/* Copyright 2017 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.
*/
import { Dict, Name, Ref } from "../../src/core/primitives.js";
import { Stream, StringStream } from "../../src/core/stream.js";
import { ColorSpace } from "../../src/core/colorspace.js";
import { LocalColorSpaceCache } from "../../src/core/image_utils.js";
import { PDFFunctionFactory } from "../../src/core/function.js";
import { XRefMock } from "./test_utils.js";
describe("colorspace", function () {
describe("ColorSpace.isDefaultDecode", function () {
it("should be true if decode is not an array", function () {
expect(ColorSpace.isDefaultDecode("string", 0)).toBeTruthy();
});
it("should be true if length of decode array is not correct", function () {
expect(ColorSpace.isDefaultDecode([0], 1)).toBeTruthy();
expect(ColorSpace.isDefaultDecode([0, 1, 0], 1)).toBeTruthy();
});
it("should be true if decode map matches the default decode map", function () {
expect(ColorSpace.isDefaultDecode([], 0)).toBeTruthy();
expect(ColorSpace.isDefaultDecode([0, 0], 1)).toBeFalsy();
expect(ColorSpace.isDefaultDecode([0, 1], 1)).toBeTruthy();
expect(ColorSpace.isDefaultDecode([0, 1, 0, 1, 0, 1], 3)).toBeTruthy();
expect(ColorSpace.isDefaultDecode([0, 1, 0, 1, 1, 1], 3)).toBeFalsy();
expect(
ColorSpace.isDefaultDecode([0, 1, 0, 1, 0, 1, 0, 1], 4)
).toBeTruthy();
expect(
ColorSpace.isDefaultDecode([1, 0, 0, 1, 0, 1, 0, 1], 4)
).toBeFalsy();
});
});
describe("ColorSpace caching", function () {
let localColorSpaceCache = null;
beforeAll(function () {
localColorSpaceCache = new LocalColorSpaceCache();
});
afterAll(function () {
localColorSpaceCache = null;
});
it("caching by Name", function () {
const xref = new XRefMock();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace1 = ColorSpace.parse({
cs: Name.get("Pattern"),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache,
});
expect(colorSpace1.name).toEqual("Pattern");
const colorSpace2 = ColorSpace.parse({
cs: Name.get("Pattern"),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache,
});
expect(colorSpace2.name).toEqual("Pattern");
const colorSpaceNonCached = ColorSpace.parse({
cs: Name.get("Pattern"),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
expect(colorSpaceNonCached.name).toEqual("Pattern");
const colorSpaceOther = ColorSpace.parse({
cs: Name.get("RGB"),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache,
});
expect(colorSpaceOther.name).toEqual("DeviceRGB");
// These two must be *identical* if caching worked as intended.
expect(colorSpace1).toBe(colorSpace2);
expect(colorSpace1).not.toBe(colorSpaceNonCached);
expect(colorSpace1).not.toBe(colorSpaceOther);
});
it("caching by Ref", function () {
const paramsCalGray = new Dict();
paramsCalGray.set("WhitePoint", [1, 1, 1]);
paramsCalGray.set("BlackPoint", [0, 0, 0]);
paramsCalGray.set("Gamma", 2.0);
const paramsCalRGB = new Dict();
paramsCalRGB.set("WhitePoint", [1, 1, 1]);
paramsCalRGB.set("BlackPoint", [0, 0, 0]);
paramsCalRGB.set("Gamma", [1, 1, 1]);
paramsCalRGB.set("Matrix", [1, 0, 0, 0, 1, 0, 0, 0, 1]);
const xref = new XRefMock([
{
ref: Ref.get(50, 0),
data: [Name.get("CalGray"), paramsCalGray],
},
{
ref: Ref.get(100, 0),
data: [Name.get("CalRGB"), paramsCalRGB],
},
]);
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace1 = ColorSpace.parse({
cs: Ref.get(50, 0),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache,
});
expect(colorSpace1.name).toEqual("CalGray");
const colorSpace2 = ColorSpace.parse({
cs: Ref.get(50, 0),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache,
});
expect(colorSpace2.name).toEqual("CalGray");
const colorSpaceNonCached = ColorSpace.parse({
cs: Ref.get(50, 0),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
expect(colorSpaceNonCached.name).toEqual("CalGray");
const colorSpaceOther = ColorSpace.parse({
cs: Ref.get(100, 0),
xref,
resources: null,
pdfFunctionFactory,
localColorSpaceCache,
});
expect(colorSpaceOther.name).toEqual("CalRGB");
// These two must be *identical* if caching worked as intended.
expect(colorSpace1).toBe(colorSpace2);
expect(colorSpace1).not.toBe(colorSpaceNonCached);
expect(colorSpace1).not.toBe(colorSpaceOther);
});
});
describe("DeviceGrayCS", function () {
it("should handle the case when cs is a Name object", function () {
const cs = Name.get("DeviceGray");
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
const testSrc = new Uint8Array([27, 125, 250, 131]);
const testDest = new Uint8ClampedArray(4 * 4 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
27, 27, 27,
27, 27, 27,
125, 125, 125,
125, 125, 125,
27, 27, 27,
27, 27, 27,
125, 125, 125,
125, 125, 125,
250, 250, 250,
250, 250, 250,
131, 131, 131,
131, 131, 131,
250, 250, 250,
250, 250, 250,
131, 131, 131,
131, 131, 131
]);
colorSpace.fillRgb(testDest, 2, 2, 4, 4, 4, 8, testSrc, 0);
expect(colorSpace.getRgb(new Float32Array([0.1]), 0)).toEqual(
new Uint8ClampedArray([26, 26, 26])
);
expect(colorSpace.getOutputLength(2, 0)).toEqual(6);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(testDest).toEqual(expectedDest);
});
it("should handle the case when cs is an indirect object", function () {
const cs = Ref.get(10, 0);
const xref = new XRefMock([
{
ref: cs,
data: Name.get("DeviceGray"),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
const testSrc = new Uint8Array([27, 125, 250, 131]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
27, 27, 27,
27, 27, 27,
125, 125, 125,
27, 27, 27,
27, 27, 27,
125, 125, 125,
250, 250, 250,
250, 250, 250,
131, 131, 131
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(colorSpace.getRgb(new Float32Array([0.2]), 0)).toEqual(
new Uint8ClampedArray([51, 51, 51])
);
expect(colorSpace.getOutputLength(3, 1)).toEqual(12);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(testDest).toEqual(expectedDest);
});
});
describe("DeviceRgbCS", function () {
it("should handle the case when cs is a Name object", function () {
const cs = Name.get("DeviceRGB");
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
// prettier-ignore
const testSrc = new Uint8Array([
27, 125, 250,
131, 139, 140,
111, 25, 198,
21, 147, 255
]);
const testDest = new Uint8ClampedArray(4 * 4 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
27, 125, 250,
27, 125, 250,
131, 139, 140,
131, 139, 140,
27, 125, 250,
27, 125, 250,
131, 139, 140,
131, 139, 140,
111, 25, 198,
111, 25, 198,
21, 147, 255,
21, 147, 255,
111, 25, 198,
111, 25, 198,
21, 147, 255,
21, 147, 255
]);
colorSpace.fillRgb(testDest, 2, 2, 4, 4, 4, 8, testSrc, 0);
expect(colorSpace.getRgb(new Float32Array([0.1, 0.2, 0.3]), 0)).toEqual(
new Uint8ClampedArray([26, 51, 77])
);
expect(colorSpace.getOutputLength(4, 0)).toEqual(4);
expect(colorSpace.isPassthrough(8)).toBeTruthy();
expect(testDest).toEqual(expectedDest);
});
it("should handle the case when cs is an indirect object", function () {
const cs = Ref.get(10, 0);
const xref = new XRefMock([
{
ref: cs,
data: Name.get("DeviceRGB"),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
// prettier-ignore
const testSrc = new Uint8Array([
27, 125, 250,
131, 139, 140,
111, 25, 198,
21, 147, 255
]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
27, 125, 250,
27, 125, 250,
131, 139, 140,
27, 125, 250,
27, 125, 250,
131, 139, 140,
111, 25, 198,
111, 25, 198,
21, 147, 255
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(colorSpace.getRgb(new Float32Array([0.1, 0.2, 0.3]), 0)).toEqual(
new Uint8ClampedArray([26, 51, 77])
);
expect(colorSpace.getOutputLength(4, 1)).toEqual(5);
expect(colorSpace.isPassthrough(8)).toBeTruthy();
expect(testDest).toEqual(expectedDest);
});
});
describe("DeviceCmykCS", function () {
it("should handle the case when cs is a Name object", function () {
const cs = Name.get("DeviceCMYK");
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
// prettier-ignore
const testSrc = new Uint8Array([
27, 125, 250, 128,
131, 139, 140, 45,
111, 25, 198, 78,
21, 147, 255, 69
]);
const testDest = new Uint8ClampedArray(4 * 4 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
135, 81, 18,
135, 81, 18,
114, 102, 97,
114, 102, 97,
135, 81, 18,
135, 81, 18,
114, 102, 97,
114, 102, 97,
112, 144, 75,
112, 144, 75,
188, 98, 27,
188, 98, 27,
112, 144, 75,
112, 144, 75,
188, 98, 27,
188, 98, 27
]);
colorSpace.fillRgb(testDest, 2, 2, 4, 4, 4, 8, testSrc, 0);
expect(
colorSpace.getRgb(new Float32Array([0.1, 0.2, 0.3, 1]), 0)
).toEqual(new Uint8ClampedArray([32, 28, 21]));
expect(colorSpace.getOutputLength(4, 0)).toEqual(3);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(testDest).toEqual(expectedDest);
});
it("should handle the case when cs is an indirect object", function () {
const cs = Ref.get(10, 0);
const xref = new XRefMock([
{
ref: cs,
data: Name.get("DeviceCMYK"),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
// prettier-ignore
const testSrc = new Uint8Array([
27, 125, 250, 128,
131, 139, 140, 45,
111, 25, 198, 78,
21, 147, 255, 69
]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
135, 81, 18,
135, 81, 18,
114, 102, 97,
135, 81, 18,
135, 81, 18,
114, 102, 97,
112, 144, 75,
112, 144, 75,
188, 98, 27
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(
colorSpace.getRgb(new Float32Array([0.1, 0.2, 0.3, 1]), 0)
).toEqual(new Uint8ClampedArray([32, 28, 21]));
expect(colorSpace.getOutputLength(4, 1)).toEqual(4);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(testDest).toEqual(expectedDest);
});
});
describe("CalGrayCS", function () {
it("should handle the case when cs is an array", function () {
const params = new Dict();
params.set("WhitePoint", [1, 1, 1]);
params.set("BlackPoint", [0, 0, 0]);
params.set("Gamma", 2.0);
const cs = [Name.get("CalGray"), params];
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
const testSrc = new Uint8Array([27, 125, 250, 131]);
const testDest = new Uint8ClampedArray(4 * 4 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
25, 25, 25,
25, 25, 25,
143, 143, 143,
143, 143, 143,
25, 25, 25,
25, 25, 25,
143, 143, 143,
143, 143, 143,
251, 251, 251,
251, 251, 251,
149, 149, 149,
149, 149, 149,
251, 251, 251,
251, 251, 251,
149, 149, 149,
149, 149, 149
]);
colorSpace.fillRgb(testDest, 2, 2, 4, 4, 4, 8, testSrc, 0);
expect(colorSpace.getRgb(new Float32Array([1.0]), 0)).toEqual(
new Uint8ClampedArray([255, 255, 255])
);
expect(colorSpace.getOutputLength(4, 0)).toEqual(12);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(testDest).toEqual(expectedDest);
});
});
describe("CalRGBCS", function () {
it("should handle the case when cs is an array", function () {
const params = new Dict();
params.set("WhitePoint", [1, 1, 1]);
params.set("BlackPoint", [0, 0, 0]);
params.set("Gamma", [1, 1, 1]);
params.set("Matrix", [1, 0, 0, 0, 1, 0, 0, 0, 1]);
const cs = [Name.get("CalRGB"), params];
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
// prettier-ignore
const testSrc = new Uint8Array([
27, 125, 250,
131, 139, 140,
111, 25, 198,
21, 147, 255
]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
0, 238, 255,
0, 238, 255,
185, 196, 195,
0, 238, 255,
0, 238, 255,
185, 196, 195,
235, 0, 243,
235, 0, 243,
0, 255, 255
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(colorSpace.getRgb(new Float32Array([0.1, 0.2, 0.3]), 0)).toEqual(
new Uint8ClampedArray([0, 147, 151])
);
expect(colorSpace.getOutputLength(4, 0)).toEqual(4);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(testDest).toEqual(expectedDest);
});
});
describe("LabCS", function () {
it("should handle the case when cs is an array", function () {
const params = new Dict();
params.set("WhitePoint", [1, 1, 1]);
params.set("BlackPoint", [0, 0, 0]);
params.set("Range", [-100, 100, -100, 100]);
const cs = [Name.get("Lab"), params];
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
// prettier-ignore
const testSrc = new Uint8Array([
27, 25, 50,
31, 19, 40,
11, 25, 98,
21, 47, 55
]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
0, 49, 101,
0, 49, 101,
0, 53, 117,
0, 49, 101,
0, 49, 101,
0, 53, 117,
0, 41, 40,
0, 41, 40,
0, 43, 90
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(colorSpace.getRgb([55, 25, 35], 0)).toEqual(
new Uint8ClampedArray([188, 100, 61])
);
expect(colorSpace.getOutputLength(4, 0)).toEqual(4);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(colorSpace.isDefaultDecode([0, 1])).toBeTruthy();
expect(testDest).toEqual(expectedDest);
});
});
describe("IndexedCS", function () {
it("should handle the case when cs is an array", function () {
// prettier-ignore
const lookup = new Stream(
new Uint8Array([
23, 155, 35,
147, 69, 93,
255, 109, 70
])
);
const cs = [Name.get("Indexed"), Name.get("DeviceRGB"), 2, lookup];
const xref = new XRefMock([
{
ref: Ref.get(10, 0),
data: new Dict(),
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
const testSrc = new Uint8Array([2, 2, 0, 1]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
255, 109, 70,
255, 109, 70,
255, 109, 70,
255, 109, 70,
255, 109, 70,
255, 109, 70,
23, 155, 35,
23, 155, 35,
147, 69, 93,
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(colorSpace.getRgb([2], 0)).toEqual(
new Uint8ClampedArray([255, 109, 70])
);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(colorSpace.isDefaultDecode([0, 1], 1)).toBeTruthy();
expect(testDest).toEqual(expectedDest);
});
});
describe("AlternateCS", function () {
it("should handle the case when cs is an array", function () {
const fnDict = new Dict();
fnDict.set("FunctionType", 4);
fnDict.set("Domain", [0.0, 1.0]);
fnDict.set("Range", [0.0, 1.0, 0.0, 1.0, 0.0, 1.0, 0.0, 1.0]);
fnDict.set("Length", 58);
let fn = new StringStream(
"{ dup 0.84 mul " +
"exch 0.00 exch " +
"dup 0.44 mul " +
"exch 0.21 mul }"
);
fn = new Stream(fn.bytes, 0, 58, fnDict);
const fnRef = Ref.get(10, 0);
const cs = [
Name.get("Separation"),
Name.get("LogoGreen"),
Name.get("DeviceCMYK"),
fnRef,
];
const xref = new XRefMock([
{
ref: fnRef,
data: fn,
},
]);
const resources = new Dict();
const pdfFunctionFactory = new PDFFunctionFactory({
xref,
});
const colorSpace = ColorSpace.parse({
cs,
xref,
resources,
pdfFunctionFactory,
localColorSpaceCache: new LocalColorSpaceCache(),
});
const testSrc = new Uint8Array([27, 25, 50, 31]);
const testDest = new Uint8ClampedArray(3 * 3 * 3);
// prettier-ignore
const expectedDest = new Uint8ClampedArray([
226, 242, 241,
226, 242, 241,
229, 244, 242,
226, 242, 241,
226, 242, 241,
229, 244, 242,
203, 232, 229,
203, 232, 229,
222, 241, 238
]);
colorSpace.fillRgb(testDest, 2, 2, 3, 3, 3, 8, testSrc, 0);
expect(colorSpace.getRgb([0.1], 0)).toEqual(
new Uint8ClampedArray([228, 243, 242])
);
expect(colorSpace.isPassthrough(8)).toBeFalsy();
expect(colorSpace.isDefaultDecode([0, 1])).toBeTruthy();
expect(testDest).toEqual(expectedDest);
});
});
});