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#if defined(USE_X86_ASM)
#include "x86sse.h"
#define DISASSEM 0
#define X86_TWOB 0x0f
/* Emit bytes to the instruction stream:
*/
static void emit_1b( struct x86_function *p, GLbyte b0 )
{
*(GLbyte *)(p->csr++) = b0;
}
static void emit_1i( struct x86_function *p, GLint i0 )
{
*(GLint *)(p->csr) = i0;
p->csr += 4;
}
static void disassem( struct x86_function *p, const char *fn )
{
#if DISASSEM
static const char *last_fn;
if (fn && fn != last_fn) {
_mesa_printf("0x%x: %s\n", p->csr, fn);
last_fn = fn;
}
#endif
}
static void emit_1ub_fn( struct x86_function *p, GLubyte b0, const char *fn )
{
disassem(p, fn);
*(p->csr++) = b0;
}
static void emit_2ub_fn( struct x86_function *p, GLubyte b0, GLubyte b1, const char *fn )
{
disassem(p, fn);
*(p->csr++) = b0;
*(p->csr++) = b1;
}
static void emit_3ub_fn( struct x86_function *p, GLubyte b0, GLubyte b1, GLubyte b2, const char *fn )
{
disassem(p, fn);
*(p->csr++) = b0;
*(p->csr++) = b1;
*(p->csr++) = b2;
}
#define emit_1ub(p, b0) emit_1ub_fn(p, b0, __FUNCTION__)
#define emit_2ub(p, b0, b1) emit_2ub_fn(p, b0, b1, __FUNCTION__)
#define emit_3ub(p, b0, b1, b2) emit_3ub_fn(p, b0, b1, b2, __FUNCTION__)
/* Build a modRM byte + possible displacement. No treatment of SIB
* indexing. BZZT - no way to encode an absolute address.
*/
static void emit_modrm( struct x86_function *p,
struct x86_reg reg,
struct x86_reg regmem )
{
GLubyte val = 0;
assert(reg.mod == mod_REG);
val |= regmem.mod << 6; /* mod field */
val |= reg.idx << 3; /* reg field */
val |= regmem.idx; /* r/m field */
emit_1ub_fn(p, val, 0);
/* Oh-oh we've stumbled into the SIB thing.
*/
if (regmem.idx == reg_SP) {
emit_1ub_fn(p, 0x24, 0); /* simplistic! */
}
switch (regmem.mod) {
case mod_REG:
case mod_INDIRECT:
break;
case mod_DISP8:
emit_1b(p, regmem.disp);
break;
case mod_DISP32:
emit_1i(p, regmem.disp);
break;
default:
assert(0);
break;
}
}
/* Many x86 instructions have two opcodes to cope with the situations
* where the destination is a register or memory reference
* respectively. This function selects the correct opcode based on
* the arguments presented.
*/
static void emit_op_modrm( struct x86_function *p,
GLubyte op_dst_is_reg,
GLubyte op_dst_is_mem,
struct x86_reg dst,
struct x86_reg src )
{
switch (dst.mod) {
case mod_REG:
emit_1ub_fn(p, op_dst_is_reg, 0);
emit_modrm(p, dst, src);
break;
case mod_INDIRECT:
case mod_DISP32:
case mod_DISP8:
assert(src.mod == mod_REG);
emit_1ub_fn(p, op_dst_is_mem, 0);
emit_modrm(p, src, dst);
break;
default:
assert(0);
break;
}
}
/* Create and manipulate registers and regmem values:
*/
struct x86_reg x86_make_reg( GLuint file,
GLuint idx )
{
struct x86_reg reg;
reg.file = file;
reg.idx = idx;
reg.mod = mod_REG;
reg.disp = 0;
return reg;
}
struct x86_reg x86_make_disp( struct x86_reg reg,
GLint disp )
{
assert(reg.file == file_REG32);
if (reg.mod == mod_REG)
reg.disp = disp;
else
reg.disp += disp;
if (reg.disp == 0)
reg.mod = mod_INDIRECT;
else if (reg.disp <= 127 && reg.disp >= -128)
reg.mod = mod_DISP8;
else
reg.mod = mod_DISP32;
return reg;
}
struct x86_reg x86_deref( struct x86_reg reg )
{
return x86_make_disp(reg, 0);
}
struct x86_reg x86_get_base_reg( struct x86_reg reg )
{
return x86_make_reg( reg.file, reg.idx );
}
/* Labels, jumps and fixup:
*/
GLubyte *x86_get_label( struct x86_function *p )
{
return p->csr;
}
void x86_jcc( struct x86_function *p,
GLuint cc,
GLubyte *label )
{
GLint offset = label - (x86_get_label(p) + 2);
if (offset <= 127 && offset >= -128) {
emit_1ub(p, 0x70 + cc);
emit_1b(p, (GLbyte) offset);
}
else {
offset = label - (x86_get_label(p) + 6);
emit_2ub(p, 0x0f, 0x80 + cc);
emit_1i(p, offset);
}
}
/* Always use a 32bit offset for forward jumps:
*/
GLubyte *x86_jcc_forward( struct x86_function *p,
GLuint cc )
{
emit_2ub(p, 0x0f, 0x80 + cc);
emit_1i(p, 0);
return x86_get_label(p);
}
/* Fixup offset from forward jump:
*/
void x86_fixup_fwd_jump( struct x86_function *p,
GLubyte *fixup )
{
*(int *)(fixup - 4) = x86_get_label(p) - fixup;
}
void x86_push( struct x86_function *p,
struct x86_reg reg )
{
assert(reg.mod == mod_REG);
emit_1ub(p, 0x50 + reg.idx);
p->stack_offset += 4;
}
void x86_pop( struct x86_function *p,
struct x86_reg reg )
{
assert(reg.mod == mod_REG);
emit_1ub(p, 0x58 + reg.idx);
p->stack_offset -= 4;
}
void x86_inc( struct x86_function *p,
struct x86_reg reg )
{
assert(reg.mod == mod_REG);
emit_1ub(p, 0x40 + reg.idx);
}
void x86_dec( struct x86_function *p,
struct x86_reg reg )
{
assert(reg.mod == mod_REG);
emit_1ub(p, 0x48 + reg.idx);
}
void x86_ret( struct x86_function *p )
{
emit_1ub(p, 0xc3);
}
void mmx_emms( struct x86_function *p )
{
assert(p->need_emms);
emit_2ub(p, 0x0f, 0x77);
p->need_emms = 0;
}
void x86_mov( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_op_modrm( p, 0x8b, 0x89, dst, src );
}
void x86_xor( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_op_modrm( p, 0x33, 0x31, dst, src );
}
void x86_cmp( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_op_modrm( p, 0x3b, 0x39, dst, src );
}
void sse2_movd( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_2ub(p, 0x66, X86_TWOB);
emit_op_modrm( p, 0x6e, 0x7e, dst, src );
}
void mmx_movd( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
p->need_emms = 1;
emit_1ub(p, X86_TWOB);
emit_op_modrm( p, 0x6e, 0x7e, dst, src );
}
void mmx_movq( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
p->need_emms = 1;
emit_1ub(p, X86_TWOB);
emit_op_modrm( p, 0x6f, 0x7f, dst, src );
}
void sse_movss( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_2ub(p, 0xF3, X86_TWOB);
emit_op_modrm( p, 0x10, 0x11, dst, src );
}
void sse_movaps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_1ub(p, X86_TWOB);
emit_op_modrm( p, 0x28, 0x29, dst, src );
}
void sse_movups( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_1ub(p, X86_TWOB);
emit_op_modrm( p, 0x10, 0x11, dst, src );
}
void sse_movhps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.mod != mod_REG || src.mod != mod_REG);
emit_1ub(p, X86_TWOB);
emit_op_modrm( p, 0x16, 0x17, dst, src ); /* cf movlhps */
}
void sse_movlps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.mod != mod_REG || src.mod != mod_REG);
emit_1ub(p, X86_TWOB);
emit_op_modrm( p, 0x12, 0x13, dst, src ); /* cf movhlps */
}
/* SSE operations often only have one format, with dest constrained to
* be a register:
*/
void sse_mulps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_2ub(p, X86_TWOB, 0x59);
emit_modrm( p, dst, src );
}
void sse_addps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_2ub(p, X86_TWOB, 0x58);
emit_modrm( p, dst, src );
}
void sse_movhlps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.mod == mod_REG && src.mod == mod_REG);
emit_2ub(p, X86_TWOB, 0x12);
emit_modrm( p, dst, src );
}
void sse_movlhps( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.mod == mod_REG && src.mod == mod_REG);
emit_2ub(p, X86_TWOB, 0x16);
emit_modrm( p, dst, src );
}
void sse2_cvtps2dq( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_3ub(p, 0x66, X86_TWOB, 0x5B);
emit_modrm( p, dst, src );
}
void sse2_packssdw( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_3ub(p, 0x66, X86_TWOB, 0x6B);
emit_modrm( p, dst, src );
}
void sse2_packsswb( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_3ub(p, 0x66, X86_TWOB, 0x63);
emit_modrm( p, dst, src );
}
void sse2_packuswb( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_3ub(p, 0x66, X86_TWOB, 0x67);
emit_modrm( p, dst, src );
}
void sse_cvtps2pi( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.file == file_MMX &&
(src.file == file_XMM || src.mod != mod_REG));
p->need_emms = 1;
emit_2ub(p, X86_TWOB, 0x2d);
emit_modrm( p, dst, src );
}
void mmx_packssdw( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.file == file_MMX &&
(src.file == file_MMX || src.mod != mod_REG));
p->need_emms = 1;
emit_2ub(p, X86_TWOB, 0x6b);
emit_modrm( p, dst, src );
}
void mmx_packuswb( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
assert(dst.file == file_MMX &&
(src.file == file_MMX || src.mod != mod_REG));
p->need_emms = 1;
emit_2ub(p, X86_TWOB, 0x67);
emit_modrm( p, dst, src );
}
/* Load effective address:
*/
void x86_lea( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_1ub(p, 0x8d);
emit_modrm( p, dst, src );
}
void x86_test( struct x86_function *p,
struct x86_reg dst,
struct x86_reg src )
{
emit_1ub(p, 0x85);
emit_modrm( p, dst, src );
}
/**
* Perform a reduced swizzle:
*/
void sse2_pshufd( struct x86_function *p,
struct x86_reg dest,
struct x86_reg arg0,
GLubyte x,
GLubyte y,
GLubyte z,
GLubyte w)
{
emit_3ub(p, 0x66, X86_TWOB, 0x70);
emit_modrm(p, dest, arg0);
emit_1ub(p, (x|(y<<2)|(z<<4)|w<<6));
}
/* Shufps can also be used to implement a reduced swizzle when dest ==
* arg0.
*/
void sse_shufps( struct x86_function *p,
struct x86_reg dest,
struct x86_reg arg0,
GLubyte x,
GLubyte y,
GLubyte z,
GLubyte w)
{
emit_2ub(p, X86_TWOB, 0xC6);
emit_modrm(p, dest, arg0);
emit_1ub(p, (x|(y<<2)|(z<<4)|w<<6));
}
/* Retreive a reference to one of the function arguments, taking into
* account any push/pop activity:
*/
struct x86_reg x86_fn_arg( struct x86_function *p,
GLuint arg )
{
return x86_make_disp(x86_make_reg(file_REG32, reg_SP),
p->stack_offset + arg * 4); /* ??? */
}
void x86_init_func( struct x86_function *p )
{
p->store = malloc(1024);
p->csr = p->store;
}
void x86_release_func( struct x86_function *p )
{
free(p->store);
}
void (*x86_get_func( struct x86_function *p ))(void)
{
return (void (*)())p->store;
}
#else
void x86sse_dummy( void )
{
}
#endif
|
