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[/] [open8_urisc/] [trunk/] [Open8 Tools/] [open8_src/] [open8_as/] [include_file.c] - Rev 301
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#include <ctype.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "defines.h" #include "include_file.h" #include "pass_1.h" #include "parse.h" extern int ind, inz, i, unfolded_size, extra_definitions, d; extern char *unfolded_buffer, emsg[256], tmp[4096]; extern FILE *file_out_ptr; struct incbin_file_data *incbin_file_data_first = NULL, *ifd_tmp; struct active_file_info *active_file_info_first = NULL, *active_file_info_last = NULL, *active_file_info_tmp; struct file_name_info *file_name_info_first = NULL, *file_name_info_last = NULL, *file_name_info_tmp; char *include_in_tmp = NULL, *tmp_a = NULL; int include_in_tmp_size = 0, tmp_a_size = 0, file_name_id = 1, open_files = 0; char *full_name = NULL; int full_name_size = 0; char *include_dir = NULL; int include_dir_size = 0; char *buffer = NULL; int size = 0; int create_full_name(char *dir, char *name) { char *t; int i; if (dir == NULL && name == NULL) return SUCCEEDED; /* compute the length of the new string */ i = 0; if (dir != NULL) i += strlen(dir); if (name != NULL) i += strlen(name); i++; if (i > full_name_size) { t = realloc(full_name, i); if (t == NULL) { fprintf(stderr, "CREATE_FULL_NAME: Out of memory error.\n"); return FAILED; } full_name = t; full_name_size = i; } if (dir != NULL) { strcpy(full_name, dir); if (name != NULL) strcat(full_name, name); } else strcpy(full_name, name); return SUCCEEDED; } int include_file(char *name) { static int first_load = 0; int file_size, id; char *tmp_b, *n; FILE *f; /* create the full output file name */ if (create_full_name(include_dir, name) == FAILED) return FAILED; f = fopen(full_name, "rb"); id = 0; if (f == NULL && (include_dir == NULL || include_dir[0] == 0)) { sprintf(emsg, "Error opening file \"%s\".\n", name); if (first_load == 0) fprintf(stderr, "INCLUDE_FILE: %s", emsg); else print_error(emsg, ERROR_INC); return FAILED; } /* if failed try to find the file in the current directory */ if (f == NULL) { fprintf(stderr, "%s:%d: ", get_file_name(active_file_info_last->filename_id), active_file_info_last->line_current); fprintf(stderr, "INCLUDE_FILE: Could not open \"%s\", trying \"%s\"... ", full_name, name); f = fopen(name, "rb"); id = 1; } if (f == NULL) { fprintf(stderr, "not found.\n"); sprintf(emsg, "Error opening file \"%s\".\n", full_name); if (first_load == 0) fprintf(stderr, "INCLUDE_FILE: %s", emsg); else print_error(emsg, ERROR_INC); return FAILED; } if (id == 1) { fprintf(stderr, "found.\n"); strcpy(full_name, name); } first_load = 1; if (extra_definitions == ON) { redefine("WLA_FILENAME", 0.0, name, DEFINITION_TYPE_STRING, strlen(name)); redefine("wla_filename", 0.0, name, DEFINITION_TYPE_STRING, strlen(name)); } fseek(f, 0, SEEK_END); file_size = ftell(f); fseek(f, 0, SEEK_SET); active_file_info_tmp = malloc(sizeof(struct active_file_info)); if (active_file_info_tmp == NULL) { sprintf(emsg, "Out of memory while trying allocate error tracking data structure for file \"%s\".\n", full_name); print_error(emsg, ERROR_INC); return FAILED; } active_file_info_tmp->next = NULL; if (active_file_info_first == NULL) { active_file_info_first = active_file_info_tmp; active_file_info_last = active_file_info_tmp; active_file_info_tmp->prev = NULL; } else { active_file_info_tmp->prev = active_file_info_last; active_file_info_last->next = active_file_info_tmp; active_file_info_last = active_file_info_tmp; } active_file_info_tmp->line_current = 1; /* name */ file_name_info_tmp = file_name_info_first; id = 0; while (file_name_info_tmp != NULL) { if (strcmp(file_name_info_tmp->name, full_name) == 0) { id = file_name_info_tmp->id; active_file_info_tmp->filename_id = id; break; } file_name_info_tmp = file_name_info_tmp->next; } if (id == 0) { file_name_info_tmp = malloc(sizeof(struct file_name_info)); n = malloc(strlen(full_name)+1); if (file_name_info_tmp == NULL || n == NULL) { if (file_name_info_tmp != NULL) free(file_name_info_tmp); if (n != NULL) free(n); sprintf(emsg, "Out of memory while trying allocate info structure for file \"%s\".\n", full_name); print_error(emsg, ERROR_INC); return FAILED; } file_name_info_tmp->next = NULL; if (file_name_info_first == NULL) { file_name_info_first = file_name_info_tmp; file_name_info_last = file_name_info_tmp; } else { file_name_info_last->next = file_name_info_tmp; file_name_info_last = file_name_info_tmp; } strcpy(n, full_name); file_name_info_tmp->name = n; active_file_info_tmp->filename_id = file_name_id; file_name_info_tmp->id = file_name_id; file_name_id++; } /* reallocate buffer */ if (include_in_tmp_size < file_size) { if (include_in_tmp != NULL) free(include_in_tmp); include_in_tmp = malloc(sizeof(char) * file_size); if (include_in_tmp == NULL) { sprintf(emsg, "Out of memory while trying to allocate room for \"%s\".\n", full_name); print_error(emsg, ERROR_INC); return FAILED; } include_in_tmp_size = file_size; } /* read the whole file into a buffer */ fread(include_in_tmp, 1, file_size, f); fclose(f); if (size == 0) { buffer = malloc(sizeof(char) * (file_size + 4)); if (buffer == NULL) { sprintf(emsg, "Out of memory while trying to allocate room for \"%s\".\n", full_name); print_error(emsg, ERROR_INC); return FAILED; } /* preprocess */ preprocess_file(include_in_tmp, include_in_tmp + file_size, buffer, &size, full_name); buffer[size++] = 0xA; buffer[size++] = '.'; buffer[size++] = 'E'; buffer[size++] = ' '; open_files++; return SUCCEEDED; } tmp_b = malloc(sizeof(char) * (size + file_size + 4)); if (tmp_b == NULL) { sprintf(emsg, "Out of memory while trying to expand the project to incorporate file \"%s\".\n", full_name); print_error(emsg, ERROR_INC); return FAILED; } /* reallocate tmp_a */ if (tmp_a_size < file_size) { if (tmp_a != NULL) free(tmp_a); tmp_a = malloc(sizeof(char) * (file_size + 4)); if (tmp_a == NULL) { sprintf(emsg, "Out of memory while allocating new room for \"%s\".\n", full_name); print_error(emsg, ERROR_INC); return FAILED; } tmp_a_size = file_size + 4; } /* preprocess */ inz = 0; preprocess_file(include_in_tmp, include_in_tmp + file_size, tmp_a, &inz, full_name); tmp_a[inz++] = 0xA; tmp_a[inz++] = '.'; tmp_a[inz++] = 'E'; tmp_a[inz++] = ' '; open_files++; memcpy(tmp_b, buffer, i); memcpy(tmp_b + i, tmp_a, inz); memcpy(tmp_b + i + inz, buffer + i, size - i); free(buffer); size += inz; buffer = tmp_b; return SUCCEEDED; } int incbin_file(char *name, int *id, int *swap, int *skip, int *read) { struct incbin_file_data *ifd; char *in_tmp, *n; int file_size, q; FILE *f; /* create the full output file name */ if (create_full_name(include_dir, name) == FAILED) return FAILED; f = fopen(full_name, "rb"); q = 0; if (f == NULL && (include_dir == NULL || include_dir[0] == 0)) { sprintf(emsg, "Error opening file \"%s\".\n", name); print_error(emsg, ERROR_INB); return FAILED; } /* if failed try to find the file in the current directory */ if (f == NULL) { fprintf(stderr, "%s:%d: ", get_file_name(active_file_info_last->filename_id), active_file_info_last->line_current); fprintf(stderr, "INCBIN_FILE: Could not open \"%s\", trying \"%s\"... ", full_name, name); f = fopen(name, "rb"); q = 1; } if (f == NULL) { fprintf(stderr, "not found.\n"); sprintf(emsg, "Error opening file \"%s\".\n", full_name); print_error(emsg, ERROR_INB); return FAILED; } if (q == 1) { fprintf(stderr, "found.\n"); strcpy(full_name, name); } fseek(f, 0, SEEK_END); file_size = ftell(f); fseek(f, 0, SEEK_SET); ifd = (struct incbin_file_data *)malloc(sizeof(struct incbin_file_data)); n = malloc(sizeof(char) * (strlen(full_name)+1)); in_tmp = (char *)malloc(sizeof(char) * file_size); if (ifd == NULL || n == NULL || in_tmp == NULL) { if (ifd != NULL) free(ifd); if (n != NULL) free(n); if (in_tmp != NULL) free(in_tmp); sprintf(emsg, "Out of memory while allocating data structure for \"%s\".\n", full_name); print_error(emsg, ERROR_INB); return FAILED; } /* read the whole file into a buffer */ fread(in_tmp, 1, file_size, f); fclose(f); /* complete the structure */ ifd->next = NULL; ifd->size = file_size; strcpy(n, name); ifd->name = n; ifd->data = in_tmp; /* find the index */ q = 0; if (incbin_file_data_first != NULL) { ifd_tmp = incbin_file_data_first; while (ifd_tmp->next != NULL && strcmp(ifd_tmp->name, name) != 0) { ifd_tmp = ifd_tmp->next; q++; } if (ifd_tmp->next == NULL) { ifd_tmp->next = ifd; q++; } } else incbin_file_data_first = ifd; *id = q; /* SKIP bytes? */ if (compare_next_token("SKIP", 4) == FAILED) *skip = 0; else { skip_next_token(); inz = input_number(); if (inz != SUCCEEDED) { print_error(".INCBIN needs the amount of skipped bytes.\n", ERROR_DIR); return FAILED; } *skip = d; } /* READ bytes? */ if (compare_next_token("READ", 4) == FAILED) *read = file_size - *skip; else { skip_next_token(); inz = input_number(); if (inz != SUCCEEDED) { print_error(".INCBIN needs the amount of bytes for reading.\n", ERROR_DIR); return FAILED; } *read = d; } /* SWAP bytes? */ if (compare_next_token("SWAP", 4) == FAILED) *swap = 0; else { if ((*read & 1) == 1) { sprintf(emsg, "File \"%s\" size is odd (%d)! Cannot perform SWAP.\n", full_name, *read); print_error(emsg, ERROR_INB); return FAILED; } *swap = 1; skip_next_token(); } /* FSIZE? */ if (compare_next_token("FSIZE", 5) == SUCCEEDED) { skip_next_token(); /* get the definition label */ if (get_next_token() == FAILED) return FAILED; add_a_new_definition(tmp, (double)file_size, NULL, DEFINITION_TYPE_VALUE, 0); } if (*skip + *read > file_size) { sprintf(emsg, "Overreading file \"%s\".\n", full_name); print_error(emsg, ERROR_INB); return FAILED; } return SUCCEEDED; } char get_file_name_error[] = "GET_FILE_NAME: Internal error."; char *get_file_name(int id) { struct file_name_info *f; f = file_name_info_first; while (f != NULL) { if (id == f->id) return f->name; f = f->next; } return get_file_name_error; } int print_file_names(void) { struct incbin_file_data *d; struct file_name_info *f; f = file_name_info_first; d = incbin_file_data_first; /* handle the main file name differently */ if (f != NULL) { if (f->next != NULL || d != NULL) fprintf(stderr, "%s \\\n", f->name); else fprintf(stderr, "%s\n", f->name); f = f->next; } /* included files */ while (f != NULL) { if (f->next != NULL || d != NULL) fprintf(stderr, "\t%s \\\n", f->name); else fprintf(stderr, "\t%s\n", f->name); f = f->next; } /* incbin files */ while (d != NULL) { if (d->next != NULL) fprintf(stderr, "\t%s \\\n", d->name); else fprintf(stderr, "\t%s\n", d->name); d = d->next; } return SUCCEEDED; } /* the mystery preprocessor - touch it and prepare for trouble ;) the preprocessor removes as much white space as possible from the source file. this is to make the parsing of the file, that follows, simpler. */ int preprocess_file(char *c, char *d, char *o, int *s, char *f) { register int t = 0, z = 0; #if defined(W65816) || defined(SPC700) register int u = 0; #endif char *e; e = o + (*s); while (c < d) { switch (*c) { case ';': /* clear a commented line */ c++; for ( ; c < d && *c != 0x0A && *c != 0x0D; c++); e--; for ( ; e > o && *e == ' '; e--); if (e < o) e = o; else if (*e != ' ') e++; break; case '*': if (t == 0) { /* clear a commented line */ c++; for ( ; c < d && *c != 0x0A && *c != 0x0D; c++); } else { /* multiplication! */ c++; *e = '*'; e++; t = 1; } break; case '/': if (*(c + 1) == '*') { /* remove an ANSI C -style block comment */ t = 0; c += 2; while (t == 0) { for ( ; c < d && *c != '/' && *c != 0x0A; c++); if (c >= d) { sprintf(emsg, "Comment wasn't terminated properly in file \"%s\".\n", f); print_error(emsg, ERROR_INC); return FAILED; } if (*c == 0x0A) { *e = 0x0A; e++; } if (*c == '/' && *(c - 1) == '*') { t = 1; } c++; } e--; for ( ; e > o && *e == ' '; e--); if (e < o) e = o; else if (*e != ' ') e++; } else { c++; *e = '/'; e++; t = 1; } break; case ':': /* finding a label resets the counters */ c++; *e = ':'; e++; t = 0; break; case 0x09: case ' ': /* remove extra white space */ c++; *e = ' '; e++; for ( ; c < d && (*c == ' ' || *c == 0x09); c++); t = 1; if (z == 1) z = 2; break; case 0x0A: /* take away white space from the end of the line */ c++; e--; for ( ; *e == ' '; e--); e++; *e = 0x0A; e++; t = 0; z = 0; #if defined(W65816) || defined(SPC700) u = 0; #endif break; case 0x0D: c++; break; case '\'': if (*(c + 2) == '\'') { *e = '\''; c++; e++; *e = *c; c++; e++; *e = '\''; c++; e++; } else { *e = '\''; c++; e++; } t = 1; break; case '"': /* don't alter the strings */ *e = '"'; c++; e++; t = 0; while (t == 0) { for ( ; c < d && *c != '"'; ) { *e = *c; c++; e++; } if (*c == '"' && *(c - 1) != '\\') t = 1; else { *e = '"'; c++; e++; } } *e = '"'; c++; e++; break; #if !defined(W65816) && !defined(SPC700) case '[': /* change '[' to '(' */ #endif case '(': *e = '('; c++; e++; for ( ; c < d && (*c == ' ' || *c == 0x09); c++); t = 1; break; #if !defined(W65816) && !defined(SPC700) case ']': /* change ']' to ')' */ #endif case ')': /* go back? */ if (t == 1 && *(e - 1) == ' ') e--; *e = ')'; c++; e++; t = 1; break; #if defined(W65816) || defined(SPC700) case '[': *e = *c; c++; e++; t = 1; u = 1; break; #endif case ',': case '+': case '-': if (t == 0) { for ( ; c < d && (*c == '+' || *c == '-'); c++, e++) *e = *c; t = 1; } else { #if defined(W65816) || defined(SPC700) /* go back? */ if (*(e - 1) == ' ' && u == 1) e--; #else /* go back? */ if ((z == 3 || *c == ',') && *(e - 1) == ' ') e--; #endif *e = *c; c++; e++; for ( ; c < d && (*c == ' ' || *c == 0x09); c++); t = 1; } break; default: *e = *c; c++; e++; if (z == 0) z = 1; else if (z == 2) z = 3; t = 1; break; } } *s = e - o; return SUCCEEDED; }
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