int main(int argc, char** argv) {
PPMImage *image;
int size;
if(argc > 1) {
image = readPPM("flower.ppm");
} else {
image = readStreamPPM(stdin);
}
AccurateImage *imageAccurate1_tiny = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_tiny = convertImageToNewFormat(image);
// Process the tiny case:
size = 2;
performNewIdeaIteration(imageAccurate2_tiny, imageAccurate1_tiny, size);
performNewIdeaIteration(imageAccurate1_tiny, imageAccurate2_tiny, size);
performNewIdeaIteration(imageAccurate2_tiny, imageAccurate1_tiny, size);
performNewIdeaIteration(imageAccurate1_tiny, imageAccurate2_tiny, size);
performNewIdeaIteration(imageAccurate2_tiny, imageAccurate1_tiny, size);
AccurateImage *imageAccurate1_small = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_small = convertImageToNewFormat(image);
// Process the small case:
size = 3;
performNewIdeaIteration(imageAccurate2_small, imageAccurate1_small, size);
performNewIdeaIteration(imageAccurate1_small, imageAccurate2_small, size);
performNewIdeaIteration(imageAccurate2_small, imageAccurate1_small, size);
performNewIdeaIteration(imageAccurate1_small, imageAccurate2_small, size);
performNewIdeaIteration(imageAccurate2_small, imageAccurate1_small, size);
AccurateImage *imageAccurate1_medium = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_medium = convertImageToNewFormat(image);
// Process the medium case:
size = 5;
performNewIdeaIteration(imageAccurate2_medium, imageAccurate1_medium, size);
performNewIdeaIteration(imageAccurate1_medium, imageAccurate2_medium, size);
performNewIdeaIteration(imageAccurate2_medium, imageAccurate1_medium, size);
performNewIdeaIteration(imageAccurate1_medium, imageAccurate2_medium, size);
performNewIdeaIteration(imageAccurate2_medium, imageAccurate1_medium, size);
AccurateImage *imageAccurate1_large = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_large = convertImageToNewFormat(image);
size = 8;
performNewIdeaIteration(imageAccurate2_large, imageAccurate1_large, size);
performNewIdeaIteration(imageAccurate1_large, imageAccurate2_large, size);
performNewIdeaIteration(imageAccurate2_large, imageAccurate1_large, size);
performNewIdeaIteration(imageAccurate1_large, imageAccurate2_large, size);
performNewIdeaIteration(imageAccurate2_large, imageAccurate1_large, size);
// Save the images.
PPMImage *final_tiny = performNewIdeaFinalization(imageAccurate2_tiny, imageAccurate2_small);
PPMImage *final_small = performNewIdeaFinalization(imageAccurate2_small, imageAccurate2_medium);
PPMImage *final_medium = performNewIdeaFinalization(imageAccurate2_medium, imageAccurate2_large);
if(argc > 1) {
writePPM("flower_tiny.ppm", final_tiny);
writePPM("flower_small.ppm", final_small);
writePPM("flower_medium.ppm", final_medium);
} else {
writeStreamPPM(stdout, final_tiny);
writeStreamPPM(stdout, final_small);
writeStreamPPM(stdout, final_medium);
}
return 0;
}
int main(int argc, char** argv) {
PPMImage *image;
if(argc > 1) {
image = readPPM("flower.ppm");
} else {
image = readStreamPPM(stdin);
}
AccurateImage *imageUnchanged = convertImageToNewFormat(image); // save the unchanged image from input image
AccurateImage *imageBuffer = createEmptyImage(image);
AccurateImage *imageSmall = createEmptyImage(image);
AccurateImage *imageBig = createEmptyImage(image);
PPMImage *imageOut;
imageOut = (PPMImage *)malloc(sizeof(PPMImage));
imageOut->data = (PPMPixel*)malloc(image->x * image->y * sizeof(PPMPixel));
// Process the tiny case:
performNewIdeaIteration(imageSmall, imageUnchanged, 2);
performNewIdeaIteration(imageBuffer, imageSmall, 2);
performNewIdeaIteration(imageSmall, imageBuffer, 2);
performNewIdeaIteration(imageBuffer, imageSmall, 2);
performNewIdeaIteration(imageSmall, imageBuffer, 2);
// Process the small case:
performNewIdeaIteration(imageBig, imageUnchanged,3);
performNewIdeaIteration(imageBuffer, imageBig,3);
performNewIdeaIteration(imageBig, imageBuffer,3);
performNewIdeaIteration(imageBuffer, imageBig,3);
performNewIdeaIteration(imageBig, imageBuffer,3);
// save tiny case result
performNewIdeaFinalization(imageSmall, imageBig, imageOut);
if(argc > 1) {
writePPM("flower_tiny.ppm", imageOut);
} else {
writeStreamPPM(stdout, imageOut);
}
// Process the medium case:
performNewIdeaIteration(imageSmall, imageUnchanged, 5);
performNewIdeaIteration(imageBuffer, imageSmall, 5);
performNewIdeaIteration(imageSmall, imageBuffer, 5);
performNewIdeaIteration(imageBuffer, imageSmall, 5);
performNewIdeaIteration(imageSmall, imageBuffer, 5);
// save small case
performNewIdeaFinalization(imageBig, imageSmall,imageOut);
if(argc > 1) {
writePPM("flower_small.ppm", imageOut);
} else {
writeStreamPPM(stdout, imageOut);
}
// process the large case
performNewIdeaIteration(imageBig, imageUnchanged, 8);
performNewIdeaIteration(imageBuffer, imageBig, 8);
performNewIdeaIteration(imageBig, imageBuffer, 8);
performNewIdeaIteration(imageBuffer, imageBig, 8);
performNewIdeaIteration(imageBig, imageBuffer, 8);
// save the medium case
performNewIdeaFinalization(imageSmall, imageBig, imageOut);
if(argc > 1) {
writePPM("flower_medium.ppm", imageOut);
} else {
writeStreamPPM(stdout, imageOut);
}
// free all memory structures
freeImage(imageUnchanged);
freeImage(imageBuffer);
freeImage(imageSmall);
freeImage(imageBig);
free(imageOut->data);
free(imageOut);
free(image->data);
free(image);
return 0;
}
int main() {
PPMImage *image;
image = readPPM("flower.ppm");
AccurateImage *imageAccurate1_tiny = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_tiny = convertImageToNewFormat(image);
// Process the tiny case:
for(int colour = 0; colour < 3; colour++) {
int size = 2;
performNewIdeaIteration(imageAccurate2_tiny, imageAccurate1_tiny, colour, size);
performNewIdeaIteration(imageAccurate1_tiny, imageAccurate2_tiny, colour, size);
performNewIdeaIteration(imageAccurate2_tiny, imageAccurate1_tiny, colour, size);
performNewIdeaIteration(imageAccurate1_tiny, imageAccurate2_tiny, colour, size);
performNewIdeaIteration(imageAccurate2_tiny, imageAccurate1_tiny, colour, size);
}
AccurateImage *imageAccurate1_small = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_small = convertImageToNewFormat(image);
// Process the small case:
for(int colour = 0; colour < 3; colour++) {
int size = 3;
performNewIdeaIteration(imageAccurate2_small, imageAccurate1_small, colour, size);
performNewIdeaIteration(imageAccurate1_small, imageAccurate2_small, colour, size);
performNewIdeaIteration(imageAccurate2_small, imageAccurate1_small, colour, size);
performNewIdeaIteration(imageAccurate1_small, imageAccurate2_small, colour, size);
performNewIdeaIteration(imageAccurate2_small, imageAccurate1_small, colour, size);
}
AccurateImage *imageAccurate1_medium = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_medium = convertImageToNewFormat(image);
// Process the medium case:
for(int colour = 0; colour < 3; colour++) {
int size = 5;
performNewIdeaIteration(imageAccurate2_medium, imageAccurate1_medium, colour, size);
performNewIdeaIteration(imageAccurate1_medium, imageAccurate2_medium, colour, size);
performNewIdeaIteration(imageAccurate2_medium, imageAccurate1_medium, colour, size);
performNewIdeaIteration(imageAccurate1_medium, imageAccurate2_medium, colour, size);
performNewIdeaIteration(imageAccurate2_medium, imageAccurate1_medium, colour, size);
}
AccurateImage *imageAccurate1_large = convertImageToNewFormat(image);
AccurateImage *imageAccurate2_large = convertImageToNewFormat(image);
// Do each color channel
for(int colour = 0; colour < 3; colour++) {
int size = 8;
performNewIdeaIteration(imageAccurate2_large, imageAccurate1_large, colour, size);
performNewIdeaIteration(imageAccurate1_large, imageAccurate2_large, colour, size);
performNewIdeaIteration(imageAccurate2_large, imageAccurate1_large, colour, size);
performNewIdeaIteration(imageAccurate1_large, imageAccurate2_large, colour, size);
performNewIdeaIteration(imageAccurate2_large, imageAccurate1_large, colour, size);
}
// Save the images.
PPMImage *final_tiny = performNewIdeaFinalization(imageAccurate2_tiny, imageAccurate2_small);
writePPM("flower_tiny_correct.ppm",final_tiny);
PPMImage *final_small = performNewIdeaFinalization(imageAccurate2_small, imageAccurate2_medium);
writePPM("flower_small_correct.ppm",final_small);
PPMImage *final_medium = performNewIdeaFinalization(imageAccurate2_medium, imageAccurate2_large);
writePPM("flower_medium_correct.ppm",final_medium);
}
