unsigned int get_m68k_cpu_type(char *name) {
for (int i = 0; i < M68K_CPU_TYPES; i++) {
if (strcmp(name, cpu_types[i]) == 0) {
- printf("Set CPU type to %s.\n", cpu_types[i]);
+ printf("[CFG] Set CPU type to %s.\n", cpu_types[i]);
return i + 1;
}
}
- printf ("Invalid CPU type %s specified, defaulting to 68000.\n", name);
+ printf("[CFG] Invalid CPU type %s specified, defaulting to 68000.\n", name);
return M68K_CPU_TYPE_68000;
}
case 'M': ret_int = ret_int * SIZE_MEGA; break;
case 'G': ret_int = ret_int * SIZE_GIGA; break;
default:
- printf("Unknown character %c in hex value.\n", str[i]);
+ printf("[CFG] Unknown character %c in hex value.\n", str[i]);
break;
}
}
index++;
}
if (index == MAX_NUM_MAPPED_ITEMS) {
- printf("Unable to map item, only %d items can be mapped with current binary.\n", MAX_NUM_MAPPED_ITEMS);
+ printf("[CFG] Unable to map item, only %d items can be mapped with current binary.\n", MAX_NUM_MAPPED_ITEMS);
return;
}
switch(type) {
case MAPTYPE_RAM:
- printf("Allocating %d bytes for RAM mapping (%d MB)...\n", size, size / 1024 / 1024);
+ printf("[CFG] Allocating %d bytes for RAM mapping (%d MB)...\n", size, size / 1024 / 1024);
cfg->map_data[index] = (unsigned char *)malloc(size);
if (!cfg->map_data[index]) {
- printf("ERROR: Unable to allocate memory for mapped RAM!\n");
+ printf("[CFG] ERROR: Unable to allocate memory for mapped RAM!\n");
goto mapping_failed;
}
memset(cfg->map_data[index], 0x00, size);
case MAPTYPE_ROM:
in = fopen(filename, "rb");
if (!in) {
- printf("Failed to open file %s for ROM mapping.\n", filename);
+ printf("[CFG] Failed to open file %s for ROM mapping.\n", filename);
goto mapping_failed;
}
fseek(in, 0, SEEK_END);
cfg->map_data[index] = (unsigned char *)calloc(1, cfg->map_size[index]);
cfg->rom_size[index] = (cfg->map_size[index] <= file_size) ? cfg->map_size[index] : file_size;
if (!cfg->map_data[index]) {
- printf("ERROR: Unable to allocate memory for mapped ROM!\n");
+ printf("[CFG] ERROR: Unable to allocate memory for mapped ROM!\n");
goto mapping_failed;
}
memset(cfg->map_data[index], 0x00, cfg->map_size[index]);
break;
}
- printf("[MAP %d] Added %s mapping for range %.8lX-%.8lX ID: %s\n", index, map_type_names[type], cfg->map_offset[index], cfg->map_high[index] - 1, cfg->map_id[index] ? cfg->map_id[index] : "None");
+ printf("[CFG] [MAP %d] Added %s mapping for range %.8lX-%.8lX ID: %s\n", index, map_type_names[type], cfg->map_offset[index], cfg->map_high[index] - 1, cfg->map_id[index] ? cfg->map_id[index] : "None");
if (cfg->map_size[index] == cfg->rom_size[index])
m68k_add_rom_range(cfg->map_offset[index], cfg->map_high[index], cfg->map_data[index]);
struct emulator_config *load_config_file(char *filename) {
FILE *in = fopen(filename, "rb");
if (in == NULL) {
- printf("Failed to open config file %s for reading.\n", filename);
+ printf("[CFG] Failed to open config file %s for reading.\n", filename);
return NULL;
}
parse_line = (char *)calloc(1, 512);
if (!parse_line) {
- printf("Failed to allocate memory for config file line buffer.\n");
+ printf("[CFG] Failed to allocate memory for config file line buffer.\n");
return NULL;
}
cfg = (struct emulator_config *)calloc(1, sizeof(struct emulator_config));
if (!cfg) {
- printf("Failed to allocate memory for temporary emulator config.\n");
+ printf("[CFG] Failed to allocate memory for temporary emulator config.\n");
goto load_failed;
}
mirraddr = get_int(cur_cmd);
break;
default:
- printf("Unknown/unhandled map argument %s on line %d.\n", cur_cmd, cur_line);
+ printf("[CFG] Unknown/unhandled map argument %s on line %d.\n", cur_cmd, cur_line);
break;
}
}
}
case CONFITEM_LOOPCYCLES:
cfg->loop_cycles = get_int(parse_line + str_pos);
- printf("Set CPU loop cycles to %d.\n", cfg->loop_cycles);
+ printf("[CFG] Set CPU loop cycles to %d.\n", cfg->loop_cycles);
break;
case CONFITEM_MOUSE:
get_next_string(parse_line, cur_cmd, &str_pos, ' ');
get_next_string(parse_line, cur_cmd, &str_pos, ' ');
cfg->mouse_toggle_key = cur_cmd[0];
cfg->mouse_enabled = 1;
- printf("Enabled mouse event forwarding from file %s, toggle key %c.\n", cfg->mouse_file, cfg->mouse_toggle_key);
+ printf("[CFG] Enabled mouse event forwarding from file %s, toggle key %c.\n", cfg->mouse_file, cfg->mouse_toggle_key);
break;
case CONFITEM_KEYBOARD:
get_next_string(parse_line, cur_cmd, &str_pos, ' ');
cfg->keyboard_toggle_key = cur_cmd[0];
get_next_string(parse_line, cur_cmd, &str_pos, ' ');
cfg->keyboard_grab = (strcmp(cur_cmd, "grab") == 0) ? 1 : 0;
- printf("Enabled keyboard event forwarding, toggle key %c, %slocking from host.\n",
+ printf("[CFG] Enabled keyboard event forwarding, toggle key %c, %slocking from host.\n",
cfg->keyboard_toggle_key, cfg->keyboard_grab ? "" : "not ");
break;
case CONFITEM_KBFILE:
get_next_string(parse_line, cur_cmd, &str_pos, ' ');
cfg->keyboard_file = (char *)calloc(1, strlen(cur_cmd) + 1);
strcpy(cfg->keyboard_file, cur_cmd);
- printf("Set keyboard event source file to %s.\n", cfg->keyboard_file);
+ printf("[CFG] Set keyboard event source file to %s.\n", cfg->keyboard_file);
break;
case CONFITEM_PLATFORM: {
char platform_name[128], platform_sub[128];
memset(platform_name, 0x00, 128);
memset(platform_sub, 0x00, 128);
get_next_string(parse_line, platform_name, &str_pos, ' ');
- printf("Setting platform to %s", platform_name);
+ printf("[CFG] Setting platform to %s", platform_name);
get_next_string(parse_line, platform_sub, &str_pos, ' ');
if (strlen(platform_sub))
printf(" (sub: %s)", platform_sub);
}
case CONFITEM_SETVAR: {
if (!cfg->platform) {
- printf("Warning: esetvar used in config file with no platform specified.\n");
+ printf("[CFG] Warning: setvar used in config file with no platform specified.\n");
break;
}
}
case CONFITEM_NONE:
default:
- printf("Unknown config item %s on line %d.\n", cur_cmd, cur_line);
+ printf("[CFG] Unknown config item %s on line %d.\n", cur_cmd, cur_line);
break;
}