/* * 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" #include "meta_parser.cpp" #include "out_context.cpp" #include "abstract_document.cpp" #define InvalidPath Assert(!"Invalid path of execution") /////////////////////////////////////////////////////////////////////////// // // Meta Parse Rules // #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 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 = 0; int32_t do_whitespace_print = 0; 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 = 1; } do_print = 1; if (token->type == CPP_TOKEN_COMMENT){ lexeme = get_lexeme(*token, context->data); if (check_and_fix_docs(&lexeme)){ do_print = 0; } } 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 = 1; } } if (do_print){ pstr = get_lexeme(*token, context->data); append_ss(out, pstr); } start = token->start + token->size; if (finish){ break; } } } static Alternate_Names_Array allocate_app_api(Partition *part, int32_t count){ Alternate_Names_Array app_api = {0}; app_api.names = push_array(part, Alternate_Name, count); memset(app_api.names, 0, sizeof(Alternate_Name)*count); return(app_api); } static void assert_files_are_equal(char *directory, char *filename1, char *filename2){ char space[256]; String name = make_fixed_width_string(space); append_sc(&name, directory); append_sc(&name, "/"); append_sc(&name, filename1); terminate_with_null(&name); String file1 = file_dump(name.str); name.size = 0; append_sc(&name, directory); append_sc(&name, "/"); append_sc(&name, filename2); terminate_with_null(&name); String file2 = file_dump(name.str); if (!match_ss(file1, file2)){ fprintf(stderr, "Failed transitional test: %s != %s\n", filename1, filename2); } else{ fprintf(stderr, "Passed transitional test: %s == %s\n", filename1, filename2); } } static void do_html_output(Document_System *doc_system, Partition *part, char *dst_directory, Abstract_Document *doc){ // NOTE(allen): Output Temp_Memory temp = begin_temp_memory(part); String out = str_alloc(part, 10 << 20); Out_Context context = {0}; set_context_directory(&context, dst_directory); // Output Docs char space[256]; if (doc_get_link_string(doc, space, sizeof(space))){ if (begin_file_out(&context, space, &out)){ generate_document_html(&out, part, doc_system, doc); end_file_out(context); } else{ fprintf(stderr, "Failed to open %s", space); } } end_temp_memory(temp); } static Abstract_Document* generate_homepage(Document_System *doc_system, Partition *part, char *src_directory){ Enriched_Text *home = push_struct(part, Enriched_Text); *home = load_enriched_text(part, src_directory, "home.txt"); Abstract_Document *doc = begin_document_description(doc_system, "4coder Home", "home"); add_enriched_text(doc, home); end_document_description(doc); return(doc); } static Abstract_Document* generate_4coder_docs(Document_System *doc_system, Partition *part, char *code_directory, char *src_directory){ static Meta_Keywords meta_keywords[] = { {make_lit_string("API_EXPORT") , Item_Function } , {make_lit_string("API_EXPORT_INLINE") , Item_Function } , {make_lit_string("API_EXPORT_MACRO") , Item_Macro } , {make_lit_string("CPP_NAME") , Item_CppName } , {make_lit_string("TYPEDEF") , Item_Typedef } , {make_lit_string("STRUCT") , Item_Struct } , {make_lit_string("UNION") , Item_Union } , {make_lit_string("ENUM") , Item_Enum } , }; #define ExpandArray(a) (a), (ArrayCount(a)) Meta_Unit *custom_types_unit = push_struct(part, Meta_Unit); Meta_Unit *lexer_funcs_unit = push_struct(part, Meta_Unit); Meta_Unit *lexer_types_unit = push_struct(part, Meta_Unit); Meta_Unit *string_unit = push_struct(part, Meta_Unit); Meta_Unit *custom_funcs_unit = push_struct(part, Meta_Unit); Alternate_Names_Array *custom_func_names = push_struct(part, Alternate_Names_Array); Enriched_Text *introduction = push_struct(part, Enriched_Text); Enriched_Text *lexer_introduction = push_struct(part, Enriched_Text); // NOTE(allen): Parse the important code. *custom_types_unit = compile_meta_unit(part, code_directory, "4coder_types.h", ExpandArray(meta_keywords)); *lexer_funcs_unit = compile_meta_unit(part, code_directory, "4cpp_lexer.h", ExpandArray(meta_keywords)); *lexer_types_unit = compile_meta_unit(part, code_directory, "4cpp_lexer_types.h", ExpandArray(meta_keywords)); *string_unit = compile_meta_unit(part, code_directory, "internal_4coder_string.cpp", ExpandArray(meta_keywords)); static char *functions_files[] = { "4ed_api_implementation.cpp", "win32_api_impl.cpp", 0 }; *custom_funcs_unit = compile_meta_unit(part, code_directory, functions_files, ExpandArray(meta_keywords)); // NOTE(allen): Compute and store variations of the custom function names *custom_func_names = allocate_app_api(part, custom_funcs_unit->set.count); for (int32_t i = 0; i < custom_funcs_unit->set.count; ++i){ String name_string = custom_funcs_unit->set.items[i].name; String *macro = &custom_func_names->names[i].macro; String *public_name = &custom_func_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): Load enriched text materials *introduction = load_enriched_text(part, src_directory, "introduction.txt"); *lexer_introduction = load_enriched_text(part, src_directory, "lexer_introduction.txt"); // NOTE(allen): Put together the abstract document Abstract_Document *doc = begin_document_description(doc_system, "4coder API Docs", "custom_docs"); add_table_of_contents(doc); begin_section(doc, "Introduction", "introduction"); add_enriched_text(doc, introduction); end_section(doc); begin_section(doc, "4coder Systems", "4coder_systems"); add_todo(doc); end_section(doc); begin_section(doc, "Types and Functions", "types_and_functions"); { begin_section(doc, "Function List", 0); add_element_list(doc, custom_funcs_unit, custom_func_names, AltName_Public_Name); end_section(doc); begin_section(doc, "Type List", 0); add_element_list(doc, custom_types_unit); end_section(doc); begin_section(doc, "Function Descriptions", 0); add_full_elements(doc, custom_funcs_unit, custom_func_names, AltName_Public_Name); end_section(doc); begin_section(doc, "Type Descriptions", 0); add_full_elements(doc, custom_types_unit); end_section(doc); } end_section(doc); begin_section(doc, "String Library", "string_library"); { begin_section(doc, "String Library Intro", 0); add_todo(doc); end_section(doc); begin_section(doc, "String Function List", 0); add_element_list(doc, string_unit); end_section(doc); begin_section(doc, "String Function Descriptions", 0); add_full_elements(doc, string_unit); end_section(doc); } end_section(doc); begin_section(doc, "Lexer Library", "lexer_library"); { begin_section(doc, "Lexer Intro", 0); add_enriched_text(doc, lexer_introduction); end_section(doc); begin_section(doc, "Lexer Function List", 0); add_element_list(doc, lexer_funcs_unit); end_section(doc); begin_section(doc, "Lexer Type List", 0); add_element_list(doc, lexer_types_unit); end_section(doc); begin_section(doc, "Lexer Function Descriptions", 0); add_full_elements(doc, lexer_funcs_unit); end_section(doc); begin_section(doc, "Lexer Type Descriptions", 0); add_full_elements(doc, lexer_types_unit); end_section(doc); } end_section(doc); end_document_description(doc); return(doc); } static Abstract_Document* generate_feature_list(Document_System *doc_system, Partition *part, char *src_directory){ Enriched_Text *feature_list = push_struct(part, Enriched_Text); *feature_list = load_enriched_text(part, src_directory, "feature_list.txt"); Abstract_Document *doc = begin_document_description(doc_system, "4coder Feature List", "features"); add_enriched_text(doc, feature_list); end_document_description(doc); return(doc); } static Abstract_Document* generate_roadmap(Document_System *doc_system, Partition *part, char *src_directory){ Enriched_Text *roadmap = push_struct(part, Enriched_Text); *roadmap = load_enriched_text(part, src_directory, "roadmap.txt"); Abstract_Document *doc = begin_document_description(doc_system, "4coder Roadmap", "roadmap"); add_enriched_text(doc, roadmap); end_document_description(doc); return(doc); } static void generate_site(char *code_directory, char *src_directory, char *dst_directory){ int32_t size = (512 << 20); void *mem = malloc(size); memset(mem, 0, size); Partition part_ = make_part(mem, size); Partition *part = &part_; Document_System doc_system = create_document_system(part); generate_homepage(&doc_system, part, src_directory); generate_4coder_docs(&doc_system, part, code_directory, src_directory); generate_feature_list(&doc_system, part, src_directory); generate_roadmap(&doc_system, part, src_directory); for (Document_Node *node = doc_system.head; node != 0; node = node->next){ do_html_output(&doc_system, part, dst_directory, &node->doc); } } int main(int argc, char **argv){ if (argc == 4){ generate_site(argv[1], argv[2], argv[3]); } } // BOTTOM