/* modified version of cementi.c...includes ability to apply fileters */ #include #include #include #include #include #include #include #include #include #include #include #include "cement.h" #include "pnmutils.h" #include "file.h" #include "powLookup.h" /* Global Variables */ extern int errno; extern char **environ; /* Function prototypes needed in executable and in library */ static int my_system (char *command); static inline double createValue(double a, unsigned char b, double weight); static int verbose=0; #ifndef OBJECT_COMPILE /* Functions needed only in executable */ void usage(char * string); void parse_commandline(int argc, char ** argv, char**input_filenameA, char**input_filenameB, double *R, double *G, double *B); void mystatus(char *action, char *filename, double R,double G, double B, double complete); #endif int grey(char *filename) { int counter = 0, no_pixels; int bytes_per_pixel; double temp_red, temp_green, temp_blue, *red, *green, *blue; File *source_fd; FILE *dest_fd; char string[MAX_STRING_LENGTH]; struct image_params source_header = {NULL, 0, 0, 0, 0, 0, 0}; source_fd = fileopen(filename, "r"); if (source_fd == NULL) { fprintf(stderr, "grey: unable to open %s\n", filename); return -1; } sprintf(string, "greyed.%s", filename); dest_fd = fopen(string, "w"); if (dest_fd == NULL) { fprintf(stderr, "grey: unable to create %s\n", string); return -1; } get_image_params(source_fd, &source_header); if (source_header.type == 'A') { bytes_per_pixel = 3; sprintf(string, "P%c\n%d %d\n%d\n%d\n%f\n", source_header.type, source_header.width, source_header.height, source_header.max_val, 1, 4.7); fwrite(string, sizeof(unsigned char), strlen(string), dest_fd); } printf("grey: reading in source pixels..."); no_pixels = source_header.width * source_header.height; red = (double *) malloc(sizeof(double) * no_pixels); green = (double *) malloc(sizeof(double) * no_pixels); blue = (double *) malloc(sizeof(double) * no_pixels); counter = 0; while (counter < no_pixels) { fileread(&(red[counter]), sizeof(double), 1, source_fd); fileread(&(green[counter]), sizeof(double), 1, source_fd); fileread(&(blue[counter]), sizeof(double), 1, source_fd); counter++; } printf("done\n"); /* loop to grey the image data */ counter = 0; while (counter < no_pixels) { temp_red = 0.299 * red[counter] + 0.587 * green[counter] + 0.114 * blue[counter]; temp_green = temp_red; temp_blue = temp_red; fwrite(&temp_red, sizeof(double), 1, dest_fd); fwrite(&temp_green, sizeof(double), 1, dest_fd); fwrite(&temp_blue, sizeof(double), 1, dest_fd); counter++; } fileclose(source_fd); fclose(dest_fd); /* moving the temporary image file to the destination file */ sprintf(string, "rm %s; mv greyed.%s %s", filename, filename, filename); if (my_system(string) == -1) { printf("Error calling %s\n", string); exit(EXIT_FAILURE); } return 0; } int blur(char *filename, int power) { int counter = 0, no_pixels; int bytes_per_pixel, no_colours = 0; int x, y, dx, dy; double temp_red, temp_green, temp_blue, *red, *green, *blue; File *source_fd; FILE *dest_fd; char string[MAX_STRING_LENGTH]; struct image_params source_header = {NULL, 0, 0, 0, 0, 0, 0}; source_fd = fileopen(filename, "r"); if (source_fd == NULL) { fprintf(stderr, "blur: unable to open %s\n", filename); return -1; } sprintf(string, "blurred.%s", filename); dest_fd = fopen(string, "w"); if (dest_fd == NULL) { fprintf(stderr, "blur: unable to create %s\n", string); return -1; } get_image_params(source_fd, &source_header); if (source_header.type == 'A') { bytes_per_pixel = 3; sprintf(string, "P%c\n%d %d\n%d\n%d\n%f\n", source_header.type, source_header.width, source_header.height, source_header.max_val, 1, 4.7); fwrite(string, sizeof(unsigned char), strlen(string), dest_fd); } printf("blur: reading in source pixels..."); no_pixels = source_header.width * source_header.height; red = (double *) malloc(sizeof(double) * no_pixels); green = (double *) malloc(sizeof(double) * no_pixels); blue = (double *) malloc(sizeof(double) * no_pixels); counter = 0; while (counter < no_pixels) { fileread(&(red[counter]), sizeof(double), 1, source_fd); fileread(&(green[counter]), sizeof(double), 1, source_fd); fileread(&(blue[counter]), sizeof(double), 1, source_fd); counter++; } printf("done\n"); /* loop to blur the image data */ for (y = 0; y < source_header.height; y++) { for (x = 0; x < source_header.width; x++) { temp_red = 0; temp_green = 0; temp_blue = 0; no_colours = 0; for (dy = -power + y; dy <= power + y; dy++) { for (dx = -power + x; dx <= power + x; dx++) { if ((dx >= 0) && (dx < source_header.width) && (dy >= 0) && (dy < source_header.height)) { temp_red = temp_red + red[dx + dy * source_header.width]; temp_green = temp_green + green[dx + dy * source_header.width]; temp_blue = temp_blue + blue[dx + dy * source_header.width]; no_colours++; } } } temp_red = temp_red / no_colours; temp_green = temp_green / no_colours; temp_blue = temp_blue / no_colours; fwrite(&temp_red, sizeof(double), 1, dest_fd); fwrite(&temp_green, sizeof(double), 1, dest_fd); fwrite(&temp_blue, sizeof(double), 1, dest_fd); } } fileclose(source_fd); fclose(dest_fd); /* moving the temporary image file to the destination file */ sprintf(string, "rm %s; mv blurred.%s %s", filename, filename, filename); if (my_system(string) == -1) { printf("Error calling %s\n", string); exit(EXIT_FAILURE); } return 0; } /* Functions */ #ifndef CEMENT_REMOVE int cementi(char *input_filenameA, char *input_filenameB, double R, double G, double B, char* command, void (*status)(char *action, char *filename, double R,double G, double B, double complete), int argc, char **argv ) #else int cemento(char *input_filenameA, char *input_filenameB, double R, double G, double B, char* command, void (*status)(char *action, char *filename, double R,double G, double B, double complete), int argc, char **argv ) #endif { struct image_params a_params={NULL,0,0,0,0,0.0}; struct image_params b_params={NULL,0,0,0,0,0.0}; File * a, * b, * dest; double p=EXPONENT; /* exponent for pow */ double a_pixel[ARRAY_SIZE]; unsigned char b_pixel[ARRAY_SIZE]; double out_pixel[ARRAY_SIZE]; int i,j; int channels_per_pixel; int counter = 0, position; int filtered_before = 0; // double R, G, B; /* weights for cement */ /* Timing measurments */ struct timeval timeValStart; struct timeval timeValEnd; struct timezone timeZone; int minutes; double seconds=0.0; #ifdef GET_TIME_MEASUREMENTS struct timeval runTimeStart; struct timeval runTimeStop; double fileReadTime=0.0; double fileWriteTime=0.0; double computeTime=0.0; #endif unsigned int pixels=0; unsigned int numberOfPixels; char string[MAX_STRING_LENGTH]; char temp_command[MAX_STRING_LENGTH]; unsigned int image_ptr=0; if(p!=powLookupExponent) { printf("Exonents must match\n"); exit(EXIT_FAILURE); } a_params.filename=input_filenameA; b_params.filename=input_filenameB; /* applying the filters, if requested */ counter = argc - 6; position = 1; filtered_before = 0; while (counter > 0) { if (strcmp(argv[5 + position], "b") == 0) { if (filtered_before == 0) { sprintf(temp_command, "./cementinit %s 1 1 1 -o temp.plm", b_params.filename); system(temp_command); } printf("applying the blur filter...\n"); blur("temp.plm", atoi(argv[6 + position])); position = position + 2; counter = counter - 2; filtered_before = 1; } else if (strcmp(argv[5 + position], "g") == 0) { if (filtered_before == 0) { sprintf(temp_command, "./cementinit %s 1 1 1 -o temp.plm", b_params.filename); system(temp_command); } printf("applying the grey filter...\n"); grey("temp.plm"); position++; counter--; filtered_before = 1; } } if (filtered_before == 1) { system("./plm2pnm temp.plm -o temp.ppm"); b_params.filename = "temp.ppm"; } // parse_commandline(argc, argv, &a_params, &b_params, &R, &G, &B); if ((a=fileopen(a_params.filename, "r"))==NULL) { fprintf(stderr, "Unable to open %s.\n", a_params.filename); exit(EXIT_FAILURE); } if ((b=fileopen(b_params.filename, "r"))==NULL) { fprintf(stderr, "Unable to open %s.\n", b_params.filename); exit(EXIT_FAILURE); } sprintf(string,"tmp.%s",a_params.filename); if ((dest=fileopen(string, "w"))==NULL) { fprintf(stderr, "Unable to open %s.\n", string); exit(EXIT_FAILURE); } get_image_type(a, &a_params); if (a_params.type=='A') { channels_per_pixel=3; sprintf(string, "P%c\n", a_params.type); filewrite(string,sizeof(unsigned char),strlen(string),dest); get_image_params_preserve_comments(a,&a_params,dest); } else { fprintf(stderr, "Portable Lightspace Map (plm) must be type A and it is type %c\n",a_params.type); exit(EXIT_FAILURE); } if(isJpegFile(b)==0) { get_image_params(b, &b_params); } else { b_params.type='6'; b_params.max_val=255; if(read_JPEG_file (b_params.filename)==0) { printf("ERROR: File %s does not exist\n",b_params.filename); exit(0); } // write_JPEG_file("test.jpg",95); // exit(0); image_ptr=0; b_params.width=image_width; b_params.height=image_height; } if ((a_params.width!=b_params.width) || (a_params.height!=b_params.height) || (a_params.max_val!=b_params.max_val) || (a_params.exponent!=(float)EXPONENT)) { printf("%f %f\n",a_params.exponent,EXPONENT); printf("%d %d\n",a_params.width,b_params.width); printf("%d %d\n",a_params.height,b_params.height); printf("%d %d\n",a_params.max_val,b_params.max_val); fprintf(stderr, "Lightspace must have the same dimensions, maximum " "values, and exponent.\n"); exit(EXIT_FAILURE); } sprintf(string, "# %s %s %s %f %f %f\n",command,input_filenameA,input_filenameB,R, G,B); filewrite(string,sizeof(unsigned char),strlen(string),dest); #ifndef CEMENT_REMOVE sprintf(string, "%d %d\n%d\n%d\n%f\n",a_params.width, a_params.height,a_params.max_val, ++a_params.numberOfImages,EXPONENT); #else sprintf(string, "%d %d\n%d\n%d\n%f\n",a_params.width, a_params.height, a_params.max_val,--a_params.numberOfImages,EXPONENT); #endif filewrite(string,sizeof(unsigned char),strlen(string),dest); #ifdef SILENT_RUN #ifndef CEMENT_REMOVE // printf("Add %s %d %d %d\r",b_params.filename,(int)R,(int)G,(int)B); #else // printf("Del %s %d %d %d\r",b_params.filename,(int)R,(int)G,(int)B); #endif #else #ifndef CEMENT_REMOVE printf("Adding file: \"%s\", ",b_params.filename); #else printf("Removing file: \"%s\", ",b_params.filename); #endif printf("P%c, %dx%d, ",b_params.type,b_params.width,b_params.height); printf("R=%7.3f ",R); printf("G=%7.3f ",G); printf("B=%7.3f to ",B); printf("lightspace \"%s\", ",a_params.filename); printf("P%c\n",a_params.type); #endif /* Start Timer */ if(gettimeofday(&timeValStart,&timeZone)==-1) { fprintf(stderr,"Error getting the time\n"); exit(0); } numberOfPixels=a_params.width*a_params.height; if(((float)numberOfPixels/NUMBER_PIXELS_PER_READ)!=(int)((float)numberOfPixels/NUMBER_PIXELS_PER_READ)) { if(verbose) printf("\nERROR: The number of pixels %d is not evenly divisible by %d. ",numberOfPixels,NUMBER_PIXELS_PER_READ); numberOfPixels=(int)((float)numberOfPixels/NUMBER_PIXELS_PER_READ)*NUMBER_PIXELS_PER_READ; if(verbose) printf("We will go up to %d pixels.\n",numberOfPixels); } for(i=0;i60) { minutes=seconds/60; seconds=seconds-minutes*60; } else minutes=0; if(verbose || GET_RUN_TIME) { #ifndef SILENT_RUN if(minutes==1) printf("Run Time is about %d minute %f seconds.\n",minutes,seconds); else printf("Run Time is about %d minutes %f seconds.\n",minutes,seconds); #else #ifndef CEMENT_REMOVE // printf("Add %s %d %d %d %4.2f(s)\n",b_params.filename,(int)R,(int)G,(int)B,minutes*60+seconds); if(status!=NULL) status("Add",b_params.filename,R,G,B,(double)100); #else // printf("Del %s %d %d %d %4.2f(s)\n",b_params.filename,(int)R,(int)G,(int)B,minutes*60+seconds); if(status!=NULL) status("Del",b_params.filename,R,G,B,(double)100); #endif #endif } if(isJpegFile(b)==1) free(image_buffer); sprintf(string,"rm %s; mv tmp.%s %s",a_params.filename,a_params.filename,a_params.filename); if(verbose) printf("%s\n",string); if(my_system (string)==-1) { printf("Error calling %s\n",string); exit(EXIT_FAILURE); } return(EXIT_SUCCESS); } static inline double createValue(double a, unsigned char b, double weight) { #ifndef CEMENT_REMOVE return(a+weight*powLookupTable[b]); #else return(a-weight*powLookupTable[b]); #endif } static int my_system (char *command) { int pid, status; if (command == 0) return 1; pid = fork(); if (pid == -1) return -1; if (pid == 0) { char *argv[4]; argv[0] = "sh"; argv[1] = "-c"; argv[2] = command; argv[3] = 0; execve("/bin/sh", argv, environ); exit(127); } do { if (waitpid(pid, &status, 0) == -1) { if (errno != EINTR) return -1; } else return status; } while(1); } #ifndef OBJECT_COMPILE int main(int argc, char ** argv) { char * input_filenameA=NULL; char * input_filenameB=NULL; double R,G,B; parse_commandline(argc, argv, &input_filenameA,&input_filenameB,&R,&G,&B); #ifndef CEMENT_REMOVE return(cementi(input_filenameA, input_filenameB,R,G,B,argv[0],mystatus, argc, argv)); #else return(cemento(input_filenameA, input_filenameB,R,G,B,argv[0],mystatus, argc, argv)); #endif } void mystatus(char *action, char *filename, double R,double G, double B, double complete) { printf("%s %s %d %d %d %d%%\r",action,filename,(int)R,(int)G,(int)B,(int)complete); fflush(stdout); if((int)complete==100) printf("\n"); } void usage(char * string) { fprintf(stderr, "Use: %s [Lightspace file] [Imagespace file] \n",string); fprintf(stderr, " [Lightspace file] is Portable Lightspace Map (plm) file image to be added to\n"); fprintf(stderr, " [Imagespace file] is ppm file of image to add to the lightspace.\n"); fprintf(stderr, " =Float for Red weight.\n"); fprintf(stderr, " =Float for Green weight.\n"); fprintf(stderr, " =Float for Blue weight.\n"); exit(EXIT_SUCCESS); } void parse_commandline(int argc, char ** argv, char**input_filenameA, char**input_filenameB, double *R, double *G, double *B) { if (argc<6) usage(argv[0]); *input_filenameA=(char*)strdup(argv[1]); *input_filenameB=(char*)strdup(argv[2]); sscanf(argv[3],"%lf",R); /* sscanf does not recognize %g, must be %lf */ sscanf(argv[4],"%lf",G); /* sscanf does not recognize %g, must be %lf */ sscanf(argv[5],"%lf",B); /* sscanf does not recognize %g, must be %lf */ } #endif