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|
/*
* Mesa 3-D graphics library
* Version: 6.1
*
* Copyright (C) 1999-2004 Brian Paul All Rights Reserved.
*
* 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
* BRIAN PAUL 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.
*/
/* An amusing little utility to print ARB fragment programs out as a C
* function. Resulting code not tested except visually.
*/
#include "glheader.h"
#include "colormac.h"
#include "context.h"
#include "nvfragprog.h"
#include "macros.h"
#include "program.h"
#include "s_nvfragprog.h"
#include "s_span.h"
#include "s_texture.h"
#ifdef USE_TCC
/* UREG - a way of representing an FP source register including
* swizzling and negation in a single GLuint. Major flaw is the
* limitiation to source->Index < 32. Secondary flaw is the fact that
* it's overkill & we could probably just pass around the original
* datatypes instead.
*/
#define UREG_TYPE_TEMP 0
#define UREG_TYPE_INTERP 1
#define UREG_TYPE_LOCAL_CONST 2
#define UREG_TYPE_ENV_CONST 3
#define UREG_TYPE_STATE_CONST 4
#define UREG_TYPE_PARAM 5
#define UREG_TYPE_OUTPUT 6
#define UREG_TYPE_MASK 0x7
#define UREG_TYPE_SHIFT 29
#define UREG_NR_SHIFT 24
#define UREG_NR_MASK 0x1f /* 31 */
#define UREG_CHANNEL_X_NEGATE_SHIFT 23
#define UREG_CHANNEL_X_SHIFT 20
#define UREG_CHANNEL_Y_NEGATE_SHIFT 19
#define UREG_CHANNEL_Y_SHIFT 16
#define UREG_CHANNEL_Z_NEGATE_SHIFT 15
#define UREG_CHANNEL_Z_SHIFT 12
#define UREG_CHANNEL_W_NEGATE_SHIFT 11
#define UREG_CHANNEL_W_SHIFT 8
#define UREG_CHANNEL_ZERO_NEGATE_MBZ 5
#define UREG_CHANNEL_ZERO_SHIFT 4
#define UREG_CHANNEL_ONE_NEGATE_MBZ 1
#define UREG_CHANNEL_ONE_SHIFT 0
#define UREG_BAD 0xffffffff /* not a valid ureg */
#define _X 0
#define _Y 1
#define _Z 2
#define _W 3
#define _ZERO 4 /* NOTE! */
#define _ONE 5 /* NOTE! */
/* Construct a ureg:
*/
#define UREG( type, nr ) (((type)<< UREG_TYPE_SHIFT) | \
((nr) << UREG_NR_SHIFT) | \
(_X << UREG_CHANNEL_X_SHIFT) | \
(_Y << UREG_CHANNEL_Y_SHIFT) | \
(_Z << UREG_CHANNEL_Z_SHIFT) | \
(_W << UREG_CHANNEL_W_SHIFT) | \
(_ZERO << UREG_CHANNEL_ZERO_SHIFT) | \
(_ONE << UREG_CHANNEL_ONE_SHIFT))
#define GET_CHANNEL_SRC( reg, channel ) ((reg<<(channel*4)) & \
(0xf<<UREG_CHANNEL_X_SHIFT))
#define CHANNEL_SRC( src, channel ) (src>>(channel*4))
#define GET_UREG_TYPE(reg) (((reg)>>UREG_TYPE_SHIFT)&UREG_TYPE_MASK)
#define GET_UREG_NR(reg) (((reg)>>UREG_NR_SHIFT)&UREG_NR_MASK)
#define UREG_XYZW_CHANNEL_MASK 0x00ffff00
#define deref(reg,pos) swizzle(reg, pos, pos, pos, pos)
static INLINE int is_swizzled( int reg )
{
return ((reg & UREG_XYZW_CHANNEL_MASK) !=
(UREG(0,0) & UREG_XYZW_CHANNEL_MASK));
}
/* One neat thing about the UREG representation:
*/
static INLINE int swizzle( int reg, int x, int y, int z, int w )
{
return ((reg & ~UREG_XYZW_CHANNEL_MASK) |
CHANNEL_SRC( GET_CHANNEL_SRC( reg, x ), 0 ) |
CHANNEL_SRC( GET_CHANNEL_SRC( reg, y ), 1 ) |
CHANNEL_SRC( GET_CHANNEL_SRC( reg, z ), 2 ) |
CHANNEL_SRC( GET_CHANNEL_SRC( reg, w ), 3 ));
}
/* Another neat thing about the UREG representation:
*/
static INLINE int negate( int reg, int x, int y, int z, int w )
{
return reg ^ (((x&1)<<UREG_CHANNEL_X_NEGATE_SHIFT)|
((y&1)<<UREG_CHANNEL_Y_NEGATE_SHIFT)|
((z&1)<<UREG_CHANNEL_Z_NEGATE_SHIFT)|
((w&1)<<UREG_CHANNEL_W_NEGATE_SHIFT));
}
static GLuint src_reg_file( GLuint file )
{
switch (file) {
case PROGRAM_TEMPORARY: return UREG_TYPE_TEMP;
case PROGRAM_INPUT: return UREG_TYPE_INTERP;
case PROGRAM_LOCAL_PARAM: return UREG_TYPE_LOCAL_CONST;
case PROGRAM_ENV_PARAM: return UREG_TYPE_ENV_CONST;
case PROGRAM_STATE_VAR: return UREG_TYPE_STATE_CONST;
case PROGRAM_NAMED_PARAM: return UREG_TYPE_PARAM;
default: return UREG_BAD;
}
}
static void emit( struct fragment_program *p,
const char *fmt,
... )
{
va_list ap;
va_start( ap, fmt );
if (p->c_strlen < sizeof(p->c_str))
p->c_strlen += vsnprintf( p->c_str + p->c_strlen,
sizeof(p->c_str) - p->c_strlen,
fmt, ap );
va_end( ap );
}
static INLINE void emit_char( struct fragment_program *p, char c )
{
if (p->c_strlen < sizeof(p->c_str)) {
p->c_str[p->c_strlen] = c;
p->c_strlen++;
}
}
/**
* Retrieve a ureg for the given source register. Will emit
* constants, apply swizzling and negation as needed.
*/
static GLuint src_vector( const struct fp_src_register *source )
{
GLuint src;
assert(source->Index < 32); /* limitiation of UREG representation */
src = UREG( src_reg_file( source->File ), source->Index );
src = swizzle(src,
_X + source->Swizzle[0],
_X + source->Swizzle[1],
_X + source->Swizzle[2],
_X + source->Swizzle[3]);
if (source->NegateBase)
src = negate( src, 1,1,1,1 );
return src;
}
static void print_header( struct fragment_program *p )
{
emit(p, "\n\n\n");
/* Mesa's program_parameter struct:
*/
emit(p,
"struct program_parameter\n"
"{\n"
" const char *Name;\n"
" int Type;\n"
" int StateIndexes[6];\n"
" float Values[4];\n"
"};\n");
/* Texture samplers, not written yet:
*/
emit(p, "extern void TEX( void *ctx, const float *txc, int unit, float *rslt );\n"
"extern void TXB( void *ctx, const float *txc, int unit, float *rslt );\n"
"extern void TXP( void *ctx, const float *txc, int unit, float *rslt );\n");
/* Resort to the standard math library (float versions):
*/
emit(p, "extern float fabsf( float );\n"
"extern float cosf( float );\n"
"extern float sinf( float );\n"
"extern float expf( float );\n"
"extern float powf( float, float );\n"
"extern float floorf( float );\n");
/* These ones we have fast code in Mesa for:
*/
emit(p, "extern float LOG2( float );\n"
"extern float _mesa_inv_sqrtf( float );\n");
/* The usual macros, not really needed, but handy:
*/
emit(p, "#define MIN2(x,y) ((x)<(y)?(x):(y))\n"
"#define MAX2(x,y) ((x)<(y)?(x):(y))\n"
"#define SATURATE(x) ((x)>1.0?1.0:((x)<0.0?0.0:(x)))\n");
/* Our function!
*/
emit(p, "int run_program( void *ctx, \n"
" const float (*local_param)[4], \n"
" const float (*env_param)[4], \n"
" const struct program_parameter *state_param, \n"
" const float (*interp)[4], \n"
" float (*outputs)[4])\n"
"{\n"
" float temp[32][4];\n"
);
}
static void print_footer( struct fragment_program *p )
{
emit(p, " return 1;");
emit(p, "}\n");
}
static void print_dest_reg( struct fragment_program *p,
const struct fp_instruction *inst )
{
switch (inst->DstReg.File) {
case PROGRAM_OUTPUT:
emit(p, "outputs[%d]", inst->DstReg.Index);
break;
case PROGRAM_TEMPORARY:
emit(p, "temp[%d]", inst->DstReg.Index);
break;
default:
break;
}
}
static void print_dest( struct fragment_program *p,
const struct fp_instruction *inst,
GLuint idx )
{
print_dest_reg(p, inst);
emit(p, "[%d]", idx);
}
#define UREG_SRC0(reg) (((reg)>>UREG_CHANNEL_X_SHIFT) & 0x7)
static void print_reg( struct fragment_program *p,
GLuint arg )
{
switch (GET_UREG_TYPE(arg)) {
case UREG_TYPE_TEMP: emit(p, "temp"); break;
case UREG_TYPE_INTERP: emit(p, "interp"); break;
case UREG_TYPE_LOCAL_CONST: emit(p, "local_const"); break;
case UREG_TYPE_ENV_CONST: emit(p, "env_const"); break;
case UREG_TYPE_STATE_CONST: emit(p, "state_param"); break;
case UREG_TYPE_PARAM: emit(p, "local_param"); break;
};
emit(p, "[%d]", GET_UREG_NR(arg));
if (GET_UREG_TYPE(arg) == UREG_TYPE_STATE_CONST) {
emit(p, ".Values");
}
}
static void print_arg( struct fragment_program *p,
GLuint arg )
{
GLuint src = UREG_SRC0(arg);
if (src == _ZERO) {
emit(p, "0");
return;
}
if (arg & (1<<UREG_CHANNEL_X_NEGATE_SHIFT))
emit(p, "-");
if (src == _ONE) {
emit(p, "1");
return;
}
if (GET_UREG_TYPE(arg) == UREG_TYPE_STATE_CONST &&
p->Parameters->Parameters[GET_UREG_NR(arg)].Type == CONSTANT) {
emit(p, "%g", p->Parameters->Parameters[GET_UREG_NR(arg)].Values[src]);
return;
}
print_reg( p, arg );
switch (src){
case _X: emit(p, "[0]"); break;
case _Y: emit(p, "[1]"); break;
case _Z: emit(p, "[2]"); break;
case _W: emit(p, "[3]"); break;
}
}
/* This is where the handling of expressions breaks down into string
* processing:
*/
static void print_expression( struct fragment_program *p,
GLuint i,
const char *fmt,
va_list ap )
{
while (*fmt) {
if (*fmt == '%' && *(fmt+1) == 's') {
int reg = va_arg(ap, int);
/* Use of deref() is a bit of a hack:
*/
print_arg( p, deref(reg, i) );
fmt += 2;
}
else {
emit_char(p, *fmt);
fmt++;
}
}
emit(p, ";\n");
}
static void do_tex_kill( struct fragment_program *p,
const struct fp_instruction *inst,
GLuint arg )
{
GLuint i;
emit(p, "if (");
for (i = 0; i < 4; i++) {
print_arg( p, deref(arg, i) );
emit(p, " < 0 ");
if (i + 1 < 4)
emit(p, "|| ");
}
emit(p, ")\n");
emit(p, " return 0;\n");
}
static void do_tex_simple( struct fragment_program *p,
const struct fp_instruction *inst,
const char *fn, GLuint texunit, GLuint arg )
{
emit(p, " %s( ctx, ", fn);
print_reg( p, arg );
emit(p, ", %d, ", texunit );
print_dest_reg(p, inst);
emit(p, ");\n");
}
static void do_tex( struct fragment_program *p,
const struct fp_instruction *inst,
const char *fn, GLuint texunit, GLuint arg )
{
GLuint i;
GLboolean need_tex = GL_FALSE, need_result = GL_FALSE;
for (i = 0; i < 4; i++)
if (!inst->DstReg.WriteMask[i])
need_result = GL_TRUE;
if (is_swizzled(arg))
need_tex = GL_TRUE;
if (!need_tex && !need_result) {
do_tex_simple( p, inst, fn, texunit, arg );
return;
}
emit(p, " {\n");
emit(p, " float texcoord[4];\n");
emit(p, " float result[4];\n");
for (i = 0; i < 4; i++) {
emit(p, " texcoord[%d] = ", i);
print_arg( p, deref(arg, i) );
emit(p, ";\n");
}
emit(p, " %s( ctx, texcoord, %d, result);\n", fn, texunit );
for (i = 0; i < 4; i++) {
if (inst->DstReg.WriteMask[i]) {
emit(p, " ");
print_dest(p, inst, i);
emit(p, " = result[%d];\n", i);
}
}
emit(p, " }\n");
}
static void saturate( struct fragment_program *p,
const struct fp_instruction *inst,
GLuint i )
{
emit(p, " ");
print_dest(p, inst, i);
emit(p, " = SATURATE( ");
print_dest(p, inst, i);
emit(p, ");\n");
}
static void assign_single( GLuint i,
struct fragment_program *p,
const struct fp_instruction *inst,
const char *fmt,
... )
{
va_list ap;
va_start( ap, fmt );
if (inst->DstReg.WriteMask[i]) {
emit(p, " ");
print_dest(p, inst, i);
emit(p, " = ");
print_expression( p, i, fmt, ap);
if (inst->Saturate)
saturate(p, inst, i);
}
va_end( ap );
}
static void assign4( struct fragment_program *p,
const struct fp_instruction *inst,
const char *fmt,
... )
{
GLuint i;
va_list ap;
va_start( ap, fmt );
for (i = 0; i < 4; i++)
if (inst->DstReg.WriteMask[i]) {
emit(p, " ");
print_dest(p, inst, i);
emit(p, " = ");
print_expression( p, i, fmt, ap);
if (inst->Saturate)
saturate(p, inst, i);
}
va_end( ap );
}
static void assign4_replicate( struct fragment_program *p,
const struct fp_instruction *inst,
const char *fmt,
... )
{
GLuint i, first = 0;
GLboolean ok = 0;
va_list ap;
for (i = 0; i < 4; i++)
if (inst->DstReg.WriteMask[i]) {
ok = 1;
first = i;
break;
}
if (!ok) return;
va_start( ap, fmt );
emit(p, " ");
print_dest(p, inst, first);
emit(p, " = ");
print_expression( p, 0, fmt, ap);
if (inst->Saturate)
saturate(p, inst, first);
va_end( ap );
for (i = first+1; i < 4; i++)
if (inst->DstReg.WriteMask[i]) {
emit(p, " ");
print_dest(p, inst, i);
emit(p, " = ");
print_dest(p, inst, first);
emit(p, ";\n");
}
}
static GLuint nr_args( GLuint opcode )
{
switch (opcode) {
case FP_OPCODE_ABS: return 1;
case FP_OPCODE_ADD: return 2;
case FP_OPCODE_CMP: return 3;
case FP_OPCODE_COS: return 1;
case FP_OPCODE_DP3: return 2;
case FP_OPCODE_DP4: return 2;
case FP_OPCODE_DPH: return 2;
case FP_OPCODE_DST: return 2;
case FP_OPCODE_EX2: return 1;
case FP_OPCODE_FLR: return 1;
case FP_OPCODE_FRC: return 1;
case FP_OPCODE_KIL: return 1;
case FP_OPCODE_LG2: return 1;
case FP_OPCODE_LIT: return 1;
case FP_OPCODE_LRP: return 3;
case FP_OPCODE_MAD: return 3;
case FP_OPCODE_MAX: return 2;
case FP_OPCODE_MIN: return 2;
case FP_OPCODE_MOV: return 1;
case FP_OPCODE_MUL: return 2;
case FP_OPCODE_POW: return 2;
case FP_OPCODE_RCP: return 1;
case FP_OPCODE_RSQ: return 1;
case FP_OPCODE_SCS: return 1;
case FP_OPCODE_SGE: return 2;
case FP_OPCODE_SIN: return 1;
case FP_OPCODE_SLT: return 2;
case FP_OPCODE_SUB: return 2;
case FP_OPCODE_SWZ: return 1;
case FP_OPCODE_TEX: return 1;
case FP_OPCODE_TXB: return 1;
case FP_OPCODE_TXP: return 1;
case FP_OPCODE_XPD: return 2;
default: return 0;
}
}
static void translate_program( struct fragment_program *p )
{
const struct fp_instruction *inst = p->Instructions;
for (; inst->Opcode != FP_OPCODE_END; inst++) {
GLuint src[3], i;
GLuint nr = nr_args( inst->Opcode );
for (i = 0; i < nr; i++)
src[i] = src_vector( &inst->SrcReg[i] );
/* Print the original program instruction string */
if (p->Base.String)
{
const char *s = (const char *) p->Base.String + inst->StringPos;
emit(p, " /* ");
while (*s != ';') {
emit_char(p, *s);
s++;
}
emit(p, "; */\n");
}
switch (inst->Opcode) {
case FP_OPCODE_ABS:
assign4(p, inst, "fabsf(%s)", src[0]);
break;
case FP_OPCODE_ADD:
assign4(p, inst, "%s + %s", src[0], src[1]);
break;
case FP_OPCODE_CMP:
assign4(p, inst, "%s < 0.0F ? %s : %s", src[0], src[1], src[2]);
break;
case FP_OPCODE_COS:
assign4_replicate(p, inst, "COS(%s)", src[0]);
break;
case FP_OPCODE_DP3:
assign4_replicate(p, inst,
"%s*%s + %s*%s + %s*%s",
deref(src[0],_X),
deref(src[1],_X),
deref(src[0],_Y),
deref(src[1],_Y),
deref(src[0],_Z),
deref(src[1],_Z));
break;
case FP_OPCODE_DP4:
assign4_replicate(p, inst,
"%s*%s + %s*%s + %s*%s + %s*%s",
deref(src[0],_X),
deref(src[1],_X),
deref(src[0],_Y),
deref(src[1],_Y),
deref(src[0],_Z),
deref(src[1],_Z));
break;
case FP_OPCODE_DPH:
assign4_replicate(p, inst,
"%s*%s + %s*%s + %s*%s + %s",
deref(src[0],_X),
deref(src[1],_X),
deref(src[0],_Y),
deref(src[1],_Y),
deref(src[1],_Z));
break;
case FP_OPCODE_DST:
/* result[0] = 1 * 1;
* result[1] = a[1] * b[1];
* result[2] = a[2] * 1;
* result[3] = 1 * b[3];
*/
assign_single(0, p, inst, "1.0");
assign_single(1, p, inst, "%s * %s",
deref(src[0], _Y), deref(src[1], _Y));
assign_single(2, p, inst, "%s", deref(src[0], _Z));
assign_single(3, p, inst, "%s", deref(src[1], _W));
break;
case FP_OPCODE_EX2:
assign4_replicate(p, inst, "powf(2.0, %s)", src[0]);
break;
case FP_OPCODE_FLR:
assign4_replicate(p, inst, "floorf(%s)", src[0]);
break;
case FP_OPCODE_FRC:
assign4_replicate(p, inst, "%s - floorf(%s)", src[0], src[0]);
break;
case FP_OPCODE_KIL:
do_tex_kill(p, inst, src[0]);
break;
case FP_OPCODE_LG2:
assign4_replicate(p, inst, "LOG2(%s)", src[0]);
break;
case FP_OPCODE_LIT:
assign_single(0, p, inst, "1.0");
assign_single(1, p, inst, "MIN2(%s, 0)", deref(src[0], _X));
assign_single(2, p, inst, "(%s > 0.0) ? expf(%s * MIN2(%s, 0)) : 0.0",
deref(src[0], _X),
deref(src[0], _Z),
deref(src[0], _Y));
assign_single(3, p, inst, "1.0");
break;
case FP_OPCODE_LRP:
assign4(p, inst,
"%s * %s + (1.0 - %s) * %s",
src[0], src[1], src[0], src[2]);
break;
case FP_OPCODE_MAD:
assign4(p, inst, "%s * %s + %s", src[0], src[1], src[2]);
break;
case FP_OPCODE_MAX:
assign4(p, inst, "MAX2(%s, %s)", src[0], src[1]);
break;
case FP_OPCODE_MIN:
assign4(p, inst, "MIN2(%s, %s)", src[0], src[1]);
break;
case FP_OPCODE_MOV:
assign4(p, inst, "%s", src[0]);
break;
case FP_OPCODE_MUL:
assign4(p, inst, "%s * %s", src[0], src[1]);
break;
case FP_OPCODE_POW:
assign4_replicate(p, inst, "powf(%s, %s)", src[0], src[1]);
break;
case FP_OPCODE_RCP:
assign4_replicate(p, inst, "1.0/%s", src[0]);
break;
case FP_OPCODE_RSQ:
assign4_replicate(p, inst, "_mesa_inv_sqrtf(%s)", src[0]);
break;
case FP_OPCODE_SCS:
if (inst->DstReg.WriteMask[0]) {
assign_single(0, p, inst, "cosf(%s)", deref(src[0], _X));
}
if (inst->DstReg.WriteMask[1]) {
assign_single(1, p, inst, "sinf(%s)", deref(src[0], _X));
}
break;
case FP_OPCODE_SGE:
assign4(p, inst, "%s >= %s ? 1.0 : 0.0", src[0], src[1]);
break;
case FP_OPCODE_SIN:
assign4_replicate(p, inst, "sinf(%s)", src[0]);
break;
case FP_OPCODE_SLT:
assign4(p, inst, "%s < %s ? 1.0 : 0.0", src[0], src[1]);
break;
case FP_OPCODE_SUB:
assign4(p, inst, "%s - %s", src[0], src[1]);
break;
case FP_OPCODE_SWZ: /* same implementation as MOV: */
assign4(p, inst, "%s", src[0]);
break;
case FP_OPCODE_TEX:
do_tex(p, inst, "TEX", inst->TexSrcUnit, src[0]);
break;
case FP_OPCODE_TXB:
do_tex(p, inst, "TXB", inst->TexSrcUnit, src[0]);
break;
case FP_OPCODE_TXP:
do_tex(p, inst, "TXP", inst->TexSrcUnit, src[0]);
break;
case FP_OPCODE_XPD:
/* Cross product:
* result.x = src[0].y * src[1].z - src[0].z * src[1].y;
* result.y = src[0].z * src[1].x - src[0].x * src[1].z;
* result.z = src[0].x * src[1].y - src[0].y * src[1].x;
* result.w = undef;
*/
assign4(p, inst,
"%s * %s - %s * %s",
swizzle(src[0], _Y, _Z, _X, _ONE),
swizzle(src[1], _Z, _X, _Y, _ONE),
swizzle(src[0], _Z, _X, _Y, _ONE),
swizzle(src[1], _Y, _Z, _X, _ONE));
break;
default:
emit(p, "BOGUS OPCODE\n");
return;
}
}
}
void _swrast_translate_program( GLcontext *ctx )
{
struct fragment_program *p = ctx->FragmentProgram.Current;
if (p) {
p->c_strlen = 0;
print_header( p );
translate_program( p );
print_footer( p );
}
}
#endif /*USE_TCC*/
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