image/test/gtest/TestDownscalingFilter.cpp
author Seth Fowler <mark.seth.fowler@gmail.com>
Thu, 18 Aug 2016 12:43:16 -0700
changeset 351451 e7caba6197ba3500be336d88ca2571aa6c0b8192
parent 339246 306db1d372da6fb57432b737517b1bbacdb53f91
child 474491 87a0a6e103d8151d0e40929580545e3fbcc6b490
permissions -rw-r--r--
Bug 1296147 (Part 2) - Rename imgFrame::GetSurface() to imgFrame::GetSourceSurface() for clarity. r=edwin

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/. */

#include "gtest/gtest.h"

#include "mozilla/gfx/2D.h"
#include "Common.h"
#include "Decoder.h"
#include "DecoderFactory.h"
#include "SourceBuffer.h"
#include "SurfaceFilters.h"
#include "SurfacePipe.h"

using namespace mozilla;
using namespace mozilla::gfx;
using namespace mozilla::image;

template <typename Func> void
WithDownscalingFilter(const IntSize& aInputSize,
                      const IntSize& aOutputSize,
                      Func aFunc)
{
  RefPtr<Decoder> decoder = CreateTrivialDecoder();
  ASSERT_TRUE(decoder != nullptr);

  WithFilterPipeline(decoder, Forward<Func>(aFunc),
                     DownscalingConfig { aInputSize,
                                         SurfaceFormat::B8G8R8A8 },
                     SurfaceConfig { decoder, 0, aOutputSize,
                                     SurfaceFormat::B8G8R8A8, false });
}

void
AssertConfiguringDownscalingFilterFails(const IntSize& aInputSize,
                                        const IntSize& aOutputSize)
{
  RefPtr<Decoder> decoder = CreateTrivialDecoder();
  ASSERT_TRUE(decoder != nullptr);

  AssertConfiguringPipelineFails(decoder,
                                 DownscalingConfig { aInputSize,
                                                     SurfaceFormat::B8G8R8A8 },
                                 SurfaceConfig { decoder, 0, aOutputSize,
                                                 SurfaceFormat::B8G8R8A8, false });
}

TEST(ImageDownscalingFilter, WritePixels100_100to99_99)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(99, 99),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 99, 99)));
  });
}

TEST(ImageDownscalingFilter, WritePixels100_100to33_33)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(33, 33),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 33, 33)));
  });
}

TEST(ImageDownscalingFilter, WritePixels100_100to1_1)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(1, 1),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 1, 1)));
  });
}

TEST(ImageDownscalingFilter, WritePixels100_100to33_99)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(33, 99),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 33, 99)));
  });
}

TEST(ImageDownscalingFilter, WritePixels100_100to99_33)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(99, 33),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 99, 33)));
  });
}

TEST(ImageDownscalingFilter, WritePixels100_100to99_1)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(99, 1),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 99, 1)));
  });
}

TEST(ImageDownscalingFilter, WritePixels100_100to1_99)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(1, 99),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    CheckWritePixels(aDecoder, aFilter,
                     /* aOutputRect = */ Some(IntRect(0, 0, 1, 99)));
  });
}

TEST(ImageDownscalingFilter, DownscalingFailsFor100_100to101_101)
{
  // Upscaling is disallowed.
  AssertConfiguringDownscalingFilterFails(IntSize(100, 100), IntSize(101, 101));
}

TEST(ImageDownscalingFilter, DownscalingFailsFor100_100to100_100)
{
  // "Scaling" to the same size is disallowed.
  AssertConfiguringDownscalingFilterFails(IntSize(100, 100), IntSize(100, 100));
}

TEST(ImageDownscalingFilter, DownscalingFailsFor0_0toMinus1_Minus1)
{
  // A 0x0 input size is disallowed.
  AssertConfiguringDownscalingFilterFails(IntSize(0, 0), IntSize(-1, -1));
}

TEST(ImageDownscalingFilter, DownscalingFailsForMinus1_Minus1toMinus2_Minus2)
{
  // A negative input size is disallowed.
  AssertConfiguringDownscalingFilterFails(IntSize(-1, -1), IntSize(-2, -2));
}

TEST(ImageDownscalingFilter, DownscalingFailsFor100_100to0_0)
{
  // A 0x0 output size is disallowed.
  AssertConfiguringDownscalingFilterFails(IntSize(100, 100), IntSize(0, 0));
}

TEST(ImageDownscalingFilter, DownscalingFailsFor100_100toMinus1_Minus1)
{
  // A negative output size is disallowed.
  AssertConfiguringDownscalingFilterFails(IntSize(100, 100), IntSize(-1, -1));
}

TEST(ImageDownscalingFilter, WritePixelsOutput100_100to20_20)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(20, 20),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    // Fill the image. It consists of 25 lines of green, followed by 25 lines of
    // red, followed by 25 lines of green, followed by 25 more lines of red.
    uint32_t count = 0;
    auto result = aFilter->WritePixels<uint32_t>([&]() -> NextPixel<uint32_t> {
      uint32_t color = (count <= 25 * 100) || (count > 50 * 100 && count <= 75 * 100)
                     ? BGRAColor::Green().AsPixel()
                     : BGRAColor::Red().AsPixel();
      ++count;
      return AsVariant(color);
    });
    EXPECT_EQ(WriteState::FINISHED, result);
    EXPECT_EQ(100u * 100u, count);

    AssertCorrectPipelineFinalState(aFilter,
                                    IntRect(0, 0, 100, 100),
                                    IntRect(0, 0, 20, 20));

    // Check that the generated image is correct. Note that we skip rows near
    // the transitions between colors, since the downscaler does not produce a
    // sharp boundary at these points. Even some of the rows we test need a
    // small amount of fuzz; this is just the nature of Lanczos downscaling.
    RawAccessFrameRef currentFrame = aDecoder->GetCurrentFrameRef();
    RefPtr<SourceSurface> surface = currentFrame->GetSourceSurface();
    EXPECT_TRUE(RowsAreSolidColor(surface, 0, 4, BGRAColor::Green(), /* aFuzz = */ 2));
    EXPECT_TRUE(RowsAreSolidColor(surface, 6, 3, BGRAColor::Red(), /* aFuzz = */ 3));
    EXPECT_TRUE(RowsAreSolidColor(surface, 11, 3, BGRAColor::Green(), /* aFuzz = */ 3));
    EXPECT_TRUE(RowsAreSolidColor(surface, 16, 4, BGRAColor::Red(), /* aFuzz = */ 3));
  });
}

TEST(ImageDownscalingFilter, WritePixelsOutput100_100to10_20)
{
  WithDownscalingFilter(IntSize(100, 100), IntSize(10, 20),
                        [](Decoder* aDecoder, SurfaceFilter* aFilter) {
    // Fill the image. It consists of 25 lines of green, followed by 25 lines of
    // red, followed by 25 lines of green, followed by 25 more lines of red.
    uint32_t count = 0;
    auto result = aFilter->WritePixels<uint32_t>([&]() -> NextPixel<uint32_t> {
      uint32_t color = (count <= 25 * 100) || (count > 50 * 100 && count <= 75 * 100)
                     ? BGRAColor::Green().AsPixel()
                     : BGRAColor::Red().AsPixel();
      ++count;
      return AsVariant(color);
    });
    EXPECT_EQ(WriteState::FINISHED, result);
    EXPECT_EQ(100u * 100u, count);

    AssertCorrectPipelineFinalState(aFilter,
                                    IntRect(0, 0, 100, 100),
                                    IntRect(0, 0, 10, 20));

    // Check that the generated image is correct. Note that we skip rows near
    // the transitions between colors, since the downscaler does not produce a
    // sharp boundary at these points. Even some of the rows we test need a
    // small amount of fuzz; this is just the nature of Lanczos downscaling.
    RawAccessFrameRef currentFrame = aDecoder->GetCurrentFrameRef();
    RefPtr<SourceSurface> surface = currentFrame->GetSourceSurface();
    EXPECT_TRUE(RowsAreSolidColor(surface, 0, 4, BGRAColor::Green(), /* aFuzz = */ 2));
    EXPECT_TRUE(RowsAreSolidColor(surface, 6, 3, BGRAColor::Red(), /* aFuzz = */ 3));
    EXPECT_TRUE(RowsAreSolidColor(surface, 11, 3, BGRAColor::Green(), /* aFuzz = */ 3));
    EXPECT_TRUE(RowsAreSolidColor(surface, 16, 4, BGRAColor::Red(), /* aFuzz = */ 3));
  });
}

TEST(ImageDownscalingFilter, ConfiguringPalettedDownscaleFails)
{
  RefPtr<Decoder> decoder = CreateTrivialDecoder();
  ASSERT_TRUE(decoder != nullptr);

  // DownscalingFilter does not support paletted images, so configuration should
  // fail.
  AssertConfiguringPipelineFails(decoder,
                                 DownscalingConfig { IntSize(100, 100),
                                                     SurfaceFormat::B8G8R8A8 },
                                 PalettedSurfaceConfig { decoder, 0, IntSize(20, 20),
                                                         IntRect(0, 0, 20, 20),
                                                         SurfaceFormat::B8G8R8A8, 8,
                                                         false });
}