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4coder/4ed_metagen.cpp

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/*
* 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 <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#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, &param_pos);
String param_docs = doc_parse_last_parameter(doc_note_string, &param_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, " {<br><div style='margin-left: 8mm;'>");
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, "</div>};<br>");
}
}
else{
append_sc(out, ";<br>");
}
}
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, "(<div style='margin-left: 4mm;'>");
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, "<br>");
}
append_sc(out, "</div>)");
}
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, "(<div style='margin-left: 4mm;'>");
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, "<br>");
}
append_sc(out, ")</div>)");
}
}
#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 "<div style='margin-top: 3mm; margin-bottom: 3mm; color: "POP_COLOR_1";'><b><i>"
#define DOC_HEAD_CLOSE "</i></b></div>"
#define DOC_ITEM_HEAD_STYLE "font-weight: 600;"
#define DOC_ITEM_HEAD_INL_OPEN "<span style='"DOC_ITEM_HEAD_STYLE"'>"
#define DOC_ITEM_HEAD_INL_CLOSE "</span>"
#define DOC_ITEM_HEAD_OPEN "<div style='"DOC_ITEM_HEAD_STYLE"'>"
#define DOC_ITEM_HEAD_CLOSE "</div>"
#define DOC_ITEM_OPEN "<div style='margin-left: 5mm; margin-right: 5mm;'>"
#define DOC_ITEM_CLOSE "</div>"
#define EXAMPLE_CODE_OPEN "<div style='"CODE_STYLE EXAMPLE_CODE_STYLE"'>"
#define EXAMPLE_CODE_CLOSE "</div>"
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, "<br><br>");
}
}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, "&nbsp;");
}
else{
break;
}
}
String line_tail = substr_tail(line, space_i);
append_ss(out, line_tail);
append_sc(out, "<br>");
}
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, "<div>");
append_sc(out, "<div style='"CODE_STYLE"'>"DOC_ITEM_HEAD_INL_OPEN);
append_ss(out, member_iter->name);
append_sc(out, DOC_ITEM_HEAD_INL_CLOSE"</div>");
append_sc(out, "<div style='margin-bottom: 6mm;'>"DOC_ITEM_OPEN);
print_doc_description(out, part, doc.main_doc);
append_sc(out, DOC_ITEM_CLOSE"</div>");
append_sc(out, "</div>");
}
}
}
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"<a href='#");
append_ss(out, see_also);
append_sc(out, "_doc'>");
append_ss(out, see_also);
append_sc(out, "</a>"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, "<div>"DOC_ITEM_HEAD_OPEN);
append_ss(out, param_name);
append_sc(out, DOC_ITEM_HEAD_CLOSE"<div style='margin-bottom: 6mm;'>"DOC_ITEM_OPEN);
append_ss(out, param_docs);
append_sc(out, DOC_ITEM_CLOSE"</div></div>");
}
}
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, "<li><a href='#");
append_ss(out, name);
append_sc(out, id_postfix);
append_sc(out, "'>");
append_ss(out, name);
append_sc(out, "</a></li>");
}
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, "<div id='");
append_ss(out, name);
append_sc(out, id_postfix);
append_sc(out, "' style='margin-bottom: 1cm;'>");
int32_t has_cpp_name = 0;
if (item->cpp_name.str != 0){
if (try_to_use(used, item->cpp_name)){
append_sc(out, "<div id='");
append_ss(out, item->cpp_name);
append_sc(out, id_postfix);
append_sc(out, "'>");
has_cpp_name = 1;
}
}
append_sc (out, "<h4>&sect;");
append_sc (out, section);
append_s_char (out, '.');
append_int_to_str (out, I);
append_sc (out, ": ");
append_ss (out, name);
append_sc (out, "</h4>");
append_sc(out, "<div style='"CODE_STYLE" "DESCRIPT_SECTION_STYLE"'>");
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, "</div>");
// 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, "</div>");
// 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, "</div>");
// 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, "</div>");
// 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, "<div>");
// NOTE(allen): Dafuq is this all?
append_sc(out, "<div><span style='"CODE_STYLE"'>"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, "</span></div>");
append_sc(out, "<div style='margin-bottom: 6mm;'>"DOC_ITEM_OPEN);
print_doc_description(out, part, doc.main_doc);
append_sc(out, DOC_ITEM_CLOSE"</div>");
append_sc(out, "</div>");
}
}
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, "</div>");
// 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, "</div>");
}
// NOTE(allen): Close the item box
append_sc(out, "</div><hr>");
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");
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,
"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");
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,
"<html lang=\"en-US\">"
"<head>"
"<title>4coder API Docs</title>"
"<style>"
"body { "
"background: " BACK_COLOR "; "
"color: " TEXT_COLOR "; "
"}"
// H things
"h1,h2,h3,h4 { "
"color: " POP_COLOR_1 "; "
"margin: 0; "
"}"
"h2 { "
"margin-top: 6mm; "
"}"
"h3 { "
"margin-top: 5mm; margin-bottom: 5mm; "
"}"
"h4 { "
"font-size: 1.1em; "
"}"
// ANCHORS
"a { "
"color: " POP_COLOR_1 "; "
"text-decoration: none; "
"}"
"a:visited { "
"color: " VISITED_LINK "; "
"}"
"a:hover { "
"background: " POP_BACK_1 "; "
"}"
// LIST
"ul { "
"list-style: none; "
"padding: 0; "
"margin: 0; "
"}"
"</style>"
"</head>\n"
"<body>"
"<div style='font-family:Arial; margin: 0 auto; "
"width: 800px; text-align: justify; line-height: 1.25;'>"
"<h1 style='margin-top: 5mm; margin-bottom: 5mm;'>4cpp Lexing Library</h1>");
// "<h1 style='margin-top: 5mm; margin-bottom: 5mm;'>4coder API</h1>");
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, "<h3 style='margin:0;'>Table of Contents</h3>""<ul>");
int32_t section_count = ArrayCount(sections);
for (int32_t i = 0; i < section_count; ++i){
append_sc (&out, "<li><a href='#section_");
append_sc (&out, sections[i].id_string);
append_sc (&out, "'>&sect;");
append_int_to_str (&out, i+1);
append_s_char (&out, ' ');
append_sc (&out, sections[i].display_string);
append_sc (&out, "</a></li>");
}
append_sc(&out, "</ul>");
#define MAJOR_SECTION "1"
msection = 0;
append_sc(&out, "\n<h2 id='section_");
append_sc(&out, sections[msection].id_string);
append_sc(&out, "'>&sect;"MAJOR_SECTION" ");
append_sc(&out, sections[msection].display_string);
append_sc(&out, "</h2>");
#if 0
// NOTE(allen): doc intro for lexer standalone
append_sc(&out,
"<div>"
"<p>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.</p>"
"<p>If you have questions or discover errors please contact "
"<span style='"CODE_STYLE"'>editor@4coder.net</span> or "
"to get help from community members you can post on the "
"4coder forums hosted on handmade.network at "
"<span style='"CODE_STYLE"'>4coder.handmade.network</span></p>"
"</div>");
#endif
append_sc(&out,
"<div>"
"<p>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.</p>"
"<p>If you have questions or discover errors please contact "
"<span style='"CODE_STYLE"'>editor@4coder.net</span> or "
"to get help from community members you can post on the "
"4coder forums hosted on handmade.network at "
"<span style='"CODE_STYLE"'>4coder.handmade.network</span></p>"
"</div>");
#undef MAJOR_SECTION
#define MAJOR_SECTION "2"
msection = 1;
// TODO(allen): Write the 4coder system descriptions.
append_sc(&out, "\n<h2 id='section_");
append_sc(&out, sections[msection].id_string);
append_sc(&out, "'>&sect;"MAJOR_SECTION" ");
append_sc(&out, sections[msection].display_string);
append_sc(&out, "</h2>");
append_sc(&out, "<div><i>Coming Soon</i><div>");
#undef MAJOR_SECTION
#define MAJOR_SECTION "3"
msection = 2;
append_sc(&out, "\n<h2 id='section_");
append_sc(&out, sections[msection].id_string);
append_sc(&out, "'>&sect;"MAJOR_SECTION" ");
append_sc(&out, sections[msection].display_string);
append_sc(&out, "</h2>");
#undef SECTION
#define SECTION MAJOR_SECTION".1"
append_sc(&out, "<h3>&sect;"SECTION" Function List</h3><ul>");
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, "</ul>");
#undef SECTION
#define SECTION MAJOR_SECTION".2"
append_sc(&out, "<h3>&sect;"SECTION" Type List</h3><ul>");
for (int32_t i = 0; i < unit.set.count; ++i){
print_item_in_list(&out, unit.set.items[i].name, "_doc");
}
append_sc(&out, "</ul>");
#undef SECTION
#define SECTION MAJOR_SECTION".3"
append_sc(&out, "<h3>&sect;"SECTION" Function Descriptions</h3>");
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, "<div id='");
append_ss (&out, name);
append_sc (&out, "_doc' style='margin-bottom: 1cm;'><h4>&sect;"SECTION".");
append_int_to_str(&out, i+1);
append_sc (&out, ": ");
append_ss (&out, name);
append_sc (&out, "</h4><div style='"CODE_STYLE" "DESCRIPT_SECTION_STYLE"'>");
print_function_html(&out, &used_links, item->cpp_name, item->ret, "app->", name, item->breakdown);
append_sc(&out, "</div>");
print_function_docs(&out, part, name, item->doc_string);
append_sc(&out, "</div><hr>");
}
#undef SECTION
#define SECTION MAJOR_SECTION".4"
append_sc(&out, "<h3>&sect;"SECTION" Type Descriptions</h3>");
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<h2 id='section_");
append_sc(&out, sections[msection].id_string);
append_sc(&out, "'>&sect;"MAJOR_SECTION" ");
append_sc(&out, sections[msection].display_string);
append_sc(&out, "</h2>");
#undef SECTION
#define SECTION MAJOR_SECTION".1"
append_sc(&out, "<h3>&sect;"SECTION" String Intro</h3>");
append_sc(&out, "<div><i>Coming Soon</i><div>");
#undef SECTION
#define SECTION MAJOR_SECTION".2"
append_sc(&out, "<h3>&sect;"SECTION" String Function List</h3>");
append_sc(&out, "<ul>");
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, "</ul>");
#undef SECTION
#define SECTION MAJOR_SECTION".3"
append_sc(&out, "<h3>&sect;"SECTION" String Function Descriptions</h3>");
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<h2 id='section_");
append_sc(&out, sections[msection].id_string);
append_sc(&out, "'>&sect;"MAJOR_SECTION" ");
append_sc(&out, sections[msection].display_string);
append_sc(&out, "</h2>");
#undef SECTION
#define SECTION MAJOR_SECTION".1"
append_sc(&out, "<h3>&sect;"SECTION" Lexer Intro</h3>");
append_sc(&out,
"<div>"
"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.<br><br>"
"To use the quick setup API you simply include 4cpp_lexer.h and read the "
"documentation at <a href='#cpp_lex_file_doc'>cpp_lex_file</a>.<br><br>"
"To use the the fancier API include 4cpp_lexer.h and read the "
"documentation at <a href='#cpp_lex_step_doc'>cpp_lex_step</a>. "
"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.<br><br>"
"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."
"</div>");
#undef SECTION
#define SECTION MAJOR_SECTION".2"
append_sc(&out, "<h3>&sect;"SECTION" Lexer Function List</h3>");
append_sc(&out, "<ul>");
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, "</ul>");
#undef SECTION
#define SECTION MAJOR_SECTION".3"
append_sc(&out, "<h3>&sect;"SECTION" Lexer Types List</h3>");
append_sc(&out, "<ul>");
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, "</ul>");
#undef SECTION
#define SECTION MAJOR_SECTION".4"
append_sc(&out, "<h3>&sect;"SECTION" Lexer Function Descriptions</h3>");
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, "<h3>&sect;"SECTION" Lexer Type Descriptions</h3>");
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, "</div></body></html>");
end_file_out(context);
}
else{
// TODO(allen): warning
}
}
int main(int argc, char **argv){
generate_keycode_enum();
generate_style();
generate_custom_headers();
}
// BOTTOM
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