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mojoshader_preprocessor.c
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/**
* MojoShader; generate shader programs from bytecode of compiled
* Direct3D shaders.
*
* Please see the file LICENSE.txt in the source's root directory.
*
* This file written by Ryan C. Gordon.
*/
#define __MOJOSHADER_INTERNAL__ 1
#include "mojoshader_internal.h"
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#if DEBUG_PREPROCESSOR
#define print_debug_token(token, len, val) \
MOJOSHADER_print_debug_token("PREPROCESSOR", token, len, val)
#else
#define print_debug_token(token, len, val)
#endif
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#if DEBUG_LEXER
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static Token debug_preprocessor_lexer(IncludeState *s)
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{
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const Token retval = preprocessor_lexer(s);
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MOJOSHADER_print_debug_token("LEXER", s->token, s->tokenlen, retval);
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return retval;
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} // debug_preprocessor_lexer
#define preprocessor_lexer(s) debug_preprocessor_lexer(s)
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#endif
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#if DEBUG_TOKENIZER
static void print_debug_lexing_position(IncludeState *s)
{
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if (s != NULL)
printf("NOW LEXING %s:%d ...\n", s->filename, s->line);
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} // print_debug_lexing_position
#else
#define print_debug_lexing_position(s)
#endif
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typedef struct Context
{
int isfail;
int out_of_memory;
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char failstr[256];
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int recursion_count;
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int asm_comments;
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int file_macro_special;
int line_macro_special;
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Conditional *conditional_pool;
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IncludeState *include_stack;
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IncludeState *include_pool;
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Define *define_hashtable[256];
Define *define_pool;
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StringCache *filename_cache;
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MOJOSHADER_includeOpen open_callback;
MOJOSHADER_includeClose close_callback;
MOJOSHADER_malloc malloc;
MOJOSHADER_free free;
void *malloc_data;
} Context;
// Convenience functions for allocators...
static inline void out_of_memory(Context *ctx)
{
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ctx->out_of_memory = 1;
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} // out_of_memory
static inline void *Malloc(Context *ctx, const size_t len)
{
void *retval = ctx->malloc((int) len, ctx->malloc_data);
if (retval == NULL)
out_of_memory(ctx);
return retval;
} // Malloc
static inline void Free(Context *ctx, void *ptr)
{
if (ptr != NULL) // check for NULL in case of dumb free() impl.
ctx->free(ptr, ctx->malloc_data);
} // Free
static inline char *StrDup(Context *ctx, const char *str)
{
char *retval = (char *) Malloc(ctx, strlen(str) + 1);
if (retval != NULL)
strcpy(retval, str);
return retval;
} // StrDup
static void failf(Context *ctx, const char *fmt, ...) ISPRINTF(2,3);
static void failf(Context *ctx, const char *fmt, ...)
{
ctx->isfail = 1;
va_list ap;
va_start(ap, fmt);
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vsnprintf(ctx->failstr, sizeof (ctx->failstr), fmt, ap);
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va_end(ap);
} // failf
static inline void fail(Context *ctx, const char *reason)
{
failf(ctx, "%s", reason);
} // fail
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#if DEBUG_TOKENIZER
void MOJOSHADER_print_debug_token(const char *subsystem, const char *token,
const unsigned int tokenlen,
const Token tokenval)
{
printf("%s TOKEN: \"", subsystem);
unsigned int i;
for (i = 0; i < tokenlen; i++)
{
if (token[i] == '\n')
printf("\\n");
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else if (token[i] == '\\')
printf("\\\\");
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else
printf("%c", token[i]);
} // for
printf("\" (");
switch (tokenval)
{
#define TOKENCASE(x) case x: printf("%s", #x); break
TOKENCASE(TOKEN_UNKNOWN);
TOKENCASE(TOKEN_IDENTIFIER);
TOKENCASE(TOKEN_INT_LITERAL);
TOKENCASE(TOKEN_FLOAT_LITERAL);
TOKENCASE(TOKEN_STRING_LITERAL);
TOKENCASE(TOKEN_ADDASSIGN);
TOKENCASE(TOKEN_SUBASSIGN);
TOKENCASE(TOKEN_MULTASSIGN);
TOKENCASE(TOKEN_DIVASSIGN);
TOKENCASE(TOKEN_MODASSIGN);
TOKENCASE(TOKEN_XORASSIGN);
TOKENCASE(TOKEN_ANDASSIGN);
TOKENCASE(TOKEN_ORASSIGN);
TOKENCASE(TOKEN_INCREMENT);
TOKENCASE(TOKEN_DECREMENT);
TOKENCASE(TOKEN_RSHIFT);
TOKENCASE(TOKEN_LSHIFT);
TOKENCASE(TOKEN_ANDAND);
TOKENCASE(TOKEN_OROR);
TOKENCASE(TOKEN_LEQ);
TOKENCASE(TOKEN_GEQ);
TOKENCASE(TOKEN_EQL);
TOKENCASE(TOKEN_NEQ);
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TOKENCASE(TOKEN_HASH);
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TOKENCASE(TOKEN_HASHHASH);
TOKENCASE(TOKEN_PP_INCLUDE);
TOKENCASE(TOKEN_PP_LINE);
TOKENCASE(TOKEN_PP_DEFINE);
TOKENCASE(TOKEN_PP_UNDEF);
TOKENCASE(TOKEN_PP_IF);
TOKENCASE(TOKEN_PP_IFDEF);
TOKENCASE(TOKEN_PP_IFNDEF);
TOKENCASE(TOKEN_PP_ELSE);
TOKENCASE(TOKEN_PP_ELIF);
TOKENCASE(TOKEN_PP_ENDIF);
TOKENCASE(TOKEN_PP_ERROR);
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TOKENCASE(TOKEN_INCOMPLETE_COMMENT);
TOKENCASE(TOKEN_BAD_CHARS);
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TOKENCASE(TOKEN_EOI);
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TOKENCASE(TOKEN_PREPROCESSING_ERROR);
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#undef TOKENCASE
case ((Token) '\n'):
printf("'\\n'");
break;
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case ((Token) '\\'):
printf("'\\\\'");
break;
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default:
assert(((int)tokenval) < 256);
printf("'%c'", (char) tokenval);
break;
} // switch
printf(")\n");
} // MOJOSHADER_print_debug_token
#endif
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#if !MOJOSHADER_FORCE_INCLUDE_CALLBACKS
// !!! FIXME: most of these _MSC_VER should probably be _WINDOWS?
#ifdef _MSC_VER
#define WIN32_LEAN_AND_MEAN 1
#include <windows.h> // GL headers need this for WINGDIAPI definition.
#else
#include <sys/stat.h>
#include <fcntl.h>
#include <unistd.h>
#endif
int MOJOSHADER_internal_include_open(MOJOSHADER_includeType inctype,
const char *fname, const char *parent,
const char **outdata,
unsigned int *outbytes,
MOJOSHADER_malloc m, MOJOSHADER_free f,
void *d)
{
#ifdef _MSC_VER
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WCHAR wpath[MAX_PATH];
if (!MultiByteToWideChar(CP_UTF8, 0, fname, -1, wpath, MAX_PATH))
return 0;
const DWORD share = FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE;
const HANDLE handle = CreateFileW(wpath, FILE_GENERIC_READ, share,
NULL, OPEN_EXISTING, NULL, NULL);
if (handle == INVALID_HANDLE_VALUE)
return 0;
const DWORD fileSize = GetFileSize(handle, NULL);
if (fileSize == INVALID_FILE_SIZE)
{
CloseHandle(handle);
return 0;
} // if
char *data = (char *) m(fileSize, d);
if (data == NULL)
{
CloseHandle(handle);
return 0;
} // if
DWORD readLength = 0;
if (!ReadFile(handle, data, fileSize, &readLength, NULL))
{
CloseHandle(handle);
f(data, d);
return 0;
} // if
CloseHandle(handle);
if (readLength != fileSize)
{
f(data, d);
return 0;
} // if
*outdata = data;
*outbytes = fileSize;
return 1;
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#else
struct stat statbuf;
if (stat(fname, &statbuf) == -1)
return 0;
char *data = (char *) m(statbuf.st_size, d);
if (data == NULL)
return 0;
const int fd = open(fname, O_RDONLY);
if (fd == -1)
{
f(data, d);
return 0;
} // if
if (read(fd, data, statbuf.st_size) != statbuf.st_size)
{
f(data, d);
close(fd);
return 0;
} // if
close(fd);
*outdata = data;
*outbytes = (unsigned int) statbuf.st_size;
return 1;
#endif
} // MOJOSHADER_internal_include_open
void MOJOSHADER_internal_include_close(const char *data, MOJOSHADER_malloc m,
MOJOSHADER_free f, void *d)
{
f((void *) data, d);
} // MOJOSHADER_internal_include_close
#endif // !MOJOSHADER_FORCE_INCLUDE_CALLBACKS
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// data buffer stuff...
#define BUFFER_LEN (64 * 1024)
typedef struct BufferList
{
char buffer[BUFFER_LEN];
size_t bytes;
struct BufferList *next;
} BufferList;
typedef struct Buffer
{
size_t total_bytes;
BufferList head;
BufferList *tail;
} Buffer;
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static void init_buffer(Buffer *buffer)
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{
buffer->total_bytes = 0;
buffer->head.bytes = 0;
buffer->head.next = NULL;
buffer->tail = &buffer->head;
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} // init_buffer
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static int add_to_buffer(Buffer *buffer, const char *data,
size_t len, MOJOSHADER_malloc m, void *d)
{
buffer->total_bytes += len;
while (len > 0)
{
const size_t avail = BUFFER_LEN - buffer->tail->bytes;
const size_t cpy = (avail > len) ? len : avail;
memcpy(buffer->tail->buffer + buffer->tail->bytes, data, cpy);
len -= cpy;
data += cpy;
buffer->tail->bytes += cpy;
assert(buffer->tail->bytes <= BUFFER_LEN);
if (buffer->tail->bytes == BUFFER_LEN)
{
BufferList *item = (BufferList *) m(sizeof (BufferList), d);
if (item == NULL)
return 0;
item->bytes = 0;
item->next = NULL;
buffer->tail->next = item;
buffer->tail = item;
} // if
} // while
return 1;
} // add_to_buffer
static char *flatten_buffer(Buffer *buffer, MOJOSHADER_malloc m, void *d)
{
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char *retval = (char *) m(buffer->total_bytes + 1, d);
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if (retval == NULL)
return NULL;
BufferList *item = &buffer->head;
char *ptr = retval;
while (item != NULL)
{
BufferList *next = item->next;
memcpy(ptr, item->buffer, item->bytes);
ptr += item->bytes;
item = next;
} // while
*ptr = '\0';
assert(ptr == (retval + buffer->total_bytes));
return retval;
} // flatten_buffer
static void free_buffer(Buffer *buffer, MOJOSHADER_free f, void *d)
{
// head is statically allocated, so start with head.next...
BufferList *item = buffer->head.next;
while (item != NULL)
{
BufferList *next = item->next;
f(item, d);
item = next;
} // while
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init_buffer(buffer);
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} // free_buffer
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// !!! FIXME: maybe use these pool magic elsewhere?
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// Pool stuff...
// ugh, I hate this macro salsa.
#define FREE_POOL(type, poolname) \
static void free_##poolname##_pool(Context *ctx) { \
type *item = ctx->poolname##_pool; \
while (item != NULL) { \
type *next = item->next; \
Free(ctx, item); \
item = next; \
} \
}
#define GET_POOL(type, poolname) \
static type *get_##poolname(Context *ctx) { \
type *retval = ctx->poolname##_pool; \
if (retval != NULL) \
ctx->poolname##_pool = retval->next; \
else \
retval = (type *) Malloc(ctx, sizeof (type)); \
if (retval != NULL) \
memset(retval, '\0', sizeof (type)); \
return retval; \
}
#define PUT_POOL(type, poolname) \
static void put_##poolname(Context *ctx, type *item) { \
item->next = ctx->poolname##_pool; \
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ctx->poolname##_pool = item; \
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}
#define IMPLEMENT_POOL(type, poolname) \
FREE_POOL(type, poolname) \
GET_POOL(type, poolname) \
PUT_POOL(type, poolname)
IMPLEMENT_POOL(Conditional, conditional)
IMPLEMENT_POOL(IncludeState, include)
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IMPLEMENT_POOL(Define, define)
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// Preprocessor define hashtable stuff...
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// !!! FIXME: why isn't this using mojoshader_common.c's code?
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// this is djb's xor hashing function.
static inline uint32 hash_string_djbxor(const char *sym)
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{
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register uint32 hash = 5381;
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while (*sym)
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hash = ((hash << 5) + hash) ^ *(sym++);
return hash;
} // hash_string_djbxor
static inline uint8 hash_define(const char *sym)
{
return (uint8) hash_string_djbxor(sym);
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} // hash_define
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static int add_define(Context *ctx, const char *sym, const char *val,
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char **parameters, int paramcount)
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{
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const uint8 hash = hash_define(sym);
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Define *bucket = ctx->define_hashtable[hash];
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while (bucket)
{
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if (strcmp(bucket->identifier, sym) == 0)
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{
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failf(ctx, "'%s' already defined", sym); // !!! FIXME: warning?
// !!! FIXME: gcc reports the location of previous #define here.
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return 0;
} // if
bucket = bucket->next;
} // while
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bucket = get_define(ctx);
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if (bucket == NULL)
return 0;
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bucket->definition = val;
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bucket->original = NULL;
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bucket->identifier = sym;
bucket->parameters = (const char **) parameters;
bucket->paramcount = paramcount;
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bucket->next = ctx->define_hashtable[hash];
ctx->define_hashtable[hash] = bucket;
return 1;
} // add_define
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static void free_define(Context *ctx, Define *def)
{
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int i;
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for (i = 0; i < def->paramcount; i++)
Free(ctx, (void *) def->parameters[i]);
Free(ctx, (void *) def->parameters);
Free(ctx, (void *) def->identifier);
Free(ctx, (void *) def->definition);
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Free(ctx, (void *) def->original);
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put_define(ctx, def);
} // free_define
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static int remove_define(Context *ctx, const char *sym)
{
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const uint8 hash = hash_define(sym);
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Define *bucket = ctx->define_hashtable[hash];
Define *prev = NULL;
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while (bucket)
{
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if (strcmp(bucket->identifier, sym) == 0)
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{
if (prev == NULL)
ctx->define_hashtable[hash] = bucket->next;
else
prev->next = bucket->next;
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free_define(ctx, bucket);
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return 1;
} // if
prev = bucket;
bucket = bucket->next;
} // while
return 0;
} // remove_define
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static const Define *find_define(Context *ctx, const char *sym)
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{
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const uint8 hash = hash_define(sym);
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Define *bucket = ctx->define_hashtable[hash];
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while (bucket)
{
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if (strcmp(bucket->identifier, sym) == 0)
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return bucket;
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bucket = bucket->next;
} // while
return NULL;
} // find_define
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static const Define *find_define_by_token(Context *ctx)
{
IncludeState *state = ctx->include_stack;
assert(state->tokenval == TOKEN_IDENTIFIER);
char *sym = (char *) alloca(state->tokenlen+1);
memcpy(sym, state->token, state->tokenlen);
sym[state->tokenlen] = '\0';
return find_define(ctx, sym);
} // find_define_by_token
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static const Define *find_macro_arg(const IncludeState *state,
const Define *defines)
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{
const Define *def = NULL;
char *sym = (char *) alloca(state->tokenlen + 1);
memcpy(sym, state->token, state->tokenlen);
sym[state->tokenlen] = '\0';
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for (def = defines; def != NULL; def = def->next)
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{
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assert(def->parameters == NULL); // args can't have args!
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assert(def->paramcount == 0); // args can't have args!
if (strcmp(def->identifier, sym) == 0)
break;
} // while
return def;
} // find_macro_arg
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static void put_all_defines(Context *ctx)
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{
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size_t i;
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for (i = 0; i < STATICARRAYLEN(ctx->define_hashtable); i++)
{
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Define *bucket = ctx->define_hashtable[i];
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ctx->define_hashtable[i] = NULL;
while (bucket)
{
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Define *next = bucket->next;
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free_define(ctx, bucket);
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bucket = next;
} // while
} // for
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} // put_all_defines
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static int push_source(Context *ctx, const char *fname, const char *source,
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unsigned int srclen, unsigned int linenum,
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MOJOSHADER_includeClose close_callback)
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{
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if (srclen == 0)
return 1; // nothing to do: just pretend you did it.
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IncludeState *state = get_include(ctx);
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if (state == NULL)
return 0;
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if (fname != NULL)
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{
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state->filename = stringcache(ctx->filename_cache, fname);
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if (state->filename == NULL)
{
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out_of_memory(ctx);
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put_include(ctx, state);
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return 0;
} // if
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} // if
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state->close_callback = close_callback;
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state->source_base = source;
state->source = source;
state->token = source;
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state->tokenval = ((Token) '\n');
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state->orig_length = srclen;
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state->bytes_left = srclen;
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state->line = linenum;
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state->next = ctx->include_stack;
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state->asm_comments = ctx->asm_comments;
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print_debug_lexing_position(state);
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ctx->include_stack = state;
return 1;
} // push_source
static void pop_source(Context *ctx)
{
IncludeState *state = ctx->include_stack;
if (state == NULL)
return;
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if (state->close_callback)
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{
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state->close_callback(state->source_base, ctx->malloc,
ctx->free, ctx->malloc_data);
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} // if
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// state->filename is a pointer to the filename cache; don't free it here!
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Conditional *cond = state->conditional_stack;
while (cond)
{
Conditional *next = cond->next;
put_conditional(ctx, cond);
cond = next;
} // while
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ctx->include_stack = state->next;
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print_debug_lexing_position(ctx->include_stack);
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put_include(ctx, state);
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} // pop_source
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static void close_define_include(const char *data, MOJOSHADER_malloc m,
MOJOSHADER_free f, void *d)
{
f((void *) data, d);
} // close_define_include
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Preprocessor *preprocessor_start(const char *fname, const char *source,
unsigned int sourcelen,
MOJOSHADER_includeOpen open_callback,
MOJOSHADER_includeClose close_callback,
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const MOJOSHADER_preprocessorDefine *defines,
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unsigned int define_count, int asm_comments,
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MOJOSHADER_malloc m, MOJOSHADER_free f, void *d)
{
int okay = 1;
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unsigned int i = 0;
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// the preprocessor is internal-only, so we verify all these are != NULL.
assert(m != NULL);
assert(f != NULL);
Context *ctx = (Context *) m(sizeof (Context), d);
if (ctx == NULL)
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return NULL;
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memset(ctx, '\0', sizeof (Context));
ctx->malloc = m;
ctx->free = f;
ctx->malloc_data = d;
ctx->open_callback = open_callback;
ctx->close_callback = close_callback;
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ctx->asm_comments = asm_comments;
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ctx->file_macro_special = 1;
ctx->line_macro_special = 1;
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ctx->filename_cache = stringcache_create(m, f, d);
if (ctx->filename_cache == 0)
{
f(ctx, d);
return NULL;
} // if
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// let the usual preprocessor parser sort these out.
char *define_include = NULL;
unsigned int define_include_len = 0;
if (define_count > 0)
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{
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for (i = 0; i < define_count; i++)
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{
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define_include_len += strlen(defines[i].identifier);
define_include_len += strlen(defines[i].definition);
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define_include_len += 10; // "#define<space><space><newline>"
} // for
define_include_len++; // for null terminator.
define_include = (char *) Malloc(ctx, define_include_len);
if (define_include == NULL)
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okay = 0;
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else
{
char *ptr = define_include;
for (i = 0; i < define_count; i++)
{
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ptr += sprintf(ptr, "#define %s %s\n", defines[i].identifier,
defines[i].definition);
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} // for
} // else
} // if
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if ((okay) && (!push_source(ctx,fname,source,sourcelen,1,NULL)))
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okay = 0;
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if ((okay) && (define_include != NULL))
{
okay = push_source(ctx, "<predefined macros>", define_include,
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define_include_len, 1, close_define_include);
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} // if
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if (!okay)
{
preprocessor_end((Preprocessor *) ctx);
return NULL;
} // if
return (Preprocessor *) ctx;
} // preprocessor_start
void preprocessor_end(Preprocessor *_ctx)
{
Context *ctx = (Context *) _ctx;
if (ctx == NULL)
return;
while (ctx->include_stack != NULL)
pop_source(ctx);
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736
put_all_defines(ctx);
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if (ctx->filename_cache != NULL)
stringcache_destroy(ctx->filename_cache);
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free_define_pool(ctx);
741
free_conditional_pool(ctx);
742
free_include_pool(ctx);
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Free(ctx, ctx);
} // preprocessor_end
int preprocessor_outofmemory(Preprocessor *_ctx)
{
Context *ctx = (Context *) _ctx;
return ctx->out_of_memory;
} // preprocessor_outofmemory
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static inline void pushback(IncludeState *state)
{
#if DEBUG_PREPROCESSOR
printf("PREPROCESSOR PUSHBACK\n");
#endif
assert(!state->pushedback);
state->pushedback = 1;
} // pushback
static Token lexer(IncludeState *state)
{
if (!state->pushedback)
return preprocessor_lexer(state);
state->pushedback = 0;
return state->tokenval;
} // lexer
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// !!! FIXME: parsing fails on preprocessor directives should skip rest of line.
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static int require_newline(IncludeState *state)
{
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const Token token = lexer(state);
pushback(state); // rewind no matter what.
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return ( (token == TOKEN_INCOMPLETE_COMMENT) || // call it an eol.
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(token == ((Token) '\n')) || (token == TOKEN_EOI) );
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} // require_newline
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static int token_to_int(IncludeState *state)
{
assert(state->tokenval == TOKEN_INT_LITERAL);
char *buf = (char *) alloca(state->tokenlen+1);
memcpy(buf, state->token, state->tokenlen);
buf[state->tokenlen] = '\0';
return atoi(buf);
} // token_to_int
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static void handle_pp_include(Context *ctx)
{
IncludeState *state = ctx->include_stack;
797
Token token = lexer(state);
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MOJOSHADER_includeType incltype;
char *filename = NULL;
int bogus = 0;
if (token == TOKEN_STRING_LITERAL)
incltype = MOJOSHADER_INCLUDETYPE_LOCAL;
else if (token == ((Token) '<'))
{
incltype = MOJOSHADER_INCLUDETYPE_SYSTEM;
// can't use lexer, since every byte between the < > pair is
// considered part of the filename. :/
while (!bogus)
{
if ( !(bogus = (state->bytes_left == 0)) )
{
const char ch = *state->source;
if ( !(bogus = ((ch == '\r') || (ch == '\n'))) )
{
state->source++;
state->bytes_left--;
if (ch == '>')
break;
} // if
} // if
} // while
} // else if
else
{
bogus = 1;
} // else
if (!bogus)
{
state->token++; // skip '<' or '\"'...
const unsigned int len = ((unsigned int) (state->source-state->token));
filename = (char *) alloca(len);
memcpy(filename, state->token, len-1);
filename[len-1] = '\0';
837
bogus = !require_newline(state);
838
839
840
841
842
843
844
845
846
847
} // if
if (bogus)
{
fail(ctx, "Invalid #include directive");
return;
} // else
const char *newdata = NULL;
unsigned int newbytes = 0;
848
849
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851
852
853
if ((ctx->open_callback == NULL) || (ctx->close_callback == NULL))
{
fail(ctx, "Saw #include, but no include callbacks defined");
return;
} // if
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855
856
857
858
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860
861
if (!ctx->open_callback(incltype, filename, state->source_base,
&newdata, &newbytes, ctx->malloc,
ctx->free, ctx->malloc_data))
{
fail(ctx, "Include callback failed"); // !!! FIXME: better error
return;
} // if
862
MOJOSHADER_includeClose callback = ctx->close_callback;
863
if (!push_source(ctx, filename, newdata, newbytes, 1, callback))
864
865
866
867
868
869
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{
assert(ctx->out_of_memory);
ctx->close_callback(newdata, ctx->malloc, ctx->free, ctx->malloc_data);
} // if
} // handle_pp_include
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875
876
877
static void handle_pp_line(Context *ctx)
{
IncludeState *state = ctx->include_stack;
char *filename = NULL;
int linenum = 0;
int bogus = 0;
878
if (lexer(state) != TOKEN_INT_LITERAL)
879
880
bogus = 1;
else
881
linenum = token_to_int(state);
882
883
if (!bogus)
884
885
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887
888
889
890
891
892
{
Token t = lexer(state);
if (t == ((Token) '\n'))
{
state->line = linenum;
return;
}
bogus = (t != TOKEN_STRING_LITERAL);
}
893
894
895
896
if (!bogus)
{
state->token++; // skip '\"'...
897
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899
filename = (char *) alloca(state->tokenlen);
memcpy(filename, state->token, state->tokenlen-1);
filename[state->tokenlen-1] = '\0';
900
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902
903
904
905
906
907
908
bogus = !require_newline(state);
} // if
if (bogus)
{
fail(ctx, "Invalid #line directive");
return;
} // if
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911
const char *cached = stringcache(ctx->filename_cache, filename);
if (cached == NULL)
out_of_memory(ctx);
912
913
914
915
916
state->filename = cached;
state->line = linenum;
} // handle_pp_line
917
918
919
static void handle_pp_error(Context *ctx)
{
IncludeState *state = ctx->include_stack;
920
921
922
char *ptr = ctx->failstr;
int avail = sizeof (ctx->failstr) - 1;
int cpy = 0;
923
924
int done = 0;
925
926
927
928
929
930
931
const char *prefix = "#error";
const size_t prefixlen = strlen(prefix);
strcpy(ctx->failstr, prefix);
avail -= prefixlen;
ptr += prefixlen;
state->report_whitespace = 1;
932
933
while (!done)
{
934
const Token token = lexer(state);
935
936
937
switch (token)
{
case ((Token) '\n'):
938
939
940
state->line--; // make sure error is on the right line.
// fall through!
case TOKEN_INCOMPLETE_COMMENT:
941
case TOKEN_EOI:
942
pushback(state); // move back so we catch this later.
943
944
945
done = 1;
break;
946
case ((Token) ' '):
947
948
949
950
951
952
if (!avail)
break;
*(ptr++) = ' ';
avail--;
break;
953
default:
954
cpy = Min(avail, (int) state->tokenlen);
955
956
957
958
if (cpy)
memcpy(ptr, state->token, cpy);
ptr += cpy;
avail -= cpy;
959
960
961
962
break;
} // switch
} // while
963
964
*ptr = '\0';
state->report_whitespace = 0;
965
966
967
968
ctx->isfail = 1;
} // handle_pp_error
969
970
971
static void handle_pp_define(Context *ctx)
{
IncludeState *state = ctx->include_stack;
972
int done = 0;
973
974
if (lexer(state) != TOKEN_IDENTIFIER)
975
{
976
fail(ctx, "Macro names must be identifiers");
977
978
979
return;
} // if
980
981
982
983
char *definition = NULL;
char *sym = (char *) Malloc(ctx, state->tokenlen+1);
if (sym == NULL)
return;
984
985
memcpy(sym, state->token, state->tokenlen);
sym[state->tokenlen] = '\0';
986
987
988
989
990
991
992
993
if (strcmp(sym, "defined") == 0)
{
Free(ctx, sym);
fail(ctx, "'defined' cannot be used as a macro name");
return;
} // if
994
995
996
997
998
999
1000
// Don't treat these symbols as special anymore if they get (re)#defined.
if (strcmp(sym, "__FILE__") == 0)
{
if (ctx->file_macro_special)
failf(ctx, "'%s' already defined", sym); // !!! FIXME: warning?
ctx->file_macro_special = 0;
} // if