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|
/*
* Copyright 2003 Tungsten Graphics, inc.
* 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
* on the rights to use, copy, modify, merge, publish, distribute, sub
* license, 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 (including the next
* paragraph) 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 NON-INFRINGEMENT. IN NO EVENT SHALL
* TUNGSTEN GRAPHICS AND/OR THEIR SUPPLIERS 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.
*
* Authors:
* Keith Whitwell <keithw@tungstengraphics.com>
*/
#include "pipe/p_config.h"
#include "pipe/p_compiler.h"
#include "util/u_memory.h"
#include "util/u_math.h"
#include "translate.h"
#if defined(PIPE_ARCH_X86)
#include "rtasm/rtasm_cpu.h"
#include "rtasm/rtasm_x86sse.h"
#define X 0
#define Y 1
#define Z 2
#define W 3
typedef void (PIPE_CDECL *run_func)( struct translate *translate,
unsigned start,
unsigned count,
void *output_buffer );
typedef void (PIPE_CDECL *run_elts_func)( struct translate *translate,
const unsigned *elts,
unsigned count,
void *output_buffer );
struct translate_buffer {
const void *base_ptr;
unsigned stride;
void *ptr; /* updated per vertex */
};
struct translate_sse {
struct translate translate;
struct x86_function linear_func;
struct x86_function elt_func;
struct x86_function *func;
boolean loaded_identity;
boolean loaded_255;
boolean loaded_inv_255;
float identity[4];
float float_255[4];
float inv_255[4];
struct translate_buffer buffer[PIPE_MAX_ATTRIBS];
unsigned nr_buffers;
run_func gen_run;
run_elts_func gen_run_elts;
/* these are actually known values, but putting them in a struct
* like this is helpful to keep them in sync across the file.
*/
struct x86_reg tmp_EAX;
struct x86_reg idx_EBX; /* either start+i or &elt[i] */
struct x86_reg outbuf_ECX;
struct x86_reg machine_EDX;
struct x86_reg count_ESI; /* decrements to zero */
};
static int get_offset( const void *a, const void *b )
{
return (const char *)b - (const char *)a;
}
static struct x86_reg get_identity( struct translate_sse *p )
{
struct x86_reg reg = x86_make_reg(file_XMM, 6);
if (!p->loaded_identity) {
p->loaded_identity = TRUE;
p->identity[0] = 0;
p->identity[1] = 0;
p->identity[2] = 0;
p->identity[3] = 1;
sse_movups(p->func, reg,
x86_make_disp(p->machine_EDX,
get_offset(p, &p->identity[0])));
}
return reg;
}
static struct x86_reg get_255( struct translate_sse *p )
{
struct x86_reg reg = x86_make_reg(file_XMM, 7);
if (!p->loaded_255) {
p->loaded_255 = TRUE;
p->float_255[0] =
p->float_255[1] =
p->float_255[2] =
p->float_255[3] = 255.0f;
sse_movups(p->func, reg,
x86_make_disp(p->machine_EDX,
get_offset(p, &p->float_255[0])));
}
return reg;
}
static struct x86_reg get_inv_255( struct translate_sse *p )
{
struct x86_reg reg = x86_make_reg(file_XMM, 5);
if (!p->loaded_inv_255) {
p->loaded_inv_255 = TRUE;
p->inv_255[0] =
p->inv_255[1] =
p->inv_255[2] =
p->inv_255[3] = 1.0f / 255.0f;
sse_movups(p->func, reg,
x86_make_disp(p->machine_EDX,
get_offset(p, &p->inv_255[0])));
}
return reg;
}
static void emit_load_R32G32B32A32( struct translate_sse *p,
struct x86_reg data,
struct x86_reg arg0 )
{
sse_movups(p->func, data, arg0);
}
static void emit_load_R32G32B32( struct translate_sse *p,
struct x86_reg data,
struct x86_reg arg0 )
{
/* Have to jump through some hoops:
*
* c 0 0 0
* c 0 0 1
* 0 0 c 1
* a b c 1
*/
sse_movss(p->func, data, x86_make_disp(arg0, 8));
sse_shufps(p->func, data, get_identity(p), SHUF(X,Y,Z,W) );
sse_shufps(p->func, data, data, SHUF(Y,Z,X,W) );
sse_movlps(p->func, data, arg0);
}
static void emit_load_R32G32( struct translate_sse *p,
struct x86_reg data,
struct x86_reg arg0 )
{
/* 0 0 0 1
* a b 0 1
*/
sse_movups(p->func, data, get_identity(p) );
sse_movlps(p->func, data, arg0);
}
static void emit_load_R32( struct translate_sse *p,
struct x86_reg data,
struct x86_reg arg0 )
{
/* a 0 0 0
* a 0 0 1
*/
sse_movss(p->func, data, arg0);
sse_orps(p->func, data, get_identity(p) );
}
static void emit_load_R8G8B8A8_UNORM( struct translate_sse *p,
struct x86_reg data,
struct x86_reg src )
{
/* Load and unpack twice:
*/
sse_movss(p->func, data, src);
sse2_punpcklbw(p->func, data, get_identity(p));
sse2_punpcklbw(p->func, data, get_identity(p));
/* Convert to float:
*/
sse2_cvtdq2ps(p->func, data, data);
/* Scale by 1/255.0
*/
sse_mulps(p->func, data, get_inv_255(p));
}
static void emit_store_R32G32B32A32( struct translate_sse *p,
struct x86_reg dest,
struct x86_reg dataXMM )
{
sse_movups(p->func, dest, dataXMM);
}
static void emit_store_R32G32B32( struct translate_sse *p,
struct x86_reg dest,
struct x86_reg dataXMM )
{
/* Emit two, shuffle, emit one.
*/
sse_movlps(p->func, dest, dataXMM);
sse_shufps(p->func, dataXMM, dataXMM, SHUF(Z,Z,Z,Z) ); /* NOTE! destructive */
sse_movss(p->func, x86_make_disp(dest,8), dataXMM);
}
static void emit_store_R32G32( struct translate_sse *p,
struct x86_reg dest,
struct x86_reg dataXMM )
{
sse_movlps(p->func, dest, dataXMM);
}
static void emit_store_R32( struct translate_sse *p,
struct x86_reg dest,
struct x86_reg dataXMM )
{
sse_movss(p->func, dest, dataXMM);
}
static void emit_store_R8G8B8A8_UNORM( struct translate_sse *p,
struct x86_reg dest,
struct x86_reg dataXMM )
{
/* Scale by 255.0
*/
sse_mulps(p->func, dataXMM, get_255(p));
/* Pack and emit:
*/
sse2_cvtps2dq(p->func, dataXMM, dataXMM);
sse2_packssdw(p->func, dataXMM, dataXMM);
sse2_packuswb(p->func, dataXMM, dataXMM);
sse_movss(p->func, dest, dataXMM);
}
/* Extended swizzles? Maybe later.
*/
static void emit_swizzle( struct translate_sse *p,
struct x86_reg dest,
struct x86_reg src,
unsigned char shuffle )
{
sse_shufps(p->func, dest, src, shuffle);
}
static boolean translate_attr( struct translate_sse *p,
const struct translate_element *a,
struct x86_reg srcECX,
struct x86_reg dstEAX)
{
struct x86_reg dataXMM = x86_make_reg(file_XMM, 0);
switch (a->input_format) {
case PIPE_FORMAT_R32_FLOAT:
emit_load_R32(p, dataXMM, srcECX);
break;
case PIPE_FORMAT_R32G32_FLOAT:
emit_load_R32G32(p, dataXMM, srcECX);
break;
case PIPE_FORMAT_R32G32B32_FLOAT:
emit_load_R32G32B32(p, dataXMM, srcECX);
break;
case PIPE_FORMAT_R32G32B32A32_FLOAT:
emit_load_R32G32B32A32(p, dataXMM, srcECX);
break;
case PIPE_FORMAT_B8G8R8A8_UNORM:
emit_load_R8G8B8A8_UNORM(p, dataXMM, srcECX);
emit_swizzle(p, dataXMM, dataXMM, SHUF(Z,Y,X,W));
break;
case PIPE_FORMAT_R8G8B8A8_UNORM:
emit_load_R8G8B8A8_UNORM(p, dataXMM, srcECX);
break;
default:
return FALSE;
}
switch (a->output_format) {
case PIPE_FORMAT_R32_FLOAT:
emit_store_R32(p, dstEAX, dataXMM);
break;
case PIPE_FORMAT_R32G32_FLOAT:
emit_store_R32G32(p, dstEAX, dataXMM);
break;
case PIPE_FORMAT_R32G32B32_FLOAT:
emit_store_R32G32B32(p, dstEAX, dataXMM);
break;
case PIPE_FORMAT_R32G32B32A32_FLOAT:
emit_store_R32G32B32A32(p, dstEAX, dataXMM);
break;
case PIPE_FORMAT_B8G8R8A8_UNORM:
emit_swizzle(p, dataXMM, dataXMM, SHUF(Z,Y,X,W));
emit_store_R8G8B8A8_UNORM(p, dstEAX, dataXMM);
break;
case PIPE_FORMAT_R8G8B8A8_UNORM:
emit_store_R8G8B8A8_UNORM(p, dstEAX, dataXMM);
break;
default:
return FALSE;
}
return TRUE;
}
static boolean init_inputs( struct translate_sse *p,
boolean linear )
{
unsigned i;
if (linear) {
for (i = 0; i < p->nr_buffers; i++) {
struct x86_reg buf_stride = x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[i].stride));
struct x86_reg buf_ptr = x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[i].ptr));
struct x86_reg buf_base_ptr = x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[i].base_ptr));
struct x86_reg elt = p->idx_EBX;
struct x86_reg tmp = p->tmp_EAX;
/* Calculate pointer to first attrib:
*/
x86_mov(p->func, tmp, buf_stride);
x86_imul(p->func, tmp, elt);
x86_add(p->func, tmp, buf_base_ptr);
/* In the linear case, keep the buffer pointer instead of the
* index number.
*/
if (p->nr_buffers == 1)
x86_mov( p->func, elt, tmp );
else
x86_mov( p->func, buf_ptr, tmp );
}
}
return TRUE;
}
static struct x86_reg get_buffer_ptr( struct translate_sse *p,
boolean linear,
unsigned buf_idx,
struct x86_reg elt )
{
if (linear && p->nr_buffers == 1) {
return p->idx_EBX;
}
else if (linear) {
struct x86_reg ptr = p->tmp_EAX;
struct x86_reg buf_ptr =
x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[buf_idx].ptr));
x86_mov(p->func, ptr, buf_ptr);
return ptr;
}
else {
struct x86_reg ptr = p->tmp_EAX;
struct x86_reg buf_stride =
x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[buf_idx].stride));
struct x86_reg buf_base_ptr =
x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[buf_idx].base_ptr));
/* Calculate pointer to current attrib:
*/
x86_mov(p->func, ptr, buf_stride);
x86_imul(p->func, ptr, elt);
x86_add(p->func, ptr, buf_base_ptr);
return ptr;
}
}
static boolean incr_inputs( struct translate_sse *p,
boolean linear )
{
if (linear && p->nr_buffers == 1) {
struct x86_reg stride = x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[0].stride));
x86_add(p->func, p->idx_EBX, stride);
sse_prefetchnta(p->func, x86_make_disp(p->idx_EBX, 192));
}
else if (linear) {
unsigned i;
/* Is this worthwhile??
*/
for (i = 0; i < p->nr_buffers; i++) {
struct x86_reg buf_ptr = x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[i].ptr));
struct x86_reg buf_stride = x86_make_disp(p->machine_EDX,
get_offset(p, &p->buffer[i].stride));
x86_mov(p->func, p->tmp_EAX, buf_ptr);
x86_add(p->func, p->tmp_EAX, buf_stride);
if (i == 0) sse_prefetchnta(p->func, x86_make_disp(p->tmp_EAX, 192));
x86_mov(p->func, buf_ptr, p->tmp_EAX);
}
}
else {
x86_lea(p->func, p->idx_EBX, x86_make_disp(p->idx_EBX, 4));
}
return TRUE;
}
/* Build run( struct translate *machine,
* unsigned start,
* unsigned count,
* void *output_buffer )
* or
* run_elts( struct translate *machine,
* unsigned *elts,
* unsigned count,
* void *output_buffer )
*
* Lots of hardcoding
*
* EAX -- pointer to current output vertex
* ECX -- pointer to current attribute
*
*/
static boolean build_vertex_emit( struct translate_sse *p,
struct x86_function *func,
boolean linear )
{
int fixup, label;
unsigned j;
p->tmp_EAX = x86_make_reg(file_REG32, reg_AX);
p->idx_EBX = x86_make_reg(file_REG32, reg_BX);
p->outbuf_ECX = x86_make_reg(file_REG32, reg_CX);
p->machine_EDX = x86_make_reg(file_REG32, reg_DX);
p->count_ESI = x86_make_reg(file_REG32, reg_SI);
p->func = func;
p->loaded_inv_255 = FALSE;
p->loaded_255 = FALSE;
p->loaded_identity = FALSE;
x86_init_func(p->func);
/* Push a few regs?
*/
x86_push(p->func, p->idx_EBX);
x86_push(p->func, p->count_ESI);
/* Load arguments into regs:
*/
x86_mov(p->func, p->machine_EDX, x86_fn_arg(p->func, 1));
x86_mov(p->func, p->idx_EBX, x86_fn_arg(p->func, 2));
x86_mov(p->func, p->count_ESI, x86_fn_arg(p->func, 3));
x86_mov(p->func, p->outbuf_ECX, x86_fn_arg(p->func, 4));
/* Get vertex count, compare to zero
*/
x86_xor(p->func, p->tmp_EAX, p->tmp_EAX);
x86_cmp(p->func, p->count_ESI, p->tmp_EAX);
fixup = x86_jcc_forward(p->func, cc_E);
/* always load, needed or not:
*/
init_inputs(p, linear);
/* Note address for loop jump
*/
label = x86_get_label(p->func);
{
struct x86_reg elt = linear ? p->idx_EBX : x86_deref(p->idx_EBX);
int last_vb = -1;
struct x86_reg vb;
for (j = 0; j < p->translate.key.nr_elements; j++) {
const struct translate_element *a = &p->translate.key.element[j];
/* Figure out source pointer address:
*/
if (a->input_buffer != last_vb) {
last_vb = a->input_buffer;
vb = get_buffer_ptr(p, linear, a->input_buffer, elt);
}
if (!translate_attr( p, a,
x86_make_disp(vb, a->input_offset),
x86_make_disp(p->outbuf_ECX, a->output_offset)))
return FALSE;
}
/* Next output vertex:
*/
x86_lea(p->func,
p->outbuf_ECX,
x86_make_disp(p->outbuf_ECX,
p->translate.key.output_stride));
/* Incr index
*/
incr_inputs( p, linear );
}
/* decr count, loop if not zero
*/
x86_dec(p->func, p->count_ESI);
x86_jcc(p->func, cc_NZ, label);
/* Exit mmx state?
*/
if (p->func->need_emms)
mmx_emms(p->func);
/* Land forward jump here:
*/
x86_fixup_fwd_jump(p->func, fixup);
/* Pop regs and return
*/
x86_pop(p->func, p->count_ESI);
x86_pop(p->func, p->idx_EBX);
x86_ret(p->func);
return TRUE;
}
static void translate_sse_set_buffer( struct translate *translate,
unsigned buf,
const void *ptr,
unsigned stride )
{
struct translate_sse *p = (struct translate_sse *)translate;
if (buf < p->nr_buffers) {
p->buffer[buf].base_ptr = (char *)ptr;
p->buffer[buf].stride = stride;
}
if (0) debug_printf("%s %d/%d: %p %d\n",
__FUNCTION__, buf,
p->nr_buffers,
ptr, stride);
}
static void translate_sse_release( struct translate *translate )
{
struct translate_sse *p = (struct translate_sse *)translate;
x86_release_func( &p->linear_func );
x86_release_func( &p->elt_func );
FREE(p);
}
static void PIPE_CDECL translate_sse_run_elts( struct translate *translate,
const unsigned *elts,
unsigned count,
void *output_buffer )
{
struct translate_sse *p = (struct translate_sse *)translate;
p->gen_run_elts( translate,
elts,
count,
output_buffer );
}
static void PIPE_CDECL translate_sse_run( struct translate *translate,
unsigned start,
unsigned count,
unsigned instance_id,
void *output_buffer )
{
struct translate_sse *p = (struct translate_sse *)translate;
p->gen_run( translate,
start,
count,
output_buffer );
}
struct translate *translate_sse2_create( const struct translate_key *key )
{
struct translate_sse *p = NULL;
unsigned i;
if (!rtasm_cpu_has_sse() || !rtasm_cpu_has_sse2())
goto fail;
p = CALLOC_STRUCT( translate_sse );
if (p == NULL)
goto fail;
p->translate.key = *key;
p->translate.release = translate_sse_release;
p->translate.set_buffer = translate_sse_set_buffer;
p->translate.run_elts = translate_sse_run_elts;
p->translate.run = translate_sse_run;
for (i = 0; i < key->nr_elements; i++)
p->nr_buffers = MAX2( p->nr_buffers, key->element[i].input_buffer + 1 );
if (0) debug_printf("nr_buffers: %d\n", p->nr_buffers);
if (!build_vertex_emit(p, &p->linear_func, TRUE))
goto fail;
if (!build_vertex_emit(p, &p->elt_func, FALSE))
goto fail;
p->gen_run = (run_func)x86_get_func(&p->linear_func);
if (p->gen_run == NULL)
goto fail;
p->gen_run_elts = (run_elts_func)x86_get_func(&p->elt_func);
if (p->gen_run_elts == NULL)
goto fail;
return &p->translate;
fail:
if (p)
translate_sse_release( &p->translate );
return NULL;
}
#else
struct translate *translate_sse2_create( const struct translate_key *key )
{
return NULL;
}
#endif
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