549c899195
TBR=reed@google.com GOLD_TRYBOT_URL= https://gold.skia.org/search2?unt=true&query=source_type%3Dgm&master=false&issue=1842243002 Review URL: https://codereview.chromium.org/1842243002
630 lines
23 KiB
C++
630 lines
23 KiB
C++
/*
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* Copyright 2013 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "SkAnnotationKeys.h"
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#include "Resources.h"
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#include "SkCanvas.h"
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#include "SkFixed.h"
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#include "SkFontDescriptor.h"
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#include "SkImage.h"
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#include "SkImageSource.h"
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#include "SkMallocPixelRef.h"
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#include "SkOSFile.h"
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#include "SkPictureRecorder.h"
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#include "SkTableColorFilter.h"
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#include "SkTemplates.h"
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#include "SkTypeface.h"
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#include "SkWriteBuffer.h"
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#include "SkValidatingReadBuffer.h"
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#include "SkXfermodeImageFilter.h"
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#include "Test.h"
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static const uint32_t kArraySize = 64;
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static const int kBitmapSize = 256;
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template<typename T>
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static void TestAlignment(T* testObj, skiatest::Reporter* reporter) {
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// Test memory read/write functions directly
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unsigned char dataWritten[1024];
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size_t bytesWrittenToMemory = testObj->writeToMemory(dataWritten);
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REPORTER_ASSERT(reporter, SkAlign4(bytesWrittenToMemory) == bytesWrittenToMemory);
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size_t bytesReadFromMemory = testObj->readFromMemory(dataWritten, bytesWrittenToMemory);
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REPORTER_ASSERT(reporter, SkAlign4(bytesReadFromMemory) == bytesReadFromMemory);
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}
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template<typename T> struct SerializationUtils {
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// Generic case for flattenables
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static void Write(SkWriteBuffer& writer, const T* flattenable) {
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writer.writeFlattenable(flattenable);
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}
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static void Read(SkValidatingReadBuffer& reader, T** flattenable) {
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*flattenable = (T*)reader.readFlattenable(T::GetFlattenableType());
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}
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};
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template<> struct SerializationUtils<SkMatrix> {
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static void Write(SkWriteBuffer& writer, const SkMatrix* matrix) {
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writer.writeMatrix(*matrix);
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}
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static void Read(SkValidatingReadBuffer& reader, SkMatrix* matrix) {
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reader.readMatrix(matrix);
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}
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};
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template<> struct SerializationUtils<SkPath> {
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static void Write(SkWriteBuffer& writer, const SkPath* path) {
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writer.writePath(*path);
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}
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static void Read(SkValidatingReadBuffer& reader, SkPath* path) {
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reader.readPath(path);
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}
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};
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template<> struct SerializationUtils<SkRegion> {
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static void Write(SkWriteBuffer& writer, const SkRegion* region) {
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writer.writeRegion(*region);
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}
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static void Read(SkValidatingReadBuffer& reader, SkRegion* region) {
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reader.readRegion(region);
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}
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};
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template<> struct SerializationUtils<SkString> {
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static void Write(SkWriteBuffer& writer, const SkString* string) {
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writer.writeString(string->c_str());
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}
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static void Read(SkValidatingReadBuffer& reader, SkString* string) {
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reader.readString(string);
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}
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};
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template<> struct SerializationUtils<unsigned char> {
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static void Write(SkWriteBuffer& writer, unsigned char* data, uint32_t arraySize) {
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writer.writeByteArray(data, arraySize);
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}
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static bool Read(SkValidatingReadBuffer& reader, unsigned char* data, uint32_t arraySize) {
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return reader.readByteArray(data, arraySize);
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}
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};
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template<> struct SerializationUtils<SkColor> {
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static void Write(SkWriteBuffer& writer, SkColor* data, uint32_t arraySize) {
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writer.writeColorArray(data, arraySize);
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}
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static bool Read(SkValidatingReadBuffer& reader, SkColor* data, uint32_t arraySize) {
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return reader.readColorArray(data, arraySize);
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}
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};
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template<> struct SerializationUtils<int32_t> {
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static void Write(SkWriteBuffer& writer, int32_t* data, uint32_t arraySize) {
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writer.writeIntArray(data, arraySize);
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}
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static bool Read(SkValidatingReadBuffer& reader, int32_t* data, uint32_t arraySize) {
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return reader.readIntArray(data, arraySize);
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}
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};
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template<> struct SerializationUtils<SkPoint> {
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static void Write(SkWriteBuffer& writer, SkPoint* data, uint32_t arraySize) {
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writer.writePointArray(data, arraySize);
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}
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static bool Read(SkValidatingReadBuffer& reader, SkPoint* data, uint32_t arraySize) {
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return reader.readPointArray(data, arraySize);
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}
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};
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template<> struct SerializationUtils<SkScalar> {
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static void Write(SkWriteBuffer& writer, SkScalar* data, uint32_t arraySize) {
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writer.writeScalarArray(data, arraySize);
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}
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static bool Read(SkValidatingReadBuffer& reader, SkScalar* data, uint32_t arraySize) {
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return reader.readScalarArray(data, arraySize);
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}
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};
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template<typename T, bool testInvalid> struct SerializationTestUtils {
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static void InvalidateData(unsigned char* data) {}
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};
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template<> struct SerializationTestUtils<SkString, true> {
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static void InvalidateData(unsigned char* data) {
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data[3] |= 0x80; // Reverse sign of 1st integer
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}
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};
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template<typename T, bool testInvalid>
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static void TestObjectSerializationNoAlign(T* testObj, skiatest::Reporter* reporter) {
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SkWriteBuffer writer(SkWriteBuffer::kValidation_Flag);
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SerializationUtils<T>::Write(writer, testObj);
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size_t bytesWritten = writer.bytesWritten();
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REPORTER_ASSERT(reporter, SkAlign4(bytesWritten) == bytesWritten);
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unsigned char dataWritten[1024];
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writer.writeToMemory(dataWritten);
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SerializationTestUtils<T, testInvalid>::InvalidateData(dataWritten);
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// Make sure this fails when it should (test with smaller size, but still multiple of 4)
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SkValidatingReadBuffer buffer(dataWritten, bytesWritten - 4);
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T obj;
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SerializationUtils<T>::Read(buffer, &obj);
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REPORTER_ASSERT(reporter, !buffer.isValid());
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// Make sure this succeeds when it should
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SkValidatingReadBuffer buffer2(dataWritten, bytesWritten);
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const unsigned char* peekBefore = static_cast<const unsigned char*>(buffer2.skip(0));
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T obj2;
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SerializationUtils<T>::Read(buffer2, &obj2);
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const unsigned char* peekAfter = static_cast<const unsigned char*>(buffer2.skip(0));
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// This should have succeeded, since there are enough bytes to read this
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REPORTER_ASSERT(reporter, buffer2.isValid() == !testInvalid);
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// Note: This following test should always succeed, regardless of whether the buffer is valid,
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// since if it is invalid, it will simply skip to the end, as if it had read the whole buffer.
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REPORTER_ASSERT(reporter, static_cast<size_t>(peekAfter - peekBefore) == bytesWritten);
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}
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template<typename T>
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static void TestObjectSerialization(T* testObj, skiatest::Reporter* reporter) {
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TestObjectSerializationNoAlign<T, false>(testObj, reporter);
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TestAlignment(testObj, reporter);
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}
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template<typename T>
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static T* TestFlattenableSerialization(T* testObj, bool shouldSucceed,
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skiatest::Reporter* reporter) {
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SkWriteBuffer writer(SkWriteBuffer::kValidation_Flag);
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SerializationUtils<T>::Write(writer, testObj);
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size_t bytesWritten = writer.bytesWritten();
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REPORTER_ASSERT(reporter, SkAlign4(bytesWritten) == bytesWritten);
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unsigned char dataWritten[4096];
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SkASSERT(bytesWritten <= sizeof(dataWritten));
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writer.writeToMemory(dataWritten);
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// Make sure this fails when it should (test with smaller size, but still multiple of 4)
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SkValidatingReadBuffer buffer(dataWritten, bytesWritten - 4);
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T* obj = nullptr;
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SerializationUtils<T>::Read(buffer, &obj);
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REPORTER_ASSERT(reporter, !buffer.isValid());
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REPORTER_ASSERT(reporter, nullptr == obj);
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// Make sure this succeeds when it should
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SkValidatingReadBuffer buffer2(dataWritten, bytesWritten);
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const unsigned char* peekBefore = static_cast<const unsigned char*>(buffer2.skip(0));
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T* obj2 = nullptr;
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SerializationUtils<T>::Read(buffer2, &obj2);
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const unsigned char* peekAfter = static_cast<const unsigned char*>(buffer2.skip(0));
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if (shouldSucceed) {
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// This should have succeeded, since there are enough bytes to read this
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REPORTER_ASSERT(reporter, buffer2.isValid());
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REPORTER_ASSERT(reporter, static_cast<size_t>(peekAfter - peekBefore) == bytesWritten);
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REPORTER_ASSERT(reporter, obj2);
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} else {
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// If the deserialization was supposed to fail, make sure it did
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REPORTER_ASSERT(reporter, !buffer.isValid());
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REPORTER_ASSERT(reporter, nullptr == obj2);
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}
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return obj2; // Return object to perform further validity tests on it
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}
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template<typename T>
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static void TestArraySerialization(T* data, skiatest::Reporter* reporter) {
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SkWriteBuffer writer(SkWriteBuffer::kValidation_Flag);
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SerializationUtils<T>::Write(writer, data, kArraySize);
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size_t bytesWritten = writer.bytesWritten();
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// This should write the length (in 4 bytes) and the array
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REPORTER_ASSERT(reporter, (4 + kArraySize * sizeof(T)) == bytesWritten);
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unsigned char dataWritten[1024];
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writer.writeToMemory(dataWritten);
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// Make sure this fails when it should
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SkValidatingReadBuffer buffer(dataWritten, bytesWritten);
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T dataRead[kArraySize];
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bool success = SerializationUtils<T>::Read(buffer, dataRead, kArraySize / 2);
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// This should have failed, since the provided size was too small
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REPORTER_ASSERT(reporter, !success);
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// Make sure this succeeds when it should
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SkValidatingReadBuffer buffer2(dataWritten, bytesWritten);
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success = SerializationUtils<T>::Read(buffer2, dataRead, kArraySize);
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// This should have succeeded, since there are enough bytes to read this
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REPORTER_ASSERT(reporter, success);
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}
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static void TestBitmapSerialization(const SkBitmap& validBitmap,
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const SkBitmap& invalidBitmap,
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bool shouldSucceed,
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skiatest::Reporter* reporter) {
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sk_sp<SkImage> validImage(SkImage::MakeFromBitmap(validBitmap));
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sk_sp<SkImageFilter> validBitmapSource(SkImageSource::Make(std::move(validImage)));
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sk_sp<SkImage> invalidImage(SkImage::MakeFromBitmap(invalidBitmap));
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sk_sp<SkImageFilter> invalidBitmapSource(SkImageSource::Make(std::move(invalidImage)));
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sk_sp<SkImageFilter> xfermodeImageFilter(
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SkXfermodeImageFilter::Make(SkXfermode::Make(SkXfermode::kSrcOver_Mode),
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invalidBitmapSource.get(), validBitmapSource.get(), nullptr));
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SkAutoTUnref<SkImageFilter> deserializedFilter(
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TestFlattenableSerialization<SkImageFilter>(
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xfermodeImageFilter.get(), shouldSucceed, reporter));
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// Try to render a small bitmap using the invalid deserialized filter
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// to make sure we don't crash while trying to render it
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if (shouldSucceed) {
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SkBitmap bitmap;
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bitmap.allocN32Pixels(24, 24);
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SkCanvas canvas(bitmap);
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canvas.clear(0x00000000);
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SkPaint paint;
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paint.setImageFilter(deserializedFilter);
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canvas.clipRect(SkRect::MakeXYWH(0, 0, SkIntToScalar(24), SkIntToScalar(24)));
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canvas.drawBitmap(bitmap, 0, 0, &paint);
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}
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}
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static void TestXfermodeSerialization(skiatest::Reporter* reporter) {
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for (size_t i = 0; i <= SkXfermode::kLastMode; ++i) {
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if (i == SkXfermode::kSrcOver_Mode) {
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// skip SrcOver, as it is allowed to return nullptr from Create()
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continue;
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}
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auto mode(SkXfermode::Make(static_cast<SkXfermode::Mode>(i)));
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REPORTER_ASSERT(reporter, mode);
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SkAutoTUnref<SkXfermode> copy(
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TestFlattenableSerialization<SkXfermode>(mode.get(), true, reporter));
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}
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}
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static void TestColorFilterSerialization(skiatest::Reporter* reporter) {
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uint8_t table[256];
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for (int i = 0; i < 256; ++i) {
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table[i] = (i * 41) % 256;
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}
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auto colorFilter(SkTableColorFilter::Make(table));
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SkAutoTUnref<SkColorFilter> copy(
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TestFlattenableSerialization<SkColorFilter>(colorFilter.get(), true, reporter));
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}
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static SkBitmap draw_picture(SkPicture& picture) {
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SkBitmap bitmap;
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bitmap.allocN32Pixels(SkScalarCeilToInt(picture.cullRect().width()),
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SkScalarCeilToInt(picture.cullRect().height()));
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SkCanvas canvas(bitmap);
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picture.playback(&canvas);
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return bitmap;
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}
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static void compare_bitmaps(skiatest::Reporter* reporter,
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const SkBitmap& b1, const SkBitmap& b2) {
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REPORTER_ASSERT(reporter, b1.width() == b2.width());
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REPORTER_ASSERT(reporter, b1.height() == b2.height());
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SkAutoLockPixels autoLockPixels1(b1);
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SkAutoLockPixels autoLockPixels2(b2);
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if ((b1.width() != b2.width()) ||
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(b1.height() != b2.height())) {
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return;
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}
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int pixelErrors = 0;
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for (int y = 0; y < b2.height(); ++y) {
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for (int x = 0; x < b2.width(); ++x) {
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if (b1.getColor(x, y) != b2.getColor(x, y))
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++pixelErrors;
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}
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}
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REPORTER_ASSERT(reporter, 0 == pixelErrors);
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}
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static void serialize_and_compare_typeface(SkTypeface* typeface, const char* text,
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skiatest::Reporter* reporter)
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{
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// Create a paint with the typeface.
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SkPaint paint;
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paint.setColor(SK_ColorGRAY);
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paint.setTextSize(SkIntToScalar(30));
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paint.setTypeface(typeface);
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// Paint some text.
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SkPictureRecorder recorder;
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SkIRect canvasRect = SkIRect::MakeWH(kBitmapSize, kBitmapSize);
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SkCanvas* canvas = recorder.beginRecording(SkIntToScalar(canvasRect.width()),
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SkIntToScalar(canvasRect.height()),
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nullptr, 0);
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canvas->drawColor(SK_ColorWHITE);
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canvas->drawText(text, 2, 24, 32, paint);
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sk_sp<SkPicture> picture(recorder.finishRecordingAsPicture());
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// Serlialize picture and create its clone from stream.
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SkDynamicMemoryWStream stream;
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picture->serialize(&stream);
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SkAutoTDelete<SkStream> inputStream(stream.detachAsStream());
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sk_sp<SkPicture> loadedPicture(SkPicture::MakeFromStream(inputStream.get()));
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// Draw both original and clone picture and compare bitmaps -- they should be identical.
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SkBitmap origBitmap = draw_picture(*picture);
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SkBitmap destBitmap = draw_picture(*loadedPicture);
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compare_bitmaps(reporter, origBitmap, destBitmap);
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}
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static void TestPictureTypefaceSerialization(skiatest::Reporter* reporter) {
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{
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// Load typeface from file to test CreateFromFile with index.
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SkString filename = GetResourcePath("/fonts/test.ttc");
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SkAutoTUnref<SkTypeface> typeface(SkTypeface::CreateFromFile(filename.c_str(), 1));
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if (!typeface) {
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INFOF(reporter, "Could not run fontstream test because test.ttc not found.");
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} else {
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serialize_and_compare_typeface(typeface, "A!", reporter);
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}
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}
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{
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// Load typeface as stream to create with axis settings.
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SkAutoTDelete<SkStreamAsset> distortable(GetResourceAsStream("/fonts/Distortable.ttf"));
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if (!distortable) {
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INFOF(reporter, "Could not run fontstream test because Distortable.ttf not found.");
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} else {
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SkFixed axis = SK_FixedSqrt2;
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SkAutoTUnref<SkTypeface> typeface(SkTypeface::CreateFromFontData(
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new SkFontData(distortable.release(), 0, &axis, 1)));
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if (!typeface) {
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INFOF(reporter, "Could not run fontstream test because Distortable.ttf not created.");
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} else {
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serialize_and_compare_typeface(typeface, "abc", reporter);
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}
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}
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}
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}
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static void setup_bitmap_for_canvas(SkBitmap* bitmap) {
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bitmap->allocN32Pixels(kBitmapSize, kBitmapSize);
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}
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static void make_checkerboard_bitmap(SkBitmap& bitmap) {
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setup_bitmap_for_canvas(&bitmap);
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SkCanvas canvas(bitmap);
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canvas.clear(0x00000000);
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SkPaint darkPaint;
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darkPaint.setColor(0xFF804020);
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SkPaint lightPaint;
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lightPaint.setColor(0xFF244484);
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const int i = kBitmapSize / 8;
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const SkScalar f = SkIntToScalar(i);
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for (int y = 0; y < kBitmapSize; y += i) {
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for (int x = 0; x < kBitmapSize; x += i) {
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canvas.save();
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canvas.translate(SkIntToScalar(x), SkIntToScalar(y));
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canvas.drawRect(SkRect::MakeXYWH(0, 0, f, f), darkPaint);
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canvas.drawRect(SkRect::MakeXYWH(f, 0, f, f), lightPaint);
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canvas.drawRect(SkRect::MakeXYWH(0, f, f, f), lightPaint);
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canvas.drawRect(SkRect::MakeXYWH(f, f, f, f), darkPaint);
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canvas.restore();
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}
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}
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}
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static void draw_something(SkCanvas* canvas) {
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SkPaint paint;
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SkBitmap bitmap;
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make_checkerboard_bitmap(bitmap);
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canvas->save();
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canvas->scale(0.5f, 0.5f);
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canvas->drawBitmap(bitmap, 0, 0, nullptr);
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canvas->restore();
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paint.setAntiAlias(true);
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paint.setColor(SK_ColorRED);
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canvas->drawCircle(SkIntToScalar(kBitmapSize/2), SkIntToScalar(kBitmapSize/2), SkIntToScalar(kBitmapSize/3), paint);
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paint.setColor(SK_ColorBLACK);
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paint.setTextSize(SkIntToScalar(kBitmapSize/3));
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canvas->drawText("Picture", 7, SkIntToScalar(kBitmapSize/2), SkIntToScalar(kBitmapSize/4), paint);
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}
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DEF_TEST(Serialization, reporter) {
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// Test matrix serialization
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{
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SkMatrix matrix = SkMatrix::I();
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TestObjectSerialization(&matrix, reporter);
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}
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// Test path serialization
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{
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SkPath path;
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TestObjectSerialization(&path, reporter);
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}
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// Test region serialization
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{
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SkRegion region;
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TestObjectSerialization(®ion, reporter);
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}
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// Test xfermode serialization
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{
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TestXfermodeSerialization(reporter);
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}
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// Test color filter serialization
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{
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TestColorFilterSerialization(reporter);
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}
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// Test string serialization
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{
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SkString string("string");
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TestObjectSerializationNoAlign<SkString, false>(&string, reporter);
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TestObjectSerializationNoAlign<SkString, true>(&string, reporter);
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|
}
|
|
|
|
// Test rrect serialization
|
|
{
|
|
// SkRRect does not initialize anything.
|
|
// An uninitialized SkRRect can be serialized,
|
|
// but will branch on uninitialized data when deserialized.
|
|
SkRRect rrect;
|
|
SkRect rect = SkRect::MakeXYWH(1, 2, 20, 30);
|
|
SkVector corners[4] = { {1, 2}, {2, 3}, {3,4}, {4,5} };
|
|
rrect.setRectRadii(rect, corners);
|
|
TestAlignment(&rrect, reporter);
|
|
}
|
|
|
|
// Test readByteArray
|
|
{
|
|
unsigned char data[kArraySize] = { 1, 2, 3 };
|
|
TestArraySerialization(data, reporter);
|
|
}
|
|
|
|
// Test readColorArray
|
|
{
|
|
SkColor data[kArraySize] = { SK_ColorBLACK, SK_ColorWHITE, SK_ColorRED };
|
|
TestArraySerialization(data, reporter);
|
|
}
|
|
|
|
// Test readIntArray
|
|
{
|
|
int32_t data[kArraySize] = { 1, 2, 4, 8 };
|
|
TestArraySerialization(data, reporter);
|
|
}
|
|
|
|
// Test readPointArray
|
|
{
|
|
SkPoint data[kArraySize] = { {6, 7}, {42, 128} };
|
|
TestArraySerialization(data, reporter);
|
|
}
|
|
|
|
// Test readScalarArray
|
|
{
|
|
SkScalar data[kArraySize] = { SK_Scalar1, SK_ScalarHalf, SK_ScalarMax };
|
|
TestArraySerialization(data, reporter);
|
|
}
|
|
|
|
// Test invalid deserializations
|
|
{
|
|
SkImageInfo info = SkImageInfo::MakeN32Premul(kBitmapSize, kBitmapSize);
|
|
|
|
SkBitmap validBitmap;
|
|
validBitmap.setInfo(info);
|
|
|
|
// Create a bitmap with a really large height
|
|
SkBitmap invalidBitmap;
|
|
invalidBitmap.setInfo(info.makeWH(info.width(), 1000000000));
|
|
|
|
// The deserialization should succeed, and the rendering shouldn't crash,
|
|
// even when the device fails to initialize, due to its size
|
|
TestBitmapSerialization(validBitmap, invalidBitmap, true, reporter);
|
|
}
|
|
|
|
// Test simple SkPicture serialization
|
|
{
|
|
SkPictureRecorder recorder;
|
|
draw_something(recorder.beginRecording(SkIntToScalar(kBitmapSize),
|
|
SkIntToScalar(kBitmapSize),
|
|
nullptr, 0));
|
|
sk_sp<SkPicture> pict(recorder.finishRecordingAsPicture());
|
|
|
|
// Serialize picture
|
|
SkWriteBuffer writer(SkWriteBuffer::kValidation_Flag);
|
|
pict->flatten(writer);
|
|
size_t size = writer.bytesWritten();
|
|
SkAutoTMalloc<unsigned char> data(size);
|
|
writer.writeToMemory(static_cast<void*>(data.get()));
|
|
|
|
// Deserialize picture
|
|
SkValidatingReadBuffer reader(static_cast<void*>(data.get()), size);
|
|
sk_sp<SkPicture> readPict(SkPicture::MakeFromBuffer(reader));
|
|
REPORTER_ASSERT(reporter, readPict.get());
|
|
}
|
|
|
|
TestPictureTypefaceSerialization(reporter);
|
|
}
|
|
|
|
///////////////////////////////////////////////////////////////////////////////////////////////////
|
|
#include "SkAnnotation.h"
|
|
|
|
static sk_sp<SkPicture> copy_picture_via_serialization(SkPicture* src) {
|
|
SkDynamicMemoryWStream wstream;
|
|
src->serialize(&wstream);
|
|
SkAutoTDelete<SkStreamAsset> rstream(wstream.detachAsStream());
|
|
return SkPicture::MakeFromStream(rstream);
|
|
}
|
|
|
|
struct AnnotationRec {
|
|
const SkRect fRect;
|
|
const char* fKey;
|
|
SkData* fValue;
|
|
};
|
|
|
|
class TestAnnotationCanvas : public SkCanvas {
|
|
skiatest::Reporter* fReporter;
|
|
const AnnotationRec* fRec;
|
|
int fCount;
|
|
int fCurrIndex;
|
|
|
|
public:
|
|
TestAnnotationCanvas(skiatest::Reporter* reporter, const AnnotationRec rec[], int count)
|
|
: SkCanvas(100, 100)
|
|
, fReporter(reporter)
|
|
, fRec(rec)
|
|
, fCount(count)
|
|
, fCurrIndex(0)
|
|
{}
|
|
|
|
~TestAnnotationCanvas() {
|
|
REPORTER_ASSERT(fReporter, fCount == fCurrIndex);
|
|
}
|
|
|
|
protected:
|
|
void onDrawAnnotation(const SkRect& rect, const char key[], SkData* value) {
|
|
REPORTER_ASSERT(fReporter, fCurrIndex < fCount);
|
|
REPORTER_ASSERT(fReporter, rect == fRec[fCurrIndex].fRect);
|
|
REPORTER_ASSERT(fReporter, !strcmp(key, fRec[fCurrIndex].fKey));
|
|
REPORTER_ASSERT(fReporter, value->equals(fRec[fCurrIndex].fValue));
|
|
fCurrIndex += 1;
|
|
}
|
|
};
|
|
|
|
/*
|
|
* Test the 3 annotation types by recording them into a picture, serializing, and then playing
|
|
* them back into another canvas.
|
|
*/
|
|
DEF_TEST(Annotations, reporter) {
|
|
SkPictureRecorder recorder;
|
|
SkCanvas* recordingCanvas = recorder.beginRecording(SkRect::MakeWH(100, 100));
|
|
|
|
const char* str0 = "rect-with-url";
|
|
const SkRect r0 = SkRect::MakeWH(10, 10);
|
|
SkAutoTUnref<SkData> d0(SkData::NewWithCString(str0));
|
|
SkAnnotateRectWithURL(recordingCanvas, r0, d0);
|
|
|
|
const char* str1 = "named-destination";
|
|
const SkRect r1 = SkRect::MakeXYWH(5, 5, 0, 0); // collapsed to a point
|
|
SkAutoTUnref<SkData> d1(SkData::NewWithCString(str1));
|
|
SkAnnotateNamedDestination(recordingCanvas, {r1.x(), r1.y()}, d1);
|
|
|
|
const char* str2 = "link-to-destination";
|
|
const SkRect r2 = SkRect::MakeXYWH(20, 20, 5, 6);
|
|
SkAutoTUnref<SkData> d2(SkData::NewWithCString(str2));
|
|
SkAnnotateLinkToDestination(recordingCanvas, r2, d2);
|
|
|
|
const AnnotationRec recs[] = {
|
|
{ r0, SkAnnotationKeys::URL_Key(), d0 },
|
|
{ r1, SkAnnotationKeys::Define_Named_Dest_Key(), d1 },
|
|
{ r2, SkAnnotationKeys::Link_Named_Dest_Key(), d2 },
|
|
};
|
|
|
|
sk_sp<SkPicture> pict0(recorder.finishRecordingAsPicture());
|
|
sk_sp<SkPicture> pict1(copy_picture_via_serialization(pict0.get()));
|
|
|
|
TestAnnotationCanvas canvas(reporter, recs, SK_ARRAY_COUNT(recs));
|
|
canvas.drawPicture(pict1);
|
|
}
|