/**

* 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.

*/

// !!! FIXME: this should probably use a formal grammar and not a hand-written

// !!! FIXME: pile of C code.

#define __MOJOSHADER_INTERNAL__ 1

#include "mojoshader_internal.h"

#if !SUPPORT_PROFILE_BYTECODE

#error Shader assembler needs bytecode profile. Fix your build.

#endif

#define print_debug_token(token, len, val) \

MOJOSHADER_print_debug_token("ASSEMBLER", token, len, val)

#else

#define print_debug_token(token, len, val)

#endif

typedef struct SourcePos

{

const char *filename;

uint32 line;

} SourcePos;

// Context...this is state that changes as we assemble a shader...

int isfail;

int out_of_memory;

MOJOSHADER_malloc malloc;

MOJOSHADER_free free;

void *malloc_data;

int error_count;

ErrorList *errors;

MOJOSHADER_shaderType shader_type;

uint8 major_ver;

uint8 minor_ver;

int pushedback;

const char *token; // assembler token!

unsigned int tokenlen; // assembler token!

Token tokenval; // assembler token!

uint32 version_token; // bytecode token!

uint32 tokenbuf[16]; // bytecode tokens!

int tokenbufpos; // bytecode tokens!

uint8 *ctab;

uint32 ctab_len;

uint32 ctab_allocation;

size_t output_len;

size_t output_allocation;

// Convenience functions for allocators...

} // 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 char *StrDup(Context *ctx, const char *str)

{

char *retval = (char *) Malloc(ctx, strlen(str) + 1);

strcpy(retval, str);

return retval;

} // StrDup

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 void failf(Context *ctx, const char *fmt, ...) ISPRINTF(2,3);

static void failf(Context *ctx, const char *fmt, ...)

const char *fname = NULL;

unsigned int linenum = 0;

int error_position = 0;

ctx->isfail = 1;

switch (ctx->parse_phase)

{

case MOJOSHADER_PARSEPHASE_NOTSTARTED:

error_position = -2;

break;

case MOJOSHADER_PARSEPHASE_WORKING:

fname = preprocessor_sourcepos(ctx->preprocessor, &linenum);

error_position = (int) linenum;

break;

case MOJOSHADER_PARSEPHASE_DONE:

error_position = -1;

break;

default:

assert(0 && "Unexpected value");

return;

} // switch

ErrorList *error = (ErrorList *) Malloc(ctx, sizeof (ErrorList));

if (error == NULL)

return;

char scratch = 0;

va_list ap;

va_start(ap, fmt);

const int len = vsnprintf(&scratch, sizeof (scratch), fmt, ap);

va_end(ap);

char *failstr = (char *) Malloc(ctx, len + 1);

if (failstr == NULL)

Free(ctx, error);

else

{

va_start(ap, fmt);

va_end(ap);

error->error.error = failstr;

error->error.filename = fname ? StrDup(ctx, fname) : NULL;

error->error.error_position = error_position;

ErrorList *prev = NULL;

ErrorList *item = ctx->errors;

while (item != NULL)

} // while

else

prev->next = error;

ctx->error_count++;

} // else

} // failf

} // fail

static inline int isfail(const Context *ctx)

{

} // isfail

// Shader model version magic...

static inline uint32 ver_ui32(const uint8 major, const uint8 minor)

{

return ( (((uint32) major) << 16) | (((minor) == 0xFF) ? 0 : (minor)) );

} // version_ui32

static inline int shader_version_atleast(const Context *ctx, const uint8 maj,

const uint8 min)

{

return (ver_ui32(ctx->major_ver, ctx->minor_ver) >= ver_ui32(maj, min));

} // shader_version_atleast

static inline int shader_is_pixel(const Context *ctx)

{

return (ctx->shader_type == MOJOSHADER_TYPE_PIXEL);

} // shader_is_pixel

static inline int shader_is_vertex(const Context *ctx)

{

return (ctx->shader_type == MOJOSHADER_TYPE_VERTEX);

} // shader_is_vertex

static inline void pushback(Context *ctx)

{

printf("ASSEMBLER PUSHBACK\n");

#endif

assert(!ctx->pushedback);

ctx->pushedback = 1;

} // pushback

static Token nexttoken(Context *ctx)

{

if (ctx->pushedback)

ctx->pushedback = 0;

ctx->token = preprocessor_nexttoken(ctx->preprocessor,

&ctx->tokenlen,

&ctx->tokenval);

if (preprocessor_outofmemory(ctx->preprocessor))

{

out_of_memory(ctx);

ctx->tokenval = TOKEN_EOI;

ctx->token = NULL;

ctx->tokenlen = 0;

break;

} // if

else if (ctx->tokenval == TOKEN_PREPROCESSING_ERROR)

{

fail(ctx, ctx->token);

continue;

} // else if

break;

} // while

} // else

} // nexttoken

static inline void add_token_sourcepos(Context *ctx, const size_t idx)

{

unsigned int pos = 0;

const char *fname = preprocessor_sourcepos(ctx->preprocessor, &pos);

ctx->token_to_source[idx].line = pos;

} // add_token_sourcepos

static void output_token_noswap(Context *ctx, const uint32 token)

{

if (isfail(ctx))

return;

if (ctx->output_len >= ctx->output_allocation)

{

const size_t output_alloc_bump = 1024; // that's tokens, not bytes.

const size_t newsize = ctx->output_allocation + output_alloc_bump;

void *ptr;

ptr = Malloc(ctx, newsize * sizeof (uint32));

if (ptr == NULL)

return;

if (ctx->output_len > 0)

memcpy(ptr, ctx->output, ctx->output_len * sizeof (uint32));

Free(ctx, ctx->output);

ctx->output = (uint32 *) ptr;

if (ptr == NULL)

return;

if (ctx->output_len > 0)

memcpy(ptr, ctx->token_to_source, ctx->output_len * sizeof (SourcePos));

Free(ctx, ctx->token_to_source);

ctx->token_to_source = (SourcePos *) ptr;

ctx->output_allocation = newsize;

} // if

} // output_token_noswap

static inline void output_token(Context *ctx, const uint32 token)

{

output_token_noswap(ctx, SWAP32(token));

} // output_token

static void output_comment_bytes(Context *ctx, const uint8 *buf, size_t len)

{

if (len > (0xFFFF * 4)) // length is stored as token count, in 16 bits.

fail(ctx, "Comment field is too big");

else if (!isfail(ctx))

{

const uint32 tokencount = (len / 4) + ((len % 4) ? 1 : 0);

output_token(ctx, 0xFFFE | (tokencount << 16));

while (len >= 4)

{

output_token_noswap(ctx, *((const uint32 *) buf));

len -= 4;

buf += 4;

} // while

if (len > 0) // handle spillover...

{

union { uint8 ui8[4]; uint32 ui32; } overflow;

overflow.ui32 = 0;

memcpy(overflow.ui8, buf, len);

output_token_noswap(ctx, overflow.ui32);

} // if

} // else if

} // output_comment_bytes

static inline void output_comment_string(Context *ctx, const char *str)

{

output_comment_bytes(ctx, (const uint8 *) str, strlen(str));

} // output_comment_string

const Token token = nexttoken(ctx);

if (token != ((Token) ','))

fail(ctx, "Comma expected");

return 0;

return 1;

} // require_comma

// !!! FIXME: these are case-insensitive, right?

const size_t len = strlen(str);

if ( (ctx->tokenlen < len) || (strncasecmp(ctx->token, str, len) != 0) )

return 0;

ctx->token += len;

ctx->tokenlen -= len;

return 1;

} // check_token_segment

const size_t len = strlen(str);

if ( (ctx->tokenlen != len) || (strncasecmp(ctx->token, str, len) != 0) )

ctx->token += len;

ctx->tokenlen = 0;

for (i = 0; i < ctx->tokenlen; i++)

{

if ((ctx->token[i] < '0') || (ctx->token[i] > '9'))

break;

} // for

*_val = 0;

return 0;

} // if

uint32 val = 0;

uint32 mult = 1;

while (i--)

val += ((uint32) (ctx->token[i] - '0')) * mult;

mult *= 10;

} // while

ctx->token += len;

ctx->tokenlen -= len;

static int parse_register_name(Context *ctx, RegisterType *rtype, int *rnum)

{

if (nexttoken(ctx) != TOKEN_IDENTIFIER)

{

fail(ctx, "Expected register");

int neednum = 1;

int regnum = 0;

RegisterType regtype = REG_TYPE_TEMP;

// Watch out for substrings! oDepth must be checked before oD, since

// the latter will match either case.

if (check_token_segment(ctx, "oDepth"))

{

regtype = REG_TYPE_DEPTHOUT;

neednum = 0;

} // else if

regtype = REG_TYPE_MISCTYPE;

regnum = (int) MISCTYPE_TYPE_FACE;

neednum = 0;

} // else if

{

regtype = REG_TYPE_MISCTYPE;

regnum = (int) MISCTYPE_TYPE_POSITION;

neednum = 0;

} // else if

{

regtype = REG_TYPE_RASTOUT;

regnum = (int) RASTOUT_TYPE_POSITION;

neednum = 0;

} // else if

{

regtype = REG_TYPE_RASTOUT;

regnum = (int) RASTOUT_TYPE_FOG;

neednum = 0;

} // else if

{

regtype = REG_TYPE_RASTOUT;

regnum = (int) RASTOUT_TYPE_POINT_SIZE;

neednum = 0;

} // else if

else if (check_token_segment(ctx, "aL"))

{

regtype = REG_TYPE_LOOP;

neednum = 0;

} // else if

else if (check_token_segment(ctx, "oC"))

regtype = REG_TYPE_COLOROUT;

else if (check_token_segment(ctx, "oT"))

regtype = REG_TYPE_OUTPUT;

else if (check_token_segment(ctx, "oD"))

regtype = REG_TYPE_ATTROUT;

else if (check_token_segment(ctx, "r"))

regtype = REG_TYPE_TEMP;

else if (check_token_segment(ctx, "v"))

regtype = REG_TYPE_INPUT;

else if (check_token_segment(ctx, "c"))

regtype = REG_TYPE_CONST;

else if (check_token_segment(ctx, "i"))

regtype = REG_TYPE_CONSTINT;

else if (check_token_segment(ctx, "b"))

regtype = REG_TYPE_CONSTBOOL;

else if (check_token_segment(ctx, "s"))

regtype = REG_TYPE_SAMPLER;

else if (check_token_segment(ctx, "l"))

regtype = REG_TYPE_LABEL;

else if (check_token_segment(ctx, "p"))

regtype = REG_TYPE_PREDICATE;

else if (check_token_segment(ctx, "o"))

regtype = REG_TYPE_OUTPUT;

else if (check_token_segment(ctx, "a"))

regtype = REG_TYPE_ADDRESS;

else if (check_token_segment(ctx, "t"))

regtype = REG_TYPE_ADDRESS;

//case REG_TYPE_TEMPFLOAT16: // !!! FIXME: don't know this asm string

else

{

fail(ctx, "expected register type");

regtype = REG_TYPE_CONST;

regnum = 0;

neednum = 0;

} // else

// "c[5]" is the same as "c5", so if the token is done, see if next is '['.

if ((neednum) && (ctx->tokenlen == 0))

} // if

if (neednum)

{

} // if

// split up REG_TYPE_CONST

if (regtype == REG_TYPE_CONST)

{

if (regnum < 2048)

{

regtype = REG_TYPE_CONST;

regnum -= 0;

} // if

else if (regnum < 4096)

{

regtype = REG_TYPE_CONST2;

regnum -= 2048;

} // if

else if (regnum < 6144)

{

regtype = REG_TYPE_CONST3;

regnum -= 4096;

} // if

else if (regnum < 8192)

{

regtype = REG_TYPE_CONST4;

regnum -= 6144;

} // if

else

{

} // else

} // if

*rtype = regtype;

*rnum = regnum;

} // parse_register_name

info->result_shift = val;

} // set_result_shift

static inline int tokenbuf_overflow(Context *ctx)

{

if ( ctx->tokenbufpos >= ((int) (STATICARRAYLEN(ctx->tokenbuf))) )

{

fail(ctx, "Too many tokens");

return 1;

} // if

return 0;

} // tokenbuf_overflow

// parse_instruction_token() sets ctx->token to the end of the instruction

// so we can see if there are destination modifiers on the instruction

// itself...

int invalid_modifier = 0;

while ((ctx->tokenlen > 0) && (!invalid_modifier))

{

if (check_token_segment(ctx, "_x2"))

set_result_shift(ctx, info, 0x1);

else if (check_token_segment(ctx, "_x4"))

set_result_shift(ctx, info, 0x2);

else if (check_token_segment(ctx, "_x8"))

set_result_shift(ctx, info, 0x3);

else if (check_token_segment(ctx, "_d8"))

set_result_shift(ctx, info, 0xD);

else if (check_token_segment(ctx, "_d4"))

set_result_shift(ctx, info, 0xE);

else if (check_token_segment(ctx, "_d2"))

set_result_shift(ctx, info, 0xF);

else if (check_token_segment(ctx, "_sat"))

info->result_mod |= MOD_CENTROID;

else

} // while

if (invalid_modifier)

fail(ctx, "Invalid destination modifier");

// !!! FIXME: predicates.

fail(ctx, "Predicates unsupported at this time"); // !!! FIXME: ...

pushback(ctx); // parse_register_name calls nexttoken().

// parse_register_name() can't check this: dest regs might have modifiers.

if (ctx->tokenlen > 0)

fail(ctx, "invalid register name");

// !!! FIXME: can dest registers do relative addressing?

info->writemask = 0xF;

info->writemask0 = info->writemask1 = info->writemask2 = info->writemask3 = 1;

pushback(ctx); // no explicit writemask; do full mask.

} // if

// !!! FIXME: Cg generates code with oDepth.z ... this is a bug, I think.

//else if (scalar_register(ctx->shader_type, info->regtype, info->regnum))

else if ( (scalar_register(ctx->shader_type, info->regtype, info->regnum)) && (info->regtype != REG_TYPE_DEPTHOUT) )

else

{

char tokenbytes[5] = { '\0', '\0', '\0', '\0', '\0' };

const unsigned int tokenlen = ctx->tokenlen;

memcpy(tokenbytes, ctx->token, ((tokenlen < 4) ? tokenlen : 4));

char *ptr = tokenbytes;

if ((*ptr == 'r') || (*ptr == 'x')) { info->writemask0 = 1; ptr++; }

if ((*ptr == 'g') || (*ptr == 'y')) { info->writemask1 = 1; ptr++; }

if ((*ptr == 'b') || (*ptr == 'z')) { info->writemask2 = 1; ptr++; }

if ((*ptr == 'a') || (*ptr == 'w')) { info->writemask3 = 1; ptr++; }

if (*ptr != '\0')

info->writemask = ( ((info->writemask0 & 0x1) << 0) |

((info->writemask1 & 0x1) << 1) |

((info->writemask2 & 0x1) << 2) |

((info->writemask3 & 0x1) << 3) );

} // else

if (invalid_writemask)

fail(ctx, "Invalid writemask");