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[/] [open8_urisc/] [trunk/] [Open8 Tools/] [open8_src/] [open8_as/] [pass_1.c] - Rev 304
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#include <ctype.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include <math.h> #include <time.h> #include "defines.h" #include "include_file.h" #include "parse.h" #include "pass_1.h" #include "pass_2.h" #include "stack.h" #define MAXADDRESS 0x10000 int org_defined = 1, background_defined = 0, background_size = 0; int bank = 0, bank_defined = 0; int rombanks = 0, rombanks_defined = 0, romtype = 0, max_address=0; int rambanks = 0, rambanks_defined = 0; int emptyfill, emptyfill_defined = 0; int section_status = OFF, section_id = 1, line_count_status = ON; int d, i, ind, inz, ifdef = 0, t, slots_amount = 1; int memorymap_defined = 0; int defaultslot_defined = 0, defaultslot, current_slot = 0; int banksize_defined = 1, banksize = MAXADDRESS ; int rombankmap_defined = 0, *banks = NULL, *bankaddress = NULL; int bankheader_status = OFF; int macro_active = 0; int repeat_active = 0; int smc_defined = 0; int asciitable_defined = 0; int block_status = 0; unsigned char asciitable[256]; int unfolded_size; char *unfolded_buffer = NULL; FILE *fold_out; extern struct stack *stacks_header_first, *stacks_header_last; extern int stacks_inside, stacks_outside; int stack_inserted; extern int operand_hint; char tmp[4096], emsg[256]; char *tmp_bf; char cp[256]; unsigned char *rom_banks = NULL, *rom_banks_usage_table = NULL; struct export_def *export_first = NULL, *export_last = NULL; struct optcode *opt_tmp; struct definition *defines = NULL, *tmp_def, *next_def; struct macro_static *macros_first = NULL, *macros_last; struct section_def *sections_first = NULL, *sections_last = NULL, *sec_tmp, *sec_next; struct macro_runtime *macro_stack = NULL, *macro_runtime_current = NULL; struct repeat_runtime *repeat_stack = NULL; struct slot slots[256]; struct structure *structures_first = NULL; struct filepointer *filepointers = NULL; extern char *buffer, *unfolded_buffer, label[MAX_NAME_LENGTH], *include_dir, *full_name; extern int size, unfolded_size, input_number_error_msg, verbose_mode, output_format, open_files; extern int stack_id, latest_stack, ss, commandline_parsing, newline_beginning; extern int extra_definitions, string_size, input_float_mode; extern int include_dir_size, parse_floats, listfile_data, quiet; extern FILE *file_out_ptr; extern double flo; extern char *final_name; extern struct active_file_info *active_file_info_first, *active_file_info_last, *active_file_info_tmp; extern struct file_name_info *file_name_info_first, *file_name_info_last, *file_name_info_tmp; extern struct stack *stacks_first, *stacks_tmp, *stacks_last; int opcode_n[256], opcode_p[256]; int macro_stack_size = 0, repeat_stack_size = 0; int xbit_size = 0; int accu_size = 8, index_size = 8; #include "opcodes_v8urisc.c" #include "opcodes_v8urisc_tables.c" int strcaselesscmp(char *s1, char *s2) { if (s1 == NULL || s2 == NULL) return 0; while (*s1 != 0) { if (toupper((int)*s1) != toupper((int)*s2)) return 1; s1++; s2++; } if (*s2 != 0) return 1; return 0; } int pass_1(void) { struct macro_runtime *mrc = NULL; struct macro_static *m = NULL; int o, p, q; if (verbose_mode == ON) printf("Pass 1...\n"); /* mark all slots as empty */ for (q = 0; q < 256; q++) slots[q].size = 0; /* except for the first - lay down some good defaults */ slots[0].size = MAXADDRESS; /* default size */ /* set up a default ROMBANKMAP */ int b = 0, a = 0, bt = 0, bt_defined = 0, x, bs = 0, bs_defined = 0; //BANKSTOTAL o = 0; d = 1; banks = malloc(sizeof(int) * d); bankaddress = malloc(sizeof(int) * d); if (banks == NULL || bankaddress == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } bt = d; bt_defined = 1; d=MAXADDRESS; bs = d; bs_defined = 1; d=1; for (x = 0; x < d; x++) { banks[o] = bs; bankaddress[o] = a; o++; b++; a += bs; } rombanks = b; rombanks_defined = 1; for (max_address = 0, q = 0; q < rombanks; q++) max_address += banks[q]; if (rom_banks != NULL) free(rom_banks); if (rom_banks_usage_table != NULL) free(rom_banks_usage_table); rom_banks = malloc(sizeof(unsigned char) * max_address); rom_banks_usage_table = malloc(sizeof(unsigned char) * max_address); if (rom_banks == NULL || rom_banks_usage_table == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } memset(rom_banks_usage_table, 0, sizeof(unsigned char) * max_address); rombankmap_defined = 1; bank=0; bank_defined=1; /* start from the very first character */ i = 0; /* output the file id */ fprintf(file_out_ptr, "f%d ", active_file_info_tmp->filename_id); /* BANK 0 SLOT 0 ORG 0 */ if (output_format != OUTPUT_LIBRARY) fprintf(file_out_ptr, "B%d %d O%d", 0, 0, 0); while ((t = get_next_token()) == SUCCEEDED) { q = evaluate_token(); if (q == SUCCEEDED) continue; else if (q == EVALUATE_TOKEN_EOP) return SUCCEEDED; else if (q == EVALUATE_TOKEN_NOT_IDENTIFIED) { /* check if it is of the form "LABEL:XYZ" */ for (q = 0; q < ss; q++) if (tmp[q] == ':') break; /* is it a macro */ if (q == ss) { m = macros_first; while (m != NULL) { if (strcmp(m->name, tmp) == 0) break; m = m->next; } } /* it is a label after all */ if (q != ss || newline_beginning == ON) { tmp[q] = 0; /* reset the flag as there can be only one label / line */ newline_beginning = OFF; if (output_format == OUTPUT_LIBRARY && section_status == OFF) { print_error("All labels must be inside sections when compiling a library.\n", ERROR_LOG); return FAILED; } if (org_defined == 0) { sprintf(emsg, "\"%s\" needs a position in memory.\n", tmp); print_error(emsg, ERROR_LOG); return FAILED; } if (ss > MAX_NAME_LENGTH - 1) { sprintf(emsg, "The label \"%s\" is too long. Max label length is %d bytes.\n", tmp, MAX_NAME_LENGTH - 1); print_error(emsg, ERROR_NONE); return FAILED; } if (bankheader_status == ON) { print_error("BANKHEADER sections don't take labels.\n", ERROR_LOG); return FAILED; } /* check out for \@-symbols */ if (macro_active != 0) { if (tmp[q - 2] == '\\' && tmp[q - 1] == '@') sprintf(&tmp[q - 2], "%d%c", macro_runtime_current->macro->calls - 1, 0); } fprintf(file_out_ptr, "k%d L%s ", active_file_info_last->line_current, tmp); /* move to the end of the label */ if (q != ss) i -= ss - q - 1; else i -= ss - q; continue; } if (m == NULL) { sprintf(emsg, "Unknown symbol \"%s\".\n", tmp); print_error(emsg, ERROR_ERR); return FAILED; } /* start running a macro... run until .ENDM */ if (macro_active == macro_stack_size) { struct macro_runtime *mr; /* enlarge the macro stack */ macro_stack_size = (macro_stack_size<<1)+2; mr = realloc(macro_stack, sizeof(struct macro_runtime) * macro_stack_size); if (mr == NULL) { print_error("Out of memory error while enlarging macro stack buffer.\n", ERROR_ERR); return FAILED; } macro_stack = mr; } mrc = ¯o_stack[macro_active]; mrc->argument_data = NULL; /* collect macro arguments */ for (p = 0; 1; p++) { /* take away the white space */ while (1) { if (buffer[i] == ' ' || buffer[i] == ',') i++; else break; } o = i; q = input_number(); if (q == INPUT_NUMBER_EOL) break; mrc->argument_data = realloc(mrc->argument_data, (p+1)*sizeof(struct macro_argument *)); mrc->argument_data[p] = malloc(sizeof(struct macro_argument)); if (mrc->argument_data == NULL || mrc->argument_data[p] == NULL) { print_error("Out of memory error while collecting macro arguments.\n", ERROR_NONE); return FAILED; } mrc->argument_data[p]->start = o; mrc->argument_data[p]->type = q; if (q == INPUT_NUMBER_ADDRESS_LABEL) strcpy(mrc->argument_data[p]->string, label); else if (q == INPUT_NUMBER_STRING) strcpy(mrc->argument_data[p]->string, label); else if (q == INPUT_NUMBER_STACK) mrc->argument_data[p]->value = latest_stack; else if (q == SUCCEEDED) mrc->argument_data[p]->value = d; else return FAILED; /* do we have a name for this argument? */ if (p < m->nargument_names) { if (q == INPUT_NUMBER_ADDRESS_LABEL) redefine(m->argument_names[p], 0.0, label, DEFINITION_TYPE_STRING, strlen(label)); else if (q == INPUT_NUMBER_STRING) redefine(m->argument_names[p], 0.0, label, DEFINITION_TYPE_STRING, strlen(label)); else if (q == INPUT_NUMBER_STACK) redefine(m->argument_names[p], (double)latest_stack, NULL, DEFINITION_TYPE_STACK, 0); else if (q == SUCCEEDED) redefine(m->argument_names[p], (double)d, NULL, DEFINITION_TYPE_VALUE, 0); } } macro_runtime_current = mrc; macro_active++; m->calls++; mrc->supplied_arguments = p; next_line(); mrc->macro = m; mrc->macro_end = i; mrc->macro_end_line = active_file_info_last->line_current; mrc->macro_end_filename_id = active_file_info_last->filename_id; if ((extra_definitions == ON) && (active_file_info_last->filename_id != m->filename_id)) { redefine("WLA_FILENAME", 0.0, get_file_name(m->filename_id), DEFINITION_TYPE_STRING, strlen(get_file_name(m->filename_id))); redefine("wla_filename", 0.0, get_file_name(m->filename_id), DEFINITION_TYPE_STRING, strlen(get_file_name(m->filename_id))); } active_file_info_last->line_current = m->start_line; active_file_info_last->filename_id = m->filename_id; i = m->start; /* redefine NARGS */ if (redefine("NARGS", (double)p, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (redefine("nargs", (double)p, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; continue; } else if (q == FAILED) { sprintf(emsg, "Couldn't parse \"%s\".\n", tmp); print_error(emsg, ERROR_ERR); return FAILED; } else { printf("PASS_1: Internal error, unknown return type %d.\n", q); return FAILED; } } return FAILED; } int evaluate_token(void) { int f, z = 0, x, y; /* is it a directive? */ if (tmp[0] == '.') return parse_directive(); /* is it a label? */ if (tmp[ss - 1] == ':' && newline_beginning == ON) { tmp[ss - 1] = 0; newline_beginning = OFF; if (output_format == OUTPUT_LIBRARY && section_status == OFF) { print_error("All labels must be inside sections when compiling a library.\n", ERROR_LOG); return FAILED; } if (org_defined == 0) { sprintf(emsg, "\"%s\" needs a position in memory.\n", tmp); print_error(emsg, ERROR_LOG); return FAILED; } if (ss > MAX_NAME_LENGTH - 1) { sprintf(emsg, "The label \"%s\" is too long. Max label length is %d bytes.\n", tmp, MAX_NAME_LENGTH - 1); print_error(emsg, ERROR_NONE); return FAILED; } if (bankheader_status == ON) { print_error("BANKHEADER sections don't take labels.\n", ERROR_LOG); return FAILED; } /* check for \@-symbols */ if (macro_active != 0) { if (tmp[ss - 3] == '\\' && tmp[ss - 2] == '@') sprintf(&tmp[ss - 3], "%d%c", macro_runtime_current->macro->calls - 1, 0); } fprintf(file_out_ptr, "k%d L%s ", active_file_info_last->line_current, tmp); return SUCCEEDED; } /* OPCODE? */ ind = opcode_p[(unsigned int)tmp[0]]; opt_tmp = &opt_table[ind]; for (f = opcode_n[(unsigned int)tmp[0]]; f > 0; f--) { for (inz = 0, d = SUCCEEDED; inz < OP_SIZE_MAX; inz++) { if (tmp[inz] == 0 && opt_tmp->op[inz] == 0 && buffer[i] == 0x0A) { if (opt_tmp->type == 0) fprintf(file_out_ptr, "d%d ", opt_tmp->hex); else fprintf(file_out_ptr, "y%d ", opt_tmp->hex); return SUCCEEDED; } if (tmp[inz] == 0 && opt_tmp->op[inz] == ' ' && buffer[i] == ' ') break; if (opt_tmp->op[inz] != toupper((int)tmp[inz])) { d = FAILED; break; } } if (d == FAILED) { opt_tmp = &opt_table[++ind]; continue; } /* beginning matches the input */ x = inz + 1; inz = i + 1; /* no stack rollback */ stack_inserted = STACK_NONE; switch (opt_tmp->type) { #include "decode_v8urisc.c" } /* perform stack rollback? */ if (stack_inserted != STACK_NONE) { struct stack *s; if (stack_inserted == STACK_OUTSIDE) { if (stacks_outside == 1) { stacks_outside = 0; delete_stack(stacks_first); stacks_first = NULL; stacks_last = NULL; } else { s = stacks_first; stacks_outside--; for (y = 0; y < stacks_outside - 1; y++) s = s->next; delete_stack(s->next); s->next = NULL; stacks_last = s; } } else { if (stacks_inside == 1) { stacks_inside = 0; delete_stack(stacks_header_first); stacks_header_first = NULL; stacks_header_last = NULL; } else { s = stacks_header_first; stacks_inside--; for (y = 0; y < stacks_inside - 1; y++) s = s->next; delete_stack(s->next); s->next = NULL; stacks_header_last = s; } } } opt_tmp = &opt_table[++ind]; } /* allow error messages from input_numbers() */ input_number_error_msg = YES; return EVALUATE_TOKEN_NOT_IDENTIFIED; } int redefine(char *name, double value, char *string, int type, int size) { struct definition *d; d = defines; while (d != NULL) { if (strcmp(d->alias, name) == 0) break; d = d->next; } /* it wasn't defined previously */ if (d == NULL) { return add_a_new_definition(name, value, string, type, size); } d->type = type; if (type == DEFINITION_TYPE_VALUE) d->value = value; else if (type == DEFINITION_TYPE_STACK) d->value = value; else if (type == DEFINITION_TYPE_STRING) { memcpy(d->string, string, size); d->string[size] = 0; d->size = size; } return SUCCEEDED; } int undefine(char *name) { struct definition *d, *p; d = defines; p = NULL; while (d != NULL) { if (strcmp(name, d->alias) == 0) { if (p != NULL) p->next = d->next; else defines = d->next; free(d); return SUCCEEDED; } p = d; d = d->next; } return FAILED; } int add_a_new_definition(char *name, double value, char *string, int type, int size) { struct definition *d, *l; l = NULL; d = defines; while (d != NULL) { l = d; if (strcmp(name, d->alias) == 0) { sprintf(emsg, "\"%s\" was defined for the second time.\n", name); if (commandline_parsing == OFF) print_error(emsg, ERROR_DIR); else fprintf(stderr, "ADD_A_NEW_DEFINITION: %s", emsg); return FAILED; } d = d->next; } d = malloc(sizeof(struct definition)); if (d == NULL) { sprintf(emsg, "Out of memory while trying to add a new definition (\"%s\").\n", name); if (commandline_parsing == OFF) print_error(emsg, ERROR_DIR); else fprintf(stderr, "ADD_A_NEW_DEFINITION: %s", emsg); return FAILED; } if (defines == NULL) defines = d; else l->next = d; strcpy(d->alias, name); d->next = NULL; d->type = type; if (type == DEFINITION_TYPE_VALUE) d->value = value; else if (type == DEFINITION_TYPE_STACK) d->value = value; else if (type == DEFINITION_TYPE_STRING) { memcpy(d->string, string, size); d->string[size] = 0; d->size = size; } return SUCCEEDED; } int localize_path(char *path) { int i; if (path == NULL) return FAILED; for (i = 0; path[i] != 0; i++) { #if defined(AMIGA) || defined(UNIX) /* '\' -> '/' */ if (path[i] == '\\') path[i] = '/'; #else /* '/' -> '\' */ if (path[i] == '/') path[i] = '\\'; #endif } return SUCCEEDED; } void print_error(char *error, int i) { char error_dir[] = "DIRECTIVE_ERROR:"; char error_unf[] = "UNFOLD_ALIASES:"; char error_num[] = "INPUT_NUMBER:"; char error_inc[] = "INCLUDE_FILE:"; char error_inb[] = "INCBIN_FILE:"; char error_inp[] = "INPUT_ERROR:"; char error_log[] = "LOGIC_ERROR:"; char error_stc[] = "STACK_CALCULATE:"; char error_wrn[] = "WARNING:"; char error_err[] = "ERROR:"; char *t = NULL; switch (i) { case ERROR_LOG: t = error_log; break; case ERROR_UNF: t = error_unf; break; case ERROR_INC: t = error_inc; break; case ERROR_INB: t = error_inb; break; case ERROR_DIR: t = error_dir; break; case ERROR_INP: t = error_inp; break; case ERROR_NUM: t = error_num; break; case ERROR_STC: t = error_stc; break; case ERROR_WRN: t = error_wrn; break; case ERROR_ERR: t = error_err; break; case ERROR_NONE: fprintf(stderr, "%s:%d: %s", get_file_name(active_file_info_last->filename_id), active_file_info_last->line_current, error); return; } fprintf(stderr, "%s:%d: %s %s", get_file_name(active_file_info_last->filename_id), active_file_info_last->line_current, t, error); return; } void next_line(void) { newline_beginning = ON; if (line_count_status == OFF) return; /* output the file number for list file structure building */ if (listfile_data == YES) fprintf(file_out_ptr, "k%d ", active_file_info_last->line_current); if (active_file_info_last != NULL) active_file_info_last->line_current++; } int parse_directive(void) { char bak[256]; int o, q; /* ORG */ if (strcmp(cp, "ORG") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .ORG definitions.\n", ERROR_DIR); return FAILED; } if (bank_defined == 0) { print_error("No .BANK is defined.\n", ERROR_LOG); return FAILED; } if (section_status == ON) { print_error("You can't issue .ORG inside a .SECTION.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error(".ORG needs a positive or zero integer value.\n", ERROR_DIR); return FAILED; } org_defined = 1; fprintf(file_out_ptr, "O%d ", d); return SUCCEEDED; } /* ORGA */ if (strcmp(cp, "ORGA") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .ORGA definitions.\n", ERROR_DIR); return FAILED; } if (bank_defined == 0) { print_error("No .BANK is defined.\n", ERROR_LOG); return FAILED; } if (section_status == ON) { print_error("You can't issue .ORGA inside a .SECTION.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error(".ORGA needs a positive or zero integer value.\n", ERROR_DIR); return FAILED; } org_defined = 1; ind = slots[current_slot].address; if (d < ind || d > (ind + slots[current_slot].size)) { print_error(".ORGA is outside the current SLOT.\n", ERROR_DIR); return FAILED; } fprintf(file_out_ptr, "O%d ", d - ind); return SUCCEEDED; } /* SLOT */ if (strcmp(cp, "SLOT") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .SLOT definitions.\n", ERROR_DIR); return FAILED; } if (section_status == ON) { print_error("You can't issue .SLOT inside a .SECTION.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error(".SLOT needs a positive or zero integer value.\n", ERROR_DIR); return FAILED; } if (slots[d].size == 0) { sprintf(emsg, "There is no SLOT number %d.\n", d); print_error(emsg, ERROR_DIR); return FAILED; } fprintf(file_out_ptr, "B%d %d ", bank, d); current_slot = d; return SUCCEEDED; } /* BANK */ if (strcmp(cp, "BANK") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .BANK definitions.\n", ERROR_DIR); return FAILED; } if (section_status == ON) { sprintf(emsg, "Section \"%s\" is open. Do not try to change the bank.\n", sections_last->name); print_error(emsg, ERROR_LOG); return FAILED; } if (rombanks_defined == 0 && output_format != OUTPUT_LIBRARY) { print_error(".ROMBANKS is not yet defined.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d < 0) { print_error(".BANK number must be zero or positive.\n", ERROR_DIR); return FAILED; } if (rombanks <= d && output_format != OUTPUT_LIBRARY) { sprintf(emsg, "ROM banks == %d, selected bank %d.\n", rombanks, d); print_error(emsg, ERROR_DIR); return FAILED; } bank = d; bank_defined = 1; if (compare_next_token("SLOT", 4) == SUCCEEDED) { skip_next_token(); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d > 255 || d < 0) { print_error("SLOT needs an unsigned 8bit value as an ID.\n", ERROR_DIR); return FAILED; } if (slots[d].size == 0) { sprintf(emsg, "There is no SLOT number %d.\n", d); print_error(emsg, ERROR_DIR); return FAILED; } if (output_format != OUTPUT_LIBRARY) fprintf(file_out_ptr, "B%d %d ", bank, d); ind = bank; inz = d; current_slot = d; } else if (output_format != OUTPUT_LIBRARY) { fprintf(file_out_ptr, "B%d %d ", d, defaultslot); ind = d; inz = defaultslot; current_slot = defaultslot; } if (slots[inz].size < banks[ind]) { sprintf(emsg, "SLOT %d's size %d < BANK %d's size %d.\n", inz, slots[inz].size, ind, banks[ind]); print_error(emsg, ERROR_DIR); return FAILED; } if (slots[inz].size > banks[ind]) { sprintf(emsg, "SLOT %d's size %d > BANK %d's size %d, but the bank fits inside.\n", inz, slots[inz].size, ind, banks[ind]); print_error(emsg, ERROR_WRN); } return SUCCEEDED; } /* DB/BYT/BYTE? */ if (strcmp(cp, "DB") == 0 || strcmp(cp, "BYT") == 0 || strcmp(cp, "BYTE") == 0) { strcpy(bak, cp); inz = input_number(); for (ind = 0; inz == SUCCEEDED || inz == INPUT_NUMBER_STRING || inz == INPUT_NUMBER_ADDRESS_LABEL || inz == INPUT_NUMBER_STACK; ind++) { if (inz == INPUT_NUMBER_STRING) { for (o = 0; o < string_size; o++) fprintf(file_out_ptr, "d%d ", (int)label[o]); inz = input_number(); continue; } if (inz == SUCCEEDED && (d < -127 || d > 255)) { sprintf(emsg, ".%s expects 8bit data, %d is out of range!\n", bak, d); print_error(emsg, ERROR_DIR); return FAILED; } if (inz == SUCCEEDED) fprintf(file_out_ptr, "d%d ", d); else if (inz == INPUT_NUMBER_ADDRESS_LABEL) fprintf(file_out_ptr, "k%d Q%s ", active_file_info_last->line_current, label); else if (inz == INPUT_NUMBER_STACK) fprintf(file_out_ptr, "c%d ", latest_stack); inz = input_number(); } if (inz == FAILED) return FAILED; if (inz == INPUT_NUMBER_EOL && ind == 0) { sprintf(emsg, ".%s needs data.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } if (inz == INPUT_NUMBER_EOL) next_line(); return SUCCEEDED; } /* ASCTABLE/ASCIITABLE? */ if (strcmp(cp, "ASCTABLE") == 0 || strcmp(cp, "ASCIITABLE") == 0) { int astart, aend; strcpy(bak, cp); /* clear the table (to the default n->n -mapping) */ for (o = 0; o < 256; o++) asciitable[o] = o; /* read the entries */ while ((ind = get_next_token()) == SUCCEEDED) { if (strcaselesscmp(tmp, ".ENDA") == 0) break; else if (strcaselesscmp(tmp, "MAP") == 0) { q = input_number(); while (q == INPUT_NUMBER_EOL) { next_line(); q = input_number(); } if (q == FAILED) return FAILED; if (q == SUCCEEDED && (d < 0 || d > 255)) { print_error("The entry must be a positive 8bit immediate value or one letter string.\n", ERROR_DIR); return FAILED; } if (q == INPUT_NUMBER_STRING) { if (string_size != 1) { print_error("The entry must be a positive 8bit immediate value or one letter string.\n", ERROR_DIR); return FAILED; } else { d = label[0]; if (d < 0) d += 256; } } astart = d; aend = d+1; /* do we have a range? */ if (compare_next_token("TO", 2) == SUCCEEDED) { skip_next_token(); q = input_number(); if (q == FAILED) return FAILED; if (q == SUCCEEDED && (d < 0 || d > 255)) { print_error("The entry must be a positive 8bit immediate value or one letter string.\n", ERROR_DIR); return FAILED; } if (q == INPUT_NUMBER_STRING) { if (string_size != 1) { print_error("The entry must be a positive 8bit immediate value or one letter string.\n", ERROR_DIR); return FAILED; } else { d = label[0]; if (d < 0) d += 256; } } aend = d+1; } if (aend <= astart) { print_error("The end address of the mapping must be larger than the staring address.\n", ERROR_DIR); return FAILED; } /* skip the "=" */ if (compare_next_token("=", 1) != SUCCEEDED) { ind = FAILED; break; } skip_next_token(); /* read the starting address */ q = input_number(); if (q == FAILED) return FAILED; if (q == SUCCEEDED && (d < 0 || d > 255)) { print_error("The entry must be a positive 8bit immediate value or one letter string.\n", ERROR_DIR); return FAILED; } if (q != SUCCEEDED) { print_error("The entry must be a positive 8bit immediate value.\n", ERROR_DIR); return FAILED; } /* build the mapping */ for (o = astart; o < aend; o++) { if (d >= 256) { print_error("The mapping overflows from the ASCII table!\n", ERROR_DIR); return FAILED; } asciitable[o] = d++; } } else { ind = FAILED; break; } } if (ind != SUCCEEDED) { sprintf(emsg, "Error in .%s data structure.\n", bak); print_error(emsg, ERROR_DIR); return FAILED; } asciitable_defined = 1; return SUCCEEDED; } /* ASC? */ if (strcmp(cp, "ASC") == 0) { strcpy(bak, cp); if (asciitable_defined == 0) { print_error("No .ASCIITABLE defined. Using the default n->n -mapping.\n", ERROR_WRN); for (o = 0; o < 256; o++) asciitable[o] = o; } while (1) { q = input_number(); if (q == INPUT_NUMBER_EOL) { next_line(); break; } if (!q == INPUT_NUMBER_STRING) { sprintf(emsg, ".%s needs string data.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } /* remap the data */ for (o = 0; o < string_size; o++) { ind = label[o]; if (ind < 0) ind += 256; ind = (int)asciitable[ind]; fprintf(file_out_ptr, "d%d ", ind); } } return SUCCEEDED; } /* DW/WORD? */ if (strcmp(cp, "DW") == 0 || strcmp(cp, "WORD") == 0) { strcpy(bak, cp); inz = input_number(); for (ind = 0; inz == SUCCEEDED || inz == INPUT_NUMBER_ADDRESS_LABEL || inz == INPUT_NUMBER_STACK; ind++) { if (inz == SUCCEEDED && (d < -32768 || d > 65535)) { sprintf(emsg, ".%s expects 16bit data, %d is out of range!\n", bak, d); print_error(emsg, ERROR_DIR); return FAILED; } if (inz == SUCCEEDED) fprintf(file_out_ptr, "y%d", d); else if (inz == INPUT_NUMBER_ADDRESS_LABEL) fprintf(file_out_ptr, "k%d r%s ", active_file_info_last->line_current, label); else if (inz == INPUT_NUMBER_STACK) fprintf(file_out_ptr, "C%d ", latest_stack); inz = input_number(); } if (inz == FAILED) return FAILED; if ((inz == INPUT_NUMBER_EOL || inz == INPUT_NUMBER_STRING) && ind == 0) { sprintf(emsg, ".%s needs data.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } if (inz == INPUT_NUMBER_EOL) next_line(); return SUCCEEDED; } /* DSTRUCT */ if (strcmp(cp, "DSTRUCT") == 0) { struct structure_item *it; struct structure *s; char iname[256]; int c, f; /* get instance name */ q = input_number(); if (q == FAILED) return FAILED; if (q != INPUT_NUMBER_ADDRESS_LABEL) { print_error(".DSTRUCT needs a name for the instance.\n", ERROR_INP); return FAILED; } strcpy(iname, label); if (compare_next_token("INSTANCEOF", 10) == SUCCEEDED) skip_next_token(); /* get structure name */ q = input_number(); if (q == FAILED) return FAILED; if (q != INPUT_NUMBER_ADDRESS_LABEL) { print_error(".DSTRUCT needs a structure name.\n", ERROR_INP); return FAILED; } /* find the structure */ s = structures_first; while (s != NULL) { if (strcmp(label, s->name) == 0) break; s = s->next; } if (s == NULL) { sprintf(emsg, "Reference to an unidentified structure \"%s\".\n", label); print_error(emsg, ERROR_DIR); return FAILED; } if (compare_next_token("DATA", 4) == SUCCEEDED) skip_next_token(); fprintf(file_out_ptr, "k%d L%s ", active_file_info_last->line_current, iname); /* read the data */ it = s->items; inz = input_number(); for (ind = 0; it != NULL && (inz == SUCCEEDED || inz == INPUT_NUMBER_STRING || inz == INPUT_NUMBER_ADDRESS_LABEL || inz == INPUT_NUMBER_STACK); ind++) { fprintf(file_out_ptr, "k%d L%s.%s ", active_file_info_last->line_current, iname, it->name); /* take care of the strings */ if (inz == INPUT_NUMBER_STRING) { if (it->size < string_size) { sprintf(emsg, "String \"%s\" doesn't fit into the %d bytes of \"%s.%s\". Discarding the overflow.\n", label, it->size, s->name, it->name); print_error(emsg, ERROR_WRN); c = it->size; } else c = string_size; /* copy the string */ for (o = 0; o < c; o++) fprintf(file_out_ptr, "d%d ", (int)label[o]); } /* take care of the rest */ else { if (it->size == 1) { if ((inz == SUCCEEDED) && (d < -127 || d > 255)) { sprintf(emsg, "\"%s.%s\" expects 8bit data, %d is out of range!\n", s->name, it->name, d); print_error(emsg, ERROR_DIR); return FAILED; } if (inz == SUCCEEDED) fprintf(file_out_ptr, "d%d ", d); else if (inz == INPUT_NUMBER_ADDRESS_LABEL) fprintf(file_out_ptr, "k%d Q%s ", active_file_info_last->line_current, label); else if (inz == INPUT_NUMBER_STACK) fprintf(file_out_ptr, "c%d ", latest_stack); o = 1; } else { if (inz == SUCCEEDED && (d < -32768 || d > 65535)) { sprintf(emsg, "\"%s.%s\" expects 16bit data, %d is out of range!\n", s->name, it->name, d); print_error(emsg, ERROR_DIR); return FAILED; } if (inz == SUCCEEDED) fprintf(file_out_ptr, "y%d", d); else if (inz == INPUT_NUMBER_ADDRESS_LABEL) fprintf(file_out_ptr, "k%d r%s ", active_file_info_last->line_current, label); else if (inz == INPUT_NUMBER_STACK) fprintf(file_out_ptr, "C%d ", latest_stack); o = 2; } } /* fill the rest with emptyfill or zero */ if (emptyfill_defined != 0) f = emptyfill; else f = 0; for (; o < it->size; o++) fprintf(file_out_ptr, "d%d ", f); it = it->next; inz = input_number(); } if (it != NULL) { sprintf(emsg, "\"%s\" doesn't define all the members of \"%s\".\n", iname, s->name); print_error(emsg, ERROR_DIR); return FAILED; } if (inz == INPUT_NUMBER_EOL) next_line(); else { sprintf(emsg, "Too much data for structure \"%s\".\n", s->name); print_error(emsg, ERROR_DIR); return FAILED; } return SUCCEEDED; } /* DS/DSB? */ if (strcmp(cp, "DSB") == 0 || strcmp(cp, "DS") == 0) { strcpy(bak, cp); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { sprintf(emsg, ".%s needs size.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } if (d < 1 || d > 65535) { sprintf(emsg, ".%s expects a 16bit positive integer as size, %d is out of range!\n", bak, d); print_error(emsg, ERROR_DIR); return FAILED; } inz = d; q = input_number(); if (q == FAILED) return FAILED; if (!(q == SUCCEEDED || q == INPUT_NUMBER_ADDRESS_LABEL || q == INPUT_NUMBER_STACK)) { sprintf(emsg, ".%s needs data.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } if (q == SUCCEEDED && (d > 255 || d < -127)) { sprintf(emsg, ".%s expects 8bit data, %d is out of range!\n", bak, d); print_error(emsg, ERROR_DIR); return FAILED; } if (q == SUCCEEDED) fprintf(file_out_ptr, "x%d %d ", inz, d); else if (q == INPUT_NUMBER_ADDRESS_LABEL) { fprintf(file_out_ptr, "k%d ", active_file_info_last->line_current); for (q = 0; q < inz; q++) fprintf(file_out_ptr, "R%s ", label); } else if (q == INPUT_NUMBER_STACK) { for (q = 0; q < inz; q++) fprintf(file_out_ptr, "c%d ", latest_stack); } return SUCCEEDED; } /* DSW? */ if (strcmp(cp, "DSW") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error(".DSW needs size.\n", ERROR_INP); return FAILED; } if (d < 1 || d > 65535) { sprintf(emsg, ".DSW expects a 16bit positive integer as size, %d is out of range!\n", d); print_error(emsg, ERROR_DIR); return FAILED; } inz = d; q = input_number(); if (q == FAILED) return FAILED; if (!(q == SUCCEEDED || q == INPUT_NUMBER_ADDRESS_LABEL || q == INPUT_NUMBER_STACK)) { print_error(".DSW needs data.\n", ERROR_INP); return FAILED; } if (q == SUCCEEDED && (d < -32768 || d > 65535)) { sprintf(emsg, ".DSW expects 16bit data, %d is out of range!\n", d); print_error(emsg, ERROR_DIR); return FAILED; } if (q == SUCCEEDED) fprintf(file_out_ptr, "X%d %d ", inz, d); else if (q == INPUT_NUMBER_ADDRESS_LABEL) { fprintf(file_out_ptr, "k%d ", active_file_info_last->line_current); for (q = 0; q < inz; q++) fprintf(file_out_ptr, "r%s ", label); } else if (q == INPUT_NUMBER_STACK) { for (q = 0; q < inz; q++) fprintf(file_out_ptr, "C%d ", latest_stack); } return SUCCEEDED; } /* INCDIR */ if (strcmp(cp, "INCDIR") == 0) { char *c; if (get_next_token() != GET_NEXT_TOKEN_STRING) { print_error(".INCDIR needs a directory string.\n", ERROR_DIR); return FAILED; } q = ss; /* use the default dir? */ if (q == 0) { if (include_dir != NULL) include_dir[0] = 0; return SUCCEEDED; } /* use the given dir */ o = strlen(tmp) + 2; if (o > include_dir_size) { c = realloc(include_dir, o); if (c == NULL) { print_error("Out of memory error.\n", ERROR_DIR); return FAILED; } include_dir = c; include_dir_size = o; } /* convert the path string to local enviroment */ localize_path(tmp); strcpy(include_dir, tmp); /* terminate the string with '/' */ #ifdef MSDOS if (include_dir[q - 1] != '\\') { include_dir[q] = '\\'; include_dir[q + 1] = 0; } #else if (include_dir[q - 1] != '/') { include_dir[q] = '/'; include_dir[q + 1] = 0; } #endif return SUCCEEDED; } /* INCLUDE */ if (strcmp(cp, "INCLUDE") == 0) { o = input_number(); if (o != INPUT_NUMBER_STRING) { print_error(".INCLUDE needs a file name string.\n", ERROR_DIR); return FAILED; } if (macro_active != 0) { print_error("You cannot include a file inside a MACRO.\n", ERROR_DIR); return FAILED; } /* convert the path to local enviroment */ localize_path(label); if (include_file(label) == FAILED) return FAILED; fprintf(file_out_ptr, "f%d ", active_file_info_tmp->filename_id); return SUCCEEDED; } /* INCBIN */ if (strcmp(cp, "INCBIN") == 0) { int s, r; if (org_defined == 0 && output_format != OUTPUT_LIBRARY) { print_error("Before you can .INCBIN data you'll need to use ORG.\n", ERROR_LOG); return FAILED; } o = input_number(); if (o != INPUT_NUMBER_STRING) { print_error(".INCBIN needs a file name string.\n", ERROR_DIR); return FAILED; } /* convert the path string to local enviroment */ localize_path(label); if (incbin_file(label, &ind, &inz, &s, &r) == FAILED) return FAILED; /* D [id] [swap] [skip] [size] */ fprintf(file_out_ptr, "D%d %d %d %d ", ind, inz, s, r); return SUCCEEDED; } /* OUTNAME */ if (strcmp(cp, "OUTNAME") == 0) { inz = input_number(); if (inz != INPUT_NUMBER_STRING) { print_error(".OUTNAME needs a file name string.\n", ERROR_DIR); return FAILED; } strcpy(final_name, label); return SUCCEEDED; } /* STRUCT */ if (strcmp(cp, "STRUCT") == 0) { struct structure_item *si, *ss, *sl = NULL; struct structure *st; char name[512]; int ssi = 0; st = malloc(sizeof(struct structure)); if (st == NULL) { print_error("Out of memory while allocating a new STRUCT.\n", ERROR_DIR); return FAILED; } if (get_next_token() == FAILED) return FAILED; strcpy(st->name, tmp); st->next = structures_first; structures_first = st; st->items = NULL; while (1) { if (get_next_token() == FAILED) return FAILED; /* end of STRUCT? */ if (strcaselesscmp(tmp, ".ENDST") == 0) { /* create the SIZEOF-definition */ st->size = ssi; sprintf(name, "_sizeof_%s", st->name); if (add_a_new_definition(name, (double)ssi, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; /* create the structure definitions */ ssi = 0; ss = st->items; while (ss != NULL) { sprintf(name, "%s.%s", st->name, ss->name); if (add_a_new_definition(name, (double)ssi, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; ssi += ss->size; ss = ss->next; } if (st->items == NULL) { sprintf(emsg, "Structure \"%s\" is empty!\n", st->name); print_error(emsg, ERROR_DIR); return FAILED; } return SUCCEEDED; } if (tmp[strlen(tmp) - 1] == ':') tmp[strlen(tmp) - 1] = 0; /* check for duplicate labels */ ss = st->items; while (ss != NULL) { if (strcmp(ss->name, tmp) == 0) { sprintf(emsg, "Duplicate label \"%s\" inside .STRUCT \"%s\".\n", tmp, st->name); print_error(emsg, ERROR_DIR); return FAILED; } ss = ss->next; } si = malloc(sizeof(struct structure_item)); if (si == NULL) { print_error("Out of memory while allocating a new STRUCT.\n", ERROR_DIR); return FAILED; } si->next = NULL; strcpy(si->name, tmp); if (st->items == NULL) st->items = si; if (sl != NULL) sl->next = si; sl = si; /* get the item type */ if (get_next_token() == FAILED) return FAILED; if (strcaselesscmp(tmp, "DB") == 0 || strcaselesscmp(tmp, "BYT") == 0 || strcaselesscmp(tmp, "BYTE") == 0) si->size = 1; else if (strcaselesscmp(tmp, "DW") == 0 || strcaselesscmp(tmp, "WORD") == 0) si->size = 2; else if (strcaselesscmp(tmp, "DS") == 0 || strcaselesscmp(tmp, "DSB") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("DS/DSB needs size.\n", ERROR_DIR); return FAILED; } si->size = d; } else if (strcaselesscmp(tmp, "DSW") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("DSW needs size.\n", ERROR_DIR); return FAILED; } si->size = d*2; } else if (tmp[0] == '.') continue; else { sprintf(emsg, "Unexpected symbol \"%s\" in .STRUCT.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } ssi += si->size; } return FAILED; } /* RAMSECTION */ if (strcmp(cp, "RAMSECTION") == 0) { char namebak[256]; if (output_format == OUTPUT_LIBRARY) { print_error("Libraries don't take RAMSECTIONs.\n", ERROR_DIR); return FAILED; } if (section_id > 255) { print_error("Out of section numbers. Please start a new file.\n", ERROR_DIR); return FAILED; } if (section_status == ON) { sprintf(emsg, "There is already an open section called \"%s\".", sections_last->name); print_error(emsg, ERROR_DIR); return FAILED; } if (get_next_token() == FAILED) return FAILED; sec_tmp = calloc(sizeof(struct section_def), 1); if (sec_tmp == NULL) { sprintf(emsg, "Out of memory while allocating room for a new RAMSECTION \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } sec_tmp->listfile_items = 0; sec_tmp->listfile_ints = NULL; sec_tmp->listfile_cmds = NULL; sec_tmp->maxsize_status = OFF; sec_tmp->status = SECTION_STATUS_RAM; sec_tmp->alive = ON; sec_tmp->data = NULL; sec_tmp->filename_id = active_file_info_last->filename_id; sec_tmp->id = section_id; sec_tmp->alignment = 1; sec_tmp->advance_org = YES; section_id++; strcpy(sec_tmp->name, tmp); sec_tmp->next = NULL; /* look for duplicate sections */ sec_next = sections_first; while (sec_next != NULL) { if (strcmp(sec_next->name, tmp) == 0) { sprintf(emsg, "SECTION \"%s\" was defined for the second time.\n", tmp); print_error(emsg, ERROR_DIR); free(sec_tmp); return FAILED; } sec_next = sec_next->next; } if (sections_first == NULL) { sections_first = sec_tmp; sections_last = sec_tmp; } else { sections_last->next = sec_tmp; sections_last = sec_tmp; } /* check for optional BANK */ if (compare_next_token("BANK", 4) != SUCCEEDED) sec_tmp->bank = 0; else { skip_next_token(); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d < 0) { print_error("BANK number must be zero or positive.\n", ERROR_DIR); return FAILED; } if (rombanks <= d && output_format != OUTPUT_LIBRARY) { sprintf(emsg, "ROM banks == %d, selected bank %d.\n", rombanks, d); print_error(emsg, ERROR_DIR); return FAILED; } sec_tmp->bank = d; } if (compare_next_token("SLOT", 4) != SUCCEEDED) { if (get_next_token() == FAILED) return FAILED; sprintf(emsg, "Unknown symbol \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } skip_next_token(); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d > 255 || d < 0) { print_error(".RAMSECTION needs an unsigned 8bit value as the SLOT number.\n", ERROR_DIR); return FAILED; } if (slots[d].size == 0) { sprintf(emsg, "There is no SLOT number %d.\n", d); print_error(emsg, ERROR_DIR); return FAILED; } sec_tmp->slot = d; fprintf(file_out_ptr, "S%d ", sec_tmp->id); /* ram section - read labels */ if (sec_tmp->status == SECTION_STATUS_RAM) { while ((t = get_next_token()) != FAILED) { if (strcaselesscmp(tmp, ".ENDS") == 0) { fprintf(file_out_ptr, "s "); section_status = OFF; return SUCCEEDED; } if (tmp[strlen(tmp) - 1] == ':') tmp[strlen(tmp) - 1] = 0; fprintf(file_out_ptr, "k%d L%s ", active_file_info_last->line_current, tmp); strcpy(namebak, tmp); if (get_next_token() == FAILED) return FAILED; if (strcaselesscmp(tmp, "DB") == 0 || strcaselesscmp(tmp, "BYT") == 0 || strcaselesscmp(tmp, "BYTE") == 0) fprintf(file_out_ptr, "d0 "); else if (strcaselesscmp(tmp, "DW") == 0 || strcaselesscmp(tmp, "WORD") == 0) fprintf(file_out_ptr, "y0 "); else if (strcaselesscmp(tmp, "DS") == 0 || strcaselesscmp(tmp, "DSB") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("DS/DSB needs size.\n", ERROR_DIR); return FAILED; } fprintf(file_out_ptr, "x%d 0 ", d); } else if (strcaselesscmp(tmp, "DSW") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("DSW needs size.\n", ERROR_DIR); return FAILED; } fprintf(file_out_ptr, "x%d 0 ", d*2); } /* it's an instance of a structure! */ else if (strcaselesscmp(tmp, "INSTANCEOF") == 0) { struct structure_item *si; struct structure *st; int g; if (get_next_token() == FAILED) return FAILED; st = structures_first; while (st != NULL) { if (strcmp(st->name, tmp) == 0) break; st = st->next; } if (st == NULL) { sprintf(emsg, "No STRUCT named \"%s\" available.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } /* amount of structures? */ inz = input_number(); if (inz == SUCCEEDED && d > 1) fprintf(file_out_ptr, "k%d L%s.1 ", active_file_info_last->line_current, namebak); /* generate labels */ si = st->items; while (si != NULL) { if (inz == SUCCEEDED && d > 1) fprintf(file_out_ptr, "k%d L%s.%s L%s.1.%s x%d 0 ", active_file_info_last->line_current, namebak, si->name, namebak, si->name, si->size); else fprintf(file_out_ptr, "k%d L%s.%s x%d 0 ", active_file_info_last->line_current, namebak, si->name, si->size); si = si->next; } if (inz == INPUT_NUMBER_EOL) next_line(); else if (inz == SUCCEEDED) { if (d < 1) { print_error("The amount of structures must be greater than 0.\n", ERROR_DIR); return FAILED; } g = 2; while (d > 1) { si = st->items; fprintf(file_out_ptr, "k%d L%s.%d ", active_file_info_last->line_current, namebak, g); while (si != NULL) { fprintf(file_out_ptr, "k%d L%s.%d.%s x%d 0 ", active_file_info_last->line_current, namebak, g, si->name, si->size); si = si->next; } g++; d--; } } else { if (inz == INPUT_NUMBER_STRING) sprintf(emsg, "Expected the amount of structures, got \"%s\" instead.\n", label); else sprintf(emsg, "Expected the amount of structures.\n"); print_error(emsg, ERROR_DIR); return FAILED; } } else if (tmp[0] == '.' && strcaselesscmp(tmp, ".ENDS") != 0) continue; else { sprintf(emsg, "Unexpected symbol \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } } return FAILED; } return SUCCEEDED; } /* SECTION */ if (strcmp(cp, "SECTION") == 0) { int l, m; if (section_id > 255) { print_error("Out of section numbers. Please start a new file.\n", ERROR_DIR); return FAILED; } if (section_status == ON) { sprintf(emsg, "There is already an open section called \"%s\".", sections_last->name); print_error(emsg, ERROR_DIR); return FAILED; } else if (output_format != OUTPUT_LIBRARY && bank_defined == 0) { print_error(".SECTION requires a predefined bank.\n", ERROR_DIR); return FAILED; } else if (output_format != OUTPUT_LIBRARY && org_defined == 0) { print_error(".SECTION requires a starting address for positioning.\n", ERROR_DIR); return FAILED; } if (get_next_token() == FAILED) return FAILED; /* every library section starts @ the beginning of the bank */ if (output_format == OUTPUT_LIBRARY) org_defined = 1; sec_tmp = calloc(sizeof(struct section_def), 1); if (sec_tmp == NULL) { sprintf(emsg, "Out of memory while allocating room for a new SECTION \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } sec_tmp->listfile_items = 0; sec_tmp->listfile_ints = NULL; sec_tmp->listfile_cmds = NULL; sec_tmp->maxsize_status = OFF; sec_tmp->data = NULL; sec_tmp->alignment = 1; sec_tmp->advance_org = YES; /* check if the section size is supplied inside the name */ l = strlen(tmp) - 1; for (; l >= 0 && tmp[l] != '_'; l--); if (tmp[l] == '_') { l++; if (tmp[l] == '$') { for (l++, m = 0; tmp[l] != 0; l++) { if (tmp[l] >= '0' && tmp[l] <= '9') m = (m << 4) + tmp[l] - '0'; else if (tmp[l] >= 'a' && tmp[l] <= 'f') m = (m << 4) + tmp[l] - 'a' + 10; else if (tmp[l] >= 'A' && tmp[l] <= 'F') m = (m << 4) + tmp[l] - 'A' + 10; else break; } if (tmp[l] == 0) { sec_tmp->maxsize_status = ON; sec_tmp->maxsize = m; } } else if (tmp[l] >= '0' && tmp[l] <= '9') { for (m = 0; tmp[l] != 0; l++) { if (tmp[l] >= '0' && tmp[l] <= '9') m = (m * 10) + tmp[l] - '0'; else break; } if (tmp[l] == 0) { sec_tmp->maxsize_status = ON; sec_tmp->maxsize = m; } } } if (strcmp(tmp, "BANKHEADER") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take bank header sections.\n", ERROR_DIR); return FAILED; } sec_next = sections_first; while (sec_next != NULL) { if (strcmp(sec_next->name, tmp) == 0 && sec_next->bank == bank) { sprintf(emsg, "BANKHEADER section was defined for the second time for bank %d.\n", bank); print_error(emsg, ERROR_DIR); return FAILED; } sec_next = sec_next->next; } } else { sec_next = sections_first; while (sec_next != NULL) { if (strcmp(sec_next->name, tmp) == 0) { sprintf(emsg, "SECTION \"%s\" was defined for the second time.\n", tmp); print_error(emsg, ERROR_DIR); free(sec_tmp); return FAILED; } sec_next = sec_next->next; } } strcpy(sec_tmp->name, tmp); sec_tmp->next = NULL; if (sections_first == NULL) { sections_first = sec_tmp; sections_last = sec_tmp; } else { sections_last->next = sec_tmp; sections_last = sec_tmp; } /* the size of the section? */ if (compare_next_token("SIZE", 4) == SUCCEEDED) { if (sec_tmp->maxsize_status == ON) { print_error("The size of the section has already been defined.\n", ERROR_DIR); return FAILED; } if (skip_next_token() == FAILED) return FAILED; inz = input_number(); if (inz != SUCCEEDED) { print_error("Could not parse the size.\n", ERROR_DIR); return FAILED; } sec_tmp->maxsize_status = ON; sec_tmp->maxsize = d; } /* align the section? */ if (compare_next_token("ALIGN", 5) == SUCCEEDED) { if (skip_next_token() == FAILED) return FAILED; inz = input_number(); if (inz != SUCCEEDED) { print_error("Could not parse the section alignment.\n", ERROR_DIR); return FAILED; } sec_tmp->alignment = d; } /* the type of the section */ if (compare_next_token("FORCE", 5) == SUCCEEDED) { if (output_format == OUTPUT_LIBRARY) { print_error("Libraries don't take FORCE sections.\n", ERROR_DIR); return FAILED; } sec_tmp->status = SECTION_STATUS_FORCE; if (skip_next_token() == FAILED) return FAILED; } else if (compare_next_token("FREE", 4) == SUCCEEDED) { sec_tmp->status = SECTION_STATUS_FREE; if (skip_next_token() == FAILED) return FAILED; } else if (compare_next_token("SUPERFREE", 9) == SUCCEEDED) { sec_tmp->status = SECTION_STATUS_SUPERFREE; if (skip_next_token() == FAILED) return FAILED; } else if (compare_next_token("SEMIFREE", 8) == SUCCEEDED) { if (output_format == OUTPUT_LIBRARY) { print_error("Libraries don't take SEMIFREE sections.\n", ERROR_DIR); return FAILED; } sec_tmp->status = SECTION_STATUS_SEMIFREE; if (skip_next_token() == FAILED) return FAILED; } else if (compare_next_token("OVERWRITE", 9) == SUCCEEDED) { if (output_format == OUTPUT_LIBRARY) { print_error("Libraries don't take OVERWRITE sections.\n", ERROR_DIR); return FAILED; } sec_tmp->status = SECTION_STATUS_OVERWRITE; if (skip_next_token() == FAILED) return FAILED; } else sec_tmp->status = SECTION_STATUS_FREE; /* return the org after the section? */ if (compare_next_token("RETURNORG", 9) == SUCCEEDED) { if (skip_next_token() == FAILED) return FAILED; sec_tmp->advance_org = NO; } /* bankheader section? */ if (strcmp(sec_tmp->name, "BANKHEADER") == 0) { sec_tmp->status = SECTION_STATUS_HEADER; bankheader_status = ON; } sec_tmp->id = section_id; sec_tmp->alive = ON; sec_tmp->filename_id = active_file_info_last->filename_id; sec_tmp->bank = bank; section_id++; section_status = ON; fprintf(file_out_ptr, "S%d ", sec_tmp->id); return SUCCEEDED; } /* ELSE */ if (strcmp(cp, "ELSE") == 0) { int m, r; if (ifdef == 0) { print_error("There must be .IFxxx before .ELSE.\n", ERROR_DIR); return FAILED; } /* find the next compiling point */ r = 1; m = macro_active; /* disable macro decoding */ macro_active = 0; while (get_next_token() != FAILED) { if (tmp[0] == '.') { if (strcmp(cp, "ENDIF") == 0) r--; if (strcmp(cp, "E") == 0) break; if (strcmp(cp, "IFDEF") == 0 || strcmp(cp, "IFNDEF") == 0 || strcmp(cp, "IFGR") == 0 || strcmp(cp, "IFLE") == 0 || strcmp(cp, "IFEQ") == 0 || strcmp(cp, "IFNEQ") == 0 || strcmp(cp, "IFDEFM") == 0 || strcmp(cp, "IFNDEFM") == 0 || strcmp(cp, "IF") == 0 || strcmp(cp, "IFEXISTS") == 0 || strcmp(cp, "IFGREQ") == 0 || strcmp(cp, "IFLEEQ") == 0) r++; } if (r == 0) { ifdef--; macro_active = m; return SUCCEEDED; } } print_error(".ELSE must end to .ENDIF.\n", ERROR_DIR); return FAILED; } /* ENDIF */ if (strcmp(cp, "ENDIF") == 0) { if (ifdef == 0) { print_error(".ENDIF was given before any .IF directive.\n", ERROR_DIR); return FAILED; } ifdef--; return SUCCEEDED; } /* IFDEF */ if (strcmp(cp, "IFDEF") == 0) { struct definition *d; if (get_next_token() == FAILED) return FAILED; d = defines; while (d != NULL) { if (strcmp(tmp, d->alias) == 0) { ifdef++; return SUCCEEDED; } d = d->next; } return find_next_point("IFDEF"); } /* IF */ if (strcmp(cp, "IF") == 0) { char k[256]; int y, o, s; q = input_number(); if (q != SUCCEEDED && q != INPUT_NUMBER_STRING) { sprintf(emsg, ".IF needs immediate data.\n"); print_error(emsg, ERROR_INP); return FAILED; } strncpy(k, label, 255); k[255] = 0; y = d; s = q; if (get_next_token() == FAILED) return FAILED; if (strcmp(tmp, "<") == 0) o = 0; else if (strcmp(tmp, ">") == 0) o = 1; else if (strcmp(tmp, "==") == 0) o = 2; else if (strcmp(tmp, "!=") == 0) o = 3; else if (strcmp(tmp, ">=") == 0) o = 4; else if (strcmp(tmp, "<=") == 0) o = 5; else { print_error(".IF needs an operator. Supported operators are '<', '>', '>=', '<=', '!=' and '=='.\n", ERROR_INP); return FAILED; } q = input_number(); if (q != SUCCEEDED && q != INPUT_NUMBER_STRING) { sprintf(emsg, ".IF needs immediate data.\n"); print_error(emsg, ERROR_INP); return FAILED; } /* different types? */ if (s != q) { print_error("Cannot compare strings with immediate values.\n", ERROR_INP); return FAILED; } /* values? */ if (s == SUCCEEDED) { if ((o == 0 && y < d) || (o == 1 && y > d) || (o == 2 && y == d) || (o == 3 && y != d) || (o == 4 && y >= d) || (o == 5 && y <= d)) q = SUCCEEDED; else q = FAILED; } /* strings? */ else { if ((o == 0 && strcmp(k, label) < 0) || (o == 1 && strcmp(k, label) > 0) || (o == 2 && strcmp(k, label) == 0) || (o == 3 && strcmp(k, label) != 0) || (o == 4 && strcmp(k, label) >= 0) || (o == 5 && strcmp(k, label) <= 0)) q = SUCCEEDED; else q = FAILED; } if (q == SUCCEEDED) { ifdef++; return SUCCEEDED; } else return find_next_point("IF"); } /* IFGR/IFLE/IFEQ/IFNEQ/IFGREQ/IFLEEQ */ if (strcmp(cp, "IFGR") == 0 || strcmp(cp, "IFLE") == 0 || strcmp(cp, "IFEQ") == 0 || strcmp(cp, "IFNEQ") == 0 || strcmp(cp, "IFGREQ") == 0 || strcmp(cp, "IFLEEQ") == 0) { char k[256]; int y, o, s; strcpy(bak, cp); if (strcmp(&cp[2], "LE") == 0) o = 0; else if (strcmp(&cp[2], "GR") == 0) o = 1; else if (strcmp(&cp[2], "EQ") == 0) o = 2; else if (strcmp(&cp[2], "NEQ") == 0) o = 3; else if (strcmp(&cp[2], "GREQ") == 0) o = 4; else o = 5; q = input_number(); if (q != SUCCEEDED && q != INPUT_NUMBER_STRING) { sprintf(emsg, ".%s needs immediate data.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } strncpy(k, label, 255); k[255] = 0; y = d; s = q; q = input_number(); if (q != SUCCEEDED && q != INPUT_NUMBER_STRING) { sprintf(emsg, ".%s needs immediate data.\n", bak); print_error(emsg, ERROR_INP); return FAILED; } /* different types? */ if (s != q) { print_error("Cannot compare strings with immediate values.\n", ERROR_INP); return FAILED; } /* values? */ if (s == SUCCEEDED) { if ((o == 0 && y < d) || (o == 1 && y > d) || (o == 2 && y == d) || (o == 3 && y != d) || (o == 4 && y >= d) || (o == 5 && y <= d)) q = SUCCEEDED; else q = FAILED; } /* strings? */ else { if ((o == 0 && strcmp(k, label) < 0) || (o == 1 && strcmp(k, label) > 0) || (o == 2 && strcmp(k, label) == 0) || (o == 3 && strcmp(k, label) != 0) || (o == 4 && strcmp(k, label) >= 0) || (o == 5 && strcmp(k, label) <= 0)) q = SUCCEEDED; else q = FAILED; } if (q == SUCCEEDED) { ifdef++; return SUCCEEDED; } else { strcpy(k, cp); return find_next_point(k); } } /* IFEXISTS */ if (strcmp(cp, "IFEXISTS") == 0) { FILE *f; inz = input_number(); if (inz != INPUT_NUMBER_STRING) { print_error(".IFEXISTS needs a file name string.\n", ERROR_DIR); return FAILED; } f = fopen(label, "r"); if (f == NULL) return find_next_point("IFEXISTS"); fclose(f); ifdef++; return SUCCEEDED; } /* IFNDEF */ if (strcmp(cp, "IFNDEF") == 0) { struct definition *d; if (get_next_token() == FAILED) return FAILED; d = defines; while (d != NULL) { if (strcmp(tmp, d->alias) == 0) { strcpy(emsg, cp); return find_next_point(emsg); } d = d->next; } ifdef++; return SUCCEEDED; } /* IFDEFM/IFNDEFM */ if (strcmp(cp, "IFDEFM") == 0 || strcmp(cp, "IFNDEFM") == 0) { int k, o; char e; strcpy(bak, cp); if (macro_active == 0) { sprintf(emsg, ".%s can be only used inside a macro.\n", bak); print_error(emsg, ERROR_DIR); return FAILED; } if (cp[2] == 'N') o = 0; else o = 1; for (; i < size; i++) { if (buffer[i] == 0x0A) break; else if (buffer[i] == '\\') { e = buffer[++i]; if (e >= '0' && e <= '9') { d = (e - '0') * 10; for (k = 2; k < 8; k++, d *= 10) { e = buffer[++i]; if (e >= '0' && e <= '9') d += e - '0'; else break; } d /= 10; if ((o == 0 && macro_runtime_current->supplied_arguments < d) || (o == 1 && macro_runtime_current->supplied_arguments >= d)) { ifdef++; return SUCCEEDED; } else { strcpy(emsg, cp); return find_next_point(emsg); } } break; } } sprintf(emsg, ".%s needs an argument.\n", bak); print_error(emsg, ERROR_DIR); return FAILED; } /* FOPEN */ if (strcmp(cp, "FOPEN") == 0) { struct filepointer *f; char *c; o = input_number(); if (o != INPUT_NUMBER_STRING) { print_error(".FOPEN needs a file name string.\n", ERROR_DIR); return FAILED; } /* convert the path to local enviroment */ localize_path(label); c = malloc(strlen(label) + 1); if (c == NULL) { print_error("Out of memory error.\n", ERROR_DIR); return FAILED; } strcpy(c, label); /* get the file pointer name */ if (get_next_token() == FAILED) return FAILED; /* is it defined already? */ f = filepointers; while (f != NULL) { if (strcmp(tmp, f->name) == 0) break; f = f->next; } if (f != NULL) { /* it exists already! close the old handle and open the new one. */ if (f->f != NULL) { fclose(f->f); f->f = NULL; } if (f->filename != NULL) { free(f->filename); f->filename = NULL; } } else { /* allocate a new filepointer */ f = malloc(sizeof(struct filepointer)); if (f == NULL) { print_error("Out of memory error.\n", ERROR_DIR); return FAILED; } f->f = NULL; f->filename = NULL; f->next = filepointers; filepointers = f; } f->filename = c; strcpy(f->name, tmp); /* open the file */ f->f = fopen(f->filename, "rb"); if (f->f == NULL) { sprintf(emsg, "Error opening file \"%s\" for reading.\n", f->filename); print_error(emsg, ERROR_DIR); return FAILED; } return SUCCEEDED; } /* FCLOSE */ if (strcmp(cp, "FCLOSE") == 0) { struct filepointer *f, **t; /* get the file pointer name */ if (get_next_token() == FAILED) return FAILED; f = filepointers; t = &filepointers; while (f != NULL) { if (strcmp(tmp, f->name) == 0) break; t = &(f->next); f = f->next; } if (f == NULL) { sprintf(emsg, "Couldn't find filepointer \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } /* close the file pointer */ if (f->f != NULL) { fclose(f->f); f->f = NULL; } *t = f->next; free(f->filename); free(f); return SUCCEEDED; } /* FSIZE */ if (strcmp(cp, "FSIZE") == 0) { struct filepointer *f; long l, b; /* get the file pointer name */ if (get_next_token() == FAILED) return FAILED; /* fetch the file pointer */ f = filepointers; while (f != NULL) { if (strcmp(tmp, f->name) == 0) break; f = f->next; } if (f == NULL) { sprintf(emsg, "Couldn't find filepointer \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } l = ftell(f->f); fseek(f->f, 0, SEEK_END); b = ftell(f->f); fseek(f->f, l, SEEK_SET); /* get the definition label */ if (get_next_token() == FAILED) return FAILED; add_a_new_definition(tmp, (double)b, NULL, DEFINITION_TYPE_VALUE, 0); return SUCCEEDED; } /* FREAD */ if (strcmp(cp, "FREAD") == 0) { struct filepointer *f; unsigned char c; /* get the file pointer name */ if (get_next_token() == FAILED) return FAILED; f = filepointers; while (f != NULL) { if (strcmp(tmp, f->name) == 0) break; f = f->next; } if (f == NULL) { sprintf(emsg, "Couldn't find filepointer \"%s\".\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } fscanf(f->f, "%c", &c); /* get the definition label */ if (get_next_token() == FAILED) return FAILED; redefine(tmp, (double)c, NULL, DEFINITION_TYPE_VALUE, 0); return SUCCEEDED; } /* BLOCK */ if (strcmp(cp, "BLOCK") == 0) { if ((ind = get_next_token()) == FAILED) return FAILED; if (ind != GET_NEXT_TOKEN_STRING) { print_error(".BLOCK requires a name string.\n", ERROR_DIR); return FAILED; } block_status++; fprintf(file_out_ptr, "g%s ", tmp); return SUCCEEDED; } /* ENDB */ if (strcmp(cp, "ENDB") == 0) { if (block_status <= 0) { print_error("There is no open .BLOCK.\n", ERROR_DIR); return FAILED; } block_status--; fprintf(file_out_ptr, "G "); return SUCCEEDED; } /* SHIFT */ if (strcmp(cp, "SHIFT") == 0) { struct macro_argument *ma; struct macro_runtime *rt; struct macro_static *st; if (macro_active == 0) { print_error(".SHIFT can only be used inside a MACRO.\n", ERROR_DIR); return FAILED; } rt = ¯o_stack[macro_active - 1]; st = rt->macro; if (st->nargument_names <= rt->supplied_arguments) o = st->nargument_names; else o = rt->supplied_arguments; /* free the argument definitions */ for (q = 0; q < o; q++) undefine(st->argument_names[q]); /* free the first argument data */ free(rt->argument_data[0]); /* shift the arguments one down */ for (q = 0; q < rt->supplied_arguments - 1; q++) rt->argument_data[q] = rt->argument_data[q + 1]; /* remove the last one */ rt->argument_data[q] = NULL; rt->supplied_arguments--; if (st->nargument_names <= rt->supplied_arguments) o = st->nargument_names; else o = rt->supplied_arguments; /* redo the definitions if any */ for (q = 0; q < o; q++) { ma = rt->argument_data[q]; if (ma->type == SUCCEEDED) redefine(st->argument_names[q], (double)ma->value, NULL, DEFINITION_TYPE_VALUE, 0); else if (ma->type == INPUT_NUMBER_STACK) redefine(st->argument_names[q], (double)ma->value, NULL, DEFINITION_TYPE_STACK, 0); else if (ma->type == INPUT_NUMBER_ADDRESS_LABEL) redefine(st->argument_names[q], 0.0, ma->string, DEFINITION_TYPE_STRING, strlen(ma->string)); else if (ma->type == INPUT_NUMBER_STRING) redefine(st->argument_names[q], 0.0, ma->string, DEFINITION_TYPE_STRING, strlen(ma->string)); } /* redefine NARGS */ if (redefine("NARGS", (double)rt->supplied_arguments, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (redefine("nargs", (double)rt->supplied_arguments, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; return SUCCEEDED; } /* ENDS */ if (strcmp(cp, "ENDS") == 0) { if (section_status == OFF) { print_error("There is no open section.\n", ERROR_DIR); return FAILED; } section_status = OFF; bankheader_status = OFF; fprintf(file_out_ptr, "s "); return SUCCEEDED; } /* ROMBANKS */ if (strcmp(cp, "ROMBANKS") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .ROMBANKS.\n", ERROR_DIR); return FAILED; } if (banksize_defined == 0) { print_error("No .ROMBANKSIZE defined.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d < 1) { print_error(".ROMBANKS needs a positive integer value.\n", ERROR_DIR); return FAILED; } /* check that the old bank map (smaller) and the new one equal as much as they can */ if (rombanks_defined != 0) { if (rombanks < d) inz = rombanks; else inz = d; for (ind = 0; ind < inz; ind++) { if (banks[ind] != banksize) { print_error("The old and the new .ROMBANKMAP's don't match.\n", ERROR_DIR); return FAILED; } } if (d <= rombanks) return SUCCEEDED; sprintf(emsg, "Upgrading from %d to %d ROM banks.\n", rombanks, d); print_error(emsg, ERROR_WRN); } rombanks = d; rombanks_defined = 1; max_address = d * banksize; if (rom_banks != NULL) free(rom_banks); if (rom_banks_usage_table != NULL) free(rom_banks_usage_table); rom_banks = malloc(sizeof(unsigned char) * max_address); rom_banks_usage_table = malloc(sizeof(unsigned char) * max_address); if (rom_banks == NULL || rom_banks_usage_table == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } memset(rom_banks_usage_table, 0, sizeof(unsigned char) * max_address); if (banks != NULL) free(banks); if (bankaddress != NULL) free(bankaddress); banks = malloc(sizeof(int) * rombanks); bankaddress = malloc(sizeof(int) * rombanks); if (banks == NULL || bankaddress == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } for (inz = 0, ind = 0; ind < d; ind++) { banks[ind] = banksize; bankaddress[ind] = inz; inz += banksize; } return SUCCEEDED; } /* ROMBANKMAP */ if (strcmp(cp, "ROMBANKMAP") == 0) { int b = 0, a = 0, bt = 0, bt_defined = 0, x, bs = 0, bs_defined = 0; if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .ROMBANKMAP.\n", ERROR_DIR); return FAILED; } /* ROMBANKMAP has been defined previously */ if (rombankmap_defined != 0 || rombanks_defined != 0) { o = 0; while ((ind = get_next_token()) == SUCCEEDED) { if (strcaselesscmp(tmp, ".ENDRO") == 0) { break; } else if (strcaselesscmp(tmp, "BANKSTOTAL") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d <= 0) { print_error("BANKSTOTAL needs a positive value.\n", ERROR_DIR); return FAILED; } if (rombanks < d) { banks = realloc(banks, sizeof(int) * d); bankaddress = realloc(bankaddress, sizeof(int) * d); if (banks == NULL || bankaddress == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } } bt = d; bt_defined = 1; } else if (strcaselesscmp(tmp, "BANKSIZE") == 0) { if (bt_defined == 0) { print_error("BANKSTOTAL needs to be defined prior to BANKSIZE.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d <= 0) { print_error("BANKSIZE needs a positive value.\n", ERROR_DIR); return FAILED; } bs = d; bs_defined = 1; } else if (strcaselesscmp(tmp, "BANKS") == 0) { if (bs_defined == 0) { print_error("BANKSIZE needs to be defined prior to BANKS.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d <= 0) { print_error("BANKS needs a positive value.\n", ERROR_DIR); return FAILED; } for (x = 0; x < d; x++) { if (b > bt) { print_error("More BANKS than BANKSTOTAL suggests.\n", ERROR_DIR); return FAILED; } /* new banks? */ if (x >= rombanks) { banks[o] = bs; bankaddress[o] = a; } /* compare old banks */ else if (banks[o] != bs) { print_error("The old and the new ROMBANKMAPs don't match.\n", ERROR_DIR); return FAILED; } o++; b++; a += bs; } } else { ind = FAILED; break; } } } /* no ROMBANKMAP has been defined */ else { o = 0; while ((ind = get_next_token()) == SUCCEEDED) { if (strcaselesscmp(tmp, ".ENDRO") == 0) break; else if (strcaselesscmp(tmp, "BANKSTOTAL") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d <= 0) { print_error("BANKSTOTAL needs a positive value.\n", ERROR_DIR); return FAILED; } banks = malloc(sizeof(int) * d); bankaddress = malloc(sizeof(int) * d); if (banks == NULL || bankaddress == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } bt = d; bt_defined = 1; } else if (strcaselesscmp(tmp, "BANKSIZE") == 0) { if (bt_defined == 0) { print_error("BANKSTOTAL needs to be defined prior to BANKSIZE.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d <= 0) { print_error("BANKSIZE needs a positive value.\n", ERROR_DIR); return FAILED; } bs = d; bs_defined = 1; } else if (strcaselesscmp(tmp, "BANKS") == 0) { if (bs_defined == 0) { print_error("BANKSIZE needs to be defined prior to BANKS.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d <= 0) { print_error("BANKS needs a positive value.\n", ERROR_DIR); return FAILED; } for (x = 0; x < d; x++) { if (b > bt) { print_error("More BANKS than BANKSTOTAL suggests.\n", ERROR_DIR); return FAILED; } banks[o] = bs; bankaddress[o] = a; o++; b++; a += bs; } } else { ind = FAILED; break; } } } if (ind != SUCCEEDED) { print_error("Error in .ROMBANKMAP data structure.\n", ERROR_DIR); return FAILED; } /* no banks definded? */ if (bt == 0) { print_error("No ROM banks were defined inside the .ROMBANKMAP.\n", ERROR_DIR); return FAILED; } if (bt != b) { print_error("Not all ROM banks were defined inside the .ROMBANKMAP.\n", ERROR_DIR); return FAILED; } if (rombanks_defined != 0) { if (b > rombanks) { sprintf(emsg, "Upgrading from %d to %d ROM banks.\n", rombanks, b); print_error(emsg, ERROR_WRN); } else return SUCCEEDED; } rombanks = b; rombanks_defined = 1; for (max_address = 0, q = 0; q < rombanks; q++) max_address += banks[q]; if (rom_banks != NULL) free(rom_banks); if (rom_banks_usage_table != NULL) free(rom_banks_usage_table); rom_banks = malloc(sizeof(unsigned char) * max_address); rom_banks_usage_table = malloc(sizeof(unsigned char) * max_address); if (rom_banks == NULL || rom_banks_usage_table == NULL) { print_error("Out of memory while allocating ROM banks.\n", ERROR_DIR); return FAILED; } memset(rom_banks_usage_table, 0, sizeof(unsigned char) * max_address); rombankmap_defined = 1; return SUCCEEDED; } /* MEMORYMAP */ if (strcmp(cp, "MEMORYMAP") == 0) { int slotsize = 0, slotsize_defined = 0, s = 0; slots_amount=0; if (memorymap_defined == 1) { print_error(".MEMORYMAP can be defined only once.\n", ERROR_DIR); return FAILED; } if (output_format == OUTPUT_LIBRARY) print_error("Libraries don't need .MEMORYMAP.\n", ERROR_WRN); while ((ind = get_next_token()) == SUCCEEDED) { if (strcaselesscmp(tmp, ".ENDME") == 0) { if (defaultslot_defined == 0) { print_error("No DEFAULTSLOT defined.\n", ERROR_DIR); return FAILED; } if (slots[defaultslot].size == 0) { sprintf(emsg, "Unknown DEFAULTSLOT %d.\n", defaultslot); print_error(emsg, ERROR_DIR); return FAILED; } break; } else if (strcaselesscmp(tmp, "SLOTSIZE") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("SLOTSIZE needs an immediate value.\n", ERROR_DIR); return FAILED; } slotsize = d; slotsize_defined = 1; } else if (strcaselesscmp(tmp, "DEFAULTSLOT") == 0) { if (defaultslot_defined != 0) { print_error("DEFAULTSLOT can be defined only once.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d > 255 || d < 0) { print_error("DEFAULTSLOT needs an immediate value (0-255) as an ID.\n", ERROR_DIR); return FAILED; } defaultslot_defined = 1; defaultslot = d; } else if (strcaselesscmp(tmp, "SLOT") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d > 255 || d < 0) { print_error("SLOT needs a positive value (0-255) as an ID.\n", ERROR_DIR); return FAILED; } if (s != d) { print_error("Error in SLOT's ID. ID's start from 0.\n", ERROR_DIR); return FAILED; } o = d; /* skip "START" if present */ if (compare_next_token("START", 5) == SUCCEEDED) skip_next_token(); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d < 0) { print_error("The starting address has to be a non-negative value.\n", ERROR_DIR); return FAILED; } slots[o].address = d; /* skip "SIZE" if present */ if (compare_next_token("SIZE", 4) == SUCCEEDED) skip_next_token(); q = input_number(); if (q == INPUT_NUMBER_EOL) { if (slotsize_defined == 0) { print_error("SLOTSIZE must be defined if you don't explicitly give the size.\n", ERROR_DIR); return FAILED; } next_line(); d = slotsize; } else { if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("The size of the slot needs to be an immediate value.\n", ERROR_DIR); return FAILED; } } slots[o].size = d; slots_amount++; s++; } else { ind = FAILED; break; } } if (ind != SUCCEEDED) { print_error("Error in .MEMORYMAP data structure.\n", ERROR_DIR); return FAILED; } memorymap_defined=1; return SUCCEEDED; } /* UNBACKGROUND */ if (strcmp(cp, "UNBACKGROUND") == 0) { int start, end; if (output_format != OUTPUT_OBJECT) { print_error(".UNBACKGROUND can only be used in OBJECT output mode.\n", ERROR_DIR); return FAILED; } if (background_defined == 0) { print_error("No .BACKGROUND specified.\n", ERROR_DIR); return FAILED; } /* get the starting address */ q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || q < 0) { print_error(".UNBACKGROUND needs the block's starting address.\n", ERROR_DIR); return FAILED; } start = d; /* get the ending address */ q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || q < 0) { print_error(".UNBACKGROUND needs the block's ending address.\n", ERROR_DIR); return FAILED; } end = d; if (end < start) { print_error("The block's ending address is smaller than the starting address!\n", ERROR_DIR); return FAILED; } if (start >= max_address) { sprintf(emsg, "The block's starting address $%x is beyond the ROM's ending address $%x.\n", start, max_address-1); print_error(emsg, ERROR_DIR); return FAILED; } if (end >= max_address) { sprintf(emsg, "The block's ending address $%x is beyond the ROM's ending address $%x. Using the ROM's ending address instead.\n", end, max_address-1); end = max_address; print_error(emsg, ERROR_WRN); } /* clear the memory [start, end] */ memset(rom_banks + start, 0, end - start + 1); memset(rom_banks_usage_table + start, 0, end - start + 1); return SUCCEEDED; } /* BACKGROUND */ if (strcmp(cp, "BACKGROUND") == 0) { FILE *file_in_ptr; if (output_format != OUTPUT_OBJECT) { print_error(".BACKGROUND can only be used in OBJECT output mode.\n", ERROR_DIR); return FAILED; } if (background_defined == 1) { print_error("Only one .BACKGROUND can be specified.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != INPUT_NUMBER_STRING) { print_error(".BACKGROUND needs a file name string.\n", ERROR_DIR); return FAILED; } #ifdef abba if (memorymap_defined == 0) { /* Set up some default values for the PV2 */ slots[0].address = 0; slots[0].size = MAXADDRESS; slots_amount++; memorymap_defined=1; } #endif if (rombanks_defined == 0) { print_error("No .ROMBANKS defined.\n", ERROR_DIR); return FAILED; } create_full_name(include_dir, label); if ((file_in_ptr = fopen(full_name, "rb")) == NULL) { sprintf(emsg, "Error opening .BACKGROUND file \"%s\".\n", full_name); print_error(emsg, ERROR_DIR); return FAILED; } fseek(file_in_ptr, 0, SEEK_END); background_size = ftell(file_in_ptr); fseek(file_in_ptr, 0, SEEK_SET); if (max_address != background_size) { sprintf(emsg, ".BACKGROUND file \"%s\" size (%d) and ROM size (%d) don't match.\n", full_name, background_size, max_address); print_error(emsg, ERROR_DIR); return FAILED; } memset(rom_banks_usage_table, 2, max_address); fread(rom_banks, 1, max_address, file_in_ptr); background_defined = 1; fclose(file_in_ptr); return SUCCEEDED; } /* EMPTYFILL */ if (strcmp(cp, "EMPTYFILL") == 0) { if (output_format == OUTPUT_LIBRARY) { print_error("Library files don't take .EMPTYFILL.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d < -127 || d > 255) { print_error(".EMPTYFILL needs a 8bit value.\n", ERROR_DIR); return FAILED; } if (emptyfill_defined != 0) { if (emptyfill != d) { print_error(".EMPTYFILL was defined for the second time.\n", ERROR_DIR); return FAILED; } return SUCCEEDED; } emptyfill = d; emptyfill_defined = 1; return SUCCEEDED; } /* DEFINE/DEF/EQU */ if (strcmp(cp, "DEFINE") == 0 || strcmp(cp, "DEF") == 0 || strcmp(cp, "EQU") == 0) { double dou; char k[256]; int j, size; if (get_next_token() == FAILED) return FAILED; /* check the user doesn't try to define reserved labels */ if (strcmp(tmp, "WLA_TIME") == 0 || strcmp(tmp, "wla_time") == 0 || strcmp(tmp, "WLA_VERSION") == 0 || strcmp(tmp, "wla_version") == 0 || strcmp(tmp, "WLA_FILENAME") == 0 || strcmp(tmp, "wla_filename") == 0 || strcmp(tmp, "NARGS") == 0 || strcmp(tmp, "nargs") == 0 || strcmp(tmp, "CADDR") == 0 || strcmp(tmp, "caddr") == 0) { sprintf(emsg, "\"%s\" is a reserved definition label and is not user definiable.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } /* skip "=", if present */ if (compare_next_token("=", 1) == SUCCEEDED) skip_next_token(); input_float_mode = ON; q = get_new_definition_data(&j, k, &size, &dou); input_float_mode = OFF; if (q == FAILED) return FAILED; if (!(q == INPUT_NUMBER_EOL || q == INPUT_NUMBER_FLOAT || q == SUCCEEDED || q == INPUT_NUMBER_STRING || q == INPUT_NUMBER_STACK)) { print_error("Could not parse the definition data.\n", ERROR_DIR); return FAILED; } if (q == SUCCEEDED) add_a_new_definition(tmp, (double)j, NULL, DEFINITION_TYPE_VALUE, 0); else if (q == INPUT_NUMBER_FLOAT) add_a_new_definition(tmp, dou, NULL, DEFINITION_TYPE_VALUE, 0); else if (q == INPUT_NUMBER_STRING) add_a_new_definition(tmp, 0.0, k, DEFINITION_TYPE_STRING, size); else if (q == INPUT_NUMBER_STACK) add_a_new_definition(tmp, (double)j, NULL, DEFINITION_TYPE_STACK, 0); else if (q == INPUT_NUMBER_EOL) { add_a_new_definition(tmp, 0, NULL, DEFINITION_TYPE_VALUE, 0); next_line(); } return SUCCEEDED; } /* INPUT */ if (strcmp(cp, "INPUT") == 0) { char k[256]; int j, v; if (get_next_token() == FAILED) return FAILED; fgets(k, 254, stdin); for (j = 0; j < 254; j++) { if (k[j] == 0) break; if (k[j] == 0x0A) { k[j] = 0; break; } if (k[j] == 0x0D) { k[j] = 0; break; } } if (j == 254) { print_error("Error in .INPUT.\n", ERROR_DIR); return FAILED; } for (j = 0; j < 254; j++) { if (k[j] == 0) { print_error("No .INPUT?\n", ERROR_DIR); return FAILED; } if (!(k[j] == ' ' || k[j] == 0x09)) break; } if (k[j] == '%') { v = 0; j++; for ( ; j < 254; j++) { if (k[j] == 0) break; if (k[j] == '0' || k[j] == '1') v = (v << 1) + k[j] - '0'; else break; } if (k[j] == 0) { redefine(tmp, (double)v, NULL, DEFINITION_TYPE_VALUE, 0); return SUCCEEDED; } } else if (k[j] == '$') { j++; v = 0; for ( ; j < 254; j++) { if (k[j] == 0) break; if (k[j] >= '0' && k[j] <= '9') v = (v << 4) + k[j] - '0'; else if (k[j] >= 'a' && k[j] <= 'f') v = (v << 4) + k[j] - 'a' + 10; else if (k[j] >= 'A' && k[j] <= 'F') v = (v << 4) + k[j] - 'A' + 10; else break; } if (k[j] == 0) { redefine(tmp, (double)v, NULL, DEFINITION_TYPE_VALUE, 0); return SUCCEEDED; } } else if (k[j] >= '0' && k[j] <= '9') { v = 0; for ( ; j < 254; j++) { if (k[j] == 0) break; if (k[j] >= '0' && k[j] <= '9') v = (v * 10) + k[j] - '0'; else break; } if (k[j] == 0) { redefine(tmp, (double)v, NULL, DEFINITION_TYPE_VALUE, 0); return SUCCEEDED; } } /* it's a string */ redefine(tmp, 0.0, k, DEFINITION_TYPE_STRING, strlen(k)); return SUCCEEDED; } /* REDEFINE/REDEF */ if (strcmp(cp, "REDEFINE") == 0 || strcmp(cp, "REDEF") == 0) { double dou; char k[256]; int j, size; if (get_next_token() == FAILED) return FAILED; /* check the user doesn't try to define reserved labels */ if (strcmp(tmp, "WLA_TIME") == 0 || strcmp(tmp, "wla_time") == 0 || strcmp(tmp, "WLA_VERSION") == 0 || strcmp(tmp, "wla_version") == 0 || strcmp(tmp, "WLA_FILENAME") == 0 || strcmp(tmp, "wla_filename") == 0 || strcmp(tmp, "NARGS") == 0 || strcmp(tmp, "nargs") == 0 || strcmp(tmp, "CADDR") == 0 || strcmp(tmp, "caddr") == 0) { sprintf(emsg, "\"%s\" is a reserved definition label and is not user definiable.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } /* skip "=", if present */ if (compare_next_token("=", 1) == SUCCEEDED) skip_next_token(); input_float_mode = ON; q = get_new_definition_data(&j, k, &size, &dou); input_float_mode = OFF; if (q == FAILED) return FAILED; if (!(q == INPUT_NUMBER_FLOAT || q == SUCCEEDED || q == INPUT_NUMBER_STRING || q == INPUT_NUMBER_STACK)) { print_error("Could not parse the definition data.\n", ERROR_DIR); return FAILED; } if (q == SUCCEEDED) redefine(tmp, (double)j, NULL, DEFINITION_TYPE_VALUE, 0); else if (q == INPUT_NUMBER_FLOAT) redefine(tmp, dou, NULL, DEFINITION_TYPE_VALUE, 0); else if (q == INPUT_NUMBER_STRING) redefine(tmp, 0.0, k, DEFINITION_TYPE_STRING, size); else if (q == INPUT_NUMBER_STACK) redefine(tmp, (double)j, NULL, DEFINITION_TYPE_STACK, 0); return SUCCEEDED; } /* EXPORT */ if (strcmp(cp, "EXPORT") == 0) { q = 0; while (1) { ind = input_next_string(); if (ind == FAILED) return FAILED; if (ind == INPUT_NUMBER_EOL) { if (q != 0) { next_line(); return SUCCEEDED; } print_error(".EXPORT requires definition name(s).\n", ERROR_DIR); return FAILED; } q++; if (export_a_definition(tmp) == FAILED) return FAILED; } return FAILED; } /* SYM/SYMBOL */ if (strcmp(cp, "SYM") == 0 || strcmp(cp, "SYMBOL") == 0) { ind = input_next_string(); if (ind != SUCCEEDED) { print_error(".SYM requires a symbol name.\n", ERROR_DIR); return FAILED; } fprintf(file_out_ptr, "Y%s ", tmp); return SUCCEEDED; } /* BR/BREAKPOINT */ if (strcmp(cp, "BR") == 0 || strcmp(cp, "BREAKPOINT") == 0) { fprintf(file_out_ptr, "Z "); return SUCCEEDED; } /* ENUM */ if (strcmp(cp, "ENUM") == 0) { char tmpname[MAX_NAME_LENGTH]; int exp = NO, ord = 1, type; q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error(".ENUM needs a starting address.\n", ERROR_DIR); return FAILED; } o = d; /* "ASC" or "DESC"? */ if (compare_next_token("ASC", 3) == SUCCEEDED) { ord = 1; skip_next_token(); } else if (compare_next_token("DESC", 4) == SUCCEEDED) { ord = -1; skip_next_token(); } /* do we have "EXPORT" defined? */ if (compare_next_token("EXPORT", 6) == SUCCEEDED) { skip_next_token(); exp = YES; } while ((t = get_next_token()) != FAILED) { if (strcaselesscmp(tmp, ".ENDE") == 0) return SUCCEEDED; if (tmp[strlen(tmp) - 1] == ':') tmp[strlen(tmp) - 1] = 0; strcpy(tmpname, tmp); /* ASC? */ if (ord == 1) { if (add_a_new_definition(tmpname, (double)o, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (exp == YES) if (export_a_definition(tmpname) == FAILED) return FAILED; } /* get the size/type */ if (get_next_token() == FAILED) return FAILED; type = 0; if (strcaselesscmp(tmp, "DB") == 0 || strcaselesscmp(tmp, "BYT") == 0 || strcaselesscmp(tmp, "BYTE") == 0) o += 1*ord; else if (strcaselesscmp(tmp, "DW") == 0 || strcaselesscmp(tmp, "WORD") == 0) o += 2*ord; else if (strcaselesscmp(tmp, "DS") == 0 || strcaselesscmp(tmp, "DSB") == 0) { strcpy(bak, tmp); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { sprintf(emsg, ".%s needs size.\n", bak); print_error(emsg, ERROR_DIR); return FAILED; } o += d*ord; } else if (strcaselesscmp(tmp, "DSW") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error("DSW needs size.\n", ERROR_DIR); return FAILED; } o += d*2*ord; } /* it's an instance of a structure! */ else if (strcaselesscmp(tmp, "INSTANCEOF") == 0) { struct structure_item *si; struct structure *st; int g; type = 1; if (get_next_token() == FAILED) return FAILED; st = structures_first; while (st != NULL) { if (strcmp(st->name, tmp) == 0) break; st = st->next; } if (st == NULL) { sprintf(emsg, "No STRUCT named \"%s\" available.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } /* generate labels (first the basic ones, without index number) */ if (ord == -1) { o -= st->size; if (add_a_new_definition(tmpname, (double)o, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (exp == YES) if (export_a_definition(tmpname) == FAILED) return FAILED; } si = st->items; while (si != NULL) { sprintf(tmp, "%s.%s%c", tmpname, si->name, 0); if (add_a_new_definition(tmp, (double)o, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (exp == YES) if (export_a_definition(tmp) == FAILED) return FAILED; o += si->size; si = si->next; } if (ord == -1) o -= st->size; /* the number of structures? */ inz = input_number(); if (inz == INPUT_NUMBER_EOL) next_line(); else if (inz == SUCCEEDED) { if (d < 1) { print_error("The number of structures must be greater than 0.\n", ERROR_DIR); return FAILED; } /* generate labels (now with the index numbers) */ if (d > 1) { g = 1; if (ord == 1) o -= st->size; while (d > 0) { si = st->items; sprintf(tmp, "%s.%d%c", tmpname, g, 0); if (add_a_new_definition(tmp, (double)o, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (exp == YES) if (export_a_definition(tmp) == FAILED) return FAILED; while (si != NULL) { sprintf(tmp, "%s.%d.%s%c", tmpname, g, si->name, 0); if (add_a_new_definition(tmp, (double)o, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (exp == YES) if (export_a_definition(tmp) == FAILED) return FAILED; o += si->size; si = si->next; } g++; d--; if (ord == -1) { if (d > 0) o -= st->size*2; else o -= st->size; } } } } else { if (inz == INPUT_NUMBER_STRING) sprintf(emsg, "Expected the number of structures, got \"%s\" instead.\n", label); else sprintf(emsg, "Expected the number of structures.\n"); print_error(emsg, ERROR_DIR); return FAILED; } } else if (tmp[0] == '.' && strcaselesscmp(tmp, ".ENDE") != 0) ; else { sprintf(emsg, "Unexpected symbol \"%s\" in .ENUM.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } /* DESC? */ if (ord == -1 && type == 0) { if (add_a_new_definition(tmpname, (double)o, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (exp == YES) if (export_a_definition(tmpname) == FAILED) return FAILED; } } return FAILED; } /* MACRO */ if (strcmp(cp, "MACRO") == 0) { struct macro_static *m; int macro_start; if (get_next_token() == FAILED) return FAILED; macro_start = active_file_info_last->line_current; m = macros_first; while (m != NULL) { if (strcmp(tmp, m->name) == 0) { sprintf(emsg, "MACRO \"%s\" was defined for the second time.\n", tmp); print_error(emsg, ERROR_DIR); return FAILED; } m = m->next; } m = malloc(sizeof(struct macro_static)); if (m == NULL) { print_error("Out of memory while allocating room for a new MACRO.\n", ERROR_DIR); return FAILED; } if (macros_first == NULL) { macros_first = m; macros_last = m; } else { macros_last->next = m; macros_last = m; } strcpy(m->name, tmp); m->next = NULL; m->calls = 0; m->filename_id = active_file_info_last->filename_id; m->argument_names = NULL; /* is ARGS defined? */ q = 0; if (compare_next_token("ARGS", 4) == SUCCEEDED) { skip_next_token(); while (1) { ind = input_next_string(); if (ind == FAILED) return FAILED; if (ind == INPUT_NUMBER_EOL) { if (q != 0) { next_line(); break; } sprintf(emsg, "MACRO \"%s\" is missing argument names?\n", m->name); print_error(emsg, ERROR_DIR); return FAILED; } q++; /* store the label */ m->argument_names = realloc(m->argument_names, sizeof(char *)*q); if (m->argument_names == NULL) { print_error("Out of memory error.\n", ERROR_NONE); return FAILED; } m->argument_names[q-1] = malloc(strlen(tmp)+1); if (m->argument_names[q-1] == NULL) { print_error("Out of memory error.\n", ERROR_NONE); return FAILED; } strcpy(m->argument_names[q-1], tmp); } } m->nargument_names = q; m->start = i; m->start_line = active_file_info_last->line_current; /* go to the end of the macro */ for (; i < size; i++) { if (buffer[i] == 0x0A) { next_line(); continue; } else if ((strncmp(&buffer[i], ".E", 2) == 0) && (buffer[i + 2] == 0x0A || buffer[i + 2] == ' ')) { active_file_info_last->line_current = macro_start; sprintf(emsg, "MACRO \"%s\" wasn't terminated with .ENDM.\n", m->name); print_error(emsg, ERROR_DIR); return FAILED; } else if ((strncmp(&buffer[i], ".ENDM", 5) == 0 || strncmp(&buffer[i], ".endm", 5) == 0) && (buffer[i + 5] == 0x0A || buffer[i + 5] == ' ')) { i += 5; break; } } return SUCCEEDED; } /* REPT/REPEAT */ if (strcmp(cp, "REPT") == 0 || strcmp(cp, "REPEAT") == 0) { char c[16]; strcpy(c, cp); q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { sprintf(emsg, ".%s needs a count.\n", c); print_error(emsg, ERROR_INP); return FAILED; } if (d < 0) { sprintf(emsg, ".%s count value must be positive or zero.\n", c); print_error(emsg, ERROR_DIR); return FAILED; } if (d == 0) { int l, r, m; l = active_file_info_last->line_current; /* find the next compiling point */ r = 1; m = macro_active; /* disable macro decoding */ macro_active = 0; while (get_next_token() != FAILED) { if (tmp[0] == '.') { if (strcmp(cp, "ENDR") == 0) r--; if (strcmp(cp, "E") == 0) break; if (strcmp(cp, "REPT") == 0 || strcmp(cp, "REPEAT") == 0) r++; } if (r == 0) { macro_active = m; return SUCCEEDED; } } /* return the condition's line number */ active_file_info_last->line_current = l; sprintf(emsg, ".%s must end to .ENDR.\n", c); print_error(emsg, ERROR_DIR); return FAILED; } if (repeat_active == repeat_stack_size) { struct repeat_runtime *rr; repeat_stack_size = (repeat_stack_size<<1)+2; rr = realloc(repeat_stack, sizeof(struct repeat_runtime) * repeat_stack_size); if (rr == NULL) { print_error("Out of memory error while enlarging repeat stack buffer.\n", ERROR_ERR); return FAILED; } repeat_stack = rr; } repeat_stack[repeat_active].start = i; repeat_stack[repeat_active].counter = d; repeat_stack[repeat_active].start_line = active_file_info_last->line_current; repeat_active++; return SUCCEEDED; } /* ENDR */ if (strcmp(cp, "ENDR") == 0) { if (repeat_active == 0) { print_error("There is no open repetition.\n", ERROR_DIR); return FAILED; } repeat_stack[repeat_active - 1].counter--; if (repeat_stack[repeat_active - 1].counter == 0) { repeat_active--; return SUCCEEDED; } i = repeat_stack[repeat_active - 1].start; active_file_info_last->line_current = repeat_stack[repeat_active - 1].start_line; return SUCCEEDED; } /* E */ if (strcmp(cp, "E") == 0) { if (active_file_info_last != NULL) { active_file_info_tmp = active_file_info_last; active_file_info_last = active_file_info_last->prev; free(active_file_info_tmp); if (active_file_info_last == NULL) active_file_info_first = NULL; else fprintf(file_out_ptr, "f%d ", active_file_info_last->filename_id); } fprintf(file_out_ptr, "E "); open_files--; if (open_files == 0) return EVALUATE_TOKEN_EOP; if (extra_definitions == ON) { redefine("WLA_FILENAME", 0.0, get_file_name(active_file_info_last->filename_id), DEFINITION_TYPE_STRING, strlen(get_file_name(active_file_info_last->filename_id))); redefine("wla_filename", 0.0, get_file_name(active_file_info_last->filename_id), DEFINITION_TYPE_STRING, strlen(get_file_name(active_file_info_last->filename_id))); } return SUCCEEDED; } /* M */ if (strcmp(cp, "M") == 0) { if (line_count_status == OFF) line_count_status = ON; else line_count_status = OFF; return SUCCEEDED; } /* ROMBANKSIZE */ if (strcmp(cp, "ROMBANKSIZE") == 0 || strcmp(cp, "BANKSIZE") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED || d < 0) { print_error(".ROMBANKSIZE needs a positive integer value.\n", ERROR_DIR); return FAILED; } if (banksize_defined != 0) { if (banksize != d) { print_error(".ROMBANKSIZE was defined for the second time.\n", ERROR_DIR); return FAILED; } return SUCCEEDED; } banksize = d; banksize_defined = 1; return SUCCEEDED; } /* ENDM */ if (strcmp(cp, "ENDM") == 0) { if (macro_active != 0) { macro_active--; /* free the arguments */ if (macro_stack[macro_active].supplied_arguments > 0) { for (d = 0; d < macro_stack[macro_active].supplied_arguments; d++) free(macro_stack[macro_active].argument_data[d]); free(macro_stack[macro_active].argument_data); macro_stack[macro_active].argument_data = NULL; } /* free the argument definitions */ for (q = 0; q < macro_stack[macro_active].macro->nargument_names; q++) undefine(macro_stack[macro_active].macro->argument_names[q]); i = macro_stack[macro_active].macro_end; if ((extra_definitions == ON) && (active_file_info_last->filename_id != macro_stack[macro_active].macro_end_filename_id)) { redefine("WLA_FILENAME", 0.0, get_file_name(macro_stack[macro_active].macro_end_filename_id), DEFINITION_TYPE_STRING, strlen(get_file_name(macro_stack[macro_active].macro_end_filename_id))); redefine("wla_filename", 0.0, get_file_name(macro_stack[macro_active].macro_end_filename_id), DEFINITION_TYPE_STRING, strlen(get_file_name(macro_stack[macro_active].macro_end_filename_id))); } active_file_info_last->filename_id = macro_stack[macro_active].macro_end_filename_id; active_file_info_last->line_current = macro_stack[macro_active].macro_end_line; /* was this the last macro called? */ if (macro_active == 0) { /* delete NARGS */ undefine("NARGS"); undefine("nargs"); macro_runtime_current = NULL; return SUCCEEDED; } /* redefine NARGS */ if (redefine("NARGS", (double)macro_stack[macro_active - 1].supplied_arguments, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; if (redefine("nargs", (double)macro_stack[macro_active - 1].supplied_arguments, NULL, DEFINITION_TYPE_VALUE, 0) == FAILED) return FAILED; macro_runtime_current = ¯o_stack[macro_active - 1]; return SUCCEEDED; } return EVALUATE_TOKEN_NOT_IDENTIFIED; } /* 8BIT */ if (strcmp(cp, "8BIT") == 0) { xbit_size = 8; return SUCCEEDED; } /* 16BIT */ if (strcmp(cp, "16BIT") == 0) { xbit_size = 16; return SUCCEEDED; } /* PRINTT */ if (strcmp(cp, "PRINTT") == 0) { char t[256]; int s, u; inz = input_number(); if (inz != INPUT_NUMBER_STRING) { print_error(".PRINTT needs a string.\n", ERROR_DIR); return FAILED; } for (s = 0, u = 0; label[s] != 0;) { if (label[s] == '\\' && label[s + 1] == 'n') { #ifdef MSDOS t[u++] = '\r'; t[u++] = '\n'; #else t[u++] = '\n'; #endif s += 2; } else if (label[s] == '\\' && label[s + 1] == '\\') { t[u++] = '\\'; s += 2; } else t[u++] = label[s++]; } t[u] = 0; if (quiet == NO) printf("%s", t); return SUCCEEDED; } /* PRINTV */ if (strcmp(cp, "PRINTV") == 0) { int m; if (get_next_token() == FAILED) return FAILED; if (strcaselesscmp(tmp, "HEX") == 0) m = 0; else if (strcaselesscmp(tmp, "DEC") == 0) m = 1; else { print_error(".PRINTV needs to know the format of the output, HEX or DEC.\n", ERROR_DIR); return FAILED; } q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { if (q == INPUT_NUMBER_ADDRESS_LABEL) { sprintf(emsg, "\"%s\" is not known.\n", label); print_error(emsg, ERROR_DIR); } print_error(".PRINTV can only print currently known values.\n", ERROR_DIR); return FAILED; } if (quiet == NO) { if (m == 0) printf("%x", d); else printf("%d", d); } return SUCCEEDED; } /* SEED */ if (strcmp(cp, "SEED") == 0) { q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { print_error(".SEED needs a seed value for the randon number generator.\n", ERROR_DIR); return FAILED; } /* reseed the random number generator */ srand(d); return SUCCEEDED; } /* DBRND/DWRND */ if (strcmp(cp, "DBRND") == 0 || strcmp(cp, "DWRND") == 0) { int o, c, min, max, f; /* bytes or words? */ if (cp[1] == 'W') o = 1; else o = 0; /* get the count */ q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { sprintf(emsg, ".%s needs the amount of random numbers.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } c = d; if (c <= 0) { sprintf(emsg, ".%s needs that the amount of random numbers is > 0.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } /* get min */ q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { sprintf(emsg, ".%s needs the min value.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } min = d; /* get max */ q = input_number(); if (q == FAILED) return FAILED; if (q != SUCCEEDED) { sprintf(emsg, ".%s needs the max value.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } max = d; if (min >= max) { sprintf(emsg, ".%s needs that min < max.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } /* generate the numbers */ for (f = 0; f < c; f++) { d = (rand() % (max-min+1)) + min; if (o == 1) { if (d < -32768 || d > 65535) { sprintf(emsg, ".%s: Expected a 16bit value, computed %d.\n", cp, d); print_error(emsg, ERROR_NONE); return FAILED; } fprintf(file_out_ptr, "y %d ", d); } else { if (d > 255 || d < -127) { sprintf(emsg, ".%s: Expected a 8bit value, computed %d.\n", cp, d); print_error(emsg, ERROR_NONE); return FAILED; } fprintf(file_out_ptr, "d%d ", d); } } return SUCCEEDED; } /* DWSIN/DBSIN/DWCOS/DBCOS */ if (strcmp(cp, "DWSIN") == 0 || strcmp(cp, "DBSIN") == 0 || strcmp(cp, "DWCOS") == 0 || strcmp(cp, "DBCOS") == 0) { double m, a, s, n; int p, c, o, f; if (cp[1] == 'W') o = 1; else o = 2; if (cp[2] == 'S') f = 1; else f = 2; input_float_mode = ON; p = input_number(); input_float_mode = OFF; if (p != SUCCEEDED && p != INPUT_NUMBER_FLOAT) { sprintf(emsg, ".%s needs a value for starting angle.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } if (p == SUCCEEDED) a = d; else a = flo; if (input_number() != SUCCEEDED || d < 0) { sprintf(emsg, ".%s needs an non-negative integer value for additional angles.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } c = d; input_float_mode = ON; p = input_number(); if (p != SUCCEEDED && p != INPUT_NUMBER_FLOAT) { sprintf(emsg, ".%s needs a value for angle step.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } if (p == SUCCEEDED) s = d; else s = flo; p = input_number(); if (p != SUCCEEDED && p != INPUT_NUMBER_FLOAT) { sprintf(emsg, ".%s needs a value to multiply the result with.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } if (p == SUCCEEDED) m = d; else m = flo; p = input_number(); input_float_mode = OFF; if (p != SUCCEEDED && p != INPUT_NUMBER_FLOAT) { sprintf(emsg, ".%s needs a value to add to the result.\n", cp); print_error(emsg, ERROR_DIR); return FAILED; } if (p == SUCCEEDED) n = d; else n = flo; for (c++; c > 0; c--) { while (a >= 360) a -= 360; if (f == 1) d = (int)((m * sin(a*M_PI/180)) + n); else d = (int)((m * cos(a*M_PI/180)) + n); if (o == 1) { if (d < -32768 || d > 65535) { sprintf(emsg, ".%s: Expected a 16bit value, computed %d.\n", cp, d); print_error(emsg, ERROR_NONE); return FAILED; } fprintf(file_out_ptr, "y %d ", d); } else { if (d > 255 || d < -127) { sprintf(emsg, ".%s: Expected a 8bit value, computed %d.\n", cp, d); print_error(emsg, ERROR_NONE); return FAILED; } fprintf(file_out_ptr, "d%d ", d); } a += s; } return SUCCEEDED; } /* FAIL */ if (strcmp(cp, "FAIL") == 0) { print_error("HALT: .FAIL found.\n", ERROR_NONE); /* make a silent exit */ exit(0); } /* UNDEF/UNDEFINE */ if (strcmp(cp, "UNDEF") == 0 || strcmp(cp, "UNDEFINE") == 0) { char c[16]; strcpy(c, cp); q = 0; while (1) { ind = input_next_string(); if (ind == FAILED) return FAILED; if (ind == INPUT_NUMBER_EOL) { if (q != 0) { next_line(); return SUCCEEDED; } sprintf(emsg, ".%s requires definition name(s).\n", c); print_error(emsg, ERROR_DIR); return FAILED; } q++; if (undefine(tmp) == FAILED) { sprintf(emsg, "Could not .%s \"%s\".\n", c, tmp); print_error(emsg, ERROR_WRN); } } return SUCCEEDED; } /* ASM */ if (strcmp(cp, "ASM") == 0) return SUCCEEDED; /* ENDASM */ if (strcmp(cp, "ENDASM") == 0) { int assem = 1, x; while (1) { x = i; q = get_next_token(); if (q == GET_NEXT_TOKEN_STRING) continue; /* end of file? */ if (strcmp(tmp, ".E") == 0) { i = x; return SUCCEEDED; } if (strcaselesscmp(tmp, ".ASM") == 0) { assem--; if (assem == 0) return SUCCEEDED; } if (strcaselesscmp(tmp, ".ENDASM") == 0) assem++; } } sprintf(emsg, "Unknown directive \"%s\".\n", tmp); print_error(emsg, ERROR_NONE); return FAILED; } int find_next_point(char *n) { int r, m, l; l = active_file_info_last->line_current; /* find the next compiling point */ r = 1; m = macro_active; /* disable macro decoding */ macro_active = 0; while (get_next_token() != FAILED) { if (tmp[0] == '.') { if (strcmp(cp, "ENDIF") == 0) r--; if (strcmp(cp, "ELSE") == 0 && r == 1) r--; if (strcmp(cp, "E") == 0) break; if (strcmp(cp, "IFDEF") == 0 || strcmp(cp, "IFNDEF") == 0 || strcmp(cp, "IFGR") == 0 || strcmp(cp, "IFLE") == 0 || strcmp(cp, "IFEQ") == 0 || strcmp(cp, "IFNEQ") == 0 || strcmp(cp, "IFDEFM") == 0 || strcmp(cp, "IFNDEFM") == 0 || strcmp(cp, "IF") == 0 || strcmp(cp, "IFGREQ") == 0 || strcmp(cp, "IFLEEQ") == 0 || strcmp(cp, "IFEXISTS") == 0) r++; } if (r == 0) { if (strcmp(cp, "ELSE") == 0) ifdef++; macro_active = m; return SUCCEEDED; } } /* return the condition's line number */ active_file_info_last->line_current = l; sprintf(emsg, ".%s must end to .ENDIF/.ELSE.\n", n); print_error(emsg, ERROR_DIR); return FAILED; } void delete_stack(struct stack *s) { if (s == NULL) { sprintf(emsg, "Deleting a non-existing computation stack. This can lead to problems.\n"); print_error(emsg, ERROR_WRN); return; } free(s->stack); free(s); } int get_new_definition_data(int *b, char *c, int *size, double *data) { int a, x, n, s; x = input_number(); a = x; n = 0; s = 0; if (x == INPUT_NUMBER_ADDRESS_LABEL) { /* address label -> stack */ stack_create_label_stack(label); x = INPUT_NUMBER_STACK; } if (x == INPUT_NUMBER_STACK) { *b = stacks_tmp->id; stacks_tmp->position = STACK_POSITION_DEFINITION; x = input_number(); if (x != INPUT_NUMBER_EOL) { print_error("A computation cannot be output as a string.\n", ERROR_DIR); return SUCCEEDED; } return INPUT_NUMBER_STACK; } while (x != INPUT_NUMBER_EOL) { /* the first fetch will conserve both classes */ if (n == 0) { if (x == SUCCEEDED) *b = d; else if (x == INPUT_NUMBER_STRING) { strcpy(c, label); s = strlen(label); } else if (x == INPUT_NUMBER_FLOAT) { *data = flo; *b = flo; } else return x; n++; x = input_number(); continue; } /* the next fetches will produce strings */ else if (n == 1 && (a == SUCCEEDED || a == INPUT_NUMBER_FLOAT)) { if (*b > 255) { c[0] = (*b & 255); c[1] = (*b >> 8) & 255; c[2] = 0; s = 2; } else { c[0] = *b; c[1] = 0; s = 1; } a = INPUT_NUMBER_STRING; } /* transform floats to integers */ if (x == INPUT_NUMBER_FLOAT) { d = flo; x = SUCCEEDED; } if (x == INPUT_NUMBER_STRING) { strcpy(&c[s], label); s += strlen(label); } else if (x == SUCCEEDED) { if (d > 255) { c[s] = (d & 255); c[s + 1] = (d >> 8) & 255; c[s + 2] = 0; s += 2; } else { c[s] = d; c[s + 1] = 0; s++; } } else return x; n++; x = input_number(); } next_line(); if (a == INPUT_NUMBER_STRING) c[s] = 0; *size = s; return a; } int export_a_definition(char *n) { struct export_def *e; /* don't export it twice or more often */ e = export_first; while (e != NULL) { if (strcmp(e->name, n) == 0) { sprintf(emsg, "\"%s\" was .EXPORTed for the second time.\n", n); print_error(emsg, ERROR_WRN); return SUCCEEDED; } e = e->next; } e = malloc(sizeof(struct export_def)); if (e == NULL) { sprintf(emsg, "Out of memory while allocating room for \".EXPORT %s\".\n", n); print_error(emsg, ERROR_DIR); return FAILED; } strcpy(e->name, n); e->next = NULL; if (export_first == NULL) { export_first = e; export_last = e; } else { export_last->next = e; export_last = e; } return SUCCEEDED; }
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