this->file = BAD_FILE;
}
-src_reg::src_reg(register_file file, int reg, const glsl_type *type)
+src_reg::src_reg(enum brw_reg_file file, int nr, const glsl_type *type)
{
init();
this->file = file;
- this->reg = reg;
+ this->nr = nr;
if (type && (type->is_scalar() || type->is_vector() || type->is_matrix()))
this->swizzle = brw_swizzle_for_size(type->vector_elements);
else
this->file = IMM;
this->type = BRW_REGISTER_TYPE_F;
- this->fixed_hw_reg.dw1.f = f;
+ this->f = f;
}
src_reg::src_reg(uint32_t u)
this->file = IMM;
this->type = BRW_REGISTER_TYPE_UD;
- this->fixed_hw_reg.dw1.ud = u;
+ this->ud = u;
}
src_reg::src_reg(int32_t i)
this->file = IMM;
this->type = BRW_REGISTER_TYPE_D;
- this->fixed_hw_reg.dw1.d = i;
+ this->d = i;
}
src_reg::src_reg(uint8_t vf[4])
this->file = IMM;
this->type = BRW_REGISTER_TYPE_VF;
- memcpy(&this->fixed_hw_reg.dw1.ud, vf, sizeof(unsigned));
+ memcpy(&this->ud, vf, sizeof(unsigned));
}
src_reg::src_reg(uint8_t vf0, uint8_t vf1, uint8_t vf2, uint8_t vf3)
this->file = IMM;
this->type = BRW_REGISTER_TYPE_VF;
- this->fixed_hw_reg.dw1.ud = (vf0 << 0) |
- (vf1 << 8) |
- (vf2 << 16) |
- (vf3 << 24);
+ this->ud = (vf0 << 0) | (vf1 << 8) | (vf2 << 16) | (vf3 << 24);
}
-src_reg::src_reg(struct brw_reg reg)
+src_reg::src_reg(struct brw_reg reg) :
+ backend_reg(reg)
{
- init();
-
- this->file = HW_REG;
- this->fixed_hw_reg = reg;
- this->type = reg.type;
+ this->reg_offset = 0;
+ this->reladdr = NULL;
}
-src_reg::src_reg(const dst_reg ®)
+src_reg::src_reg(const dst_reg ®) :
+ backend_reg(static_cast<struct brw_reg>(reg))
{
- init();
-
- this->file = reg.file;
- this->reg = reg.reg;
this->reg_offset = reg.reg_offset;
- this->type = reg.type;
this->reladdr = reg.reladdr;
- this->fixed_hw_reg = reg.fixed_hw_reg;
this->swizzle = brw_swizzle_for_mask(reg.writemask);
}
init();
}
-dst_reg::dst_reg(register_file file, int reg)
+dst_reg::dst_reg(enum brw_reg_file file, int nr)
{
init();
this->file = file;
- this->reg = reg;
+ this->nr = nr;
}
-dst_reg::dst_reg(register_file file, int reg, const glsl_type *type,
+dst_reg::dst_reg(enum brw_reg_file file, int nr, const glsl_type *type,
unsigned writemask)
{
init();
this->file = file;
- this->reg = reg;
+ this->nr = nr;
this->type = brw_type_for_base_type(type);
this->writemask = writemask;
}
-dst_reg::dst_reg(register_file file, int reg, brw_reg_type type,
+dst_reg::dst_reg(enum brw_reg_file file, int nr, brw_reg_type type,
unsigned writemask)
{
init();
this->file = file;
- this->reg = reg;
+ this->nr = nr;
this->type = type;
this->writemask = writemask;
}
-dst_reg::dst_reg(struct brw_reg reg)
+dst_reg::dst_reg(struct brw_reg reg) :
+ backend_reg(reg)
{
- init();
-
- this->file = HW_REG;
- this->fixed_hw_reg = reg;
- this->type = reg.type;
+ this->reg_offset = 0;
+ this->reladdr = NULL;
}
-dst_reg::dst_reg(const src_reg ®)
+dst_reg::dst_reg(const src_reg ®) :
+ backend_reg(static_cast<struct brw_reg>(reg))
{
- init();
-
- this->file = reg.file;
- this->reg = reg.reg;
this->reg_offset = reg.reg_offset;
- this->type = reg.type;
this->writemask = brw_mask_for_swizzle(reg.swizzle);
this->reladdr = reg.reladdr;
- this->fixed_hw_reg = reg.fixed_hw_reg;
}
bool
dst_reg::equals(const dst_reg &r) const
{
- return (file == r.file &&
- reg == r.reg &&
+ return (memcmp((brw_reg *)this, (brw_reg *)&r, sizeof(brw_reg)) == 0 &&
reg_offset == r.reg_offset &&
- type == r.type &&
- negate == r.negate &&
- abs == r.abs &&
- writemask == r.writemask &&
(reladdr == r.reladdr ||
- (reladdr && r.reladdr && reladdr->equals(*r.reladdr))) &&
- ((file != HW_REG && file != IMM) ||
- memcmp(&fixed_hw_reg, &r.fixed_hw_reg,
- sizeof(fixed_hw_reg)) == 0));
+ (reladdr && r.reladdr && reladdr->equals(*r.reladdr))));
}
bool
return true;
}
+bool
+vec4_instruction::can_change_types() const
+{
+ return dst.type == src[0].type &&
+ !src[0].abs && !src[0].negate && !saturate &&
+ (opcode == BRW_OPCODE_MOV ||
+ (opcode == BRW_OPCODE_SEL &&
+ dst.type == src[1].type &&
+ predicate != BRW_PREDICATE_NONE &&
+ !src[1].abs && !src[1].negate));
+}
+
/**
* Returns how many MRFs an opcode will write over.
*
case SHADER_OPCODE_TXD:
case SHADER_OPCODE_TXF:
case SHADER_OPCODE_TXF_CMS:
+ case SHADER_OPCODE_TXF_CMS_W:
case SHADER_OPCODE_TXF_MCS:
case SHADER_OPCODE_TXS:
case SHADER_OPCODE_TG4:
bool
src_reg::equals(const src_reg &r) const
{
- return (file == r.file &&
- reg == r.reg &&
+ return (memcmp((brw_reg *)this, (brw_reg *)&r, sizeof(brw_reg)) == 0 &&
reg_offset == r.reg_offset &&
- type == r.type &&
- negate == r.negate &&
- abs == r.abs &&
- swizzle == r.swizzle &&
- !reladdr && !r.reladdr &&
- memcmp(&fixed_hw_reg, &r.fixed_hw_reg,
- sizeof(fixed_hw_reg)) == 0);
+ !reladdr && !r.reladdr);
}
bool
bool progress = false;
int last_reg = -1, last_reg_offset = -1;
- enum register_file last_reg_file = BAD_FILE;
+ enum brw_reg_file last_reg_file = BAD_FILE;
int remaining_channels = 0;
uint8_t imm[4];
vec4_instruction *imm_inst[4];
foreach_block_and_inst_safe(block, vec4_instruction, inst, cfg) {
- if (last_reg != inst->dst.reg ||
+ if (last_reg != inst->dst.nr ||
last_reg_offset != inst->dst.reg_offset ||
last_reg_file != inst->dst.file) {
- last_reg = inst->dst.reg;
+ last_reg = inst->dst.nr;
last_reg_offset = inst->dst.reg_offset;
last_reg_file = inst->dst.file;
remaining_channels = WRITEMASK_XYZW;
inst->src[0].file != IMM)
continue;
- int vf = brw_float_to_vf(inst->src[0].fixed_hw_reg.dw1.f);
+ int vf = brw_float_to_vf(inst->src[0].f);
if (vf == -1)
continue;
bool progress = false;
foreach_block_and_inst_safe(block, vec4_instruction, inst, cfg) {
- if (inst->dst.file == BAD_FILE || inst->dst.file == HW_REG ||
+ if (inst->dst.file == BAD_FILE ||
+ inst->dst.file == ARF ||
+ inst->dst.file == FIXED_GRF ||
inst->is_send_from_grf())
continue;
/* Update sources' swizzles. */
for (int i = 0; i < 3; i++) {
- if (inst->src[i].file != GRF &&
+ if (inst->src[i].file != VGRF &&
inst->src[i].file != ATTR &&
inst->src[i].file != UNIFORM)
continue;
/* Prior to this, uniforms have been in an array sized according to
* the number of vector uniforms present, sparsely filled (so an
* aggregate results in reg indices being skipped over). Now we're
- * going to cut those aggregates up so each .reg index is one
+ * going to cut those aggregates up so each .nr index is one
* vector. The goal is to make elimination of unused uniform
* components easier later.
*/
assert(!inst->src[i].reladdr);
- inst->src[i].reg += inst->src[i].reg_offset;
+ inst->src[i].nr += inst->src[i].reg_offset;
inst->src[i].reg_offset = 0;
}
}
if (inst->src[i].file != UNIFORM)
continue;
- int reg = inst->src[i].reg;
+ int reg = inst->src[i].nr;
for (int c = 0; c < 4; c++) {
if (!(readmask & (1 << c)))
continue;
/* Now, update the instructions for our repacked uniforms. */
foreach_block_and_inst(block, vec4_instruction, inst, cfg) {
for (int i = 0 ; i < 3; i++) {
- int src = inst->src[i].reg;
+ int src = inst->src[i].nr;
if (inst->src[i].file != UNIFORM)
continue;
- inst->src[i].reg = new_loc[src];
+ inst->src[i].nr = new_loc[src];
inst->src[i].swizzle += BRW_SWIZZLE4(new_chan[src], new_chan[src],
new_chan[src], new_chan[src]);
}
if (inst->dst.type != inst->src[0].type)
assert(!"unimplemented: saturate mixed types");
- if (brw_saturate_immediate(inst->dst.type,
- &inst->src[0].fixed_hw_reg)) {
+ if (brw_saturate_immediate(inst->dst.type, &inst->src[0])) {
inst->saturate = false;
progress = true;
}
foreach_block_and_inst_safe(block, vec4_instruction, inst, cfg) {
for (int i = 0 ; i < 3; i++) {
if (inst->src[i].file != UNIFORM ||
- pull_constant_loc[inst->src[i].reg] == -1)
+ pull_constant_loc[inst->src[i].nr] == -1)
continue;
- int uniform = inst->src[i].reg;
+ int uniform = inst->src[i].nr;
dst_reg temp = dst_reg(this, glsl_type::vec4_type);
pull_constant_loc[uniform]);
inst->src[i].file = temp.file;
- inst->src[i].reg = temp.reg;
+ inst->src[i].nr = temp.nr;
inst->src[i].reg_offset = temp.reg_offset;
inst->src[i].reladdr = NULL;
}
* on, don't do dependency control across the read.
*/
for (int i = 0; i < 3; i++) {
- int reg = inst->src[i].reg + inst->src[i].reg_offset;
- if (inst->src[i].file == GRF) {
+ int reg = inst->src[i].nr + inst->src[i].reg_offset;
+ if (inst->src[i].file == VGRF) {
last_grf_write[reg] = NULL;
- } else if (inst->src[i].file == HW_REG) {
+ } else if (inst->src[i].file == FIXED_GRF) {
memset(last_grf_write, 0, sizeof(last_grf_write));
break;
}
/* Now, see if we can do dependency control for this instruction
* against a previous one writing to its destination.
*/
- int reg = inst->dst.reg + inst->dst.reg_offset;
- if (inst->dst.file == GRF) {
+ int reg = inst->dst.nr + inst->dst.reg_offset;
+ if (inst->dst.file == VGRF || inst->dst.file == FIXED_GRF) {
if (last_grf_write[reg] &&
!(inst->dst.writemask & grf_channels_written[reg])) {
last_grf_write[reg]->no_dd_clear = true;
last_mrf_write[reg] = inst;
mrf_channels_written[reg] |= inst->dst.writemask;
- } else if (inst->dst.reg == HW_REG) {
- if (inst->dst.fixed_hw_reg.file == BRW_GENERAL_REGISTER_FILE)
- memset(last_grf_write, 0, sizeof(last_grf_write));
- if (inst->dst.fixed_hw_reg.file == BRW_MESSAGE_REGISTER_FILE)
- memset(last_mrf_write, 0, sizeof(last_mrf_write));
}
}
}
if (mlen > 0)
return false;
- /* We can't use swizzles on the accumulator and that's really the only
- * HW_REG we would care to reswizzle so just disallow them all.
- */
for (int i = 0; i < 3; i++) {
- if (src[i].file == HW_REG)
+ if (src[i].is_accumulator())
return false;
}
next_ip++;
if (inst->opcode != BRW_OPCODE_MOV ||
- (inst->dst.file != GRF && inst->dst.file != MRF) ||
+ (inst->dst.file != VGRF && inst->dst.file != MRF) ||
inst->predicate ||
- inst->src[0].file != GRF ||
+ inst->src[0].file != VGRF ||
inst->dst.type != inst->src[0].type ||
inst->src[0].abs || inst->src[0].negate || inst->src[0].reladdr)
continue;
/* Remove no-op MOVs */
if (inst->dst.file == inst->src[0].file &&
- inst->dst.reg == inst->src[0].reg &&
+ inst->dst.nr == inst->src[0].nr &&
inst->dst.reg_offset == inst->src[0].reg_offset) {
bool is_nop_mov = true;
*/
vec4_instruction *_scan_inst = (vec4_instruction *)inst->prev;
foreach_inst_in_block_reverse_starting_from(vec4_instruction, scan_inst,
- inst, block) {
+ inst) {
_scan_inst = scan_inst;
if (inst->src[0].in_range(scan_inst->dst, scan_inst->regs_written)) {
if (devinfo->gen == 6) {
/* gen6 math instructions must have the destination be
- * GRF, so no compute-to-MRF for them.
+ * VGRF, so no compute-to-MRF for them.
*/
if (scan_inst->is_math()) {
break;
* in the register instead.
*/
if (to_mrf && scan_inst->mlen > 0) {
- if (inst->dst.reg >= scan_inst->base_mrf &&
- inst->dst.reg < scan_inst->base_mrf + scan_inst->mlen) {
+ if (inst->dst.nr >= scan_inst->base_mrf &&
+ inst->dst.nr < scan_inst->base_mrf + scan_inst->mlen) {
break;
}
} else {
*/
vec4_instruction *scan_inst = _scan_inst;
while (scan_inst != inst) {
- if (scan_inst->dst.file == GRF &&
- scan_inst->dst.reg == inst->src[0].reg &&
+ if (scan_inst->dst.file == VGRF &&
+ scan_inst->dst.nr == inst->src[0].nr &&
scan_inst->dst.reg_offset == inst->src[0].reg_offset) {
scan_inst->reswizzle(inst->dst.writemask,
inst->src[0].swizzle);
scan_inst->dst.file = inst->dst.file;
- scan_inst->dst.reg = inst->dst.reg;
+ scan_inst->dst.nr = inst->dst.nr;
scan_inst->dst.reg_offset = inst->dst.reg_offset;
if (inst->saturate &&
inst->dst.type != scan_inst->dst.type) {
* to split.
*/
foreach_block_and_inst(block, vec4_instruction, inst, cfg) {
- if (inst->dst.file == GRF && inst->regs_written > 1)
- split_grf[inst->dst.reg] = false;
+ if (inst->dst.file == VGRF && inst->regs_written > 1)
+ split_grf[inst->dst.nr] = false;
for (int i = 0; i < 3; i++) {
- if (inst->src[i].file == GRF && inst->regs_read(i) > 1)
- split_grf[inst->src[i].reg] = false;
+ if (inst->src[i].file == VGRF && inst->regs_read(i) > 1)
+ split_grf[inst->src[i].nr] = false;
}
}
}
foreach_block_and_inst(block, vec4_instruction, inst, cfg) {
- if (inst->dst.file == GRF && split_grf[inst->dst.reg] &&
+ if (inst->dst.file == VGRF && split_grf[inst->dst.nr] &&
inst->dst.reg_offset != 0) {
- inst->dst.reg = (new_virtual_grf[inst->dst.reg] +
+ inst->dst.nr = (new_virtual_grf[inst->dst.nr] +
inst->dst.reg_offset - 1);
inst->dst.reg_offset = 0;
}
for (int i = 0; i < 3; i++) {
- if (inst->src[i].file == GRF && split_grf[inst->src[i].reg] &&
+ if (inst->src[i].file == VGRF && split_grf[inst->src[i].nr] &&
inst->src[i].reg_offset != 0) {
- inst->src[i].reg = (new_virtual_grf[inst->src[i].reg] +
+ inst->src[i].nr = (new_virtual_grf[inst->src[i].nr] +
inst->src[i].reg_offset - 1);
inst->src[i].reg_offset = 0;
}
vec4_instruction *inst = (vec4_instruction *)be_inst;
if (inst->predicate) {
- fprintf(file, "(%cf0.%d) ",
+ fprintf(file, "(%cf0.%d%s) ",
inst->predicate_inverse ? '-' : '+',
- inst->flag_subreg);
+ inst->flag_subreg,
+ pred_ctrl_align16[inst->predicate]);
}
fprintf(file, "%s", brw_instruction_name(inst->opcode));
fprintf(file, " ");
switch (inst->dst.file) {
- case GRF:
- fprintf(file, "vgrf%d.%d", inst->dst.reg, inst->dst.reg_offset);
+ case VGRF:
+ fprintf(file, "vgrf%d.%d", inst->dst.nr, inst->dst.reg_offset);
+ break;
+ case FIXED_GRF:
+ fprintf(file, "g%d", inst->dst.nr);
break;
case MRF:
- fprintf(file, "m%d", inst->dst.reg);
+ fprintf(file, "m%d", inst->dst.nr);
break;
- case HW_REG:
- if (inst->dst.fixed_hw_reg.file == BRW_ARCHITECTURE_REGISTER_FILE) {
- switch (inst->dst.fixed_hw_reg.nr) {
- case BRW_ARF_NULL:
- fprintf(file, "null");
- break;
- case BRW_ARF_ADDRESS:
- fprintf(file, "a0.%d", inst->dst.fixed_hw_reg.subnr);
- break;
- case BRW_ARF_ACCUMULATOR:
- fprintf(file, "acc%d", inst->dst.fixed_hw_reg.subnr);
- break;
- case BRW_ARF_FLAG:
- fprintf(file, "f%d.%d", inst->dst.fixed_hw_reg.nr & 0xf,
- inst->dst.fixed_hw_reg.subnr);
- break;
- default:
- fprintf(file, "arf%d.%d", inst->dst.fixed_hw_reg.nr & 0xf,
- inst->dst.fixed_hw_reg.subnr);
- break;
- }
- } else {
- fprintf(file, "hw_reg%d", inst->dst.fixed_hw_reg.nr);
+ case ARF:
+ switch (inst->dst.nr) {
+ case BRW_ARF_NULL:
+ fprintf(file, "null");
+ break;
+ case BRW_ARF_ADDRESS:
+ fprintf(file, "a0.%d", inst->dst.subnr);
+ break;
+ case BRW_ARF_ACCUMULATOR:
+ fprintf(file, "acc%d", inst->dst.subnr);
+ break;
+ case BRW_ARF_FLAG:
+ fprintf(file, "f%d.%d", inst->dst.nr & 0xf, inst->dst.subnr);
+ break;
+ default:
+ fprintf(file, "arf%d.%d", inst->dst.nr & 0xf, inst->dst.subnr);
+ break;
}
- if (inst->dst.fixed_hw_reg.subnr)
- fprintf(file, "+%d", inst->dst.fixed_hw_reg.subnr);
+ if (inst->dst.subnr)
+ fprintf(file, "+%d", inst->dst.subnr);
break;
case BAD_FILE:
fprintf(file, "(null)");
break;
- default:
- fprintf(file, "???");
- break;
+ case IMM:
+ case ATTR:
+ case UNIFORM:
+ unreachable("not reached");
}
if (inst->dst.writemask != WRITEMASK_XYZW) {
fprintf(file, ".");
if (inst->src[i].abs)
fprintf(file, "|");
switch (inst->src[i].file) {
- case GRF:
- fprintf(file, "vgrf%d", inst->src[i].reg);
+ case VGRF:
+ fprintf(file, "vgrf%d", inst->src[i].nr);
+ break;
+ case FIXED_GRF:
+ fprintf(file, "g%d", inst->src[i].nr);
break;
case ATTR:
- fprintf(file, "attr%d", inst->src[i].reg);
+ fprintf(file, "attr%d", inst->src[i].nr);
break;
case UNIFORM:
- fprintf(file, "u%d", inst->src[i].reg);
+ fprintf(file, "u%d", inst->src[i].nr);
break;
case IMM:
switch (inst->src[i].type) {
case BRW_REGISTER_TYPE_F:
- fprintf(file, "%fF", inst->src[i].fixed_hw_reg.dw1.f);
+ fprintf(file, "%fF", inst->src[i].f);
break;
case BRW_REGISTER_TYPE_D:
- fprintf(file, "%dD", inst->src[i].fixed_hw_reg.dw1.d);
+ fprintf(file, "%dD", inst->src[i].d);
break;
case BRW_REGISTER_TYPE_UD:
- fprintf(file, "%uU", inst->src[i].fixed_hw_reg.dw1.ud);
+ fprintf(file, "%uU", inst->src[i].ud);
break;
case BRW_REGISTER_TYPE_VF:
fprintf(file, "[%-gF, %-gF, %-gF, %-gF]",
- brw_vf_to_float((inst->src[i].fixed_hw_reg.dw1.ud >> 0) & 0xff),
- brw_vf_to_float((inst->src[i].fixed_hw_reg.dw1.ud >> 8) & 0xff),
- brw_vf_to_float((inst->src[i].fixed_hw_reg.dw1.ud >> 16) & 0xff),
- brw_vf_to_float((inst->src[i].fixed_hw_reg.dw1.ud >> 24) & 0xff));
+ brw_vf_to_float((inst->src[i].ud >> 0) & 0xff),
+ brw_vf_to_float((inst->src[i].ud >> 8) & 0xff),
+ brw_vf_to_float((inst->src[i].ud >> 16) & 0xff),
+ brw_vf_to_float((inst->src[i].ud >> 24) & 0xff));
break;
default:
fprintf(file, "???");
break;
}
break;
- case HW_REG:
- if (inst->src[i].fixed_hw_reg.negate)
- fprintf(file, "-");
- if (inst->src[i].fixed_hw_reg.abs)
- fprintf(file, "|");
- if (inst->src[i].fixed_hw_reg.file == BRW_ARCHITECTURE_REGISTER_FILE) {
- switch (inst->src[i].fixed_hw_reg.nr) {
- case BRW_ARF_NULL:
- fprintf(file, "null");
- break;
- case BRW_ARF_ADDRESS:
- fprintf(file, "a0.%d", inst->src[i].fixed_hw_reg.subnr);
- break;
- case BRW_ARF_ACCUMULATOR:
- fprintf(file, "acc%d", inst->src[i].fixed_hw_reg.subnr);
- break;
- case BRW_ARF_FLAG:
- fprintf(file, "f%d.%d", inst->src[i].fixed_hw_reg.nr & 0xf,
- inst->src[i].fixed_hw_reg.subnr);
- break;
- default:
- fprintf(file, "arf%d.%d", inst->src[i].fixed_hw_reg.nr & 0xf,
- inst->src[i].fixed_hw_reg.subnr);
- break;
- }
- } else {
- fprintf(file, "hw_reg%d", inst->src[i].fixed_hw_reg.nr);
+ case ARF:
+ switch (inst->src[i].nr) {
+ case BRW_ARF_NULL:
+ fprintf(file, "null");
+ break;
+ case BRW_ARF_ADDRESS:
+ fprintf(file, "a0.%d", inst->src[i].subnr);
+ break;
+ case BRW_ARF_ACCUMULATOR:
+ fprintf(file, "acc%d", inst->src[i].subnr);
+ break;
+ case BRW_ARF_FLAG:
+ fprintf(file, "f%d.%d", inst->src[i].nr & 0xf, inst->src[i].subnr);
+ break;
+ default:
+ fprintf(file, "arf%d.%d", inst->src[i].nr & 0xf, inst->src[i].subnr);
+ break;
}
- if (inst->src[i].fixed_hw_reg.subnr)
- fprintf(file, "+%d", inst->src[i].fixed_hw_reg.subnr);
- if (inst->src[i].fixed_hw_reg.abs)
- fprintf(file, "|");
+ if (inst->src[i].subnr)
+ fprintf(file, "+%d", inst->src[i].subnr);
break;
case BAD_FILE:
fprintf(file, "(null)");
break;
- default:
- fprintf(file, "???");
- break;
+ case MRF:
+ unreachable("not reached");
}
/* Don't print .0; and only VGRFs have reg_offsets and sizes */
if (inst->src[i].reg_offset != 0 &&
- inst->src[i].file == GRF &&
- alloc.sizes[inst->src[i].reg] != 1)
+ inst->src[i].file == VGRF &&
+ alloc.sizes[inst->src[i].nr] != 1)
fprintf(file, ".%d", inst->src[i].reg_offset);
if (inst->src[i].file != IMM) {
fprintf(file, ", ");
}
+ if (inst->force_writemask_all)
+ fprintf(file, " NoMask");
+
fprintf(file, "\n");
}
foreach_block_and_inst(block, vec4_instruction, inst, cfg) {
/* We have to support ATTR as a destination for GL_FIXED fixup. */
if (inst->dst.file == ATTR) {
- int grf = attribute_map[inst->dst.reg + inst->dst.reg_offset];
+ int grf = attribute_map[inst->dst.nr + inst->dst.reg_offset];
/* All attributes used in the shader need to have been assigned a
* hardware register by the caller
struct brw_reg reg = attribute_to_hw_reg(grf, interleaved);
reg.type = inst->dst.type;
- reg.dw1.bits.writemask = inst->dst.writemask;
+ reg.writemask = inst->dst.writemask;
- inst->dst.file = HW_REG;
- inst->dst.fixed_hw_reg = reg;
+ inst->dst = reg;
}
for (int i = 0; i < 3; i++) {
if (inst->src[i].file != ATTR)
continue;
- int grf = attribute_map[inst->src[i].reg + inst->src[i].reg_offset];
+ int grf = attribute_map[inst->src[i].nr + inst->src[i].reg_offset];
/* All attributes used in the shader need to have been assigned a
* hardware register by the caller
assert(grf != 0);
struct brw_reg reg = attribute_to_hw_reg(grf, interleaved);
- reg.dw1.bits.swizzle = inst->src[i].swizzle;
+ reg.swizzle = inst->src[i].swizzle;
reg.type = inst->src[i].type;
if (inst->src[i].abs)
reg = brw_abs(reg);
if (inst->src[i].negate)
reg = negate(reg);
- inst->src[i].file = HW_REG;
- inst->src[i].fixed_hw_reg = reg;
+ inst->src[i] = reg;
}
}
}
emit(MOV(offset, src_reg(index * SHADER_TIME_STRIDE)));
time.type = BRW_REGISTER_TYPE_UD;
- emit(MOV(time, src_reg(value)));
+ emit(MOV(time, value));
vec4_instruction *inst =
emit(SHADER_OPCODE_SHADER_TIME_ADD, dst_reg(), src_reg(dst));
inst->mlen = 2;
}
+void
+vec4_visitor::convert_to_hw_regs()
+{
+ foreach_block_and_inst(block, vec4_instruction, inst, cfg) {
+ for (int i = 0; i < 3; i++) {
+ struct src_reg &src = inst->src[i];
+ struct brw_reg reg;
+ switch (src.file) {
+ case VGRF:
+ reg = brw_vec8_grf(src.nr + src.reg_offset, 0);
+ reg.type = src.type;
+ reg.swizzle = src.swizzle;
+ reg.abs = src.abs;
+ reg.negate = src.negate;
+ break;
+
+ case IMM:
+ reg = brw_imm_reg(src.type);
+ reg.ud = src.ud;
+ break;
+
+ case UNIFORM:
+ reg = stride(brw_vec4_grf(prog_data->base.dispatch_grf_start_reg +
+ (src.nr + src.reg_offset) / 2,
+ ((src.nr + src.reg_offset) % 2) * 4),
+ 0, 4, 1);
+ reg.type = src.type;
+ reg.swizzle = src.swizzle;
+ reg.abs = src.abs;
+ reg.negate = src.negate;
+
+ /* This should have been moved to pull constants. */
+ assert(!src.reladdr);
+ break;
+
+ case ARF:
+ case FIXED_GRF:
+ continue;
+
+ case BAD_FILE:
+ /* Probably unused. */
+ reg = brw_null_reg();
+ break;
+
+ case MRF:
+ case ATTR:
+ unreachable("not reached");
+ }
+ src = reg;
+ }
+
+ dst_reg &dst = inst->dst;
+ struct brw_reg reg;
+
+ switch (inst->dst.file) {
+ case VGRF:
+ reg = brw_vec8_grf(dst.nr + dst.reg_offset, 0);
+ reg.type = dst.type;
+ reg.writemask = dst.writemask;
+ break;
+
+ case MRF:
+ assert(((dst.nr + dst.reg_offset) & ~BRW_MRF_COMPR4) < BRW_MAX_MRF(devinfo->gen));
+ reg = brw_message_reg(dst.nr + dst.reg_offset);
+ reg.type = dst.type;
+ reg.writemask = dst.writemask;
+ break;
+
+ case ARF:
+ case FIXED_GRF:
+ reg = dst;
+ break;
+
+ case BAD_FILE:
+ reg = brw_null_reg();
+ break;
+
+ case IMM:
+ case ATTR:
+ case UNIFORM:
+ unreachable("not reached");
+ }
+
+ dst = reg;
+ }
+}
+
bool
vec4_visitor::run()
{
OPT(dead_code_eliminate);
OPT(dead_control_flow_eliminate, this);
OPT(opt_copy_propagation);
+ OPT(opt_cmod_propagation);
OPT(opt_cse);
OPT(opt_algebraic);
OPT(opt_register_coalesce);
opt_set_dependency_control();
+ convert_to_hw_regs();
+
if (last_scratch > 0) {
prog_data->base.total_scratch =
brw_get_scratch_size(last_scratch * REG_SIZE);
{
const unsigned *assembly = NULL;
- if (compiler->scalar_vs) {
+ unsigned nr_attributes = _mesa_bitcount_64(prog_data->inputs_read);
+
+ /* gl_VertexID and gl_InstanceID are system values, but arrive via an
+ * incoming vertex attribute. So, add an extra slot.
+ */
+ if (shader->info.system_values_read &
+ (BITFIELD64_BIT(SYSTEM_VALUE_VERTEX_ID_ZERO_BASE) |
+ BITFIELD64_BIT(SYSTEM_VALUE_INSTANCE_ID))) {
+ nr_attributes++;
+ }
+
+ /* The 3DSTATE_VS documentation lists the lower bound on "Vertex URB Entry
+ * Read Length" as 1 in vec4 mode, and 0 in SIMD8 mode. Empirically, in
+ * vec4 mode, the hardware appears to wedge unless we read something.
+ */
+ if (compiler->scalar_stage[MESA_SHADER_VERTEX])
+ prog_data->base.urb_read_length = DIV_ROUND_UP(nr_attributes, 2);
+ else
+ prog_data->base.urb_read_length = DIV_ROUND_UP(MAX2(nr_attributes, 1), 2);
+
+ prog_data->nr_attributes = nr_attributes;
+
+ /* Since vertex shaders reuse the same VUE entry for inputs and outputs
+ * (overwriting the original contents), we need to make sure the size is
+ * the larger of the two.
+ */
+ const unsigned vue_entries =
+ MAX2(nr_attributes, (unsigned)prog_data->base.vue_map.num_slots);
+
+ if (compiler->devinfo->gen == 6)
+ prog_data->base.urb_entry_size = DIV_ROUND_UP(vue_entries, 8);
+ else
+ prog_data->base.urb_entry_size = DIV_ROUND_UP(vue_entries, 4);
+
+ if (compiler->scalar_stage[MESA_SHADER_VERTEX]) {
prog_data->base.dispatch_mode = DISPATCH_MODE_SIMD8;
fs_visitor v(compiler, log_data, mem_ctx, key, &prog_data->base.base,
return NULL;
}
- vec4_generator g(compiler, log_data, &prog_data->base,
- mem_ctx, INTEL_DEBUG & DEBUG_VS, "vertex", "VS");
- assembly = g.generate_assembly(v.cfg, final_assembly_size, shader);
+ assembly = brw_vec4_generate_assembly(compiler, log_data, mem_ctx,
+ shader, &prog_data->base, v.cfg,
+ final_assembly_size);
}
return assembly;