/* * Mr. 4th Dimention - Allen Webster * * 25.02.2016 * * File editing view for 4coder * */ // TOP #include "4coder_version.h" #include "internal_4coder_string.cpp" #include "4cpp_lexer.h" #include #include #include #include #include "4coder_mem.h" #define InvalidPath Assert(!"Invalid path of execution") typedef struct Out_Context{ FILE *file; String *str; } Out_Context; static String str_start_end(char *data, int32_t start, int32_t end){ return(make_string(data + start, end - start)); } static String str_alloc(Partition *part, int32_t cap){ return(make_string_cap(push_array(part, char, cap), 0, cap)); } static int32_t begin_file_out(Out_Context *out_context, char *filename, String *out){ int32_t r = 0; out_context->file = fopen(filename, "wb"); out_context->str = out; out->size = 0; if (out_context->file){ r = 1; } return(r); } static void dump_file_out(Out_Context out_context){ fwrite(out_context.str->str, 1, out_context.str->size, out_context.file); out_context.str->size = 0; } static void end_file_out(Out_Context out_context){ dump_file_out(out_context); fclose(out_context.file); } static String make_out_string(int32_t x){ String str; str.size = 0; str.memory_size = x; str.str = (char*)malloc(x); return(str); } ////////////////////////////////////////////////////////////////////////////////////////////////// char *keys_that_need_codes[] = { "back", "up", "down", "left", "right", "del", "insert", "home", "end", "page_up", "page_down", "esc", "mouse_left", "mouse_right", "mouse_left_release", "mouse_right_release", "f1", "f2", "f3", "f4", "f5", "f6", "f7", "f8", "f9", "f10", "f11", "f12", "f13", "f14", "f15", "f16", }; void generate_keycode_enum(){ char *filename_keycodes = "4coder_keycodes.h"; Out_Context context = {0}; int32_t i = 0, count = 0; unsigned char code = 1; String out = make_out_string(10 << 20); if (begin_file_out(&context, filename_keycodes, &out)){ count = ArrayCount(keys_that_need_codes); append_sc(&out, "enum{\n"); for (i = 0; i < count; i){ if (strcmp(keys_that_need_codes[i], "f1") == 0 && code < 0x7F){ code = 0x7F; } switch (code){ case '\n': code++; break; case '\t': code++; break; case 0x20: code = 0x7F; break; default: append_sc(&out, "key_"); append_sc(&out, keys_that_need_codes[i++]); append_sc(&out, " = "); append_int_to_str(&out, code++); append_sc(&out, ",\n"); break; } } append_sc(&out, "};\n"); append_sc(&out, "static char*\n" "global_key_name(int32_t key_code, int32_t *size){\n" "char *result = 0;\n" "switch(key_code){\n"); for (i = 0; i < count; ++i){ append_sc(&out, "case key_"); append_sc(&out, keys_that_need_codes[i]); append_sc(&out, ": result = \""); append_sc(&out, keys_that_need_codes[i]); append_sc(&out, "\"; *size = sizeof(\""); append_sc(&out, keys_that_need_codes[i]); append_sc(&out, "\")-1; break;\n"); } append_sc(&out, "}\n" "return(result);\n" "}\n"); end_file_out(context); } } ////////////////////////////////////////////////////////////////////////////////////////////////// static void struct_begin(String *str, char *name){ append_sc(str, "struct "); append_sc(str, name); append_sc(str, "{\n"); } static void enum_begin(String *str, char *name){ append_sc(str, "enum "); append_sc(str, name); append_sc(str, "{\n"); } static void struct_end(String *str){ append_sc(str, "};\n\n"); } static char* bar_style_fields[] = { "bar", "bar_active", "base", "pop1", "pop2", }; static char* main_style_fields[] = { "back", "margin", "margin_hover", "margin_active", "cursor", "at_cursor", "highlight", "at_highlight", "mark", "default", "comment", "keyword", "str_constant", "char_constant", "int_constant", "float_constant", "bool_constant", "preproc", "include", "special_character", "highlight_junk", "highlight_white", "paste", "undo", "next_undo", }; static char* make_style_tag(char *tag){ char *str; int32_t len; len = (int32_t)strlen(tag); str = (char*)malloc(len + 1); to_camel_cc(tag, str); str[len] = 0; return(str); } static void generate_style(){ char filename_4coder[] = "4coder_style.h"; char filename_4ed[] = "4ed_style.h"; char *tag = 0; int32_t count = 0, i = 0; String out = make_out_string(10 << 20); Out_Context context = {0}; if (begin_file_out(&context, filename_4coder, &out)){ enum_begin(&out, "Style_Tag"); { count = ArrayCount(bar_style_fields); for (i = 0; i < count; ++i){ tag = make_style_tag(bar_style_fields[i]); append_sc(&out, "Stag_"); append_sc(&out, tag); append_sc(&out, ",\n"); free(tag); } count = ArrayCount(main_style_fields); for (i = 0; i < count; ++i){ tag = make_style_tag(main_style_fields[i]); append_sc(&out, "Stag_"); append_sc(&out, tag); append_sc(&out, ",\n"); free(tag); } } struct_end(&out); end_file_out(context); } if (begin_file_out(&context, filename_4ed, &out)){ struct_begin(&out, "Interactive_Style"); { count = ArrayCount(bar_style_fields); for (i = 0; i < count; ++i){ append_sc(&out, "u32 "); append_sc(&out, bar_style_fields[i]); append_sc(&out, "_color;\n"); } } struct_end(&out); struct_begin(&out, "Style_Main_Data"); { count = ArrayCount(main_style_fields); for (i = 0; i < count; ++i){ append_sc(&out, "u32 "); append_sc(&out, main_style_fields[i]); append_sc(&out, "_color;\n"); } append_sc(&out, "Interactive_Style file_info_style;\n"); } struct_end(&out); { append_sc(&out, "inline u32*\n" "style_index_by_tag(Style_Main_Data *s, u32 tag){\n" "u32 *result = 0;\n" "switch (tag){\n"); count = ArrayCount(bar_style_fields); for (i = 0; i < count; ++i){ tag = make_style_tag(bar_style_fields[i]); append_sc(&out, "case Stag_"); append_sc(&out, tag); append_sc(&out, ": result = &s->file_info_style."); append_sc(&out, bar_style_fields[i]); append_sc(&out, "_color; break;\n"); free(tag); } count = ArrayCount(main_style_fields); for (i = 0; i < count; ++i){ tag = make_style_tag(main_style_fields[i]); append_sc(&out, "case Stag_"); append_sc(&out, tag); append_sc(&out, ": result = &s->"); append_sc(&out, main_style_fields[i]); append_sc(&out, "_color; break;\n"); free(tag); } append_sc(&out, "}\n" "return(result);\n" "}\n\n"); } end_file_out(context); } free(out.str); } ////////////////////////////////////////////////////////////////////////////////////////////////// typedef struct Parse_Context{ Cpp_Token *token_s; Cpp_Token *token_e; Cpp_Token *token; char *data; } Parse_Context; typedef struct Argument{ String param_string; String param_name; } Argument; typedef struct Argument_Breakdown{ int32_t count; Argument *args; } Argument_Breakdown; typedef struct Documentation{ int32_t param_count; String *param_name; String *param_docs; String return_doc; String main_doc; int32_t see_also_count; String *see_also; } Documentation; typedef enum Item_Type{ Item_Null, Item_Function, Item_CppName, Item_Macro, Item_Typedef, Item_Struct, Item_Union, Item_Enum, Item_Type_Count, #define Item_Type_User0 Item_Type_Count } Item_Type; typedef struct Item_Node{ int32_t t; String cpp_name; String name; String ret; String args; String body; String marker; String value; String type; String type_postfix; String doc_string; Argument_Breakdown breakdown; Documentation doc; Item_Node *first_child; Item_Node *next_sibling; } Item_Node; typedef struct Item_Set{ Item_Node *items; int32_t count; } Item_Set; typedef struct Parse{ String code; Cpp_Token_Array tokens; int32_t item_count; } Parse; typedef struct Meta_Unit{ Item_Set set; Parse *parse; int32_t count; } Meta_Unit; typedef struct Meta_Keywords{ String key; Item_Type type; } Meta_Keywords; typedef struct Used_Links{ String *strs; int32_t count, max; } Used_Links; static Item_Node null_item_node = {0}; static String get_lexeme(Cpp_Token token, char *code){ String str = make_string(code + token.start, token.size); return(str); } static Parse_Context setup_parse_context(char *data, Cpp_Token_Array array){ Parse_Context context; context.token_s = array.tokens; context.token_e = array.tokens + array.count; context.token = context.token_s; context.data = data; return(context); } static Parse_Context setup_parse_context(Parse parse){ Parse_Context context; context.token_s = parse.tokens.tokens; context.token_e = parse.tokens.tokens + parse.tokens.count; context.token = context.token_s; context.data = parse.code.str; return(context); } static Cpp_Token* get_token(Parse_Context *context){ Cpp_Token *result = context->token; if (result >= context->token_e){ result = 0; } return(result); } static Cpp_Token* get_next_token(Parse_Context *context){ Cpp_Token *result = context->token+1; context->token = result; if (result >= context->token_e){ result = 0; context->token = context->token_e; } return(result); } static Cpp_Token* get_prev_token(Parse_Context *context){ Cpp_Token *result = context->token-1; if (result < context->token_s){ result = 0; } else{ context->token = result; } return(result); } static Cpp_Token* can_back_step(Parse_Context *context){ Cpp_Token *result = context->token-1; if (result < context->token_s){ result = 0; } return(result); } static Cpp_Token* set_token(Parse_Context *context, Cpp_Token *token){ Cpp_Token *result = 0; if (token >= context->token_s && token < context->token_e){ context->token = token; result = token; } return(result); } static String file_dump(char *filename){ String result = {0}; FILE *file = fopen(filename, "rb"); if (file){ fseek(file, 0, SEEK_END); result.size = ftell(file); fseek(file, 0, SEEK_SET); result.memory_size = result.size + 1; result.str = (char*)malloc(result.memory_size); fread(result.str, 1, result.size, file); result.str[result.size] = 0; fclose(file); } return(result); } static Parse meta_lex(char *filename){ Parse result = {0}; result.code = file_dump(filename); result.tokens = cpp_make_token_array(1024); cpp_lex_file(result.code.str, result.code.size, &result.tokens); return(result); } static String get_first_line(String source){ String line = {0}; int32_t pos = find_s_char(source, 0, '\n'); line = substr(source, 0, pos); return(line); } static String get_next_line(String source, String line){ String next = {0}; int32_t pos = (int32_t)(line.str - source.str) + line.size; int32_t start = 0; if (pos < source.size){ assert(source.str[pos] == '\n'); start = pos + 1; if (start < source.size){ pos = find_s_char(source, start, '\n'); next = substr(source, start, pos - start); } } return(next); } static int32_t is_comment(String str){ int32_t result = 0; if (str.size >= 2){ if (str.str[0] == '/' && str.str[1] == '/'){ result = 1; } } return(result); } typedef enum Doc_Note_Type{ DOC_PARAM, DOC_RETURN, DOC, DOC_SEE, DOC_HIDE, HIDE_MEMBERS, } Doc_Note_Type; static String doc_note_string[] = { make_lit_string("DOC_PARAM"), make_lit_string("DOC_RETURN"), make_lit_string("DOC"), make_lit_string("DOC_SEE"), make_lit_string("DOC_HIDE"), make_lit_string("HIDE_MEMBERS"), }; static int32_t check_and_fix_docs(String *doc_string){ int32_t result = false; if (doc_string->size > 4){ if (doc_string->str[0] == '/'){ if (doc_string->str[1] == '*'){ if (doc_string->str[doc_string->size - 2] == '*'){ if (doc_string->str[doc_string->size - 1] == '/'){ result = true; doc_string->str += 2; doc_string->size -= 4; } } } } } return(result); } static int32_t get_doc_string_from_prev(Parse_Context *context, String *doc_string){ int32_t result = false; if (can_back_step(context)){ Cpp_Token *prev_token = get_token(context) - 1; if (prev_token->type == CPP_TOKEN_COMMENT){ *doc_string = get_lexeme(*prev_token, context->data); if (check_and_fix_docs(doc_string)){ result = true; } else{ *doc_string = null_string; } } } return(result); } static String doc_parse_note(String source, int32_t *pos){ String result = {0}; int32_t p = *pos; int32_t start = p; for (; p < source.size; ++p){ if (source.str[p] == '('){ break; } } if (p != source.size){ result = make_string(source.str + start, p - start); result = skip_chop_whitespace(result); } *pos = p; return(result); } static String doc_parse_note_string(String source, int32_t *pos){ String result = {0}; assert(source.str[*pos] == '('); int32_t p = *pos + 1; int32_t start = p; int32_t nest_level = 0; for (; p < source.size; ++p){ if (source.str[p] == ')'){ if (nest_level == 0){ break; } else{ --nest_level; } } else if (source.str[p] == '('){ ++nest_level; } } if (p != source.size){ result = make_string(source.str + start, p - start); result = skip_chop_whitespace(result); ++p; } *pos = p; return(result); } static String doc_parse_parameter(String source, int32_t *pos){ String result = {0}; int32_t p = *pos; int32_t start = p; for (; p < source.size; ++p){ if (source.str[p] == ','){ break; } } if (p != source.size){ result = make_string(source.str + start, p - start); result = skip_chop_whitespace(result); ++p; } *pos = p; return(result); } static String doc_parse_last_parameter(String source, int32_t *pos){ String result = {0}; int32_t p = *pos; int32_t start = p; for (; p < source.size; ++p){ if (source.str[p] == ')'){ break; } } if (p == source.size){ result = make_string(source.str + start, p - start); result = skip_chop_whitespace(result); } *pos = p; return(result); } static void perform_doc_parse(Partition *part, String doc_string, Documentation *doc){ int32_t keep_parsing = true; int32_t pos = 0; int32_t param_count = 0; int32_t see_count = 0; do{ String doc_note = doc_parse_note(doc_string, &pos); if (doc_note.size == 0){ keep_parsing = false; } else{ int32_t doc_note_type; if (string_set_match(doc_note_string, ArrayCount(doc_note_string), doc_note, &doc_note_type)){ doc_parse_note_string(doc_string, &pos); switch (doc_note_type){ case DOC_PARAM: ++param_count; break; case DOC_SEE: ++see_count; break; } } } }while(keep_parsing); if (param_count + see_count > 0){ int32_t memory_size = sizeof(String)*(2*param_count + see_count); doc->param_name = push_array(part, String, memory_size); doc->param_docs = doc->param_name + param_count; doc->see_also = doc->param_docs + param_count; doc->param_count = param_count; doc->see_also_count = see_count; } int32_t param_index = 0; int32_t see_index = 0; keep_parsing = true; pos = 0; do{ String doc_note = doc_parse_note(doc_string, &pos); if (doc_note.size == 0){ keep_parsing = false; } else{ int32_t doc_note_type; if (string_set_match(doc_note_string, ArrayCount(doc_note_string), doc_note, &doc_note_type)){ String doc_note_string = doc_parse_note_string(doc_string, &pos); switch (doc_note_type){ case DOC_PARAM: { assert(param_index < param_count); int32_t param_pos = 0; String param_name = doc_parse_parameter(doc_note_string, ¶m_pos); String param_docs = doc_parse_last_parameter(doc_note_string, ¶m_pos); doc->param_name[param_index] = param_name; doc->param_docs[param_index] = param_docs; ++param_index; }break; case DOC_RETURN: { doc->return_doc = doc_note_string; }break; case DOC: { doc->main_doc = doc_note_string; }break; case DOC_SEE: { assert(see_index < see_count); doc->see_also[see_index++] = doc_note_string; }break; } } else{ fprintf(stderr, "warning: invalid doc note %.*s\n", doc_note.size, doc_note.str); } } }while(keep_parsing); } static Item_Set allocate_item_set(Partition *part, int32_t count){ Item_Set item_set = {0}; if (count > 0){ item_set.items = push_array(part, Item_Node, count); item_set.count = count; memset(item_set.items, 0, sizeof(Item_Node)*count); } return(item_set); } // // Meta Parse Rules // static int32_t struct_parse(Partition *part, int32_t is_struct, Parse_Context *context, Item_Node *top_member); static int32_t struct_parse_member(Partition *part, Parse_Context *context, Item_Node *member){ int32_t result = false; Cpp_Token *token = get_token(context); String doc_string = {0}; get_doc_string_from_prev(context, &doc_string); Cpp_Token *start_token = token; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_SEMICOLON){ break; } } if (token){ String name = {0}; Cpp_Token *token_j = 0; int32_t nest_level = 0; for (; (token_j = get_token(context)) > start_token; get_prev_token(context)){ if (token_j->type == CPP_TOKEN_BRACKET_CLOSE){ ++nest_level; } else if (token_j->type == CPP_TOKEN_BRACKET_OPEN){ --nest_level; if (nest_level < 0){ break; } } if (nest_level == 0){ if (token_j->type == CPP_TOKEN_IDENTIFIER){ break; } } } name = skip_chop_whitespace(get_lexeme(*token_j, context->data)); String type = skip_chop_whitespace(str_start_end(context->data, start_token->start, token_j->start)); String type_postfix = skip_chop_whitespace(str_start_end(context->data, token_j->start + token_j->size, token->start)); set_token(context, token+1); result = true; member->name = name; member->type = type; member->type_postfix = type_postfix; member->doc_string = doc_string; member->first_child = 0; member->next_sibling = 0; } return(result); } static Item_Node* struct_parse_next_member(Partition *part, Parse_Context *context){ Item_Node *result = 0; Cpp_Token *token = 0; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_IDENTIFIER || (token->flags & CPP_TFLAG_IS_KEYWORD)){ String lexeme = get_lexeme(*token, context->data); if (match_ss(lexeme, make_lit_string("struct"))){ Item_Node *member = push_struct(part, Item_Node); if (struct_parse(part, true, context, member)){ result = member; break; } else{ assert(!"unhandled error"); } } else if (match_ss(lexeme, make_lit_string("union"))){ Item_Node *member = push_struct(part, Item_Node); if (struct_parse(part, false, context, member)){ result = member; break; } else{ assert(!"unhandled error"); } } else{ Item_Node *member = push_struct(part, Item_Node); if (struct_parse_member(part, context, member)){ result = member; break; } else{ assert(!"unhandled error"); } } } else if (token->type == CPP_TOKEN_BRACE_CLOSE){ break; } } return(result); } static int32_t struct_parse(Partition *part, int32_t is_struct, Parse_Context *context, Item_Node *top_member){ int32_t result = false; Cpp_Token *start_token = get_token(context); Cpp_Token *token = 0; String doc_string = {0}; get_doc_string_from_prev(context, &doc_string); for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_BRACE_OPEN){ break; } } if (token){ Cpp_Token *token_j = token; for (; (token_j = get_token(context)) > start_token; get_prev_token(context)){ if (token_j->type == CPP_TOKEN_IDENTIFIER){ break; } } String name = {0}; if (token_j != start_token){ name = skip_chop_whitespace(get_lexeme(*token_j, context->data)); } String type = {0}; if (is_struct){ type = make_lit_string("struct"); } else{ type = make_lit_string("union"); } set_token(context, token+1); Item_Node *new_member = struct_parse_next_member(part, context); if (new_member){ top_member->first_child = new_member; Item_Node *head_member = new_member; for(;;){ new_member = struct_parse_next_member(part, context); if (new_member){ head_member->next_sibling = new_member; head_member = new_member; } else{ break; } } } for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_SEMICOLON){ break; } } ++token; if (is_struct){ top_member->t = Item_Struct; } else{ top_member->t = Item_Union; } top_member->name = name; top_member->type = type; top_member->doc_string = doc_string; top_member->next_sibling = 0; result = true; } return(result); } static int32_t typedef_parse(Parse_Context *context, Item_Node *item){ int32_t result = false; Cpp_Token *token = get_token(context); String doc_string = {0}; get_doc_string_from_prev(context, &doc_string); Cpp_Token *start_token = token; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_SEMICOLON){ break; } } if (token){ Cpp_Token *token_j = token; for (; (token_j = get_token(context)) > start_token; get_prev_token(context)){ if (token_j->type == CPP_TOKEN_IDENTIFIER){ break; } } String name = get_lexeme(*token_j, context->data); String type = skip_chop_whitespace( str_start_end(context->data, start_token->start + start_token->size, token_j->start) ); item->t = Item_Typedef; item->type = type; item->name = name; item->doc_string = doc_string; result = true; } set_token(context, token); return(result); } static int32_t enum_parse(Partition *part, Parse_Context *context, Item_Node *item){ int32_t result = false; String doc_string = {0}; get_doc_string_from_prev(context, &doc_string); Cpp_Token *start_token = get_token(context); Cpp_Token *token = 0; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_BRACE_OPEN){ break; } } if (token){ String name = {0}; Cpp_Token *token_j = 0; for (; (token_j = get_token(context)) != 0; get_prev_token(context)){ if (token_j->type == CPP_TOKEN_IDENTIFIER){ break; } } name = get_lexeme(*token_j, context->data); set_token(context, token); for (; (token = get_token(context)) > start_token; get_next_token(context)){ if (token->type == CPP_TOKEN_BRACE_OPEN){ break; } } if (token){ Item_Node *first_member = 0; Item_Node *head_member = 0; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_BRACE_CLOSE){ break; } else if (token->type == CPP_TOKEN_IDENTIFIER){ String doc_string = {0}; String name = {0}; String value = {0}; get_doc_string_from_prev(context, &doc_string); name = get_lexeme(*token, context->data); token = get_next_token(context); if (token){ if (token->type == CPP_TOKEN_EQ){ Cpp_Token *start_token = token; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_COMMA || token->type == CPP_TOKEN_BRACE_CLOSE){ break; } } value = skip_chop_whitespace( str_start_end(context->data, start_token->start + start_token->size, token->start) ); get_prev_token(context); } else{ get_prev_token(context); } } Item_Node *new_member = push_struct(part, Item_Node); if (first_member == 0){ first_member = new_member; } if (head_member){ head_member->next_sibling = new_member; } head_member = new_member; new_member->name = name; new_member->value = value; new_member->doc_string = doc_string; new_member->next_sibling = 0; } } if ((token = get_token(context)) != 0){ for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_BRACE_CLOSE){ break; } } get_next_token(context); item->t = Item_Enum; item->name = name; item->doc_string = doc_string; item->first_child = first_member; result = true; } } } return(result); } static Argument_Breakdown allocate_argument_breakdown(Partition *part, int32_t count){ Argument_Breakdown breakdown = {0}; if (count > 0){ breakdown.count = count; breakdown.args = push_array(part, Argument, count); memset(breakdown.args, 0, sizeof(Argument)*count); } return(breakdown); } /* Parse arguments by giving pointers to the tokens: foo(a, ... , z) ^ ^ */ static Argument_Breakdown parameter_parse(Partition *part, char *data, Cpp_Token *args_start_token, Cpp_Token *args_end_token){ int32_t arg_index = 0; Cpp_Token *arg_token = args_start_token + 1; int32_t param_string_start = arg_token->start; int32_t arg_count = 1; arg_token = args_start_token; for (; arg_token < args_end_token; ++arg_token){ if (arg_token->type == CPP_TOKEN_COMMA){ ++arg_count; } } Argument_Breakdown breakdown = allocate_argument_breakdown(part, arg_count); arg_token = args_start_token + 1; for (; arg_token <= args_end_token; ++arg_token){ if (arg_token->type == CPP_TOKEN_COMMA || arg_token->type == CPP_TOKEN_PARENTHESE_CLOSE){ int32_t size = arg_token->start - param_string_start; String param_string = make_string(data + param_string_start, size); param_string = chop_whitespace(param_string); breakdown.args[arg_index].param_string = param_string; for (Cpp_Token *param_name_token = arg_token - 1; param_name_token->start > param_string_start; --param_name_token){ if (param_name_token->type == CPP_TOKEN_IDENTIFIER){ int32_t start = param_name_token->start; int32_t size = param_name_token->size; breakdown.args[arg_index].param_name = make_string(data + start, size); break; } } ++arg_index; if (arg_token+1 <= args_end_token){ param_string_start = arg_token[1].start; } } } return(breakdown); } /* Moves the context in the following way: ~~~~~~~ name( ~~~~~~~ ^ -> ^ */ static int32_t function_parse_goto_name(Parse_Context *context){ int32_t result = false; Cpp_Token *token = 0; { for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_PARENTHESE_OPEN){ break; } } if (get_token(context)){ do{ token = get_prev_token(context); }while(token->type == CPP_TOKEN_COMMENT); if (token->type == CPP_TOKEN_IDENTIFIER){ result = true; } } } return(result); } /* Moves the context in the following way: ~~~~~~~ name( ~~~~~~~ /* XXX // ^ ---------------> ^ */ static int32_t function_get_doc(Parse_Context *context, char *data, String *doc_string){ int32_t result = false; Cpp_Token *token = get_token(context); String lexeme = {0}; if (function_parse_goto_name(context)){ if (token->type == CPP_TOKEN_IDENTIFIER){ for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_COMMENT){ lexeme = get_lexeme(*token, data); if (check_and_fix_docs(&lexeme)){ *doc_string = lexeme; result = true; break; } } else if (token->type == CPP_TOKEN_BRACE_OPEN){ break; } } } } return(result); } static int32_t cpp_name_parse(Parse_Context *context, String *name){ int32_t result = false; Cpp_Token *token = 0; Cpp_Token *token_start = get_token(context); token = get_next_token(context); if (token && token->type == CPP_TOKEN_PARENTHESE_OPEN){ token = get_next_token(context); if (token && token->type == CPP_TOKEN_IDENTIFIER){ token = get_next_token(context); if (token && token->type == CPP_TOKEN_PARENTHESE_CLOSE){ *name = get_lexeme(*(token-1), context->data); result = true; } } } if (!result){ set_token(context, token_start); } return(result); } /* Moves the context in the following way: RETTY~ name( ~~~~~~~ ) ^ ---------------> ^ */ static int32_t function_sig_parse(Partition *part, Parse_Context *context, Item_Node *item, String cpp_name){ int32_t result = false; Cpp_Token *token = 0; Cpp_Token *args_start_token = 0; Cpp_Token *ret_token = get_token(context); if (function_parse_goto_name(context)){ token = get_token(context); args_start_token = token+1; item->name = get_lexeme(*token, context->data); item->ret = chop_whitespace( str_start_end(context->data, ret_token->start, token->start) ); for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_PARENTHESE_CLOSE){ break; } } if (token){ item->args = str_start_end(context->data, args_start_token->start, token->start + token->size); item->t = Item_Function; item->cpp_name = cpp_name; item->breakdown = parameter_parse(part, context->data, args_start_token, token); Assert(get_token(context)->type == CPP_TOKEN_PARENTHESE_CLOSE); result = true; } } return(result); } /* Moves the context in the following way: MARKER ~~~ name( ~~~~~~~ ) ^ -------------------> ^ */ static int32_t function_parse(Partition *part, Parse_Context *context, Item_Node *item, String cpp_name){ int32_t result = false; String doc_string = {0}; Cpp_Token *token = get_token(context); item->marker = get_lexeme(*token, context->data); if (function_get_doc(context, context->data, &doc_string)){ item->doc_string = doc_string; } set_token(context, token); if (get_next_token(context)){ if (function_sig_parse(part, context, item, cpp_name)){ Assert(get_token(context)->type == CPP_TOKEN_PARENTHESE_CLOSE); result = true; } } return(result); } /* Moves the context in the following way: /* ~~~ // #define ^ ----> ^ */ static int32_t macro_parse_check(Parse_Context *context){ int32_t result = false; Cpp_Token *token = 0; if ((token = get_next_token(context)) != 0){ if (token->type == CPP_TOKEN_COMMENT){ if ((token = get_next_token(context)) != 0){ if (token->type == CPP_PP_DEFINE){ result = true; } } } } return(result); } /* Moves the context in the following way: /* ~~~ // #define ~~~~~~~~~~~~~~~~~ NOT_IN_MACRO_BODY ^ ----------------------------> ^ */ static int32_t macro_parse(Partition *part, Parse_Context *context, Item_Node *item){ int32_t result = false; Cpp_Token *token = 0; Cpp_Token *doc_token = 0; Cpp_Token *args_start_token = 0; String doc_string = {0}; if (macro_parse_check(context)){ token = get_token(context); if (can_back_step(context)){ doc_token = token-1; doc_string = get_lexeme(*doc_token, context->data); if (check_and_fix_docs(&doc_string)){ item->doc_string = doc_string; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_IDENTIFIER){ break; } } if (get_token(context) && (token->flags & CPP_TFLAG_PP_BODY)){ item->name = get_lexeme(*token, context->data); if ((token = get_next_token(context)) != 0){ args_start_token = token; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (token->type == CPP_TOKEN_PARENTHESE_CLOSE){ break; } } if (token){ item->args = str_start_end(context->data, args_start_token->start, token->start + token->size); item->breakdown = parameter_parse(part, context->data, args_start_token, token); if ((token = get_next_token(context)) != 0){ Cpp_Token *body_start = token; if (body_start->flags & CPP_TFLAG_PP_BODY){ for (; (token = get_token(context)) != 0; get_next_token(context)){ if (!(token->flags & CPP_TFLAG_PP_BODY)){ break; } } token = get_prev_token(context); item->body = str_start_end(context->data, body_start->start, token->start + token->size); } } item->t = Item_Macro; result = true; } } } } } } return(result); } static Meta_Unit compile_meta_unit(Partition *part, char **files, int32_t file_count, Meta_Keywords *keywords, int32_t key_count){ Meta_Unit unit = {0}; int32_t i = 0; unit.count = file_count; unit.parse = push_array(part, Parse, file_count); for (i = 0; i < file_count; ++i){ unit.parse[i] = meta_lex(files[i]); } // TODO(allen): This stage counts nested structs // and unions which is not correct. Luckily it only // means we over allocate by a few items, but fixing it // to be exactly correct would be nice. for (int32_t J = 0; J < unit.count; ++J){ Cpp_Token *token = 0; Parse_Context context_ = setup_parse_context(unit.parse[J]); Parse_Context *context = &context_; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (!(token->flags & CPP_TFLAG_PP_BODY)){ String lexeme = get_lexeme(*token, context->data); int32_t match_index = 0; if (string_set_match_table(keywords, sizeof(*keywords), key_count, lexeme, &match_index)){ Item_Type type = keywords[match_index].type; if (type > Item_Null && type < Item_Type_Count){ ++unit.set.count; } else{ // TODO(allen): Warning } } } } } if (unit.set.count > 0){ unit.set = allocate_item_set(part, unit.set.count); } int32_t index = 0; for (int32_t J = 0; J < unit.count; ++J){ Cpp_Token *token = 0; Parse_Context context_ = setup_parse_context(unit.parse[J]); Parse_Context *context = &context_; String cpp_name = {0}; int32_t has_cpp_name = 0; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (!(token->flags & CPP_TFLAG_PP_BODY)){ String lexeme = get_lexeme(*token, context->data); int32_t match_index = 0; if (string_set_match_table(keywords, sizeof(*keywords), key_count, lexeme, &match_index)){ Item_Type type = keywords[match_index].type; switch (type){ case Item_Function: { if (function_parse(part, context, unit.set.items + index, cpp_name)){ Assert(unit.set.items[index].t == Item_Function); ++index; } else{ fprintf(stderr, "warning: invalid function signature\n"); } }break; case Item_CppName: { if (cpp_name_parse(context, &cpp_name)){ has_cpp_name = 1; } else{ // TODO(allen): warning message } }break; case Item_Macro: { if (macro_parse(part, context, unit.set.items + index)){ Assert(unit.set.items[index].t == Item_Macro); ++index; } else{ // TODO(allen): warning message } }break; case Item_Typedef: //typedef { if (typedef_parse(context, unit.set.items + index)){ Assert(unit.set.items[index].t == Item_Typedef); ++index; } else{ // TODO(allen): warning message } }break; case Item_Struct: case Item_Union: //struct/union { if (struct_parse(part, (type == Item_Struct), context, unit.set.items + index)){ Assert(unit.set.items[index].t == Item_Struct || unit.set.items[index].t == Item_Union); ++index; } else{ // TODO(allen): warning message } }break; case Item_Enum: //ENUM { if (enum_parse(part, context, unit.set.items + index)){ Assert(unit.set.items[index].t == Item_Enum); ++index; } else{ // TODO(allen): warning message } }break; } } } if (has_cpp_name){ has_cpp_name = 0; } else{ cpp_name = null_string; } unit.parse[J].item_count = index; } // NOTE(allen): This is necessary for now because // the original count is slightly overestimated thanks // to nested structs and unions. unit.set.count = index; } return(unit); } static void init_used_links(Partition *part, Used_Links *used, int32_t count){ used->strs = push_array(part, String, count); used->count = 0; used->max = count; } static int32_t try_to_use(Used_Links *used, String str){ int32_t result = 1; int32_t index = 0; if (string_set_match(used->strs, used->count, str, &index)){ result = 0; } else{ used->strs[used->count++] = str; } return(result); } static void print_struct_html(String *out, Item_Node *member, int32_t hide_children){ String name = member->name; String type = member->type; String type_postfix = member->type_postfix; append_ss (out, type); append_s_char (out, ' '); append_ss (out, name); append_ss (out, type_postfix); if (match_ss(type, make_lit_string("struct")) || match_ss(type, make_lit_string("union"))){ if (hide_children){ append_sc(out, " { /* non-public internals */ } ;"); } else{ append_sc(out, " {
"); for (Item_Node *member_iter = member->first_child; member_iter != 0; member_iter = member_iter->next_sibling){ print_struct_html(out, member_iter, hide_children); } append_sc(out, "
};
"); } } else{ append_sc(out, ";
"); } } static void print_function_html(String *out, Used_Links *used, String cpp_name, String ret, char *function_call_head, String name, Argument_Breakdown breakdown){ append_ss (out, ret); append_s_char (out, ' '); append_sc (out, function_call_head); append_ss (out, name); append_sc (out, "(
"); for (int32_t j = 0; j < breakdown.count; ++j){ append_ss(out, breakdown.args[j].param_string); if (j < breakdown.count - 1){ append_s_char(out, ','); } append_sc(out, "
"); } append_sc(out, "
)"); } static void print_macro_html(String *out, String name, Argument_Breakdown breakdown){ if (breakdown.count == 0){ append_sc(out, "#define "); append_ss(out, name); append_sc(out, "()"); } else if (breakdown.count == 1){ append_sc (out, "#define "); append_ss (out, name); append_s_char (out, '('); append_ss (out, breakdown.args[0].param_string); append_s_char (out, ')'); } else{ append_sc (out, "#define "); append_ss (out, name); append_sc (out, "(
"); for (int32_t j = 0; j < breakdown.count; ++j){ append_ss(out, breakdown.args[j].param_string); if (j < breakdown.count - 1){ append_s_char(out, ','); } append_sc(out, "
"); } append_sc(out, ")
)"); } } #define BACK_COLOR "#FAFAFA" #define TEXT_COLOR "#0D0D0D" #define CODE_BACK "#DFDFDF" #define EXAMPLE_BACK "#EFEFDF" #define POP_COLOR_1 "#309030" #define POP_BACK_1 "#E0FFD0" #define VISITED_LINK "#A0C050" #define POP_COLOR_2 "#005000" #define CODE_STYLE "font-family: \"Courier New\", Courier, monospace; text-align: left;" #define CODE_BLOCK_STYLE(back) \ "margin-top: 3mm; margin-bottom: 3mm; font-size: .95em; " \ "background: "back"; padding: 0.25em;" #define DESCRIPT_SECTION_STYLE CODE_BLOCK_STYLE(CODE_BACK) #define EXAMPLE_CODE_STYLE CODE_BLOCK_STYLE(EXAMPLE_BACK) #define DOC_HEAD_OPEN "
" #define DOC_HEAD_CLOSE "
" #define DOC_ITEM_HEAD_STYLE "font-weight: 600;" #define DOC_ITEM_HEAD_INL_OPEN "" #define DOC_ITEM_HEAD_INL_CLOSE "" #define DOC_ITEM_HEAD_OPEN "
" #define DOC_ITEM_HEAD_CLOSE "
" #define DOC_ITEM_OPEN "
" #define DOC_ITEM_CLOSE "
" #define EXAMPLE_CODE_OPEN "
" #define EXAMPLE_CODE_CLOSE "
" static String get_first_double_line(String source){ String line = {0}; int32_t pos0 = find_substr_s(source, 0, make_lit_string("\n\n")); int32_t pos1 = find_substr_s(source, 0, make_lit_string("\r\n\r\n")); if (pos1 < pos0){ pos0 = pos1; } line = substr(source, 0, pos0); return(line); } static String get_next_double_line(String source, String line){ String next = {0}; int32_t pos = (int32_t)(line.str - source.str) + line.size; int32_t start = 0, pos0 = 0, pos1 = 0; if (pos < source.size){ assert(source.str[pos] == '\n' || source.str[pos] == '\r'); start = pos + 1; if (start < source.size){ pos0 = find_substr_s(source, start, make_lit_string("\n\n")); pos1 = find_substr_s(source, start, make_lit_string("\r\n\r\n")); if (pos1 < pos0){ pos0 = pos1; } next = substr(source, start, pos0 - start); } } return(next); } static String get_next_word(String source, String prev_word){ String word = {0}; int32_t pos0 = (int32_t)(prev_word.str - source.str) + prev_word.size; int32_t pos1 = 0; char c = 0; for (; pos0 < source.size; ++pos0){ c = source.str[pos0]; if (!(char_is_whitespace(c) || c == '(' || c == ')')){ break; } } if (pos0 < source.size){ for (pos1 = pos0; pos1 < source.size; ++pos1){ c = source.str[pos1]; if (char_is_whitespace(c) || c == '(' || c == ')'){ break; } } word = substr(source, pos0, pos1 - pos0); } return(word); } static String get_first_word(String source){ String start_str = make_string(source.str, 0); String word = get_next_word(source, start_str); return(word); } enum Doc_Chunk_Type{ DocChunk_PlainText, DocChunk_CodeExample, DocChunk_Count }; static String doc_chunk_headers[] = { make_lit_string(""), make_lit_string("CODE_EXAMPLE"), }; static String get_next_doc_chunk(String source, String prev_chunk, Doc_Chunk_Type *type){ String chunk = {0}; String word = {0}; int32_t pos = source.size; int32_t word_index = 0; Doc_Chunk_Type t = DocChunk_PlainText; int32_t start_pos = (int32_t)(prev_chunk.str - source.str) + prev_chunk.size; String source_tail = substr_tail(source, start_pos); Assert(DocChunk_Count == ArrayCount(doc_chunk_headers)); for (word = get_first_word(source_tail); word.str; word = get_next_word(source_tail, word), ++word_index){ for (int32_t i = 1; i < DocChunk_Count; ++i){ if (match_ss(word, doc_chunk_headers[i])){ pos = (int32_t)(word.str - source.str); t = (Doc_Chunk_Type)i; goto doublebreak; } } } doublebreak:; *type = DocChunk_PlainText; if (word_index == 0){ *type = t; int32_t nest_level = 1; int32_t i = find_s_char(source, pos, '('); for (++i; i < source.size; ++i){ if (source.str[i] == '('){ ++nest_level; } else if (source.str[i] == ')'){ --nest_level; if (nest_level == 0){ break; } } } pos = i+1; } chunk = substr(source, start_pos, pos - start_pos); int32_t is_all_white = 1; for (int32_t i = 0; i < chunk.size; ++i){ if (!char_is_whitespace(chunk.str[i])){ is_all_white = 0; break; } } if (is_all_white){ chunk = null_string; } return(chunk); } static String get_first_doc_chunk(String source, Doc_Chunk_Type *type){ String start_str = make_string(source.str, 0); String chunk = get_next_doc_chunk(source, start_str, type); return(chunk); } static void print_doc_description(String *out, Partition *part, String src){ Doc_Chunk_Type type; for (String chunk = get_first_doc_chunk(src, &type); chunk.str; chunk = get_next_doc_chunk(src, chunk, &type)){ switch (type){ case DocChunk_PlainText: { for (String line = get_first_double_line(chunk); line.str; line = get_next_double_line(chunk, line)){ append_ss(out, line); append_sc(out, "

"); } }break; case DocChunk_CodeExample: { int32_t start = 0; int32_t end = chunk.size-1; while (start < end && chunk.str[start] != '(') ++start; start += 1; while (end > start && chunk.str[end] != ')') --end; append_sc(out, EXAMPLE_CODE_OPEN); if (start < end){ String code_example = substr(chunk, start, end - start); int32_t first_line = 1; for (String line = get_first_line(code_example); line.str; line = get_next_line(code_example, line)){ if (!(first_line && line.size == 0)){ int32_t space_i = 0; for (; space_i < line.size; ++space_i){ if (line.str[space_i] == ' '){ append_sc(out, " "); } else{ break; } } String line_tail = substr_tail(line, space_i); append_ss(out, line_tail); append_sc(out, "
"); } first_line = 0; } } append_sc(out, EXAMPLE_CODE_CLOSE); }break; } } } static void print_struct_docs(String *out, Partition *part, Item_Node *member){ for (Item_Node *member_iter = member->first_child; member_iter != 0; member_iter = member_iter->next_sibling){ String type = member_iter->type; if (match_ss(type, make_lit_string("struct")) || match_ss(type, make_lit_string("union"))){ print_struct_docs(out, part, member_iter); } else{ Documentation doc = {0}; perform_doc_parse(part, member_iter->doc_string, &doc); append_sc(out, "
"); append_sc(out, "
"DOC_ITEM_HEAD_INL_OPEN); append_ss(out, member_iter->name); append_sc(out, DOC_ITEM_HEAD_INL_CLOSE"
"); append_sc(out, "
"DOC_ITEM_OPEN); print_doc_description(out, part, doc.main_doc); append_sc(out, DOC_ITEM_CLOSE"
"); append_sc(out, "
"); } } } static void print_see_also(String *out, Documentation *doc){ int32_t doc_see_count = doc->see_also_count; if (doc_see_count > 0){ append_sc(out, DOC_HEAD_OPEN"See Also"DOC_HEAD_CLOSE); for (int32_t j = 0; j < doc_see_count; ++j){ String see_also = doc->see_also[j]; append_sc(out, DOC_ITEM_OPEN""); append_ss(out, see_also); append_sc(out, ""DOC_ITEM_CLOSE); } } } static void print_function_body_code(String *out, Parse_Context *context, int32_t start){ String pstr = {0}, lexeme = {0}; Cpp_Token *token = 0; int32_t do_print = 0; int32_t nest_level = 0; int32_t finish = false; int32_t do_whitespace_print = false; for (; (token = get_token(context)) != 0; get_next_token(context)){ if (do_whitespace_print){ pstr = str_start_end(context->data, start, token->start); append_ss(out, pstr); } else{ do_whitespace_print = true; } do_print = true; if (token->type == CPP_TOKEN_COMMENT){ lexeme = get_lexeme(*token, context->data); if (check_and_fix_docs(&lexeme)){ do_print = false; } } else if (token->type == CPP_TOKEN_BRACE_OPEN){ ++nest_level; } else if (token->type == CPP_TOKEN_BRACE_CLOSE){ --nest_level; if (nest_level == 0){ finish = true; } } if (do_print){ pstr = get_lexeme(*token, context->data); append_ss(out, pstr); } start = token->start + token->size; if (finish){ break; } } } static void print_function_docs(String *out, Partition *part, String name, String doc_string){ if (doc_string.size == 0){ append_sc(out, "No documentation generated for this function."); fprintf(stderr, "warning: no documentation string for %.*s\n", name.size, name.str); } Temp_Memory temp = begin_temp_memory(part); Documentation doc = {0}; perform_doc_parse(part, doc_string, &doc); int32_t doc_param_count = doc.param_count; if (doc_param_count > 0){ append_sc(out, DOC_HEAD_OPEN"Parameters"DOC_HEAD_CLOSE); for (int32_t j = 0; j < doc_param_count; ++j){ String param_name = doc.param_name[j]; String param_docs = doc.param_docs[j]; // TODO(allen): check that param_name is actually // a parameter to this function! append_sc(out, "
"DOC_ITEM_HEAD_OPEN); append_ss(out, param_name); append_sc(out, DOC_ITEM_HEAD_CLOSE"
"DOC_ITEM_OPEN); append_ss(out, param_docs); append_sc(out, DOC_ITEM_CLOSE"
"); } } String ret_doc = doc.return_doc; if (ret_doc.size != 0){ append_sc(out, DOC_HEAD_OPEN"Return"DOC_HEAD_CLOSE DOC_ITEM_OPEN); append_ss(out, ret_doc); append_sc(out, DOC_ITEM_CLOSE); } String main_doc = doc.main_doc; if (main_doc.size != 0){ append_sc(out, DOC_HEAD_OPEN"Description"DOC_HEAD_CLOSE DOC_ITEM_OPEN); print_doc_description(out, part, main_doc); append_sc(out, DOC_ITEM_CLOSE); } print_see_also(out, &doc); end_temp_memory(temp); } static void print_item_in_list(String *out, String name, char *id_postfix){ append_sc(out, "
  • "); append_ss(out, name); append_sc(out, "
    • "); } static void print_item(String *out, Partition *part, Used_Links *used, Item_Node *item, char *id_postfix, char *function_prefix, char *section, int32_t I){ Temp_Memory temp = begin_temp_memory(part); String name = item->name; /* NOTE(allen): Open a div for the whole item. Put a heading in it with the name and section. Open a "descriptive" box for the display of the code interface. */ append_sc(out, "
    "); int32_t has_cpp_name = 0; if (item->cpp_name.str != 0){ if (try_to_use(used, item->cpp_name)){ append_sc(out, "
    "); has_cpp_name = 1; } } append_sc (out, "

    §"); append_sc (out, section); append_s_char (out, '.'); append_int_to_str (out, I); append_sc (out, ": "); append_ss (out, name); append_sc (out, "

    "); append_sc(out, "
    "); switch (item->t){ case Item_Function: { // NOTE(allen): Code box Assert(function_prefix != 0); print_function_html(out, used, item->cpp_name, item->ret, function_prefix, item->name, item->breakdown); // NOTE(allen): Close the code box append_sc(out, "
    "); // NOTE(allen): Descriptive section print_function_docs(out, part, item->name, item->doc_string); }break; case Item_Macro: { // NOTE(allen): Code box print_macro_html(out, item->name, item->breakdown); // NOTE(allen): Close the code box append_sc(out, "
    "); // NOTE(allen): Descriptive section print_function_docs(out, part, item->name, item->doc_string); }break; case Item_Typedef: { String type = item->type; // NOTE(allen): Code box append_sc (out, "typedef "); append_ss (out, type); append_s_char (out, ' '); append_ss (out, name); append_s_char (out, ';'); // NOTE(allen): Close the code box append_sc(out, "
    "); // NOTE(allen): Descriptive section String doc_string = item->doc_string; Documentation doc = {0}; perform_doc_parse(part, doc_string, &doc); String main_doc = doc.main_doc; if (main_doc.size != 0){ append_sc(out, DOC_HEAD_OPEN"Description"DOC_HEAD_CLOSE); append_sc(out, DOC_ITEM_OPEN); print_doc_description(out, part, main_doc); append_sc(out, DOC_ITEM_CLOSE); } else{ fprintf(stderr, "warning: no documentation string for %.*s\n", name.size, name.str); } print_see_also(out, &doc); }break; case Item_Enum: { // NOTE(allen): Code box append_sc (out, "enum "); append_ss (out, name); append_s_char (out, ';'); // NOTE(allen): Close the code box append_sc(out, ""); // NOTE(allen): Descriptive section String doc_string = item->doc_string; Documentation doc = {0}; perform_doc_parse(part, doc_string, &doc); String main_doc = doc.main_doc; if (main_doc.size != 0){ append_sc(out, DOC_HEAD_OPEN"Description"DOC_HEAD_CLOSE); append_sc(out, DOC_ITEM_OPEN); print_doc_description(out, part, main_doc); append_sc(out, DOC_ITEM_CLOSE); } else{ fprintf(stderr, "warning: no documentation string for %.*s\n", name.size, name.str); } if (item->first_child){ append_sc(out, DOC_HEAD_OPEN"Values"DOC_HEAD_CLOSE); for (Item_Node *member = item->first_child; member; member = member->next_sibling){ Documentation doc = {0}; perform_doc_parse(part, member->doc_string, &doc); append_sc(out, "
    "); // NOTE(allen): Dafuq is this all? append_sc(out, "
    "DOC_ITEM_HEAD_INL_OPEN); append_ss(out, member->name); append_sc(out, DOC_ITEM_HEAD_INL_CLOSE); if (member->value.str){ append_sc(out, " = "); append_ss(out, member->value); } append_sc(out, "
    "); append_sc(out, "
    "DOC_ITEM_OPEN); print_doc_description(out, part, doc.main_doc); append_sc(out, DOC_ITEM_CLOSE"
    "); append_sc(out, "
    "); } } print_see_also(out, &doc); }break; case Item_Struct: case Item_Union: { String doc_string = item->doc_string; int32_t hide_members = 0; if (doc_string.size == 0){ hide_members = 1; } else{ for (String word = get_first_word(doc_string); word.str; word = get_next_word(doc_string, word)){ if (match_ss(word, make_lit_string("HIDE_MEMBERS"))){ hide_members = 1; break; } } } // NOTE(allen): Code box print_struct_html(out, item, hide_members); // NOTE(allen): Close the code box append_sc(out, ""); // NOTE(allen): Descriptive section { Documentation doc = {0}; perform_doc_parse(part, doc_string, &doc); String main_doc = doc.main_doc; if (main_doc.size != 0){ append_sc(out, DOC_HEAD_OPEN"Description"DOC_HEAD_CLOSE); append_sc(out, DOC_ITEM_OPEN); print_doc_description(out, part, main_doc); append_sc(out, DOC_ITEM_CLOSE); } else{ fprintf(stderr, "warning: no documentation string for %.*s\n", name.size, name.str); } if (!hide_members){ if (item->first_child){ append_sc(out, DOC_HEAD_OPEN"Fields"DOC_HEAD_CLOSE); print_struct_docs(out, part, item); } } print_see_also(out, &doc); } }break; } if (has_cpp_name){ append_sc(out, ""); } // NOTE(allen): Close the item box append_sc(out, "
    "); end_temp_memory(temp); } typedef struct App_API_Name{ String macro; String public_name; } App_API_Name; typedef struct App_API{ App_API_Name *names; } App_API; static App_API allocate_app_api(Partition *part, int32_t count){ App_API app_api = {0}; app_api.names = push_array(part, App_API_Name, count); memset(app_api.names, 0, sizeof(App_API_Name)*count); return(app_api); } static void generate_custom_headers(){ #define API_H "4coder_custom_api.h" #define OS_API_H "4ed_os_custom_api.h" #define API_DOC "4coder_API.html" #define STRING_H "4coder_string.h" int32_t size = (512 << 20); void *mem = malloc(size); memset(mem, 0, size); Partition part_ = make_part(mem, size); Partition *part = &part_; // NOTE(allen): Parse the internal string file. static char *string_files[] = { "internal_4coder_string.cpp" }; static Meta_Keywords string_keys[] = { {make_lit_string("FSTRING_INLINE") , Item_Function } , {make_lit_string("FSTRING_LINK") , Item_Function } , {make_lit_string("DOC_EXPORT") , Item_Macro } , {make_lit_string("CPP_NAME") , Item_CppName } , }; Meta_Unit string_unit = compile_meta_unit(part, string_files, ArrayCount(string_files), string_keys, ArrayCount(string_keys)); // NOTE(allen): Parse the lexer library static char *lexer_types_files[] = { "4cpp_lexer_types.h", }; static Meta_Keywords lexer_types_keys[] = { {make_lit_string("typedef") , Item_Typedef } , {make_lit_string("struct") , Item_Struct } , {make_lit_string("union") , Item_Union } , {make_lit_string("ENUM") , Item_Enum } , }; Meta_Unit lexer_types_unit = compile_meta_unit(part, lexer_types_files, ArrayCount(lexer_types_files), lexer_types_keys, ArrayCount(lexer_types_keys)); static char *lexer_funcs_files[] = { "4cpp_lexer.h", }; static Meta_Keywords lexer_funcs_keys[] = { {make_lit_string("FCPP_LINK") , Item_Function } , }; Meta_Unit lexer_funcs_unit = compile_meta_unit(part, lexer_funcs_files, ArrayCount(lexer_funcs_files), lexer_funcs_keys, ArrayCount(lexer_funcs_keys)); // NOTE(allen): Parse the customization API files static char *functions_files[] = { "4ed_api_implementation.cpp", "win32_api_impl.cpp", }; static Meta_Keywords functions_keys[] = { {make_lit_string("API_EXPORT"), Item_Function}, }; Meta_Unit unit_custom = compile_meta_unit(part, functions_files, ArrayCount(functions_files), functions_keys, ArrayCount(functions_keys)); // NOTE(allen): Compute and store variations of the function names App_API func_4ed_names = allocate_app_api(part, unit_custom.set.count); for (int32_t i = 0; i < unit_custom.set.count; ++i){ String name_string = unit_custom.set.items[i].name; String *macro = &func_4ed_names.names[i].macro; String *public_name = &func_4ed_names.names[i].public_name; *macro = str_alloc(part, name_string.size+4); to_upper_ss(macro, name_string); append_ss(macro, make_lit_string("_SIG")); *public_name = str_alloc(part, name_string.size); to_lower_ss(public_name, name_string); partition_align(part, 4); } // NOTE(allen): Parse the customization API types static char *type_files[] = { "4coder_types.h", }; static Meta_Keywords type_keys[] = { {make_lit_string("typedef") , Item_Typedef } , {make_lit_string("struct") , Item_Struct } , {make_lit_string("union") , Item_Union } , {make_lit_string("ENUM") , Item_Enum } , }; Meta_Unit unit = compile_meta_unit(part, type_files, ArrayCount(type_files), type_keys, ArrayCount(type_keys)); // NOTE(allen): Output String out = str_alloc(part, 10 << 20); Out_Context context = {0}; // NOTE(allen): Custom API headers if (begin_file_out(&context, OS_API_H, &out)){ int32_t main_api_count = unit_custom.parse[0].item_count; int32_t os_api_count = unit_custom.parse[1].item_count; for (int32_t i = main_api_count; i < os_api_count; ++i){ append_sc(&out, "#define "); append_ss(&out, func_4ed_names.names[i].macro); append_sc(&out, "(n) "); append_ss(&out, unit_custom.set.items[i].ret); append_sc(&out, " n"); append_ss(&out, unit_custom.set.items[i].args); append_s_char(&out, '\n'); } for (int32_t i = main_api_count; i < os_api_count; ++i){ append_sc(&out, "typedef "); append_ss(&out, func_4ed_names.names[i].macro); append_s_char(&out, '('); append_ss(&out, unit_custom.set.items[i].name); append_sc(&out, "_Function);\n"); } end_file_out(context); } else{ // TODO(allen): warning } if (begin_file_out(&context, API_H, &out)){ for (int32_t i = 0; i < unit_custom.set.count; ++i){ append_sc(&out, "#define "); append_ss(&out, func_4ed_names.names[i].macro); append_sc(&out, "(n) "); append_ss(&out, unit_custom.set.items[i].ret); append_sc(&out, " n"); append_ss(&out, unit_custom.set.items[i].args); append_s_char(&out, '\n'); } for (int32_t i = 0; i < unit_custom.set.count; ++i){ append_sc(&out, "typedef "); append_ss(&out, func_4ed_names.names[i].macro); append_s_char(&out, '('); append_ss(&out, unit_custom.set.items[i].name); append_sc(&out, "_Function);\n"); } append_sc(&out, "struct Application_Links{\n"); append_sc(&out, "#if defined(ALLOW_DEP_4CODER)\n"); for (int32_t i = 0; i < unit_custom.set.count; ++i){ append_ss(&out, unit_custom.set.items[i].name); append_sc(&out, "_Function *"); append_ss(&out, func_4ed_names.names[i].public_name); append_sc(&out, ";\n"); } append_sc(&out, "#else\n"); for (int32_t i = 0; i < unit_custom.set.count; ++i){ append_ss(&out, unit_custom.set.items[i].name); append_sc(&out, "_Function *"); append_ss(&out, func_4ed_names.names[i].public_name); append_sc(&out, "_;\n"); } append_sc(&out, "#endif\n"); append_sc(&out, "void *memory;\n" "int32_t memory_size;\n" "void *cmd_context;\n" "void *system_links;\n" "void *current_coroutine;\n" "int32_t type_coroutine;\n" "};\n"); append_sc(&out, "#define FillAppLinksAPI(app_links) do{"); for (int32_t i = 0; i < unit_custom.set.count; ++i){ append_sc(&out, "\\\napp_links->"); append_ss(&out, func_4ed_names.names[i].public_name); append_sc(&out, "_ = "); append_ss(&out, unit_custom.set.items[i].name); append_s_char(&out, ';'); } append_sc(&out, "} while(false)\n"); append_sc(&out, "#if defined(ALLOW_DEP_4CODER)\n"); for (int32_t use_dep = 1; use_dep >= 0; --use_dep){ for (int32_t i = 0; i < unit_custom.set.count; ++i){ Argument_Breakdown breakdown = unit_custom.set.items[i].breakdown; String ret = unit_custom.set.items[i].ret; String public_name = func_4ed_names.names[i].public_name; append_sc(&out, "static inline "); append_ss(&out, ret); append_sc(&out, " "); append_ss(&out, public_name); append_sc(&out, "("); for (int32_t j = 0; j < breakdown.count; ++j){ append_ss(&out, breakdown.args[j].param_string); if (j+1 != breakdown.count){ append_sc(&out, ", "); } } append_sc(&out, "){"); if (match_ss(ret, make_lit_string("void"))){ append_sc(&out, "("); } else{ append_sc(&out, "return("); } append_sc(&out, "app->"); append_ss(&out, public_name); if (!use_dep){ append_sc(&out, "_"); } append_sc(&out, "("); for (int32_t j = 0; j < breakdown.count; ++j){ append_ss(&out, breakdown.args[j].param_name); if (j+1 != breakdown.count){ append_sc(&out, ", "); } } append_sc(&out, ")"); append_sc(&out, ");}\n"); } if (use_dep == 1){ append_sc(&out, "#else\n"); } } append_sc(&out, "#endif\n"); end_file_out(context); } else{ // TODO(allen): warning } // NOTE(allen): String Library if (begin_file_out(&context, STRING_H, &out)){ Cpp_Token *token = 0; int32_t start = 0; Parse parse = string_unit.parse[0]; Parse_Context pcontext = setup_parse_context(parse); for (; (token = get_token(&pcontext)) != 0; get_next_token(&pcontext)){ if (!(token->flags & CPP_TFLAG_PP_BODY) && token->type == CPP_TOKEN_IDENTIFIER){ String lexeme = get_lexeme(*token, pcontext.data); if (match_ss(lexeme, make_lit_string("FSTRING_BEGIN"))){ start = token->start + token->size; break; } } } String pstr = {0}; int32_t do_whitespace_print = true; for(;(token = get_next_token(&pcontext)) != 0;){ if (do_whitespace_print){ pstr = str_start_end(pcontext.data, start, token->start); append_ss(&out, pstr); } else{ do_whitespace_print = true; } String lexeme = get_lexeme(*token, pcontext.data); int32_t do_print = true; if (match_ss(lexeme, make_lit_string("FSTRING_DECLS"))){ append_sc(&out, "#if !defined(FCODER_STRING_H)\n#define FCODER_STRING_H\n\n"); do_print = false; static int32_t RETURN_PADDING = 16; static int32_t SIG_PADDING = 27; for (int32_t j = 0; j < string_unit.set.count; ++j){ char line_[2048]; String line = make_fixed_width_string(line_); Item_Node *item = string_unit.set.items + j; if (item->t == Item_Function){ append_ss (&line, item->marker); append_padding (&line, ' ', RETURN_PADDING); append_ss (&line, item->ret); append_padding (&line, ' ', SIG_PADDING); append_ss (&line, item->name); append_ss (&line, item->args); append_sc (&line, ";\n"); } else if (item->t == Item_Macro){ append_ss (&line, make_lit_string("#ifndef ")); append_padding (&line, ' ', 10); append_ss (&line, item->name); append_s_char (&line, '\n'); append_ss (&line, make_lit_string("# define ")); append_padding (&line, ' ', 10); append_ss (&line, item->name); append_ss (&line, item->args); append_s_char (&line, ' '); append_ss (&line, item->body); append_s_char (&line, '\n'); append_ss (&line, make_lit_string("#endif")); append_s_char (&line, '\n'); } else{ InvalidPath; } append_ss(&out, line); } append_sc(&out, "\n#endif\n"); // NOTE(allen): C++ overload definitions append_sc(&out, "\n#if !defined(FSTRING_C) && !defined(FSTRING_GUARD)\n\n"); for (int32_t j = 0; j < string_unit.set.count; ++j){ char line_space[2048]; String line = make_fixed_width_string(line_space); Item_Node *item = &string_unit.set.items[j]; if (item->t == Item_Function){ String cpp_name = item->cpp_name; if (cpp_name.str != 0){ Argument_Breakdown breakdown = item->breakdown; append_ss (&line, make_lit_string("FSTRING_INLINE")); append_padding(&line, ' ', RETURN_PADDING); append_ss (&line, item->ret); append_padding(&line, ' ', SIG_PADDING); append_ss (&line, cpp_name); append_ss (&line, item->args); if (match_ss(item->ret, make_lit_string("void"))){ append_ss(&line, make_lit_string("{("));//} } else{ append_ss(&line, make_lit_string("{return("));//} } append_ss (&line, item->name); append_s_char(&line, '('); if (breakdown.count > 0){ for (int32_t i = 0; i < breakdown.count; ++i){ if (i != 0){ append_s_char(&line, ','); } append_ss(&line, breakdown.args[i].param_name); } } else{ append_ss(&line, make_lit_string("void")); } //{ append_ss(&line, make_lit_string("));}\n")); append_ss(&out, line); } } } append_sc(&out, "\n#endif\n"); } else if (match_ss(lexeme, make_lit_string("DOC_EXPORT"))){ token = get_next_token(&pcontext); if (token && token->type == CPP_TOKEN_COMMENT){ token = get_next_token(&pcontext); if (token && token->type == CPP_PP_DEFINE){ for (;(token = get_next_token(&pcontext)) != 0;){ if (!(token->flags & CPP_TFLAG_PP_BODY)){ break; } } if (token != 0){ get_prev_token(&pcontext); } do_print = false; do_whitespace_print = false; } } } else if (match_ss(lexeme, make_lit_string("FSTRING_INLINE")) || match_ss(lexeme, make_lit_string("FSTRING_LINK"))){ if (!(token->flags & CPP_TFLAG_PP_BODY)){ if (match_ss(lexeme, make_lit_string("FSTRING_INLINE"))){ append_sc(&out, "#if !defined(FSTRING_GUARD)\n"); } else{ append_sc(&out, "#if defined(FSTRING_IMPLEMENTATION)\n"); } print_function_body_code(&out, &pcontext, start); append_sc(&out, "\n#endif"); do_print = false; } } else if (match_ss(lexeme, make_lit_string("CPP_NAME"))){ Cpp_Token *token_start = token; int32_t has_cpp_name = false; token = get_next_token(&pcontext); if (token && token->type == CPP_TOKEN_PARENTHESE_OPEN){ token = get_next_token(&pcontext); if (token && token->type == CPP_TOKEN_IDENTIFIER){ token = get_next_token(&pcontext); if (token && token->type == CPP_TOKEN_PARENTHESE_CLOSE){ has_cpp_name = true; do_print = false; } } } if (!has_cpp_name){ token = set_token(&pcontext, token_start); } } else if (token->type == CPP_TOKEN_COMMENT){ if (check_and_fix_docs(&lexeme)){ do_print = false; } } if ((token = get_token(&pcontext)) != 0){ if (do_print){ pstr = get_lexeme(*token, pcontext.data); append_ss(&out, pstr); } start = token->start + token->size; } } pstr = str_start_end(pcontext.data, start, parse.code.size); append_ss(&out, pstr); end_file_out(context); } else{ // TODO(allen): warning } // Output Docs if (begin_file_out(&context, API_DOC, &out)){ Used_Links used_links = {0}; init_used_links(part, &used_links, 4000); append_sc(&out, "" "" "4coder API Docs" "" "\n" "" "
    " // "

    4cpp Lexing Library

    "); "

    4coder API

    "); struct Section{ char *id_string; char *display_string; }; static int32_t msection = -1; static Section sections[] = { {"introduction", "Introduction"}, {"4coder_systems", "4coder Systems"}, {"types_and_functions", "Types and Functions"}, {"string_library", "String Library"}, {"lexer_library", "Lexer Library"} }; append_sc(&out, "

    Table of Contents

    """); #define MAJOR_SECTION "1" msection = 0; append_sc(&out, "\n

    §"MAJOR_SECTION" "); append_sc(&out, sections[msection].display_string); append_sc(&out, "

    "); #if 0 // NOTE(allen): doc intro for lexer standalone append_sc(&out, "
    " "

    This is the documentation for the 4cpp lexer version 1.0. " "The documentation is the newest piece of this lexer project " "so it may still have problems. What is here should be correct " "and mostly complete.

    " "

    If you have questions or discover errors please contact " "editor@4coder.net or " "to get help from community members you can post on the " "4coder forums hosted on handmade.network at " "4coder.handmade.network

    " "
    "); #endif append_sc(&out, "
    " "

    This is the documentation for " VERSION " The documentation is still " "under construction so some of the links are linking to sections that " "have not been written yet. What is here should be correct and I suspect " "useful even without some of the other sections.

    " "

    If you have questions or discover errors please contact " "editor@4coder.net or " "to get help from community members you can post on the " "4coder forums hosted on handmade.network at " "4coder.handmade.network

    " "
    "); #undef MAJOR_SECTION #define MAJOR_SECTION "2" msection = 1; // TODO(allen): Write the 4coder system descriptions. append_sc(&out, "\n

    §"MAJOR_SECTION" "); append_sc(&out, sections[msection].display_string); append_sc(&out, "

    "); append_sc(&out, "
    Coming Soon
    "); #undef MAJOR_SECTION #define MAJOR_SECTION "3" msection = 2; append_sc(&out, "\n

    §"MAJOR_SECTION" "); append_sc(&out, sections[msection].display_string); append_sc(&out, "

    "); #undef SECTION #define SECTION MAJOR_SECTION".1" append_sc(&out, "

    §"SECTION" Function List

      "); for (int32_t i = 0; i < unit_custom.set.count; ++i){ print_item_in_list(&out, func_4ed_names.names[i].public_name, "_doc"); } append_sc(&out, "
    "); #undef SECTION #define SECTION MAJOR_SECTION".2" append_sc(&out, "

    §"SECTION" Type List

      "); for (int32_t i = 0; i < unit.set.count; ++i){ print_item_in_list(&out, unit.set.items[i].name, "_doc"); } append_sc(&out, "
    "); #undef SECTION #define SECTION MAJOR_SECTION".3" append_sc(&out, "

    §"SECTION" Function Descriptions

    "); for (int32_t i = 0; i < unit_custom.set.count; ++i){ Item_Node *item = &unit_custom.set.items[i]; String name = func_4ed_names.names[i].public_name; append_sc (&out, "

    §"SECTION"."); append_int_to_str(&out, i+1); append_sc (&out, ": "); append_ss (&out, name); append_sc (&out, "

    "); print_function_html(&out, &used_links, item->cpp_name, item->ret, "", name, item->breakdown); append_sc(&out, "
    "); print_function_docs(&out, part, name, item->doc_string); append_sc(&out, "
    "); } #undef SECTION #define SECTION MAJOR_SECTION".4" append_sc(&out, "

    §"SECTION" Type Descriptions

    "); int32_t I = 1; for (int32_t i = 0; i < unit.set.count; ++i, ++I){ print_item(&out, part, &used_links, unit.set.items + i, "_doc", 0, SECTION, I); } #undef MAJOR_SECTION #define MAJOR_SECTION "4" msection = 3; append_sc(&out, "\n

    §"MAJOR_SECTION" "); append_sc(&out, sections[msection].display_string); append_sc(&out, "

    "); #undef SECTION #define SECTION MAJOR_SECTION".1" append_sc(&out, "

    §"SECTION" String Intro

    "); append_sc(&out, "
    Coming Soon
    "); #undef SECTION #define SECTION MAJOR_SECTION".2" append_sc(&out, "

    §"SECTION" String Function List

    "); append_sc(&out, "
      "); for (int32_t i = 0; i < string_unit.set.count; ++i){ print_item_in_list(&out, string_unit.set.items[i].name, "_doc"); } append_sc(&out, "
    "); #undef SECTION #define SECTION MAJOR_SECTION".3" append_sc(&out, "

    §"SECTION" String Function Descriptions

    "); for (int32_t i = 0; i < string_unit.set.count; ++i){ print_item(&out, part, &used_links, string_unit.set.items+i, "_doc", "", SECTION, i+1); } #undef MAJOR_SECTION #define MAJOR_SECTION "5" msection = 4; append_sc(&out, "\n

    §"MAJOR_SECTION" "); append_sc(&out, sections[msection].display_string); append_sc(&out, "

    "); #undef SECTION #define SECTION MAJOR_SECTION".1" append_sc(&out, "

    §"SECTION" Lexer Intro

    "); append_sc(&out, "
    " "The 4cpp lexer system provides a polished, fast, flexible system that " "takes in C/C++ and outputs a tokenization of the text data. There are " "two API levels. One level is setup to let you easily get a tokenization " "of the file. This level manages memory for you with malloc to make it " "as fast as possible to start getting your tokens. The second level " "enables deep integration by allowing control over allocation, data " "chunking, and output rate control.

    " "To use the quick setup API you simply include 4cpp_lexer.h and read the " "documentation at cpp_lex_file.

    " "To use the the fancier API include 4cpp_lexer.h and read the " "documentation at cpp_lex_step. " "If you want to be absolutely sure you are not including malloc into " "your program you can define FCPP_FORBID_MALLOC before the include and " "the \"step\" API will continue to work.

    " "There are a few more features in 4cpp that are not documented yet. " "You are free to try to use these, but I am not totally sure they are " "ready yet, and when they are they will be documented." "
    "); #undef SECTION #define SECTION MAJOR_SECTION".2" append_sc(&out, "

    §"SECTION" Lexer Function List

    "); append_sc(&out, "
      "); for (int32_t i = 0; i < lexer_funcs_unit.set.count; ++i){ print_item_in_list(&out, lexer_funcs_unit.set.items[i].name, "_doc"); } append_sc(&out, "
    "); #undef SECTION #define SECTION MAJOR_SECTION".3" append_sc(&out, "

    §"SECTION" Lexer Types List

    "); append_sc(&out, "
      "); for (int32_t i = 0; i < lexer_types_unit.set.count; ++i){ print_item_in_list(&out, lexer_types_unit.set.items[i].name, "_doc"); } append_sc(&out, "
    "); #undef SECTION #define SECTION MAJOR_SECTION".4" append_sc(&out, "

    §"SECTION" Lexer Function Descriptions

    "); for (int32_t i = 0; i < lexer_funcs_unit.set.count; ++i){ print_item(&out, part, &used_links, lexer_funcs_unit.set.items+i, "_doc", "", SECTION, i+1); } #undef SECTION #define SECTION MAJOR_SECTION".5" append_sc(&out, "

    §"SECTION" Lexer Type Descriptions

    "); for (int32_t i = 0; i < lexer_types_unit.set.count; ++i){ print_item(&out, part, &used_links, lexer_types_unit.set.items+i, "_doc", "", SECTION, i+1); } append_sc(&out, "
    "); end_file_out(context); } else{ // TODO(allen): warning } } int main(int argc, char **argv){ generate_keycode_enum(); generate_style(); generate_custom_headers(); } // BOTTOM