrix); } } ctx.translate(temporaryPatternCanvas.offsetX, temporaryPatternCanvas.offsetY); ctx.scale(temporaryPatternCanvas.scaleX, temporaryPatternCanvas.scaleY); return ctx.createPattern(temporaryPatternCanvas.canvas, "no-repeat"); } }; } }; ShadingIRs.Dummy = { fromIR: function Dummy_fromIR() { return { type: "Pattern", getPattern: function Dummy_fromIR_getPattern() { return "hotpink"; } }; } }; function getShadingPatternFromIR(raw) { var shadingIR = ShadingIRs[raw[0]]; if (!shadingIR) { throw new Error(`Unknown IR type: ${raw[0]}`); } return shadingIR.fromIR(raw); } var TilingPattern = function TilingPatternClosure() { var PaintType = { COLORED: 1, UNCOLORED: 2 }; var MAX_PATTERN_SIZE = 3000; function TilingPattern(IR, color, ctx, canvasGraphicsFactory, baseTransform) { this.operatorList = IR[2]; this.matrix = IR[3] || [1, 0, 0, 1, 0, 0]; this.bbox = IR[4]; this.xstep = IR[5]; this.ystep = IR[6]; this.paintType = IR[7]; this.tilingType = IR[8]; this.color = color; this.canvasGraphicsFactory = canvasGraphicsFactory; this.baseTransform = baseTransform; this.type = "Pattern"; this.ctx = ctx; } TilingPattern.prototype = { createPatternCanvas: function TilinPattern_createPatternCanvas(owner) { var operatorList = this.operatorList; var bbox = this.bbox; var xstep = this.xstep; var ystep = this.ystep; var paintType = this.paintType; var tilingType = this.tilingType; var color = this.color; var canvasGraphicsFactory = this.canvasGraphicsFactory; (0, _util.info)("TilingType: " + tilingType); var x0 = bbox[0], y0 = bbox[1], x1 = bbox[2], y1 = bbox[3]; var matrixScale = _util.Util.singularValueDecompose2dScale(this.matrix); var curMatrixScale = _util.Util.singularValueDecompose2dScale(this.baseTransform); var combinedScale = [matrixScale[0] * curMatrixScale[0], matrixScale[1] * curMatrixScale[1]]; var dimx = this.getSizeAndScale(xstep, this.ctx.canvas.width, combinedScale[0]); var dimy = this.getSizeAndScale(ystep, this.ctx.canvas.height, combinedScale[1]); var tmpCanvas = owner.cachedCanvases.getCanvas("pattern", dimx.size, dimy.size, true); var tmpCtx = tmpCanvas.context; var graphics = canvasGraphicsFactory.createCanvasGraphics(tmpCtx); graphics.groupLevel = owner.groupLevel; this.setFillAndStrokeStyleToContext(graphics, paintType, color); graphics.transform(dimx.scale, 0, 0, dimy.scale, 0, 0); graphics.transform(1, 0, 0, 1, -x0, -y0); this.clipBbox(graphics, bbox, x0, y0, x1, y1); graphics.executeOperatorList(operatorList); this.ctx.transform(1, 0, 0, 1, x0, y0); this.ctx.scale(1 / dimx.scale, 1 / dimy.scale); return tmpCanvas.canvas; }, getSizeAndScale: function TilingPattern_getSizeAndScale(step, realOutputSize, scale) { step = Math.abs(step); var maxSize = Math.max(MAX_PATTERN_SIZE, realOutputSize); var size = Math.ceil(step * scale); if (size >= maxSize) { size = maxSize; } else { scale = size / step; } return { scale, size }; }, clipBbox: function clipBbox(graphics, bbox, x0, y0, x1, y1) { if (Array.isArray(bbox) && bbox.length === 4) { var bboxWidth = x1 - x0; var bboxHeight = y1 - y0; graphics.ctx.rect(x0, y0, bboxWidth, bboxHeight); graphics.clip(); graphics.endPath(); } }, setFillAndStrokeStyleToContext: function setFillAndStrokeStyleToContext(graphics, paintType, color) { const context = graphics.ctx, current = graphics.current; switch (paintType) { case PaintType.COLORED: var ctx = this.ctx; context.fillStyle = ctx.fillStyle; context.strokeStyle = ctx.strokeStyle; current.fillColor = ctx.fillStyle; current.strokeColor = ctx.strokeStyle; break; case PaintType.UNCOLORED: var cssColor = _util.Util.makeCssRgb(color[0], color[1], color[2]); context.fillStyle = cssColor; context.strokeStyle = cssColor; current.fillColor = cssColor; current.strokeColor = cssColor; break; default: throw new _util.FormatError(`Unsupported paint type: ${paintType}`); } }, getPattern: function TilingPattern_getPattern(ctx, owner) { ctx = this.ctx; ctx.setTransform.apply(ctx, this.baseTransform); ctx.transform.apply(ctx, this.matrix); var temporaryPatternCanvas = this.createPatternCanvas(owner); return ctx.createPattern(temporaryPatternCanvas, "repeat"); } }; return TilingPattern; }(); exports.TilingPattern = TilingPattern;