4coder/4coder_metadata_generator.cpp

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/*
4coder_metadata_generator.cpp - A preprocessor program for generating a list of commands and their descriptions.
*/
// TOP
#define COMMAND_METADATA_OUT "4coder_generated/command_metadata.h"
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#include "4coder_file.h"
#include "4coder_lib/4coder_mem.h"
#include "4coder_lib/4cpp_lexer.h"
#include <stdio.h>
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#include <stdlib.h>
#include <stdint.h>
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#define str_to_l_c(s) ((s).size), ((s).str)
#define str_to_c_l(s) ((s).str), ((s).size)
///////////////////////////////
struct Line_Column_Coordinates{
int32_t line;
int32_t column;
};
static Line_Column_Coordinates
line_column_coordinates(String text, int32_t pos){
if (pos < 0){
pos = 0;
}
if (pos > text.size){
pos = text.size;
}
Line_Column_Coordinates coords = {0};
coords.line = 1;
coords.column = 1;
char *end = text.str + pos;
for (char *p = text.str; p < end; ++p){
if (*p == '\n'){
++coords.line;
coords.column = 1;
}
else{
++coords.column;
}
}
return(coords);
}
static int32_t
line_number(String text, int32_t pos){
Line_Column_Coordinates coords = line_column_coordinates(text, pos);
return(coords.line);
}
static void
error(char *source_name, String text, int32_t pos, char *msg){
Line_Column_Coordinates coords = line_column_coordinates(text, pos);
fprintf(stdout, "%s:%d:%d: %s\n", source_name, coords.line, coords.column, msg);
fflush(stdout);
}
///////////////////////////////
struct Reader{
char *source_name;
String text;
Cpp_Token_Array tokens;
Cpp_Token *ptr;
};
struct Temp_Read{
Reader *reader;
Cpp_Token *pos;
};
static Reader
make_reader(Cpp_Token_Array array, char *source_name, String text){
Reader reader = {0};
reader.tokens = array;
reader.ptr = array.tokens;
reader.source_name = source_name;
reader.text = text;
return(reader);
}
static Cpp_Token
prev_token(Reader *reader){
Cpp_Token result = {0};
for (;;){
if (reader->ptr > reader->tokens.tokens + reader->tokens.count){
reader->ptr = reader->tokens.tokens + reader->tokens.count;
}
if (reader->ptr > reader->tokens.tokens){
--reader->ptr;
result = *reader->ptr;
}
else{
reader->ptr = reader->tokens.tokens;
memset(&result, 0, sizeof(result));
break;
}
if (result.type != CPP_TOKEN_COMMENT && result.type != CPP_TOKEN_JUNK){
break;
}
}
return(result);
}
static Cpp_Token
get_token(Reader *reader){
Cpp_Token result = {0};
for (;;){
if (reader->ptr < reader->tokens.tokens){
reader->ptr = reader->tokens.tokens;
}
if (reader->ptr < reader->tokens.tokens + reader->tokens.count){
result = *reader->ptr;
++reader->ptr;
}
else{
reader->ptr = reader->tokens.tokens + reader->tokens.count;
memset(&result, 0, sizeof(result));
result.start = reader->text.size;
break;
}
if (result.type != CPP_TOKEN_COMMENT && result.type != CPP_TOKEN_JUNK){
break;
}
}
return(result);
}
static Cpp_Token
peek_token(Reader *reader){
Cpp_Token result = {0};
if (reader->ptr < reader->tokens.tokens){
reader->ptr = reader->tokens.tokens;
}
if (reader->ptr >= reader->tokens.tokens + reader->tokens.count){
result.start = reader->text.size;
}
else{
result = *reader->ptr;
}
return(result);
}
static int32_t
peek_pos(Reader *reader){
Cpp_Token token = peek_token(reader);
return(token.start);
}
static int32_t
line_number(Reader *reader, int32_t pos){
int32_t result = line_number(reader->text, pos);
return(result);
}
static void
error(Reader *reader, int32_t pos, char *msg){
error(reader->source_name, reader->text, pos, msg);
}
static Temp_Read
begin_temp_read(Reader *reader){
Temp_Read temp = {0};
temp.reader = reader;
temp.pos = reader->ptr;
return(temp);
}
static void
end_temp_read(Temp_Read temp){
temp.reader->ptr = temp.pos;
}
///////////////////////////////
static String
token_str(String text, Cpp_Token token){
String str = substr(text, token.start, token.size);
return(str);
}
///////////////////////////////
#define sll_push(f,l,n) if((f)==0){(f)=(l)=(n);}else{(l)->next=(n);(l)=(n);}(n)->next=0
///////////////////////////////
typedef uint32_t Meta_Command_Entry_Type;
enum{
MetaCommandEntry_DocString,
MetaCommandEntry_Alias,
};
struct Meta_Command_Entry{
Meta_Command_Entry *next;
String name;
char *source_name;
int32_t line_number;
union{
struct{
String doc;
} docstring;
struct{
String potential;
} alias;
};
};
struct Meta_Command_Entry_Arrays{
Meta_Command_Entry *first_doc_string;
Meta_Command_Entry *last_doc_string;
int32_t doc_string_count;
Meta_Command_Entry *first_alias;
Meta_Command_Entry *last_alias;
int32_t alias_count;
};
///////////////////////////////
#define Swap(T,a,b) {T t=a; a=b; b=t;}
static int32_t
quick_sort_part(Meta_Command_Entry **entries, int32_t first, int32_t one_past_last){
int32_t pivot = one_past_last - 1;
String pivot_key = entries[pivot]->name;
int32_t j = first;
for (int32_t i = first; i < pivot; ++i){
if (compare(entries[i]->name, pivot_key) < 0){
Swap(Meta_Command_Entry*, entries[i], entries[j]);
++j;
}
}
Swap(Meta_Command_Entry*, entries[j], entries[pivot]);
return(j);
}
static void
quick_sort(Meta_Command_Entry **entries, int32_t first, int32_t one_past_last){
if (first + 1 < one_past_last){
int32_t pivot = quick_sort_part(entries, first, one_past_last);
quick_sort(entries, first, pivot);
quick_sort(entries, pivot + 1, one_past_last);
}
}
static Meta_Command_Entry**
get_sorted_meta_commands(Partition *part, Meta_Command_Entry *first, int32_t count){
Meta_Command_Entry **entries = push_array(part, Meta_Command_Entry*, count);
int32_t i = 0;
for (Meta_Command_Entry *entry = first;
entry != 0;
entry = entry->next, ++i){
entries[i] = entry;
}
Assert(i == count);
quick_sort(entries, 0, count);
return(entries);
}
///////////////////////////////
static bool32
has_duplicate_entry(Meta_Command_Entry *first, String name){
bool32 has_duplicate = false;
for (Meta_Command_Entry *entry = first;
entry != 0;
entry = entry->next){
if (match(name, entry->name)){
has_duplicate = true;
}
}
return(has_duplicate);
}
///////////////////////////////
static bool32
require_key_identifier(Reader *reader, char *str, int32_t *opt_pos_out = 0){
bool32 success = false;
Cpp_Token token = get_token(reader);
if (token.type == CPP_TOKEN_IDENTIFIER){
String lexeme = token_str(reader->text, token);
if (match(lexeme, str)){
success = true;
if (opt_pos_out != 0){
*opt_pos_out = token.start;
}
}
}
if (!success){
char space[1024];
String s = make_fixed_width_string(space);
copy(&s, "expected to find '");
append(&s, str);
append(&s, "'");
terminate_with_null(&s);
error(reader, token.start, s.str);
}
return(success);
}
static bool32
require_open_parenthese(Reader *reader, int32_t *opt_pos_out = 0){
bool32 success = false;
Cpp_Token token = get_token(reader);
if (token.type == CPP_TOKEN_PARENTHESE_OPEN){
success = true;
if (opt_pos_out != 0){
*opt_pos_out = token.start;
}
}
if (!success){
error(reader, token.start, "expected to find '('");
}
return(success);
}
static bool32
require_close_parenthese(Reader *reader, int32_t *opt_pos_out = 0){
bool32 success = false;
Cpp_Token token = get_token(reader);
if (token.type == CPP_TOKEN_PARENTHESE_CLOSE){
success = true;
if (opt_pos_out != 0){
*opt_pos_out = token.start;
}
}
if (!success){
error(reader, token.start, "expected to find ')'");
}
return(success);
}
static bool32
require_define(Reader *reader, int32_t *opt_pos_out = 0){
bool32 success = false;
Cpp_Token token = get_token(reader);
if (token.type == CPP_PP_DEFINE){
success = true;
if (opt_pos_out != 0){
*opt_pos_out = token.start;
}
}
if (!success){
error(reader, token.start, "expected to find '#define'");
}
return(success);
}
static bool32
extract_identifier(Reader *reader, String *str_out, int32_t *opt_pos_out = 0){
bool32 success = false;
Cpp_Token token = get_token(reader);
if (token.type == CPP_TOKEN_IDENTIFIER){
String lexeme = token_str(reader->text, token);
*str_out = lexeme;
success = true;
if (opt_pos_out != 0){
*opt_pos_out = token.start;
}
}
if (!success){
error(reader, token.start, "expected to find an identifier");
}
return(success);
}
static bool32
extract_string(Reader *reader, String *str_out, int32_t *opt_pos_out = 0){
bool32 success = false;
Cpp_Token token = get_token(reader);
if (token.type == CPP_TOKEN_STRING_CONSTANT){
String lexeme = token_str(reader->text, token);
*str_out = lexeme;
success = true;
if (opt_pos_out != 0){
*opt_pos_out = token.start;
}
}
if (!success){
error(reader, token.start, "expected to find a string literal");
}
return(success);
}
static bool32
parse_documented_command(Partition *part, Meta_Command_Entry_Arrays *arrays, Reader *reader){
String name = {0};
String doc = {0};
// Getting the command's name
int32_t start_pos = 0;
if (!require_key_identifier(reader, "CUSTOM_COMMAND_SIG", &start_pos)){
return(false);
}
if (!require_open_parenthese(reader)){
return(false);
}
if (!extract_identifier(reader, &name)){
return(false);
}
if (!require_close_parenthese(reader)){
return(false);
}
// Getting the command's doc string
if (!require_key_identifier(reader, "CUSTOM_DOC")){
return(false);
}
if (!require_open_parenthese(reader)){
return(false);
}
int32_t doc_pos = 0;
if (!extract_string(reader, &doc, &doc_pos)){
return(false);
}
if (doc.size < 1 || doc.str[0] != '"'){
error(reader, doc_pos, "warning: doc strings with string literal prefixes not allowed");
return(false);
}
if (!require_close_parenthese(reader)){
return(false);
}
if (has_duplicate_entry(arrays->first_doc_string, name)){
error(reader, start_pos, "warning: multiple commands with the same name and separate doc strings, skipping this one");
return(false);
}
doc = substr(doc, 1, doc.size - 2);
Meta_Command_Entry *new_entry = push_array(part, Meta_Command_Entry, 1);
new_entry->name = name;
new_entry->source_name = reader->source_name;
new_entry->line_number = line_number(reader, start_pos);
new_entry->docstring.doc = doc;
sll_push(arrays->first_doc_string, arrays->last_doc_string, new_entry);
++arrays->doc_string_count;
return(true);
}
static bool32
parse_alias(Partition *part, Meta_Command_Entry_Arrays *arrays, Reader *reader){
String name = {0};
String potential = {0};
// Getting the alias's name
int32_t start_pos = 0;
if (!require_define(reader, &start_pos)){
return(false);
}
if (!extract_identifier(reader, &name)){
return(false);
}
// Getting the alias's target
if (!require_key_identifier(reader, "CUSTOM_ALIAS")){
return(false);
}
if (!require_open_parenthese(reader)){
return(false);
}
if (!extract_identifier(reader, &potential)){
return(false);
}
if (!require_close_parenthese(reader)){
return(false);
}
Meta_Command_Entry *new_entry = push_array(part, Meta_Command_Entry, 1);
new_entry->name = name;
new_entry->source_name = reader->source_name;
new_entry->line_number = line_number(reader, start_pos);
new_entry->alias.potential = potential;
sll_push(arrays->first_alias, arrays->last_alias, new_entry);
++arrays->alias_count;
return(true);
}
///////////////////////////////
static void
parse_text(Partition *part, Meta_Command_Entry_Arrays *entry_arrays, char *source_name, String text){
Cpp_Token_Array array = cpp_make_token_array(1024);
cpp_lex_file(text.str, text.size, &array);
Reader reader_ = make_reader(array, source_name, text);
Reader *reader = &reader_;
for (;;){
Cpp_Token token = get_token(reader);
if (token.type == CPP_TOKEN_IDENTIFIER){
String lexeme = token_str(text, token);
bool32 in_preproc_body = ((token.flags & CPP_TFLAG_PP_BODY) != 0);
if (!in_preproc_body && match(lexeme, "CUSTOM_DOC")){
Temp_Read temp_read = begin_temp_read(reader);
bool32 found_start_pos = false;
for (int32_t R = 0; R < 5; ++R){
Cpp_Token p_token = prev_token(reader);
if (p_token.type == CPP_TOKEN_IDENTIFIER){
String p_lexeme = token_str(text, p_token);
if (match(p_lexeme, "CUSTOM_COMMAND_SIG")){
found_start_pos = true;
break;
}
}
if (p_token.type == 0){
break;
}
}
if (!found_start_pos){
end_temp_read(temp_read);
}
else{
if (!parse_documented_command(part, entry_arrays, reader)){
end_temp_read(temp_read);
}
}
}
else if (match(lexeme, "CUSTOM_ALIAS")){
Temp_Read temp_read = begin_temp_read(reader);
bool32 found_start_pos = false;
for (int32_t R = 0; R < 3; ++R){
Cpp_Token p_token = prev_token(reader);
if (p_token.type == CPP_PP_DEFINE){
if (R == 2){
found_start_pos = true;
}
break;
}
if (p_token.type == 0){
break;
}
}
if (!found_start_pos){
end_temp_read(temp_read);
}
else{
if (!parse_alias(part, entry_arrays, reader)){
end_temp_read(temp_read);
}
}
}
}
if (token.type == 0){
break;
}
}
cpp_free_token_array(array);
}
static void
parse_file(Partition *part, Meta_Command_Entry_Arrays *entry_arrays, Filename_Character *name_, int32_t len){
char *name = unencode(part, name_, len);
if (name == 0){
if (sizeof(*name_) == 2){
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fprintf(stdout, "warning: could not unencode file name %ls - file skipped\n", (wchar_t*)name_);
}
else{
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fprintf(stdout, "warning: could not unencode file name %s - file skipped\n", (char*)name_);
}
return;
}
String text = file_dump(part, name);
parse_text(part, entry_arrays, name, text);
}
static void
parse_files_by_pattern(Partition *part, Meta_Command_Entry_Arrays *entry_arrays, Filename_Character *pattern, bool32 recursive){
Cross_Platform_File_List list = get_file_list(part, pattern, filter_is_code_file);
for (int32_t i = 0; i < list.count; ++i){
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Cross_Platform_File_Info *info = &list.info[i];
if (info->is_folder && match(make_string(info->name, info->len), "4coder_generated")){
continue;
}
if (!recursive && info->is_folder){
continue;
}
int32_t full_name_len = list.path_length + 1 + info->len;
if (info->is_folder){
full_name_len += 2;
}
Filename_Character *full_name = push_array(part, Filename_Character, full_name_len + 1);
push_align(part, 8);
if (full_name == 0){
fprintf(stdout, "fatal error: not enough memory to recurse to sub directory\n");
exit(1);
}
memmove(full_name, list.path_name, list.path_length*sizeof(*full_name));
full_name[list.path_length] = SLASH;
memmove(full_name + list.path_length + 1, info->name, info->len*sizeof(*full_name));
full_name[full_name_len] = 0;
if (!info->is_folder){
parse_file(part, entry_arrays, full_name, full_name_len);
}
else{
full_name[full_name_len - 2] = SLASH;
full_name[full_name_len - 1] = '*';
parse_files_by_pattern(part, entry_arrays, full_name, true);
}
}
}
static void
show_usage(int argc, char **argv){
char *name = "metadata_generator";
if (argc >= 1){
name = argv[0];
}
fprintf(stdout, "usage:\n%s [-R] <4coder-root-directory> <input-file-pattern> [<input-file-pattern> ...]\n", name);
exit(0);
}
int
main(int argc, char **argv){
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if (argc < 3){
show_usage(argc, argv);
}
bool32 recursive = match(argv[1], "-R");
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if (recursive && argc < 4){
show_usage(argc, argv);
}
int32_t size = (256 << 20);
void *mem = malloc(size);
Partition part_ = make_part(mem, size);
Partition *part = &part_;
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char *out_directory = argv[2];
int32_t start_i = 2;
if (recursive){
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start_i = 3;
}
Meta_Command_Entry_Arrays entry_arrays = {0};
for (int32_t i = start_i; i < argc; ++i){
Filename_Character *pattern_name = encode(part, argv[i]);
parse_files_by_pattern(part, &entry_arrays, pattern_name, recursive);
}
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int32_t out_dir_len = str_size(out_directory);
if (out_directory[0] == '"'){
out_directory += 1;
out_dir_len -= 2;
}
{
String str = make_string(out_directory, out_dir_len);
str = skip_chop_whitespace(str);
out_directory = str.str;
out_dir_len = str.size;
}
int32_t len = out_dir_len + 1 + sizeof(COMMAND_METADATA_OUT) - 1;
char *out_file_name = (char*)malloc(len + 1);
memcpy(out_file_name, out_directory, out_dir_len);
memcpy(out_file_name + out_dir_len, "/", 1);
memcpy(out_file_name + out_dir_len + 1, COMMAND_METADATA_OUT, sizeof(COMMAND_METADATA_OUT));
FILE *out = fopen(out_file_name, "wb");
if (out != 0){
int32_t entry_count = entry_arrays.doc_string_count;
Meta_Command_Entry **entries = get_sorted_meta_commands(part, entry_arrays.first_doc_string, entry_count);
fprintf(out, "#define command_id(c) (fcoder_metacmd_ID_##c)\n");
fprintf(out, "#define command_metadata(c) (&fcoder_metacmd_table[command_id(c)])\n");
fprintf(out, "#define command_metadata_by_id(id) (&fcoder_metacmd_table[id])\n");
fprintf(out, "#define command_one_past_last_id %d\n", entry_arrays.doc_string_count);
fprintf(out, "#if defined(CUSTOM_COMMAND_SIG)\n");
fprintf(out, "#define PROC_LINKS(x,y) x\n");
fprintf(out, "#else\n");
fprintf(out, "#define PROC_LINKS(x,y) y\n");
fprintf(out, "#endif\n");
fprintf(out, "#if defined(CUSTOM_COMMAND_SIG)\n");
for (int32_t i = 0; i < entry_count; ++i){
Meta_Command_Entry *entry = entries[i];
fprintf(out, "CUSTOM_COMMAND_SIG(%.*s);\n", str_to_l_c(entry->name));
}
fprintf(out, "#endif\n");
fprintf(out,
"struct Command_Metadata{\n"
"PROC_LINKS(Custom_Command_Function, void) *proc;\n"
"char *name;\n"
"int32_t name_len;\n"
"char *description;\n"
"int32_t description_len;\n"
"char *source_name;\n"
"int32_t source_name_len;\n"
"int32_t line_number;\n"
"};\n");
fprintf(out,
"static Command_Metadata fcoder_metacmd_table[%d] = {\n",
entry_arrays.doc_string_count);
for (int32_t i = 0; i < entry_count; ++i){
Meta_Command_Entry *entry = entries[i];
Temp_Memory temp = begin_temp_memory(part);
// HACK(allen): We could just get these at the HEAD END of the process,
// then we only have to do it once per file, and pass the lengths through.
int32_t source_name_len = str_size(entry->source_name);
char *fixed_name = push_array(part, char, source_name_len*2 + 1);
String s = make_string_cap(fixed_name, 0, source_name_len*2 + 1);
copy(&s, entry->source_name);
replace_str(&s, "\\", "\\\\");
terminate_with_null(&s);
fprintf(out,
"{ PROC_LINKS(%.*s, 0), \"%.*s\", %d, \"%.*s\", %d, \"%s\", %d, %d },\n",
str_to_l_c(entry->name),
str_to_l_c(entry->name), entry->name.size,
str_to_l_c(entry->docstring.doc), entry->docstring.doc.size,
s.str, s.size, entry->line_number);
end_temp_memory(temp);
}
fprintf(out, "};\n");
int32_t id = 0;
for (int32_t i = 0; i < entry_count; ++i){
Meta_Command_Entry *entry = entries[i];
fprintf(out, "static int32_t fcoder_metacmd_ID_%.*s = %d;\n",
str_to_l_c(entry->name), id);
++id;
}
}
else{
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fprintf(stdout, "fatal error: could not open output file %s%s\n", out_directory, COMMAND_METADATA_OUT);
}
return(0);
}
// BOTTOM