/* * Mr. 4th Dimention - Allen Webster * * 02.03.2018 * * Converter for *.4is -> *.4id * */ // TOP #include "4ed_defines.h" #include "4ed_input_simulation_event.h" #include "4coder_lib/4coder_string.h" #include "4coder_generated/style.h" #include "4coder_API/types.h" #include "4coder_generated/keycodes.h" #include "4coder_file.h" #include internal void print_usage(char *name){ fprintf(stdout, "usage: %s [ ...]\n" "all files with the extension .4is in src-root will be converted\n", name); } // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // TODO(allen): // This belongs in the string library or something like that. struct String_Array{ String *strings; i32 count; }; internal String_Array get_lines(Partition *part, String data){ String_Array array = {0}; array.strings = push_array(part, String, 0); char *line_ptr = data.str; for (i32 i = 0; i <= data.size; ++i){ char *c_ptr = data.str + i; b32 delim = false; if (i < data.size){ switch (*c_ptr){ case '\n': case '\r': { delim = true; }break; } } else{ delim = true; } if (delim){ String s = make_string(line_ptr, (i32)(c_ptr - line_ptr)); s = skip_chop_whitespace(s); if (s.size > 0){ String *new_s = push_array(part, String, 1); *new_s = s; array.count += 1; } line_ptr = c_ptr + 1; } } return(array); } internal String_Array get_words(Partition *part, String data){ String_Array array = {0}; array.strings = push_array(part, String, 0); char *word_ptr = data.str; for (i32 i = 0; i <= data.size; ++i){ char *c_ptr = data.str + i; b32 delim = false; if (i < data.size){ delim = char_is_whitespace(*c_ptr); } else{ delim = true; } if (delim){ String s = make_string(word_ptr, (i32)(c_ptr - word_ptr)); if (s.size > 0){ String *new_s = push_array(part, String, 1); *new_s = s; array.count += 1; } word_ptr = c_ptr + 1; } } return(array); } internal String_Array get_flags(Partition *part, String data){ String_Array array = {0}; array.strings = push_array(part, String, 0); char *word_ptr = data.str; for (i32 i = 0; i <= data.size; ++i){ char *c_ptr = data.str + i; b32 delim = false; if (i < data.size){ delim = (*c_ptr == '|'); } else{ delim = true; } if (delim){ String s = make_string(word_ptr, (i32)(c_ptr - word_ptr)); s = skip_chop_whitespace(s); if (s.size > 0){ String *new_s = push_array(part, String, 1); *new_s = s; array.count += 1; } word_ptr = c_ptr + 1; } } return(array); } internal void show_error(char *name, String data, char *ptr, char *error_message){ i32 line = 1; i32 column = 1; i32 stop = (i32)(ptr - data.str); if (stop > data.size){ stop = data.size; } for (i32 i = 0; i < stop; ++i){ if (data.str[i] == '\n'){ line += 1; column = 1; } else{ column += 1; } } fprintf(stdout, "%s:%d:%d: error %s\n", name, line, column, error_message); } struct Line_Parse_Context{ char *name; String data; String_Array words; }; internal void show_error(Line_Parse_Context context, char *ptr, char *error_message){ show_error(context.name, context.data, ptr, error_message); } internal bool32 require_blank(Line_Parse_Context context, i32 index){ bool32 result = (context.words.count <= index); if (!result){ show_error(context, context.words.strings[index].str, "unexpected word"); } return(result); } internal bool32 require_integer(Line_Parse_Context context, i32 index, i32 *int_out){ bool32 result = false; if (index < context.words.count){ String s = context.words.strings[index]; if (str_is_int(s)){ *int_out = str_to_int(s); result = true; } else{ show_error(context, context.words.strings[index].str, "expected integer"); } } else{ show_error(context, context.words.strings[context.words.count - 1].str, "expected integer"); } return(result); } internal bool32 require_string(Line_Parse_Context context, i32 index, String *str_out){ bool32 result = false; if (index < context.words.count){ *str_out = context.words.strings[index]; result = true; } else{ show_error(context, context.words.strings[context.words.count - 1].str, "expected another word"); } return(result); } internal bool32 key_name_to_code(Line_Parse_Context context, String key_name, u32 *key_code_out){ bool32 result = false; if (key_name.size == 1){ *key_code_out = key_name.str[0]; result = true; } else{ #define KEY_CODE_CHK_SET(S,N) else if (match(key_name, S)) \ do{ *key_code_out = N; result = true; }while(0) #define KEY_CODE_CHK(N) KEY_CODE_CHK_SET(#N,N) if (false){} KEY_CODE_CHK(key_back); KEY_CODE_CHK(key_up); KEY_CODE_CHK(key_down); KEY_CODE_CHK(key_left); KEY_CODE_CHK(key_right); KEY_CODE_CHK(key_del); KEY_CODE_CHK(key_insert); KEY_CODE_CHK(key_home); KEY_CODE_CHK(key_end); KEY_CODE_CHK(key_page_up); KEY_CODE_CHK(key_page_down); KEY_CODE_CHK(key_esc); KEY_CODE_CHK(key_mouse_left); KEY_CODE_CHK(key_mouse_right); KEY_CODE_CHK(key_mouse_left_release); KEY_CODE_CHK(key_mouse_right_release); KEY_CODE_CHK(key_f1); KEY_CODE_CHK(key_f2); KEY_CODE_CHK(key_f3); KEY_CODE_CHK(key_f4); KEY_CODE_CHK(key_f5); KEY_CODE_CHK(key_f6); KEY_CODE_CHK(key_f7); KEY_CODE_CHK(key_f8); KEY_CODE_CHK(key_f9); KEY_CODE_CHK(key_f10); KEY_CODE_CHK(key_f11); KEY_CODE_CHK(key_f12); KEY_CODE_CHK(key_f13); KEY_CODE_CHK(key_f14); KEY_CODE_CHK(key_f15); KEY_CODE_CHK(key_f16); KEY_CODE_CHK_SET("key_space", ' '); } if (!result){ show_error(context, key_name.str, "expected key name"); } return(result); } internal bool32 mod_name_to_flags(Line_Parse_Context context, Partition *part, String mod_name, u8 *modifiers_out){ bool32 result = true; Temp_Memory temp = begin_temp_memory(part); String_Array flags = get_flags(part, mod_name); u8 modifiers = 0; for (i32 i = 0; i < flags.count; ++i){ String flag_string = flags.strings[i]; u8 this_flag = 0; #define MDFR_FLAG_CHK(N) \ else if (match(flag_string, #N)) do{ this_flag = N; }while(0) if (false){} MDFR_FLAG_CHK(MDFR_NONE); MDFR_FLAG_CHK(MDFR_CTRL); MDFR_FLAG_CHK(MDFR_ALT); MDFR_FLAG_CHK(MDFR_CMND); MDFR_FLAG_CHK(MDFR_SHIFT); else{ result = false; show_error(context, flag_string.str, "unrecognized flag string"); break; } modifiers |= this_flag; } end_temp_memory(temp); *modifiers_out = modifiers; return(result); } internal void process_script_inner(Partition *part, char *name){ String data = file_dump(part, name); String_Array lines = get_lines(part, data); Simulation_Event *events = push_array(part, Simulation_Event, 0); i32 event_count = 0; i32 time_counter = 0; for (i32 i = 0; i < lines.count; ++i){ Temp_Memory word_temp = begin_temp_memory(part); String line = lines.strings[i]; String_Array words = get_words(part, line); Line_Parse_Context context = {0}; context.name = name; context.data = data; context.words = words; bool32 emit_event = false; Simulation_Event event = {0}; bool32 emit_type = false; i32 type_increment = 0; String type_string = {0}; if (words.count != 0){ String first_word = words.strings[0]; if (!match(substr(first_word, 0, 2), "//")){ if (match(first_word, "debug_number")){ i32 debug_number = 0; if (require_integer(context, 1, &debug_number) && require_blank(context, 2)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_DebugNumber; event.debug_number = debug_number; } else{ return; } } else if (match(first_word, "wait")){ i32 increment = 0; if (require_integer(context, 1, &increment) && require_blank(context, 2)){ time_counter += increment; } else{ return; } } else if (match(first_word, "key")){ String key_name = {0}; String mod_name = {0}; if (require_string(context, 1, &key_name) && require_string(context, 2, &mod_name) && require_blank(context, 3)){ u32 key_code = 0; u8 modifiers = 0; if (key_name_to_code(context, key_name, &key_code) && mod_name_to_flags(context, part, mod_name, &modifiers)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_Key; event.key.code = key_code; event.key.modifiers = modifiers; } else{ return; } } else{ return; } } else if (match(first_word, "type")){ i32 increment = 0; String string = {0}; if (require_integer(context, 1, &increment) && require_string(context, 2, &string) && require_blank(context, 3)){ emit_type = true; type_increment = increment; type_string = string; } else{ return; } } else if (match(first_word, "mouse_left_press")){ if (require_blank(context, 1)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_MouseLeftPress; } else{ return; } } else if (match(first_word, "mouse_right_press")){ if (require_blank(context, 1)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_MouseRightPress; } else{ return; } } else if (match(first_word, "mouse_left_release")){ if (require_blank(context, 1)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_MouseLeftRelease; } else{ return; } } else if (match(first_word, "mouse_right_release")){ if (require_blank(context, 1)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_MouseRightRelease; } else{ return; } } else if (match(first_word, "mouse_wheel")){ i32 wheel = 0; if (require_integer(context, 1, &wheel) && require_blank(context, 2)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_MouseWheel; event.wheel = wheel; } else{ return; } } else if (match(first_word, "mouse_xy")){ i32 x = 0; i32 y = 0; if (require_integer(context, 1, &x) && require_integer(context, 2, &y) && require_blank(context, 3)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_MouseXY; event.mouse_xy.x = x; event.mouse_xy.y = y; } else{ return; } } else if (match(first_word, "exit")){ if (require_blank(context, 1)){ emit_event = true; event.counter_index = time_counter; event.type = SimulationEvent_Exit; } else{ return; } } else{ show_error(name, data, first_word.str, "unrecognized control word"); return; } } } end_temp_memory(word_temp); if (emit_event){ Simulation_Event *new_event = push_array(part, Simulation_Event, 1); memset(new_event, 0, sizeof(*new_event)); *new_event = event; event_count += 1; } if (emit_type){ for (i32 j = 0; j < type_string.size; ++j){ Simulation_Event *new_event = push_array(part, Simulation_Event, 1); memset(new_event, 0, sizeof(*new_event)); new_event->counter_index = time_counter; new_event->type = SimulationEvent_Key; new_event->key.code = type_string.str[j]; new_event->key.modifiers = MDFR_NONE; event_count += 1; time_counter += type_increment; } } } String out_name_s = front_of_directory(make_string_slowly(name)); char *out_name = push_array(part, char, out_name_s.size + 1); memcpy(out_name, out_name_s.str, out_name_s.size); Assert(out_name[out_name_s.size - 1] == 's'); out_name[out_name_s.size - 1] = 'd'; out_name[out_name_s.size] = 0; FILE *out = fopen(out_name, "wb"); if (out != 0){ fwrite(&event_count, sizeof(event_count), 1, out); fwrite(events, sizeof(*events), event_count, out); fclose(out); } else{ fprintf(stdout, "fatal error: cannot open output %s\n", out_name); } } internal void process_script(Partition *part, char *name){ Temp_Memory temp = begin_temp_memory(part); process_script_inner(part, name); end_temp_memory(temp); } int main(int argc, char **argv){ if (argc <= 1){ char *name = "test_builder"; if (argc > 0){ name = argv[0]; } print_usage(name); } int32_t size = (256 << 20); void *mem = malloc(size); Partition part_ = make_part(mem, size); Partition *part = &part_; for (i32 i = 1; i < argc; ++i){ Cross_Platform_File_List files = get_file_list(part, encode(part, argv[i]), filter_all); char *final_name = unencode(part, files.final_name, files.final_length); String final_name_s = make_string_slowly(final_name); Cross_Platform_File_Info *info = files.info; for (i32 j = 0; j < files.count; ++j, ++info){ if (info->is_folder){ continue; } char *name = unencode(part, info->name, info->len); String s = make_string_slowly(name); if (!match(substr_tail(s, s.size - 4), ".4is")){ continue; } i32 whole_name_max = final_name_s.size + 1 + s.size + 1; char *whole_name = push_array(part, char, whole_name_max); push_align(part, 8); String w = make_string_cap(whole_name, 0, whole_name_max); append(&w, final_name_s); append(&w, '/'); append(&w, s); terminate_with_null(&w); process_script(part, w.str); } } } // BOTTOM