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|
/*
* Copyright © 2010 Intel Corporation
*
* 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 (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 NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS 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:
* Eric Anholt <eric@anholt.net>
*
*/
#include "main/macros.h"
#include "program/program.h"
#include "program/prog_print.h"
#include "brw_context.h"
#include "brw_defines.h"
#include "brw_eu.h"
const struct brw_instruction_info brw_opcodes[128] = {
[BRW_OPCODE_MOV] = { .name = "mov", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_FRC] = { .name = "frc", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_RNDU] = { .name = "rndu", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_RNDD] = { .name = "rndd", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_RNDE] = { .name = "rnde", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_RNDZ] = { .name = "rndz", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_NOT] = { .name = "not", .nsrc = 1, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_LZD] = { .name = "lzd", .nsrc = 1, .ndst = 1 },
[BRW_OPCODE_MUL] = { .name = "mul", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_MAC] = { .name = "mac", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_MACH] = { .name = "mach", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_LINE] = { .name = "line", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_PLN] = { .name = "pln", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_SAD2] = { .name = "sad2", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_SADA2] = { .name = "sada2", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_DP4] = { .name = "dp4", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_DPH] = { .name = "dph", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_DP3] = { .name = "dp3", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_DP2] = { .name = "dp2", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_MATH] = { .name = "math", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_AVG] = { .name = "avg", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_ADD] = { .name = "add", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_SEL] = { .name = "sel", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_AND] = { .name = "and", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_OR] = { .name = "or", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_XOR] = { .name = "xor", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_SHR] = { .name = "shr", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_SHL] = { .name = "shl", .nsrc = 2, .ndst = 1, .is_arith = 1 },
[BRW_OPCODE_ASR] = { .name = "asr", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_CMP] = { .name = "cmp", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_CMPN] = { .name = "cmpn", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_SEND] = { .name = "send", .nsrc = 1, .ndst = 1 },
[BRW_OPCODE_NOP] = { .name = "nop", .nsrc = 0, .ndst = 0 },
[BRW_OPCODE_JMPI] = { .name = "jmpi", .nsrc = 1, .ndst = 0 },
[BRW_OPCODE_IF] = { .name = "if", .nsrc = 2, .ndst = 0 },
[BRW_OPCODE_IFF] = { .name = "iff", .nsrc = 2, .ndst = 1 },
[BRW_OPCODE_WHILE] = { .name = "while", .nsrc = 2, .ndst = 0 },
[BRW_OPCODE_ELSE] = { .name = "else", .nsrc = 2, .ndst = 0 },
[BRW_OPCODE_BREAK] = { .name = "break", .nsrc = 2, .ndst = 0 },
[BRW_OPCODE_CONTINUE] = { .name = "cont", .nsrc = 1, .ndst = 0 },
[BRW_OPCODE_HALT] = { .name = "halt", .nsrc = 1, .ndst = 0 },
[BRW_OPCODE_MSAVE] = { .name = "msave", .nsrc = 1, .ndst = 1 },
[BRW_OPCODE_PUSH] = { .name = "push", .nsrc = 1, .ndst = 1 },
[BRW_OPCODE_MRESTORE] = { .name = "mrest", .nsrc = 1, .ndst = 1 },
[BRW_OPCODE_POP] = { .name = "pop", .nsrc = 2, .ndst = 0 },
[BRW_OPCODE_WAIT] = { .name = "wait", .nsrc = 1, .ndst = 0 },
[BRW_OPCODE_DO] = { .name = "do", .nsrc = 0, .ndst = 0 },
[BRW_OPCODE_ENDIF] = { .name = "endif", .nsrc = 2, .ndst = 0 },
};
static INLINE
GLboolean brw_is_arithmetic_inst(const struct brw_instruction *inst)
{
return brw_opcodes[inst->header.opcode].is_arith;
}
static const GLuint inst_stride[7] = {
[0] = 0,
[1] = 1,
[2] = 2,
[3] = 4,
[4] = 8,
[5] = 16,
[6] = 32
};
static const GLuint inst_type_size[8] = {
[BRW_REGISTER_TYPE_UD] = 4,
[BRW_REGISTER_TYPE_D] = 4,
[BRW_REGISTER_TYPE_UW] = 2,
[BRW_REGISTER_TYPE_W] = 2,
[BRW_REGISTER_TYPE_UB] = 1,
[BRW_REGISTER_TYPE_B] = 1,
[BRW_REGISTER_TYPE_F] = 4
};
static INLINE GLboolean
brw_is_grf_written(const struct brw_instruction *inst,
int reg_index, int size,
int gen)
{
if (brw_opcodes[inst->header.opcode].ndst == 0)
return GL_FALSE;
if (inst->bits1.da1.dest_address_mode != BRW_ADDRESS_DIRECT)
if (inst->bits1.ia1.dest_reg_file == BRW_GENERAL_REGISTER_FILE)
return GL_TRUE;
if (inst->bits1.da1.dest_reg_file != BRW_GENERAL_REGISTER_FILE)
return GL_FALSE;
const int reg_start = reg_index * REG_SIZE;
const int reg_end = reg_start + size;
const int type_size = inst_type_size[inst->bits1.da1.dest_reg_type];
const int write_start = inst->bits1.da1.dest_reg_nr*REG_SIZE
+ inst->bits1.da1.dest_subreg_nr;
int length, write_end;
/* SEND is specific */
if (inst->header.opcode == BRW_OPCODE_SEND) {
if (gen >= 5)
length = inst->bits3.generic_gen5.response_length*REG_SIZE;
else
length = inst->bits3.generic.response_length*REG_SIZE;
}
else {
length = 1 << inst->header.execution_size;
length *= type_size;
length *= inst->bits1.da1.dest_horiz_stride;
}
/* If the two intervals intersect, we overwrite the register */
write_end = write_start + length;
const int left = MAX2(write_start, reg_start);
const int right = MIN2(write_end, reg_end);
return left < right;
}
static GLboolean
brw_is_mrf_written_alu(const struct brw_instruction *inst,
int reg_index, int size)
{
if (brw_opcodes[inst->header.opcode].ndst == 0)
return GL_FALSE;
if (inst->bits1.da1.dest_reg_file != BRW_MESSAGE_REGISTER_FILE)
return GL_FALSE;
if (inst->bits1.da1.dest_address_mode != BRW_ADDRESS_DIRECT)
return GL_TRUE;
const int reg_start = reg_index * REG_SIZE;
const int reg_end = reg_start + size;
const int mrf_index = inst->bits1.da1.dest_reg_nr & 0x0f;
const int is_compr4 = inst->bits1.da1.dest_reg_nr & BRW_MRF_COMPR4;
const int type_size = inst_type_size[inst->bits1.da1.dest_reg_type];
/* We use compr4 with a size != 16 elements. Strange, we conservatively
* consider that we are writing the register.
*/
if (is_compr4 && inst->header.execution_size != BRW_EXECUTE_16)
return GL_TRUE;
/* Here we write mrf_{i} and mrf_{i+4}. So we read two times 8 elements */
if (is_compr4) {
const int length = 8 * type_size * inst->bits1.da1.dest_horiz_stride;
/* First 8-way register */
const int write_start0 = mrf_index*REG_SIZE
+ inst->bits1.da1.dest_subreg_nr;
const int write_end0 = write_start0 + length;
/* Second 8-way register */
const int write_start1 = (mrf_index+4)*REG_SIZE
+ inst->bits1.da1.dest_subreg_nr;
const int write_end1 = write_start1 + length;
/* If the two intervals intersect, we overwrite the register */
const int left0 = MAX2(write_start0, reg_start);
const int right0 = MIN2(write_end0, reg_end);
const int left1 = MAX2(write_start1, reg_start);
const int right1 = MIN2(write_end1, reg_end);
if (left0 < right0 || left1 < right1)
return GL_TRUE;
}
else {
int length;
length = 1 << inst->header.execution_size;
length *= type_size;
length *= inst->bits1.da1.dest_horiz_stride;
/* If the two intervals intersect, we write into the register */
const int write_start = inst->bits1.da1.dest_reg_nr*REG_SIZE
+ inst->bits1.da1.dest_subreg_nr;
const int write_end = write_start + length;
const int left = MAX2(write_start, reg_start);
const int right = MIN2(write_end, reg_end);
if (left < right)
return GL_TRUE;
}
return GL_FALSE;
}
/* SEND may perform an implicit mov to a mrf register */
static GLboolean brw_is_mrf_written_send(const struct brw_instruction *inst,
int reg_index, int size)
{
const int reg_start = reg_index * REG_SIZE;
const int reg_end = reg_start + size;
const int mrf_start = inst->header.destreg__conditionalmod;
const int write_start = mrf_start * REG_SIZE;
const int write_end = write_start + REG_SIZE;
const int left = MAX2(write_start, reg_start);
const int right = MIN2(write_end, reg_end);
if (inst->header.opcode != BRW_OPCODE_SEND ||
inst->bits1.da1.src0_reg_file == 0)
return GL_FALSE;
return left < right;
}
/* Specific path for message register since we need to handle the compr4 case */
static INLINE GLboolean
brw_is_mrf_written(const struct brw_instruction *inst, int reg_index, int size)
{
return (brw_is_mrf_written_alu(inst, reg_index, size) ||
brw_is_mrf_written_send(inst, reg_index, size));
}
static INLINE GLboolean
brw_is_mrf_read(const struct brw_instruction *inst,
int reg_index, int size, int gen)
{
if (inst->header.opcode != BRW_OPCODE_SEND)
return GL_FALSE;
if (inst->bits2.da1.src0_address_mode != BRW_ADDRESS_DIRECT)
return GL_TRUE;
const int reg_start = reg_index*REG_SIZE;
const int reg_end = reg_start + size;
int length, read_start, read_end;
if (gen >= 5)
length = inst->bits3.generic_gen5.msg_length*REG_SIZE;
else
length = inst->bits3.generic.msg_length*REG_SIZE;
/* Look if SEND uses an implicit mov. In that case, we read one less register
* (but we write it)
*/
if (inst->bits1.da1.src0_reg_file != 0)
read_start = inst->header.destreg__conditionalmod;
else {
length--;
read_start = inst->header.destreg__conditionalmod + 1;
}
read_start *= REG_SIZE;
read_end = read_start + length;
const int left = MAX2(read_start, reg_start);
const int right = MIN2(read_end, reg_end);
return left < right;
}
static INLINE GLboolean
brw_is_grf_read(const struct brw_instruction *inst, int reg_index, int size)
{
int i, j;
if (brw_opcodes[inst->header.opcode].nsrc == 0)
return GL_FALSE;
/* Look at first source. We must take into account register regions to
* monitor carefully the read. Note that we are a bit too conservative here
* since we do not take into account the fact that some complete registers
* may be skipped
*/
if (brw_opcodes[inst->header.opcode].nsrc >= 1) {
if (inst->bits2.da1.src0_address_mode != BRW_ADDRESS_DIRECT)
if (inst->bits1.ia1.src0_reg_file == BRW_GENERAL_REGISTER_FILE)
return GL_TRUE;
if (inst->bits1.da1.src0_reg_file != BRW_GENERAL_REGISTER_FILE)
return GL_FALSE;
const int reg_start = reg_index*REG_SIZE;
const int reg_end = reg_start + size;
/* See if at least one of this element intersects the interval */
const int type_size = inst_type_size[inst->bits1.da1.src0_reg_type];
const int elem_num = 1 << inst->header.execution_size;
const int width = 1 << inst->bits2.da1.src0_width;
const int row_num = elem_num >> inst->bits2.da1.src0_width;
const int hs = type_size*inst_stride[inst->bits2.da1.src0_horiz_stride];
const int vs = type_size*inst_stride[inst->bits2.da1.src0_vert_stride];
int row_start = inst->bits2.da1.src0_reg_nr*REG_SIZE
+ inst->bits2.da1.src0_subreg_nr;
for (j = 0; j < row_num; ++j) {
int write_start = row_start;
for (i = 0; i < width; ++i) {
const int write_end = write_start + type_size;
const int left = write_start > reg_start ? write_start : reg_start;
const int right = write_end < reg_end ? write_end : reg_end;
if (left < right)
return GL_TRUE;
write_start += hs;
}
row_start += vs;
}
}
/* Second src register */
if (brw_opcodes[inst->header.opcode].nsrc >= 2) {
if (inst->bits3.da1.src1_address_mode != BRW_ADDRESS_DIRECT)
if (inst->bits1.ia1.src1_reg_file == BRW_GENERAL_REGISTER_FILE)
return GL_TRUE;
if (inst->bits1.da1.src1_reg_file != BRW_GENERAL_REGISTER_FILE)
return GL_FALSE;
const int reg_start = reg_index*REG_SIZE;
const int reg_end = reg_start + size;
/* See if at least one of this element intersects the interval */
const int type_size = inst_type_size[inst->bits1.da1.src1_reg_type];
const int elem_num = 1 << inst->header.execution_size;
const int width = 1 << inst->bits3.da1.src1_width;
const int row_num = elem_num >> inst->bits3.da1.src1_width;
const int hs = type_size*inst_stride[inst->bits3.da1.src1_horiz_stride];
const int vs = type_size*inst_stride[inst->bits3.da1.src1_vert_stride];
int row_start = inst->bits3.da1.src1_reg_nr*REG_SIZE
+ inst->bits3.da1.src1_subreg_nr;
for (j = 0; j < row_num; ++j) {
int write_start = row_start;
for (i = 0; i < width; ++i) {
const int write_end = write_start + type_size;
const int left = write_start > reg_start ? write_start : reg_start;
const int right = write_end < reg_end ? write_end : reg_end;
if (left < right)
return GL_TRUE;
write_start += hs;
}
row_start += vs;
}
}
return GL_FALSE;
}
static INLINE GLboolean
brw_is_control_done(const struct brw_instruction *mov) {
return
mov->header.dependency_control != 0 ||
mov->header.thread_control != 0 ||
mov->header.mask_control != 0 ||
mov->header.saturate != 0 ||
mov->header.debug_control != 0;
}
static INLINE GLboolean
brw_is_predicated(const struct brw_instruction *mov) {
return mov->header.predicate_control != 0;
}
static INLINE GLboolean
brw_is_grf_to_mrf_mov(const struct brw_instruction *mov,
int *mrf_index,
int *grf_index,
GLboolean *is_compr4)
{
if (brw_is_predicated(mov) ||
brw_is_control_done(mov) ||
mov->header.debug_control != 0)
return GL_FALSE;
if (mov->bits1.da1.dest_address_mode != BRW_ADDRESS_DIRECT ||
mov->bits1.da1.dest_reg_file != BRW_MESSAGE_REGISTER_FILE ||
mov->bits1.da1.dest_reg_type != BRW_REGISTER_TYPE_F ||
mov->bits1.da1.dest_horiz_stride != BRW_HORIZONTAL_STRIDE_1 ||
mov->bits1.da1.dest_subreg_nr != 0)
return GL_FALSE;
if (mov->bits2.da1.src0_address_mode != BRW_ADDRESS_DIRECT ||
mov->bits1.da1.src0_reg_file != BRW_GENERAL_REGISTER_FILE ||
mov->bits1.da1.src0_reg_type != BRW_REGISTER_TYPE_F ||
mov->bits2.da1.src0_width != BRW_WIDTH_8 ||
mov->bits2.da1.src0_horiz_stride != BRW_HORIZONTAL_STRIDE_1 ||
mov->bits2.da1.src0_vert_stride != BRW_VERTICAL_STRIDE_8 ||
mov->bits2.da1.src0_subreg_nr != 0 ||
mov->bits2.da1.src0_abs != 0 ||
mov->bits2.da1.src0_negate != 0)
return GL_FALSE;
*grf_index = mov->bits2.da1.src0_reg_nr;
*mrf_index = mov->bits1.da1.dest_reg_nr & 0x0f;
*is_compr4 = (mov->bits1.da1.dest_reg_nr & BRW_MRF_COMPR4) != 0;
return GL_TRUE;
}
static INLINE GLboolean
brw_is_grf_straight_write(const struct brw_instruction *inst, int grf_index)
{
/* remark: no problem to predicate a SEL instruction */
if ((!brw_is_predicated(inst) || inst->header.opcode == BRW_OPCODE_SEL) &&
brw_is_control_done(inst) == GL_FALSE &&
inst->header.execution_size == 4 &&
inst->header.access_mode == BRW_ALIGN_1 &&
inst->bits1.da1.dest_address_mode == BRW_ADDRESS_DIRECT &&
inst->bits1.da1.dest_reg_file == BRW_GENERAL_REGISTER_FILE &&
inst->bits1.da1.dest_reg_type == BRW_REGISTER_TYPE_F &&
inst->bits1.da1.dest_horiz_stride == BRW_HORIZONTAL_STRIDE_1 &&
inst->bits1.da1.dest_reg_nr == grf_index &&
inst->bits1.da1.dest_subreg_nr == 0 &&
brw_is_arithmetic_inst(inst))
return GL_TRUE;
return GL_FALSE;
}
static INLINE GLboolean
brw_inst_are_equal(const struct brw_instruction *src0,
const struct brw_instruction *src1)
{
const GLuint *field0 = (GLuint *) src0;
const GLuint *field1 = (GLuint *) src1;
return field0[0] == field1[0] &&
field0[1] == field1[1] &&
field0[2] == field1[2] &&
field0[3] == field1[3];
}
static INLINE void
brw_inst_copy(struct brw_instruction *dst,
const struct brw_instruction *src)
{
GLuint *field_dst = (GLuint *) dst;
const GLuint *field_src = (GLuint *) src;
field_dst[0] = field_src[0];
field_dst[1] = field_src[1];
field_dst[2] = field_src[2];
field_dst[3] = field_src[3];
}
static void brw_remove_inst(struct brw_compile *p, const GLboolean *removeInst)
{
int i, nr_insn = 0, to = 0, from = 0;
for (from = 0; from < p->nr_insn; ++from) {
if (removeInst[from])
continue;
if(to != from)
brw_inst_copy(p->store + to, p->store + from);
to++;
}
for (i = 0; i < p->nr_insn; ++i)
if (removeInst[i] == GL_FALSE)
nr_insn++;
p->nr_insn = nr_insn;
}
/* The gen code emitter generates a lot of duplications in the
* grf-to-mrf moves, for example when texture sampling with the same
* coordinates from multiple textures.. Here, we monitor same mov
* grf-to-mrf instrutions and remove repeated ones where the operands
* and dst ahven't changed in between.
*/
void brw_remove_duplicate_mrf_moves(struct brw_compile *p)
{
const int gen = p->brw->intel.gen;
int i, j;
GLboolean *removeInst = calloc(sizeof(GLboolean), p->nr_insn);
for (i = 0; i < p->nr_insn; i++) {
if (removeInst[i])
continue;
const struct brw_instruction *mov = p->store + i;
int mrf_index, grf_index;
GLboolean is_compr4;
/* Only consider _straight_ grf-to-mrf moves */
if (!brw_is_grf_to_mrf_mov(mov, &mrf_index, &grf_index, &is_compr4))
continue;
const int mrf_index0 = mrf_index;
const int mrf_index1 = is_compr4 ? mrf_index0+4 : mrf_index0+1;
const int simd16_size = 2 * REG_SIZE;
for (j = i + 1; j < p->nr_insn; j++) {
const struct brw_instruction *inst = p->store + j;
if (brw_inst_are_equal(mov, inst)) {
removeInst[j] = GL_TRUE;
continue;
}
if (brw_is_grf_written(inst, grf_index, simd16_size, gen) ||
brw_is_mrf_written(inst, mrf_index0, REG_SIZE) ||
brw_is_mrf_written(inst, mrf_index1, REG_SIZE))
break;
}
}
brw_remove_inst(p, removeInst);
free(removeInst);
}
/* Replace moves to MRFs where the value moved is the result of a
* normal arithmetic operation with computation right into the MRF.
*/
void brw_remove_grf_to_mrf_moves(struct brw_compile *p)
{
int i, j, prev;
struct brw_context *brw = p->brw;
const int gen = brw->intel.gen;
const int simd16_size = 2*REG_SIZE;
GLboolean *removeInst = calloc(sizeof(GLboolean), p->nr_insn);
assert(removeInst);
for (i = 0; i < p->nr_insn; i++) {
if (removeInst[i])
continue;
struct brw_instruction *grf_inst = NULL;
const struct brw_instruction *mov = p->store + i;
int mrf_index, grf_index;
GLboolean is_compr4;
/* Only consider _straight_ grf-to-mrf moves */
if (!brw_is_grf_to_mrf_mov(mov, &mrf_index, &grf_index, &is_compr4))
continue;
/* Using comp4 enables a stride of 4 for this instruction */
const int mrf_index0 = mrf_index;
const int mrf_index1 = is_compr4 ? mrf_index+4 : mrf_index+1;
/* Look where the register has been set */
prev = i;
GLboolean potential_remove = GL_FALSE;
while (prev--) {
/* If _one_ instruction writes the grf, we try to remove the mov */
struct brw_instruction *inst = p->store + prev;
if (brw_is_grf_straight_write(inst, grf_index)) {
potential_remove = GL_TRUE;
grf_inst = inst;
break;
}
}
if (potential_remove == GL_FALSE)
continue;
removeInst[i] = GL_TRUE;
/* Monitor first the section of code between the grf computation and the
* mov. Here we cannot read or write both mrf and grf register
*/
for (j = prev + 1; j < i; ++j) {
struct brw_instruction *inst = p->store + j;
if (removeInst[j])
continue;
if (brw_is_grf_written(inst, grf_index, simd16_size, gen) ||
brw_is_grf_read(inst, grf_index, simd16_size) ||
brw_is_mrf_written(inst, mrf_index0, REG_SIZE) ||
brw_is_mrf_written(inst, mrf_index1, REG_SIZE) ||
brw_is_mrf_read(inst, mrf_index0, REG_SIZE, gen) ||
brw_is_mrf_read(inst, mrf_index1, REG_SIZE, gen)) {
removeInst[i] = GL_FALSE;
break;
}
}
/* After the mov, we can read or write the mrf. If the grf is overwritten,
* we are done
*/
for (j = i + 1; j < p->nr_insn; ++j) {
struct brw_instruction *inst = p->store + j;
if (removeInst[j])
continue;
if (brw_is_grf_read(inst, grf_index, simd16_size)) {
removeInst[i] = GL_FALSE;
break;
}
if (brw_is_grf_straight_write(inst, grf_index))
break;
}
/* Note that with the top down traversal, we can safely pacth the mov
* instruction
*/
if (removeInst[i]) {
grf_inst->bits1.da1.dest_reg_file = mov->bits1.da1.dest_reg_file;
grf_inst->bits1.da1.dest_reg_nr = mov->bits1.da1.dest_reg_nr;
}
}
brw_remove_inst(p, removeInst);
free(removeInst);
}
static GLboolean
is_single_channel_dp4(struct brw_instruction *insn)
{
if (insn->header.opcode != BRW_OPCODE_DP4 ||
insn->header.execution_size != BRW_EXECUTE_8 ||
insn->header.access_mode != BRW_ALIGN_16 ||
insn->bits1.da1.dest_reg_file != BRW_GENERAL_REGISTER_FILE)
return GL_FALSE;
if (!is_power_of_two(insn->bits1.da16.dest_writemask))
return GL_FALSE;
return GL_TRUE;
}
/**
* Sets the dependency control fields on DP4 instructions.
*
* The hardware only tracks dependencies on a register basis, so when
* you do:
*
* DP4 dst.x src1 src2
* DP4 dst.y src1 src3
* DP4 dst.z src1 src4
* DP4 dst.w src1 src5
*
* It will wait to do the DP4 dst.y until the dst.x is resolved, etc.
* We can examine our instruction stream and set the dependency
* control fields to tell the hardware when to do it.
*
* We may want to extend this to other instructions that are used to
* fill in a channel at a time of the destination register.
*/
static void
brw_set_dp4_dependency_control(struct brw_compile *p)
{
int i;
for (i = 1; i < p->nr_insn; i++) {
struct brw_instruction *insn = &p->store[i];
struct brw_instruction *prev = &p->store[i - 1];
if (!is_single_channel_dp4(prev))
continue;
if (!is_single_channel_dp4(insn)) {
i++;
continue;
}
/* Only avoid hw dep control if the write masks are different
* channels of one reg.
*/
if (insn->bits1.da16.dest_writemask == prev->bits1.da16.dest_writemask)
continue;
if (insn->bits1.da16.dest_reg_nr != prev->bits1.da16.dest_reg_nr)
continue;
/* Check if the second instruction depends on the previous one
* for a src.
*/
if (insn->bits1.da1.src0_reg_file == BRW_GENERAL_REGISTER_FILE &&
(insn->bits2.da1.src0_address_mode != BRW_ADDRESS_DIRECT ||
insn->bits2.da1.src0_reg_nr == insn->bits1.da16.dest_reg_nr))
continue;
if (insn->bits1.da1.src1_reg_file == BRW_GENERAL_REGISTER_FILE &&
(insn->bits3.da1.src1_address_mode != BRW_ADDRESS_DIRECT ||
insn->bits3.da1.src1_reg_nr == insn->bits1.da16.dest_reg_nr))
continue;
prev->header.dependency_control |= BRW_DEPENDENCY_NOTCLEARED;
insn->header.dependency_control |= BRW_DEPENDENCY_NOTCHECKED;
}
}
void
brw_optimize(struct brw_compile *p)
{
brw_set_dp4_dependency_control(p);
}
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