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wxWidgets/src/osx/core/bitmap.cpp
Vadim Zeitlin 50190395c6 Get rid of macOS 10.7 version checks, they're always true 
We don't support OS X < 10.7 anyhow any more.
2016-11-26 17:28:12 +01:00

1876 lines
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/////////////////////////////////////////////////////////////////////////////
// Name: src/osx/core/bitmap.cpp
// Purpose: wxBitmap
// Author: Stefan Csomor
// Modified by:
// Created: 1998-01-01
// Copyright: (c) Stefan Csomor
// Licence: wxWindows licence
/////////////////////////////////////////////////////////////////////////////
#include "wx/wxprec.h"
#include "wx/bitmap.h"
#ifndef WX_PRECOMP
#include "wx/log.h"
#include "wx/dcmemory.h"
#include "wx/icon.h"
#include "wx/image.h"
#endif
#include "wx/metafile.h"
#include "wx/xpmdecod.h"
#include "wx/rawbmp.h"
#include "wx/filename.h"
wxIMPLEMENT_DYNAMIC_CLASS(wxBitmap, wxGDIObject);
wxIMPLEMENT_DYNAMIC_CLASS(wxMask, wxObject);
#include "wx/osx/private.h"
CGColorSpaceRef wxMacGetGenericRGBColorSpace();
CGDataProviderRef wxMacCGDataProviderCreateWithMemoryBuffer( const wxMemoryBuffer& buf );
// Implementation Notes
// --------------------
//
// we are always working with a 32 bit deep pixel buffer
// under QuickDraw its alpha parts are going to be ignored in the GWorld,
// therefore we have a separate GWorld there for blitting the mask in
// under Quartz then content is transformed into a CGImageRef representing the same data
// which can be transferred to the GPU by the OS for fast rendering
class WXDLLEXPORT wxBitmapRefData: public wxGDIRefData
{
friend class WXDLLIMPEXP_FWD_CORE wxIcon;
friend class WXDLLIMPEXP_FWD_CORE wxCursor;
public:
wxBitmapRefData(int width , int height , int depth, double logicalscale);
wxBitmapRefData(int width , int height , int depth);
wxBitmapRefData(CGContextRef context);
wxBitmapRefData(CGImageRef image, double scale);
wxBitmapRefData();
wxBitmapRefData(const wxBitmapRefData &tocopy);
virtual ~wxBitmapRefData();
virtual bool IsOk() const wxOVERRIDE { return m_ok; }
void Free();
void SetOk( bool isOk) { m_ok = isOk; }
void SetWidth( int width ) { m_width = width; }
void SetHeight( int height ) { m_height = height; }
void SetDepth( int depth ) { m_depth = depth; }
int GetWidth() const { return m_width; }
int GetHeight() const { return m_height; }
int GetDepth() const { return m_depth; }
double GetScaleFactor() const { return m_scaleFactor; }
void *GetRawAccess() const;
void *BeginRawAccess();
void EndRawAccess();
bool HasAlpha() const { return m_hasAlpha; }
void UseAlpha( bool useAlpha );
bool IsTemplate() const { return m_isTemplate; }
void SetTemplate(bool is) { m_isTemplate = is; }
public:
#if wxUSE_PALETTE
wxPalette m_bitmapPalette;
#endif // wxUSE_PALETTE
wxMask * m_bitmapMask; // Optional mask
CGImageRef CreateCGImage() const;
// returns true if the bitmap has a size that
// can be natively transferred into a true icon
// if no is returned GetIconRef will still produce
// an icon but it will be generated via a PICT and
// rescaled to 16 x 16
bool HasNativeSize();
#ifndef __WXOSX_IPHONE__
// caller should increase ref count if needed longer
// than the bitmap exists
IconRef GetIconRef();
#endif
CGContextRef GetBitmapContext() const;
int GetBytesPerRow() const { return m_bytesPerRow; }
private :
bool Create(int width , int height , int depth);
bool Create(int width , int height , int depth, double logicalScale);
bool Create( CGImageRef image, double scale );
bool Create( CGContextRef bitmapcontext);
void Init();
int m_width;
int m_height;
int m_bytesPerRow;
int m_depth;
bool m_hasAlpha;
wxMemoryBuffer m_memBuf;
int m_rawAccessCount;
bool m_ok;
mutable CGImageRef m_cgImageRef;
bool m_isTemplate;
#ifndef __WXOSX_IPHONE__
IconRef m_iconRef;
#endif
CGContextRef m_hBitmap;
double m_scaleFactor;
};
#define wxOSX_USE_PREMULTIPLIED_ALPHA 1
static const int kBestByteAlignement = 16;
static const int kMaskBytesPerPixel = 1;
static int GetBestBytesPerRow( int rawBytes )
{
return (((rawBytes)+kBestByteAlignement-1) & ~(kBestByteAlignement-1) );
}
#if wxUSE_GUI && !defined(__WXOSX_IPHONE__)
// this is used for more controls than just the wxBitmap button, also for notebooks etc
void wxMacCreateBitmapButton( ControlButtonContentInfo*info , const wxBitmap& bitmap , int forceType )
{
memset( info , 0 , sizeof(ControlButtonContentInfo) ) ;
if ( bitmap.IsOk() )
{
wxBitmapRefData * bmap = bitmap.GetBitmapData() ;
if ( bmap == NULL )
return ;
if ( forceType == 0 )
{
forceType = kControlContentCGImageRef;
}
if ( forceType == kControlContentIconRef )
{
wxBitmap scaleBmp ;
wxBitmapRefData* bmp = bmap ;
if ( !bmap->HasNativeSize() )
{
// as PICT conversion will only result in a 16x16 icon, let's attempt
// a few scales for better results
int w = bitmap.GetWidth() ;
int h = bitmap.GetHeight() ;
int sz = wxMax( w , h ) ;
if ( sz == 24 || sz == 64 )
{
scaleBmp = wxBitmap( bitmap.ConvertToImage().Scale( w * 2 , h * 2 ) ) ;
bmp = scaleBmp.GetBitmapData() ;
}
}
info->contentType = kControlContentIconRef ;
info->u.iconRef = bmp->GetIconRef() ;
AcquireIconRef( info->u.iconRef ) ;
}
else if ( forceType == kControlContentCGImageRef )
{
info->contentType = kControlContentCGImageRef ;
info->u.imageRef = (CGImageRef) bmap->CreateCGImage() ;
}
}
}
CGImageRef wxMacCreateCGImageFromBitmap( const wxBitmap& bitmap )
{
wxBitmapRefData * bmap = bitmap.GetBitmapData() ;
if ( bmap == NULL )
return NULL ;
return (CGImageRef) bmap->CreateCGImage();
}
void wxMacReleaseBitmapButton( ControlButtonContentInfo*info )
{
if ( info->contentType == kControlContentIconRef )
{
ReleaseIconRef( info->u.iconRef ) ;
}
else if ( info->contentType == kControlNoContent )
{
// there's no bitmap at all, fall through silently
}
else if ( info->contentType == kControlContentPictHandle )
{
// owned by the bitmap, no release here
}
else if ( info->contentType == kControlContentCGImageRef )
{
CGImageRelease( info->u.imageRef ) ;
}
else
{
wxFAIL_MSG(wxT("Unexpected bitmap type") ) ;
}
}
#endif //wxUSE_BMPBUTTON
#define M_BITMAPDATA ((wxBitmapRefData *)m_refData)
void wxBitmapRefData::Init()
{
m_width = 0 ;
m_height = 0 ;
m_depth = 0 ;
m_bytesPerRow = 0;
m_ok = false ;
m_bitmapMask = NULL ;
m_cgImageRef = NULL ;
m_isTemplate = false;
#ifndef __WXOSX_IPHONE__
m_iconRef = NULL ;
#endif
m_hBitmap = NULL ;
m_rawAccessCount = 0 ;
m_hasAlpha = false;
m_scaleFactor = 1.0;
}
wxBitmapRefData::wxBitmapRefData(const wxBitmapRefData &tocopy) : wxGDIRefData()
{
Init();
Create(tocopy.m_width, tocopy.m_height, tocopy.m_depth, tocopy.m_scaleFactor);
if (tocopy.m_bitmapMask)
m_bitmapMask = new wxMask(*tocopy.m_bitmapMask);
else if (tocopy.m_hasAlpha)
UseAlpha(true);
unsigned char* dest = (unsigned char*)GetRawAccess();
unsigned char* source = (unsigned char*)tocopy.GetRawAccess();
size_t numbytes = m_bytesPerRow * m_height;
memcpy( dest, source, numbytes );
}
wxBitmapRefData::wxBitmapRefData()
{
Init() ;
}
wxBitmapRefData::wxBitmapRefData( int w , int h , int d )
{
Init() ;
Create( w , h , d ) ;
}
wxBitmapRefData::wxBitmapRefData(int w , int h , int d, double logicalscale)
{
Init() ;
Create( w , h , d, logicalscale ) ;
}
wxBitmapRefData::wxBitmapRefData(CGContextRef context)
{
Init();
Create( context );
}
wxBitmapRefData::wxBitmapRefData(CGImageRef image, double scale)
{
Init();
Create( image, scale );
}
// code from Technical Q&A QA1509
bool wxBitmapRefData::Create(CGImageRef image, double scale)
{
if ( image != NULL )
{
m_width = CGImageGetWidth(image);
m_height = CGImageGetHeight(image);
m_depth = 32;
m_hBitmap = NULL;
m_scaleFactor = scale;
m_bytesPerRow = GetBestBytesPerRow( m_width * 4 ) ;
size_t size = m_bytesPerRow * m_height ;
void* data = m_memBuf.GetWriteBuf( size ) ;
if ( data != NULL )
{
memset( data , 0 , size ) ;
m_memBuf.UngetWriteBuf( size ) ;
CGImageAlphaInfo alpha = CGImageGetAlphaInfo(image);
if ( alpha == kCGImageAlphaNone || alpha == kCGImageAlphaNoneSkipFirst || alpha == kCGImageAlphaNoneSkipLast )
{
m_hBitmap = CGBitmapContextCreate((char*) data, m_width, m_height, 8, m_bytesPerRow, wxMacGetGenericRGBColorSpace(), kCGImageAlphaNoneSkipFirst );
}
else
{
m_hasAlpha = true;
m_hBitmap = CGBitmapContextCreate((char*) data, m_width, m_height, 8, m_bytesPerRow, wxMacGetGenericRGBColorSpace(), kCGImageAlphaPremultipliedFirst );
}
CGRect rect = CGRectMake(0,0,m_width,m_height);
CGContextDrawImage(m_hBitmap, rect, image);
wxASSERT_MSG( m_hBitmap , wxT("Unable to create CGBitmapContext context") ) ;
CGContextTranslateCTM( m_hBitmap, 0, m_height );
CGContextScaleCTM( m_hBitmap, 1*m_scaleFactor, -1*m_scaleFactor );
} /* data != NULL */
}
m_ok = ( m_hBitmap != NULL ) ;
return m_ok ;
}
bool wxBitmapRefData::Create(CGContextRef context)
{
if ( context != NULL && CGBitmapContextGetData(context) )
{
m_hBitmap = context;
m_bytesPerRow = CGBitmapContextGetBytesPerRow(context);
m_width = CGBitmapContextGetWidth(context);
m_height = CGBitmapContextGetHeight(context);
m_depth = CGBitmapContextGetBitsPerPixel(context) ;
// our own contexts conform to this, always.
wxASSERT( m_depth == 32 );
// determine content scale
CGRect userrect = CGRectMake(0, 0, 10, 10);
CGRect devicerect;
devicerect = CGContextConvertRectToDeviceSpace(context, userrect);
m_scaleFactor = devicerect.size.height / userrect.size.height;
CGImageAlphaInfo alpha = CGBitmapContextGetAlphaInfo(context);
if ( alpha == kCGImageAlphaNone || alpha == kCGImageAlphaNoneSkipFirst || alpha == kCGImageAlphaNoneSkipLast )
{
// no alpha
}
else
{
m_hasAlpha = true;
}
}
m_ok = ( m_hBitmap != NULL ) ;
return m_ok ;
}
bool wxBitmapRefData::Create( int w , int h , int d )
{
m_width = wxMax(1, w);
m_height = wxMax(1, h);
m_depth = d ;
m_hBitmap = NULL ;
m_bytesPerRow = GetBestBytesPerRow( m_width * 4 ) ;
size_t size = m_bytesPerRow * m_height ;
void* data = m_memBuf.GetWriteBuf( size ) ;
if ( data != NULL )
{
memset( data , 0 , size ) ;
m_memBuf.UngetWriteBuf( size ) ;
m_hBitmap = CGBitmapContextCreate((char*) data, m_width, m_height, 8, m_bytesPerRow, wxMacGetGenericRGBColorSpace(), kCGImageAlphaNoneSkipFirst );
wxASSERT_MSG( m_hBitmap , wxT("Unable to create CGBitmapContext context") ) ;
CGContextTranslateCTM( m_hBitmap, 0, m_height );
CGContextScaleCTM( m_hBitmap, 1*m_scaleFactor, -1*m_scaleFactor );
} /* data != NULL */
m_ok = ( m_hBitmap != NULL ) ;
return m_ok ;
}
bool wxBitmapRefData::Create( int w , int h , int d, double logicalScale )
{
m_scaleFactor = logicalScale;
return Create(w*logicalScale,h*logicalScale,d);
}
void wxBitmapRefData::UseAlpha( bool use )
{
if ( m_hasAlpha == use )
return ;
m_hasAlpha = use ;
CGContextRelease( m_hBitmap );
m_hBitmap = CGBitmapContextCreate((char*) m_memBuf.GetData(), m_width, m_height, 8, m_bytesPerRow, wxMacGetGenericRGBColorSpace(), m_hasAlpha ? kCGImageAlphaPremultipliedFirst : kCGImageAlphaNoneSkipFirst );
wxASSERT_MSG( m_hBitmap , wxT("Unable to create CGBitmapContext context") ) ;
CGContextTranslateCTM( m_hBitmap, 0, m_height );
CGContextScaleCTM( m_hBitmap, 1*m_scaleFactor, -1*m_scaleFactor );
}
void *wxBitmapRefData::GetRawAccess() const
{
wxCHECK_MSG( IsOk(), NULL , wxT("invalid bitmap") ) ;
return m_memBuf.GetData() ;
}
void *wxBitmapRefData::BeginRawAccess()
{
wxCHECK_MSG( IsOk(), NULL, wxT("invalid bitmap") ) ;
wxASSERT( m_rawAccessCount == 0 ) ;
#ifndef __WXOSX_IPHONE__
wxASSERT_MSG( m_iconRef == NULL ,
wxT("Currently, modifing bitmaps that are used in controls already is not supported") ) ;
#endif
++m_rawAccessCount ;
// we must destroy an existing cached image, as
// the bitmap data may change now
if ( m_cgImageRef )
{
CGImageRelease( m_cgImageRef ) ;
m_cgImageRef = NULL ;
}
return m_memBuf.GetData() ;
}
void wxBitmapRefData::EndRawAccess()
{
wxCHECK_RET( IsOk() , wxT("invalid bitmap") ) ;
wxASSERT( m_rawAccessCount == 1 ) ;
--m_rawAccessCount ;
}
bool wxBitmapRefData::HasNativeSize()
{
int w = GetWidth() ;
int h = GetHeight() ;
int sz = wxMax( w , h ) ;
return ( sz == 128 || sz == 48 || sz == 32 || sz == 16 );
}
#ifndef __WXOSX_IPHONE__
IconRef wxBitmapRefData::GetIconRef()
{
if ( m_iconRef == NULL )
{
// Create Icon Family Handle
IconFamilyHandle iconFamily = (IconFamilyHandle) NewHandle( 0 );
int w = GetWidth() ;
int h = GetHeight() ;
int sz = wxMax( w , h ) ;
OSType dataType = 0 ;
OSType maskType = 0 ;
// since we don't have PICT conversion available, use
// the next larger standard icon size
// TODO: Use NSImage
if (sz <= 16)
sz = 16;
else if ( sz <= 32)
sz = 32;
else if ( sz <= 48)
sz = 48;
else if ( sz <= 128)
sz = 128;
else if ( sz <= 256)
sz = 256;
else if ( sz <= 512)
sz = 512;
else if ( sz <= 1024)
sz = 1024;
switch (sz)
{
case 1024:
dataType = kIconServices1024PixelDataARGB;
break;
case 512:
dataType = kIconServices512PixelDataARGB;
break;
case 256:
dataType = kIconServices256PixelDataARGB;
break;
case 128:
dataType = kIconServices128PixelDataARGB ;
break;
case 48:
dataType = kIconServices48PixelDataARGB ;
break;
case 32:
dataType = kIconServices32PixelDataARGB ;
break;
case 16:
dataType = kIconServices16PixelDataARGB ;
break;
default:
break;
}
if ( dataType != 0 )
{
if ( maskType == 0 )
{
size_t datasize = sz * sz * 4 ;
Handle data = NewHandle( datasize ) ;
HLock( data ) ;
unsigned char* ptr = (unsigned char*) *data ;
memset( ptr, 0, datasize );
bool hasAlpha = HasAlpha() ;
wxMask *mask = m_bitmapMask ;
unsigned char * sourcePtr = (unsigned char*) GetRawAccess() ;
unsigned char * masksourcePtr = mask ? (unsigned char*) mask->GetRawAccess() : NULL ;
for ( int y = 0 ; y < h ; ++y, sourcePtr += m_bytesPerRow , masksourcePtr += mask ? mask->GetBytesPerRow() : 0 )
{
unsigned char * source = sourcePtr;
unsigned char * masksource = masksourcePtr;
unsigned char * dest = ptr + y * sz * 4 ;
unsigned char a, r, g, b;
for ( int x = 0 ; x < w ; ++x )
{
a = *source ++ ;
r = *source ++ ;
g = *source ++ ;
b = *source ++ ;
if ( mask )
{
a = 0xFF - *masksource++ ;
}
else if ( !hasAlpha )
a = 0xFF ;
else
{
#if wxOSX_USE_PREMULTIPLIED_ALPHA
// this must be non-premultiplied data
if ( a != 0xFF && a!= 0 )
{
r = r * 255 / a;
g = g * 255 / a;
b = b * 255 / a;
}
#endif
}
*dest++ = a ;
*dest++ = r ;
*dest++ = g ;
*dest++ = b ;
}
}
HUnlock( data );
OSStatus err = SetIconFamilyData( iconFamily, dataType , data );
if ( err != noErr )
{
wxFAIL_MSG("Error when adding bitmap");
}
DisposeHandle( data );
}
else
{
// setup the header properly
Handle data = NULL ;
Handle maskdata = NULL ;
unsigned char * maskptr = NULL ;
unsigned char * ptr = NULL ;
size_t datasize, masksize ;
datasize = sz * sz * 4 ;
data = NewHandle( datasize ) ;
HLock( data ) ;
ptr = (unsigned char*) *data ;
memset( ptr , 0, datasize ) ;
masksize = sz * sz ;
maskdata = NewHandle( masksize ) ;
HLock( maskdata ) ;
maskptr = (unsigned char*) *maskdata ;
memset( maskptr , 0 , masksize ) ;
bool hasAlpha = HasAlpha() ;
wxMask *mask = m_bitmapMask ;
unsigned char * sourcePtr = (unsigned char*) GetRawAccess() ;
unsigned char * masksourcePtr = mask ? (unsigned char*) mask->GetRawAccess() : NULL ;
for ( int y = 0 ; y < h ; ++y, sourcePtr += m_bytesPerRow , masksourcePtr += mask ? mask->GetBytesPerRow() : 0 )
{
unsigned char * source = sourcePtr;
unsigned char * masksource = masksourcePtr;
unsigned char * dest = ptr + y * sz * 4 ;
unsigned char * maskdest = maskptr + y * sz ;
unsigned char a, r, g, b;
for ( int x = 0 ; x < w ; ++x )
{
a = *source ++ ;
r = *source ++ ;
g = *source ++ ;
b = *source ++ ;
*dest++ = 0 ;
*dest++ = r ;
*dest++ = g ;
*dest++ = b ;
if ( mask )
*maskdest++ = 0xFF - *masksource++ ;
else if ( hasAlpha )
*maskdest++ = a ;
else
*maskdest++ = 0xFF ;
}
}
OSStatus err = SetIconFamilyData( iconFamily, dataType , data ) ;
wxASSERT_MSG( err == noErr , wxT("Error when adding bitmap") ) ;
err = SetIconFamilyData( iconFamily, maskType , maskdata ) ;
wxASSERT_MSG( err == noErr , wxT("Error when adding mask") ) ;
HUnlock( data ) ;
HUnlock( maskdata ) ;
DisposeHandle( data ) ;
DisposeHandle( maskdata ) ;
}
}
// transform into IconRef
// cleaner version existing from 10.3 upwards
HLock((Handle) iconFamily);
OSStatus err = GetIconRefFromIconFamilyPtr( *iconFamily, GetHandleSize((Handle) iconFamily), &m_iconRef );
HUnlock((Handle) iconFamily);
DisposeHandle( (Handle) iconFamily ) ;
wxCHECK_MSG( err == noErr, NULL, wxT("Error when constructing icon ref") );
}
return m_iconRef ;
}
#endif
CGImageRef wxBitmapRefData::CreateCGImage() const
{
wxASSERT( m_ok ) ;
wxASSERT( m_rawAccessCount >= 0 ) ;
CGImageRef image ;
if ( m_rawAccessCount > 0 || m_cgImageRef == NULL )
{
if ( m_depth != 1 && m_bitmapMask == NULL )
{
#if 0
// in order for this code to work properly, wxMask would have to invert black and white
// in the native bitmap
if ( m_bitmapMask )
{
CGImageRef tempImage = CGBitmapContextCreateImage( m_hBitmap );
CGImageRef tempMask = CGBitmapContextCreateImage((CGContextRef) m_bitmapMask->GetHBITMAP() );
image = CGImageCreateWithMask( tempImage, tempMask );
CGImageRelease(tempMask);
CGImageRelease(tempImage);
}
else
#endif
image = CGBitmapContextCreateImage( m_hBitmap );
}
else
{
size_t imageSize = m_height * m_bytesPerRow ;
void * dataBuffer = m_memBuf.GetData() ;
int w = m_width ;
int h = m_height ;
CGImageAlphaInfo alphaInfo = kCGImageAlphaNoneSkipFirst ;
wxMemoryBuffer membuf;
if ( m_bitmapMask )
{
alphaInfo = kCGImageAlphaFirst ;
unsigned char *destalphastart = (unsigned char*) membuf.GetWriteBuf( imageSize ) ;
memcpy( destalphastart , dataBuffer , imageSize ) ;
unsigned char *sourcemaskstart = (unsigned char *) m_bitmapMask->GetRawAccess() ;
int maskrowbytes = m_bitmapMask->GetBytesPerRow() ;
for ( int y = 0 ; y < h ; ++y , destalphastart += m_bytesPerRow, sourcemaskstart += maskrowbytes)
{
unsigned char *sourcemask = sourcemaskstart ;
unsigned char *destalpha = destalphastart ;
for ( int x = 0 ; x < w ; ++x , sourcemask += kMaskBytesPerPixel , destalpha += 4 )
{
*destalpha = 0xFF - *sourcemask ;
}
}
membuf.UngetWriteBuf( imageSize );
}
else
{
if ( m_hasAlpha )
{
#if wxOSX_USE_PREMULTIPLIED_ALPHA
alphaInfo = kCGImageAlphaPremultipliedFirst ;
#else
alphaInfo = kCGImageAlphaFirst ;
#endif
}
membuf = m_memBuf;
}
CGDataProviderRef dataProvider = NULL ;
if ( m_depth == 1 )
{
// TODO CHECK ALIGNMENT
wxMemoryBuffer maskBuf;
unsigned char * maskBufData = (unsigned char*) maskBuf.GetWriteBuf( m_width * m_height );
unsigned char * bufData = (unsigned char *) membuf.GetData() ;
// copy one color component
size_t i = 0;
for( int y = 0 ; y < m_height ; bufData+= m_bytesPerRow, ++y )
{
unsigned char *bufDataIter = bufData+3;
for ( int x = 0 ; x < m_width ; bufDataIter += 4, ++x, ++i )
{
maskBufData[i] = *bufDataIter;
}
}
maskBuf.UngetWriteBuf( m_width * m_height );
dataProvider =
wxMacCGDataProviderCreateWithMemoryBuffer( maskBuf );
image = ::CGImageMaskCreate( w, h, 8, 8, m_width , dataProvider, NULL, false );
}
else
{
CGColorSpaceRef colorSpace = wxMacGetGenericRGBColorSpace();
dataProvider = wxMacCGDataProviderCreateWithMemoryBuffer( membuf );
image =
::CGImageCreate(
w, h, 8 , 32 , m_bytesPerRow , colorSpace, alphaInfo ,
dataProvider, NULL , false , kCGRenderingIntentDefault );
}
CGDataProviderRelease( dataProvider);
}
}
else
{
image = m_cgImageRef ;
CGImageRetain( image ) ;
}
if ( m_rawAccessCount == 0 && m_cgImageRef == NULL)
{
// we keep it for later use
m_cgImageRef = image ;
CGImageRetain( image ) ;
}
return image ;
}
CGContextRef wxBitmapRefData::GetBitmapContext() const
{
return m_hBitmap;
}
void wxBitmapRefData::Free()
{
wxASSERT_MSG( m_rawAccessCount == 0 , wxT("Bitmap still selected when destroyed") ) ;
if ( m_cgImageRef )
{
CGImageRelease( m_cgImageRef ) ;
m_cgImageRef = NULL ;
}
#ifndef __WXOSX_IPHONE__
if ( m_iconRef )
{
ReleaseIconRef( m_iconRef ) ;
m_iconRef = NULL ;
}
#endif
if ( m_hBitmap )
{
CGContextRelease(m_hBitmap);
m_hBitmap = NULL ;
}
wxDELETE(m_bitmapMask);
}
wxBitmapRefData::~wxBitmapRefData()
{
Free() ;
}
// ----------------------------------------------------------------------------
// wxBitmap
// ----------------------------------------------------------------------------
bool wxBitmap::CopyFromIcon(const wxIcon& icon)
{
bool created = false ;
int w = icon.GetWidth() ;
int h = icon.GetHeight() ;
Create( w , h ) ;
if ( !created )
{
wxMemoryDC dc ;
dc.SelectObject( *this ) ;
dc.DrawIcon( icon , 0 , 0 ) ;
dc.SelectObject( wxNullBitmap ) ;
}
return true;
}
wxBitmap::wxBitmap(const char bits[], int the_width, int the_height, int no_bits)
{
wxBitmapRefData* bitmapRefData;
m_refData = bitmapRefData = new wxBitmapRefData( the_width , the_height , no_bits ) ;
if (bitmapRefData->IsOk())
{
if ( no_bits == 1 )
{
int linesize = the_width / 8;
if ( the_width % 8 )
linesize++;
unsigned char* linestart = (unsigned char*) bits ;
unsigned char* destptr = (unsigned char*) BeginRawAccess() ;
for ( int y = 0 ; y < the_height ; ++y , linestart += linesize, destptr += M_BITMAPDATA->GetBytesPerRow() )
{
unsigned char* destination = destptr;
int index, bit, mask;
for ( int x = 0 ; x < the_width ; ++x )
{
index = x / 8 ;
bit = x % 8 ;
mask = 1 << bit ;
if ( linestart[index] & mask )
{
*destination++ = 0xFF ;
*destination++ = 0 ;
*destination++ = 0 ;
*destination++ = 0 ;
}
else
{
*destination++ = 0xFF ;
*destination++ = 0xFF ;
*destination++ = 0xFF ;
*destination++ = 0xFF ;
}
}
}
EndRawAccess() ;
}
else
{
wxFAIL_MSG(wxT("multicolor BITMAPs not yet implemented"));
}
} /* bitmapRefData->IsOk() */
}
wxBitmap::wxBitmap(const void* data, wxBitmapType type, int width, int height, int depth)
{
(void) Create(data, type, width, height, depth);
}
wxBitmap::wxBitmap(int width, int height, const wxDC& dc)
{
(void)Create(width, height, dc);
}
wxBitmap::wxBitmap(const wxString& filename, wxBitmapType type)
{
LoadFile(filename, type);
}
wxBitmap::wxBitmap(CGImageRef image, double scale)
{
(void) Create(image,scale);
}
wxGDIRefData* wxBitmap::CreateGDIRefData() const
{
return new wxBitmapRefData;
}
wxGDIRefData* wxBitmap::CloneGDIRefData(const wxGDIRefData* data) const
{
return new wxBitmapRefData(*static_cast<const wxBitmapRefData *>(data));
}
void * wxBitmap::GetRawAccess() const
{
wxCHECK_MSG( IsOk() , NULL , wxT("invalid bitmap") ) ;
return M_BITMAPDATA->GetRawAccess() ;
}
void * wxBitmap::BeginRawAccess()
{
wxCHECK_MSG( IsOk() , NULL , wxT("invalid bitmap") ) ;
return M_BITMAPDATA->BeginRawAccess() ;
}
void wxBitmap::EndRawAccess()
{
wxCHECK_RET( IsOk() , wxT("invalid bitmap") ) ;
M_BITMAPDATA->EndRawAccess() ;
}
CGImageRef wxBitmap::CreateCGImage() const
{
wxCHECK_MSG( IsOk(), NULL , wxT("invalid bitmap") ) ;
return M_BITMAPDATA->CreateCGImage() ;
}
#ifndef __WXOSX_IPHONE__
IconRef wxBitmap::GetIconRef() const
{
wxCHECK_MSG( IsOk(), NULL , wxT("invalid bitmap") ) ;
return M_BITMAPDATA->GetIconRef() ;
}
IconRef wxBitmap::CreateIconRef() const
{
IconRef icon = GetIconRef();
verify_noerr( AcquireIconRef(icon) );
return icon;
}
#endif
#if wxOSX_USE_COCOA
wxBitmap::wxBitmap(WX_NSImage image)
{
(void)Create(image);
}
bool wxBitmap::Create(WX_NSImage image)
{
bool isTemplate;
if (!Create(wxOSXCreateBitmapContextFromNSImage(image, &isTemplate)))
return false;
M_BITMAPDATA->SetTemplate(isTemplate);
return true;
}
wxBitmap::wxBitmap(CGContextRef bitmapcontext)
{
(void)Create(bitmapcontext);
}
bool wxBitmap::Create(CGContextRef bitmapcontext)
{
UnRef();
m_refData = new wxBitmapRefData( bitmapcontext );
return M_BITMAPDATA->IsOk() ;
}
WX_NSImage wxBitmap::GetNSImage() const
{
wxCFRef< CGImageRef > cgimage(CreateCGImage());
return wxOSXGetNSImageFromCGImage( cgimage, GetScaleFactor(), M_BITMAPDATA->IsTemplate() );
}
#endif
#if wxOSX_USE_IPHONE
WX_UIImage wxBitmap::GetUIImage() const
{
wxCFRef< CGImageRef > cgimage(CreateCGImage());
return wxOSXGetUIImageFromCGImage( cgimage );
}
#endif
wxBitmap wxBitmap::GetSubBitmap(const wxRect &rect) const
{
wxCHECK_MSG( IsOk() &&
(rect.x >= 0) && (rect.y >= 0) &&
(rect.x+rect.width <= GetWidth()) &&
(rect.y+rect.height <= GetHeight()),
wxNullBitmap, wxT("invalid bitmap or bitmap region") );
wxBitmap ret;
double scale = GetScaleFactor();
ret.CreateScaled( rect.width, rect.height, GetDepth(), scale );
wxASSERT_MSG( ret.IsOk(), wxT("GetSubBitmap error") );
int destwidth = rect.width*scale ;
int destheight = rect.height*scale ;
{
unsigned char *sourcedata = (unsigned char*) GetRawAccess() ;
unsigned char *destdata = (unsigned char*) ret.BeginRawAccess() ;
wxASSERT((sourcedata != NULL) && (destdata != NULL));
if ( (sourcedata != NULL) && (destdata != NULL) )
{
int sourcelinesize = GetBitmapData()->GetBytesPerRow() ;
int destlinesize = ret.GetBitmapData()->GetBytesPerRow() ;
unsigned char *source = sourcedata + int(rect.x * scale * 4 + rect.y *scale * sourcelinesize) ;
unsigned char *dest = destdata ;
for (int yy = 0; yy < destheight; ++yy, source += sourcelinesize , dest += destlinesize)
{
memcpy( dest , source , destlinesize ) ;
}
}
ret.EndRawAccess() ;
}
if ( M_BITMAPDATA->m_bitmapMask )
{
wxMemoryBuffer maskbuf ;
int rowBytes = GetBestBytesPerRow( destwidth * kMaskBytesPerPixel );
size_t maskbufsize = rowBytes * destheight ;
int sourcelinesize = M_BITMAPDATA->m_bitmapMask->GetBytesPerRow() ;
int destlinesize = rowBytes ;
unsigned char *source = (unsigned char *) M_BITMAPDATA->m_bitmapMask->GetRawAccess() ;
unsigned char *destdata = (unsigned char * ) maskbuf.GetWriteBuf( maskbufsize ) ;
wxASSERT( (source != NULL) && (destdata != NULL) ) ;
if ( (source != NULL) && (destdata != NULL) )
{
source += rect.x * kMaskBytesPerPixel + rect.y * sourcelinesize ;
unsigned char *dest = destdata ;
for (int yy = 0; yy < destheight; ++yy, source += sourcelinesize , dest += destlinesize)
{
memcpy( dest , source , destlinesize ) ;
}
maskbuf.UngetWriteBuf( maskbufsize ) ;
}
ret.SetMask( new wxMask( maskbuf , destwidth , destheight , rowBytes ) ) ;
}
else if ( HasAlpha() )
ret.UseAlpha() ;
return ret;
}
bool wxBitmap::Create(int w, int h, int d)
{
UnRef();
wxCHECK_MSG(w > 0 && h > 0, false, "invalid bitmap size");
if ( d < 0 )
d = wxDisplayDepth() ;
m_refData = new wxBitmapRefData( w , h , d );
return M_BITMAPDATA->IsOk() ;
}
bool wxBitmap::Create(int w, int h, const wxDC& dc)
{
double factor = dc.GetContentScaleFactor();
return CreateScaled(w,h,wxBITMAP_SCREEN_DEPTH, factor);
}
bool wxBitmap::CreateScaled(int w, int h, int d, double logicalScale)
{
UnRef();
if ( d < 0 )
d = wxDisplayDepth() ;
m_refData = new wxBitmapRefData( w , h , d, logicalScale );
return M_BITMAPDATA->IsOk() ;
}
bool wxBitmap::Create(CGImageRef image, double scale)
{
UnRef();
m_refData = new wxBitmapRefData( image, scale );
return M_BITMAPDATA->IsOk() ;
}
bool wxBitmap::LoadFile(const wxString& filename, wxBitmapType type)
{
UnRef();
wxBitmapHandler *handler = FindHandler(type);
if ( handler )
{
m_refData = new wxBitmapRefData;
return handler->LoadFile(this, filename, type, -1, -1);
}
else
{
#if wxUSE_IMAGE
double scale = 1.0;
wxString fname = filename;
if ( type == wxBITMAP_TYPE_PNG )
{
if ( wxOSXGetMainScreenContentScaleFactor() > 1.9 )
{
wxFileName fn(filename);
fn.MakeAbsolute();
fn.SetName(fn.GetName()+"@2x");
if ( fn.Exists() )
{
fname = fn.GetFullPath();
scale = 2.0;
}
}
}
wxImage loadimage(fname, type);
if (loadimage.IsOk())
{
*this = wxBitmap(loadimage,-1,scale);
return true;
}
#endif
}
wxLogWarning(wxT("no bitmap handler for type %d defined."), type);
return false;
}
bool wxBitmap::Create(const void* data, wxBitmapType type, int width, int height, int depth)
{
UnRef();
m_refData = new wxBitmapRefData;
wxBitmapHandler *handler = FindHandler(type);
if ( handler == NULL )
{
wxLogWarning(wxT("no bitmap handler for type %d defined."), type);
return false;
}
return handler->Create(this, data, type, width, height, depth);
}
#if wxUSE_IMAGE
wxBitmap::wxBitmap(const wxImage& image, int depth, double scale)
{
wxCHECK_RET( image.IsOk(), wxT("invalid image") );
// width and height of the device-dependent bitmap
int width = image.GetWidth();
int height = image.GetHeight();
wxBitmapRefData* bitmapRefData;
m_refData = bitmapRefData = new wxBitmapRefData( width/scale, height/scale, depth, scale) ;
if ( bitmapRefData->IsOk())
{
// Create picture
bool hasAlpha = false ;
if ( image.HasMask() )
{
// takes precedence, don't mix with alpha info
}
else
{
hasAlpha = image.HasAlpha() ;
}
if ( hasAlpha )
UseAlpha() ;
unsigned char* destinationstart = (unsigned char*) BeginRawAccess() ;
unsigned char* data = image.GetData();
if ( destinationstart != NULL && data != NULL )
{
const unsigned char *alpha = hasAlpha ? image.GetAlpha() : NULL ;
for (int y = 0; y < height; destinationstart += M_BITMAPDATA->GetBytesPerRow(), y++)
{
unsigned char * destination = destinationstart;
for (int x = 0; x < width; x++)
{
if ( hasAlpha )
{
const unsigned char a = *alpha++;
*destination++ = a ;
#if wxOSX_USE_PREMULTIPLIED_ALPHA
*destination++ = ((*data++) * a + 127) / 255 ;
*destination++ = ((*data++) * a + 127) / 255 ;
*destination++ = ((*data++) * a + 127) / 255 ;
#else
*destination++ = *data++ ;
*destination++ = *data++ ;
*destination++ = *data++ ;
#endif
}
else
{
*destination++ = 0xFF ;
*destination++ = *data++ ;
*destination++ = *data++ ;
*destination++ = *data++ ;
}
}
}
EndRawAccess() ;
}
if ( image.HasMask() )
SetMask( new wxMask( *this , wxColour( image.GetMaskRed() , image.GetMaskGreen() , image.GetMaskBlue() ) ) ) ;
} /* bitmapRefData->IsOk() */
}
wxImage wxBitmap::ConvertToImage() const
{
wxImage image;
wxCHECK_MSG( IsOk(), wxNullImage, wxT("invalid bitmap") );
// create an wxImage object
int width = GetWidth();
int height = GetHeight();
image.Create( width, height );
unsigned char *data = image.GetData();
wxCHECK_MSG( data, wxNullImage, wxT("Could not allocate data for image") );
unsigned char* sourcestart = (unsigned char*) GetRawAccess() ;
bool hasAlpha = false ;
bool hasMask = false ;
int maskBytesPerRow = 0 ;
unsigned char *alpha = NULL ;
unsigned char *mask = NULL ;
if ( HasAlpha() )
hasAlpha = true ;
if ( GetMask() )
{
hasMask = true ;
mask = (unsigned char*) GetMask()->GetRawAccess() ;
maskBytesPerRow = GetMask()->GetBytesPerRow() ;
}
if ( hasAlpha )
{
image.SetAlpha() ;
alpha = image.GetAlpha() ;
}
int index = 0;
// The following masking algorithm is the same as well in msw/gtk:
// the colour used as transparent one in wxImage and the one it is
// replaced with when it actually occurs in the bitmap
static const int MASK_RED = 1;
static const int MASK_GREEN = 2;
static const int MASK_BLUE = 3;
static const int MASK_BLUE_REPLACEMENT = 2;
for (int yy = 0; yy < height; yy++ , sourcestart += M_BITMAPDATA->GetBytesPerRow() , mask += maskBytesPerRow )
{
unsigned char * maskp = mask ;
const wxUint32 * source = (wxUint32*)sourcestart;
unsigned char a, r, g, b;
for (int xx = 0; xx < width; xx++)
{
const wxUint32 color = *source++;
#ifdef WORDS_BIGENDIAN
a = ((color&0xFF000000) >> 24) ;
r = ((color&0x00FF0000) >> 16) ;
g = ((color&0x0000FF00) >> 8) ;
b = (color&0x000000FF);
#else
b = ((color&0xFF000000) >> 24) ;
g = ((color&0x00FF0000) >> 16) ;
r = ((color&0x0000FF00) >> 8) ;
a = (color&0x000000FF);
#endif
if ( hasMask )
{
if ( *maskp++ == 0xFF )
{
r = MASK_RED ;
g = MASK_GREEN ;
b = MASK_BLUE ;
}
else if ( r == MASK_RED && g == MASK_GREEN && b == MASK_BLUE )
b = MASK_BLUE_REPLACEMENT ;
}
else if ( hasAlpha )
{
*alpha++ = a ;
#if wxOSX_USE_PREMULTIPLIED_ALPHA
// this must be non-premultiplied data
if ( a != 0xFF && a!= 0 )
{
r = r * 255 / a;
g = g * 255 / a;
b = b * 255 / a;
}
#endif
}
data[index ] = r ;
data[index + 1] = g ;
data[index + 2] = b ;
index += 3;
}
}
if ( hasMask )
image.SetMaskColour( MASK_RED, MASK_GREEN, MASK_BLUE );
return image;
}
#endif //wxUSE_IMAGE
bool wxBitmap::SaveFile( const wxString& filename,
wxBitmapType type, const wxPalette *palette ) const
{
bool success = false;
wxBitmapHandler *handler = FindHandler(type);
if ( handler )
{
success = handler->SaveFile(this, filename, type, palette);
}
else
{
#if wxUSE_IMAGE
wxImage image = ConvertToImage();
success = image.SaveFile(filename, type);
#else
wxLogWarning(wxT("no bitmap handler for type %d defined."), type);
#endif
}
return success;
}
int wxBitmap::GetHeight() const
{
wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") );
return M_BITMAPDATA->GetHeight();
}
int wxBitmap::GetWidth() const
{
wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") );
return M_BITMAPDATA->GetWidth() ;
}
double wxBitmap::GetScaleFactor() const
{
wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") );
return M_BITMAPDATA->GetScaleFactor() ;
}
int wxBitmap::GetDepth() const
{
wxCHECK_MSG( IsOk(), -1, wxT("invalid bitmap") );
return M_BITMAPDATA->GetDepth();
}
wxMask *wxBitmap::GetMask() const
{
wxCHECK_MSG( IsOk(), NULL, wxT("invalid bitmap") );
return M_BITMAPDATA->m_bitmapMask;
}
bool wxBitmap::HasAlpha() const
{
wxCHECK_MSG( IsOk(), false , wxT("invalid bitmap") );
return M_BITMAPDATA->HasAlpha() ;
}
void wxBitmap::SetWidth(int w)
{
AllocExclusive();
M_BITMAPDATA->SetWidth(w);
}
void wxBitmap::SetHeight(int h)
{
AllocExclusive();
M_BITMAPDATA->SetHeight(h);
}
void wxBitmap::SetDepth(int d)
{
AllocExclusive();
M_BITMAPDATA->SetDepth(d);
}
void wxBitmap::SetOk(bool isOk)
{
AllocExclusive();
M_BITMAPDATA->SetOk(isOk);
}
#if wxUSE_PALETTE
wxPalette *wxBitmap::GetPalette() const
{
wxCHECK_MSG( IsOk(), NULL, wxT("Invalid bitmap GetPalette()") );
return &M_BITMAPDATA->m_bitmapPalette;
}
void wxBitmap::SetPalette(const wxPalette& palette)
{
AllocExclusive();
M_BITMAPDATA->m_bitmapPalette = palette ;
}
#endif // wxUSE_PALETTE
void wxBitmap::SetMask(wxMask *mask)
{
AllocExclusive();
// Remove existing mask if there is one.
delete M_BITMAPDATA->m_bitmapMask;
M_BITMAPDATA->m_bitmapMask = mask ;
}
WXHBITMAP wxBitmap::GetHBITMAP(WXHBITMAP* mask) const
{
wxUnusedVar(mask);
return WXHBITMAP(M_BITMAPDATA->GetBitmapContext());
}
// ----------------------------------------------------------------------------
// wxMask
// ----------------------------------------------------------------------------
wxMask::wxMask()
{
Init() ;
}
wxMask::wxMask(const wxMask &tocopy) : wxObject()
{
Init();
m_bytesPerRow = tocopy.m_bytesPerRow;
m_width = tocopy.m_width;
m_height = tocopy.m_height;
size_t size = m_bytesPerRow * m_height;
unsigned char* dest = (unsigned char*)m_memBuf.GetWriteBuf( size );
unsigned char* source = (unsigned char*)tocopy.m_memBuf.GetData();
memcpy( dest, source, size );
m_memBuf.UngetWriteBuf( size ) ;
RealizeNative() ;
}
// Construct a mask from a bitmap and a colour indicating
// the transparent area
wxMask::wxMask( const wxBitmap& bitmap, const wxColour& colour )
{
Init() ;
Create( bitmap, colour );
}
// Construct a mask from a mono bitmap (copies the bitmap).
wxMask::wxMask( const wxBitmap& bitmap )
{
Init() ;
Create( bitmap );
}
// Construct a mask from a mono bitmap (copies the bitmap).
wxMask::wxMask( const wxMemoryBuffer& data, int width , int height , int bytesPerRow )
{
Init() ;
Create( data, width , height , bytesPerRow );
}
wxMask::~wxMask()
{
if ( m_maskBitmap )
{
CGContextRelease( (CGContextRef) m_maskBitmap );
m_maskBitmap = NULL ;
}
}
void wxMask::Init()
{
m_width = m_height = m_bytesPerRow = 0 ;
m_maskBitmap = NULL ;
}
void *wxMask::GetRawAccess() const
{
return m_memBuf.GetData() ;
}
// The default ColorTable for k8IndexedGrayPixelFormat in Intel appears to be broken, so we'll use an non-indexed
// bitmap mask instead; in order to keep the code simple, the change applies to PowerPC implementations as well
void wxMask::RealizeNative()
{
if ( m_maskBitmap )
{
CGContextRelease( (CGContextRef) m_maskBitmap );
m_maskBitmap = NULL ;
}
CGColorSpaceRef colorspace = CGColorSpaceCreateDeviceGray();
// from MouseTracking sample :
// Ironically, due to a bug in CGImageCreateWithMask, you cannot use
// CGColorSpaceCreateWithName(kCGColorSpaceGenericGray) at this point!
m_maskBitmap = CGBitmapContextCreate((char*) m_memBuf.GetData(), m_width, m_height, 8, m_bytesPerRow, colorspace,
kCGImageAlphaNone );
CGColorSpaceRelease( colorspace );
wxASSERT_MSG( m_maskBitmap , wxT("Unable to create CGBitmapContext context") ) ;
}
// Create a mask from a mono bitmap (copies the bitmap).
bool wxMask::Create(const wxMemoryBuffer& data,int width , int height , int bytesPerRow)
{
m_memBuf = data ;
m_width = width ;
m_height = height ;
m_bytesPerRow = bytesPerRow ;
wxASSERT( data.GetDataLen() == (size_t)(height * bytesPerRow) ) ;
RealizeNative() ;
return true ;
}
// Create a mask from a mono bitmap (copies the bitmap).
bool wxMask::Create(const wxBitmap& bitmap)
{
m_width = bitmap.GetWidth() ;
m_height = bitmap.GetHeight() ;
m_bytesPerRow = GetBestBytesPerRow( m_width * kMaskBytesPerPixel ) ;
size_t size = m_bytesPerRow * m_height ;
unsigned char * destdatabase = (unsigned char*) m_memBuf.GetWriteBuf( size ) ;
wxASSERT( destdatabase != NULL ) ;
if ( destdatabase )
{
memset( destdatabase , 0 , size ) ;
unsigned char * srcdata = (unsigned char*) bitmap.GetRawAccess() ;
for ( int y = 0 ; y < m_height ; ++y , destdatabase += m_bytesPerRow )
{
unsigned char *destdata = destdatabase ;
unsigned char r, g, b;
for ( int x = 0 ; x < m_width ; ++x )
{
srcdata++ ;
r = *srcdata++ ;
g = *srcdata++ ;
b = *srcdata++ ;
if ( ( r + g + b ) > 0x10 )
*destdata++ = 0xFF ;
else
*destdata++ = 0x00 ;
}
}
}
m_memBuf.UngetWriteBuf( size ) ;
RealizeNative() ;
return true;
}
// Create a mask from a bitmap and a colour indicating
// the transparent area
bool wxMask::Create(const wxBitmap& bitmap, const wxColour& colour)
{
m_width = bitmap.GetWidth() ;
m_height = bitmap.GetHeight() ;
m_bytesPerRow = GetBestBytesPerRow( m_width * kMaskBytesPerPixel ) ;
size_t size = m_bytesPerRow * m_height ;
unsigned char * destdatabase = (unsigned char*) m_memBuf.GetWriteBuf( size ) ;
wxASSERT( destdatabase != NULL ) ;
if ( destdatabase != NULL)
{
memset( destdatabase , 0 , size ) ;
unsigned char * srcdatabase = (unsigned char*) bitmap.GetRawAccess() ;
size_t sourceBytesRow = bitmap.GetBitmapData()->GetBytesPerRow();
for ( int y = 0 ; y < m_height ; ++y , srcdatabase+= sourceBytesRow, destdatabase += m_bytesPerRow)
{
unsigned char *srcdata = srcdatabase ;
unsigned char *destdata = destdatabase ;
unsigned char r, g, b;
for ( int x = 0 ; x < m_width ; ++x )
{
srcdata++ ;
r = *srcdata++ ;
g = *srcdata++ ;
b = *srcdata++ ;
if ( colour == wxColour( r , g , b ) )
*destdata++ = 0xFF ;
else
*destdata++ = 0x00 ;
}
}
}
m_memBuf.UngetWriteBuf( size ) ;
RealizeNative() ;
return true;
}
wxBitmap wxMask::GetBitmap() const
{
wxBitmap bitmap(m_width, m_height, 1);
unsigned char* dst = static_cast<unsigned char*>(bitmap.BeginRawAccess());
const int dst_stride = bitmap.GetBitmapData()->GetBytesPerRow();
const unsigned char* src = static_cast<unsigned char*>(GetRawAccess());
for (int j = 0; j < m_height; j++, src += m_bytesPerRow, dst += dst_stride)
{
unsigned char* d = dst;
for (int i = 0; i < m_width; i++)
{
const unsigned char byte = src[i];
*d++ = 0xff;
*d++ = byte;
*d++ = byte;
*d++ = byte;
}
}
bitmap.EndRawAccess();
return bitmap;
}
WXHBITMAP wxMask::GetHBITMAP() const
{
return m_maskBitmap ;
}
// ----------------------------------------------------------------------------
// Standard Handlers
// ----------------------------------------------------------------------------
class WXDLLEXPORT wxBundleResourceHandler: public wxBitmapHandler
{
wxDECLARE_ABSTRACT_CLASS(wxBundleResourceHandler);
public:
inline wxBundleResourceHandler()
{
}
virtual bool LoadFile(wxBitmap *bitmap,
const wxString& name,
wxBitmapType type,
int desiredWidth,
int desiredHeight) wxOVERRIDE;
};
wxIMPLEMENT_ABSTRACT_CLASS(wxBundleResourceHandler, wxBitmapHandler);
class WXDLLEXPORT wxPNGResourceHandler: public wxBundleResourceHandler
{
wxDECLARE_DYNAMIC_CLASS(wxPNGResourceHandler);
public:
inline wxPNGResourceHandler()
{
SetName(wxT("PNG resource"));
SetExtension("PNG");
SetType(wxBITMAP_TYPE_PNG_RESOURCE);
}
};
wxIMPLEMENT_DYNAMIC_CLASS(wxPNGResourceHandler, wxBundleResourceHandler);
class WXDLLEXPORT wxJPEGResourceHandler: public wxBundleResourceHandler
{
wxDECLARE_DYNAMIC_CLASS(wxJPEGResourceHandler);
public:
inline wxJPEGResourceHandler()
{
SetName(wxT("JPEG resource"));
SetExtension("JPEG");
SetType(wxBITMAP_TYPE_JPEG_RESOURCE);
}
};
wxIMPLEMENT_DYNAMIC_CLASS(wxJPEGResourceHandler, wxBundleResourceHandler);
bool wxBundleResourceHandler::LoadFile(wxBitmap *bitmap,
const wxString& name,
wxBitmapType WXUNUSED(type),
int WXUNUSED(desiredWidth),
int WXUNUSED(desiredHeight))
{
wxString ext = GetExtension().Lower();
wxCFStringRef resname(name);
wxCFStringRef resname2x(name+"@2x");
wxCFStringRef restype(ext);
double scale = 1.0;
wxCFRef<CFURLRef> imageURL;
if ( wxOSXGetMainScreenContentScaleFactor() > 1.9 )
{
imageURL.reset(CFBundleCopyResourceURL(CFBundleGetMainBundle(), resname2x, restype, NULL));
scale = 2.0;
}
if ( imageURL.get() == NULL )
{
imageURL.reset(CFBundleCopyResourceURL(CFBundleGetMainBundle(), resname, restype, NULL));
scale = 1.0;
}
if ( imageURL.get() != NULL )
{
// Create the data provider object
wxCFRef<CGDataProviderRef> provider(CGDataProviderCreateWithURL (imageURL) );
CGImageRef image = NULL;
if ( ext == "jpeg" )
image = CGImageCreateWithJPEGDataProvider (provider, NULL, true,
kCGRenderingIntentDefault);
else if ( ext == "png" )
image = CGImageCreateWithPNGDataProvider (provider, NULL, true,
kCGRenderingIntentDefault);
if ( image != NULL )
{
bitmap->Create(image,scale);
CGImageRelease(image);
}
}
return false ;
}
/* static */
wxBitmap wxBitmapHelpers::NewFromPNGData(const void* data, size_t size)
{
wxCFRef<CGDataProviderRef>
provider(CGDataProviderCreateWithData(NULL, data, size, NULL) );
wxCFRef<CGImageRef>
image(CGImageCreateWithPNGDataProvider(provider, NULL, true,
kCGRenderingIntentDefault));
return wxBitmap(image);
}
void wxBitmap::InitStandardHandlers()
{
#if wxOSX_USE_COCOA_OR_CARBON
AddHandler( new wxICONResourceHandler ) ;
#endif
AddHandler( new wxPNGResourceHandler );
AddHandler( new wxJPEGResourceHandler );
}
// ----------------------------------------------------------------------------
// raw bitmap access support
// ----------------------------------------------------------------------------
void *wxBitmap::GetRawData(wxPixelDataBase& data, int WXUNUSED(bpp))
{
if ( !IsOk() )
// no bitmap, no data (raw or otherwise)
return NULL;
data.m_width = GetWidth() ;
data.m_height = GetHeight() ;
data.m_stride = GetBitmapData()->GetBytesPerRow() ;
return BeginRawAccess() ;
}
void wxBitmap::UngetRawData(wxPixelDataBase& WXUNUSED(dataBase))
{
EndRawAccess() ;
}
void wxBitmap::UseAlpha()
{
// remember that we are using alpha channel:
// we'll need to create a proper mask in UngetRawData()
M_BITMAPDATA->UseAlpha( true );
}
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