1 /////////////////////////////////////////////////////////////////////////////
2 // Name: src/common/image.cpp
4 // Author: Robert Roebling
6 // Copyright: (c) Robert Roebling
7 // Licence: wxWindows licence
8 /////////////////////////////////////////////////////////////////////////////
10 // For compilers that support precompilation, includes "wx.h".
11 #include "wx/wxprec.h"
26 #include "wx/module.h"
27 #include "wx/palette.h"
31 #include "wx/filefn.h"
32 #include "wx/wfstream.h"
33 #include "wx/xpmdecod.h"
38 // make the code compile with either wxFile*Stream or wxFFile*Stream:
39 #define HAS_FILE_STREAMS (wxUSE_STREAMS && (wxUSE_FILE || wxUSE_FFILE))
43 typedef wxFFileInputStream wxImageFileInputStream
;
44 typedef wxFFileOutputStream wxImageFileOutputStream
;
46 typedef wxFileInputStream wxImageFileInputStream
;
47 typedef wxFileOutputStream wxImageFileOutputStream
;
48 #endif // wxUSE_FILE/wxUSE_FFILE
49 #endif // HAS_FILE_STREAMS
52 IMPLEMENT_VARIANT_OBJECT_EXPORTED_SHALLOWCMP(wxImage
,WXDLLEXPORT
)
55 //-----------------------------------------------------------------------------
57 //-----------------------------------------------------------------------------
59 class wxImageRefData
: public wxObjectRefData
63 virtual ~wxImageRefData();
67 unsigned char *m_data
;
70 unsigned char m_maskRed
,m_maskGreen
,m_maskBlue
;
72 // alpha channel data, may be NULL for the formats without alpha support
73 unsigned char *m_alpha
;
77 // if true, m_data is pointer to static data and shouldn't be freed
80 // same as m_static but for m_alpha
85 #endif // wxUSE_PALETTE
87 wxArrayString m_optionNames
;
88 wxArrayString m_optionValues
;
90 DECLARE_NO_COPY_CLASS(wxImageRefData
)
93 wxImageRefData::wxImageRefData()
98 m_alpha
= (unsigned char *) NULL
;
107 m_staticAlpha
= false;
110 wxImageRefData::~wxImageRefData()
114 if ( !m_staticAlpha
)
118 wxList
wxImage::sm_handlers
;
122 //-----------------------------------------------------------------------------
124 #define M_IMGDATA wx_static_cast(wxImageRefData*, m_refData)
126 IMPLEMENT_DYNAMIC_CLASS(wxImage
, wxObject
)
128 wxImage::wxImage( int width
, int height
, bool clear
)
130 Create( width
, height
, clear
);
133 wxImage::wxImage( int width
, int height
, unsigned char* data
, bool static_data
)
135 Create( width
, height
, data
, static_data
);
138 wxImage::wxImage( int width
, int height
, unsigned char* data
, unsigned char* alpha
, bool static_data
)
140 Create( width
, height
, data
, alpha
, static_data
);
143 wxImage::wxImage( const wxString
& name
, long type
, int index
)
145 LoadFile( name
, type
, index
);
148 wxImage::wxImage( const wxString
& name
, const wxString
& mimetype
, int index
)
150 LoadFile( name
, mimetype
, index
);
154 wxImage::wxImage( wxInputStream
& stream
, long type
, int index
)
156 LoadFile( stream
, type
, index
);
159 wxImage::wxImage( wxInputStream
& stream
, const wxString
& mimetype
, int index
)
161 LoadFile( stream
, mimetype
, index
);
163 #endif // wxUSE_STREAMS
165 wxImage::wxImage(const char* const* xpmData
)
170 bool wxImage::Create(const char* const* xpmData
)
175 wxXPMDecoder decoder
;
176 (*this) = decoder
.ReadData(xpmData
);
183 bool wxImage::Create( int width
, int height
, bool clear
)
187 m_refData
= new wxImageRefData();
189 M_IMGDATA
->m_data
= (unsigned char *) malloc( width
*height
*3 );
190 if (!M_IMGDATA
->m_data
)
197 memset(M_IMGDATA
->m_data
, 0, width
*height
*3);
199 M_IMGDATA
->m_width
= width
;
200 M_IMGDATA
->m_height
= height
;
201 M_IMGDATA
->m_ok
= true;
206 bool wxImage::Create( int width
, int height
, unsigned char* data
, bool static_data
)
210 wxCHECK_MSG( data
, false, _T("NULL data in wxImage::Create") );
212 m_refData
= new wxImageRefData();
214 M_IMGDATA
->m_data
= data
;
215 M_IMGDATA
->m_width
= width
;
216 M_IMGDATA
->m_height
= height
;
217 M_IMGDATA
->m_ok
= true;
218 M_IMGDATA
->m_static
= static_data
;
223 bool wxImage::Create( int width
, int height
, unsigned char* data
, unsigned char* alpha
, bool static_data
)
227 wxCHECK_MSG( data
, false, _T("NULL data in wxImage::Create") );
229 m_refData
= new wxImageRefData();
231 M_IMGDATA
->m_data
= data
;
232 M_IMGDATA
->m_alpha
= alpha
;
233 M_IMGDATA
->m_width
= width
;
234 M_IMGDATA
->m_height
= height
;
235 M_IMGDATA
->m_ok
= true;
236 M_IMGDATA
->m_static
= static_data
;
241 void wxImage::Destroy()
246 wxObjectRefData
* wxImage::CreateRefData() const
248 return new wxImageRefData
;
251 wxObjectRefData
* wxImage::CloneRefData(const wxObjectRefData
* that
) const
253 const wxImageRefData
* refData
= wx_static_cast(const wxImageRefData
*, that
);
254 wxCHECK_MSG(refData
->m_ok
, NULL
, wxT("invalid image") );
256 wxImageRefData
* refData_new
= new wxImageRefData
;
257 refData_new
->m_width
= refData
->m_width
;
258 refData_new
->m_height
= refData
->m_height
;
259 refData_new
->m_maskRed
= refData
->m_maskRed
;
260 refData_new
->m_maskGreen
= refData
->m_maskGreen
;
261 refData_new
->m_maskBlue
= refData
->m_maskBlue
;
262 refData_new
->m_hasMask
= refData
->m_hasMask
;
263 refData_new
->m_ok
= true;
264 unsigned size
= unsigned(refData
->m_width
) * unsigned(refData
->m_height
);
265 if (refData
->m_alpha
!= NULL
)
267 refData_new
->m_alpha
= (unsigned char*)malloc(size
);
268 memcpy(refData_new
->m_alpha
, refData
->m_alpha
, size
);
271 refData_new
->m_data
= (unsigned char*)malloc(size
);
272 memcpy(refData_new
->m_data
, refData
->m_data
, size
);
274 refData_new
->m_palette
= refData
->m_palette
;
276 refData_new
->m_optionNames
= refData
->m_optionNames
;
277 refData_new
->m_optionValues
= refData
->m_optionValues
;
281 wxImage
wxImage::Copy() const
285 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
287 image
.m_refData
= CloneRefData(m_refData
);
292 wxImage
wxImage::ShrinkBy( int xFactor
, int yFactor
) const
294 if( xFactor
== 1 && yFactor
== 1 )
299 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
301 // can't scale to/from 0 size
302 wxCHECK_MSG( (xFactor
> 0) && (yFactor
> 0), image
,
303 wxT("invalid new image size") );
305 long old_height
= M_IMGDATA
->m_height
,
306 old_width
= M_IMGDATA
->m_width
;
308 wxCHECK_MSG( (old_height
> 0) && (old_width
> 0), image
,
309 wxT("invalid old image size") );
311 long width
= old_width
/ xFactor
;
312 long height
= old_height
/ yFactor
;
314 image
.Create( width
, height
, false );
316 char unsigned *data
= image
.GetData();
318 wxCHECK_MSG( data
, image
, wxT("unable to create image") );
320 bool hasMask
= false ;
321 unsigned char maskRed
= 0;
322 unsigned char maskGreen
= 0;
323 unsigned char maskBlue
=0 ;
325 unsigned char *source_data
= M_IMGDATA
->m_data
;
326 unsigned char *target_data
= data
;
327 unsigned char *source_alpha
= 0 ;
328 unsigned char *target_alpha
= 0 ;
329 if (M_IMGDATA
->m_hasMask
)
332 maskRed
= M_IMGDATA
->m_maskRed
;
333 maskGreen
= M_IMGDATA
->m_maskGreen
;
334 maskBlue
=M_IMGDATA
->m_maskBlue
;
336 image
.SetMaskColour( M_IMGDATA
->m_maskRed
,
337 M_IMGDATA
->m_maskGreen
,
338 M_IMGDATA
->m_maskBlue
);
342 source_alpha
= M_IMGDATA
->m_alpha
;
346 target_alpha
= image
.GetAlpha() ;
350 for (long y
= 0; y
< height
; y
++)
352 for (long x
= 0; x
< width
; x
++)
354 unsigned long avgRed
= 0 ;
355 unsigned long avgGreen
= 0;
356 unsigned long avgBlue
= 0;
357 unsigned long avgAlpha
= 0 ;
358 unsigned long counter
= 0 ;
360 for ( int y1
= 0 ; y1
< yFactor
; ++y1
)
362 long y_offset
= (y
* yFactor
+ y1
) * old_width
;
363 for ( int x1
= 0 ; x1
< xFactor
; ++x1
)
365 unsigned char *pixel
= source_data
+ 3 * ( y_offset
+ x
* xFactor
+ x1
) ;
366 unsigned char red
= pixel
[0] ;
367 unsigned char green
= pixel
[1] ;
368 unsigned char blue
= pixel
[2] ;
369 unsigned char alpha
= 255 ;
371 alpha
= *(source_alpha
+ y_offset
+ x
* xFactor
+ x1
) ;
372 if ( !hasMask
|| red
!= maskRed
|| green
!= maskGreen
|| blue
!= maskBlue
)
387 *(target_data
++) = M_IMGDATA
->m_maskRed
;
388 *(target_data
++) = M_IMGDATA
->m_maskGreen
;
389 *(target_data
++) = M_IMGDATA
->m_maskBlue
;
394 *(target_alpha
++) = (unsigned char)(avgAlpha
/ counter
) ;
395 *(target_data
++) = (unsigned char)(avgRed
/ counter
);
396 *(target_data
++) = (unsigned char)(avgGreen
/ counter
);
397 *(target_data
++) = (unsigned char)(avgBlue
/ counter
);
402 // In case this is a cursor, make sure the hotspot is scaled accordingly:
403 if ( HasOption(wxIMAGE_OPTION_CUR_HOTSPOT_X
) )
404 image
.SetOption(wxIMAGE_OPTION_CUR_HOTSPOT_X
,
405 (GetOptionInt(wxIMAGE_OPTION_CUR_HOTSPOT_X
))/xFactor
);
406 if ( HasOption(wxIMAGE_OPTION_CUR_HOTSPOT_Y
) )
407 image
.SetOption(wxIMAGE_OPTION_CUR_HOTSPOT_Y
,
408 (GetOptionInt(wxIMAGE_OPTION_CUR_HOTSPOT_Y
))/yFactor
);
413 wxImage
wxImage::Scale( int width
, int height
, int quality
) const
417 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
419 // can't scale to/from 0 size
420 wxCHECK_MSG( (width
> 0) && (height
> 0), image
,
421 wxT("invalid new image size") );
423 long old_height
= M_IMGDATA
->m_height
,
424 old_width
= M_IMGDATA
->m_width
;
425 wxCHECK_MSG( (old_height
> 0) && (old_width
> 0), image
,
426 wxT("invalid old image size") );
428 // If the image's new width and height are the same as the original, no
429 // need to waste time or CPU cycles
430 if ( old_width
== width
&& old_height
== height
)
433 // Scale the image (...or more appropriately, resample the image) using
434 // either the high-quality or normal method as specified
435 if ( quality
== wxIMAGE_QUALITY_HIGH
)
437 // We need to check whether we are downsampling or upsampling the image
438 if ( width
< old_width
&& height
< old_height
)
440 // Downsample the image using the box averaging method for best results
441 image
= ResampleBox(width
, height
);
445 // For upsampling or other random/wierd image dimensions we'll use
446 // a bicubic b-spline scaling method
447 image
= ResampleBicubic(width
, height
);
450 else // Default scaling method == simple pixel replication
452 if ( old_width
% width
== 0 && old_width
>= width
&&
453 old_height
% height
== 0 && old_height
>= height
)
455 return ShrinkBy( old_width
/ width
, old_height
/ height
) ;
457 image
.Create( width
, height
, false );
459 unsigned char *data
= image
.GetData();
461 wxCHECK_MSG( data
, image
, wxT("unable to create image") );
463 unsigned char *source_data
= M_IMGDATA
->m_data
;
464 unsigned char *target_data
= data
;
465 unsigned char *source_alpha
= 0 ;
466 unsigned char *target_alpha
= 0 ;
468 if ( !M_IMGDATA
->m_hasMask
)
470 source_alpha
= M_IMGDATA
->m_alpha
;
474 target_alpha
= image
.GetAlpha() ;
478 long x_delta
= (old_width
<<16) / width
;
479 long y_delta
= (old_height
<<16) / height
;
481 unsigned char* dest_pixel
= target_data
;
484 for ( long j
= 0; j
< height
; j
++ )
486 unsigned char* src_line
= &source_data
[(y
>>16)*old_width
*3];
487 unsigned char* src_alpha_line
= source_alpha
? &source_alpha
[(y
>>16)*old_width
] : 0 ;
490 for ( long i
= 0; i
< width
; i
++ )
492 unsigned char* src_pixel
= &src_line
[(x
>>16)*3];
493 unsigned char* src_alpha_pixel
= source_alpha
? &src_alpha_line
[(x
>>16)] : 0 ;
494 dest_pixel
[0] = src_pixel
[0];
495 dest_pixel
[1] = src_pixel
[1];
496 dest_pixel
[2] = src_pixel
[2];
499 *(target_alpha
++) = *src_alpha_pixel
;
507 // If the original image has a mask, apply the mask to the new image
508 if (M_IMGDATA
->m_hasMask
)
510 image
.SetMaskColour( M_IMGDATA
->m_maskRed
,
511 M_IMGDATA
->m_maskGreen
,
512 M_IMGDATA
->m_maskBlue
);
515 // In case this is a cursor, make sure the hotspot is scaled accordingly:
516 if ( HasOption(wxIMAGE_OPTION_CUR_HOTSPOT_X
) )
517 image
.SetOption(wxIMAGE_OPTION_CUR_HOTSPOT_X
,
518 (GetOptionInt(wxIMAGE_OPTION_CUR_HOTSPOT_X
)*width
)/old_width
);
519 if ( HasOption(wxIMAGE_OPTION_CUR_HOTSPOT_Y
) )
520 image
.SetOption(wxIMAGE_OPTION_CUR_HOTSPOT_Y
,
521 (GetOptionInt(wxIMAGE_OPTION_CUR_HOTSPOT_Y
)*height
)/old_height
);
526 wxImage
wxImage::ResampleBox(int width
, int height
) const
528 // This function implements a simple pre-blur/box averaging method for
529 // downsampling that gives reasonably smooth results To scale the image
530 // down we will need to gather a grid of pixels of the size of the scale
531 // factor in each direction and then do an averaging of the pixels.
533 wxImage
ret_image(width
, height
, false);
535 const double scale_factor_x
= double(M_IMGDATA
->m_width
) / width
;
536 const double scale_factor_y
= double(M_IMGDATA
->m_height
) / height
;
538 const int scale_factor_x_2
= (int)(scale_factor_x
/ 2);
539 const int scale_factor_y_2
= (int)(scale_factor_y
/ 2);
541 // If we want good-looking results we need to pre-blur the image a bit first
542 wxImage
src_image(*this);
543 src_image
= src_image
.BlurHorizontal(scale_factor_x_2
);
544 src_image
= src_image
.BlurVertical(scale_factor_y_2
);
546 unsigned char* src_data
= src_image
.GetData();
547 unsigned char* src_alpha
= src_image
.GetAlpha();
548 unsigned char* dst_data
= ret_image
.GetData();
549 unsigned char* dst_alpha
= NULL
;
553 ret_image
.SetAlpha();
554 dst_alpha
= ret_image
.GetAlpha();
557 int averaged_pixels
, src_pixel_index
;
558 double sum_r
, sum_g
, sum_b
, sum_a
;
560 for ( int y
= 0; y
< height
; y
++ ) // Destination image - Y direction
562 // Source pixel in the Y direction
563 int src_y
= (int)(y
* scale_factor_y
);
565 for ( int x
= 0; x
< width
; x
++ ) // Destination image - X direction
567 // Source pixel in the X direction
568 int src_x
= (int)(x
* scale_factor_x
);
570 // Box of pixels to average
572 sum_r
= sum_g
= sum_b
= sum_a
= 0.0;
574 for ( int j
= int(src_y
- scale_factor_y
/2.0 + 1);
575 j
<= int(src_y
+ scale_factor_y_2
);
578 // We don't care to average pixels that don't exist (edges)
579 if ( j
< 0 || j
> M_IMGDATA
->m_height
)
582 for ( int i
= int(src_x
- scale_factor_x
/2.0 + 1);
583 i
<= src_x
+ scale_factor_x_2
;
586 // Don't average edge pixels
587 if ( i
< 0 || i
> M_IMGDATA
->m_width
)
590 // Calculate the actual index in our source pixels
591 src_pixel_index
= src_y
* M_IMGDATA
->m_width
+ src_x
;
593 sum_r
+= src_data
[src_pixel_index
* 3 + 0];
594 sum_g
+= src_data
[src_pixel_index
* 3 + 1];
595 sum_b
+= src_data
[src_pixel_index
* 3 + 2];
597 sum_a
+= src_alpha
[src_pixel_index
];
603 // Calculate the average from the sum and number of averaged pixels
604 dst_data
[0] = (unsigned char)(sum_r
/ averaged_pixels
);
605 dst_data
[1] = (unsigned char)(sum_g
/ averaged_pixels
);
606 dst_data
[2] = (unsigned char)(sum_b
/ averaged_pixels
);
609 *dst_alpha
++ = (unsigned char)(sum_a
/ averaged_pixels
);
616 // The following two local functions are for the B-spline weighting of the
617 // bicubic sampling algorithm
618 static inline double spline_cube(double value
)
620 return value
<= 0.0 ? 0.0 : value
* value
* value
;
623 static inline double spline_weight(double value
)
625 return (spline_cube(value
+ 2) -
626 4 * spline_cube(value
+ 1) +
627 6 * spline_cube(value
) -
628 4 * spline_cube(value
- 1)) / 6;
631 // This is the bicubic resampling algorithm
632 wxImage
wxImage::ResampleBicubic(int width
, int height
) const
634 // This function implements a Bicubic B-Spline algorithm for resampling.
635 // This method is certainly a little slower than wxImage's default pixel
636 // replication method, however for most reasonably sized images not being
637 // upsampled too much on a fairly average CPU this difference is hardly
638 // noticeable and the results are far more pleasing to look at.
640 // This particular bicubic algorithm does pixel weighting according to a
641 // B-Spline that basically implements a Gaussian bell-like weighting
642 // kernel. Because of this method the results may appear a bit blurry when
643 // upsampling by large factors. This is basically because a slight
644 // gaussian blur is being performed to get the smooth look of the upsampled
647 // Edge pixels: 3-4 possible solutions
648 // - (Wrap/tile) Wrap the image, take the color value from the opposite
649 // side of the image.
650 // - (Mirror) Duplicate edge pixels, so that pixel at coordinate (2, n),
651 // where n is nonpositive, will have the value of (2, 1).
652 // - (Ignore) Simply ignore the edge pixels and apply the kernel only to
653 // pixels which do have all neighbours.
654 // - (Clamp) Choose the nearest pixel along the border. This takes the
655 // border pixels and extends them out to infinity.
657 // NOTE: below the y_offset and x_offset variables are being set for edge
658 // pixels using the "Mirror" method mentioned above
662 ret_image
.Create(width
, height
, false);
664 unsigned char* src_data
= M_IMGDATA
->m_data
;
665 unsigned char* src_alpha
= M_IMGDATA
->m_alpha
;
666 unsigned char* dst_data
= ret_image
.GetData();
667 unsigned char* dst_alpha
= NULL
;
671 ret_image
.SetAlpha();
672 dst_alpha
= ret_image
.GetAlpha();
675 for ( int dsty
= 0; dsty
< height
; dsty
++ )
677 // We need to calculate the source pixel to interpolate from - Y-axis
678 double srcpixy
= double(dsty
* M_IMGDATA
->m_height
) / height
;
679 double dy
= srcpixy
- (int)srcpixy
;
681 for ( int dstx
= 0; dstx
< width
; dstx
++ )
683 // X-axis of pixel to interpolate from
684 double srcpixx
= double(dstx
* M_IMGDATA
->m_width
) / width
;
685 double dx
= srcpixx
- (int)srcpixx
;
687 // Sums for each color channel
688 double sum_r
= 0, sum_g
= 0, sum_b
= 0, sum_a
= 0;
690 // Here we actually determine the RGBA values for the destination pixel
691 for ( int k
= -1; k
<= 2; k
++ )
694 int y_offset
= srcpixy
+ k
< 0.0
696 : srcpixy
+ k
>= M_IMGDATA
->m_height
697 ? M_IMGDATA
->m_height
- 1
698 : (int)(srcpixy
+ k
);
700 // Loop across the X axis
701 for ( int i
= -1; i
<= 2; i
++ )
704 int x_offset
= srcpixx
+ i
< 0.0
706 : srcpixx
+ i
>= M_IMGDATA
->m_width
707 ? M_IMGDATA
->m_width
- 1
708 : (int)(srcpixx
+ i
);
710 // Calculate the exact position where the source data
711 // should be pulled from based on the x_offset and y_offset
712 int src_pixel_index
= y_offset
*M_IMGDATA
->m_width
+ x_offset
;
714 // Calculate the weight for the specified pixel according
715 // to the bicubic b-spline kernel we're using for
718 pixel_weight
= spline_weight(i
- dx
)*spline_weight(k
- dy
);
720 // Create a sum of all velues for each color channel
721 // adjusted for the pixel's calculated weight
722 sum_r
+= src_data
[src_pixel_index
* 3 + 0] * pixel_weight
;
723 sum_g
+= src_data
[src_pixel_index
* 3 + 1] * pixel_weight
;
724 sum_b
+= src_data
[src_pixel_index
* 3 + 2] * pixel_weight
;
726 sum_a
+= src_alpha
[src_pixel_index
] * pixel_weight
;
730 // Put the data into the destination image. The summed values are
731 // of double data type and are rounded here for accuracy
732 dst_data
[0] = (unsigned char)(sum_r
+ 0.5);
733 dst_data
[1] = (unsigned char)(sum_g
+ 0.5);
734 dst_data
[2] = (unsigned char)(sum_b
+ 0.5);
738 *dst_alpha
++ = (unsigned char)sum_a
;
745 // Blur in the horizontal direction
746 wxImage
wxImage::BlurHorizontal(int blurRadius
)
749 ret_image
.Create(M_IMGDATA
->m_width
, M_IMGDATA
->m_height
, false);
751 unsigned char* src_data
= M_IMGDATA
->m_data
;
752 unsigned char* dst_data
= ret_image
.GetData();
753 unsigned char* src_alpha
= M_IMGDATA
->m_alpha
;
754 unsigned char* dst_alpha
= NULL
;
756 // Check for a mask or alpha
759 ret_image
.SetAlpha();
760 dst_alpha
= ret_image
.GetAlpha();
762 else if ( M_IMGDATA
->m_hasMask
)
764 ret_image
.SetMaskColour(M_IMGDATA
->m_maskRed
,
765 M_IMGDATA
->m_maskGreen
,
766 M_IMGDATA
->m_maskBlue
);
769 // number of pixels we average over
770 const int blurArea
= blurRadius
*2 + 1;
772 // Horizontal blurring algorithm - average all pixels in the specified blur
773 // radius in the X or horizontal direction
774 for ( int y
= 0; y
< M_IMGDATA
->m_height
; y
++ )
776 // Variables used in the blurring algorithm
783 const unsigned char *src
;
786 // Calculate the average of all pixels in the blur radius for the first
788 for ( int kernel_x
= -blurRadius
; kernel_x
<= blurRadius
; kernel_x
++ )
790 // To deal with the pixels at the start of a row so it's not
791 // grabbing GOK values from memory at negative indices of the
792 // image's data or grabbing from the previous row
794 pixel_idx
= y
* M_IMGDATA
->m_width
;
796 pixel_idx
= kernel_x
+ y
* M_IMGDATA
->m_width
;
798 src
= src_data
+ pixel_idx
*3;
803 sum_a
+= src_alpha
[pixel_idx
];
806 dst
= dst_data
+ y
* M_IMGDATA
->m_width
*3;
807 dst
[0] = (unsigned char)(sum_r
/ blurArea
);
808 dst
[1] = (unsigned char)(sum_g
/ blurArea
);
809 dst
[2] = (unsigned char)(sum_b
/ blurArea
);
811 dst_alpha
[y
* M_IMGDATA
->m_width
] = (unsigned char)(sum_a
/ blurArea
);
813 // Now average the values of the rest of the pixels by just moving the
814 // blur radius box along the row
815 for ( int x
= 1; x
< M_IMGDATA
->m_width
; x
++ )
817 // Take care of edge pixels on the left edge by essentially
818 // duplicating the edge pixel
819 if ( x
- blurRadius
- 1 < 0 )
820 pixel_idx
= y
* M_IMGDATA
->m_width
;
822 pixel_idx
= (x
- blurRadius
- 1) + y
* M_IMGDATA
->m_width
;
824 // Subtract the value of the pixel at the left side of the blur
826 src
= src_data
+ pixel_idx
*3;
831 sum_a
-= src_alpha
[pixel_idx
];
833 // Take care of edge pixels on the right edge
834 if ( x
+ blurRadius
> M_IMGDATA
->m_width
- 1 )
835 pixel_idx
= M_IMGDATA
->m_width
- 1 + y
* M_IMGDATA
->m_width
;
837 pixel_idx
= x
+ blurRadius
+ y
* M_IMGDATA
->m_width
;
839 // Add the value of the pixel being added to the end of our box
840 src
= src_data
+ pixel_idx
*3;
845 sum_a
+= src_alpha
[pixel_idx
];
847 // Save off the averaged data
848 dst
= dst_data
+ x
*3 + y
*M_IMGDATA
->m_width
*3;
849 dst
[0] = (unsigned char)(sum_r
/ blurArea
);
850 dst
[1] = (unsigned char)(sum_g
/ blurArea
);
851 dst
[2] = (unsigned char)(sum_b
/ blurArea
);
853 dst_alpha
[x
+ y
* M_IMGDATA
->m_width
] = (unsigned char)(sum_a
/ blurArea
);
860 // Blur in the vertical direction
861 wxImage
wxImage::BlurVertical(int blurRadius
)
864 ret_image
.Create(M_IMGDATA
->m_width
, M_IMGDATA
->m_height
, false);
866 unsigned char* src_data
= M_IMGDATA
->m_data
;
867 unsigned char* dst_data
= ret_image
.GetData();
868 unsigned char* src_alpha
= M_IMGDATA
->m_alpha
;
869 unsigned char* dst_alpha
= NULL
;
871 // Check for a mask or alpha
874 ret_image
.SetAlpha();
875 dst_alpha
= ret_image
.GetAlpha();
877 else if ( M_IMGDATA
->m_hasMask
)
879 ret_image
.SetMaskColour(M_IMGDATA
->m_maskRed
,
880 M_IMGDATA
->m_maskGreen
,
881 M_IMGDATA
->m_maskBlue
);
884 // number of pixels we average over
885 const int blurArea
= blurRadius
*2 + 1;
887 // Vertical blurring algorithm - same as horizontal but switched the
888 // opposite direction
889 for ( int x
= 0; x
< M_IMGDATA
->m_width
; x
++ )
891 // Variables used in the blurring algorithm
898 const unsigned char *src
;
901 // Calculate the average of all pixels in our blur radius box for the
902 // first pixel of the column
903 for ( int kernel_y
= -blurRadius
; kernel_y
<= blurRadius
; kernel_y
++ )
905 // To deal with the pixels at the start of a column so it's not
906 // grabbing GOK values from memory at negative indices of the
907 // image's data or grabbing from the previous column
911 pixel_idx
= x
+ kernel_y
* M_IMGDATA
->m_width
;
913 src
= src_data
+ pixel_idx
*3;
918 sum_a
+= src_alpha
[pixel_idx
];
921 dst
= dst_data
+ x
*3;
922 dst
[0] = (unsigned char)(sum_r
/ blurArea
);
923 dst
[1] = (unsigned char)(sum_g
/ blurArea
);
924 dst
[2] = (unsigned char)(sum_b
/ blurArea
);
926 dst_alpha
[x
] = (unsigned char)(sum_a
/ blurArea
);
928 // Now average the values of the rest of the pixels by just moving the
929 // box along the column from top to bottom
930 for ( int y
= 1; y
< M_IMGDATA
->m_height
; y
++ )
932 // Take care of pixels that would be beyond the top edge by
933 // duplicating the top edge pixel for the column
934 if ( y
- blurRadius
- 1 < 0 )
937 pixel_idx
= x
+ (y
- blurRadius
- 1) * M_IMGDATA
->m_width
;
939 // Subtract the value of the pixel at the top of our blur radius box
940 src
= src_data
+ pixel_idx
*3;
945 sum_a
-= src_alpha
[pixel_idx
];
947 // Take care of the pixels that would be beyond the bottom edge of
948 // the image similar to the top edge
949 if ( y
+ blurRadius
> M_IMGDATA
->m_height
- 1 )
950 pixel_idx
= x
+ (M_IMGDATA
->m_height
- 1) * M_IMGDATA
->m_width
;
952 pixel_idx
= x
+ (blurRadius
+ y
) * M_IMGDATA
->m_width
;
954 // Add the value of the pixel being added to the end of our box
955 src
= src_data
+ pixel_idx
*3;
960 sum_a
+= src_alpha
[pixel_idx
];
962 // Save off the averaged data
963 dst
= dst_data
+ (x
+ y
* M_IMGDATA
->m_width
) * 3;
964 dst
[0] = (unsigned char)(sum_r
/ blurArea
);
965 dst
[1] = (unsigned char)(sum_g
/ blurArea
);
966 dst
[2] = (unsigned char)(sum_b
/ blurArea
);
968 dst_alpha
[x
+ y
* M_IMGDATA
->m_width
] = (unsigned char)(sum_a
/ blurArea
);
975 // The new blur function
976 wxImage
wxImage::Blur(int blurRadius
)
979 ret_image
.Create(M_IMGDATA
->m_width
, M_IMGDATA
->m_height
, false);
981 // Blur the image in each direction
982 ret_image
= BlurHorizontal(blurRadius
);
983 ret_image
= ret_image
.BlurVertical(blurRadius
);
988 wxImage
wxImage::Rotate90( bool clockwise
) const
992 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
994 image
.Create( M_IMGDATA
->m_height
, M_IMGDATA
->m_width
, false );
996 unsigned char *data
= image
.GetData();
998 wxCHECK_MSG( data
, image
, wxT("unable to create image") );
1000 unsigned char *source_data
= M_IMGDATA
->m_data
;
1001 unsigned char *target_data
;
1002 unsigned char *alpha_data
= 0 ;
1003 unsigned char *source_alpha
= 0 ;
1004 unsigned char *target_alpha
= 0 ;
1006 if (M_IMGDATA
->m_hasMask
)
1008 image
.SetMaskColour( M_IMGDATA
->m_maskRed
, M_IMGDATA
->m_maskGreen
, M_IMGDATA
->m_maskBlue
);
1012 source_alpha
= M_IMGDATA
->m_alpha
;
1016 alpha_data
= image
.GetAlpha() ;
1020 long height
= M_IMGDATA
->m_height
;
1021 long width
= M_IMGDATA
->m_width
;
1023 for (long j
= 0; j
< height
; j
++)
1025 for (long i
= 0; i
< width
; i
++)
1029 target_data
= data
+ (((i
+1)*height
) - j
- 1)*3;
1031 target_alpha
= alpha_data
+ (((i
+1)*height
) - j
- 1);
1035 target_data
= data
+ ((height
*(width
-1)) + j
- (i
*height
))*3;
1037 target_alpha
= alpha_data
+ ((height
*(width
-1)) + j
- (i
*height
));
1039 memcpy( target_data
, source_data
, 3 );
1044 memcpy( target_alpha
, source_alpha
, 1 );
1053 wxImage
wxImage::Mirror( bool horizontally
) const
1057 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
1059 image
.Create( M_IMGDATA
->m_width
, M_IMGDATA
->m_height
, false );
1061 unsigned char *data
= image
.GetData();
1062 unsigned char *alpha
= NULL
;
1064 wxCHECK_MSG( data
, image
, wxT("unable to create image") );
1066 if (M_IMGDATA
->m_alpha
!= NULL
) {
1068 alpha
= image
.GetAlpha();
1069 wxCHECK_MSG( alpha
, image
, wxT("unable to create alpha channel") );
1072 if (M_IMGDATA
->m_hasMask
)
1073 image
.SetMaskColour( M_IMGDATA
->m_maskRed
, M_IMGDATA
->m_maskGreen
, M_IMGDATA
->m_maskBlue
);
1075 long height
= M_IMGDATA
->m_height
;
1076 long width
= M_IMGDATA
->m_width
;
1078 unsigned char *source_data
= M_IMGDATA
->m_data
;
1079 unsigned char *target_data
;
1083 for (long j
= 0; j
< height
; j
++)
1086 target_data
= data
-3;
1087 for (long i
= 0; i
< width
; i
++)
1089 memcpy( target_data
, source_data
, 3 );
1097 // src_alpha starts at the first pixel and increases by 1 after each step
1098 // (a step here is the copy of the alpha value of one pixel)
1099 const unsigned char *src_alpha
= M_IMGDATA
->m_alpha
;
1100 // dest_alpha starts just beyond the first line, decreases before each step,
1101 // and after each line is finished, increases by 2 widths (skipping the line
1102 // just copied and the line that will be copied next)
1103 unsigned char *dest_alpha
= alpha
+ width
;
1105 for (long jj
= 0; jj
< height
; ++jj
)
1107 for (long i
= 0; i
< width
; ++i
) {
1108 *(--dest_alpha
) = *(src_alpha
++); // copy one pixel
1110 dest_alpha
+= 2 * width
; // advance beyond the end of the next line
1116 for (long i
= 0; i
< height
; i
++)
1118 target_data
= data
+ 3*width
*(height
-1-i
);
1119 memcpy( target_data
, source_data
, (size_t)3*width
);
1120 source_data
+= 3*width
;
1125 // src_alpha starts at the first pixel and increases by 1 width after each step
1126 // (a step here is the copy of the alpha channel of an entire line)
1127 const unsigned char *src_alpha
= M_IMGDATA
->m_alpha
;
1128 // dest_alpha starts just beyond the last line (beyond the whole image)
1129 // and decreases by 1 width before each step
1130 unsigned char *dest_alpha
= alpha
+ width
* height
;
1132 for (long jj
= 0; jj
< height
; ++jj
)
1134 dest_alpha
-= width
;
1135 memcpy( dest_alpha
, src_alpha
, (size_t)width
);
1144 wxImage
wxImage::GetSubImage( const wxRect
&rect
) const
1148 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
1150 wxCHECK_MSG( (rect
.GetLeft()>=0) && (rect
.GetTop()>=0) &&
1151 (rect
.GetRight()<=GetWidth()) && (rect
.GetBottom()<=GetHeight()),
1152 image
, wxT("invalid subimage size") );
1154 const int subwidth
= rect
.GetWidth();
1155 const int subheight
= rect
.GetHeight();
1157 image
.Create( subwidth
, subheight
, false );
1159 const unsigned char *src_data
= GetData();
1160 const unsigned char *src_alpha
= M_IMGDATA
->m_alpha
;
1161 unsigned char *subdata
= image
.GetData();
1162 unsigned char *subalpha
= NULL
;
1164 wxCHECK_MSG( subdata
, image
, wxT("unable to create image") );
1166 if (src_alpha
!= NULL
) {
1168 subalpha
= image
.GetAlpha();
1169 wxCHECK_MSG( subalpha
, image
, wxT("unable to create alpha channel"));
1172 if (M_IMGDATA
->m_hasMask
)
1173 image
.SetMaskColour( M_IMGDATA
->m_maskRed
, M_IMGDATA
->m_maskGreen
, M_IMGDATA
->m_maskBlue
);
1175 const int width
= GetWidth();
1176 const int pixsoff
= rect
.GetLeft() + width
* rect
.GetTop();
1178 src_data
+= 3 * pixsoff
;
1179 src_alpha
+= pixsoff
; // won't be used if was NULL, so this is ok
1181 for (long j
= 0; j
< subheight
; ++j
)
1183 memcpy( subdata
, src_data
, 3 * subwidth
);
1184 subdata
+= 3 * subwidth
;
1185 src_data
+= 3 * width
;
1186 if (subalpha
!= NULL
) {
1187 memcpy( subalpha
, src_alpha
, subwidth
);
1188 subalpha
+= subwidth
;
1196 wxImage
wxImage::Size( const wxSize
& size
, const wxPoint
& pos
,
1197 int r_
, int g_
, int b_
) const
1201 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
1202 wxCHECK_MSG( (size
.GetWidth() > 0) && (size
.GetHeight() > 0), image
, wxT("invalid size") );
1204 int width
= GetWidth(), height
= GetHeight();
1205 image
.Create(size
.GetWidth(), size
.GetHeight(), false);
1207 unsigned char r
= (unsigned char)r_
;
1208 unsigned char g
= (unsigned char)g_
;
1209 unsigned char b
= (unsigned char)b_
;
1210 if ((r_
== -1) && (g_
== -1) && (b_
== -1))
1212 GetOrFindMaskColour( &r
, &g
, &b
);
1213 image
.SetMaskColour(r
, g
, b
);
1216 image
.SetRGB(wxRect(), r
, g
, b
);
1218 wxRect
subRect(pos
.x
, pos
.y
, width
, height
);
1219 wxRect
finalRect(0, 0, size
.GetWidth(), size
.GetHeight());
1221 finalRect
.width
-= pos
.x
;
1223 finalRect
.height
-= pos
.y
;
1225 subRect
.Intersect(finalRect
);
1227 if (!subRect
.IsEmpty())
1229 if ((subRect
.GetWidth() == width
) && (subRect
.GetHeight() == height
))
1230 image
.Paste(*this, pos
.x
, pos
.y
);
1232 image
.Paste(GetSubImage(subRect
), pos
.x
, pos
.y
);
1238 void wxImage::Paste( const wxImage
&image
, int x
, int y
)
1240 wxCHECK_RET( Ok(), wxT("invalid image") );
1241 wxCHECK_RET( image
.Ok(), wxT("invalid image") );
1247 int width
= image
.GetWidth();
1248 int height
= image
.GetHeight();
1261 if ((x
+xx
)+width
> M_IMGDATA
->m_width
)
1262 width
= M_IMGDATA
->m_width
- (x
+xx
);
1263 if ((y
+yy
)+height
> M_IMGDATA
->m_height
)
1264 height
= M_IMGDATA
->m_height
- (y
+yy
);
1266 if (width
< 1) return;
1267 if (height
< 1) return;
1269 if ((!HasMask() && !image
.HasMask()) ||
1270 (HasMask() && !image
.HasMask()) ||
1271 ((HasMask() && image
.HasMask() &&
1272 (GetMaskRed()==image
.GetMaskRed()) &&
1273 (GetMaskGreen()==image
.GetMaskGreen()) &&
1274 (GetMaskBlue()==image
.GetMaskBlue()))))
1277 unsigned char* source_data
= image
.GetData() + xx
*3 + yy
*3*image
.GetWidth();
1278 int source_step
= image
.GetWidth()*3;
1280 unsigned char* target_data
= GetData() + (x
+xx
)*3 + (y
+yy
)*3*M_IMGDATA
->m_width
;
1281 int target_step
= M_IMGDATA
->m_width
*3;
1282 for (int j
= 0; j
< height
; j
++)
1284 memcpy( target_data
, source_data
, width
);
1285 source_data
+= source_step
;
1286 target_data
+= target_step
;
1291 if (!HasMask() && image
.HasMask())
1293 unsigned char r
= image
.GetMaskRed();
1294 unsigned char g
= image
.GetMaskGreen();
1295 unsigned char b
= image
.GetMaskBlue();
1298 unsigned char* source_data
= image
.GetData() + xx
*3 + yy
*3*image
.GetWidth();
1299 int source_step
= image
.GetWidth()*3;
1301 unsigned char* target_data
= GetData() + (x
+xx
)*3 + (y
+yy
)*3*M_IMGDATA
->m_width
;
1302 int target_step
= M_IMGDATA
->m_width
*3;
1304 for (int j
= 0; j
< height
; j
++)
1306 for (int i
= 0; i
< width
; i
+=3)
1308 if ((source_data
[i
] != r
) ||
1309 (source_data
[i
+1] != g
) ||
1310 (source_data
[i
+2] != b
))
1312 memcpy( target_data
+i
, source_data
+i
, 3 );
1315 source_data
+= source_step
;
1316 target_data
+= target_step
;
1321 void wxImage::Replace( unsigned char r1
, unsigned char g1
, unsigned char b1
,
1322 unsigned char r2
, unsigned char g2
, unsigned char b2
)
1324 wxCHECK_RET( Ok(), wxT("invalid image") );
1328 unsigned char *data
= GetData();
1330 const int w
= GetWidth();
1331 const int h
= GetHeight();
1333 for (int j
= 0; j
< h
; j
++)
1334 for (int i
= 0; i
< w
; i
++)
1336 if ((data
[0] == r1
) && (data
[1] == g1
) && (data
[2] == b1
))
1346 wxImage
wxImage::ConvertToGreyscale( double lr
, double lg
, double lb
) const
1350 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
1352 image
.Create(M_IMGDATA
->m_width
, M_IMGDATA
->m_height
, false);
1354 unsigned char *dest
= image
.GetData();
1356 wxCHECK_MSG( dest
, image
, wxT("unable to create image") );
1358 unsigned char *src
= M_IMGDATA
->m_data
;
1359 bool hasMask
= M_IMGDATA
->m_hasMask
;
1360 unsigned char maskRed
= M_IMGDATA
->m_maskRed
;
1361 unsigned char maskGreen
= M_IMGDATA
->m_maskGreen
;
1362 unsigned char maskBlue
= M_IMGDATA
->m_maskBlue
;
1365 image
.SetMaskColour(maskRed
, maskGreen
, maskBlue
);
1367 const long size
= M_IMGDATA
->m_width
* M_IMGDATA
->m_height
;
1368 for ( long i
= 0; i
< size
; i
++, src
+= 3, dest
+= 3 )
1370 // don't modify the mask
1371 if ( hasMask
&& src
[0] == maskRed
&& src
[1] == maskGreen
&& src
[2] == maskBlue
)
1373 memcpy(dest
, src
, 3);
1377 // calculate the luma
1378 double luma
= (src
[0] * lr
+ src
[1] * lg
+ src
[2] * lb
) + 0.5;
1379 dest
[0] = dest
[1] = dest
[2] = wx_static_cast(unsigned char, luma
);
1383 // copy the alpha channel, if any
1386 const size_t alphaSize
= GetWidth() * GetHeight();
1387 unsigned char *alpha
= (unsigned char*)malloc(alphaSize
);
1388 memcpy(alpha
, GetAlpha(), alphaSize
);
1390 image
.SetAlpha(alpha
);
1396 wxImage
wxImage::ConvertToMono( unsigned char r
, unsigned char g
, unsigned char b
) const
1400 wxCHECK_MSG( Ok(), image
, wxT("invalid image") );
1402 image
.Create( M_IMGDATA
->m_width
, M_IMGDATA
->m_height
, false );
1404 unsigned char *data
= image
.GetData();
1406 wxCHECK_MSG( data
, image
, wxT("unable to create image") );
1408 if (M_IMGDATA
->m_hasMask
)
1410 if (M_IMGDATA
->m_maskRed
== r
&& M_IMGDATA
->m_maskGreen
== g
&&
1411 M_IMGDATA
->m_maskBlue
== b
)
1412 image
.SetMaskColour( 255, 255, 255 );
1414 image
.SetMaskColour( 0, 0, 0 );
1417 long size
= M_IMGDATA
->m_height
* M_IMGDATA
->m_width
;
1419 unsigned char *srcd
= M_IMGDATA
->m_data
;
1420 unsigned char *tard
= image
.GetData();
1422 for ( long i
= 0; i
< size
; i
++, srcd
+= 3, tard
+= 3 )
1424 if (srcd
[0] == r
&& srcd
[1] == g
&& srcd
[2] == b
)
1425 tard
[0] = tard
[1] = tard
[2] = 255;
1427 tard
[0] = tard
[1] = tard
[2] = 0;
1433 int wxImage::GetWidth() const
1435 wxCHECK_MSG( Ok(), 0, wxT("invalid image") );
1437 return M_IMGDATA
->m_width
;
1440 int wxImage::GetHeight() const
1442 wxCHECK_MSG( Ok(), 0, wxT("invalid image") );
1444 return M_IMGDATA
->m_height
;
1447 long wxImage::XYToIndex(int x
, int y
) const
1451 x
< M_IMGDATA
->m_width
&& y
< M_IMGDATA
->m_height
)
1453 return y
*M_IMGDATA
->m_width
+ x
;
1459 void wxImage::SetRGB( int x
, int y
, unsigned char r
, unsigned char g
, unsigned char b
)
1461 long pos
= XYToIndex(x
, y
);
1462 wxCHECK_RET( pos
!= -1, wxT("invalid image coordinates") );
1468 M_IMGDATA
->m_data
[ pos
] = r
;
1469 M_IMGDATA
->m_data
[ pos
+1 ] = g
;
1470 M_IMGDATA
->m_data
[ pos
+2 ] = b
;
1473 void wxImage::SetRGB( const wxRect
& rect_
, unsigned char r
, unsigned char g
, unsigned char b
)
1475 wxCHECK_RET( Ok(), wxT("invalid image") );
1480 wxRect
imageRect(0, 0, GetWidth(), GetHeight());
1481 if ( rect
== wxRect() )
1487 wxCHECK_RET( imageRect
.Contains(rect
.GetTopLeft()) &&
1488 imageRect
.Contains(rect
.GetBottomRight()),
1489 wxT("invalid bounding rectangle") );
1492 int x1
= rect
.GetLeft(),
1494 x2
= rect
.GetRight() + 1,
1495 y2
= rect
.GetBottom() + 1;
1497 unsigned char *data
wxDUMMY_INITIALIZE(NULL
);
1498 int x
, y
, width
= GetWidth();
1499 for (y
= y1
; y
< y2
; y
++)
1501 data
= M_IMGDATA
->m_data
+ (y
*width
+ x1
)*3;
1502 for (x
= x1
; x
< x2
; x
++)
1511 unsigned char wxImage::GetRed( int x
, int y
) const
1513 long pos
= XYToIndex(x
, y
);
1514 wxCHECK_MSG( pos
!= -1, 0, wxT("invalid image coordinates") );
1518 return M_IMGDATA
->m_data
[pos
];
1521 unsigned char wxImage::GetGreen( int x
, int y
) const
1523 long pos
= XYToIndex(x
, y
);
1524 wxCHECK_MSG( pos
!= -1, 0, wxT("invalid image coordinates") );
1528 return M_IMGDATA
->m_data
[pos
+1];
1531 unsigned char wxImage::GetBlue( int x
, int y
) const
1533 long pos
= XYToIndex(x
, y
);
1534 wxCHECK_MSG( pos
!= -1, 0, wxT("invalid image coordinates") );
1538 return M_IMGDATA
->m_data
[pos
+2];
1541 bool wxImage::IsOk() const
1543 // image of 0 width or height can't be considered ok - at least because it
1544 // causes crashes in ConvertToBitmap() if we don't catch it in time
1545 wxImageRefData
*data
= M_IMGDATA
;
1546 return data
&& data
->m_ok
&& data
->m_width
&& data
->m_height
;
1549 unsigned char *wxImage::GetData() const
1551 wxCHECK_MSG( Ok(), (unsigned char *)NULL
, wxT("invalid image") );
1553 return M_IMGDATA
->m_data
;
1556 void wxImage::SetData( unsigned char *data
, bool static_data
)
1558 wxCHECK_RET( Ok(), wxT("invalid image") );
1560 wxImageRefData
*newRefData
= new wxImageRefData();
1562 newRefData
->m_width
= M_IMGDATA
->m_width
;
1563 newRefData
->m_height
= M_IMGDATA
->m_height
;
1564 newRefData
->m_data
= data
;
1565 newRefData
->m_ok
= true;
1566 newRefData
->m_maskRed
= M_IMGDATA
->m_maskRed
;
1567 newRefData
->m_maskGreen
= M_IMGDATA
->m_maskGreen
;
1568 newRefData
->m_maskBlue
= M_IMGDATA
->m_maskBlue
;
1569 newRefData
->m_hasMask
= M_IMGDATA
->m_hasMask
;
1570 newRefData
->m_static
= static_data
;
1574 m_refData
= newRefData
;
1577 void wxImage::SetData( unsigned char *data
, int new_width
, int new_height
, bool static_data
)
1579 wxImageRefData
*newRefData
= new wxImageRefData();
1583 newRefData
->m_width
= new_width
;
1584 newRefData
->m_height
= new_height
;
1585 newRefData
->m_data
= data
;
1586 newRefData
->m_ok
= true;
1587 newRefData
->m_maskRed
= M_IMGDATA
->m_maskRed
;
1588 newRefData
->m_maskGreen
= M_IMGDATA
->m_maskGreen
;
1589 newRefData
->m_maskBlue
= M_IMGDATA
->m_maskBlue
;
1590 newRefData
->m_hasMask
= M_IMGDATA
->m_hasMask
;
1594 newRefData
->m_width
= new_width
;
1595 newRefData
->m_height
= new_height
;
1596 newRefData
->m_data
= data
;
1597 newRefData
->m_ok
= true;
1599 newRefData
->m_static
= static_data
;
1603 m_refData
= newRefData
;
1606 // ----------------------------------------------------------------------------
1607 // alpha channel support
1608 // ----------------------------------------------------------------------------
1610 void wxImage::SetAlpha(int x
, int y
, unsigned char alpha
)
1612 wxCHECK_RET( HasAlpha(), wxT("no alpha channel") );
1614 long pos
= XYToIndex(x
, y
);
1615 wxCHECK_RET( pos
!= -1, wxT("invalid image coordinates") );
1619 M_IMGDATA
->m_alpha
[pos
] = alpha
;
1622 unsigned char wxImage::GetAlpha(int x
, int y
) const
1624 wxCHECK_MSG( HasAlpha(), 0, wxT("no alpha channel") );
1626 long pos
= XYToIndex(x
, y
);
1627 wxCHECK_MSG( pos
!= -1, 0, wxT("invalid image coordinates") );
1629 return M_IMGDATA
->m_alpha
[pos
];
1633 wxImage::ConvertColourToAlpha(unsigned char r
, unsigned char g
, unsigned char b
)
1637 const int w
= M_IMGDATA
->m_width
;
1638 const int h
= M_IMGDATA
->m_height
;
1640 unsigned char *alpha
= GetAlpha();
1641 unsigned char *data
= GetData();
1643 for ( int y
= 0; y
< h
; y
++ )
1645 for ( int x
= 0; x
< w
; x
++ )
1657 void wxImage::SetAlpha( unsigned char *alpha
, bool static_data
)
1659 wxCHECK_RET( Ok(), wxT("invalid image") );
1665 alpha
= (unsigned char *)malloc(M_IMGDATA
->m_width
*M_IMGDATA
->m_height
);
1668 if( !M_IMGDATA
->m_staticAlpha
)
1669 free(M_IMGDATA
->m_alpha
);
1671 M_IMGDATA
->m_alpha
= alpha
;
1672 M_IMGDATA
->m_staticAlpha
= static_data
;
1675 unsigned char *wxImage::GetAlpha() const
1677 wxCHECK_MSG( Ok(), (unsigned char *)NULL
, wxT("invalid image") );
1679 return M_IMGDATA
->m_alpha
;
1682 void wxImage::InitAlpha()
1684 wxCHECK_RET( !HasAlpha(), wxT("image already has an alpha channel") );
1686 // initialize memory for alpha channel
1689 unsigned char *alpha
= M_IMGDATA
->m_alpha
;
1690 const size_t lenAlpha
= M_IMGDATA
->m_width
* M_IMGDATA
->m_height
;
1694 // use the mask to initialize the alpha channel.
1695 const unsigned char * const alphaEnd
= alpha
+ lenAlpha
;
1697 const unsigned char mr
= M_IMGDATA
->m_maskRed
;
1698 const unsigned char mg
= M_IMGDATA
->m_maskGreen
;
1699 const unsigned char mb
= M_IMGDATA
->m_maskBlue
;
1700 for ( unsigned char *src
= M_IMGDATA
->m_data
;
1704 *alpha
= (src
[0] == mr
&& src
[1] == mg
&& src
[2] == mb
)
1705 ? wxIMAGE_ALPHA_TRANSPARENT
1706 : wxIMAGE_ALPHA_OPAQUE
;
1709 M_IMGDATA
->m_hasMask
= false;
1713 // make the image fully opaque
1714 memset(alpha
, wxIMAGE_ALPHA_OPAQUE
, lenAlpha
);
1718 // ----------------------------------------------------------------------------
1720 // ----------------------------------------------------------------------------
1722 void wxImage::SetMaskColour( unsigned char r
, unsigned char g
, unsigned char b
)
1724 wxCHECK_RET( Ok(), wxT("invalid image") );
1728 M_IMGDATA
->m_maskRed
= r
;
1729 M_IMGDATA
->m_maskGreen
= g
;
1730 M_IMGDATA
->m_maskBlue
= b
;
1731 M_IMGDATA
->m_hasMask
= true;
1734 bool wxImage::GetOrFindMaskColour( unsigned char *r
, unsigned char *g
, unsigned char *b
) const
1736 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
1738 if (M_IMGDATA
->m_hasMask
)
1740 if (r
) *r
= M_IMGDATA
->m_maskRed
;
1741 if (g
) *g
= M_IMGDATA
->m_maskGreen
;
1742 if (b
) *b
= M_IMGDATA
->m_maskBlue
;
1747 FindFirstUnusedColour(r
, g
, b
);
1752 unsigned char wxImage::GetMaskRed() const
1754 wxCHECK_MSG( Ok(), 0, wxT("invalid image") );
1756 return M_IMGDATA
->m_maskRed
;
1759 unsigned char wxImage::GetMaskGreen() const
1761 wxCHECK_MSG( Ok(), 0, wxT("invalid image") );
1763 return M_IMGDATA
->m_maskGreen
;
1766 unsigned char wxImage::GetMaskBlue() const
1768 wxCHECK_MSG( Ok(), 0, wxT("invalid image") );
1770 return M_IMGDATA
->m_maskBlue
;
1773 void wxImage::SetMask( bool mask
)
1775 wxCHECK_RET( Ok(), wxT("invalid image") );
1779 M_IMGDATA
->m_hasMask
= mask
;
1782 bool wxImage::HasMask() const
1784 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
1786 return M_IMGDATA
->m_hasMask
;
1789 bool wxImage::IsTransparent(int x
, int y
, unsigned char threshold
) const
1791 long pos
= XYToIndex(x
, y
);
1792 wxCHECK_MSG( pos
!= -1, false, wxT("invalid image coordinates") );
1795 if ( M_IMGDATA
->m_hasMask
)
1797 const unsigned char *p
= M_IMGDATA
->m_data
+ 3*pos
;
1798 if ( p
[0] == M_IMGDATA
->m_maskRed
&&
1799 p
[1] == M_IMGDATA
->m_maskGreen
&&
1800 p
[2] == M_IMGDATA
->m_maskBlue
)
1807 if ( M_IMGDATA
->m_alpha
)
1809 if ( M_IMGDATA
->m_alpha
[pos
] < threshold
)
1811 // transparent enough
1820 bool wxImage::SetMaskFromImage(const wxImage
& mask
,
1821 unsigned char mr
, unsigned char mg
, unsigned char mb
)
1823 // check that the images are the same size
1824 if ( (M_IMGDATA
->m_height
!= mask
.GetHeight() ) || (M_IMGDATA
->m_width
!= mask
.GetWidth () ) )
1826 wxLogError( _("Image and mask have different sizes.") );
1830 // find unused colour
1831 unsigned char r
,g
,b
;
1832 if (!FindFirstUnusedColour(&r
, &g
, &b
))
1834 wxLogError( _("No unused colour in image being masked.") );
1840 unsigned char *imgdata
= GetData();
1841 unsigned char *maskdata
= mask
.GetData();
1843 const int w
= GetWidth();
1844 const int h
= GetHeight();
1846 for (int j
= 0; j
< h
; j
++)
1848 for (int i
= 0; i
< w
; i
++)
1850 if ((maskdata
[0] == mr
) && (maskdata
[1] == mg
) && (maskdata
[2] == mb
))
1861 SetMaskColour(r
, g
, b
);
1867 bool wxImage::ConvertAlphaToMask(unsigned char threshold
)
1872 unsigned char mr
, mg
, mb
;
1873 if (!FindFirstUnusedColour(&mr
, &mg
, &mb
))
1875 wxLogError( _("No unused colour in image being masked.") );
1882 SetMaskColour(mr
, mg
, mb
);
1884 unsigned char *imgdata
= GetData();
1885 unsigned char *alphadata
= GetAlpha();
1888 int h
= GetHeight();
1890 for (int y
= 0; y
< h
; y
++)
1892 for (int x
= 0; x
< w
; x
++, imgdata
+= 3, alphadata
++)
1894 if (*alphadata
< threshold
)
1903 if( !M_IMGDATA
->m_staticAlpha
)
1904 free(M_IMGDATA
->m_alpha
);
1906 M_IMGDATA
->m_alpha
= NULL
;
1907 M_IMGDATA
->m_staticAlpha
= false;
1912 // ----------------------------------------------------------------------------
1913 // Palette functions
1914 // ----------------------------------------------------------------------------
1918 bool wxImage::HasPalette() const
1923 return M_IMGDATA
->m_palette
.Ok();
1926 const wxPalette
& wxImage::GetPalette() const
1928 wxCHECK_MSG( Ok(), wxNullPalette
, wxT("invalid image") );
1930 return M_IMGDATA
->m_palette
;
1933 void wxImage::SetPalette(const wxPalette
& palette
)
1935 wxCHECK_RET( Ok(), wxT("invalid image") );
1939 M_IMGDATA
->m_palette
= palette
;
1942 #endif // wxUSE_PALETTE
1944 // ----------------------------------------------------------------------------
1945 // Option functions (arbitrary name/value mapping)
1946 // ----------------------------------------------------------------------------
1948 void wxImage::SetOption(const wxString
& name
, const wxString
& value
)
1950 wxCHECK_RET( Ok(), wxT("invalid image") );
1954 int idx
= M_IMGDATA
->m_optionNames
.Index(name
, false);
1955 if (idx
== wxNOT_FOUND
)
1957 M_IMGDATA
->m_optionNames
.Add(name
);
1958 M_IMGDATA
->m_optionValues
.Add(value
);
1962 M_IMGDATA
->m_optionNames
[idx
] = name
;
1963 M_IMGDATA
->m_optionValues
[idx
] = value
;
1967 void wxImage::SetOption(const wxString
& name
, int value
)
1970 valStr
.Printf(wxT("%d"), value
);
1971 SetOption(name
, valStr
);
1974 wxString
wxImage::GetOption(const wxString
& name
) const
1976 wxCHECK_MSG( Ok(), wxEmptyString
, wxT("invalid image") );
1978 int idx
= M_IMGDATA
->m_optionNames
.Index(name
, false);
1979 if (idx
== wxNOT_FOUND
)
1980 return wxEmptyString
;
1982 return M_IMGDATA
->m_optionValues
[idx
];
1985 int wxImage::GetOptionInt(const wxString
& name
) const
1987 return wxAtoi(GetOption(name
));
1990 bool wxImage::HasOption(const wxString
& name
) const
1992 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
1994 return (M_IMGDATA
->m_optionNames
.Index(name
, false) != wxNOT_FOUND
);
1997 // ----------------------------------------------------------------------------
1999 // ----------------------------------------------------------------------------
2001 bool wxImage::LoadFile( const wxString
& WXUNUSED_UNLESS_STREAMS(filename
),
2002 long WXUNUSED_UNLESS_STREAMS(type
),
2003 int WXUNUSED_UNLESS_STREAMS(index
) )
2005 #if HAS_FILE_STREAMS
2006 if (wxFileExists(filename
))
2008 wxImageFileInputStream
stream(filename
);
2009 wxBufferedInputStream
bstream( stream
);
2010 return LoadFile(bstream
, type
, index
);
2014 wxLogError( _("Can't load image from file '%s': file does not exist."), filename
.c_str() );
2018 #else // !HAS_FILE_STREAMS
2020 #endif // HAS_FILE_STREAMS
2023 bool wxImage::LoadFile( const wxString
& WXUNUSED_UNLESS_STREAMS(filename
),
2024 const wxString
& WXUNUSED_UNLESS_STREAMS(mimetype
),
2025 int WXUNUSED_UNLESS_STREAMS(index
) )
2027 #if HAS_FILE_STREAMS
2028 if (wxFileExists(filename
))
2030 wxImageFileInputStream
stream(filename
);
2031 wxBufferedInputStream
bstream( stream
);
2032 return LoadFile(bstream
, mimetype
, index
);
2036 wxLogError( _("Can't load image from file '%s': file does not exist."), filename
.c_str() );
2040 #else // !HAS_FILE_STREAMS
2042 #endif // HAS_FILE_STREAMS
2047 bool wxImage::SaveFile( const wxString
& filename
) const
2049 wxString ext
= filename
.AfterLast('.').Lower();
2051 wxImageHandler
* pHandler
= FindHandler(ext
, -1);
2054 SaveFile(filename
, pHandler
->GetType());
2058 wxLogError(_("Can't save image to file '%s': unknown extension."), filename
.c_str());
2063 bool wxImage::SaveFile( const wxString
& WXUNUSED_UNLESS_STREAMS(filename
),
2064 int WXUNUSED_UNLESS_STREAMS(type
) ) const
2066 #if HAS_FILE_STREAMS
2067 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
2069 ((wxImage
*)this)->SetOption(wxIMAGE_OPTION_FILENAME
, filename
);
2071 wxImageFileOutputStream
stream(filename
);
2073 if ( stream
.IsOk() )
2075 wxBufferedOutputStream
bstream( stream
);
2076 return SaveFile(bstream
, type
);
2078 #endif // HAS_FILE_STREAMS
2083 bool wxImage::SaveFile( const wxString
& WXUNUSED_UNLESS_STREAMS(filename
),
2084 const wxString
& WXUNUSED_UNLESS_STREAMS(mimetype
) ) const
2086 #if HAS_FILE_STREAMS
2087 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
2089 ((wxImage
*)this)->SetOption(wxIMAGE_OPTION_FILENAME
, filename
);
2091 wxImageFileOutputStream
stream(filename
);
2093 if ( stream
.IsOk() )
2095 wxBufferedOutputStream
bstream( stream
);
2096 return SaveFile(bstream
, mimetype
);
2098 #endif // HAS_FILE_STREAMS
2103 bool wxImage::CanRead( const wxString
& WXUNUSED_UNLESS_STREAMS(name
) )
2105 #if HAS_FILE_STREAMS
2106 wxImageFileInputStream
stream(name
);
2107 return CanRead(stream
);
2113 int wxImage::GetImageCount( const wxString
& WXUNUSED_UNLESS_STREAMS(name
),
2114 long WXUNUSED_UNLESS_STREAMS(type
) )
2116 #if HAS_FILE_STREAMS
2117 wxImageFileInputStream
stream(name
);
2119 return GetImageCount(stream
, type
);
2127 bool wxImage::CanRead( wxInputStream
&stream
)
2129 const wxList
& list
= GetHandlers();
2131 for ( wxList::compatibility_iterator node
= list
.GetFirst(); node
; node
= node
->GetNext() )
2133 wxImageHandler
*handler
=(wxImageHandler
*)node
->GetData();
2134 if (handler
->CanRead( stream
))
2141 int wxImage::GetImageCount( wxInputStream
&stream
, long type
)
2143 wxImageHandler
*handler
;
2145 if ( type
== wxBITMAP_TYPE_ANY
)
2147 wxList
&list
=GetHandlers();
2149 for (wxList::compatibility_iterator node
= list
.GetFirst(); node
; node
= node
->GetNext())
2151 handler
=(wxImageHandler
*)node
->GetData();
2152 if ( handler
->CanRead(stream
) )
2153 return handler
->GetImageCount(stream
);
2157 wxLogWarning(_("No handler found for image type."));
2161 handler
= FindHandler(type
);
2165 wxLogWarning(_("No image handler for type %ld defined."), type
);
2169 if ( handler
->CanRead(stream
) )
2171 return handler
->GetImageCount(stream
);
2175 wxLogError(_("Image file is not of type %ld."), type
);
2180 bool wxImage::LoadFile( wxInputStream
& stream
, long type
, int index
)
2184 m_refData
= new wxImageRefData
;
2186 wxImageHandler
*handler
;
2188 if ( type
== wxBITMAP_TYPE_ANY
)
2190 wxList
&list
=GetHandlers();
2192 for ( wxList::compatibility_iterator node
= list
.GetFirst(); node
; node
= node
->GetNext() )
2194 handler
=(wxImageHandler
*)node
->GetData();
2195 if ( handler
->CanRead(stream
) )
2196 return handler
->LoadFile(this, stream
, true/*verbose*/, index
);
2200 wxLogWarning( _("No handler found for image type.") );
2204 handler
= FindHandler(type
);
2208 wxLogWarning( _("No image handler for type %ld defined."), type
);
2213 if (stream
.IsSeekable() && !handler
->CanRead(stream
))
2215 wxLogError(_("Image file is not of type %ld."), type
);
2219 return handler
->LoadFile(this, stream
, true/*verbose*/, index
);
2222 bool wxImage::LoadFile( wxInputStream
& stream
, const wxString
& mimetype
, int index
)
2226 m_refData
= new wxImageRefData
;
2228 wxImageHandler
*handler
= FindHandlerMime(mimetype
);
2232 wxLogWarning( _("No image handler for type %s defined."), mimetype
.GetData() );
2237 if (stream
.IsSeekable() && !handler
->CanRead(stream
))
2239 wxLogError(_("Image file is not of type %s."), mimetype
);
2243 return handler
->LoadFile( this, stream
, true/*verbose*/, index
);
2246 bool wxImage::SaveFile( wxOutputStream
& stream
, int type
) const
2248 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
2250 wxImageHandler
*handler
= FindHandler(type
);
2253 wxLogWarning( _("No image handler for type %d defined."), type
);
2258 return handler
->SaveFile( (wxImage
*)this, stream
);
2261 bool wxImage::SaveFile( wxOutputStream
& stream
, const wxString
& mimetype
) const
2263 wxCHECK_MSG( Ok(), false, wxT("invalid image") );
2265 wxImageHandler
*handler
= FindHandlerMime(mimetype
);
2268 wxLogWarning( _("No image handler for type %s defined."), mimetype
.GetData() );
2273 return handler
->SaveFile( (wxImage
*)this, stream
);
2275 #endif // wxUSE_STREAMS
2277 // ----------------------------------------------------------------------------
2278 // image I/O handlers
2279 // ----------------------------------------------------------------------------
2281 void wxImage::AddHandler( wxImageHandler
*handler
)
2283 // Check for an existing handler of the type being added.
2284 if (FindHandler( handler
->GetType() ) == 0)
2286 sm_handlers
.Append( handler
);
2290 // This is not documented behaviour, merely the simplest 'fix'
2291 // for preventing duplicate additions. If someone ever has
2292 // a good reason to add and remove duplicate handlers (and they
2293 // may) we should probably refcount the duplicates.
2294 // also an issue in InsertHandler below.
2296 wxLogDebug( _T("Adding duplicate image handler for '%s'"),
2297 handler
->GetName().c_str() );
2302 void wxImage::InsertHandler( wxImageHandler
*handler
)
2304 // Check for an existing handler of the type being added.
2305 if (FindHandler( handler
->GetType() ) == 0)
2307 sm_handlers
.Insert( handler
);
2311 // see AddHandler for additional comments.
2312 wxLogDebug( _T("Inserting duplicate image handler for '%s'"),
2313 handler
->GetName().c_str() );
2318 bool wxImage::RemoveHandler( const wxString
& name
)
2320 wxImageHandler
*handler
= FindHandler(name
);
2323 sm_handlers
.DeleteObject(handler
);
2331 wxImageHandler
*wxImage::FindHandler( const wxString
& name
)
2333 wxList::compatibility_iterator node
= sm_handlers
.GetFirst();
2336 wxImageHandler
*handler
= (wxImageHandler
*)node
->GetData();
2337 if (handler
->GetName().Cmp(name
) == 0) return handler
;
2339 node
= node
->GetNext();
2344 wxImageHandler
*wxImage::FindHandler( const wxString
& extension
, long bitmapType
)
2346 wxList::compatibility_iterator node
= sm_handlers
.GetFirst();
2349 wxImageHandler
*handler
= (wxImageHandler
*)node
->GetData();
2350 if ( (handler
->GetExtension().Cmp(extension
) == 0) &&
2351 (bitmapType
== -1 || handler
->GetType() == bitmapType
) )
2353 node
= node
->GetNext();
2358 wxImageHandler
*wxImage::FindHandler( long bitmapType
)
2360 wxList::compatibility_iterator node
= sm_handlers
.GetFirst();
2363 wxImageHandler
*handler
= (wxImageHandler
*)node
->GetData();
2364 if (handler
->GetType() == bitmapType
) return handler
;
2365 node
= node
->GetNext();
2370 wxImageHandler
*wxImage::FindHandlerMime( const wxString
& mimetype
)
2372 wxList::compatibility_iterator node
= sm_handlers
.GetFirst();
2375 wxImageHandler
*handler
= (wxImageHandler
*)node
->GetData();
2376 if (handler
->GetMimeType().IsSameAs(mimetype
, false)) return handler
;
2377 node
= node
->GetNext();
2382 void wxImage::InitStandardHandlers()
2385 AddHandler(new wxBMPHandler
);
2386 #endif // wxUSE_STREAMS
2389 void wxImage::CleanUpHandlers()
2391 wxList::compatibility_iterator node
= sm_handlers
.GetFirst();
2394 wxImageHandler
*handler
= (wxImageHandler
*)node
->GetData();
2395 wxList::compatibility_iterator next
= node
->GetNext();
2400 sm_handlers
.Clear();
2403 wxString
wxImage::GetImageExtWildcard()
2407 wxList
& Handlers
= wxImage::GetHandlers();
2408 wxList::compatibility_iterator Node
= Handlers
.GetFirst();
2411 wxImageHandler
* Handler
= (wxImageHandler
*)Node
->GetData();
2412 fmts
+= wxT("*.") + Handler
->GetExtension();
2413 Node
= Node
->GetNext();
2414 if ( Node
) fmts
+= wxT(";");
2417 return wxT("(") + fmts
+ wxT(")|") + fmts
;
2420 wxImage::HSVValue
wxImage::RGBtoHSV(const RGBValue
& rgb
)
2422 const double red
= rgb
.red
/ 255.0,
2423 green
= rgb
.green
/ 255.0,
2424 blue
= rgb
.blue
/ 255.0;
2426 // find the min and max intensity (and remember which one was it for the
2428 double minimumRGB
= red
;
2429 if ( green
< minimumRGB
)
2431 if ( blue
< minimumRGB
)
2434 enum { RED
, GREEN
, BLUE
} chMax
= RED
;
2435 double maximumRGB
= red
;
2436 if ( green
> maximumRGB
)
2441 if ( blue
> maximumRGB
)
2447 const double value
= maximumRGB
;
2449 double hue
= 0.0, saturation
;
2450 const double deltaRGB
= maximumRGB
- minimumRGB
;
2451 if ( wxIsNullDouble(deltaRGB
) )
2453 // Gray has no color
2462 hue
= (green
- blue
) / deltaRGB
;
2466 hue
= 2.0 + (blue
- red
) / deltaRGB
;
2470 hue
= 4.0 + (red
- green
) / deltaRGB
;
2474 wxFAIL_MSG(wxT("hue not specified"));
2483 saturation
= deltaRGB
/ maximumRGB
;
2486 return HSVValue(hue
, saturation
, value
);
2489 wxImage::RGBValue
wxImage::HSVtoRGB(const HSVValue
& hsv
)
2491 double red
, green
, blue
;
2493 if ( wxIsNullDouble(hsv
.saturation
) )
2502 double hue
= hsv
.hue
* 6.0; // sector 0 to 5
2503 int i
= (int)floor(hue
);
2504 double f
= hue
- i
; // fractional part of h
2505 double p
= hsv
.value
* (1.0 - hsv
.saturation
);
2511 green
= hsv
.value
* (1.0 - hsv
.saturation
* (1.0 - f
));
2516 red
= hsv
.value
* (1.0 - hsv
.saturation
* f
);
2524 blue
= hsv
.value
* (1.0 - hsv
.saturation
* (1.0 - f
));
2529 green
= hsv
.value
* (1.0 - hsv
.saturation
* f
);
2534 red
= hsv
.value
* (1.0 - hsv
.saturation
* (1.0 - f
));
2542 blue
= hsv
.value
* (1.0 - hsv
.saturation
* f
);
2547 return RGBValue((unsigned char)(red
* 255.0),
2548 (unsigned char)(green
* 255.0),
2549 (unsigned char)(blue
* 255.0));
2553 * Rotates the hue of each pixel of the image. angle is a double in the range
2554 * -1.0..1.0 where -1.0 is -360 degrees and 1.0 is 360 degrees
2556 void wxImage::RotateHue(double angle
)
2560 unsigned char *srcBytePtr
;
2561 unsigned char *dstBytePtr
;
2562 unsigned long count
;
2563 wxImage::HSVValue hsv
;
2564 wxImage::RGBValue rgb
;
2566 wxASSERT (angle
>= -1.0 && angle
<= 1.0);
2567 count
= M_IMGDATA
->m_width
* M_IMGDATA
->m_height
;
2568 if ( count
> 0 && !wxIsNullDouble(angle
) )
2570 srcBytePtr
= M_IMGDATA
->m_data
;
2571 dstBytePtr
= srcBytePtr
;
2574 rgb
.red
= *srcBytePtr
++;
2575 rgb
.green
= *srcBytePtr
++;
2576 rgb
.blue
= *srcBytePtr
++;
2577 hsv
= RGBtoHSV(rgb
);
2579 hsv
.hue
= hsv
.hue
+ angle
;
2581 hsv
.hue
= hsv
.hue
- 1.0;
2582 else if (hsv
.hue
< 0.0)
2583 hsv
.hue
= hsv
.hue
+ 1.0;
2585 rgb
= HSVtoRGB(hsv
);
2586 *dstBytePtr
++ = rgb
.red
;
2587 *dstBytePtr
++ = rgb
.green
;
2588 *dstBytePtr
++ = rgb
.blue
;
2589 } while (--count
!= 0);
2593 //-----------------------------------------------------------------------------
2595 //-----------------------------------------------------------------------------
2597 IMPLEMENT_ABSTRACT_CLASS(wxImageHandler
,wxObject
)
2600 bool wxImageHandler::LoadFile( wxImage
*WXUNUSED(image
), wxInputStream
& WXUNUSED(stream
), bool WXUNUSED(verbose
), int WXUNUSED(index
) )
2605 bool wxImageHandler::SaveFile( wxImage
*WXUNUSED(image
), wxOutputStream
& WXUNUSED(stream
), bool WXUNUSED(verbose
) )
2610 int wxImageHandler::GetImageCount( wxInputStream
& WXUNUSED(stream
) )
2615 bool wxImageHandler::CanRead( const wxString
& name
)
2617 if (wxFileExists(name
))
2619 wxImageFileInputStream
stream(name
);
2620 return CanRead(stream
);
2623 wxLogError( _("Can't check image format of file '%s': file does not exist."), name
.c_str() );
2628 bool wxImageHandler::CallDoCanRead(wxInputStream
& stream
)
2630 wxFileOffset posOld
= stream
.TellI();
2631 if ( posOld
== wxInvalidOffset
)
2633 // can't test unseekable stream
2637 bool ok
= DoCanRead(stream
);
2639 // restore the old position to be able to test other formats and so on
2640 if ( stream
.SeekI(posOld
) == wxInvalidOffset
)
2642 wxLogDebug(_T("Failed to rewind the stream in wxImageHandler!"));
2644 // reading would fail anyhow as we're not at the right position
2651 #endif // wxUSE_STREAMS
2655 wxImageHandler::GetResolutionFromOptions(const wxImage
& image
, int *x
, int *y
)
2657 wxCHECK_MSG( x
&& y
, wxIMAGE_RESOLUTION_NONE
, _T("NULL pointer") );
2659 if ( image
.HasOption(wxIMAGE_OPTION_RESOLUTIONX
) &&
2660 image
.HasOption(wxIMAGE_OPTION_RESOLUTIONY
) )
2662 *x
= image
.GetOptionInt(wxIMAGE_OPTION_RESOLUTIONX
);
2663 *y
= image
.GetOptionInt(wxIMAGE_OPTION_RESOLUTIONY
);
2665 else if ( image
.HasOption(wxIMAGE_OPTION_RESOLUTION
) )
2668 *y
= image
.GetOptionInt(wxIMAGE_OPTION_RESOLUTION
);
2670 else // no resolution options specified
2675 return wxIMAGE_RESOLUTION_NONE
;
2678 // get the resolution unit too
2679 int resUnit
= image
.GetOptionInt(wxIMAGE_OPTION_RESOLUTIONUNIT
);
2682 // this is the default
2683 resUnit
= wxIMAGE_RESOLUTION_INCHES
;
2686 return (wxImageResolution
)resUnit
;
2689 // ----------------------------------------------------------------------------
2690 // image histogram stuff
2691 // ----------------------------------------------------------------------------
2694 wxImageHistogram::FindFirstUnusedColour(unsigned char *r
,
2699 unsigned char g2
) const
2701 unsigned long key
= MakeKey(r2
, g2
, b2
);
2703 while ( find(key
) != end() )
2705 // color already used
2717 wxLogError(_("No unused colour in image.") );
2723 key
= MakeKey(r2
, g2
, b2
);
2737 wxImage::FindFirstUnusedColour(unsigned char *r
,
2742 unsigned char g2
) const
2744 wxImageHistogram histogram
;
2746 ComputeHistogram(histogram
);
2748 return histogram
.FindFirstUnusedColour(r
, g
, b
, r2
, g2
, b2
);
2754 // Counts and returns the number of different colours. Optionally stops
2755 // when it exceeds 'stopafter' different colours. This is useful, for
2756 // example, to see if the image can be saved as 8-bit (256 colour or
2757 // less, in this case it would be invoked as CountColours(256)). Default
2758 // value for stopafter is -1 (don't care).
2760 unsigned long wxImage::CountColours( unsigned long stopafter
) const
2764 unsigned char r
, g
, b
;
2766 unsigned long size
, nentries
, key
;
2769 size
= GetWidth() * GetHeight();
2772 for (unsigned long j
= 0; (j
< size
) && (nentries
<= stopafter
) ; j
++)
2777 key
= wxImageHistogram::MakeKey(r
, g
, b
);
2779 if (h
.Get(key
) == NULL
)
2790 unsigned long wxImage::ComputeHistogram( wxImageHistogram
&h
) const
2792 unsigned char *p
= GetData();
2793 unsigned long nentries
= 0;
2797 const unsigned long size
= GetWidth() * GetHeight();
2799 unsigned char r
, g
, b
;
2800 for ( unsigned long n
= 0; n
< size
; n
++ )
2806 wxImageHistogramEntry
& entry
= h
[wxImageHistogram::MakeKey(r
, g
, b
)];
2808 if ( entry
.value
++ == 0 )
2809 entry
.index
= nentries
++;
2816 * Rotation code by Carlos Moreno
2819 static const double wxROTATE_EPSILON
= 1e-10;
2821 // Auxiliary function to rotate a point (x,y) with respect to point p0
2822 // make it inline and use a straight return to facilitate optimization
2823 // also, the function receives the sine and cosine of the angle to avoid
2824 // repeating the time-consuming calls to these functions -- sin/cos can
2825 // be computed and stored in the calling function.
2827 static inline wxRealPoint
2828 wxRotatePoint(const wxRealPoint
& p
, double cos_angle
, double sin_angle
,
2829 const wxRealPoint
& p0
)
2831 return wxRealPoint(p0
.x
+ (p
.x
- p0
.x
) * cos_angle
- (p
.y
- p0
.y
) * sin_angle
,
2832 p0
.y
+ (p
.y
- p0
.y
) * cos_angle
+ (p
.x
- p0
.x
) * sin_angle
);
2835 static inline wxRealPoint
2836 wxRotatePoint(double x
, double y
, double cos_angle
, double sin_angle
,
2837 const wxRealPoint
& p0
)
2839 return wxRotatePoint (wxRealPoint(x
,y
), cos_angle
, sin_angle
, p0
);
2842 wxImage
wxImage::Rotate(double angle
,
2843 const wxPoint
& centre_of_rotation
,
2845 wxPoint
*offset_after_rotation
) const
2847 // screen coordinates are a mirror image of "real" coordinates
2850 const bool has_alpha
= HasAlpha();
2852 const int w
= GetWidth();
2853 const int h
= GetHeight();
2857 // Create pointer-based array to accelerate access to wxImage's data
2858 unsigned char ** data
= new unsigned char * [h
];
2859 data
[0] = GetData();
2860 for (i
= 1; i
< h
; i
++)
2861 data
[i
] = data
[i
- 1] + (3 * w
);
2863 // Same for alpha channel
2864 unsigned char ** alpha
= NULL
;
2867 alpha
= new unsigned char * [h
];
2868 alpha
[0] = GetAlpha();
2869 for (i
= 1; i
< h
; i
++)
2870 alpha
[i
] = alpha
[i
- 1] + w
;
2873 // precompute coefficients for rotation formula
2874 const double cos_angle
= cos(angle
);
2875 const double sin_angle
= sin(angle
);
2877 // Create new Image to store the result
2878 // First, find rectangle that covers the rotated image; to do that,
2879 // rotate the four corners
2881 const wxRealPoint
p0(centre_of_rotation
.x
, centre_of_rotation
.y
);
2883 wxRealPoint p1
= wxRotatePoint (0, 0, cos_angle
, sin_angle
, p0
);
2884 wxRealPoint p2
= wxRotatePoint (0, h
, cos_angle
, sin_angle
, p0
);
2885 wxRealPoint p3
= wxRotatePoint (w
, 0, cos_angle
, sin_angle
, p0
);
2886 wxRealPoint p4
= wxRotatePoint (w
, h
, cos_angle
, sin_angle
, p0
);
2888 int x1a
= (int) floor (wxMin (wxMin(p1
.x
, p2
.x
), wxMin(p3
.x
, p4
.x
)));
2889 int y1a
= (int) floor (wxMin (wxMin(p1
.y
, p2
.y
), wxMin(p3
.y
, p4
.y
)));
2890 int x2a
= (int) ceil (wxMax (wxMax(p1
.x
, p2
.x
), wxMax(p3
.x
, p4
.x
)));
2891 int y2a
= (int) ceil (wxMax (wxMax(p1
.y
, p2
.y
), wxMax(p3
.y
, p4
.y
)));
2893 // Create rotated image
2894 wxImage
rotated (x2a
- x1a
+ 1, y2a
- y1a
+ 1, false);
2895 // With alpha channel
2899 if (offset_after_rotation
!= NULL
)
2901 *offset_after_rotation
= wxPoint (x1a
, y1a
);
2904 // the rotated (destination) image is always accessed sequentially via this
2905 // pointer, there is no need for pointer-based arrays here
2906 unsigned char *dst
= rotated
.GetData();
2908 unsigned char *alpha_dst
= has_alpha
? rotated
.GetAlpha() : NULL
;
2910 // if the original image has a mask, use its RGB values as the blank pixel,
2911 // else, fall back to default (black).
2912 unsigned char blank_r
= 0;
2913 unsigned char blank_g
= 0;
2914 unsigned char blank_b
= 0;
2918 blank_r
= GetMaskRed();
2919 blank_g
= GetMaskGreen();
2920 blank_b
= GetMaskBlue();
2921 rotated
.SetMaskColour( blank_r
, blank_g
, blank_b
);
2924 // Now, for each point of the rotated image, find where it came from, by
2925 // performing an inverse rotation (a rotation of -angle) and getting the
2926 // pixel at those coordinates
2928 const int rH
= rotated
.GetHeight();
2929 const int rW
= rotated
.GetWidth();
2931 // do the (interpolating) test outside of the loops, so that it is done
2932 // only once, instead of repeating it for each pixel.
2935 for (int y
= 0; y
< rH
; y
++)
2937 for (int x
= 0; x
< rW
; x
++)
2939 wxRealPoint src
= wxRotatePoint (x
+ x1a
, y
+ y1a
, cos_angle
, -sin_angle
, p0
);
2941 if (-0.25 < src
.x
&& src
.x
< w
- 0.75 &&
2942 -0.25 < src
.y
&& src
.y
< h
- 0.75)
2944 // interpolate using the 4 enclosing grid-points. Those
2945 // points can be obtained using floor and ceiling of the
2946 // exact coordinates of the point
2949 if (0 < src
.x
&& src
.x
< w
- 1)
2951 x1
= wxRound(floor(src
.x
));
2952 x2
= wxRound(ceil(src
.x
));
2954 else // else means that x is near one of the borders (0 or width-1)
2956 x1
= x2
= wxRound (src
.x
);
2959 if (0 < src
.y
&& src
.y
< h
- 1)
2961 y1
= wxRound(floor(src
.y
));
2962 y2
= wxRound(ceil(src
.y
));
2966 y1
= y2
= wxRound (src
.y
);
2969 // get four points and the distances (square of the distance,
2970 // for efficiency reasons) for the interpolation formula
2972 // GRG: Do not calculate the points until they are
2973 // really needed -- this way we can calculate
2974 // just one, instead of four, if d1, d2, d3
2975 // or d4 are < wxROTATE_EPSILON
2977 const double d1
= (src
.x
- x1
) * (src
.x
- x1
) + (src
.y
- y1
) * (src
.y
- y1
);
2978 const double d2
= (src
.x
- x2
) * (src
.x
- x2
) + (src
.y
- y1
) * (src
.y
- y1
);
2979 const double d3
= (src
.x
- x2
) * (src
.x
- x2
) + (src
.y
- y2
) * (src
.y
- y2
);
2980 const double d4
= (src
.x
- x1
) * (src
.x
- x1
) + (src
.y
- y2
) * (src
.y
- y2
);
2982 // Now interpolate as a weighted average of the four surrounding
2983 // points, where the weights are the distances to each of those points
2985 // If the point is exactly at one point of the grid of the source
2986 // image, then don't interpolate -- just assign the pixel
2988 // d1,d2,d3,d4 are positive -- no need for abs()
2989 if (d1
< wxROTATE_EPSILON
)
2991 unsigned char *p
= data
[y1
] + (3 * x1
);
2997 *(alpha_dst
++) = *(alpha
[y1
] + x1
);
2999 else if (d2
< wxROTATE_EPSILON
)
3001 unsigned char *p
= data
[y1
] + (3 * x2
);
3007 *(alpha_dst
++) = *(alpha
[y1
] + x2
);
3009 else if (d3
< wxROTATE_EPSILON
)
3011 unsigned char *p
= data
[y2
] + (3 * x2
);
3017 *(alpha_dst
++) = *(alpha
[y2
] + x2
);
3019 else if (d4
< wxROTATE_EPSILON
)
3021 unsigned char *p
= data
[y2
] + (3 * x1
);
3027 *(alpha_dst
++) = *(alpha
[y2
] + x1
);
3031 // weights for the weighted average are proportional to the inverse of the distance
3032 unsigned char *v1
= data
[y1
] + (3 * x1
);
3033 unsigned char *v2
= data
[y1
] + (3 * x2
);
3034 unsigned char *v3
= data
[y2
] + (3 * x2
);
3035 unsigned char *v4
= data
[y2
] + (3 * x1
);
3037 const double w1
= 1/d1
, w2
= 1/d2
, w3
= 1/d3
, w4
= 1/d4
;
3041 *(dst
++) = (unsigned char)
3042 ( (w1
* *(v1
++) + w2
* *(v2
++) +
3043 w3
* *(v3
++) + w4
* *(v4
++)) /
3044 (w1
+ w2
+ w3
+ w4
) );
3045 *(dst
++) = (unsigned char)
3046 ( (w1
* *(v1
++) + w2
* *(v2
++) +
3047 w3
* *(v3
++) + w4
* *(v4
++)) /
3048 (w1
+ w2
+ w3
+ w4
) );
3049 *(dst
++) = (unsigned char)
3050 ( (w1
* *v1
+ w2
* *v2
+
3051 w3
* *v3
+ w4
* *v4
) /
3052 (w1
+ w2
+ w3
+ w4
) );
3056 v1
= alpha
[y1
] + (x1
);
3057 v2
= alpha
[y1
] + (x2
);
3058 v3
= alpha
[y2
] + (x2
);
3059 v4
= alpha
[y2
] + (x1
);
3061 *(alpha_dst
++) = (unsigned char)
3062 ( (w1
* *v1
+ w2
* *v2
+
3063 w3
* *v3
+ w4
* *v4
) /
3064 (w1
+ w2
+ w3
+ w4
) );
3080 else // not interpolating
3082 for (int y
= 0; y
< rH
; y
++)
3084 for (int x
= 0; x
< rW
; x
++)
3086 wxRealPoint src
= wxRotatePoint (x
+ x1a
, y
+ y1a
, cos_angle
, -sin_angle
, p0
);
3088 const int xs
= wxRound (src
.x
); // wxRound rounds to the
3089 const int ys
= wxRound (src
.y
); // closest integer
3091 if (0 <= xs
&& xs
< w
&& 0 <= ys
&& ys
< h
)
3093 unsigned char *p
= data
[ys
] + (3 * xs
);
3099 *(alpha_dst
++) = *(alpha
[ys
] + (xs
));
3108 *(alpha_dst
++) = 255;
3124 // A module to allow wxImage initialization/cleanup
3125 // without calling these functions from app.cpp or from
3126 // the user's application.
3128 class wxImageModule
: public wxModule
3130 DECLARE_DYNAMIC_CLASS(wxImageModule
)
3133 bool OnInit() { wxImage::InitStandardHandlers(); return true; }
3134 void OnExit() { wxImage::CleanUpHandlers(); }
3137 IMPLEMENT_DYNAMIC_CLASS(wxImageModule
, wxModule
)
3140 #endif // wxUSE_IMAGE