/* 4coder_metadata_generator.cpp - A preprocessor program for generating a list of commands and their descriptions. TYPE: 'code-preprocessor' */ // TOP #define COMMAND_METADATA_OUT "4coder_generated/command_metadata.h" #include "4coder_os_comp_cracking.h" #include "4coder_lib/4coder_mem.h" #define FSTRING_IMPLEMENTATION #include "4coder_lib/4coder_string.h" #include "4coder_lib/4cpp_lexer.h" #define str_to_l_c(s) ((s).size), ((s).str) #define str_to_c_l(s) ((s).str), ((s).size) #include #include #include typedef int32_t bool32; #if defined(IS_WINDOWS) //// WINDOWS BEGIN //// #define UNICODE #include typedef TCHAR Filename_Character; //// WINDOWS END //// #elif defined(IS_LINUX) || defiend(IS_MAC) //// UNIX BEGIN //// #include typedef char Filename_Character; //// UNIX END //// #else # error metdata generator not supported on this platform #endif struct File_Info{ Filename_Character *name; int32_t len; bool32 is_folder; }; struct File_List{ File_Info *info; int32_t count; int32_t final_length; Filename_Character final_name[4096]; }; static File_List get_file_list(Partition *part, Filename_Character *dir); static Filename_Character* encode(Partition *part, char *str){ int32_t size = 0; for (;str[size]!=0;++size); Filename_Character *out = push_array(part, Filename_Character, size + 1); push_align(part, 8); if (out == 0){ fprintf(stdout, "fatal error: ran out of memory encoding string to filename\n"); exit(1); } for (int32_t i = 0, j = 0; i <= size; ++i){ if (str[i] != '"'){ out[j++] = str[i]; } } return(out); } static char* unencode(Partition *part, Filename_Character *str, int32_t len){ Temp_Memory temp = begin_temp_memory(part); char *out = push_array(part, char, len + 1); push_align(part, 8); if (out == 0){ fprintf(stdout, "fatal error: ran out of memory unencoding string to filename\n"); exit(1); } for (int32_t i = 0; i <= len; ++i){ if (str[i] <= 127){ out[i] = (char)str[i]; } else{ out = 0; end_temp_memory(temp); break; } } return(out); } static bool32 is_code_file(Filename_Character *name, int32_t len){ bool32 is_code = false; if (len >= 5){ Filename_Character *ext = &name[len - 4]; if (ext[0] == '.' && ext[1] == 'c' && ext[2] == 'p' && ext[3] == 'p'){ is_code = true; } else if (ext[0] == '.' && ext[1] == 'h' && ext[2] == 'p' && ext[3] == 'p'){ is_code = true; } } if (len >= 4){ Filename_Character *ext = &name[len - 3]; if (ext[0] == '.' && ext[1] == 'c' && ext[2] == 'c'){ is_code = true; } } if (len >= 3){ Filename_Character *ext = &name[len - 2]; if (ext[0] == '.' && ext[1] == 'h'){ is_code = true; } else if (ext[0] == '.' && ext[1] == 'c'){ is_code = true; } } return(is_code); } #if defined(IS_WINDOWS) //// WINDOWS BEGIN //// static File_List get_file_list(Partition *part, Filename_Character *dir){ if (part == 0){ fprintf(stdout, "fatal error: NULL part passed to %s\n", __FUNCTION__); exit(1); } if (dir == 0){ fprintf(stdout, "fatal error: NULL dir passed to %s\n", __FUNCTION__); exit(1); } HANDLE dir_handle = CreateFile(dir, FILE_LIST_DIRECTORY, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE, 0, OPEN_EXISTING, FILE_FLAG_BACKUP_SEMANTICS | FILE_FLAG_OVERLAPPED, 0); if (dir_handle == INVALID_HANDLE_VALUE){ fprintf(stdout, "fatal error: could not open directory handle\n"); exit(1); } Filename_Character final_name[4096]; DWORD final_length = GetFinalPathNameByHandle(dir_handle, final_name, sizeof(final_name), 0); if (final_length > sizeof(final_name)){ fprintf(stdout, "fatal error: path name too long for local buffer\n"); exit(1); } CloseHandle(dir_handle); final_length -= 4; memmove(final_name, final_name + 4, final_length*sizeof(*final_name)); final_name[final_length] = '\\'; final_name[final_length + 1] = '*'; final_name[final_length + 2] = 0; WIN32_FIND_DATA find_data = {0}; HANDLE search = FindFirstFile(final_name, &find_data); if (search == INVALID_HANDLE_VALUE){ fprintf(stdout, "fatal error: could not begin a file search\n"); exit(1); } int32_t character_count = 0; int32_t file_count = 0; BOOL more_files = true; do{ Filename_Character *name = &find_data.cFileName[0]; int32_t size = 0; for(;name[size];++size); uint32_t attribs = find_data.dwFileAttributes; bool32 is_folder = ((attribs & FILE_ATTRIBUTE_DIRECTORY) != 0); if (name[0] != '.' && (is_folder || is_code_file(name, size))){ ++file_count; character_count += size + 1; } more_files = FindNextFile(search, &find_data); }while(more_files); FindClose(search); File_List list = {0}; Temp_Memory part_reset = begin_temp_memory(part); int32_t rounded_char_size = (character_count*sizeof(Filename_Character) + 7)&(~7); int32_t memsize = rounded_char_size + file_count*sizeof(File_Info); void *mem = push_array(part, uint8_t, memsize); if (mem == 0){ fprintf(stdout, "fatal error: not enough memory on the partition for a file list.\n"); exit(1); } Filename_Character *char_ptr = (Filename_Character*)mem; File_Info *info_ptr = (File_Info*)((uint8_t*)mem + rounded_char_size); Filename_Character *char_ptr_end = (Filename_Character*)info_ptr; File_Info *info_ptr_end = info_ptr + file_count; File_Info *info_ptr_base = info_ptr; search = FindFirstFile(final_name, &find_data); if (search == INVALID_HANDLE_VALUE){ fprintf(stdout, "fatal error: could not restart a file search\n"); exit(1); } int32_t adjusted_file_count = 0; more_files = true; do{ Filename_Character *name = &find_data.cFileName[0]; int32_t size = 0; for(;name[size]!=0;++size); uint32_t attribs = find_data.dwFileAttributes; bool32 is_folder = ((attribs & FILE_ATTRIBUTE_DIRECTORY) != 0); if (name[0] != '.' && (is_folder || is_code_file(name, size))){ if (info_ptr + 1 > info_ptr_end || char_ptr + size + 1 > char_ptr_end){ memset(&list, 0, sizeof(list)); end_temp_memory(part_reset); FindClose(search); return(list); } info_ptr->name = char_ptr; info_ptr->len = size; info_ptr->is_folder = is_folder; memmove(char_ptr, name, size*sizeof(*name)); char_ptr[size] = 0; char_ptr += size + 1; ++info_ptr; ++adjusted_file_count; } more_files = FindNextFile(search, &find_data); }while(more_files); FindClose(search); list.info = info_ptr_base; list.count = adjusted_file_count; list.final_length = final_length; memcpy(list.final_name, final_name, list.final_length*sizeof(*final_name)); list.final_name[list.final_length] = 0; return(list); } //// WINDOWS END //// #elif defined(IS_LINUX) || defiend(IS_MAC) //// UNIX BEGIN //// static File_List get_file_list(Partition *part, Filename_Character *dir){ if (part == 0){ fprintf(stdout, "fatal error: NULL part passed to %s\n", __FUNCTION__); exit(1); } if (dir == 0){ fprintf(stdout, "fatal error: NULL dir passed to %s\n", __FUNCTION__); exit(1); } DIR *dir_handle = opendir(directory); if (dir_handle == 0){ fprintf(stdout, "fatal error: could not open directory handle\n"); exit(1); } Filename_Character final_name[4096]; int32_t final_length = str_size(dir); if (final_length + 1 > sizeof(final_name)){ fprintf(stdout, "fatal error: path name too long for local buffer\n"); exit(1); } memcpy(final_name, dir, final_length + 1); int32_t character_count = 0; int32_t file_count = 0; for (struct dirent *entry = readdir(dir_handle); entry != 0; entry = readdir(dir_handle)){ Filename_Character *name = entry->d_name; int32_t size = 0; for(;name[size];++size); bool32 is_folder = false; if (entry->d_type == DT_LINK){ struct stat st; if (stat(entry->d_name, &st) != -1){ is_folder = S_ISDIR(st.st_mode); } } else{ is_folder = (entry->d_type == DT_DIR); } if (name[0] != '.' && (is_folder || is_code_file(name, size))){ ++file_count; character_count += size + 1; } } File_List list = {0}; Temp_Memory part_reset = begin_temp_memory(part); int32_t rounded_char_size = (character_count*sizeof(Filename_Character) + 7)&(~7); int32_t memsize = rounded_char_size + file_count*sizeof(File_Info); void *mem = push_array(part, uint8_t, memsize); if (mem == 0){ fprintf(stdout, "fatal error: not enough memory on the partition for a file list.\n"); exit(1); } Filename_Character *char_ptr = (Filename_Character*)mem; File_Info *info_ptr = (File_Info*)((uint8_t*)mem + rounded_char_size); Filename_Character *char_ptr_end = (Filename_Character*)info_ptr; File_Info *info_ptr_end = info_ptr + file_count; File_Info *info_ptr_base = info_ptr; rewinddir(dir_handle); int32_t adjusted_file_count = 0; for (struct dirent *entry = readdir(d); entry != 0; entry = readdir(d)){ Filename_Character *name = entry->d_name; int32_t size = 0; for(;name[size];++size); bool32 is_folder = false; if (entry->d_type == DT_LINK){ struct stat st; if (stat(entry->d_name, &st) != -1){ is_folder = S_ISDIR(st.st_mode); } } else{ is_folder = (entry->d_type == DT_DIR); } if (name[0] != '.' && (is_folder || is_code_file(name, size))){ if (info_ptr + 1 > info_ptr_end || char_ptr + size + 1 > char_ptr_end){ memset(&list, 0, sizeof(list)); end_temp_memory(part_reset); closedir(dir_handle); return(list); } info_ptr->name = char_ptr; info_ptr->len = size; info_ptr->is_folder = is_folder; memmove(char_ptr, name, size*sizeof(*name)); char_ptr[size] = 0; char_ptr += size + 1; ++info_ptr; ++adjusted_file_count; } } closedir(dir_handle); list.info = info_ptr_base; list.count = adjusted_file_count; list.final_length = final_length; memcpy(list.final_name, final_name, list.final_length*sizeof(*final_name)); list.final_name[list.final_length] = 0; return(list); } //// UNIX END //// #else # error metdata generator not supported on this platform #endif static String file_dump(Partition *part, char *name){ String text = {0}; FILE *file = fopen(name, "rb"); if (file != 0){ fseek(file, 0, SEEK_END); text.size = ftell(file); fseek(file, 0, SEEK_SET); text.memory_size = text.size + 1; text.str = push_array(part, char, text.memory_size); if (text.str == 0){ fprintf(stdout, "fatal error: not enough memory in partition for file dumping"); exit(1); } fread(text.str, 1, text.size, file); terminate_with_null(&text); fclose(file); } return(text); } /////////////////////////////// struct Line_Column_Coordinates{ int32_t line; int32_t column; }; static Line_Column_Coordinates line_column_coordinates(String text, int32_t pos){ if (pos < 0){ pos = 0; } if (pos > text.size){ pos = text.size; } Line_Column_Coordinates coords = {0}; coords.line = 1; coords.column = 1; char *end = text.str + pos; for (char *p = text.str; p < end; ++p){ if (*p == '\n'){ ++coords.line; coords.column = 1; } else{ ++coords.column; } } return(coords); } static int32_t line_number(String text, int32_t pos){ Line_Column_Coordinates coords = line_column_coordinates(text, pos); return(coords.line); } static void error(char *source_name, String text, int32_t pos, char *msg){ Line_Column_Coordinates coords = line_column_coordinates(text, pos); fprintf(stdout, "%s:%d:%d: %s\n", source_name, coords.line, coords.column, msg); fflush(stdout); } /////////////////////////////// struct Reader{ char *source_name; String text; Cpp_Token_Array tokens; Cpp_Token *ptr; }; struct Temp_Read{ Reader *reader; Cpp_Token *pos; }; static Reader make_reader(Cpp_Token_Array array, char *source_name, String text){ Reader reader = {0}; reader.tokens = array; reader.ptr = array.tokens; reader.source_name = source_name; reader.text = text; return(reader); } static Cpp_Token prev_token(Reader *reader){ Cpp_Token result = {0}; for (;;){ if (reader->ptr > reader->tokens.tokens + reader->tokens.count){ reader->ptr = reader->tokens.tokens + reader->tokens.count; } if (reader->ptr > reader->tokens.tokens){ --reader->ptr; result = *reader->ptr; } else{ reader->ptr = reader->tokens.tokens; memset(&result, 0, sizeof(result)); break; } if (result.type != CPP_TOKEN_COMMENT && result.type != CPP_TOKEN_JUNK){ break; } } return(result); } static Cpp_Token get_token(Reader *reader){ Cpp_Token result = {0}; for (;;){ if (reader->ptr < reader->tokens.tokens){ reader->ptr = reader->tokens.tokens; } if (reader->ptr < reader->tokens.tokens + reader->tokens.count){ result = *reader->ptr; ++reader->ptr; } else{ reader->ptr = reader->tokens.tokens + reader->tokens.count; memset(&result, 0, sizeof(result)); result.start = reader->text.size; break; } if (result.type != CPP_TOKEN_COMMENT && result.type != CPP_TOKEN_JUNK){ break; } } return(result); } static Cpp_Token peek_token(Reader *reader){ Cpp_Token result = {0}; if (reader->ptr < reader->tokens.tokens){ reader->ptr = reader->tokens.tokens; } if (reader->ptr >= reader->tokens.tokens + reader->tokens.count){ result.start = reader->text.size; } else{ result = *reader->ptr; } return(result); } static int32_t peek_pos(Reader *reader){ Cpp_Token token = peek_token(reader); return(token.start); } static int32_t line_number(Reader *reader, int32_t pos){ int32_t result = line_number(reader->text, pos); return(result); } static void error(Reader *reader, int32_t pos, char *msg){ error(reader->source_name, reader->text, pos, msg); } static Temp_Read begin_temp_read(Reader *reader){ Temp_Read temp = {0}; temp.reader = reader; temp.pos = reader->ptr; return(temp); } static void end_temp_read(Temp_Read temp){ temp.reader->ptr = temp.pos; } /////////////////////////////// static String token_str(String text, Cpp_Token token){ String str = substr(text, token.start, token.size); return(str); } /////////////////////////////// #define sll_push(f,l,n) if((f)==0){(f)=(l)=(n);}else{(l)->next=(n);(l)=(n);}(n)->next=0 /////////////////////////////// typedef uint32_t Meta_Command_Entry_Type; enum{ MetaCommandEntry_DocString, MetaCommandEntry_Alias, }; struct Meta_Command_Entry{ Meta_Command_Entry *next; String name; char *source_name; int32_t line_number; union{ struct{ String doc; } docstring; struct{ String potential; } alias; }; }; struct Meta_Command_Entry_Arrays{ Meta_Command_Entry *first_doc_string; Meta_Command_Entry *last_doc_string; int32_t doc_string_count; Meta_Command_Entry *first_alias; Meta_Command_Entry *last_alias; int32_t alias_count; }; /////////////////////////////// static bool32 has_duplicate_entry(Meta_Command_Entry *first, String name){ bool32 has_duplicate = false; for (Meta_Command_Entry *entry = first; entry != 0; entry = entry->next){ if (match(name, entry->name)){ has_duplicate = true; } } return(has_duplicate); } /////////////////////////////// static bool32 require_key_identifier(Reader *reader, char *str, int32_t *opt_pos_out = 0){ bool32 success = false; Cpp_Token token = get_token(reader); if (token.type == CPP_TOKEN_IDENTIFIER){ String lexeme = token_str(reader->text, token); if (match(lexeme, str)){ success = true; if (opt_pos_out != 0){ *opt_pos_out = token.start; } } } if (!success){ char space[1024]; String s = make_fixed_width_string(space); copy(&s, "expected to find '"); append(&s, str); append(&s, "'"); terminate_with_null(&s); error(reader, token.start, s.str); } return(success); } static bool32 require_open_parenthese(Reader *reader, int32_t *opt_pos_out = 0){ bool32 success = false; Cpp_Token token = get_token(reader); if (token.type == CPP_TOKEN_PARENTHESE_OPEN){ success = true; if (opt_pos_out != 0){ *opt_pos_out = token.start; } } if (!success){ error(reader, token.start, "expected to find '('"); } return(success); } static bool32 require_close_parenthese(Reader *reader, int32_t *opt_pos_out = 0){ bool32 success = false; Cpp_Token token = get_token(reader); if (token.type == CPP_TOKEN_PARENTHESE_CLOSE){ success = true; if (opt_pos_out != 0){ *opt_pos_out = token.start; } } if (!success){ error(reader, token.start, "expected to find ')'"); } return(success); } static bool32 require_define(Reader *reader, int32_t *opt_pos_out = 0){ bool32 success = false; Cpp_Token token = get_token(reader); if (token.type == CPP_PP_DEFINE){ success = true; if (opt_pos_out != 0){ *opt_pos_out = token.start; } } if (!success){ error(reader, token.start, "expected to find '#define'"); } return(success); } static bool32 extract_identifier(Reader *reader, String *str_out, int32_t *opt_pos_out = 0){ bool32 success = false; Cpp_Token token = get_token(reader); if (token.type == CPP_TOKEN_IDENTIFIER){ String lexeme = token_str(reader->text, token); *str_out = lexeme; success = true; if (opt_pos_out != 0){ *opt_pos_out = token.start; } } if (!success){ error(reader, token.start, "expected to find an identifier"); } return(success); } static bool32 extract_string(Reader *reader, String *str_out, int32_t *opt_pos_out = 0){ bool32 success = false; Cpp_Token token = get_token(reader); if (token.type == CPP_TOKEN_STRING_CONSTANT){ String lexeme = token_str(reader->text, token); *str_out = lexeme; success = true; if (opt_pos_out != 0){ *opt_pos_out = token.start; } } if (!success){ error(reader, token.start, "expected to find a string literal"); } return(success); } static bool32 parse_documented_command(Partition *part, Meta_Command_Entry_Arrays *arrays, Reader *reader){ String name = {0}; String doc = {0}; // Getting the command's name int32_t start_pos = 0; if (!require_key_identifier(reader, "CUSTOM_COMMAND_SIG", &start_pos)){ return(false); } if (!require_open_parenthese(reader)){ return(false); } if (!extract_identifier(reader, &name)){ return(false); } if (!require_close_parenthese(reader)){ return(false); } // Getting the command's doc string if (!require_key_identifier(reader, "CUSTOM_DOC")){ return(false); } if (!require_open_parenthese(reader)){ return(false); } int32_t doc_pos = 0; if (!extract_string(reader, &doc, &doc_pos)){ return(false); } if (doc.size < 1 || doc.str[0] != '"'){ error(reader, doc_pos, "warning: doc strings with string literal prefixes not allowed"); return(false); } if (!require_close_parenthese(reader)){ return(false); } if (has_duplicate_entry(arrays->first_doc_string, name)){ error(reader, start_pos, "warning: multiple commands with the same name and separate doc strings, skipping this one"); return(false); } doc = substr(doc, 1, doc.size - 2); Meta_Command_Entry *new_entry = push_array(part, Meta_Command_Entry, 1); new_entry->name = name; new_entry->source_name = reader->source_name; new_entry->line_number = line_number(reader, start_pos); new_entry->docstring.doc = doc; sll_push(arrays->first_doc_string, arrays->last_doc_string, new_entry); ++arrays->doc_string_count; return(true); } static bool32 parse_alias(Partition *part, Meta_Command_Entry_Arrays *arrays, Reader *reader){ String name = {0}; String potential = {0}; // Getting the alias's name int32_t start_pos = 0; if (!require_define(reader, &start_pos)){ return(false); } if (!extract_identifier(reader, &name)){ return(false); } // Getting the alias's target if (!require_key_identifier(reader, "CUSTOM_ALIAS")){ return(false); } if (!require_open_parenthese(reader)){ return(false); } if (!extract_identifier(reader, &potential)){ return(false); } if (!require_close_parenthese(reader)){ return(false); } Meta_Command_Entry *new_entry = push_array(part, Meta_Command_Entry, 1); new_entry->name = name; new_entry->source_name = reader->source_name; new_entry->line_number = line_number(reader, start_pos); new_entry->alias.potential = potential; sll_push(arrays->first_alias, arrays->last_alias, new_entry); ++arrays->alias_count; return(true); } /////////////////////////////// static void parse_text(Partition *part, Meta_Command_Entry_Arrays *entry_arrays, char *source_name, String text){ Cpp_Token_Array array = cpp_make_token_array(1024); cpp_lex_file(text.str, text.size, &array); Reader reader_ = make_reader(array, source_name, text); Reader *reader = &reader_; for (;;){ Cpp_Token token = get_token(reader); if (token.type == CPP_TOKEN_IDENTIFIER){ String lexeme = token_str(text, token); bool32 in_preproc_body = ((token.flags & CPP_TFLAG_PP_BODY) != 0); if (!in_preproc_body && match(lexeme, "CUSTOM_DOC")){ Temp_Read temp_read = begin_temp_read(reader); bool32 found_start_pos = false; for (int32_t R = 0; R < 5; ++R){ Cpp_Token p_token = prev_token(reader); if (p_token.type == CPP_TOKEN_IDENTIFIER){ String p_lexeme = token_str(text, p_token); if (match(p_lexeme, "CUSTOM_COMMAND_SIG")){ found_start_pos = true; break; } } if (p_token.type == 0){ break; } } if (!found_start_pos){ end_temp_read(temp_read); } else{ if (!parse_documented_command(part, entry_arrays, reader)){ end_temp_read(temp_read); } } } else if (match(lexeme, "CUSTOM_ALIAS")){ Temp_Read temp_read = begin_temp_read(reader); bool32 found_start_pos = false; for (int32_t R = 0; R < 3; ++R){ Cpp_Token p_token = prev_token(reader); if (p_token.type == CPP_PP_DEFINE){ if (R == 2){ found_start_pos = true; } break; } if (p_token.type == 0){ break; } } if (!found_start_pos){ end_temp_read(temp_read); } else{ if (!parse_alias(part, entry_arrays, reader)){ end_temp_read(temp_read); } } } } if (token.type == 0){ break; } } cpp_free_token_array(array); } static void parse_file(Partition *part, Meta_Command_Entry_Arrays *entry_arrays, Filename_Character *name_, int32_t len){ char *name = unencode(part, name_, len); if (name == 0){ if (sizeof(*name_) == 2){ fprintf(stdout, "warning: could not unencode file name %ls - file skipped\n", name_); } else{ fprintf(stdout, "warning: could not unencode file name %s - file skipped\n", name_); } return; } String text = file_dump(part, name); parse_text(part, entry_arrays, name, text); } static void parse_files_in_directory(Partition *part, Meta_Command_Entry_Arrays *entry_arrays, Filename_Character *root, bool32 recursive){ File_List list = get_file_list(part, root); for (int32_t i = 0; i < list.count; ++i){ File_Info *info = &list.info[i]; if (info->is_folder && match(make_string(info->name, info->len), "4coder_generated")){ continue; } int32_t full_name_len = list.final_length + 1 + info->len; Filename_Character *full_name = push_array(part, Filename_Character, full_name_len + 1); push_align(part, 8); if (full_name == 0){ fprintf(stdout, "fatal error: not enough memory to recurse to sub directory\n"); exit(1); } memmove(full_name, list.final_name, list.final_length*sizeof(*full_name)); full_name[list.final_length] = '\\'; memmove(full_name + list.final_length + 1, info->name, info->len*sizeof(*full_name)); full_name[full_name_len] = 0; if (!info->is_folder){ parse_file(part, entry_arrays, full_name, full_name_len); } else{ parse_files_in_directory(part, entry_arrays, full_name, recursive); } } } static void show_usage(int argc, char **argv){ char *name = "metadata_generator"; if (argc >= 1){ name = argv[0]; } fprintf(stdout, "usage:\n%s [-R] [ ...]\n", name); exit(0); } int main(int argc, char **argv){ if (argc < 2){ show_usage(argc, argv); } bool32 recursive = match(argv[1], "-R"); if (recursive && argc < 3){ show_usage(argc, argv); } int32_t size = (256 << 20); void *mem = malloc(size); Partition part_ = make_part(mem, size); Partition *part = &part_; int32_t start_i = 1; if (recursive){ start_i = 2; } Meta_Command_Entry_Arrays entry_arrays = {0}; for (int32_t i = start_i; i < argc; ++i){ Filename_Character *root_name = encode(part, argv[i]); parse_files_in_directory(part, &entry_arrays, root_name, recursive); } FILE *out = fopen(COMMAND_METADATA_OUT, "wb"); if (out != 0){ fprintf(out, "#define command_id(c) (fcoder_metacmd_ID_##c)\n"); fprintf(out, "#define command_metadata(c) (&fcoder_metacmd_table[command_id(c)])\n"); fprintf(out, "#define command_metadata_by_id(id) (&fcoder_metacmd_table[id])\n"); fprintf(out, "#define command_one_past_last_id %d\n", entry_arrays.doc_string_count); fprintf(out, "#if defined(CUSTOM_COMMAND_SIG)\n"); fprintf(out, "#define PROC_LINKS(x,y) x\n"); fprintf(out, "#else\n"); fprintf(out, "#define PROC_LINKS(x,y) y\n"); fprintf(out, "#endif\n"); fprintf(out, "#if defined(CUSTOM_COMMAND_SIG)\n"); for (Meta_Command_Entry *entry = entry_arrays.first_doc_string; entry != 0; entry = entry->next){ fprintf(out, "CUSTOM_COMMAND_SIG(%.*s);\n", str_to_l_c(entry->name)); } fprintf(out, "#endif\n"); fprintf(out, "struct Command_Metadata{\n" "PROC_LINKS(Custom_Command_Function, void) *proc;\n" "char *name;\n" "int32_t name_len;\n" "char *description;\n" "int32_t description_len;\n" "char *source_name;\n" "int32_t source_name_len;\n" "int32_t line_number;\n" "};\n"); fprintf(out, "static Command_Metadata fcoder_metacmd_table[%d] = {\n", entry_arrays.doc_string_count); for (Meta_Command_Entry *entry = entry_arrays.first_doc_string; entry != 0; entry = entry->next){ Temp_Memory temp = begin_temp_memory(part); // HACK(allen): We could just get these at the HEAD END of the process, // then we only have to do it once per file, and pass the lengths through. int32_t source_name_len = str_size(entry->source_name); char *fixed_name = push_array(part, char, source_name_len*2 + 1); String s = make_string_cap(fixed_name, 0, source_name_len*2 + 1); copy(&s, entry->source_name); replace_str(&s, "\\", "\\\\"); terminate_with_null(&s); fprintf(out, "{ PROC_LINKS(%.*s, 0), \"%.*s\", %d, \"%.*s\", %d, \"%s\", %d, %d },\n", str_to_l_c(entry->name), str_to_l_c(entry->name), entry->name.size, str_to_l_c(entry->docstring.doc), entry->docstring.doc.size, s.str, s.size, entry->line_number); end_temp_memory(temp); } fprintf(out, "};\n"); int32_t id = 0; for (Meta_Command_Entry *entry = entry_arrays.first_doc_string; entry != 0; entry = entry->next){ fprintf(out, "static int32_t fcoder_metacmd_ID_%.*s = %d;\n", str_to_l_c(entry->name), id); ++id; } } else{ fprintf(stdout, "fatal error: could not open output file %s\n", COMMAND_METADATA_OUT); } return(0); } // BOTTOM