http://git.pld-linux.org/?p=packages/transcode.git;a=blob_plain;f=imagemagick7.patch;h=8411f89b843764eff8f4aaddb314d7773d1bcec8;hb=HEAD
--- transcode-1.1.7/configure.in
+++ transcode-1.1.7/configure.in
@@ -1105,8 +1105,8 @@
dnl ImageMagick
dnl
IMAGEMAGICK_EXTRA_LIBS="$IMAGEMAGICK_EXTRA_LIBS $($PKG_CONFIG --libs ImageMagick)"
-TC_PKG_CHECK(imagemagick, no, IMAGEMAGICK, no, [magick/api.h],
- none, InitializeMagick, Wand, [http://www.imagemagick.org/])
+TC_PKG_CHECK(imagemagick, no, IMAGEMAGICK, no, [MagickWand/MagickWand.h],
+ none, InitializeMagick, MagickWand, [http://www.imagemagick.org/])
TC_PKG_HAVE(imagemagick, IMAGEMAGICK)
if test x"$have_imagemagick" = x"yes" ; then
SAVE_CPPFLAGS="$CPPFLAGS"
@@ -1114,6 +1114,7 @@
AC_CHECK_HEADER([wand/magick-wand.h],
[AC_DEFINE([HAVE_BROKEN_WAND], [1], ["have old wand header"])])
CPPFLAGS="$SAVE_CPPFLAGS"
+ IMAGEMAGICK_CFLAGS="$IMAGEMAGICK_CFLAGS $($PKG_CONFIG --cflags ImageMagick)"
fi
dnl
--- transcode-1.1.7/export/export_im.c
+++ transcode-1.1.7/export/export_im.c
@@ -23,7 +23,7 @@
/* Note: because of ImageMagick bogosity, this must be included first, so
* we can undefine the PACKAGE_* symbols it splats into our namespace */
-#include <magick/api.h>
+#include <MagickCore/MagickCore.h>
#undef PACKAGE_BUGREPORT
#undef PACKAGE_NAME
#undef PACKAGE_STRING
@@ -82,7 +82,7 @@
codec = (vob->im_v_codec == CODEC_YUV) ? CODEC_YUV : CODEC_RGB;
- InitializeMagick("");
+ MagickCoreGenesis("", MagickFalse);
image_info=CloneImageInfo((ImageInfo *) NULL);
@@ -169,8 +169,8 @@
MOD_encode
{
- ExceptionInfo exception_info;
- char *out_buffer = param->buffer;
+ ExceptionInfo *exception_info;
+ unsigned char *out_buffer = param->buffer;
Image *image=NULL;
int res;
@@ -179,7 +179,7 @@
if(param->flag == TC_VIDEO) {
- GetExceptionInfo(&exception_info);
+ exception_info = AcquireExceptionInfo();
res = tc_snprintf(buf2, PATH_MAX, "%s%06d.%s", prefix, counter++, type);
if (res < 0) {
@@ -193,11 +193,11 @@
out_buffer = tmp_buffer;
}
- image=ConstituteImage (width, height, "RGB", CharPixel, out_buffer, &exception_info);
+ image=ConstituteImage (width, height, "RGB", CharPixel, out_buffer, exception_info);
strlcpy(image->filename, buf2, MaxTextExtent);
- WriteImage(image_info, image);
+ WriteImage(image_info, image, exception_info);
DestroyImage(image);
return(0);
@@ -220,8 +220,7 @@
if(param->flag == TC_VIDEO) {
DestroyImageInfo(image_info);
- ConstituteComponentTerminus();
- DestroyMagick();
+ MagickCoreTerminus();
free(tmp_buffer);
tmp_buffer = NULL;
--- transcode-1.1.7/filter/filter_compare.c
+++ transcode-1.1.7/filter/filter_compare.c
@@ -24,7 +24,7 @@
/* Note: because of ImageMagick bogosity, this must be included first, so
* we can undefine the PACKAGE_* symbols it splats into our namespace */
-#include <magick/api.h>
+#include <MagickCore/MagickCore.h>
#undef PACKAGE_BUGREPORT
#undef PACKAGE_NAME
#undef PACKAGE_STRING
@@ -111,9 +111,9 @@
Image *pattern, *resized, *orig = 0;
ImageInfo *image_info;
- PixelPacket *pixel_packet;
+ Quantum *pixel_quantum;
pixelsMask *pixel_last;
- ExceptionInfo exception_info;
+ ExceptionInfo *exception_info;
if(ptr->tag & TC_FILTER_GET_CONFIG) {
char buf[128];
@@ -139,7 +139,7 @@
if(ptr->tag & TC_FILTER_INIT)
{
- unsigned int t,r,index;
+ unsigned int t,r;
pixelsMask *temp;
compare[instance] = tc_malloc(sizeof(compareData));
@@ -190,22 +190,22 @@
tc_log_perror(MOD_NAME, "could not open file for writing");
}
- InitializeMagick("");
+ MagickCoreGenesis("", MagickFalse);
if (verbose > 1)
tc_log_info(MOD_NAME, "Magick Initialized successfully");
- GetExceptionInfo(&exception_info);
+ exception_info = AcquireExceptionInfo();
image_info = CloneImageInfo ((ImageInfo *) NULL);
strlcpy(image_info->filename, pattern_name, MaxTextExtent);
if (verbose > 1)
tc_log_info(MOD_NAME, "Trying to open image");
orig = ReadImage(image_info,
- &exception_info);
+ exception_info);
if (orig == (Image *) NULL) {
- MagickWarning(exception_info.severity,
- exception_info.reason,
- exception_info.description);
+ MagickWarning(exception_info->severity,
+ exception_info->reason,
+ exception_info->description);
strlcpy(pattern_name, "/dev/null", sizeof(pattern_name));
}else{
if (verbose > 1)
@@ -228,42 +228,41 @@
if (orig != NULL){
// Flip and resize
if (compare[instance]->vob->im_v_codec == CODEC_YUV)
- TransformRGBImage(orig,YCbCrColorspace);
+ TransformImageColorspace(orig, YCbCrColorspace, exception_info);
if (verbose > 1) tc_log_info(MOD_NAME, "Resizing the Image");
resized = ResizeImage(orig,
compare[instance]->width,
compare[instance]->height,
GaussianFilter,
- 1,
- &exception_info);
+ exception_info);
if (verbose > 1)
tc_log_info(MOD_NAME, "Flipping the Image");
- pattern = FlipImage(resized, &exception_info);
+ pattern = FlipImage(resized, exception_info);
if (pattern == (Image *) NULL) {
- MagickError (exception_info.severity,
- exception_info.reason,
- exception_info.description);
+ MagickError (exception_info->severity,
+ exception_info->reason,
+ exception_info->description);
}
// Filling the matrix with the pixels values not
// alpha
if (verbose > 1) tc_log_info(MOD_NAME, "GetImagePixels");
- pixel_packet = GetImagePixels(pattern,0,0,
+ pixel_quantum = GetAuthenticPixels(pattern,0,0,
pattern->columns,
- pattern->rows);
+ pattern->rows,
+ exception_info);
if (verbose > 1) tc_log_info(MOD_NAME, "Filling the Image matrix");
for (t = 0; t < pattern->rows; t++)
for (r = 0; r < pattern->columns; r++){
- index = t*pattern->columns + r;
- if (pixel_packet[index].opacity == 0){
+ if (GetPixelAlpha(pattern, pixel_quantum) == QuantumRange) {
temp=tc_malloc(sizeof(struct pixelsMask));
temp->row=t;
temp->col=r;
- temp->r = (uint8_t)ScaleQuantumToChar(pixel_packet[index].red);
- temp->g = (uint8_t)ScaleQuantumToChar(pixel_packet[index].green);
- temp->b = (uint8_t)ScaleQuantumToChar(pixel_packet[index].blue);
+ temp->r = (uint8_t)ScaleQuantumToChar(GetPixelRed(pattern, pixel_quantum));
+ temp->g = (uint8_t)ScaleQuantumToChar(GetPixelGreen(pattern, pixel_quantum));
+ temp->b = (uint8_t)ScaleQuantumToChar(GetPixelBlue(pattern, pixel_quantum));
temp->next=NULL;
if (pixel_last == NULL){
@@ -274,6 +273,7 @@
pixel_last = temp;
}
}
+ pixel_quantum += GetPixelChannels(pattern);
}
if (verbose)
@@ -297,7 +297,7 @@
fclose(compare[instance]->results);
free(compare[instance]);
}
- DestroyMagick();
+ MagickCoreTerminus();
compare[instance]=NULL;
return(0);
--- transcode-1.1.7/filter/filter_logoaway.c
+++ transcode-1.1.7/filter/filter_logoaway.c
@@ -70,7 +70,7 @@
/* Note: because of ImageMagick bogosity, this must be included first, so
* we can undefine the PACKAGE_* symbols it splats into our namespace */
-#include <magick/api.h>
+#include <MagickCore/MagickCore.h>
#undef PACKAGE_BUGREPORT
#undef PACKAGE_NAME
#undef PACKAGE_STRING
@@ -103,10 +103,10 @@
int alpha;
- ExceptionInfo exception_info;
+ ExceptionInfo *exception_info;
Image *image;
ImageInfo *image_info;
- PixelPacket *pixel_packet;
+ Quantum *pixel_packet;
int dump;
char *dump_buf;
@@ -174,7 +174,7 @@
* instance filter instance
* @return void nothing
*********************************************************/
-static void work_with_rgb_frame(logoaway_data *LD, char *buffer, int width, int height)
+static void work_with_rgb_frame(logoaway_data *LD, unsigned char *buffer, int width, int height)
{
int row, col, i;
int xdistance, ydistance, distance_west, distance_north;
@@ -201,10 +201,10 @@
}
}
- LD->dumpimage = ConstituteImage(LD->width-LD->xpos, LD->height-LD->ypos, "RGB", CharPixel, LD->dump_buf, &LD->exception_info);
+ LD->dumpimage = ConstituteImage(LD->width-LD->xpos, LD->height-LD->ypos, "RGB", CharPixel, LD->dump_buf, LD->exception_info);
tc_snprintf(LD->dumpimage->filename, MaxTextExtent, "dump[%d].png", LD->id);
- WriteImage(LD->dumpimage_info, LD->dumpimage);
+ WriteImage(LD->dumpimage_info, LD->dumpimage, LD->exception_info);
}
switch(LD->mode) {
@@ -218,27 +218,28 @@
for(row=LD->ypos; row<LD->height; ++row) {
for(col=LD->xpos; col<LD->width; ++col) {
+ Quantum *pixel = LD->pixel_packet + (row*LD->width+col)*GetPixelChannels(LD->image);
buf_off = ((height-row)*width+col) * 3;
pkt_off = (row-LD->ypos) * (LD->width-LD->xpos) + (col-LD->xpos);
/* R */
if (!LD->alpha) {
buffer[buf_off +0] = LD->rcolor;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, pixel));
buffer[buf_off +0] = alpha_blending(buffer[buf_off +0], LD->rcolor, alpha_px);
}
/* G */
if (!LD->alpha) {
buffer[buf_off +1] = LD->gcolor;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].green);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelGreen(LD->image, pixel));
buffer[buf_off +1] = alpha_blending(buffer[buf_off +1], LD->gcolor, alpha_px);
}
/* B */
if (!LD->alpha) {
buffer[buf_off +2] = LD->bcolor;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].blue);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelBlue(LD->image, pixel));
buffer[buf_off +2] = alpha_blending(buffer[buf_off +2], LD->bcolor, alpha_px);
}
}
@@ -268,6 +269,7 @@
buf_off = ((height-row)*width+col) * 3;
pkt_off = (row-LD->ypos) * (LD->width-LD->xpos) + (col-LD->xpos);
+ Quantum *pixel = LD->pixel_packet + pkt_off*GetPixelChannels(LD->image);
/* R */
hcalc = alpha_blending(buffer[buf_off_xpos +0], buffer[buf_off_width +0], alpha_hori);
@@ -276,7 +278,7 @@
if (!LD->alpha) {
buffer[buf_off +0] = new_px;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, pixel));
buffer[buf_off +0] = alpha_blending(buffer[buf_off +0], new_px, alpha_px);
}
/* G */
@@ -286,7 +288,7 @@
if (!LD->alpha) {
buffer[buf_off +1] = new_px;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].green);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelGreen(LD->image, pixel));
buffer[buf_off +1] = alpha_blending(buffer[buf_off +1], new_px, alpha_px);
}
/* B */
@@ -296,7 +298,7 @@
if (!LD->alpha) {
buffer[buf_off +2] = new_px;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelBlue(LD->image, pixel));
buffer[buf_off +2] = alpha_blending(buffer[buf_off +2], new_px, alpha_px);
}
}
@@ -327,28 +329,28 @@
buf_off_height = ((height-LD->height)*width+col) * 3;
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off-i].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off-i)*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (col-i>LD->xpos))
i++;
buf_off_xpos = ((height-row)*width + col-i) * 3;
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off+i].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off+i)*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (col+i<LD->width))
i++;
buf_off_width = ((height-row)*width + col+i) * 3;
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off-i*(LD->width-LD->xpos)].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off-i*(LD->width-LD->xpos))*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (row-i>LD->ypos))
i++;
buf_off_ypos = (height*width*3)-((row-i)*width - col) * 3;
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off+i*(LD->width-LD->xpos)].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off+i*(LD->width-LD->xpos))*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (row+i<LD->height))
i++;
buf_off_height = (height*width*3)-((row+i)*width - col) * 3;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + pkt_off*GetPixelChannels(LD->image)));
/* R */
hcalc = alpha_blending(buffer[buf_off_xpos +0], buffer[buf_off_width +0], alpha_hori);
vcalc = alpha_blending(buffer[buf_off_ypos +0], buffer[buf_off_height +0], alpha_vert);
@@ -405,7 +407,7 @@
* instance filter instance
* @return void nothing
*********************************************************/
-static void work_with_yuv_frame(logoaway_data *LD, char *buffer, int width, int height)
+static void work_with_yuv_frame(logoaway_data *LD, unsigned char *buffer, int width, int height)
{
int row, col, i;
int craddr, cbaddr;
@@ -431,10 +433,11 @@
buf_off = row*width+col;
pkt_off = (row-LD->ypos) * (LD->width-LD->xpos) + (col-LD->xpos);
+ Quantum *pixel = LD->pixel_packet + pkt_off*GetPixelChannels(LD->image);
if (!LD->alpha) {
buffer[buf_off] = LD->ycolor;
} else {
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, pixel));
buffer[buf_off] = alpha_blending(buffer[buf_off], LD->ycolor, alpha_px);
}
}
@@ -446,8 +449,9 @@
buf_off = row*width/2+col;
pkt_off = (row*2-LD->ypos) * (LD->width-LD->xpos) + (col*2-LD->xpos);
+ Quantum *pixel = LD->pixel_packet + pkt_off*GetPixelChannels(LD->image);
/* sic */
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, pixel));
if (!LD->alpha) {
buffer[craddr + buf_off] = LD->ucolor;
buffer[cbaddr + buf_off] = LD->vcolor;
@@ -483,10 +487,11 @@
buf_off_height = LD->height*width+col;
pkt_off = (row-LD->ypos) * (LD->width-LD->xpos) + (col-LD->xpos);
+ Quantum *pixel = LD->pixel_packet + pkt_off*GetPixelChannels(LD->image);
hcalc = alpha_blending(buffer[buf_off_xpos], buffer[buf_off_width], alpha_hori);
vcalc = alpha_blending(buffer[buf_off_ypos], buffer[buf_off_height], alpha_vert);
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, pixel));
new_px = (hcalc*LD->xweight + vcalc*LD->yweight)/100;
if (!LD->alpha) {
buffer[buf_off] = new_px;
@@ -517,7 +522,8 @@
buf_off_height = LD->height/2*width/2+col;
pkt_off = (row*2-LD->ypos) * (LD->width-LD->xpos) + (col*2-LD->xpos);
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ Quantum *pixel = LD->pixel_packet + pkt_off*GetPixelChannels(LD->image);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, pixel));
/* sic, reuse red alpha_px */
hcalc = alpha_blending(buffer[craddr + buf_off_xpos], buffer[craddr + buf_off_width], alpha_hori);
@@ -560,30 +566,30 @@
pkt_off = (row-LD->ypos) * (LD->width-LD->xpos) + (col-LD->xpos);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off-i].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off-i)*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (col-i>LD->xpos))
i++;
buf_off_xpos = (row*width + col-i);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off+i].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off+i)*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (col+i<LD->width))
i++;
buf_off_width = (row*width + col+i);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off-i*(LD->width-LD->xpos)].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off-i*(LD->width-LD->xpos))*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (row-i>LD->ypos))
i++;
buf_off_ypos = ((row-i)*width + col);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off+i*(LD->width-LD->xpos)].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off+i*(LD->width-LD->xpos))*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (row+i<LD->height))
i++;
buf_off_height = ((row+i)*width + col);
hcalc = alpha_blending( buffer[buf_off_xpos], buffer[buf_off_width], alpha_hori );
vcalc = alpha_blending( buffer[buf_off_ypos], buffer[buf_off_height], alpha_vert );
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + pkt_off*GetPixelChannels(LD->image)));
new_px = (hcalc*LD->xweight + vcalc*LD->yweight)/100;
buffer[buf_off] = alpha_blending(buffer[buf_off], new_px, alpha_px);
}
@@ -603,23 +609,23 @@
alpha_hori = xdistance * distance_west;
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off-i].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off-i)*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (col-i>LD->xpos))
i++;
buf_off_xpos = (row*width/2 + col-i);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off+i].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off+i)*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (col+i<LD->width))
i++;
buf_off_width = (row*width/2 + col+i);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off-i*(LD->width-LD->xpos)].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off-i*(LD->width-LD->xpos))*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (row-i>LD->ypos))
i++;
buf_off_ypos = ((row-i)*width/2 + col);
i = 0;
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off+i*(LD->width-LD->xpos)].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + (pkt_off+i*(LD->width-LD->xpos))*GetPixelChannels(LD->image)));
while ((alpha_px != 255) && (row+i<LD->height))
i++;
buf_off_height = ((row+i)*width/2 + col);
@@ -630,7 +636,7 @@
pkt_off = (row*2-LD->ypos) * (LD->width-LD->xpos) + (col*2-LD->xpos);
- alpha_px = (uint8_t)ScaleQuantumToChar(LD->pixel_packet[pkt_off].red);
+ alpha_px = (uint8_t)ScaleQuantumToChar(GetPixelRed(LD->image, LD->pixel_packet + pkt_off*GetPixelChannels(LD->image)));
/* sic: reuse the red component */
hcalc = alpha_blending(buffer[craddr + buf_off_xpos], buffer[craddr + buf_off_width], alpha_hori);
vcalc = alpha_blending(buffer[craddr + buf_off_ypos], buffer[craddr + buf_off_height], alpha_vert);
@@ -815,17 +821,17 @@
}
if((data[instance]->alpha) || (data[instance]->dump)) {
- InitializeMagick("");
- GetExceptionInfo(&data[instance]->exception_info);
+ MagickCoreGenesis("", MagickFalse);
+ data[instance]->exception_info = AcquireExceptionInfo();
if(data[instance]->alpha) {
data[instance]->image_info = CloneImageInfo((ImageInfo *) NULL);
strlcpy(data[instance]->image_info->filename, data[instance]->file, MaxTextExtent);
- data[instance]->image = ReadImage(data[instance]->image_info, &data[instance]->exception_info);
+ data[instance]->image = ReadImage(data[instance]->image_info, data[instance]->exception_info);
if (data[instance]->image == (Image *) NULL) {
tc_log_error(MOD_NAME, "\n");
- MagickWarning (data[instance]->exception_info.severity, data[instance]->exception_info.reason, data[instance]->exception_info.description);
+ MagickWarning (data[instance]->exception_info->severity, data[instance]->exception_info->reason, data[instance]->exception_info->description);
return TC_ERROR;
}
@@ -835,7 +841,7 @@
return TC_ERROR;
}
- data[instance]->pixel_packet = GetImagePixels(data[instance]->image, 0, 0, data[instance]->image->columns, data[instance]->image->rows);
+ data[instance]->pixel_packet = GetAuthenticPixels(data[instance]->image, 0, 0, data[instance]->image->columns, data[instance]->image->rows, data[instance]->exception_info);
}
if(data[instance]->dump) {
if((data[instance]->dump_buf = tc_malloc ((data[instance]->width-data[instance]->xpos)*(data[instance]->height-data[instance]->ypos)*3)) == NULL)
@@ -865,10 +871,9 @@
if (data[instance]->dumpimage != (Image *)NULL) {
DestroyImage(data[instance]->dumpimage);
DestroyImageInfo(data[instance]->dumpimage_info);
- ConstituteComponentTerminus();
}
- DestroyExceptionInfo(&data[instance]->exception_info);
- DestroyMagick();
+ DestroyExceptionInfo(data[instance]->exception_info);
+ MagickCoreTerminus();
if(data[instance]->dump_buf) free(data[instance]->dump_buf);
if(data[instance]) free(data[instance]);
--- transcode-1.1.7/filter/filter_logo.c
+++ transcode-1.1.7/filter/filter_logo.c
@@ -36,7 +36,7 @@
/* Note: because of ImageMagick bogosity, this must be included first, so
* we can undefine the PACKAGE_* symbols it splats into our namespace */
-#include <magick/api.h>
+#include <MagickCore/MagickCore.h>
#undef PACKAGE_BUGREPORT
#undef PACKAGE_NAME
#undef PACKAGE_STRING
@@ -227,7 +227,8 @@
ImageFormat ifmt,
int do_rgbswap)
{
- PixelPacket *pixel_packet;
+ ExceptionInfo *exception_info;
+ Quantum *pixel_packet;
uint8_t *dst_ptr = dst;
int row, col;
@@ -246,16 +247,17 @@
}
g_off = 1;
- pixel_packet = GetImagePixels(src, 0, 0, width, height);
+ exception_info = AcquireExceptionInfo();
+ pixel_packet = GetAuthenticPixels(src, 0, 0, width, height, exception_info);
for (row = 0; row < height; row++) {
for (col = 0; col < width; col++) {
- *(dst_ptr + r_off) = (uint8_t)ScaleQuantumToChar(pixel_packet->red);
- *(dst_ptr + g_off) = (uint8_t)ScaleQuantumToChar(pixel_packet->green);
- *(dst_ptr + b_off) = (uint8_t)ScaleQuantumToChar(pixel_packet->blue);
+ *(dst_ptr + r_off) = (uint8_t)ScaleQuantumToChar(GetPixelRed(src, pixel_packet));
+ *(dst_ptr + g_off) = (uint8_t)ScaleQuantumToChar(GetPixelGreen(src, pixel_packet));
+ *(dst_ptr + b_off) = (uint8_t)ScaleQuantumToChar(GetPixelBlue(src, pixel_packet));
dst_ptr += 3;
- pixel_packet++;
+ pixel_packet += GetPixelChannels(src);
}
}
@@ -310,7 +312,7 @@
Image *timg;
Image *nimg;
ImageInfo *image_info;
- ExceptionInfo exception_info;
+ ExceptionInfo *exception_info;
int rgb_off = 0;
@@ -376,19 +378,19 @@
* semaphore.
*/
magick_usecount++;
- if (!IsMagickInstantiated()) {
- InitializeMagick("");
+ if (!IsMagickCoreInstantiated()) {
+ MagickCoreGenesis("", MagickFalse);
}
- GetExceptionInfo(&exception_info);
+ exception_info = AcquireExceptionInfo();
image_info = CloneImageInfo((ImageInfo *) NULL);
strlcpy(image_info->filename, mfd->file, MaxTextExtent);
- mfd->image = ReadImage(image_info, &exception_info);
+ mfd->image = ReadImage(image_info, exception_info);
if (mfd->image == (Image *) NULL) {
- MagickWarning(exception_info.severity,
- exception_info.reason,
- exception_info.description);
+ MagickWarning(exception_info->severity,
+ exception_info->reason,
+ exception_info->description);
strlcpy(mfd->file, "/dev/null", PATH_MAX);
return 0;
}
@@ -413,11 +415,11 @@
while (mfd->images != (Image *)NULL) {
if (mfd->flip || flip) {
- timg = FlipImage(mfd->images, &exception_info);
+ timg = FlipImage(mfd->images, exception_info);
if (timg == (Image *) NULL) {
- MagickError(exception_info.severity,
- exception_info.reason,
- exception_info.description);
+ MagickError(exception_info->severity,
+ exception_info->reason,
+ exception_info->description);
return -1;
}
AppendImageToList(&nimg, timg);
@@ -573,7 +575,7 @@
/* Set up image/video coefficient lookup tables */
if (img_coeff_lookup[0] < 0) {
int i;
- float maxrgbval = (float)MaxRGB; // from ImageMagick
+ float maxrgbval = (float)QuantumRange; // from ImageMagick
for (i = 0; i <= MAX_UINT8_VAL; i++) {
float x = (float)ScaleCharToQuantum(i);
@@ -615,8 +617,8 @@
}
magick_usecount--;
- if (magick_usecount == 0 && IsMagickInstantiated()) {
- DestroyMagick();
+ if (magick_usecount == 0 && IsMagickCoreInstantiated()) {
+ MagickCoreTerminus();
}
return 0;
@@ -638,7 +640,8 @@
&& (ptr->tag & TC_VIDEO)
&& !(ptr->attributes & TC_FRAME_IS_SKIPPED)
) {
- PixelPacket *pixel_packet;
+ ExceptionInfo *exception_info;
+ Quantum *pixel_packet;
uint8_t *video_buf;
int do_fade = 0;
@@ -647,6 +650,7 @@
/* Note: ImageMagick defines opacity = 0 as fully visible, and
* opacity = MaxRGB as fully transparent.
+ * alpha rather than opacity (0 transparent; QuantumRange opaque).
*/
Quantum opacity;
@@ -682,9 +686,11 @@
mfd->cur_delay = mfd->images->delay * vob->fps/100;
}
- pixel_packet = GetImagePixels(mfd->images, 0, 0,
+ exception_info = AcquireExceptionInfo();
+ pixel_packet = GetAuthenticPixels(mfd->images, 0, 0,
mfd->images->columns,
- mfd->images->rows);
+ mfd->images->rows,
+ exception_info);
if (vob->im_v_codec == CODEC_RGB) {
unsigned long r_off, g_off, b_off;
@@ -702,30 +708,30 @@
video_buf = ptr->video_buf + 3 * ((row + mfd->posy) * vob->ex_v_width + mfd->posx);
for (col = 0; col < mfd->image->columns; col++) {
- opacity = pixel_packet->opacity;
+ opacity = QuantumRange - GetPixelAlpha(mfd->images, pixel_packet);
if (do_fade)
- opacity += (Quantum)((MaxRGB - opacity) * fade_coeff);
+ opacity += (Quantum)((QuantumRange - opacity) * fade_coeff);
if (opacity == 0) {
- *(video_buf + r_off) = ScaleQuantumToChar(pixel_packet->red);
- *(video_buf + g_off) = ScaleQuantumToChar(pixel_packet->green);
- *(video_buf + b_off) = ScaleQuantumToChar(pixel_packet->blue);
- } else if (opacity < MaxRGB) {
+ *(video_buf + r_off) = ScaleQuantumToChar(GetPixelRed(mfd->images, pixel_packet));
+ *(video_buf + g_off) = ScaleQuantumToChar(GetPixelGreen(mfd->images, pixel_packet));
+ *(video_buf + b_off) = ScaleQuantumToChar(GetPixelBlue(mfd->images, pixel_packet));
+ } else if (opacity < QuantumRange) {
unsigned char opacity_uchar = ScaleQuantumToChar(opacity);
img_coeff = img_coeff_lookup[opacity_uchar];
vid_coeff = vid_coeff_lookup[opacity_uchar];
*(video_buf + r_off) = (uint8_t)((*(video_buf + r_off)) * vid_coeff)
- + (uint8_t)(ScaleQuantumToChar(pixel_packet->red) * img_coeff);
+ + (uint8_t)(ScaleQuantumToChar(GetPixelRed(mfd->images, pixel_packet)) * img_coeff);
*(video_buf + g_off) = (uint8_t)((*(video_buf + g_off)) * vid_coeff)
- + (uint8_t)(ScaleQuantumToChar(pixel_packet->green) * img_coeff);
+ + (uint8_t)(ScaleQuantumToChar(GetPixelGreen(mfd->images, pixel_packet)) * img_coeff);
*(video_buf + b_off) = (uint8_t)((*(video_buf + b_off)) * vid_coeff)
- + (uint8_t)(ScaleQuantumToChar(pixel_packet->blue) * img_coeff);
+ + (uint8_t)(ScaleQuantumToChar(GetPixelBlue(mfd->images, pixel_packet)) * img_coeff);
}
video_buf += 3;
- pixel_packet++;
+ pixel_packet += GetPixelChannels(mfd->images);
}
}
} else { /* !RGB */
@@ -745,10 +751,10 @@
vid_pixel_V = vid_pixel_U + vid_size/4;
for (col = 0; col < mfd->images->columns; col++) {
int do_UV_pixels = (mfd->grayout == 0 && !(row % 2) && !(col % 2)) ? 1 : 0;
- opacity = pixel_packet->opacity;
+ opacity = QuantumRange - GetPixelAlpha(mfd->images, pixel_packet);
if (do_fade)
- opacity += (Quantum)((MaxRGB - opacity) * fade_coeff);
+ opacity += (Quantum)((QuantumRange - opacity) * fade_coeff);
if (opacity == 0) {
*vid_pixel_Y = *img_pixel_Y;
@@ -756,7 +762,7 @@
*vid_pixel_U = *img_pixel_U;
*vid_pixel_V = *img_pixel_V;
}
- } else if (opacity < MaxRGB) {
+ } else if (opacity < QuantumRange) {
unsigned char opacity_uchar = ScaleQuantumToChar(opacity);
img_coeff = img_coeff_lookup[opacity_uchar];
vid_coeff = vid_coeff_lookup[opacity_uchar];
--- transcode-1.1.7/import/import_im.c
+++ transcode-1.1.7/import/import_im.c
@@ -34,9 +34,9 @@
/* Note: because of ImageMagick bogosity, this must be included first, so
* we can undefine the PACKAGE_* symbols it splats into our namespace */
#ifdef HAVE_BROKEN_WAND
-#include <wand/magick-wand.h>
+#include <MagickWand/MagickWand.h>
#else /* we have a SANE wand header */
-#include <wand/MagickWand.h>
+#include <MagickWand/MagickWand.h>
#endif /* HAVE_BROKEN_WAND */
#undef PACKAGE_BUGREPORT
--- transcode-1.1.7/import/import_imlist.c
+++ transcode-1.1.7/import/import_imlist.c
@@ -34,9 +34,9 @@
/* Note: because of ImageMagick bogosity, this must be included first, so
* we can undefine the PACKAGE_* symbols it splats into our namespace */
#ifdef HAVE_BROKEN_WAND
-#include <wand/magick-wand.h>
+#include <MagickWand/MagickWand.h>
#else /* we have a SANE wand header */
-#include <wand/MagickWand.h>
+#include <MagickWand/MagickWand.h>
#endif /* HAVE_BROKEN_WAND */
#undef PACKAGE_BUGREPORT
--- transcode-1.1.7/import/probe_im.c
+++ transcode-1.1.7/import/probe_im.c
@@ -40,9 +40,9 @@
# undef PACKAGE_VERSION
# ifdef HAVE_BROKEN_WAND
-# include <wand/magick-wand.h>
+# include <MagickWand/MagickWand.h>
# else /* we have a SANE wand header */
-# include <wand/MagickWand.h>
+# include <MagickWand/MagickWand.h>
# endif /* HAVE_BROKEN_WAND */
# undef PACKAGE_BUGREPORT
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