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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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 <cppunit/TestAssert.h>
#include <cppunit/TestFixture.h>
#include <cppunit/extensions/HelperMacros.h>
#include <cppunit/plugin/TestPlugIn.h>
#include <vcl/bitmap.hxx>
#include <vcl/bitmapaccess.hxx>
#include <vcl/alpha.hxx>
#include <rtl/strbuf.hxx>
#include <tools/stream.hxx>
#include <vcl/graphicfilter.hxx>
#include <config_features.h>
#include <vcl/BitmapTools.hxx>
#include <BitmapSymmetryCheck.hxx>
#include <bitmapwriteaccess.hxx>
#include <svdata.hxx>
#include <salinst.hxx>
namespace
{
class BitmapScaleTest : public CppUnit::TestFixture
{
void testScale();
void testScale2();
void testScaleSymmetry();
CPPUNIT_TEST_SUITE(BitmapScaleTest);
CPPUNIT_TEST(testScale);
CPPUNIT_TEST(testScale2);
CPPUNIT_TEST(testScaleSymmetry);
CPPUNIT_TEST_SUITE_END();
};
bool checkBitmapColor(Bitmap const& rBitmap, Color const& rExpectedColor)
{
bool bResult = true;
Bitmap aBitmap(rBitmap);
Bitmap::ScopedReadAccess pReadAccess(aBitmap);
long nHeight = pReadAccess->Height();
long nWidth = pReadAccess->Width();
for (long y = 0; y < nHeight; ++y)
{
Scanline pScanlineRead = pReadAccess->GetScanline(y);
for (long x = 0; x < nWidth; ++x)
{
Color aColor = pReadAccess->GetPixelFromData(pScanlineRead, x);
if (aColor != rExpectedColor)
bResult = false;
}
}
return bResult;
}
void assertColorsAreSimilar(int maxDifference, const std::string& message,
const BitmapColor& expected, const BitmapColor& actual)
{
// Check that the two colors match or are reasonably similar.
if (expected == actual)
return;
if (abs(expected.GetRed() - actual.GetRed()) <= maxDifference
&& abs(expected.GetGreen() - actual.GetGreen()) <= maxDifference
&& abs(expected.GetBlue() - actual.GetBlue()) <= maxDifference
&& abs(expected.GetAlpha() - actual.GetAlpha()) <= maxDifference)
{
return;
}
CPPUNIT_ASSERT_EQUAL_MESSAGE(message, expected, actual);
}
void assertColorsAreSimilar(int maxDifference, int line, const BitmapColor& expected,
const BitmapColor& actual)
{
std::stringstream stream;
stream << "Line: " << line;
assertColorsAreSimilar(maxDifference, stream.str(), expected, actual);
}
void BitmapScaleTest::testScale()
{
const bool bExportBitmap(false);
using tools::Rectangle;
static const BmpScaleFlag scaleMethods[]
= { BmpScaleFlag::Default, BmpScaleFlag::Fast, BmpScaleFlag::BestQuality,
BmpScaleFlag::Interpolate, BmpScaleFlag::Lanczos, BmpScaleFlag::BiCubic,
BmpScaleFlag::BiLinear };
for (BmpScaleFlag scaleMethod : scaleMethods)
{
struct ScaleSize
{
Size srcSize;
Size destSize;
};
static const ScaleSize scaleSizes[]
= { // test no-op
{ Size(16, 16), Size(16, 16) },
// powers of 2 (OpenGL may use texture atlas)
{ Size(16, 16), Size(14, 14) },
{ Size(14, 14), Size(16, 16) }, // both upscaling and downscaling
// "random" sizes
{ Size(18, 18), Size(14, 14) },
{ Size(14, 14), Size(18, 18) },
// different x/y ratios
{ Size(16, 30), Size(14, 18) },
{ Size(14, 18), Size(16, 30) },
// ratio larger than 16 (triggers different paths in some OpenGL algorithms)
{ Size(18 * 20, 18 * 20), Size(14, 14) },
{ Size(14, 14), Size(18 * 20, 18 * 20) }
};
for (const ScaleSize& scaleSize : scaleSizes)
{
OString testStr = "Testing scale (" + scaleSize.srcSize.toString() + ")->("
+ scaleSize.destSize.toString() + "), method "
+ OString::number(static_cast<int>(scaleMethod));
fprintf(stderr, "%s\n", testStr.getStr());
Bitmap bitmap(scaleSize.srcSize, 24);
{
// Fill each quarter of the source bitmap with a different color,
// and center with yet another color.
BitmapScopedWriteAccess writeAccess(bitmap);
const int halfW = scaleSize.srcSize.getWidth() / 2;
const int halfH = scaleSize.srcSize.getHeight() / 2;
writeAccess->SetFillColor(COL_GREEN);
writeAccess->FillRect(Rectangle(Point(0, 0), Size(halfW, halfH)));
writeAccess->SetFillColor(COL_RED);
writeAccess->FillRect(Rectangle(Point(0, halfH), Size(halfW, halfH)));
writeAccess->SetFillColor(COL_YELLOW);
writeAccess->FillRect(Rectangle(Point(halfW, 0), Size(halfW, halfH)));
writeAccess->SetFillColor(COL_BLACK);
writeAccess->FillRect(Rectangle(Point(halfW, halfH), Size(halfW, halfH)));
writeAccess->SetFillColor(COL_BLUE);
writeAccess->FillRect(Rectangle(Point(halfW / 2, halfH / 2), Size(halfW, halfH)));
}
if (bExportBitmap)
{
SvFileStream aStream("~/scale_before.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(bitmap, aStream);
}
CPPUNIT_ASSERT(bitmap.Scale(scaleSize.destSize, scaleMethod));
if (bExportBitmap)
{
SvFileStream aStream("~/scale_after.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(bitmap, aStream);
}
CPPUNIT_ASSERT_EQUAL(scaleSize.destSize, bitmap.GetSizePixel());
{
// Scaling should keep each quarter of the resulting bitmap have the same color,
// so check that color in each corner of the result bitmap is the same color,
// or reasonably close (some algorithms may alter the color very slightly).
BitmapReadAccess readAccess(bitmap);
const int lastW = scaleSize.destSize.getWidth() - 1;
const int lastH = scaleSize.destSize.getHeight() - 1;
assertColorsAreSimilar(2, __LINE__, COL_GREEN, readAccess.GetColor(0, 0));
assertColorsAreSimilar(2, __LINE__, COL_RED, readAccess.GetColor(lastH, 0));
assertColorsAreSimilar(2, __LINE__, COL_YELLOW, readAccess.GetColor(0, lastW));
assertColorsAreSimilar(2, __LINE__, COL_BLACK, readAccess.GetColor(lastH, lastW));
assertColorsAreSimilar(2, __LINE__, COL_BLUE,
readAccess.GetColor(lastH / 2, lastW / 2));
}
}
}
}
void BitmapScaleTest::testScale2()
{
const bool bExportBitmap(false);
Bitmap aBitmap24Bit(Size(4096, 4096), 24);
CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt16>(24), aBitmap24Bit.GetBitCount());
Color aBitmapColor = COL_YELLOW;
{
BitmapScopedWriteAccess aWriteAccess(aBitmap24Bit);
aWriteAccess->Erase(aBitmapColor);
}
if (bExportBitmap)
{
SvFileStream aStream("scale_before.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(aBitmap24Bit, aStream);
}
// Scale - 65x65
CPPUNIT_ASSERT_EQUAL(static_cast<long>(4096), aBitmap24Bit.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(4096), aBitmap24Bit.GetSizePixel().Height());
Bitmap aScaledBitmap = aBitmap24Bit;
aScaledBitmap.Scale(Size(65, 65));
if (bExportBitmap)
{
SvFileStream aStream("scale_after_65x65.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(aScaledBitmap, aStream);
}
CPPUNIT_ASSERT_EQUAL(static_cast<long>(65), aScaledBitmap.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(65), aScaledBitmap.GetSizePixel().Height());
CPPUNIT_ASSERT(checkBitmapColor(aScaledBitmap, aBitmapColor));
// Scale - 64x64
CPPUNIT_ASSERT_EQUAL(static_cast<long>(4096), aBitmap24Bit.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(4096), aBitmap24Bit.GetSizePixel().Height());
aScaledBitmap = aBitmap24Bit;
aScaledBitmap.Scale(Size(64, 64));
if (bExportBitmap)
{
SvFileStream aStream("scale_after_64x64.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(aScaledBitmap, aStream);
}
CPPUNIT_ASSERT_EQUAL(static_cast<long>(64), aScaledBitmap.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(64), aScaledBitmap.GetSizePixel().Height());
CPPUNIT_ASSERT(checkBitmapColor(aScaledBitmap, aBitmapColor));
// Scale - 63x63
CPPUNIT_ASSERT_EQUAL(static_cast<long>(4096), aBitmap24Bit.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(4096), aBitmap24Bit.GetSizePixel().Height());
aScaledBitmap = aBitmap24Bit;
aScaledBitmap.Scale(Size(63, 63));
if (bExportBitmap)
{
SvFileStream aStream("scale_after_63x63.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(aScaledBitmap, aStream);
}
CPPUNIT_ASSERT_EQUAL(static_cast<long>(63), aScaledBitmap.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(63), aScaledBitmap.GetSizePixel().Height());
CPPUNIT_ASSERT(checkBitmapColor(aScaledBitmap, aBitmapColor));
}
void BitmapScaleTest::testScaleSymmetry()
{
const bool bExportBitmap(false);
Bitmap aBitmap24Bit(Size(10, 10), 24);
CPPUNIT_ASSERT_EQUAL(static_cast<sal_uInt16>(24), aBitmap24Bit.GetBitCount());
{
BitmapScopedWriteAccess aWriteAccess(aBitmap24Bit);
aWriteAccess->Erase(COL_WHITE);
aWriteAccess->SetLineColor(COL_BLACK);
aWriteAccess->DrawRect(tools::Rectangle(1, 1, 8, 8));
aWriteAccess->DrawRect(tools::Rectangle(3, 3, 6, 6));
}
BitmapSymmetryCheck aBitmapSymmetryCheck;
CPPUNIT_ASSERT_EQUAL(static_cast<long>(10), aBitmap24Bit.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(10), aBitmap24Bit.GetSizePixel().Height());
// Check symmetry of the bitmap
CPPUNIT_ASSERT(BitmapSymmetryCheck::check(aBitmap24Bit));
if (bExportBitmap)
{
SvFileStream aStream("~/scale_before.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(aBitmap24Bit, aStream);
}
aBitmap24Bit.Scale(2, 2, BmpScaleFlag::Fast);
CPPUNIT_ASSERT_EQUAL(static_cast<long>(20), aBitmap24Bit.GetSizePixel().Width());
CPPUNIT_ASSERT_EQUAL(static_cast<long>(20), aBitmap24Bit.GetSizePixel().Height());
// After scaling the bitmap should still be symmetrical. This check guarantees that
// scaling doesn't misalign the bitmap.
CPPUNIT_ASSERT(BitmapSymmetryCheck::check(aBitmap24Bit));
if (bExportBitmap)
{
SvFileStream aStream("~/scale_after.png", StreamMode::WRITE | StreamMode::TRUNC);
GraphicFilter& rFilter = GraphicFilter::GetGraphicFilter();
rFilter.compressAsPNG(aBitmap24Bit, aStream);
}
}
} // namespace
CPPUNIT_TEST_SUITE_REGISTRATION(BitmapScaleTest);
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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