/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkData.h" #include "SkMatrix.h" #include "SkToFromValue.h" #include "Test.h" static const SkValue::Type example_type = SkValue::Type(SkValue::kMaxPublicObject + 1); enum { kExampleS32, kExampleF32, kExampleU32, kExampleObject, kExampleBytes, kExampleF32s, kExampleU32s, kExampleU16s, kExampleArray }; static const uint16_t aU16[] = { 1, 2, 3, 4 }; static const uint32_t aU32[] = { 5, 6, 7, 8 }; static const float aF32[] = { 9.0f, 9.125f, 9.25f }; static const char hello[] = "HELLO"; static SkValue make_example(skiatest::Reporter* r, int level = 4) { auto value = SkValue::Object(example_type); value.set(kExampleU32, SkValue::FromU32(1000)); value.set(kExampleS32, SkValue::FromS32(-123)); value.set(kExampleF32, SkValue::FromF32(0.5f)); value.set(kExampleU32, SkValue::FromU32(1234)); if (level > 0) { value.set(kExampleObject, make_example(r, 0)); value.set(kExampleObject, make_example(r, level - 1)); // replace } SkAutoTUnref data(SkData::NewWithCString(hello)); value.set(kExampleBytes, SkValue::FromBytes(data)); SkAutoTUnref dataU16(SkData::NewWithCopy(aU16, sizeof(aU16))); SkAutoTUnref dataU32(SkData::NewWithCopy(aU32, sizeof(aU32))); SkAutoTUnref dataF32(SkData::NewWithCopy(aF32, sizeof(aF32))); value.set(kExampleU16s, SkValue::FromU16s(dataU16)); value.set(kExampleU32s, SkValue::FromU32s(dataU32)); value.set(kExampleF32s, SkValue::FromF32s(dataF32)); auto varray = SkValue::ValueArray(); varray.append(SkValue::FromU32(99)); varray.append(SkValue::FromS32(-99)); value.set(kExampleArray, std::move(varray)); return value; } DEF_TEST(Value, r) { SkValue val = make_example(r); REPORTER_ASSERT(r, example_type == val.type()); SkValue valCopy = val; REPORTER_ASSERT(r, example_type == valCopy.type()); valCopy.set(4321, SkValue()); auto fn = [&](SkValue::Key k, const SkValue& v){ int count; switch (k) { case kExampleS32: REPORTER_ASSERT(r, -123 == v.s32()); break; case kExampleF32: REPORTER_ASSERT(r, 0.5f == v.f32()); break; case kExampleU32: REPORTER_ASSERT(r, 1234 == v.u32()); break; case kExampleObject: REPORTER_ASSERT(r, example_type == v.type()); break; case kExampleBytes: REPORTER_ASSERT(r, v.type() == SkValue::Bytes && v.bytes() && v.bytes()->size() == sizeof(hello)); break; case kExampleF32s: REPORTER_ASSERT(r, v.type() == SkValue::F32s && v.bytes() && v.bytes()->size() == sizeof(aF32) && v.f32s(&count) && count == SK_ARRAY_COUNT(aF32)); break; case kExampleU32s: REPORTER_ASSERT(r, v.type() == SkValue::U32s && v.bytes() && v.bytes()->size() == sizeof(aU32) && v.u32s(&count) && count == SK_ARRAY_COUNT(aU32)); break; case kExampleU16s: REPORTER_ASSERT(r, v.type() == SkValue::U16s && v.bytes() && v.bytes()->size() == sizeof(aU16) && v.u16s(&count) && count == SK_ARRAY_COUNT(aU16)); break; case kExampleArray: REPORTER_ASSERT(r, v.type() == SkValue::Array && v.length() == 2); break; default: ERRORF(r, "unexpected key"); } }; val.foreach(fn); } DEF_TEST(Value_Matrix, r) { auto m = SkMatrix::MakeTrans(900.0f, 1000.0f); auto val = SkToValue(m); SkMatrix dst; REPORTER_ASSERT(r, SkFromValue(val, &dst)); REPORTER_ASSERT(r, dst == m); }