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#include <string>
#include <sstream>
#include "imagemagickwrapper.h"
cImageMagickWrapper::cImageMagickWrapper() {
InitializeMagick(NULL);
}
cImageMagickWrapper::~cImageMagickWrapper() {
}
cImage *cImageMagickWrapper::CreateImage() {
int w, h;
w = buffer.columns();
h = buffer.rows();
cImage *image = new cImage(cSize(w, h));
const PixelPacket *pixels = buffer.getConstPixels(0, 0, w, h);
for (int iy = 0; iy < h; ++iy) {
for (int ix = 0; ix < w; ++ix) {
tColor col = (~int(pixels->opacity * 255 / MaxRGB) << 24)
| (int(pixels->green * 255 / MaxRGB) << 8)
| (int(pixels->red * 255 / MaxRGB) << 16)
| (int(pixels->blue * 255 / MaxRGB) );
image->SetPixel(cPoint(ix, iy), col);
++pixels;
}
}
return image;
}
cImage cImageMagickWrapper::CreateImageCopy() {
int w, h;
w = buffer.columns();
h = buffer.rows();
cImage image (cSize(w, h));
const PixelPacket *pixels = buffer.getConstPixels(0, 0, w, h);
for (int iy = 0; iy < h; ++iy) {
for (int ix = 0; ix < w; ++ix) {
tColor col = (~int(pixels->opacity * 255 / MaxRGB) << 24)
| (int(pixels->green * 255 / MaxRGB) << 8)
| (int(pixels->red * 255 / MaxRGB) << 16)
| (int(pixels->blue * 255 / MaxRGB) );
image.SetPixel(cPoint(ix, iy), col);
++pixels;
}
}
return image;
}
bool cImageMagickWrapper::LoadImage(std::string FileName, std::string Path, std::string Extension) {
try {
std::stringstream sstrImgFile;
sstrImgFile << Path << FileName << "." << Extension;
std::string imgFile = sstrImgFile.str();
//dsyslog("nopacity: trying to load: %s", imgFile.c_str());
buffer.read(imgFile.c_str());
//dsyslog("nopacity: %s sucessfully loaded", imgFile.c_str());
} catch (...) {
return false;
}
return true;
}
bool cImageMagickWrapper::LoadImage(const char *fullpath) {
try {
//dsyslog("nopacity: trying to load: %s", fullpath);
buffer.read(fullpath);
//dsyslog("nopacity: %s sucessfully loaded", fullpath);
} catch (...) {
return false;
}
return true;
}
Color cImageMagickWrapper::Argb2Color(tColor col) {
tIndex alpha = (col & 0xFF000000) >> 24;
tIndex red = (col & 0x00FF0000) >> 16;
tIndex green = (col & 0x0000FF00) >> 8;
tIndex blue = (col & 0x000000FF);
Color color(MaxRGB*red/255, MaxRGB*green/255, MaxRGB*blue/255, MaxRGB*(0xFF-alpha)/255);
return color;
}
void cImageMagickWrapper::CreateBackground(tColor back, tColor blend, int width, int height, bool mirror) {
Color Back = Argb2Color(back);
Color Blend = Argb2Color(blend);
Image tmp(Geometry(width, height), Blend);
double arguments[9] = {0.0,(double)height,0.0,-1*(double)width,0.0,0.0,1.5*(double)width,0.0,1.0};
tmp.sparseColor(MatteChannel, BarycentricColorInterpolate, 9, arguments);
Image tmp2(Geometry(width, height), Back);
tmp.composite(tmp2, 0, 0, OverlayCompositeOp);
if (mirror)
tmp.flop();
buffer = tmp;
}
void cImageMagickWrapper::CreateBackgroundReverse(tColor back, tColor blend, int width, int height) {
Color Back = Argb2Color(back);
Color Blend = Argb2Color(blend);
Image tmp(Geometry(width, height), Blend);
double arguments[9] = {0.0,(double)height,0.0,-0.5*(double)width,0.0,0.0,(double)width,0.0,1.0};
tmp.sparseColor(MatteChannel, BarycentricColorInterpolate, 9, arguments);
Image tmp2(Geometry(width, height), Back);
tmp.composite(tmp2, 0, 0, OverlayCompositeOp);
buffer = tmp;
}
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