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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/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you 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 .
*/
// bootstrap stuff
#include <test/bootstrapfixture.hxx>
#include <com/sun/star/util/Endianness.hpp>
#include <com/sun/star/rendering/ColorComponentTag.hpp>
#include <com/sun/star/rendering/ColorSpaceType.hpp>
#include <com/sun/star/rendering/RenderingIntent.hpp>
#include <com/sun/star/rendering/XIntegerReadOnlyBitmap.hpp>
#include <com/sun/star/rendering/XIntegerBitmapColorSpace.hpp>
#include <com/sun/star/rendering/XBitmapPalette.hpp>
#include <cppuhelper/compbase3.hxx>
#include <tools/diagnose_ex.h>
#include <rtl/ref.hxx>
#include "vcl/svapp.hxx"
#include "vcl/canvastools.hxx"
#include "vcl/dialog.hxx"
#include "vcl/outdev.hxx"
#include "vcl/bmpacc.hxx"
#include "vcl/virdev.hxx"
#include "vcl/bitmapex.hxx"
#include "canvasbitmap.hxx"
using namespace ::com::sun::star;
using namespace ::vcl::unotools;
namespace com { namespace sun { namespace star { namespace rendering
{
bool operator==( const RGBColor& rLHS, const ARGBColor& rRHS )
{
return rLHS.Red == rRHS.Red && rLHS.Green == rRHS.Green && rLHS.Blue == rRHS.Blue;
}
bool operator==( const ARGBColor& rLHS, const RGBColor& rRHS )
{
return rLHS.Red == rRHS.Red && rLHS.Green == rRHS.Green && rLHS.Blue == rRHS.Blue;
}
} } } }
namespace
{
class CanvasBitmapTest : public test::BootstrapFixture
{
public:
CanvasBitmapTest() : BootstrapFixture(true, false) {}
void runTest();
CPPUNIT_TEST_SUITE(CanvasBitmapTest);
CPPUNIT_TEST(runTest);
CPPUNIT_TEST_SUITE_END();
};
bool rangeCheck( const rendering::RGBColor& rColor )
{
return rColor.Red < 0.0 || rColor.Red > 1.0 ||
rColor.Green < 0.0 || rColor.Green > 1.0 ||
rColor.Blue < 0.0 || rColor.Blue > 1.0;
}
void checkCanvasBitmap( const rtl::Reference<VclCanvasBitmap>& xBmp,
const char* msg,
int nOriginalDepth )
{
OSL_TRACE("-------------------------");
OSL_TRACE("Testing %s, with depth %d", msg, nOriginalDepth);
BitmapEx aContainedBmpEx( xBmp->getBitmapEx() );
Bitmap aContainedBmp( aContainedBmpEx.GetBitmap() );
int nDepth = nOriginalDepth;
{
Bitmap::ScopedReadAccess pAcc( aContainedBmp );
nDepth = pAcc->GetBitCount();
}
CPPUNIT_ASSERT_MESSAGE( "Original bitmap size not (200,200)",
aContainedBmp.GetSizePixel() == Size(200,200));
CPPUNIT_ASSERT_MESSAGE( "Original bitmap size via API not (200,200)",
xBmp->getSize().Width == 200 && xBmp->getSize().Height == 200);
CPPUNIT_ASSERT_MESSAGE( "alpha state mismatch",
xBmp->hasAlpha() == aContainedBmpEx.IsTransparent());
CPPUNIT_ASSERT_MESSAGE( "getScaledBitmap() failed",
xBmp->getScaledBitmap( geometry::RealSize2D(500,500), sal_False ).is());
rendering::IntegerBitmapLayout aLayout;
uno::Sequence<sal_Int8> aPixelData = xBmp->getData(aLayout, geometry::IntegerRectangle2D(0,0,1,1));
const sal_Int32 nExpectedBitsPerPixel(
aContainedBmpEx.IsTransparent() ? std::max(8,nDepth)+8 : nDepth);
CPPUNIT_ASSERT_MESSAGE( "# scanlines not 1",
aLayout.ScanLines == 1);
CPPUNIT_ASSERT_MESSAGE( "# scanline bytes mismatch",
aLayout.ScanLineBytes == (nExpectedBitsPerPixel+7)/8);
CPPUNIT_ASSERT_MESSAGE( "# scanline stride mismatch",
aLayout.ScanLineStride == (nExpectedBitsPerPixel+7)/8 ||
aLayout.ScanLineStride == -(nExpectedBitsPerPixel+7)/8);
CPPUNIT_ASSERT_MESSAGE( "# plane stride not 0",
aLayout.PlaneStride == 0);
CPPUNIT_ASSERT_MESSAGE( "Color space not there",
aLayout.ColorSpace.is());
CPPUNIT_ASSERT_MESSAGE( "Palette existance does not conform to bitmap",
aLayout.Palette.is() == (nDepth <= 8));
uno::Sequence<sal_Int8> aPixelData2 = xBmp->getPixel( aLayout, geometry::IntegerPoint2D(0,0) );
CPPUNIT_ASSERT_MESSAGE( "getData and getPixel did not return same amount of data",
aPixelData2.getLength() == aPixelData.getLength());
aPixelData = xBmp->getData(aLayout, geometry::IntegerRectangle2D(0,0,200,1));
CPPUNIT_ASSERT_MESSAGE( "# scanlines not 1 for getPixel",
aLayout.ScanLines == 1);
CPPUNIT_ASSERT_MESSAGE( "# scanline bytes mismatch for getPixel",
aLayout.ScanLineBytes == (200*nExpectedBitsPerPixel+7)/8);
CPPUNIT_ASSERT_MESSAGE( "# scanline stride mismatch for getPixel",
aLayout.ScanLineStride == (200*nExpectedBitsPerPixel+7)/8 ||
aLayout.ScanLineStride == -(200*nExpectedBitsPerPixel+7)/8);
uno::Sequence< rendering::RGBColor > aRGBColors = xBmp->convertIntegerToRGB( aPixelData );
uno::Sequence< rendering::ARGBColor > aARGBColors = xBmp->convertIntegerToARGB( aPixelData );
const rendering::RGBColor* pRGBStart ( aRGBColors.getConstArray() );
const rendering::RGBColor* pRGBEnd ( aRGBColors.getConstArray()+aRGBColors.getLength() );
const rendering::ARGBColor* pARGBStart( aARGBColors.getConstArray() );
std::pair<const rendering::RGBColor*,
const rendering::ARGBColor*> aRes = std::mismatch( pRGBStart, pRGBEnd, pARGBStart );
CPPUNIT_ASSERT_MESSAGE( "argb and rgb colors are not equal",
aRes.first == pRGBEnd);
CPPUNIT_ASSERT_MESSAGE( "rgb colors are not within [0,1] range",
std::find_if(pRGBStart,pRGBEnd,&rangeCheck) == pRGBEnd);
CPPUNIT_ASSERT_MESSAGE( "First pixel is not white",
pRGBStart[0].Red == 1.0 && pRGBStart[0].Green == 1.0 && pRGBStart[0].Blue == 1.0);
CPPUNIT_ASSERT_MESSAGE( "Second pixel is not opaque",
pARGBStart[1].Alpha == 1.0);
if( aContainedBmpEx.IsTransparent() )
{
CPPUNIT_ASSERT_MESSAGE( "First pixel is not fully transparent",
pARGBStart[0].Alpha == 0.0);
}
CPPUNIT_ASSERT_MESSAGE( "Second pixel is not black",
pRGBStart[1].Red == 0.0 && pRGBStart[1].Green == 0.0 && pRGBStart[1].Blue == 0.0);
if( nOriginalDepth > 8 )
{
const Color aCol(COL_GREEN);
CPPUNIT_ASSERT_EQUAL_MESSAGE(
"Sixth pixel is not green (red component)",
vcl::unotools::toDoubleColor(aCol.GetRed()), pRGBStart[5].Red);
CPPUNIT_ASSERT_EQUAL_MESSAGE(
"Sixth pixel is not green (green component)",
vcl::unotools::toDoubleColor(aCol.GetGreen()), pRGBStart[5].Green);
CPPUNIT_ASSERT_EQUAL_MESSAGE(
"Sixth pixel is not green (blue component)",
vcl::unotools::toDoubleColor(aCol.GetBlue()), pRGBStart[5].Blue);
}
else if( nDepth <= 8 )
{
uno::Reference<rendering::XBitmapPalette> xPal = xBmp->getPalette();
CPPUNIT_ASSERT_MESSAGE( "8bit or less: missing palette",
xPal.is());
CPPUNIT_ASSERT_MESSAGE( "Palette incorrect entry count",
xPal->getNumberOfEntries() == 1L << nOriginalDepth);
uno::Sequence<double> aIndex;
CPPUNIT_ASSERT_MESSAGE( "Palette is not read-only",
xPal->setIndex(aIndex,sal_True,0) == sal_False);
CPPUNIT_ASSERT_MESSAGE( "Palette entry 0 is not opaque",
xPal->getIndex(aIndex,0));
CPPUNIT_ASSERT_MESSAGE( "Palette has no valid color space",
xPal->getColorSpace().is());
}
CPPUNIT_ASSERT_MESSAGE( "150th pixel is not white",
pRGBStart[150].Red == 1.0 &&
pRGBStart[150].Green == 1.0 &&
pRGBStart[150].Blue == 1.0);
if( nOriginalDepth > 8 )
{
uno::Sequence<rendering::ARGBColor> aARGBColor(1);
uno::Sequence<rendering::RGBColor> aRGBColor(1);
uno::Sequence<sal_Int8> aPixel3, aPixel4;
const Color aCol(COL_GREEN);
aARGBColor[0].Red = vcl::unotools::toDoubleColor(aCol.GetRed());
aARGBColor[0].Green = vcl::unotools::toDoubleColor(aCol.GetGreen());
aARGBColor[0].Blue = vcl::unotools::toDoubleColor(aCol.GetBlue());
aARGBColor[0].Alpha = 1.0;
aRGBColor[0].Red = vcl::unotools::toDoubleColor(aCol.GetRed());
aRGBColor[0].Green = vcl::unotools::toDoubleColor(aCol.GetGreen());
aRGBColor[0].Blue = vcl::unotools::toDoubleColor(aCol.GetBlue());
aPixel3 = xBmp->convertIntegerFromARGB( aARGBColor );
aPixel4 = xBmp->getPixel( aLayout, geometry::IntegerPoint2D(5,0) );
CPPUNIT_ASSERT_MESSAGE( "Green pixel from bitmap mismatch with manually converted green pixel",
aPixel3 == aPixel4);
if( !aContainedBmpEx.IsTransparent() )
{
aPixel3 = xBmp->convertIntegerFromRGB( aRGBColor );
CPPUNIT_ASSERT_MESSAGE( "Green pixel from bitmap mismatch with manually RGB-converted green pixel",
aPixel3 == aPixel4);
}
}
}
class TestBitmap : public cppu::WeakImplHelper3< rendering::XIntegerReadOnlyBitmap,
rendering::XBitmapPalette,
rendering::XIntegerBitmapColorSpace >
{
private:
geometry::IntegerSize2D maSize;
uno::Sequence<sal_Int8> maComponentTags;
uno::Sequence<sal_Int32> maComponentBitCounts;
rendering::IntegerBitmapLayout maLayout;
const sal_Int32 mnBitsPerPixel;
// XBitmap
virtual geometry::IntegerSize2D SAL_CALL getSize() throw (uno::RuntimeException) { return maSize; }
virtual ::sal_Bool SAL_CALL hasAlpha( ) throw (uno::RuntimeException) { return mnBitsPerPixel != 8; }
virtual uno::Reference< rendering::XBitmap > SAL_CALL getScaledBitmap( const geometry::RealSize2D&,
sal_Bool ) throw (uno::RuntimeException) { return this; }
// XIntegerReadOnlyBitmap
virtual uno::Sequence< ::sal_Int8 > SAL_CALL getData( rendering::IntegerBitmapLayout& bitmapLayout,
const geometry::IntegerRectangle2D& rect )
throw (lang::IndexOutOfBoundsException,
rendering::VolatileContentDestroyedException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE( "X1 out of bounds", rect.X1 >= 0 );
CPPUNIT_ASSERT_MESSAGE( "Y1 out of bounds", rect.Y1 >= 0 );
CPPUNIT_ASSERT_MESSAGE( "X2 out of bounds", rect.X2 <= maSize.Width );
CPPUNIT_ASSERT_MESSAGE( "Y2 out of bounds", rect.Y2 <= maSize.Height );
bitmapLayout = getMemoryLayout();
const sal_Int32 nWidth = rect.X2-rect.X1;
const sal_Int32 nHeight = rect.Y2-rect.Y1;
const sal_Int32 nScanlineLen = (nWidth * mnBitsPerPixel + 7)/8;
uno::Sequence<sal_Int8> aRes( nScanlineLen * nHeight );
sal_Int8* pOut = aRes.getArray();
bitmapLayout.ScanLines = nHeight;
bitmapLayout.ScanLineBytes =
bitmapLayout.ScanLineStride= nScanlineLen;
if( mnBitsPerPixel == 8 )
{
for( sal_Int32 y=0; y<nHeight; ++y )
{
for( sal_Int32 x=0; x<nWidth; ++x )
pOut[ y*nScanlineLen + x ] = sal_Int8(x);
}
}
else
{
for( sal_Int32 y=0; y<nHeight; ++y )
{
for( sal_Int32 x=0; x<nWidth; ++x )
{
pOut[ y*nScanlineLen + 4*x ] = sal_Int8(rect.X1);
pOut[ y*nScanlineLen + 4*x + 1 ] = sal_Int8(rect.Y2);
pOut[ y*nScanlineLen + 4*x + 2 ] = sal_Int8(x);
pOut[ y*nScanlineLen + 4*x + 3 ] = sal_Int8(rect.Y1);
}
}
}
return aRes;
}
virtual uno::Sequence< ::sal_Int8 > SAL_CALL getPixel( rendering::IntegerBitmapLayout&,
const geometry::IntegerPoint2D& )
throw (lang::IndexOutOfBoundsException,
rendering::VolatileContentDestroyedException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("getPixel: method not implemented", false);
return uno::Sequence< sal_Int8 >();
}
virtual uno::Reference< rendering::XBitmapPalette > SAL_CALL getPalette( ) throw (uno::RuntimeException)
{
uno::Reference< XBitmapPalette > aRet;
if( mnBitsPerPixel == 8 )
aRet.set(this);
return aRet;
}
virtual rendering::IntegerBitmapLayout SAL_CALL getMemoryLayout( ) throw (uno::RuntimeException)
{
rendering::IntegerBitmapLayout aLayout( maLayout );
const sal_Int32 nScanlineLen = (maSize.Width * mnBitsPerPixel + 7)/8;
aLayout.ScanLines = maSize.Height;
aLayout.ScanLineBytes =
aLayout.ScanLineStride= nScanlineLen;
aLayout.Palette = getPalette();
aLayout.ColorSpace.set( this );
return aLayout;
}
// XBitmapPalette
virtual sal_Int32 SAL_CALL getNumberOfEntries() throw (uno::RuntimeException)
{
CPPUNIT_ASSERT_MESSAGE( "Got palette getNumberOfEntries interface call without handing out palette",
getPalette().is() );
return 255;
}
virtual ::sal_Bool SAL_CALL getIndex( uno::Sequence< double >& entry,
::sal_Int32 nIndex )
throw (lang::IndexOutOfBoundsException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE( "Got palette getIndex interface call without handing out palette",
getPalette().is() );
CPPUNIT_ASSERT_MESSAGE( "getIndex: index out of range",
nIndex >= 0 && nIndex < 256 );
entry = colorToStdColorSpaceSequence(
Color(sal_uInt8(nIndex),
sal_uInt8(nIndex),
sal_uInt8(nIndex)) );
return sal_True; // no palette transparency here.
}
virtual ::sal_Bool SAL_CALL setIndex( const uno::Sequence< double >&,
::sal_Bool,
::sal_Int32 nIndex ) throw (lang::IndexOutOfBoundsException,
lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE( "Got palette setIndex interface call without handing out palette",
getPalette().is());
CPPUNIT_ASSERT_MESSAGE( "setIndex: index out of range",
nIndex >= 0 && nIndex < 256);
return sal_False;
}
struct PaletteColorSpaceHolder: public rtl::StaticWithInit<uno::Reference<rendering::XColorSpace>,
PaletteColorSpaceHolder>
{
uno::Reference<rendering::XColorSpace> operator()()
{
return vcl::unotools::createStandardColorSpace();
}
};
virtual uno::Reference< rendering::XColorSpace > SAL_CALL getColorSpace( ) throw (uno::RuntimeException)
{
// this is the method from XBitmapPalette. Return palette color
// space here
return PaletteColorSpaceHolder::get();
}
// XIntegerBitmapColorSpace
virtual ::sal_Int8 SAL_CALL getType( ) throw (uno::RuntimeException)
{
return rendering::ColorSpaceType::RGB;
}
virtual uno::Sequence< sal_Int8 > SAL_CALL getComponentTags( ) throw (uno::RuntimeException)
{
return maComponentTags;
}
virtual ::sal_Int8 SAL_CALL getRenderingIntent( ) throw (uno::RuntimeException)
{
return rendering::RenderingIntent::PERCEPTUAL;
}
virtual uno::Sequence< beans::PropertyValue > SAL_CALL getProperties()
throw (uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("getProperties: method not implemented", false );
return uno::Sequence< ::beans::PropertyValue >();
}
virtual uno::Sequence< double > SAL_CALL convertColorSpace( const uno::Sequence< double >&,
const uno::Reference< rendering::XColorSpace >& )
throw (uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertColorSpace: method not implemented", false);
return uno::Sequence< double >();
}
virtual uno::Sequence< rendering::RGBColor > SAL_CALL convertToRGB( const uno::Sequence< double >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertToRGB: method not implemented", false);
return uno::Sequence< rendering::RGBColor >();
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertToARGB( const uno::Sequence< double >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertToARGB: method not implemented", false);
return uno::Sequence< rendering::ARGBColor >();
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertToPARGB( const uno::Sequence< double >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertToPARGB: method not implemented", false);
return uno::Sequence< rendering::ARGBColor >();
}
virtual uno::Sequence< double > SAL_CALL convertFromRGB( const uno::Sequence< rendering::RGBColor >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertFromRGB: method not implemented", false);
return uno::Sequence< double >();
}
virtual uno::Sequence< double > SAL_CALL convertFromARGB( const uno::Sequence< rendering::ARGBColor >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertFromARGB: this method is not expected to be called!", false);
return uno::Sequence< double >();
}
virtual uno::Sequence< double > SAL_CALL convertFromPARGB( const uno::Sequence< rendering::ARGBColor >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertFromPARGB: this method is not expected to be called!", false);
return uno::Sequence< double >();
}
virtual ::sal_Int32 SAL_CALL getBitsPerPixel( ) throw (uno::RuntimeException)
{
return mnBitsPerPixel;
}
virtual uno::Sequence< ::sal_Int32 > SAL_CALL getComponentBitCounts( ) throw (uno::RuntimeException)
{
return maComponentBitCounts;
}
virtual ::sal_Int8 SAL_CALL getEndianness( ) throw (uno::RuntimeException)
{
return util::Endianness::LITTLE;
}
virtual uno::Sequence< double > SAL_CALL convertFromIntegerColorSpace( const uno::Sequence< ::sal_Int8 >& ,
const uno::Reference< rendering::XColorSpace >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertFromIntegerColorSpace: method not implemented", false);
return uno::Sequence< double >();
}
virtual uno::Sequence< ::sal_Int8 > SAL_CALL convertToIntegerColorSpace( const uno::Sequence< ::sal_Int8 >& ,
const uno::Reference< rendering::XIntegerBitmapColorSpace >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertToIntegerColorSpace: method not implemented", false);
return uno::Sequence< sal_Int8 >();
}
virtual uno::Sequence< rendering::RGBColor > SAL_CALL convertIntegerToRGB( const uno::Sequence< ::sal_Int8 >& deviceColor ) throw (lang::IllegalArgumentException,
uno::RuntimeException)
{
const uno::Sequence< rendering::ARGBColor > aTemp( convertIntegerToARGB(deviceColor) );
const sal_Size nLen(aTemp.getLength());
uno::Sequence< rendering::RGBColor > aRes( nLen );
rendering::RGBColor* pOut = aRes.getArray();
for( sal_Size i=0; i<nLen; ++i )
{
*pOut++ = rendering::RGBColor(aTemp[i].Red,
aTemp[i].Green,
aTemp[i].Blue);
}
return aRes;
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertIntegerToARGB( const uno::Sequence< ::sal_Int8 >& deviceColor ) throw (lang::IllegalArgumentException,
uno::RuntimeException)
{
const sal_Size nLen( deviceColor.getLength() );
const sal_Int32 nBytesPerPixel(mnBitsPerPixel == 8 ? 1 : 4);
CPPUNIT_ASSERT_MESSAGE("number of channels no multiple of pixel element count",
nLen%nBytesPerPixel==0);
uno::Sequence< rendering::ARGBColor > aRes( nLen / nBytesPerPixel );
rendering::ARGBColor* pOut( aRes.getArray() );
if( getPalette().is() )
{
for( sal_Size i=0; i<nLen; ++i )
{
*pOut++ = rendering::ARGBColor(
1.0,
vcl::unotools::toDoubleColor(deviceColor[i]),
vcl::unotools::toDoubleColor(deviceColor[i]),
vcl::unotools::toDoubleColor(deviceColor[i]));
}
}
else
{
for( sal_Size i=0; i<nLen; i+=4 )
{
*pOut++ = rendering::ARGBColor(
vcl::unotools::toDoubleColor(deviceColor[i+3]),
vcl::unotools::toDoubleColor(deviceColor[i+0]),
vcl::unotools::toDoubleColor(deviceColor[i+1]),
vcl::unotools::toDoubleColor(deviceColor[i+2]));
}
}
return aRes;
}
virtual uno::Sequence< rendering::ARGBColor > SAL_CALL convertIntegerToPARGB( const uno::Sequence< ::sal_Int8 >& deviceColor ) throw (lang::IllegalArgumentException,
uno::RuntimeException)
{
const sal_Size nLen( deviceColor.getLength() );
const sal_Int32 nBytesPerPixel(mnBitsPerPixel == 8 ? 1 : 4);
CPPUNIT_ASSERT_MESSAGE("number of channels no multiple of pixel element count",
nLen%nBytesPerPixel==0);
uno::Sequence< rendering::ARGBColor > aRes( nLen / nBytesPerPixel );
rendering::ARGBColor* pOut( aRes.getArray() );
if( getPalette().is() )
{
for( sal_Size i=0; i<nLen; ++i )
{
*pOut++ = rendering::ARGBColor(
1.0,
vcl::unotools::toDoubleColor(deviceColor[i]),
vcl::unotools::toDoubleColor(deviceColor[i]),
vcl::unotools::toDoubleColor(deviceColor[i]));
}
}
else
{
for( sal_Size i=0; i<nLen; i+=4 )
{
const double fAlpha=vcl::unotools::toDoubleColor(deviceColor[i+3]);
*pOut++ = rendering::ARGBColor(
fAlpha,
fAlpha*vcl::unotools::toDoubleColor(deviceColor[i+0]),
fAlpha*vcl::unotools::toDoubleColor(deviceColor[i+1]),
fAlpha*vcl::unotools::toDoubleColor(deviceColor[i+2]));
}
}
return aRes;
}
virtual uno::Sequence< ::sal_Int8 > SAL_CALL convertIntegerFromRGB( const uno::Sequence< rendering::RGBColor >& ) throw (lang::IllegalArgumentException,
uno::RuntimeException)
{
CPPUNIT_ASSERT_MESSAGE("convertIntegerFromRGB: method not implemented", false);
return uno::Sequence< sal_Int8 >();
}
virtual uno::Sequence< ::sal_Int8 > SAL_CALL convertIntegerFromARGB( const uno::Sequence< rendering::ARGBColor >& ) throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertIntegerFromARGB: method not implemented", false);
return uno::Sequence< sal_Int8 >();
}
virtual uno::Sequence< ::sal_Int8 > SAL_CALL convertIntegerFromPARGB( const uno::Sequence< rendering::ARGBColor >& )
throw (lang::IllegalArgumentException,
uno::RuntimeException,
std::exception)
{
CPPUNIT_ASSERT_MESSAGE("convertIntegerFromPARGB: method not implemented", false);
return uno::Sequence< sal_Int8 >();
}
public:
TestBitmap( const geometry::IntegerSize2D& rSize, bool bPalette ) :
maSize(rSize),
maComponentTags(),
maComponentBitCounts(),
maLayout(),
mnBitsPerPixel( bPalette ? 8 : 32 )
{
if( bPalette )
{
maComponentTags.realloc(1);
maComponentTags[0] = rendering::ColorComponentTag::INDEX;
maComponentBitCounts.realloc(1);
maComponentBitCounts[0] = 8;
}
else
{
maComponentTags.realloc(4);
sal_Int8* pTags = maComponentTags.getArray();
pTags[0] = rendering::ColorComponentTag::RGB_BLUE;
pTags[1] = rendering::ColorComponentTag::RGB_GREEN;
pTags[2] = rendering::ColorComponentTag::RGB_RED;
pTags[3] = rendering::ColorComponentTag::ALPHA;
maComponentBitCounts.realloc(4);
sal_Int32* pCounts = maComponentBitCounts.getArray();
pCounts[0] = 8;
pCounts[1] = 8;
pCounts[2] = 8;
pCounts[3] = 8;
}
maLayout.ScanLines = 0;
maLayout.ScanLineBytes = 0;
maLayout.ScanLineStride = 0;
maLayout.PlaneStride = 0;
maLayout.ColorSpace.clear();
maLayout.Palette.clear();
maLayout.IsMsbFirst = sal_False;
}
};
void CanvasBitmapTest::runTest()
{
static const sal_Int8 lcl_depths[]={1,4,8,16,24};
// Testing VclCanvasBitmap wrapper
// ===============================
for( unsigned int i=0; i<SAL_N_ELEMENTS(lcl_depths); ++i )
{
const sal_Int8 nDepth( lcl_depths[i] );
Bitmap aBitmap(Size(200,200),nDepth);
aBitmap.Erase(COL_WHITE);
{
Bitmap::ScopedWriteAccess pAcc(aBitmap);
if( pAcc.get() )
{
BitmapColor aBlack(0);
BitmapColor aWhite(0);
if( pAcc->HasPalette() )
{
aBlack.SetIndex( sal::static_int_cast<sal_Int8>(pAcc->GetBestPaletteIndex(BitmapColor(0,0,0))) );
aWhite.SetIndex( sal::static_int_cast<sal_Int8>(pAcc->GetBestPaletteIndex(BitmapColor(255,255,255))) );
}
else
{
aBlack = Color(COL_BLACK);
aWhite = Color(COL_WHITE);
}
pAcc->SetFillColor(COL_GREEN);
pAcc->FillRect(Rectangle(0,0,100,100));
pAcc->SetPixel(0,0,aWhite);
pAcc->SetPixel(0,1,aBlack);
pAcc->SetPixel(0,2,aWhite);
}
}
rtl::Reference<VclCanvasBitmap> xBmp( new VclCanvasBitmap(aBitmap) );
checkCanvasBitmap( xBmp, "single bitmap", nDepth );
Bitmap aMask(Size(200,200),1);
aMask.Erase(COL_WHITE);
{
Bitmap::ScopedWriteAccess pAcc(aMask);
if( pAcc.get() )
{
pAcc->SetFillColor(COL_BLACK);
pAcc->FillRect(Rectangle(0,0,100,100));
pAcc->SetPixel(0,0,BitmapColor(1));
pAcc->SetPixel(0,1,BitmapColor(0));
pAcc->SetPixel(0,2,BitmapColor(1));
}
}
xBmp.set( new VclCanvasBitmap(BitmapEx(aBitmap,aMask)) );
checkCanvasBitmap( xBmp, "masked bitmap", nDepth );
AlphaMask aAlpha(Size(200,200));
aAlpha.Erase(255);
{
BitmapWriteAccess* pAcc = aAlpha.AcquireWriteAccess();
if( pAcc )
{
pAcc->SetFillColor(COL_BLACK);
pAcc->FillRect(Rectangle(0,0,100,100));
pAcc->SetPixel(0,0,BitmapColor(255));
pAcc->SetPixel(0,1,BitmapColor(0));
pAcc->SetPixel(0,2,BitmapColor(255));
aAlpha.ReleaseAccess(pAcc);
}
}
xBmp.set( new VclCanvasBitmap(BitmapEx(aBitmap,aAlpha)) );
checkCanvasBitmap( xBmp, "alpha bitmap", nDepth );
}
// Testing XBitmap import
// ======================
uno::Reference< rendering::XIntegerReadOnlyBitmap > xTestBmp(
new TestBitmap( geometry::IntegerSize2D(10,10), true ));
BitmapEx aBmp = vcl::unotools::bitmapExFromXBitmap(xTestBmp);
CPPUNIT_ASSERT_MESSAGE( "Palette bitmap is transparent",
!aBmp.IsTransparent());
CPPUNIT_ASSERT_MESSAGE( "Bitmap does not have size (10,10)",
aBmp.GetSizePixel() == Size(10,10));
CPPUNIT_ASSERT_MESSAGE( "Bitmap does not have bitcount of 8",
aBmp.GetBitCount() == 8);
{
BitmapReadAccess* pBmpAcc = aBmp.GetBitmap().AcquireReadAccess();
CPPUNIT_ASSERT_MESSAGE( "Bitmap has invalid BitmapReadAccess",
pBmpAcc );
CPPUNIT_ASSERT_MESSAGE("(0,0) incorrect content",
pBmpAcc->GetPixel(0,0) == BitmapColor(0));
CPPUNIT_ASSERT_MESSAGE("(2,2) incorrect content",
pBmpAcc->GetPixel(2,2) == BitmapColor(2));
CPPUNIT_ASSERT_MESSAGE("(9,2) incorrect content",
pBmpAcc->GetPixel(2,9) == BitmapColor(9));
aBmp.GetBitmap().ReleaseAccess(pBmpAcc);
}
xTestBmp.set( new TestBitmap( geometry::IntegerSize2D(10,10), false ));
aBmp = vcl::unotools::bitmapExFromXBitmap(xTestBmp);
CPPUNIT_ASSERT_MESSAGE( "Palette bitmap is not transparent",
aBmp.IsTransparent());
CPPUNIT_ASSERT_MESSAGE( "Palette bitmap has no alpha",
aBmp.IsAlpha());
CPPUNIT_ASSERT_MESSAGE( "Bitmap does not have size (10,10)",
aBmp.GetSizePixel() == Size(10,10));
CPPUNIT_ASSERT_MESSAGE( "Bitmap has bitcount of 24",
aBmp.GetBitCount() == 24);
{
BitmapReadAccess* pBmpAcc = aBmp.GetBitmap().AcquireReadAccess();
BitmapReadAccess* pAlphaAcc = aBmp.GetAlpha().AcquireReadAccess();
CPPUNIT_ASSERT_MESSAGE( "Bitmap has invalid BitmapReadAccess",
pBmpAcc);
CPPUNIT_ASSERT_MESSAGE( "Bitmap has invalid alpha BitmapReadAccess",
pAlphaAcc);
CPPUNIT_ASSERT_MESSAGE("(0,0) incorrect content",
pBmpAcc->GetPixel(0,0) == BitmapColor(0,1,0));
CPPUNIT_ASSERT_MESSAGE("(0,0) incorrect alpha content",
pAlphaAcc->GetPixel(0,0) == BitmapColor(255));
CPPUNIT_ASSERT_MESSAGE("(2,2) incorrect content",
pBmpAcc->GetPixel(2,2) == BitmapColor(0,3,2));
CPPUNIT_ASSERT_MESSAGE("(2,2) incorrect alpha content",
pAlphaAcc->GetPixel(2,2) == BitmapColor(253));
CPPUNIT_ASSERT_MESSAGE("(9,2) incorrect content",
pBmpAcc->GetPixel(2,9) == BitmapColor(0,3,9));
CPPUNIT_ASSERT_MESSAGE("(9,2) correct alpha content",
pAlphaAcc->GetPixel(2,9) == BitmapColor(253));
aBmp.GetAlpha().ReleaseAccess(pAlphaAcc);
aBmp.GetBitmap().ReleaseAccess(pBmpAcc);
}
}
} // namespace
CPPUNIT_TEST_SUITE_REGISTRATION(CanvasBitmapTest);
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