gmqcc/code.c

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2012-04-10 09:09:55 +00:00
/*
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* Copyright (C) 2012, 2013
* Dale Weiler
* Wolfgang Bumiller
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*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is furnished to do
* so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <string.h>
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#include "gmqcc.h"
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/*
* We could use the old method of casting to uintptr_t then to void*
* or qcint; however, it's incredibly unsafe for two reasons.
* 1) The compilers aliasing optimization can legally make it unstable
* (it's undefined behaviour).
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*
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* 2) The cast itself depends on fresh storage (newly allocated in which
* ever function is using the cast macros), the contents of which are
* transferred in a way that the obligation to release storage is not
* propagated.
*/
typedef union {
void *enter;
qcint leave;
} code_hash_entry_t;
/* Some sanity macros */
#define CODE_HASH_ENTER(ENTRY) ((ENTRY).enter)
#define CODE_HASH_LEAVE(ENTRY) ((ENTRY).leave)
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void code_push_statement(code_t *code, prog_section_statement *stmt, int linenum)
{
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vec_push(code->statements, *stmt);
vec_push(code->linenums, linenum);
}
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void code_pop_statement(code_t *code)
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{
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vec_pop(code->statements);
vec_pop(code->linenums);
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}
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code_t *code_init() {
static prog_section_function empty_function = {0,0,0,0,0,0,0,{0,0,0,0,0,0,0,0}};
static prog_section_statement empty_statement = {0,{0},{0},{0}};
static prog_section_def empty_def = {0, 0, 0};
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code_t *code = (code_t*)mem_a(sizeof(code_t));
int i = 0;
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memset(code, 0, sizeof(code_t));
code->entfields = 0;
code->string_cache = util_htnew(OPTS_OPTIMIZATION(OPTIM_OVERLAP_STRINGS) ? 0x100 : 1024);
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/*
* The way progs.dat is suppose to work is odd, there needs to be
* some null (empty) statements, functions, and 28 globals
*/
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for(; i < 28; i++)
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vec_push(code->globals, 0);
vec_push(code->chars, '\0');
vec_push(code->functions, empty_function);
code_push_statement(code, &empty_statement, 0);
vec_push(code->defs, empty_def);
vec_push(code->fields, empty_def);
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return code;
}
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void *code_util_str_htgeth(hash_table_t *ht, const char *key, size_t bin);
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uint32_t code_genstring(code_t *code, const char *str) {
size_t hash;
code_hash_entry_t existing;
if (!str)
return 0;
if (!*str) {
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if (!code->string_cached_empty) {
code->string_cached_empty = vec_size(code->chars);
vec_push(code->chars, 0);
}
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return code->string_cached_empty;
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}
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if (OPTS_OPTIMIZATION(OPTIM_OVERLAP_STRINGS)) {
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hash = ((unsigned char*)str)[strlen(str)-1];
CODE_HASH_ENTER(existing) = code_util_str_htgeth(code->string_cache, str, hash);
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} else {
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hash = util_hthash(code->string_cache, str);
CODE_HASH_ENTER(existing) = util_htgeth(code->string_cache, str, hash);
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}
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if (CODE_HASH_ENTER(existing))
return CODE_HASH_LEAVE(existing);
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CODE_HASH_LEAVE(existing) = vec_size(code->chars);
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vec_upload(code->chars, str, strlen(str)+1);
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util_htseth(code->string_cache, str, hash, CODE_HASH_ENTER(existing));
return CODE_HASH_LEAVE(existing);
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}
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qcint code_alloc_field (code_t *code, size_t qcsize)
{
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qcint pos = (qcint)code->entfields;
code->entfields += qcsize;
return pos;
}
static void code_create_header(code_t *code, prog_header *code_header) {
code_header->statements.offset = sizeof(prog_header);
code_header->statements.length = vec_size(code->statements);
code_header->defs.offset = code_header->statements.offset + (sizeof(prog_section_statement) * vec_size(code->statements));
code_header->defs.length = vec_size(code->defs);
code_header->fields.offset = code_header->defs.offset + (sizeof(prog_section_def) * vec_size(code->defs));
code_header->fields.length = vec_size(code->fields);
code_header->functions.offset = code_header->fields.offset + (sizeof(prog_section_field) * vec_size(code->fields));
code_header->functions.length = vec_size(code->functions);
code_header->globals.offset = code_header->functions.offset + (sizeof(prog_section_function) * vec_size(code->functions));
code_header->globals.length = vec_size(code->globals);
code_header->strings.offset = code_header->globals.offset + (sizeof(int32_t) * vec_size(code->globals));
code_header->strings.length = vec_size(code->chars);
code_header->version = 6;
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code_header->skip = 0;
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if (OPTS_OPTION_BOOL(OPTION_FORCECRC))
code_header->crc16 = OPTS_OPTION_U16(OPTION_FORCED_CRC);
else
code_header->crc16 = code->crc;
code_header->entfield = code->entfields;
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if (OPTS_FLAG(DARKPLACES_STRING_TABLE_BUG)) {
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util_debug("GEN", "Patching stringtable for -fdarkplaces-stringtablebug\n");
/* >= + P */
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vec_push(code->chars, '\0'); /* > */
vec_push(code->chars, '\0'); /* = */
vec_push(code->chars, '\0'); /* P */
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}
/* ensure all data is in LE format */
util_endianswap(&code_header->version, 1, sizeof(code_header->version));
util_endianswap(&code_header->crc16, 1, sizeof(code_header->crc16));
util_endianswap(&code_header->statements, 2, sizeof(code_header->statements.offset));
util_endianswap(&code_header->defs, 2, sizeof(code_header->statements.offset));
util_endianswap(&code_header->fields, 2, sizeof(code_header->statements.offset));
util_endianswap(&code_header->functions, 2, sizeof(code_header->statements.offset));
util_endianswap(&code_header->strings, 2, sizeof(code_header->statements.offset));
util_endianswap(&code_header->globals, 2, sizeof(code_header->statements.offset));
util_endianswap(&code_header->entfield, 1, sizeof(code_header->entfield));
/*
* These are not part of the header but we ensure LE format here to save on duplicated
* code.
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*/
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util_endianswap(code->statements, vec_size(code->statements), sizeof(prog_section_statement));
util_endianswap(code->defs, vec_size(code->defs), sizeof(prog_section_def));
util_endianswap(code->fields, vec_size(code->fields), sizeof(prog_section_field));
util_endianswap(code->functions, vec_size(code->functions), sizeof(prog_section_function));
util_endianswap(code->globals, vec_size(code->globals), sizeof(int32_t));
}
/*
* Same principle except this one allocates memory and writes the lno(optional) and the dat file
* directly out to allocated memory. Which is actually very useful for the future library support
* we're going to add.
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*/
bool code_write_memory(code_t *code, uint8_t **datmem, size_t *sizedat, uint8_t **lnomem, size_t *sizelno) {
prog_header code_header;
uint32_t offset = 0;
if (!datmem)
return false;
code_create_header(code, &code_header);
#define WRITE_CHUNK(C,X,S) \
do { \
memcpy((void*)(&(*C)[offset]), (const void*)(X), (S)); \
offset += (S); \
} while (0)
/* Calculate size required to store entire file out to memory */
if (lnomem) {
uint32_t version = 1;
*sizelno += 4; /* LNOF */
*sizelno += sizeof(version);
*sizelno += sizeof(code_header.defs.length);
*sizelno += sizeof(code_header.globals.length);
*sizelno += sizeof(code_header.fields.length);
*sizelno += sizeof(code_header.statements.length);
*sizelno += sizeof(code->linenums[0]) * vec_size(code->linenums);
*lnomem = (uint8_t*)mem_a(*sizelno);
WRITE_CHUNK(lnomem, "LNOF", 4);
WRITE_CHUNK(lnomem, &version, sizeof(version));
WRITE_CHUNK(lnomem, &code_header.defs.length, sizeof(code_header.defs.length));
WRITE_CHUNK(lnomem, &code_header.globals.length, sizeof(code_header.globals.length));
WRITE_CHUNK(lnomem, &code_header.fields.length, sizeof(code_header.fields.length));
WRITE_CHUNK(lnomem, &code_header.statements.length, sizeof(code_header.statements.length));
/* something went terribly wrong */
if (offset != *sizelno) {
mem_d(*lnomem);
*sizelno = 0;
return false;
}
offset = 0;
}
/* Write out the dat */
*sizedat += sizeof(prog_header);
*sizedat += sizeof(prog_section_statement) * vec_size(code->statements);
*sizedat += sizeof(prog_section_def) * vec_size(code->defs);
*sizedat += sizeof(prog_section_field) * vec_size(code->fields);
*sizedat += sizeof(prog_section_function) * vec_size(code->functions);
*sizedat += sizeof(int32_t) * vec_size(code->globals);
*sizedat += 1 * vec_size(code->chars);
*datmem = (uint8_t*)mem_a(*sizedat);
WRITE_CHUNK(datmem, &code_header, sizeof(prog_header));
WRITE_CHUNK(datmem, code->statements, sizeof(prog_section_statement) * vec_size(code->statements));
WRITE_CHUNK(datmem, code->defs, sizeof(prog_section_def) * vec_size(code->defs));
WRITE_CHUNK(datmem, code->fields, sizeof(prog_section_field) * vec_size(code->fields));
WRITE_CHUNK(datmem, code->functions, sizeof(prog_section_function) * vec_size(code->functions));
WRITE_CHUNK(datmem, code->globals, sizeof(int32_t) * vec_size(code->globals));
WRITE_CHUNK(datmem, code->chars, 1 * vec_size(code->chars));
#undef WRITE_CHUNK
vec_free(code->statements);
vec_free(code->linenums);
vec_free(code->defs);
vec_free(code->fields);
vec_free(code->functions);
vec_free(code->globals);
vec_free(code->chars);
util_htdel(code->string_cache);
mem_d(code);
return true;
}
bool code_write(code_t *code, const char *filename, const char *lnofile) {
prog_header code_header;
FILE *fp = NULL;
size_t it = 2;
code_create_header(code, &code_header);
if (lnofile) {
uint32_t version = 1;
fp = fs_file_open(lnofile, "wb");
if (!fp)
return false;
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util_endianswap(&version, 1, sizeof(version));
util_endianswap(code->linenums, vec_size(code->linenums), sizeof(code->linenums[0]));
if (fs_file_write("LNOF", 4, 1, fp) != 1 ||
fs_file_write(&version, sizeof(version), 1, fp) != 1 ||
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fs_file_write(&code_header.defs.length, sizeof(code_header.defs.length), 1, fp) != 1 ||
fs_file_write(&code_header.globals.length, sizeof(code_header.globals.length), 1, fp) != 1 ||
fs_file_write(&code_header.fields.length, sizeof(code_header.fields.length), 1, fp) != 1 ||
fs_file_write(&code_header.statements.length, sizeof(code_header.statements.length), 1, fp) != 1 ||
fs_file_write(code->linenums, sizeof(code->linenums[0]), vec_size(code->linenums), fp) != vec_size(code->linenums))
{
con_err("failed to write lno file\n");
}
fs_file_close(fp);
fp = NULL;
}
fp = fs_file_open(filename, "wb");
if (!fp)
return false;
if (1 != fs_file_write(&code_header, sizeof(prog_header) , 1 , fp) ||
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vec_size(code->statements) != fs_file_write(code->statements, sizeof(prog_section_statement), vec_size(code->statements), fp) ||
vec_size(code->defs) != fs_file_write(code->defs, sizeof(prog_section_def) , vec_size(code->defs) , fp) ||
vec_size(code->fields) != fs_file_write(code->fields, sizeof(prog_section_field) , vec_size(code->fields) , fp) ||
vec_size(code->functions) != fs_file_write(code->functions, sizeof(prog_section_function) , vec_size(code->functions) , fp) ||
vec_size(code->globals) != fs_file_write(code->globals, sizeof(int32_t) , vec_size(code->globals) , fp) ||
vec_size(code->chars) != fs_file_write(code->chars, 1 , vec_size(code->chars) , fp))
{
fs_file_close(fp);
return false;
}
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util_debug("GEN","HEADER:\n");
util_debug("GEN"," version: = %d\n", code_header.version );
util_debug("GEN"," crc16: = %d\n", code_header.crc16 );
util_debug("GEN"," entfield: = %d\n", code_header.entfield);
util_debug("GEN"," statements = {.offset = % 8d, .length = % 8d}\n", code_header.statements.offset, code_header.statements.length);
util_debug("GEN"," defs = {.offset = % 8d, .length = % 8d}\n", code_header.defs .offset, code_header.defs .length);
util_debug("GEN"," fields = {.offset = % 8d, .length = % 8d}\n", code_header.fields .offset, code_header.fields .length);
util_debug("GEN"," functions = {.offset = % 8d, .length = % 8d}\n", code_header.functions .offset, code_header.functions .length);
util_debug("GEN"," globals = {.offset = % 8d, .length = % 8d}\n", code_header.globals .offset, code_header.globals .length);
util_debug("GEN"," strings = {.offset = % 8d, .length = % 8d}\n", code_header.strings .offset, code_header.strings .length);
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/* FUNCTIONS */
util_debug("GEN", "FUNCTIONS:\n");
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for (; it < vec_size(code->functions); it++) {
size_t j = code->functions[it].entry;
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util_debug("GEN", " {.entry =% 5d, .firstlocal =% 5d, .locals =% 5d, .profile =% 5d, .name =% 5d, .file =% 5d, .nargs =% 5d, .argsize ={%d,%d,%d,%d,%d,%d,%d,%d} }\n",
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code->functions[it].entry,
code->functions[it].firstlocal,
code->functions[it].locals,
code->functions[it].profile,
code->functions[it].name,
code->functions[it].file,
code->functions[it].nargs,
code->functions[it].argsize[0],
code->functions[it].argsize[1],
code->functions[it].argsize[2],
code->functions[it].argsize[3],
code->functions[it].argsize[4],
code->functions[it].argsize[5],
code->functions[it].argsize[6],
code->functions[it].argsize[7]
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);
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util_debug("GEN", " NAME: %s\n", &code->chars[code->functions[it].name]);
/* Internal functions have no code */
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if (code->functions[it].entry >= 0) {
util_debug("GEN", " CODE:\n");
for (;;) {
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if (code->statements[j].opcode != INSTR_DONE)
util_debug("GEN", " %-12s {% 5i,% 5i,% 5i}\n",
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asm_instr[code->statements[j].opcode].m,
code->statements[j].o1.s1,
code->statements[j].o2.s1,
code->statements[j].o3.s1
);
else {
util_debug("GEN", " DONE {0x00000,0x00000,0x00000}\n");
break;
}
j++;
}
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}
}
fs_file_close(fp);
return true;
}
void code_cleanup(code_t *code) {
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vec_free(code->statements);
vec_free(code->linenums);
vec_free(code->defs);
vec_free(code->fields);
vec_free(code->functions);
vec_free(code->globals);
vec_free(code->chars);
util_htdel(code->string_cache);
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mem_d(code);
}