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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.
*/
/** @file brw_fs_generator.cpp
*
* This file supports generating code from the FS LIR to the actual
* native instructions.
*/
#include "brw_eu.h"
#include "brw_fs.h"
#include "brw_cfg.h"
static enum brw_reg_file
brw_file_from_reg(fs_reg *reg)
{
switch (reg->file) {
case ARF:
return BRW_ARCHITECTURE_REGISTER_FILE;
case FIXED_GRF:
case VGRF:
return BRW_GENERAL_REGISTER_FILE;
case MRF:
return BRW_MESSAGE_REGISTER_FILE;
case IMM:
return BRW_IMMEDIATE_VALUE;
case BAD_FILE:
case ATTR:
case UNIFORM:
unreachable("not reached");
}
return BRW_ARCHITECTURE_REGISTER_FILE;
}
static struct brw_reg
brw_reg_from_fs_reg(const struct gen_device_info *devinfo, fs_inst *inst,
fs_reg *reg, bool compressed)
{
struct brw_reg brw_reg;
switch (reg->file) {
case MRF:
assert((reg->nr & ~BRW_MRF_COMPR4) < BRW_MAX_MRF(devinfo->gen));
/* Fallthrough */
case VGRF:
if (reg->stride == 0) {
brw_reg = brw_vec1_reg(brw_file_from_reg(reg), reg->nr, 0);
} else {
/* From the Haswell PRM:
*
* "VertStride must be used to cross GRF register boundaries. This
* rule implies that elements within a 'Width' cannot cross GRF
* boundaries."
*
* The maximum width value that could satisfy this restriction is:
*/
const unsigned reg_width = REG_SIZE / (reg->stride * type_sz(reg->type));
/* Because the hardware can only split source regions at a whole
* multiple of width during decompression (i.e. vertically), clamp
* the value obtained above to the physical execution size of a
* single decompressed chunk of the instruction:
*/
const unsigned phys_width = compressed ? inst->exec_size / 2 :
inst->exec_size;
/* XXX - The equation above is strictly speaking not correct on
* hardware that supports unbalanced GRF writes -- On Gen9+
* each decompressed chunk of the instruction may have a
* different execution size when the number of components
* written to each destination GRF is not the same.
*/
const unsigned width = MIN2(reg_width, phys_width);
brw_reg = brw_vecn_reg(width, brw_file_from_reg(reg), reg->nr, 0);
brw_reg = stride(brw_reg, width * reg->stride, width, reg->stride);
if (devinfo->gen == 7 && !devinfo->is_haswell) {
/* From the IvyBridge PRM (EU Changes by Processor Generation, page 13):
* "Each DF (Double Float) operand uses an element size of 4 rather
* than 8 and all regioning parameters are twice what the values
* would be based on the true element size: ExecSize, Width,
* HorzStride, and VertStride. Each DF operand uses a pair of
* channels and all masking and swizzing should be adjusted
* appropriately."
*
* From the IvyBridge PRM (Special Requirements for Handling Double
* Precision Data Types, page 71):
* "In Align1 mode, all regioning parameters like stride, execution
* size, and width must use the syntax of a pair of packed
* floats. The offsets for these data types must be 64-bit
* aligned. The execution size and regioning parameters are in terms
* of floats."
*
* Summarized: when handling DF-typed arguments, ExecSize,
* VertStride, and Width must be doubled.
*
* It applies to BayTrail too.
*/
if (type_sz(reg->type) == 8) {
brw_reg.width++;
if (brw_reg.vstride > 0)
brw_reg.vstride++;
assert(brw_reg.hstride == BRW_HORIZONTAL_STRIDE_1);
}
/* When converting from DF->F, we set the destination stride to 2
* because each d2f conversion implicitly writes 2 floats, being
* the first one the converted value. IVB/BYT actually writes two
* F components per SIMD channel, and every other component is
* filled with garbage.
*/
if (reg == &inst->dst && get_exec_type_size(inst) == 8 &&
type_sz(inst->dst.type) < 8) {
assert(brw_reg.hstride > BRW_HORIZONTAL_STRIDE_1);
brw_reg.hstride--;
}
}
}
brw_reg = retype(brw_reg, reg->type);
brw_reg = byte_offset(brw_reg, reg->offset);
brw_reg.abs = reg->abs;
brw_reg.negate = reg->negate;
break;
case ARF:
case FIXED_GRF:
case IMM:
assert(reg->offset == 0);
brw_reg = reg->as_brw_reg();
break;
case BAD_FILE:
/* Probably unused. */
brw_reg = brw_null_reg();
break;
case ATTR:
case UNIFORM:
unreachable("not reached");
}
/* On HSW+, scalar DF sources can be accessed using the normal <0,1,0>
* region, but on IVB and BYT DF regions must be programmed in terms of
* floats. A <0,2,1> region accomplishes this.
*/
if (devinfo->gen == 7 && !devinfo->is_haswell &&
type_sz(reg->type) == 8 &&
brw_reg.vstride == BRW_VERTICAL_STRIDE_0 &&
brw_reg.width == BRW_WIDTH_1 &&
brw_reg.hstride == BRW_HORIZONTAL_STRIDE_0) {
brw_reg.width = BRW_WIDTH_2;
brw_reg.hstride = BRW_HORIZONTAL_STRIDE_1;
}
return brw_reg;
}
fs_generator::fs_generator(const struct brw_compiler *compiler, void *log_data,
void *mem_ctx,
const void *key,
struct brw_stage_prog_data *prog_data,
unsigned promoted_constants,
bool runtime_check_aads_emit,
gl_shader_stage stage)
: compiler(compiler), log_data(log_data),
devinfo(compiler->devinfo), key(key),
prog_data(prog_data),
promoted_constants(promoted_constants),
runtime_check_aads_emit(runtime_check_aads_emit), debug_flag(false),
stage(stage), mem_ctx(mem_ctx)
{
p = rzalloc(mem_ctx, struct brw_codegen);
brw_init_codegen(devinfo, p, mem_ctx);
}
fs_generator::~fs_generator()
{
}
class ip_record : public exec_node {
public:
DECLARE_RALLOC_CXX_OPERATORS(ip_record)
ip_record(int ip)
{
this->ip = ip;
}
int ip;
};
bool
fs_generator::patch_discard_jumps_to_fb_writes()
{
if (devinfo->gen < 6 || this->discard_halt_patches.is_empty())
return false;
int scale = brw_jump_scale(p->devinfo);
/* There is a somewhat strange undocumented requirement of using
* HALT, according to the simulator. If some channel has HALTed to
* a particular UIP, then by the end of the program, every channel
* must have HALTed to that UIP. Furthermore, the tracking is a
* stack, so you can't do the final halt of a UIP after starting
* halting to a new UIP.
*
* Symptoms of not emitting this instruction on actual hardware
* included GPU hangs and sparkly rendering on the piglit discard
* tests.
*/
brw_inst *last_halt = gen6_HALT(p);
brw_inst_set_uip(p->devinfo, last_halt, 1 * scale);
brw_inst_set_jip(p->devinfo, last_halt, 1 * scale);
int ip = p->nr_insn;
foreach_in_list(ip_record, patch_ip, &discard_halt_patches) {
brw_inst *patch = &p->store[patch_ip->ip];
assert(brw_inst_opcode(p->devinfo, patch) == BRW_OPCODE_HALT);
/* HALT takes a half-instruction distance from the pre-incremented IP. */
brw_inst_set_uip(p->devinfo, patch, (ip - patch_ip->ip) * scale);
}
this->discard_halt_patches.make_empty();
return true;
}
void
fs_generator::fire_fb_write(fs_inst *inst,
struct brw_reg payload,
struct brw_reg implied_header,
GLuint nr)
{
uint32_t msg_control;
struct brw_wm_prog_data *prog_data = brw_wm_prog_data(this->prog_data);
if (devinfo->gen < 6) {
brw_push_insn_state(p);
brw_set_default_exec_size(p, BRW_EXECUTE_8);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
brw_set_default_predicate_control(p, BRW_PREDICATE_NONE);
brw_set_default_compression_control(p, BRW_COMPRESSION_NONE);
brw_MOV(p, offset(payload, 1), brw_vec8_grf(1, 0));
brw_pop_insn_state(p);
}
if (inst->opcode == FS_OPCODE_REP_FB_WRITE)
msg_control = BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD16_SINGLE_SOURCE_REPLICATED;
else if (prog_data->dual_src_blend) {
if (!inst->group)
msg_control = BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD8_DUAL_SOURCE_SUBSPAN01;
else
msg_control = BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD8_DUAL_SOURCE_SUBSPAN23;
} else if (inst->exec_size == 16)
msg_control = BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD16_SINGLE_SOURCE;
else
msg_control = BRW_DATAPORT_RENDER_TARGET_WRITE_SIMD8_SINGLE_SOURCE_SUBSPAN01;
/* We assume render targets start at 0, because headerless FB write
* messages set "Render Target Index" to 0. Using a different binding
* table index would make it impossible to use headerless messages.
*/
assert(prog_data->binding_table.render_target_start == 0);
const uint32_t surf_index = inst->target;
bool last_render_target = inst->eot ||
(prog_data->dual_src_blend && dispatch_width == 16);
brw_fb_WRITE(p,
payload,
implied_header,
msg_control,
surf_index,
nr,
0,
inst->eot,
last_render_target,
inst->header_size != 0);
brw_mark_surface_used(&prog_data->base, surf_index);
}
void
fs_generator::generate_fb_write(fs_inst *inst, struct brw_reg payload)
{
struct brw_wm_prog_data *prog_data = brw_wm_prog_data(this->prog_data);
const brw_wm_prog_key * const key = (brw_wm_prog_key * const) this->key;
struct brw_reg implied_header;
if (devinfo->gen < 8 && !devinfo->is_haswell) {
brw_set_default_predicate_control(p, BRW_PREDICATE_NONE);
}
if (inst->base_mrf >= 0)
payload = brw_message_reg(inst->base_mrf);
/* Header is 2 regs, g0 and g1 are the contents. g0 will be implied
* move, here's g1.
*/
if (inst->header_size != 0) {
brw_push_insn_state(p);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
brw_set_default_predicate_control(p, BRW_PREDICATE_NONE);
brw_set_default_compression_control(p, BRW_COMPRESSION_NONE);
brw_set_default_flag_reg(p, 0, 0);
/* On HSW, the GPU will use the predicate on SENDC, unless the header is
* present.
*/
if (prog_data->uses_kill) {
struct brw_reg pixel_mask;
if (devinfo->gen >= 6)
pixel_mask = retype(brw_vec1_grf(1, 7), BRW_REGISTER_TYPE_UW);
else
pixel_mask = retype(brw_vec1_grf(0, 0), BRW_REGISTER_TYPE_UW);
brw_MOV(p, pixel_mask, brw_flag_reg(0, 1));
}
if (devinfo->gen >= 6) {
brw_push_insn_state(p);
brw_set_default_exec_size(p, BRW_EXECUTE_16);
brw_set_default_compression_control(p, BRW_COMPRESSION_COMPRESSED);
brw_MOV(p,
retype(payload, BRW_REGISTER_TYPE_UD),
retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UD));
brw_pop_insn_state(p);
if (inst->target > 0 && key->replicate_alpha) {
/* Set "Source0 Alpha Present to RenderTarget" bit in message
* header.
*/
brw_OR(p,
vec1(retype(payload, BRW_REGISTER_TYPE_UD)),
vec1(retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UD)),
brw_imm_ud(0x1 << 11));
}
if (inst->target > 0) {
/* Set the render target index for choosing BLEND_STATE. */
brw_MOV(p, retype(vec1(suboffset(payload, 2)),
BRW_REGISTER_TYPE_UD),
brw_imm_ud(inst->target));
}
/* Set computes stencil to render target */
if (prog_data->computed_stencil) {
brw_OR(p,
vec1(retype(payload, BRW_REGISTER_TYPE_UD)),
vec1(retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UD)),
brw_imm_ud(0x1 << 14));
}
implied_header = brw_null_reg();
} else {
implied_header = retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UW);
}
brw_pop_insn_state(p);
} else {
implied_header = brw_null_reg();
}
if (!runtime_check_aads_emit) {
fire_fb_write(inst, payload, implied_header, inst->mlen);
} else {
/* This can only happen in gen < 6 */
assert(devinfo->gen < 6);
struct brw_reg v1_null_ud = vec1(retype(brw_null_reg(), BRW_REGISTER_TYPE_UD));
/* Check runtime bit to detect if we have to send AA data or not */
brw_set_default_compression_control(p, BRW_COMPRESSION_NONE);
brw_AND(p,
v1_null_ud,
retype(brw_vec1_grf(1, 6), BRW_REGISTER_TYPE_UD),
brw_imm_ud(1<<26));
brw_inst_set_cond_modifier(p->devinfo, brw_last_inst, BRW_CONDITIONAL_NZ);
int jmp = brw_JMPI(p, brw_imm_ud(0), BRW_PREDICATE_NORMAL) - p->store;
brw_inst_set_exec_size(p->devinfo, brw_last_inst, BRW_EXECUTE_1);
{
/* Don't send AA data */
fire_fb_write(inst, offset(payload, 1), implied_header, inst->mlen-1);
}
brw_land_fwd_jump(p, jmp);
fire_fb_write(inst, payload, implied_header, inst->mlen);
}
}
void
fs_generator::generate_fb_read(fs_inst *inst, struct brw_reg dst,
struct brw_reg payload)
{
assert(inst->size_written % REG_SIZE == 0);
struct brw_wm_prog_data *prog_data = brw_wm_prog_data(this->prog_data);
const unsigned surf_index =
prog_data->binding_table.render_target_start + inst->target;
gen9_fb_READ(p, dst, payload, surf_index,
inst->header_size, inst->size_written / REG_SIZE,
prog_data->persample_dispatch);
brw_mark_surface_used(&prog_data->base, surf_index);
}
void
fs_generator::generate_mov_indirect(fs_inst *inst,
struct brw_reg dst,
struct brw_reg reg,
struct brw_reg indirect_byte_offset)
{
assert(indirect_byte_offset.type == BRW_REGISTER_TYPE_UD);
assert(indirect_byte_offset.file == BRW_GENERAL_REGISTER_FILE);
unsigned imm_byte_offset = reg.nr * REG_SIZE + reg.subnr;
if (indirect_byte_offset.file == BRW_IMMEDIATE_VALUE) {
imm_byte_offset += indirect_byte_offset.ud;
reg.nr = imm_byte_offset / REG_SIZE;
reg.subnr = imm_byte_offset % REG_SIZE;
brw_MOV(p, dst, reg);
} else {
/* Prior to Broadwell, there are only 8 address registers. */
assert(inst->exec_size <= 8 || devinfo->gen >= 8);
/* We use VxH indirect addressing, clobbering a0.0 through a0.7. */
struct brw_reg addr = vec8(brw_address_reg(0));
/* The destination stride of an instruction (in bytes) must be greater
* than or equal to the size of the rest of the instruction. Since the
* address register is of type UW, we can't use a D-type instruction.
* In order to get around this, re retype to UW and use a stride.
*/
indirect_byte_offset =
retype(spread(indirect_byte_offset, 2), BRW_REGISTER_TYPE_UW);
/* There are a number of reasons why we don't use the base offset here.
* One reason is that the field is only 9 bits which means we can only
* use it to access the first 16 GRFs. Also, from the Haswell PRM
* section "Register Region Restrictions":
*
* "The lower bits of the AddressImmediate must not overflow to
* change the register address. The lower 5 bits of Address
* Immediate when added to lower 5 bits of address register gives
* the sub-register offset. The upper bits of Address Immediate
* when added to upper bits of address register gives the register
* address. Any overflow from sub-register offset is dropped."
*
* Since the indirect may cause us to cross a register boundary, this
* makes the base offset almost useless. We could try and do something
* clever where we use a actual base offset if base_offset % 32 == 0 but
* that would mean we were generating different code depending on the
* base offset. Instead, for the sake of consistency, we'll just do the
* add ourselves. This restriction is only listed in the Haswell PRM
* but empirical testing indicates that it applies on all older
* generations and is lifted on Broadwell.
*
* In the end, while base_offset is nice to look at in the generated
* code, using it saves us 0 instructions and would require quite a bit
* of case-by-case work. It's just not worth it.
*/
if (devinfo->gen >= 8 || devinfo->is_haswell || type_sz(reg.type) < 8) {
brw_ADD(p, addr, indirect_byte_offset, brw_imm_uw(imm_byte_offset));
} else {
/* IVB reads two address register components per channel for
* indirectly addressed 64-bit sources, so we need to initialize
* adjacent address components to consecutive dwords of the source
* region by emitting two separate ADD instructions. Found
* empirically.
*/
assert(inst->exec_size <= 4);
brw_push_insn_state(p);
brw_set_default_exec_size(p, cvt(inst->exec_size) - 1);
brw_ADD(p, spread(addr, 2), indirect_byte_offset,
brw_imm_uw(imm_byte_offset));
brw_inst_set_no_dd_clear(devinfo, brw_last_inst, true);
brw_ADD(p, spread(suboffset(addr, 1), 2), indirect_byte_offset,
brw_imm_uw(imm_byte_offset + 4));
brw_inst_set_no_dd_check(devinfo, brw_last_inst, true);
brw_pop_insn_state(p);
}
struct brw_reg ind_src = brw_VxH_indirect(0, 0);
brw_inst *mov = brw_MOV(p, dst, retype(ind_src, reg.type));
if (devinfo->gen == 6 && dst.file == BRW_MESSAGE_REGISTER_FILE &&
!inst->get_next()->is_tail_sentinel() &&
((fs_inst *)inst->get_next())->mlen > 0) {
/* From the Sandybridge PRM:
*
* "[Errata: DevSNB(SNB)] If MRF register is updated by any
* instruction that “indexed/indirect” source AND is followed by a
* send, the instruction requires a “Switch”. This is to avoid
* race condition where send may dispatch before MRF is updated."
*/
brw_inst_set_thread_control(devinfo, mov, BRW_THREAD_SWITCH);
}
}
}
void
fs_generator::generate_urb_read(fs_inst *inst,
struct brw_reg dst,
struct brw_reg header)
{
assert(inst->size_written % REG_SIZE == 0);
assert(header.file == BRW_GENERAL_REGISTER_FILE);
assert(header.type == BRW_REGISTER_TYPE_UD);
brw_inst *send = brw_next_insn(p, BRW_OPCODE_SEND);
brw_set_dest(p, send, retype(dst, BRW_REGISTER_TYPE_UD));
brw_set_src0(p, send, header);
brw_set_src1(p, send, brw_imm_ud(0u));
brw_inst_set_sfid(p->devinfo, send, BRW_SFID_URB);
brw_inst_set_urb_opcode(p->devinfo, send, GEN8_URB_OPCODE_SIMD8_READ);
if (inst->opcode == SHADER_OPCODE_URB_READ_SIMD8_PER_SLOT)
brw_inst_set_urb_per_slot_offset(p->devinfo, send, true);
brw_inst_set_mlen(p->devinfo, send, inst->mlen);
brw_inst_set_rlen(p->devinfo, send, inst->size_written / REG_SIZE);
brw_inst_set_header_present(p->devinfo, send, true);
brw_inst_set_urb_global_offset(p->devinfo, send, inst->offset);
}
void
fs_generator::generate_urb_write(fs_inst *inst, struct brw_reg payload)
{
brw_inst *insn;
insn = brw_next_insn(p, BRW_OPCODE_SEND);
brw_set_dest(p, insn, brw_null_reg());
brw_set_src0(p, insn, payload);
brw_set_src1(p, insn, brw_imm_d(0));
brw_inst_set_sfid(p->devinfo, insn, BRW_SFID_URB);
brw_inst_set_urb_opcode(p->devinfo, insn, GEN8_URB_OPCODE_SIMD8_WRITE);
if (inst->opcode == SHADER_OPCODE_URB_WRITE_SIMD8_PER_SLOT ||
inst->opcode == SHADER_OPCODE_URB_WRITE_SIMD8_MASKED_PER_SLOT)
brw_inst_set_urb_per_slot_offset(p->devinfo, insn, true);
if (inst->opcode == SHADER_OPCODE_URB_WRITE_SIMD8_MASKED ||
inst->opcode == SHADER_OPCODE_URB_WRITE_SIMD8_MASKED_PER_SLOT)
brw_inst_set_urb_channel_mask_present(p->devinfo, insn, true);
brw_inst_set_mlen(p->devinfo, insn, inst->mlen);
brw_inst_set_rlen(p->devinfo, insn, 0);
brw_inst_set_eot(p->devinfo, insn, inst->eot);
brw_inst_set_header_present(p->devinfo, insn, true);
brw_inst_set_urb_global_offset(p->devinfo, insn, inst->offset);
}
void
fs_generator::generate_cs_terminate(fs_inst *inst, struct brw_reg payload)
{
struct brw_inst *insn;
insn = brw_next_insn(p, BRW_OPCODE_SEND);
brw_set_dest(p, insn, retype(brw_null_reg(), BRW_REGISTER_TYPE_UW));
brw_set_src0(p, insn, retype(payload, BRW_REGISTER_TYPE_UW));
brw_set_src1(p, insn, brw_imm_d(0));
/* Terminate a compute shader by sending a message to the thread spawner.
*/
brw_inst_set_sfid(devinfo, insn, BRW_SFID_THREAD_SPAWNER);
brw_inst_set_mlen(devinfo, insn, 1);
brw_inst_set_rlen(devinfo, insn, 0);
brw_inst_set_eot(devinfo, insn, inst->eot);
brw_inst_set_header_present(devinfo, insn, false);
brw_inst_set_ts_opcode(devinfo, insn, 0); /* Dereference resource */
brw_inst_set_ts_request_type(devinfo, insn, 0); /* Root thread */
/* Note that even though the thread has a URB resource associated with it,
* we set the "do not dereference URB" bit, because the URB resource is
* managed by the fixed-function unit, so it will free it automatically.
*/
brw_inst_set_ts_resource_select(devinfo, insn, 1); /* Do not dereference URB */
brw_inst_set_mask_control(devinfo, insn, BRW_MASK_DISABLE);
}
void
fs_generator::generate_barrier(fs_inst *inst, struct brw_reg src)
{
brw_barrier(p, src);
brw_WAIT(p);
}
void
fs_generator::generate_linterp(fs_inst *inst,
struct brw_reg dst, struct brw_reg *src)
{
/* PLN reads:
* / in SIMD16 \
* -----------------------------------
* | src1+0 | src1+1 | src1+2 | src1+3 |
* |-----------------------------------|
* |(x0, x1)|(y0, y1)|(x2, x3)|(y2, y3)|
* -----------------------------------
*
* but for the LINE/MAC pair, the LINE reads Xs and the MAC reads Ys:
*
* -----------------------------------
* | src1+0 | src1+1 | src1+2 | src1+3 |
* |-----------------------------------|
* |(x0, x1)|(y0, y1)| | | in SIMD8
* |-----------------------------------|
* |(x0, x1)|(x2, x3)|(y0, y1)|(y2, y3)| in SIMD16
* -----------------------------------
*
* See also: emit_interpolation_setup_gen4().
*/
struct brw_reg delta_x = src[0];
struct brw_reg delta_y = offset(src[0], inst->exec_size / 8);
struct brw_reg interp = src[1];
if (devinfo->has_pln &&
(devinfo->gen >= 7 || (delta_x.nr & 1) == 0)) {
brw_PLN(p, dst, interp, delta_x);
} else {
brw_LINE(p, brw_null_reg(), interp, delta_x);
brw_MAC(p, dst, suboffset(interp, 1), delta_y);
}
}
void
fs_generator::generate_get_buffer_size(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src,
struct brw_reg surf_index)
{
assert(devinfo->gen >= 7);
assert(surf_index.file == BRW_IMMEDIATE_VALUE);
uint32_t simd_mode;
int rlen = 4;
switch (inst->exec_size) {
case 8:
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD8;
break;
case 16:
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
break;
default:
unreachable("Invalid width for texture instruction");
}
if (simd_mode == BRW_SAMPLER_SIMD_MODE_SIMD16) {
rlen = 8;
dst = vec16(dst);
}
brw_SAMPLE(p,
retype(dst, BRW_REGISTER_TYPE_UW),
inst->base_mrf,
src,
surf_index.ud,
0,
GEN5_SAMPLER_MESSAGE_SAMPLE_RESINFO,
rlen, /* response length */
inst->mlen,
inst->header_size > 0,
simd_mode,
BRW_SAMPLER_RETURN_FORMAT_SINT32);
brw_mark_surface_used(prog_data, surf_index.ud);
}
void
fs_generator::generate_tex(fs_inst *inst, struct brw_reg dst, struct brw_reg src,
struct brw_reg surface_index,
struct brw_reg sampler_index)
{
assert(inst->size_written % REG_SIZE == 0);
int msg_type = -1;
uint32_t simd_mode;
uint32_t return_format;
bool is_combined_send = inst->eot;
switch (dst.type) {
case BRW_REGISTER_TYPE_D:
return_format = BRW_SAMPLER_RETURN_FORMAT_SINT32;
break;
case BRW_REGISTER_TYPE_UD:
return_format = BRW_SAMPLER_RETURN_FORMAT_UINT32;
break;
default:
return_format = BRW_SAMPLER_RETURN_FORMAT_FLOAT32;
break;
}
/* Stomp the resinfo output type to UINT32. On gens 4-5, the output type
* is set as part of the message descriptor. On gen4, the PRM seems to
* allow UINT32 and FLOAT32 (i965 PRM, Vol. 4 Section 4.8.1.1), but on
* later gens UINT32 is required. Once you hit Sandy Bridge, the bit is
* gone from the message descriptor entirely and you just get UINT32 all
* the time regasrdless. Since we can really only do non-UINT32 on gen4,
* just stomp it to UINT32 all the time.
*/
if (inst->opcode == SHADER_OPCODE_TXS)
return_format = BRW_SAMPLER_RETURN_FORMAT_UINT32;
switch (inst->exec_size) {
case 8:
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD8;
break;
case 16:
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
break;
default:
unreachable("Invalid width for texture instruction");
}
if (devinfo->gen >= 5) {
switch (inst->opcode) {
case SHADER_OPCODE_TEX:
if (inst->shadow_compare) {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_COMPARE;
} else {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE;
}
break;
case FS_OPCODE_TXB:
if (inst->shadow_compare) {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_BIAS_COMPARE;
} else {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_BIAS;
}
break;
case SHADER_OPCODE_TXL:
if (inst->shadow_compare) {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_LOD_COMPARE;
} else {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_LOD;
}
break;
case SHADER_OPCODE_TXL_LZ:
assert(devinfo->gen >= 9);
if (inst->shadow_compare) {
msg_type = GEN9_SAMPLER_MESSAGE_SAMPLE_C_LZ;
} else {
msg_type = GEN9_SAMPLER_MESSAGE_SAMPLE_LZ;
}
break;
case SHADER_OPCODE_TXS:
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_RESINFO;
break;
case SHADER_OPCODE_TXD:
if (inst->shadow_compare) {
/* Gen7.5+. Otherwise, lowered in NIR */
assert(devinfo->gen >= 8 || devinfo->is_haswell);
msg_type = HSW_SAMPLER_MESSAGE_SAMPLE_DERIV_COMPARE;
} else {
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_DERIVS;
}
break;
case SHADER_OPCODE_TXF:
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_LD;
break;
case SHADER_OPCODE_TXF_LZ:
assert(devinfo->gen >= 9);
msg_type = GEN9_SAMPLER_MESSAGE_SAMPLE_LD_LZ;
break;
case SHADER_OPCODE_TXF_CMS_W:
assert(devinfo->gen >= 9);
msg_type = GEN9_SAMPLER_MESSAGE_SAMPLE_LD2DMS_W;
break;
case SHADER_OPCODE_TXF_CMS:
if (devinfo->gen >= 7)
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_LD2DMS;
else
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_LD;
break;
case SHADER_OPCODE_TXF_UMS:
assert(devinfo->gen >= 7);
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_LD2DSS;
break;
case SHADER_OPCODE_TXF_MCS:
assert(devinfo->gen >= 7);
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_LD_MCS;
break;
case SHADER_OPCODE_LOD:
msg_type = GEN5_SAMPLER_MESSAGE_LOD;
break;
case SHADER_OPCODE_TG4:
if (inst->shadow_compare) {
assert(devinfo->gen >= 7);
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_GATHER4_C;
} else {
assert(devinfo->gen >= 6);
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_GATHER4;
}
break;
case SHADER_OPCODE_TG4_OFFSET:
assert(devinfo->gen >= 7);
if (inst->shadow_compare) {
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_GATHER4_PO_C;
} else {
msg_type = GEN7_SAMPLER_MESSAGE_SAMPLE_GATHER4_PO;
}
break;
case SHADER_OPCODE_SAMPLEINFO:
msg_type = GEN6_SAMPLER_MESSAGE_SAMPLE_SAMPLEINFO;
break;
default:
unreachable("not reached");
}
} else {
switch (inst->opcode) {
case SHADER_OPCODE_TEX:
/* Note that G45 and older determines shadow compare and dispatch width
* from message length for most messages.
*/
if (inst->exec_size == 8) {
msg_type = BRW_SAMPLER_MESSAGE_SIMD8_SAMPLE;
if (inst->shadow_compare) {
assert(inst->mlen == 6);
} else {
assert(inst->mlen <= 4);
}
} else {
if (inst->shadow_compare) {
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_SAMPLE_COMPARE;
assert(inst->mlen == 9);
} else {
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_SAMPLE;
assert(inst->mlen <= 7 && inst->mlen % 2 == 1);
}
}
break;
case FS_OPCODE_TXB:
if (inst->shadow_compare) {
assert(inst->exec_size == 8);
assert(inst->mlen == 6);
msg_type = BRW_SAMPLER_MESSAGE_SIMD8_SAMPLE_BIAS_COMPARE;
} else {
assert(inst->mlen == 9);
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_SAMPLE_BIAS;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
}
break;
case SHADER_OPCODE_TXL:
if (inst->shadow_compare) {
assert(inst->exec_size == 8);
assert(inst->mlen == 6);
msg_type = BRW_SAMPLER_MESSAGE_SIMD8_SAMPLE_LOD_COMPARE;
} else {
assert(inst->mlen == 9);
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_SAMPLE_LOD;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
}
break;
case SHADER_OPCODE_TXD:
/* There is no sample_d_c message; comparisons are done manually */
assert(inst->exec_size == 8);
assert(inst->mlen == 7 || inst->mlen == 10);
msg_type = BRW_SAMPLER_MESSAGE_SIMD8_SAMPLE_GRADIENTS;
break;
case SHADER_OPCODE_TXF:
assert(inst->mlen <= 9 && inst->mlen % 2 == 1);
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_LD;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
break;
case SHADER_OPCODE_TXS:
assert(inst->mlen == 3);
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_RESINFO;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
break;
default:
unreachable("not reached");
}
}
assert(msg_type != -1);
if (simd_mode == BRW_SAMPLER_SIMD_MODE_SIMD16) {
dst = vec16(dst);
}
assert(devinfo->gen < 7 || inst->header_size == 0 ||
src.file == BRW_GENERAL_REGISTER_FILE);
assert(sampler_index.type == BRW_REGISTER_TYPE_UD);
/* Load the message header if present. If there's a texture offset,
* we need to set it up explicitly and load the offset bitfield.
* Otherwise, we can use an implied move from g0 to the first message reg.
*/
if (inst->header_size != 0) {
if (devinfo->gen < 6 && !inst->offset) {
/* Set up an implied move from g0 to the MRF. */
src = retype(brw_vec8_grf(0, 0), BRW_REGISTER_TYPE_UW);
} else {
struct brw_reg header_reg;
if (devinfo->gen >= 7) {
header_reg = src;
} else {
assert(inst->base_mrf != -1);
header_reg = brw_message_reg(inst->base_mrf);
}
brw_push_insn_state(p);
brw_set_default_exec_size(p, BRW_EXECUTE_8);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
brw_set_default_compression_control(p, BRW_COMPRESSION_NONE);
/* Explicitly set up the message header by copying g0 to the MRF. */
brw_MOV(p, header_reg, brw_vec8_grf(0, 0));
if (inst->offset) {
/* Set the offset bits in DWord 2. */
brw_MOV(p, get_element_ud(header_reg, 2),
brw_imm_ud(inst->offset));
} else if (stage != MESA_SHADER_VERTEX &&
stage != MESA_SHADER_FRAGMENT) {
/* The vertex and fragment stages have g0.2 set to 0, so
* header0.2 is 0 when g0 is copied. Other stages may not, so we
* must set it to 0 to avoid setting undesirable bits in the
* message.
*/
brw_MOV(p, get_element_ud(header_reg, 2), brw_imm_ud(0));
}
brw_adjust_sampler_state_pointer(p, header_reg, sampler_index);
brw_pop_insn_state(p);
}
}
uint32_t base_binding_table_index = (inst->opcode == SHADER_OPCODE_TG4 ||
inst->opcode == SHADER_OPCODE_TG4_OFFSET)
? prog_data->binding_table.gather_texture_start
: prog_data->binding_table.texture_start;
if (surface_index.file == BRW_IMMEDIATE_VALUE &&
sampler_index.file == BRW_IMMEDIATE_VALUE) {
uint32_t surface = surface_index.ud;
uint32_t sampler = sampler_index.ud;
brw_SAMPLE(p,
retype(dst, BRW_REGISTER_TYPE_UW),
inst->base_mrf,
src,
surface + base_binding_table_index,
sampler % 16,
msg_type,
inst->size_written / REG_SIZE,
inst->mlen,
inst->header_size != 0,
simd_mode,
return_format);
brw_mark_surface_used(prog_data, surface + base_binding_table_index);
} else {
/* Non-const sampler index */
struct brw_reg addr = vec1(retype(brw_address_reg(0), BRW_REGISTER_TYPE_UD));
struct brw_reg surface_reg = vec1(retype(surface_index, BRW_REGISTER_TYPE_UD));
struct brw_reg sampler_reg = vec1(retype(sampler_index, BRW_REGISTER_TYPE_UD));
brw_push_insn_state(p);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
brw_set_default_access_mode(p, BRW_ALIGN_1);
if (brw_regs_equal(&surface_reg, &sampler_reg)) {
brw_MUL(p, addr, sampler_reg, brw_imm_uw(0x101));
} else {
if (sampler_reg.file == BRW_IMMEDIATE_VALUE) {
brw_OR(p, addr, surface_reg, brw_imm_ud(sampler_reg.ud << 8));
} else {
brw_SHL(p, addr, sampler_reg, brw_imm_ud(8));
brw_OR(p, addr, addr, surface_reg);
}
}
if (base_binding_table_index)
brw_ADD(p, addr, addr, brw_imm_ud(base_binding_table_index));
brw_AND(p, addr, addr, brw_imm_ud(0xfff));
brw_pop_insn_state(p);
/* dst = send(offset, a0.0 | <descriptor>) */
brw_inst *insn = brw_send_indirect_message(
p, BRW_SFID_SAMPLER, dst, src, addr);
brw_set_sampler_message(p, insn,
0 /* surface */,
0 /* sampler */,
msg_type,
inst->size_written / REG_SIZE,
inst->mlen /* mlen */,
inst->header_size != 0 /* header */,
simd_mode,
return_format);
/* visitor knows more than we do about the surface limit required,
* so has already done marking.
*/
}
if (is_combined_send) {
brw_inst_set_eot(p->devinfo, brw_last_inst, true);
brw_inst_set_opcode(p->devinfo, brw_last_inst, BRW_OPCODE_SENDC);
}
}
/* For OPCODE_DDX and OPCODE_DDY, per channel of output we've got input
* looking like:
*
* arg0: ss0.tl ss0.tr ss0.bl ss0.br ss1.tl ss1.tr ss1.bl ss1.br
*
* Ideally, we want to produce:
*
* DDX DDY
* dst: (ss0.tr - ss0.tl) (ss0.tl - ss0.bl)
* (ss0.tr - ss0.tl) (ss0.tr - ss0.br)
* (ss0.br - ss0.bl) (ss0.tl - ss0.bl)
* (ss0.br - ss0.bl) (ss0.tr - ss0.br)
* (ss1.tr - ss1.tl) (ss1.tl - ss1.bl)
* (ss1.tr - ss1.tl) (ss1.tr - ss1.br)
* (ss1.br - ss1.bl) (ss1.tl - ss1.bl)
* (ss1.br - ss1.bl) (ss1.tr - ss1.br)
*
* and add another set of two more subspans if in 16-pixel dispatch mode.
*
* For DDX, it ends up being easy: width = 2, horiz=0 gets us the same result
* for each pair, and vertstride = 2 jumps us 2 elements after processing a
* pair. But the ideal approximation may impose a huge performance cost on
* sample_d. On at least Haswell, sample_d instruction does some
* optimizations if the same LOD is used for all pixels in the subspan.
*
* For DDY, we need to use ALIGN16 mode since it's capable of doing the
* appropriate swizzling.
*/
void
fs_generator::generate_ddx(enum opcode opcode,
struct brw_reg dst, struct brw_reg src)
{
unsigned vstride, width;
if (opcode == FS_OPCODE_DDX_FINE) {
/* produce accurate derivatives */
vstride = BRW_VERTICAL_STRIDE_2;
width = BRW_WIDTH_2;
} else {
/* replicate the derivative at the top-left pixel to other pixels */
vstride = BRW_VERTICAL_STRIDE_4;
width = BRW_WIDTH_4;
}
struct brw_reg src0 = brw_reg(src.file, src.nr, 1,
src.negate, src.abs,
BRW_REGISTER_TYPE_F,
vstride,
width,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XYZW, WRITEMASK_XYZW);
struct brw_reg src1 = brw_reg(src.file, src.nr, 0,
src.negate, src.abs,
BRW_REGISTER_TYPE_F,
vstride,
width,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XYZW, WRITEMASK_XYZW);
brw_ADD(p, dst, src0, negate(src1));
}
/* The negate_value boolean is used to negate the derivative computation for
* FBOs, since they place the origin at the upper left instead of the lower
* left.
*/
void
fs_generator::generate_ddy(enum opcode opcode,
struct brw_reg dst, struct brw_reg src)
{
if (opcode == FS_OPCODE_DDY_FINE) {
/* produce accurate derivatives */
struct brw_reg src0 = brw_reg(src.file, src.nr, 0,
src.negate, src.abs,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_4,
BRW_WIDTH_4,
BRW_HORIZONTAL_STRIDE_1,
BRW_SWIZZLE_XYXY, WRITEMASK_XYZW);
struct brw_reg src1 = brw_reg(src.file, src.nr, 0,
src.negate, src.abs,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_4,
BRW_WIDTH_4,
BRW_HORIZONTAL_STRIDE_1,
BRW_SWIZZLE_ZWZW, WRITEMASK_XYZW);
brw_push_insn_state(p);
brw_set_default_access_mode(p, BRW_ALIGN_16);
brw_ADD(p, dst, negate(src0), src1);
brw_pop_insn_state(p);
} else {
/* replicate the derivative at the top-left pixel to other pixels */
struct brw_reg src0 = brw_reg(src.file, src.nr, 0,
src.negate, src.abs,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_4,
BRW_WIDTH_4,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XYZW, WRITEMASK_XYZW);
struct brw_reg src1 = brw_reg(src.file, src.nr, 2,
src.negate, src.abs,
BRW_REGISTER_TYPE_F,
BRW_VERTICAL_STRIDE_4,
BRW_WIDTH_4,
BRW_HORIZONTAL_STRIDE_0,
BRW_SWIZZLE_XYZW, WRITEMASK_XYZW);
brw_ADD(p, dst, negate(src0), src1);
}
}
void
fs_generator::generate_discard_jump(fs_inst *inst)
{
assert(devinfo->gen >= 6);
/* This HALT will be patched up at FB write time to point UIP at the end of
* the program, and at brw_uip_jip() JIP will be set to the end of the
* current block (or the program).
*/
this->discard_halt_patches.push_tail(new(mem_ctx) ip_record(p->nr_insn));
gen6_HALT(p);
}
void
fs_generator::generate_scratch_write(fs_inst *inst, struct brw_reg src)
{
/* The 32-wide messages only respect the first 16-wide half of the channel
* enable signals which are replicated identically for the second group of
* 16 channels, so we cannot use them unless the write is marked
* force_writemask_all.
*/
const unsigned lower_size = inst->force_writemask_all ? inst->exec_size :
MIN2(16, inst->exec_size);
const unsigned block_size = 4 * lower_size / REG_SIZE;
assert(inst->mlen != 0);
brw_push_insn_state(p);
brw_set_default_exec_size(p, cvt(lower_size) - 1);
brw_set_default_compression(p, lower_size > 8);
for (unsigned i = 0; i < inst->exec_size / lower_size; i++) {
brw_set_default_group(p, inst->group + lower_size * i);
brw_MOV(p, brw_uvec_mrf(lower_size, inst->base_mrf + 1, 0),
retype(offset(src, block_size * i), BRW_REGISTER_TYPE_UD));
brw_oword_block_write_scratch(p, brw_message_reg(inst->base_mrf),
block_size,
inst->offset + block_size * REG_SIZE * i);
}
brw_pop_insn_state(p);
}
void
fs_generator::generate_scratch_read(fs_inst *inst, struct brw_reg dst)
{
assert(inst->exec_size <= 16 || inst->force_writemask_all);
assert(inst->mlen != 0);
brw_oword_block_read_scratch(p, dst, brw_message_reg(inst->base_mrf),
inst->exec_size / 8, inst->offset);
}
void
fs_generator::generate_scratch_read_gen7(fs_inst *inst, struct brw_reg dst)
{
assert(inst->exec_size <= 16 || inst->force_writemask_all);
gen7_block_read_scratch(p, dst, inst->exec_size / 8, inst->offset);
}
void
fs_generator::generate_uniform_pull_constant_load(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset)
{
assert(type_sz(dst.type) == 4);
assert(inst->mlen != 0);
assert(index.file == BRW_IMMEDIATE_VALUE &&
index.type == BRW_REGISTER_TYPE_UD);
uint32_t surf_index = index.ud;
assert(offset.file == BRW_IMMEDIATE_VALUE &&
offset.type == BRW_REGISTER_TYPE_UD);
uint32_t read_offset = offset.ud;
brw_oword_block_read(p, dst, brw_message_reg(inst->base_mrf),
read_offset, surf_index);
}
void
fs_generator::generate_uniform_pull_constant_load_gen7(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index,
struct brw_reg payload)
{
assert(index.type == BRW_REGISTER_TYPE_UD);
assert(payload.file == BRW_GENERAL_REGISTER_FILE);
assert(type_sz(dst.type) == 4);
if (index.file == BRW_IMMEDIATE_VALUE) {
const uint32_t surf_index = index.ud;
brw_push_insn_state(p);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
brw_inst *send = brw_next_insn(p, BRW_OPCODE_SEND);
brw_pop_insn_state(p);
brw_set_dest(p, send, retype(dst, BRW_REGISTER_TYPE_UD));
brw_set_src0(p, send, retype(payload, BRW_REGISTER_TYPE_UD));
brw_set_dp_read_message(p, send, surf_index,
BRW_DATAPORT_OWORD_BLOCK_DWORDS(inst->exec_size),
GEN7_DATAPORT_DC_OWORD_BLOCK_READ,
GEN6_SFID_DATAPORT_CONSTANT_CACHE,
1, /* mlen */
true, /* header */
DIV_ROUND_UP(inst->size_written, REG_SIZE));
} else {
struct brw_reg addr = vec1(retype(brw_address_reg(0), BRW_REGISTER_TYPE_UD));
brw_push_insn_state(p);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
/* a0.0 = surf_index & 0xff */
brw_inst *insn_and = brw_next_insn(p, BRW_OPCODE_AND);
brw_inst_set_exec_size(p->devinfo, insn_and, BRW_EXECUTE_1);
brw_set_dest(p, insn_and, addr);
brw_set_src0(p, insn_and, vec1(retype(index, BRW_REGISTER_TYPE_UD)));
brw_set_src1(p, insn_and, brw_imm_ud(0x0ff));
/* dst = send(payload, a0.0 | <descriptor>) */
brw_inst *insn = brw_send_indirect_message(
p, GEN6_SFID_DATAPORT_CONSTANT_CACHE,
retype(dst, BRW_REGISTER_TYPE_UD),
retype(payload, BRW_REGISTER_TYPE_UD), addr);
brw_set_dp_read_message(p, insn, 0 /* surface */,
BRW_DATAPORT_OWORD_BLOCK_DWORDS(inst->exec_size),
GEN7_DATAPORT_DC_OWORD_BLOCK_READ,
GEN6_SFID_DATAPORT_CONSTANT_CACHE,
1, /* mlen */
true, /* header */
DIV_ROUND_UP(inst->size_written, REG_SIZE));
brw_pop_insn_state(p);
}
}
void
fs_generator::generate_varying_pull_constant_load_gen4(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index)
{
assert(devinfo->gen < 7); /* Should use the gen7 variant. */
assert(inst->header_size != 0);
assert(inst->mlen);
assert(index.file == BRW_IMMEDIATE_VALUE &&
index.type == BRW_REGISTER_TYPE_UD);
uint32_t surf_index = index.ud;
uint32_t simd_mode, rlen, msg_type;
if (inst->exec_size == 16) {
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
rlen = 8;
} else {
assert(inst->exec_size == 8);
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD8;
rlen = 4;
}
if (devinfo->gen >= 5)
msg_type = GEN5_SAMPLER_MESSAGE_SAMPLE_LD;
else {
/* We always use the SIMD16 message so that we only have to load U, and
* not V or R.
*/
msg_type = BRW_SAMPLER_MESSAGE_SIMD16_LD;
assert(inst->mlen == 3);
assert(inst->size_written == 8 * REG_SIZE);
rlen = 8;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
}
struct brw_reg header = brw_vec8_grf(0, 0);
gen6_resolve_implied_move(p, &header, inst->base_mrf);
brw_inst *send = brw_next_insn(p, BRW_OPCODE_SEND);
brw_inst_set_compression(devinfo, send, false);
brw_set_dest(p, send, retype(dst, BRW_REGISTER_TYPE_UW));
brw_set_src0(p, send, header);
if (devinfo->gen < 6)
brw_inst_set_base_mrf(p->devinfo, send, inst->base_mrf);
/* Our surface is set up as floats, regardless of what actual data is
* stored in it.
*/
uint32_t return_format = BRW_SAMPLER_RETURN_FORMAT_FLOAT32;
brw_set_sampler_message(p, send,
surf_index,
0, /* sampler (unused) */
msg_type,
rlen,
inst->mlen,
inst->header_size != 0,
simd_mode,
return_format);
}
void
fs_generator::generate_varying_pull_constant_load_gen7(fs_inst *inst,
struct brw_reg dst,
struct brw_reg index,
struct brw_reg offset)
{
assert(devinfo->gen >= 7);
/* Varying-offset pull constant loads are treated as a normal expression on
* gen7, so the fact that it's a send message is hidden at the IR level.
*/
assert(inst->header_size == 0);
assert(!inst->mlen);
assert(index.type == BRW_REGISTER_TYPE_UD);
uint32_t simd_mode, rlen, mlen;
if (inst->exec_size == 16) {
mlen = 2;
rlen = 8;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD16;
} else {
assert(inst->exec_size == 8);
mlen = 1;
rlen = 4;
simd_mode = BRW_SAMPLER_SIMD_MODE_SIMD8;
}
if (index.file == BRW_IMMEDIATE_VALUE) {
uint32_t surf_index = index.ud;
brw_inst *send = brw_next_insn(p, BRW_OPCODE_SEND);
brw_set_dest(p, send, retype(dst, BRW_REGISTER_TYPE_UW));
brw_set_src0(p, send, offset);
brw_set_sampler_message(p, send,
surf_index,
0, /* LD message ignores sampler unit */
GEN5_SAMPLER_MESSAGE_SAMPLE_LD,
rlen,
mlen,
false, /* no header */
simd_mode,
0);
} else {
struct brw_reg addr = vec1(retype(brw_address_reg(0), BRW_REGISTER_TYPE_UD));
brw_push_insn_state(p);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
/* a0.0 = surf_index & 0xff */
brw_inst *insn_and = brw_next_insn(p, BRW_OPCODE_AND);
brw_inst_set_exec_size(p->devinfo, insn_and, BRW_EXECUTE_1);
brw_set_dest(p, insn_and, addr);
brw_set_src0(p, insn_and, vec1(retype(index, BRW_REGISTER_TYPE_UD)));
brw_set_src1(p, insn_and, brw_imm_ud(0x0ff));
brw_pop_insn_state(p);
/* dst = send(offset, a0.0 | <descriptor>) */
brw_inst *insn = brw_send_indirect_message(
p, BRW_SFID_SAMPLER, retype(dst, BRW_REGISTER_TYPE_UW),
offset, addr);
brw_set_sampler_message(p, insn,
0 /* surface */,
0 /* sampler */,
GEN5_SAMPLER_MESSAGE_SAMPLE_LD,
rlen /* rlen */,
mlen /* mlen */,
false /* header */,
simd_mode,
0);
}
}
/**
* Cause the current pixel/sample mask (from R1.7 bits 15:0) to be transferred
* into the flags register (f0.0).
*
* Used only on Gen6 and above.
*/
void
fs_generator::generate_mov_dispatch_to_flags(fs_inst *inst)
{
struct brw_reg flags = brw_flag_reg(0, inst->flag_subreg);
struct brw_reg dispatch_mask;
if (devinfo->gen >= 6)
dispatch_mask = retype(brw_vec1_grf(1, 7), BRW_REGISTER_TYPE_UW);
else
dispatch_mask = retype(brw_vec1_grf(0, 0), BRW_REGISTER_TYPE_UW);
brw_push_insn_state(p);
brw_set_default_mask_control(p, BRW_MASK_DISABLE);
brw_MOV(p, flags, dispatch_mask);
brw_pop_insn_state(p);
}
void
fs_generator::generate_pixel_interpolator_query(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src,
struct brw_reg msg_data,
unsigned msg_type)
{
assert(inst->size_written % REG_SIZE == 0);
assert(msg_data.type == BRW_REGISTER_TYPE_UD);
brw_pixel_interpolator_query(p,
retype(dst, BRW_REGISTER_TYPE_UW),
src,
inst->pi_noperspective,
msg_type,
msg_data,
inst->mlen,
inst->size_written / REG_SIZE);
}
/* Sets vstride=1, width=4, hstride=0 of register src1 during
* the ADD instruction.
*/
void
fs_generator::generate_set_sample_id(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src0,
struct brw_reg src1)
{
assert(dst.type == BRW_REGISTER_TYPE_D ||
dst.type == BRW_REGISTER_TYPE_UD);
assert(src0.type == BRW_REGISTER_TYPE_D ||
src0.type == BRW_REGISTER_TYPE_UD);
struct brw_reg reg = stride(src1, 1, 4, 0);
if (devinfo->gen >= 8 || inst->exec_size == 8) {
brw_ADD(p, dst, src0, reg);
} else if (inst->exec_size == 16) {
brw_push_insn_state(p);
brw_set_default_exec_size(p, BRW_EXECUTE_8);
brw_set_default_compression_control(p, BRW_COMPRESSION_NONE);
brw_ADD(p, firsthalf(dst), firsthalf(src0), reg);
brw_set_default_compression_control(p, BRW_COMPRESSION_2NDHALF);
brw_ADD(p, sechalf(dst), sechalf(src0), suboffset(reg, 2));
brw_pop_insn_state(p);
}
}
void
fs_generator::generate_pack_half_2x16_split(fs_inst *inst,
struct brw_reg dst,
struct brw_reg x,
struct brw_reg y)
{
assert(devinfo->gen >= 7);
assert(dst.type == BRW_REGISTER_TYPE_UD);
assert(x.type == BRW_REGISTER_TYPE_F);
assert(y.type == BRW_REGISTER_TYPE_F);
/* From the Ivybridge PRM, Vol4, Part3, Section 6.27 f32to16:
*
* Because this instruction does not have a 16-bit floating-point type,
* the destination data type must be Word (W).
*
* The destination must be DWord-aligned and specify a horizontal stride
* (HorzStride) of 2. The 16-bit result is stored in the lower word of
* each destination channel and the upper word is not modified.
*/
struct brw_reg dst_w = spread(retype(dst, BRW_REGISTER_TYPE_W), 2);
/* Give each 32-bit channel of dst the form below, where "." means
* unchanged.
* 0x....hhhh
*/
brw_F32TO16(p, dst_w, y);
/* Now the form:
* 0xhhhh0000
*/
brw_SHL(p, dst, dst, brw_imm_ud(16u));
/* And, finally the form of packHalf2x16's output:
* 0xhhhhllll
*/
brw_F32TO16(p, dst_w, x);
}
void
fs_generator::generate_unpack_half_2x16_split(fs_inst *inst,
struct brw_reg dst,
struct brw_reg src)
{
assert(devinfo->gen >= 7);
assert(dst.type == BRW_REGISTER_TYPE_F);
assert(src.type == BRW_REGISTER_TYPE_UD);
/* From the Ivybridge PRM, Vol4, Part3, Section 6.26 f16to32:
*
* Because this instruction does not have a 16-bit floating-point type,
* the source data type must be Word (W). The destination type must be
* F (Float).
*/
struct brw_reg src_w = spread(retype(src, BRW_REGISTER_TYPE_W), 2);
/* Each channel of src has the form of unpackHalf2x16's input: 0xhhhhllll.
* For the Y case, we wish to access only the upper word; therefore
* a 16-bit subregister offset is needed.
*/
assert(inst->opcode == FS_OPCODE_UNPACK_HALF_2x16_SPLIT_X ||
inst->opcode == FS_OPCODE_UNPACK_HALF_2x16_SPLIT_Y);
if (inst->opcode == FS_OPCODE_UNPACK_HALF_2x16_SPLIT_Y)
src_w.subnr += 2;
brw_F16TO32(p, dst, src_w);
}
void
fs_generator::generate_shader_time_add(fs_inst *inst,
struct brw_reg payload,
struct brw_reg offset,
struct brw_reg value)
{
assert(devinfo->gen >= 7);
brw_push_insn_state(p);
brw_set_default_mask_control(p, true);
assert(payload.file == BRW_GENERAL_REGISTER_FILE);
struct brw_reg payload_offset = retype(brw_vec1_grf(payload.nr, 0),
offset.type);
struct brw_reg payload_value = retype(brw_vec1_grf(payload.nr + 1, 0),
value.type);
assert(offset.file == BRW_IMMEDIATE_VALUE);
if (value.file == BRW_GENERAL_REGISTER_FILE) {
value.width = BRW_WIDTH_1;
value.hstride = BRW_HORIZONTAL_STRIDE_0;
value.vstride = BRW_VERTICAL_STRIDE_0;
} else {
assert(value.file == BRW_IMMEDIATE_VALUE);
}
/* Trying to deal with setup of the params from the IR is crazy in the FS8
* case, and we don't really care about squeezing every bit of performance
* out of this path, so we just emit the MOVs from here.
*/
brw_MOV(p, payload_offset, offset);
brw_MOV(p, payload_value, value);
brw_shader_time_add(p, payload,
prog_data->binding_table.shader_time_start);
brw_pop_insn_state(p);
brw_mark_surface_used(prog_data,
prog_data->binding_table.shader_time_start);
}
void
fs_generator::enable_debug(const char *shader_name)
{
debug_flag = true;
this->shader_name = shader_name;
}
int
fs_generator::generate_code(const cfg_t *cfg, int dispatch_width)
{
/* align to 64 byte boundary. */
while (p->next_insn_offset % 64)
brw_NOP(p);
this->dispatch_width = dispatch_width;
int start_offset = p->next_insn_offset;
int spill_count = 0, fill_count = 0;
int loop_count = 0;
struct annotation_info annotation;
memset(&annotation, 0, sizeof(annotation));
foreach_block_and_inst (block, fs_inst, inst, cfg) {
struct brw_reg src[3], dst;
unsigned int last_insn_offset = p->next_insn_offset;
bool multiple_instructions_emitted = false;
/* From the Broadwell PRM, Volume 7, "3D-Media-GPGPU", in the
* "Register Region Restrictions" section: for BDW, SKL:
*
* "A POW/FDIV operation must not be followed by an instruction
* that requires two destination registers."
*
* The documentation is often lacking annotations for Atom parts,
* and empirically this affects CHV as well.
*/
if (devinfo->gen >= 8 &&
devinfo->gen <= 9 &&
p->nr_insn > 1 &&
brw_inst_opcode(devinfo, brw_last_inst) == BRW_OPCODE_MATH &&
brw_inst_math_function(devinfo, brw_last_inst) == BRW_MATH_FUNCTION_POW &&
inst->dst.component_size(inst->exec_size) > REG_SIZE) {
brw_NOP(p);
last_insn_offset = p->next_insn_offset;
}
if (unlikely(debug_flag))
annotate(p->devinfo, &annotation, cfg, inst, p->next_insn_offset);
/* If the instruction writes to more than one register, it needs to be
* explicitly marked as compressed on Gen <= 5. On Gen >= 6 the
* hardware figures out by itself what the right compression mode is,
* but we still need to know whether the instruction is compressed to
* set up the source register regions appropriately.
*
* XXX - This is wrong for instructions that write a single register but
* read more than one which should strictly speaking be treated as
* compressed. For instructions that don't write any registers it
* relies on the destination being a null register of the correct
* type and regioning so the instruction is considered compressed
* or not accordingly.
*/
const bool compressed =
inst->dst.component_size(inst->exec_size) > REG_SIZE;
brw_set_default_compression(p, compressed);
brw_set_default_group(p, inst->group);
for (unsigned int i = 0; i < inst->sources; i++) {
src[i] = brw_reg_from_fs_reg(devinfo, inst,
&inst->src[i], compressed);
/* The accumulator result appears to get used for the
* conditional modifier generation. When negating a UD
* value, there is a 33rd bit generated for the sign in the
* accumulator value, so now you can't check, for example,
* equality with a 32-bit value. See piglit fs-op-neg-uvec4.
*/
assert(!inst->conditional_mod ||
inst->src[i].type != BRW_REGISTER_TYPE_UD ||
!inst->src[i].negate);
}
dst = brw_reg_from_fs_reg(devinfo, inst,
&inst->dst, compressed);
brw_set_default_access_mode(p, BRW_ALIGN_1);
brw_set_default_predicate_control(p, inst->predicate);
brw_set_default_predicate_inverse(p, inst->predicate_inverse);
brw_set_default_flag_reg(p, 0, inst->flag_subreg);
brw_set_default_saturate(p, inst->saturate);
brw_set_default_mask_control(p, inst->force_writemask_all);
brw_set_default_acc_write_control(p, inst->writes_accumulator);
unsigned exec_size = inst->exec_size;
if (devinfo->gen == 7 && !devinfo->is_haswell &&
(get_exec_type_size(inst) == 8 || type_sz(inst->dst.type) == 8)) {
exec_size *= 2;
}
brw_set_default_exec_size(p, cvt(exec_size) - 1);
assert(inst->force_writemask_all || inst->exec_size >= 4);
assert(inst->force_writemask_all || inst->group % inst->exec_size == 0);
assert(inst->base_mrf + inst->mlen <= BRW_MAX_MRF(devinfo->gen));
assert(inst->mlen <= BRW_MAX_MSG_LENGTH);
switch (inst->opcode) {
case BRW_OPCODE_MOV:
brw_MOV(p, dst, src[0]);
break;
case BRW_OPCODE_ADD:
brw_ADD(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_MUL:
brw_MUL(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_AVG:
brw_AVG(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_MACH:
brw_MACH(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_LINE:
brw_LINE(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_MAD:
assert(devinfo->gen >= 6);
if (devinfo->gen < 10)
brw_set_default_access_mode(p, BRW_ALIGN_16);
brw_MAD(p, dst, src[0], src[1], src[2]);
break;
case BRW_OPCODE_LRP:
assert(devinfo->gen >= 6);
if (devinfo->gen < 10)
brw_set_default_access_mode(p, BRW_ALIGN_16);
brw_LRP(p, dst, src[0], src[1], src[2]);
break;
case BRW_OPCODE_FRC:
brw_FRC(p, dst, src[0]);
break;
case BRW_OPCODE_RNDD:
brw_RNDD(p, dst, src[0]);
break;
case BRW_OPCODE_RNDE:
brw_RNDE(p, dst, src[0]);
break;
case BRW_OPCODE_RNDZ:
brw_RNDZ(p, dst, src[0]);
break;
case BRW_OPCODE_AND:
brw_AND(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_OR:
brw_OR(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_XOR:
brw_XOR(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_NOT:
brw_NOT(p, dst, src[0]);
break;
case BRW_OPCODE_ASR:
brw_ASR(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_SHR:
brw_SHR(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_SHL:
brw_SHL(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_F32TO16:
assert(devinfo->gen >= 7);
brw_F32TO16(p, dst, src[0]);
break;
case BRW_OPCODE_F16TO32:
assert(devinfo->gen >= 7);
brw_F16TO32(p, dst, src[0]);
break;
case BRW_OPCODE_CMP:
if (inst->exec_size >= 16 && devinfo->gen == 7 && !devinfo->is_haswell &&
dst.file == BRW_ARCHITECTURE_REGISTER_FILE) {
/* For unknown reasons the WaCMPInstFlagDepClearedEarly workaround
* implemented in the compiler is not sufficient. Overriding the
* type when the destination is the null register is necessary but
* not sufficient by itself.
*/
assert(dst.nr == BRW_ARF_NULL);
dst.type = BRW_REGISTER_TYPE_D;
}
brw_CMP(p, dst, inst->conditional_mod, src[0], src[1]);
break;
case BRW_OPCODE_SEL:
brw_SEL(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_BFREV:
assert(devinfo->gen >= 7);
brw_BFREV(p, retype(dst, BRW_REGISTER_TYPE_UD),
retype(src[0], BRW_REGISTER_TYPE_UD));
break;
case BRW_OPCODE_FBH:
assert(devinfo->gen >= 7);
brw_FBH(p, retype(dst, src[0].type), src[0]);
break;
case BRW_OPCODE_FBL:
assert(devinfo->gen >= 7);
brw_FBL(p, retype(dst, BRW_REGISTER_TYPE_UD),
retype(src[0], BRW_REGISTER_TYPE_UD));
break;
case BRW_OPCODE_LZD:
brw_LZD(p, dst, src[0]);
break;
case BRW_OPCODE_CBIT:
assert(devinfo->gen >= 7);
brw_CBIT(p, retype(dst, BRW_REGISTER_TYPE_UD),
retype(src[0], BRW_REGISTER_TYPE_UD));
break;
case BRW_OPCODE_ADDC:
assert(devinfo->gen >= 7);
brw_ADDC(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_SUBB:
assert(devinfo->gen >= 7);
brw_SUBB(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_MAC:
brw_MAC(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_BFE:
assert(devinfo->gen >= 7);
if (devinfo->gen < 10)
brw_set_default_access_mode(p, BRW_ALIGN_16);
brw_BFE(p, dst, src[0], src[1], src[2]);
break;
case BRW_OPCODE_BFI1:
assert(devinfo->gen >= 7);
brw_BFI1(p, dst, src[0], src[1]);
break;
case BRW_OPCODE_BFI2:
assert(devinfo->gen >= 7);
if (devinfo->gen < 10)
brw_set_default_access_mode(p, BRW_ALIGN_16);
brw_BFI2(p, dst, src[0], src[1], src[2]);
break;
case BRW_OPCODE_IF:
if (inst->src[0].file != BAD_FILE) {
/* The instruction has an embedded compare (only allowed on gen6) */
assert(devinfo->gen == 6);
gen6_IF(p, inst->conditional_mod, src[0], src[1]);
} else {
brw_IF(p, brw_inst_exec_size(devinfo, p->current));
}
break;
case BRW_OPCODE_ELSE:
brw_ELSE(p);
break;
case BRW_OPCODE_ENDIF:
brw_ENDIF(p);
break;
case BRW_OPCODE_DO:
brw_DO(p, brw_inst_exec_size(devinfo, p->current));
break;
case BRW_OPCODE_BREAK:
brw_BREAK(p);
break;
case BRW_OPCODE_CONTINUE:
brw_CONT(p);
break;
case BRW_OPCODE_WHILE:
brw_WHILE(p);
loop_count++;
break;
case SHADER_OPCODE_RCP:
case SHADER_OPCODE_RSQ:
case SHADER_OPCODE_SQRT:
case SHADER_OPCODE_EXP2:
case SHADER_OPCODE_LOG2:
case SHADER_OPCODE_SIN:
case SHADER_OPCODE_COS:
assert(inst->conditional_mod == BRW_CONDITIONAL_NONE);
if (devinfo->gen >= 6) {
assert(inst->mlen == 0);
assert(devinfo->gen >= 7 || inst->exec_size == 8);
gen6_math(p, dst, brw_math_function(inst->opcode),
src[0], brw_null_reg());
} else {
assert(inst->mlen >= 1);
assert(devinfo->gen == 5 || devinfo->is_g4x || inst->exec_size == 8);
gen4_math(p, dst,
brw_math_function(inst->opcode),
inst->base_mrf, src[0],
BRW_MATH_PRECISION_FULL);
}
break;
case SHADER_OPCODE_INT_QUOTIENT:
case SHADER_OPCODE_INT_REMAINDER:
case SHADER_OPCODE_POW:
assert(inst->conditional_mod == BRW_CONDITIONAL_NONE);
if (devinfo->gen >= 6) {
assert(inst->mlen == 0);
assert((devinfo->gen >= 7 && inst->opcode == SHADER_OPCODE_POW) ||
inst->exec_size == 8);
gen6_math(p, dst, brw_math_function(inst->opcode), src[0], src[1]);
} else {
assert(inst->mlen >= 1);
assert(inst->exec_size == 8);
gen4_math(p, dst, brw_math_function(inst->opcode),
inst->base_mrf, src[0],
BRW_MATH_PRECISION_FULL);
}
break;
case FS_OPCODE_CINTERP:
brw_MOV(p, dst, src[0]);
break;
case FS_OPCODE_LINTERP:
generate_linterp(inst, dst, src);
break;
case FS_OPCODE_PIXEL_X:
assert(src[0].type == BRW_REGISTER_TYPE_UW);
src[0].subnr = 0 * type_sz(src[0].type);
brw_MOV(p, dst, stride(src[0], 8, 4, 1));
break;
case FS_OPCODE_PIXEL_Y:
assert(src[0].type == BRW_REGISTER_TYPE_UW);
src[0].subnr = 4 * type_sz(src[0].type);
brw_MOV(p, dst, stride(src[0], 8, 4, 1));
break;
case FS_OPCODE_GET_BUFFER_SIZE:
generate_get_buffer_size(inst, dst, src[0], src[1]);
break;
case SHADER_OPCODE_TEX:
case FS_OPCODE_TXB:
case SHADER_OPCODE_TXD:
case SHADER_OPCODE_TXF:
case SHADER_OPCODE_TXF_LZ:
case SHADER_OPCODE_TXF_CMS:
case SHADER_OPCODE_TXF_CMS_W:
case SHADER_OPCODE_TXF_UMS:
case SHADER_OPCODE_TXF_MCS:
case SHADER_OPCODE_TXL:
case SHADER_OPCODE_TXL_LZ:
case SHADER_OPCODE_TXS:
case SHADER_OPCODE_LOD:
case SHADER_OPCODE_TG4:
case SHADER_OPCODE_TG4_OFFSET:
case SHADER_OPCODE_SAMPLEINFO:
generate_tex(inst, dst, src[0], src[1], src[2]);
break;
case FS_OPCODE_DDX_COARSE:
case FS_OPCODE_DDX_FINE:
generate_ddx(inst->opcode, dst, src[0]);
break;
case FS_OPCODE_DDY_COARSE:
case FS_OPCODE_DDY_FINE:
generate_ddy(inst->opcode, dst, src[0]);
break;
case SHADER_OPCODE_GEN4_SCRATCH_WRITE:
generate_scratch_write(inst, src[0]);
spill_count++;
break;
case SHADER_OPCODE_GEN4_SCRATCH_READ:
generate_scratch_read(inst, dst);
fill_count++;
break;
case SHADER_OPCODE_GEN7_SCRATCH_READ:
generate_scratch_read_gen7(inst, dst);
fill_count++;
break;
case SHADER_OPCODE_MOV_INDIRECT:
generate_mov_indirect(inst, dst, src[0], src[1]);
break;
case SHADER_OPCODE_URB_READ_SIMD8:
case SHADER_OPCODE_URB_READ_SIMD8_PER_SLOT:
generate_urb_read(inst, dst, src[0]);
break;
case SHADER_OPCODE_URB_WRITE_SIMD8:
case SHADER_OPCODE_URB_WRITE_SIMD8_PER_SLOT:
case SHADER_OPCODE_URB_WRITE_SIMD8_MASKED:
case SHADER_OPCODE_URB_WRITE_SIMD8_MASKED_PER_SLOT:
generate_urb_write(inst, src[0]);
break;
case FS_OPCODE_UNIFORM_PULL_CONSTANT_LOAD:
assert(inst->force_writemask_all);
generate_uniform_pull_constant_load(inst, dst, src[0], src[1]);
break;
case FS_OPCODE_UNIFORM_PULL_CONSTANT_LOAD_GEN7:
assert(inst->force_writemask_all);
generate_uniform_pull_constant_load_gen7(inst, dst, src[0], src[1]);
break;
case FS_OPCODE_VARYING_PULL_CONSTANT_LOAD_GEN4:
generate_varying_pull_constant_load_gen4(inst, dst, src[0]);
break;
case FS_OPCODE_VARYING_PULL_CONSTANT_LOAD_GEN7:
generate_varying_pull_constant_load_gen7(inst, dst, src[0], src[1]);
break;
case FS_OPCODE_REP_FB_WRITE:
case FS_OPCODE_FB_WRITE:
generate_fb_write(inst, src[0]);
break;
case FS_OPCODE_FB_READ:
generate_fb_read(inst, dst, src[0]);
break;
case FS_OPCODE_MOV_DISPATCH_TO_FLAGS:
generate_mov_dispatch_to_flags(inst);
break;
case FS_OPCODE_DISCARD_JUMP:
generate_discard_jump(inst);
break;
case SHADER_OPCODE_SHADER_TIME_ADD:
generate_shader_time_add(inst, src[0], src[1], src[2]);
break;
case SHADER_OPCODE_UNTYPED_ATOMIC:
assert(src[2].file == BRW_IMMEDIATE_VALUE);
brw_untyped_atomic(p, dst, src[0], src[1], src[2].ud,
inst->mlen, !inst->dst.is_null());
break;
case SHADER_OPCODE_UNTYPED_SURFACE_READ:
assert(src[2].file == BRW_IMMEDIATE_VALUE);
brw_untyped_surface_read(p, dst, src[0], src[1],
inst->mlen, src[2].ud);
break;
case SHADER_OPCODE_UNTYPED_SURFACE_WRITE:
assert(src[2].file == BRW_IMMEDIATE_VALUE);
brw_untyped_surface_write(p, src[0], src[1],
inst->mlen, src[2].ud);
break;
case SHADER_OPCODE_TYPED_ATOMIC:
assert(src[2].file == BRW_IMMEDIATE_VALUE);
brw_typed_atomic(p, dst, src[0], src[1],
src[2].ud, inst->mlen, !inst->dst.is_null());
break;
case SHADER_OPCODE_TYPED_SURFACE_READ:
assert(src[2].file == BRW_IMMEDIATE_VALUE);
brw_typed_surface_read(p, dst, src[0], src[1],
inst->mlen, src[2].ud);
break;
case SHADER_OPCODE_TYPED_SURFACE_WRITE:
assert(src[2].file == BRW_IMMEDIATE_VALUE);
brw_typed_surface_write(p, src[0], src[1], inst->mlen, src[2].ud);
break;
case SHADER_OPCODE_MEMORY_FENCE:
brw_memory_fence(p, dst);
break;
case SHADER_OPCODE_FIND_LIVE_CHANNEL: {
const struct brw_reg mask =
brw_stage_has_packed_dispatch(devinfo, stage,
prog_data) ? brw_imm_ud(~0u) :
stage == MESA_SHADER_FRAGMENT ? brw_vmask_reg() :
brw_dmask_reg();
brw_find_live_channel(p, dst, mask);
break;
}
case SHADER_OPCODE_BROADCAST:
assert(inst->force_writemask_all);
brw_broadcast(p, dst, src[0], src[1]);
break;
case FS_OPCODE_SET_SAMPLE_ID:
generate_set_sample_id(inst, dst, src[0], src[1]);
break;
case FS_OPCODE_PACK_HALF_2x16_SPLIT:
generate_pack_half_2x16_split(inst, dst, src[0], src[1]);
break;
case FS_OPCODE_UNPACK_HALF_2x16_SPLIT_X:
case FS_OPCODE_UNPACK_HALF_2x16_SPLIT_Y:
generate_unpack_half_2x16_split(inst, dst, src[0]);
break;
case FS_OPCODE_PLACEHOLDER_HALT:
/* This is the place where the final HALT needs to be inserted if
* we've emitted any discards. If not, this will emit no code.
*/
if (!patch_discard_jumps_to_fb_writes()) {
if (unlikely(debug_flag)) {
annotation.ann_count--;
}
}
break;
case FS_OPCODE_INTERPOLATE_AT_SAMPLE:
generate_pixel_interpolator_query(inst, dst, src[0], src[1],
GEN7_PIXEL_INTERPOLATOR_LOC_SAMPLE);
break;
case FS_OPCODE_INTERPOLATE_AT_SHARED_OFFSET:
generate_pixel_interpolator_query(inst, dst, src[0], src[1],
GEN7_PIXEL_INTERPOLATOR_LOC_SHARED_OFFSET);
break;
case FS_OPCODE_INTERPOLATE_AT_PER_SLOT_OFFSET:
generate_pixel_interpolator_query(inst, dst, src[0], src[1],
GEN7_PIXEL_INTERPOLATOR_LOC_PER_SLOT_OFFSET);
break;
case CS_OPCODE_CS_TERMINATE:
generate_cs_terminate(inst, src[0]);
break;
case SHADER_OPCODE_BARRIER:
generate_barrier(inst, src[0]);
break;
case BRW_OPCODE_DIM:
assert(devinfo->is_haswell);
assert(src[0].type == BRW_REGISTER_TYPE_DF);
assert(dst.type == BRW_REGISTER_TYPE_DF);
brw_DIM(p, dst, retype(src[0], BRW_REGISTER_TYPE_F));
break;
default:
unreachable("Unsupported opcode");
case SHADER_OPCODE_LOAD_PAYLOAD:
unreachable("Should be lowered by lower_load_payload()");
}
if (multiple_instructions_emitted)
continue;
if (inst->no_dd_clear || inst->no_dd_check || inst->conditional_mod) {
assert(p->next_insn_offset == last_insn_offset + 16 ||
!"conditional_mod, no_dd_check, or no_dd_clear set for IR "
"emitting more than 1 instruction");
brw_inst *last = &p->store[last_insn_offset / 16];
if (inst->conditional_mod)
brw_inst_set_cond_modifier(p->devinfo, last, inst->conditional_mod);
brw_inst_set_no_dd_clear(p->devinfo, last, inst->no_dd_clear);
brw_inst_set_no_dd_check(p->devinfo, last, inst->no_dd_check);
}
}
brw_set_uip_jip(p, start_offset);
annotation_finalize(&annotation, p->next_insn_offset);
#ifndef NDEBUG
bool validated = brw_validate_instructions(devinfo, p->store,
start_offset,
p->next_insn_offset,
&annotation);
#else
if (unlikely(debug_flag))
brw_validate_instructions(devinfo, p->store,
start_offset,
p->next_insn_offset,
&annotation);
#endif
int before_size = p->next_insn_offset - start_offset;
brw_compact_instructions(p, start_offset, annotation.ann_count,
annotation.ann);
int after_size = p->next_insn_offset - start_offset;
if (unlikely(debug_flag)) {
fprintf(stderr, "Native code for %s\n"
"SIMD%d shader: %d instructions. %d loops. %u cycles. %d:%d spills:fills. Promoted %u constants. Compacted %d to %d"
" bytes (%.0f%%)\n",
shader_name, dispatch_width, before_size / 16, loop_count, cfg->cycle_count,
spill_count, fill_count, promoted_constants, before_size, after_size,
100.0f * (before_size - after_size) / before_size);
dump_assembly(p->store, annotation.ann_count, annotation.ann,
p->devinfo);
ralloc_free(annotation.mem_ctx);
}
assert(validated);
compiler->shader_debug_log(log_data,
"%s SIMD%d shader: %d inst, %d loops, %u cycles, "
"%d:%d spills:fills, Promoted %u constants, "
"compacted %d to %d bytes.",
_mesa_shader_stage_to_abbrev(stage),
dispatch_width, before_size / 16,
loop_count, cfg->cycle_count, spill_count,
fill_count, promoted_constants, before_size,
after_size);
return start_offset;
}
const unsigned *
fs_generator::get_assembly(unsigned int *assembly_size)
{
return brw_get_program(p, assembly_size);
}
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