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|
/*
* Copyright (c) 2012-2015 Etnaviv Project
*
* 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, sub license,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. IN NO EVENT SHALL
* 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:
* Wladimir J. van der Laan <laanwj@gmail.com>
*/
/* TGSI->Vivante shader ISA conversion */
/* What does the compiler return (see etna_shader_object)?
* 1) instruction data
* 2) input-to-temporary mapping (fixed for ps)
* *) in case of ps, semantic -> varying id mapping
* *) for each varying: number of components used (r, rg, rgb, rgba)
* 3) temporary-to-output mapping (in case of vs, fixed for ps)
* 4) for each input/output: possible semantic (position, color, glpointcoord, ...)
* 5) immediates base offset, immediates data
* 6) used texture units (and possibly the TGSI_TEXTURE_* type); not needed to
* configure the hw, but useful for error checking
* 7) enough information to add the z=(z+w)/2.0 necessary for older chips
* (output reg id is enough)
*
* Empty shaders are not allowed, should always at least generate a NOP. Also
* if there is a label at the end of the shader, an extra NOP should be
* generated as jump target.
*
* TODO
* * Use an instruction scheduler
* * Indirect access to uniforms / temporaries using amode
*/
#include "etnaviv_compiler.h"
#include "etnaviv_asm.h"
#include "etnaviv_context.h"
#include "etnaviv_debug.h"
#include "etnaviv_disasm.h"
#include "etnaviv_uniforms.h"
#include "etnaviv_util.h"
#include "pipe/p_shader_tokens.h"
#include "tgsi/tgsi_info.h"
#include "tgsi/tgsi_iterate.h"
#include "tgsi/tgsi_lowering.h"
#include "tgsi/tgsi_strings.h"
#include "tgsi/tgsi_util.h"
#include "util/u_math.h"
#include "util/u_memory.h"
#include <fcntl.h>
#include <stdio.h>
#include <sys/stat.h>
#include <sys/types.h>
#define ETNA_MAX_INNER_TEMPS 2
static const float sincos_const[2][4] = {
{
2., -1., 4., -4.,
},
{
1. / (2. * M_PI), 0.75, 0.5, 0.0,
},
};
/* Native register description structure */
struct etna_native_reg {
unsigned valid : 1;
unsigned is_tex : 1; /* is texture unit, overrides rgroup */
unsigned rgroup : 3;
unsigned id : 9;
};
/* Register description */
struct etna_reg_desc {
enum tgsi_file_type file; /* IN, OUT, TEMP, ... */
int idx; /* index into file */
bool active; /* used in program */
int first_use; /* instruction id of first use (scope begin) */
int last_use; /* instruction id of last use (scope end, inclusive) */
struct etna_native_reg native; /* native register to map to */
unsigned usage_mask : 4; /* usage, per channel */
bool has_semantic; /* register has associated TGSI semantic */
struct tgsi_declaration_semantic semantic; /* TGSI semantic */
struct tgsi_declaration_interp interp; /* Interpolation type */
};
/* Label information structure */
struct etna_compile_label {
int inst_idx; /* Instruction id that label points to */
};
enum etna_compile_frame_type {
ETNA_COMPILE_FRAME_IF, /* IF/ELSE/ENDIF */
ETNA_COMPILE_FRAME_LOOP,
};
/* nesting scope frame (LOOP, IF, ...) during compilation
*/
struct etna_compile_frame {
enum etna_compile_frame_type type;
struct etna_compile_label *lbl_else;
struct etna_compile_label *lbl_endif;
struct etna_compile_label *lbl_loop_bgn;
struct etna_compile_label *lbl_loop_end;
};
struct etna_compile_file {
/* Number of registers in each TGSI file (max register+1) */
size_t reg_size;
/* Register descriptions, per register index */
struct etna_reg_desc *reg;
};
#define array_insert(arr, val) \
do { \
if (arr##_count == arr##_sz) { \
arr##_sz = MAX2(2 * arr##_sz, 16); \
arr = realloc(arr, arr##_sz * sizeof(arr[0])); \
} \
arr[arr##_count++] = val; \
} while (0)
/* scratch area for compiling shader, freed after compilation finishes */
struct etna_compile {
const struct tgsi_token *tokens;
bool free_tokens;
struct tgsi_shader_info info;
/* Register descriptions, per TGSI file, per register index */
struct etna_compile_file file[TGSI_FILE_COUNT];
/* Keep track of TGSI register declarations */
struct etna_reg_desc decl[ETNA_MAX_DECL];
uint total_decls;
/* Bitmap of dead instructions which are removed in a separate pass */
bool dead_inst[ETNA_MAX_TOKENS];
/* Immediate data */
enum etna_immediate_contents imm_contents[ETNA_MAX_IMM];
uint32_t imm_data[ETNA_MAX_IMM];
uint32_t imm_base; /* base of immediates (in 32 bit units) */
uint32_t imm_size; /* size of immediates (in 32 bit units) */
/* Next free native register, for register allocation */
uint32_t next_free_native;
/* Temporary register for use within translated TGSI instruction,
* only allocated when needed.
*/
int inner_temps; /* number of inner temps used; only up to one available at
this point */
struct etna_native_reg inner_temp[ETNA_MAX_INNER_TEMPS];
/* Fields for handling nested conditionals */
struct etna_compile_frame frame_stack[ETNA_MAX_DEPTH];
int frame_sp;
struct etna_compile_label *lbl_usage[ETNA_MAX_INSTRUCTIONS];
unsigned labels_count, labels_sz;
struct etna_compile_label *labels;
/* Code generation */
int inst_ptr; /* current instruction pointer */
uint32_t code[ETNA_MAX_INSTRUCTIONS * ETNA_INST_SIZE];
/* I/O */
/* Number of varyings (PS only) */
int num_varyings;
/* GPU hardware specs */
const struct etna_specs *specs;
};
static struct etna_reg_desc *
etna_get_dst_reg(struct etna_compile *c, struct tgsi_dst_register dst)
{
return &c->file[dst.File].reg[dst.Index];
}
static struct etna_reg_desc *
etna_get_src_reg(struct etna_compile *c, struct tgsi_src_register src)
{
return &c->file[src.File].reg[src.Index];
}
static struct etna_native_reg
etna_native_temp(unsigned reg)
{
return (struct etna_native_reg) {
.valid = 1,
.rgroup = INST_RGROUP_TEMP,
.id = reg
};
}
/** Register allocation **/
enum reg_sort_order {
FIRST_USE_ASC,
FIRST_USE_DESC,
LAST_USE_ASC,
LAST_USE_DESC
};
/* Augmented register description for sorting */
struct sort_rec {
struct etna_reg_desc *ptr;
int key;
};
static int
sort_rec_compar(const struct sort_rec *a, const struct sort_rec *b)
{
if (a->key < b->key)
return -1;
if (a->key > b->key)
return 1;
return 0;
}
/* create an index on a register set based on certain criteria. */
static int
sort_registers(struct sort_rec *sorted, struct etna_compile_file *file,
enum reg_sort_order so)
{
struct etna_reg_desc *regs = file->reg;
int ptr = 0;
/* pre-populate keys from active registers */
for (int idx = 0; idx < file->reg_size; ++idx) {
/* only interested in active registers now; will only assign inactive ones
* if no space in active ones */
if (regs[idx].active) {
sorted[ptr].ptr = ®s[idx];
switch (so) {
case FIRST_USE_ASC:
sorted[ptr].key = regs[idx].first_use;
break;
case LAST_USE_ASC:
sorted[ptr].key = regs[idx].last_use;
break;
case FIRST_USE_DESC:
sorted[ptr].key = -regs[idx].first_use;
break;
case LAST_USE_DESC:
sorted[ptr].key = -regs[idx].last_use;
break;
}
ptr++;
}
}
/* sort index by key */
qsort(sorted, ptr, sizeof(struct sort_rec),
(int (*)(const void *, const void *))sort_rec_compar);
return ptr;
}
/* Allocate a new, unused, native temp register */
static struct etna_native_reg
alloc_new_native_reg(struct etna_compile *c)
{
assert(c->next_free_native < ETNA_MAX_TEMPS);
return etna_native_temp(c->next_free_native++);
}
/* assign TEMPs to native registers */
static void
assign_temporaries_to_native(struct etna_compile *c,
struct etna_compile_file *file)
{
struct etna_reg_desc *temps = file->reg;
for (int idx = 0; idx < file->reg_size; ++idx)
temps[idx].native = alloc_new_native_reg(c);
}
/* assign inputs and outputs to temporaries
* Gallium assumes that the hardware has separate registers for taking input and
* output, however Vivante GPUs use temporaries both for passing in inputs and
* passing back outputs.
* Try to re-use temporary registers where possible. */
static void
assign_inouts_to_temporaries(struct etna_compile *c, uint file)
{
bool mode_inputs = (file == TGSI_FILE_INPUT);
int inout_ptr = 0, num_inouts;
int temp_ptr = 0, num_temps;
struct sort_rec inout_order[ETNA_MAX_TEMPS];
struct sort_rec temps_order[ETNA_MAX_TEMPS];
num_inouts = sort_registers(inout_order, &c->file[file],
mode_inputs ? LAST_USE_ASC : FIRST_USE_ASC);
num_temps = sort_registers(temps_order, &c->file[TGSI_FILE_TEMPORARY],
mode_inputs ? FIRST_USE_ASC : LAST_USE_ASC);
while (inout_ptr < num_inouts && temp_ptr < num_temps) {
struct etna_reg_desc *inout = inout_order[inout_ptr].ptr;
struct etna_reg_desc *temp = temps_order[temp_ptr].ptr;
if (!inout->active || inout->native.valid) { /* Skip if already a native register assigned */
inout_ptr++;
continue;
}
/* last usage of this input is before or in same instruction of first use
* of temporary? */
if (mode_inputs ? (inout->last_use <= temp->first_use)
: (inout->first_use >= temp->last_use)) {
/* assign it and advance to next input */
inout->native = temp->native;
inout_ptr++;
}
temp_ptr++;
}
/* if we couldn't reuse current ones, allocate new temporaries */
for (inout_ptr = 0; inout_ptr < num_inouts; ++inout_ptr) {
struct etna_reg_desc *inout = inout_order[inout_ptr].ptr;
if (inout->active && !inout->native.valid)
inout->native = alloc_new_native_reg(c);
}
}
/* Allocate an immediate with a certain value and return the index. If
* there is already an immediate with that value, return that.
*/
static struct etna_inst_src
alloc_imm(struct etna_compile *c, enum etna_immediate_contents contents,
uint32_t value)
{
int idx;
/* Could use a hash table to speed this up */
for (idx = 0; idx < c->imm_size; ++idx) {
if (c->imm_contents[idx] == contents && c->imm_data[idx] == value)
break;
}
/* look if there is an unused slot */
if (idx == c->imm_size) {
for (idx = 0; idx < c->imm_size; ++idx) {
if (c->imm_contents[idx] == ETNA_IMMEDIATE_UNUSED)
break;
}
}
/* allocate new immediate */
if (idx == c->imm_size) {
assert(c->imm_size < ETNA_MAX_IMM);
idx = c->imm_size++;
c->imm_data[idx] = value;
c->imm_contents[idx] = contents;
}
/* swizzle so that component with value is returned in all components */
idx += c->imm_base;
struct etna_inst_src imm_src = {
.use = 1,
.rgroup = INST_RGROUP_UNIFORM_0,
.reg = idx / 4,
.swiz = INST_SWIZ_BROADCAST(idx & 3)
};
return imm_src;
}
static struct etna_inst_src
alloc_imm_u32(struct etna_compile *c, uint32_t value)
{
return alloc_imm(c, ETNA_IMMEDIATE_CONSTANT, value);
}
static struct etna_inst_src
alloc_imm_vec4u(struct etna_compile *c, enum etna_immediate_contents contents,
const uint32_t *values)
{
struct etna_inst_src imm_src = { };
int idx, i;
for (idx = 0; idx + 3 < c->imm_size; idx += 4) {
/* What if we can use a uniform with a different swizzle? */
for (i = 0; i < 4; i++)
if (c->imm_contents[idx + i] != contents || c->imm_data[idx + i] != values[i])
break;
if (i == 4)
break;
}
if (idx + 3 >= c->imm_size) {
idx = align(c->imm_size, 4);
assert(idx + 4 <= ETNA_MAX_IMM);
for (i = 0; i < 4; i++) {
c->imm_data[idx + i] = values[i];
c->imm_contents[idx + i] = contents;
}
c->imm_size = idx + 4;
}
assert((c->imm_base & 3) == 0);
idx += c->imm_base;
imm_src.use = 1;
imm_src.rgroup = INST_RGROUP_UNIFORM_0;
imm_src.reg = idx / 4;
imm_src.swiz = INST_SWIZ_IDENTITY;
return imm_src;
}
static uint32_t
get_imm_u32(struct etna_compile *c, const struct etna_inst_src *imm,
unsigned swiz_idx)
{
assert(imm->use == 1 && imm->rgroup == INST_RGROUP_UNIFORM_0);
unsigned int idx = imm->reg * 4 + ((imm->swiz >> (swiz_idx * 2)) & 3);
return c->imm_data[idx];
}
/* Allocate immediate with a certain float value. If there is already an
* immediate with that value, return that.
*/
static struct etna_inst_src
alloc_imm_f32(struct etna_compile *c, float value)
{
return alloc_imm_u32(c, fui(value));
}
static struct etna_inst_src
etna_imm_vec4f(struct etna_compile *c, const float *vec4)
{
uint32_t val[4];
for (int i = 0; i < 4; i++)
val[i] = fui(vec4[i]);
return alloc_imm_vec4u(c, ETNA_IMMEDIATE_CONSTANT, val);
}
/* Pass -- check register file declarations and immediates */
static void
etna_compile_parse_declarations(struct etna_compile *c)
{
struct tgsi_parse_context ctx = { };
unsigned status = TGSI_PARSE_OK;
status = tgsi_parse_init(&ctx, c->tokens);
assert(status == TGSI_PARSE_OK);
while (!tgsi_parse_end_of_tokens(&ctx)) {
tgsi_parse_token(&ctx);
switch (ctx.FullToken.Token.Type) {
case TGSI_TOKEN_TYPE_IMMEDIATE: {
/* immediates are handled differently from other files; they are
* not declared explicitly, and always add four components */
const struct tgsi_full_immediate *imm = &ctx.FullToken.FullImmediate;
assert(c->imm_size <= (ETNA_MAX_IMM - 4));
for (int i = 0; i < 4; ++i) {
unsigned idx = c->imm_size++;
c->imm_data[idx] = imm->u[i].Uint;
c->imm_contents[idx] = ETNA_IMMEDIATE_CONSTANT;
}
}
break;
}
}
tgsi_parse_free(&ctx);
}
/* Allocate register declarations for the registers in all register files */
static void
etna_allocate_decls(struct etna_compile *c)
{
uint idx = 0;
for (int x = 0; x < TGSI_FILE_COUNT; ++x) {
c->file[x].reg = &c->decl[idx];
c->file[x].reg_size = c->info.file_max[x] + 1;
for (int sub = 0; sub < c->file[x].reg_size; ++sub) {
c->decl[idx].file = x;
c->decl[idx].idx = sub;
idx++;
}
}
c->total_decls = idx;
}
/* Pass -- check and record usage of temporaries, inputs, outputs */
static void
etna_compile_pass_check_usage(struct etna_compile *c)
{
struct tgsi_parse_context ctx = { };
unsigned status = TGSI_PARSE_OK;
status = tgsi_parse_init(&ctx, c->tokens);
assert(status == TGSI_PARSE_OK);
for (int idx = 0; idx < c->total_decls; ++idx) {
c->decl[idx].active = false;
c->decl[idx].first_use = c->decl[idx].last_use = -1;
}
int inst_idx = 0;
while (!tgsi_parse_end_of_tokens(&ctx)) {
tgsi_parse_token(&ctx);
/* find out max register #s used
* For every register mark first and last instruction index where it's
* used this allows finding ranges where the temporary can be borrowed
* as input and/or output register
*
* XXX in the case of loops this needs special care, or even be completely
* disabled, as
* the last usage of a register inside a loop means it can still be used
* on next loop
* iteration (execution is no longer * chronological). The register can
* only be
* declared "free" after the loop finishes.
*
* Same for inputs: the first usage of a register inside a loop doesn't
* mean that the register
* won't have been overwritten in previous iteration. The register can
* only be declared free before the loop
* starts.
* The proper way would be to do full dominator / post-dominator analysis
* (especially with more complicated
* control flow such as direct branch instructions) but not for now...
*/
switch (ctx.FullToken.Token.Type) {
case TGSI_TOKEN_TYPE_DECLARATION: {
/* Declaration: fill in file details */
const struct tgsi_full_declaration *decl = &ctx.FullToken.FullDeclaration;
struct etna_compile_file *file = &c->file[decl->Declaration.File];
for (int idx = decl->Range.First; idx <= decl->Range.Last; ++idx) {
file->reg[idx].usage_mask = 0; // we'll compute this ourselves
file->reg[idx].has_semantic = decl->Declaration.Semantic;
file->reg[idx].semantic = decl->Semantic;
file->reg[idx].interp = decl->Interp;
}
} break;
case TGSI_TOKEN_TYPE_INSTRUCTION: {
/* Instruction: iterate over operands of instruction */
const struct tgsi_full_instruction *inst = &ctx.FullToken.FullInstruction;
/* iterate over destination registers */
for (int idx = 0; idx < inst->Instruction.NumDstRegs; ++idx) {
struct etna_reg_desc *reg_desc = &c->file[inst->Dst[idx].Register.File].reg[inst->Dst[idx].Register.Index];
if (reg_desc->first_use == -1)
reg_desc->first_use = inst_idx;
reg_desc->last_use = inst_idx;
reg_desc->active = true;
}
/* iterate over source registers */
for (int idx = 0; idx < inst->Instruction.NumSrcRegs; ++idx) {
struct etna_reg_desc *reg_desc = &c->file[inst->Src[idx].Register.File].reg[inst->Src[idx].Register.Index];
if (reg_desc->first_use == -1)
reg_desc->first_use = inst_idx;
reg_desc->last_use = inst_idx;
reg_desc->active = true;
/* accumulate usage mask for register, this is used to determine how
* many slots for varyings
* should be allocated */
reg_desc->usage_mask |= tgsi_util_get_inst_usage_mask(inst, idx);
}
inst_idx += 1;
} break;
default:
break;
}
}
tgsi_parse_free(&ctx);
}
/* assign inputs that need to be assigned to specific registers */
static void
assign_special_inputs(struct etna_compile *c)
{
if (c->info.processor == PIPE_SHADER_FRAGMENT) {
/* never assign t0 as it is the position output, start assigning at t1 */
c->next_free_native = 1;
/* hardwire TGSI_SEMANTIC_POSITION (input and output) to t0 */
for (int idx = 0; idx < c->total_decls; ++idx) {
struct etna_reg_desc *reg = &c->decl[idx];
if (reg->active && reg->semantic.Name == TGSI_SEMANTIC_POSITION)
reg->native = etna_native_temp(0);
}
}
}
/* Check that a move instruction does not swizzle any of the components
* that it writes.
*/
static bool
etna_mov_check_no_swizzle(const struct tgsi_dst_register dst,
const struct tgsi_src_register src)
{
return (!(dst.WriteMask & TGSI_WRITEMASK_X) || src.SwizzleX == TGSI_SWIZZLE_X) &&
(!(dst.WriteMask & TGSI_WRITEMASK_Y) || src.SwizzleY == TGSI_SWIZZLE_Y) &&
(!(dst.WriteMask & TGSI_WRITEMASK_Z) || src.SwizzleZ == TGSI_SWIZZLE_Z) &&
(!(dst.WriteMask & TGSI_WRITEMASK_W) || src.SwizzleW == TGSI_SWIZZLE_W);
}
/* Pass -- optimize outputs
* Mesa tends to generate code like this at the end if their shaders
* MOV OUT[1], TEMP[2]
* MOV OUT[0], TEMP[0]
* MOV OUT[2], TEMP[1]
* Recognize if
* a) there is only a single assignment to an output register and
* b) the temporary is not used after that
* Also recognize direct assignment of IN to OUT (passthrough)
**/
static void
etna_compile_pass_optimize_outputs(struct etna_compile *c)
{
struct tgsi_parse_context ctx = { };
int inst_idx = 0;
unsigned status = TGSI_PARSE_OK;
status = tgsi_parse_init(&ctx, c->tokens);
assert(status == TGSI_PARSE_OK);
while (!tgsi_parse_end_of_tokens(&ctx)) {
tgsi_parse_token(&ctx);
switch (ctx.FullToken.Token.Type) {
case TGSI_TOKEN_TYPE_INSTRUCTION: {
const struct tgsi_full_instruction *inst = &ctx.FullToken.FullInstruction;
/* iterate over operands */
switch (inst->Instruction.Opcode) {
case TGSI_OPCODE_MOV: {
/* We are only interested in eliminating MOVs which write to
* the shader outputs. Test for this early. */
if (inst->Dst[0].Register.File != TGSI_FILE_OUTPUT)
break;
/* Elimination of a MOV must have no visible effect on the
* resulting shader: this means the MOV must not swizzle or
* saturate, and its source must not have the negate or
* absolute modifiers. */
if (!etna_mov_check_no_swizzle(inst->Dst[0].Register, inst->Src[0].Register) ||
inst->Instruction.Saturate || inst->Src[0].Register.Negate ||
inst->Src[0].Register.Absolute)
break;
uint out_idx = inst->Dst[0].Register.Index;
uint in_idx = inst->Src[0].Register.Index;
/* assignment of temporary to output --
* and the output doesn't yet have a native register assigned
* and the last use of the temporary is this instruction
* and the MOV does not do a swizzle
*/
if (inst->Src[0].Register.File == TGSI_FILE_TEMPORARY &&
!c->file[TGSI_FILE_OUTPUT].reg[out_idx].native.valid &&
c->file[TGSI_FILE_TEMPORARY].reg[in_idx].last_use == inst_idx) {
c->file[TGSI_FILE_OUTPUT].reg[out_idx].native =
c->file[TGSI_FILE_TEMPORARY].reg[in_idx].native;
/* prevent temp from being re-used for the rest of the shader */
c->file[TGSI_FILE_TEMPORARY].reg[in_idx].last_use = ETNA_MAX_TOKENS;
/* mark this MOV instruction as a no-op */
c->dead_inst[inst_idx] = true;
}
/* direct assignment of input to output --
* and the input or output doesn't yet have a native register
* assigned
* and the output is only used in this instruction,
* allocate a new register, and associate both input and output to
* it
* and the MOV does not do a swizzle
*/
if (inst->Src[0].Register.File == TGSI_FILE_INPUT &&
!c->file[TGSI_FILE_INPUT].reg[in_idx].native.valid &&
!c->file[TGSI_FILE_OUTPUT].reg[out_idx].native.valid &&
c->file[TGSI_FILE_OUTPUT].reg[out_idx].last_use == inst_idx &&
c->file[TGSI_FILE_OUTPUT].reg[out_idx].first_use == inst_idx) {
c->file[TGSI_FILE_OUTPUT].reg[out_idx].native =
c->file[TGSI_FILE_INPUT].reg[in_idx].native =
alloc_new_native_reg(c);
/* mark this MOV instruction as a no-op */
c->dead_inst[inst_idx] = true;
}
} break;
default:;
}
inst_idx += 1;
} break;
}
}
tgsi_parse_free(&ctx);
}
/* Get a temporary to be used within one TGSI instruction.
* The first time that this function is called the temporary will be allocated.
* Each call to this function will return the same temporary.
*/
static struct etna_native_reg
etna_compile_get_inner_temp(struct etna_compile *c)
{
int inner_temp = c->inner_temps;
if (inner_temp < ETNA_MAX_INNER_TEMPS) {
if (!c->inner_temp[inner_temp].valid)
c->inner_temp[inner_temp] = alloc_new_native_reg(c);
/* alloc_new_native_reg() handles lack of registers */
c->inner_temps += 1;
} else {
BUG("Too many inner temporaries (%i) requested in one instruction",
inner_temp + 1);
}
return c->inner_temp[inner_temp];
}
static struct etna_inst_dst
etna_native_to_dst(struct etna_native_reg native, unsigned comps)
{
/* Can only assign to temporaries */
assert(native.valid && !native.is_tex && native.rgroup == INST_RGROUP_TEMP);
struct etna_inst_dst rv = {
.comps = comps,
.use = 1,
.reg = native.id,
};
return rv;
}
static struct etna_inst_src
etna_native_to_src(struct etna_native_reg native, uint32_t swizzle)
{
assert(native.valid && !native.is_tex);
struct etna_inst_src rv = {
.use = 1,
.swiz = swizzle,
.rgroup = native.rgroup,
.reg = native.id,
.amode = INST_AMODE_DIRECT,
};
return rv;
}
static inline struct etna_inst_src
negate(struct etna_inst_src src)
{
src.neg = !src.neg;
return src;
}
static inline struct etna_inst_src
absolute(struct etna_inst_src src)
{
src.abs = 1;
return src;
}
static inline struct etna_inst_src
swizzle(struct etna_inst_src src, unsigned swizzle)
{
src.swiz = inst_swiz_compose(src.swiz, swizzle);
return src;
}
/* Emit instruction and append it to program */
static void
emit_inst(struct etna_compile *c, struct etna_inst *inst)
{
assert(c->inst_ptr <= ETNA_MAX_INSTRUCTIONS);
/* Check for uniform conflicts (each instruction can only access one
* uniform),
* if detected, use an intermediate temporary */
unsigned uni_rgroup = -1;
unsigned uni_reg = -1;
for (int src = 0; src < ETNA_NUM_SRC; ++src) {
if (etna_rgroup_is_uniform(inst->src[src].rgroup)) {
if (uni_reg == -1) { /* first unique uniform used */
uni_rgroup = inst->src[src].rgroup;
uni_reg = inst->src[src].reg;
} else { /* second or later; check that it is a re-use */
if (uni_rgroup != inst->src[src].rgroup ||
uni_reg != inst->src[src].reg) {
DBG_F(ETNA_DBG_COMPILER_MSGS, "perf warning: instruction that "
"accesses different uniforms, "
"need to generate extra MOV");
struct etna_native_reg inner_temp = etna_compile_get_inner_temp(c);
/* Generate move instruction to temporary */
etna_assemble(&c->code[c->inst_ptr * 4], &(struct etna_inst) {
.opcode = INST_OPCODE_MOV,
.dst = etna_native_to_dst(inner_temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z | INST_COMPS_W),
.src[2] = inst->src[src]
});
c->inst_ptr++;
/* Modify instruction to use temp register instead of uniform */
inst->src[src].use = 1;
inst->src[src].rgroup = INST_RGROUP_TEMP;
inst->src[src].reg = inner_temp.id;
inst->src[src].swiz = INST_SWIZ_IDENTITY; /* swizzling happens on MOV */
inst->src[src].neg = 0; /* negation happens on MOV */
inst->src[src].abs = 0; /* abs happens on MOV */
inst->src[src].amode = 0; /* amode effects happen on MOV */
}
}
}
}
/* Finally assemble the actual instruction */
etna_assemble(&c->code[c->inst_ptr * 4], inst);
c->inst_ptr++;
}
static unsigned int
etna_amode(struct tgsi_ind_register indirect)
{
assert(indirect.File == TGSI_FILE_ADDRESS);
assert(indirect.Index == 0);
switch (indirect.Swizzle) {
case TGSI_SWIZZLE_X:
return INST_AMODE_ADD_A_X;
case TGSI_SWIZZLE_Y:
return INST_AMODE_ADD_A_Y;
case TGSI_SWIZZLE_Z:
return INST_AMODE_ADD_A_Z;
case TGSI_SWIZZLE_W:
return INST_AMODE_ADD_A_W;
default:
assert(!"Invalid swizzle");
}
}
/* convert destination operand */
static struct etna_inst_dst
convert_dst(struct etna_compile *c, const struct tgsi_full_dst_register *in)
{
struct etna_inst_dst rv = {
/// XXX .amode
.comps = in->Register.WriteMask,
};
if (in->Register.File == TGSI_FILE_ADDRESS) {
assert(in->Register.Index == 0);
rv.reg = in->Register.Index;
rv.use = 0;
} else {
rv = etna_native_to_dst(etna_get_dst_reg(c, in->Register)->native,
in->Register.WriteMask);
}
if (in->Register.Indirect)
rv.amode = etna_amode(in->Indirect);
return rv;
}
/* convert texture operand */
static struct etna_inst_tex
convert_tex(struct etna_compile *c, const struct tgsi_full_src_register *in,
const struct tgsi_instruction_texture *tex)
{
struct etna_native_reg native_reg = etna_get_src_reg(c, in->Register)->native;
struct etna_inst_tex rv = {
// XXX .amode (to allow for an array of samplers?)
.swiz = INST_SWIZ_IDENTITY
};
assert(native_reg.is_tex && native_reg.valid);
rv.id = native_reg.id;
return rv;
}
/* convert source operand */
static struct etna_inst_src
etna_create_src(const struct tgsi_full_src_register *tgsi,
const struct etna_native_reg *native)
{
const struct tgsi_src_register *reg = &tgsi->Register;
struct etna_inst_src rv = {
.use = 1,
.swiz = INST_SWIZ(reg->SwizzleX, reg->SwizzleY, reg->SwizzleZ, reg->SwizzleW),
.neg = reg->Negate,
.abs = reg->Absolute,
.rgroup = native->rgroup,
.reg = native->id,
.amode = INST_AMODE_DIRECT,
};
assert(native->valid && !native->is_tex);
if (reg->Indirect)
rv.amode = etna_amode(tgsi->Indirect);
return rv;
}
static struct etna_inst_src
etna_mov_src_to_temp(struct etna_compile *c, struct etna_inst_src src,
struct etna_native_reg temp)
{
struct etna_inst mov = { };
mov.opcode = INST_OPCODE_MOV;
mov.sat = 0;
mov.dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z | INST_COMPS_W);
mov.src[2] = src;
emit_inst(c, &mov);
src.swiz = INST_SWIZ_IDENTITY;
src.neg = src.abs = 0;
src.rgroup = temp.rgroup;
src.reg = temp.id;
return src;
}
static struct etna_inst_src
etna_mov_src(struct etna_compile *c, struct etna_inst_src src)
{
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
return etna_mov_src_to_temp(c, src, temp);
}
static bool
etna_src_uniforms_conflict(struct etna_inst_src a, struct etna_inst_src b)
{
return etna_rgroup_is_uniform(a.rgroup) &&
etna_rgroup_is_uniform(b.rgroup) &&
(a.rgroup != b.rgroup || a.reg != b.reg);
}
/* create a new label */
static struct etna_compile_label *
alloc_new_label(struct etna_compile *c)
{
struct etna_compile_label label = {
.inst_idx = -1, /* start by point to no specific instruction */
};
array_insert(c->labels, label);
return &c->labels[c->labels_count - 1];
}
/* place label at current instruction pointer */
static void
label_place(struct etna_compile *c, struct etna_compile_label *label)
{
label->inst_idx = c->inst_ptr;
}
/* mark label use at current instruction.
* target of the label will be filled in in the marked instruction's src2.imm
* slot as soon
* as the value becomes known.
*/
static void
label_mark_use(struct etna_compile *c, struct etna_compile_label *label)
{
assert(c->inst_ptr < ETNA_MAX_INSTRUCTIONS);
c->lbl_usage[c->inst_ptr] = label;
}
/* walk the frame stack and return first frame with matching type */
static struct etna_compile_frame *
find_frame(struct etna_compile *c, enum etna_compile_frame_type type)
{
for (int sp = c->frame_sp; sp >= 0; sp--)
if (c->frame_stack[sp].type == type)
return &c->frame_stack[sp];
assert(0);
return NULL;
}
struct instr_translater {
void (*fxn)(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst,
struct etna_inst_src *src);
unsigned tgsi_opc;
uint8_t opc;
/* tgsi src -> etna src swizzle */
int src[3];
unsigned cond;
};
static void
trans_instr(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
const struct tgsi_opcode_info *info = tgsi_get_opcode_info(inst->Instruction.Opcode);
struct etna_inst instr = { };
instr.opcode = t->opc;
instr.cond = t->cond;
instr.sat = inst->Instruction.Saturate;
assert(info->num_dst <= 1);
if (info->num_dst)
instr.dst = convert_dst(c, &inst->Dst[0]);
assert(info->num_src <= ETNA_NUM_SRC);
for (unsigned i = 0; i < info->num_src; i++) {
int swizzle = t->src[i];
assert(swizzle != -1);
instr.src[swizzle] = src[i];
}
emit_inst(c, &instr);
}
static void
trans_min_max(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst,
struct etna_inst_src *src)
{
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_SELECT,
.cond = t->cond,
.sat = inst->Instruction.Saturate,
.dst = convert_dst(c, &inst->Dst[0]),
.src[0] = src[0],
.src[1] = src[1],
.src[2] = src[0],
});
}
static void
trans_if(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
struct etna_compile_frame *f = &c->frame_stack[c->frame_sp++];
struct etna_inst_src imm_0 = alloc_imm_f32(c, 0.0f);
/* push IF to stack */
f->type = ETNA_COMPILE_FRAME_IF;
/* create "else" label */
f->lbl_else = alloc_new_label(c);
f->lbl_endif = NULL;
/* We need to avoid the emit_inst() below becoming two instructions */
if (etna_src_uniforms_conflict(src[0], imm_0))
src[0] = etna_mov_src(c, src[0]);
/* mark position in instruction stream of label reference so that it can be
* filled in in next pass */
label_mark_use(c, f->lbl_else);
/* create conditional branch to label if src0 EQ 0 */
emit_inst(c, &(struct etna_inst){
.opcode = INST_OPCODE_BRANCH,
.cond = INST_CONDITION_EQ,
.src[0] = src[0],
.src[1] = imm_0,
/* imm is filled in later */
});
}
static void
trans_else(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
assert(c->frame_sp > 0);
struct etna_compile_frame *f = &c->frame_stack[c->frame_sp - 1];
assert(f->type == ETNA_COMPILE_FRAME_IF);
/* create "endif" label, and branch to endif label */
f->lbl_endif = alloc_new_label(c);
label_mark_use(c, f->lbl_endif);
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_BRANCH,
.cond = INST_CONDITION_TRUE,
/* imm is filled in later */
});
/* mark "else" label at this position in instruction stream */
label_place(c, f->lbl_else);
}
static void
trans_endif(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
assert(c->frame_sp > 0);
struct etna_compile_frame *f = &c->frame_stack[--c->frame_sp];
assert(f->type == ETNA_COMPILE_FRAME_IF);
/* assign "endif" or "else" (if no ELSE) label to current position in
* instruction stream, pop IF */
if (f->lbl_endif != NULL)
label_place(c, f->lbl_endif);
else
label_place(c, f->lbl_else);
}
static void
trans_loop_bgn(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst,
struct etna_inst_src *src)
{
struct etna_compile_frame *f = &c->frame_stack[c->frame_sp++];
/* push LOOP to stack */
f->type = ETNA_COMPILE_FRAME_LOOP;
f->lbl_loop_bgn = alloc_new_label(c);
f->lbl_loop_end = alloc_new_label(c);
label_place(c, f->lbl_loop_bgn);
}
static void
trans_loop_end(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst,
struct etna_inst_src *src)
{
assert(c->frame_sp > 0);
struct etna_compile_frame *f = &c->frame_stack[--c->frame_sp];
assert(f->type == ETNA_COMPILE_FRAME_LOOP);
/* mark position in instruction stream of label reference so that it can be
* filled in in next pass */
label_mark_use(c, f->lbl_loop_bgn);
/* create branch to loop_bgn label */
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_BRANCH,
.cond = INST_CONDITION_TRUE,
.src[0] = src[0],
/* imm is filled in later */
});
label_place(c, f->lbl_loop_end);
}
static void
trans_brk(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
assert(c->frame_sp > 0);
struct etna_compile_frame *f = find_frame(c, ETNA_COMPILE_FRAME_LOOP);
/* mark position in instruction stream of label reference so that it can be
* filled in in next pass */
label_mark_use(c, f->lbl_loop_end);
/* create branch to loop_end label */
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_BRANCH,
.cond = INST_CONDITION_TRUE,
.src[0] = src[0],
/* imm is filled in later */
});
}
static void
trans_cont(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
assert(c->frame_sp > 0);
struct etna_compile_frame *f = find_frame(c, ETNA_COMPILE_FRAME_LOOP);
/* mark position in instruction stream of label reference so that it can be
* filled in in next pass */
label_mark_use(c, f->lbl_loop_bgn);
/* create branch to loop_end label */
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_BRANCH,
.cond = INST_CONDITION_TRUE,
.src[0] = src[0],
/* imm is filled in later */
});
}
static void
trans_deriv(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
emit_inst(c, &(struct etna_inst) {
.opcode = t->opc,
.sat = inst->Instruction.Saturate,
.dst = convert_dst(c, &inst->Dst[0]),
.src[0] = src[0],
.src[2] = src[0],
});
}
static void
trans_arl(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
struct etna_inst arl = { };
struct etna_inst_dst dst;
dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y | INST_COMPS_Z |
INST_COMPS_W);
if (c->specs->has_sign_floor_ceil) {
struct etna_inst floor = { };
floor.opcode = INST_OPCODE_FLOOR;
floor.src[2] = src[0];
floor.dst = dst;
emit_inst(c, &floor);
} else {
struct etna_inst floor[2] = { };
floor[0].opcode = INST_OPCODE_FRC;
floor[0].sat = inst->Instruction.Saturate;
floor[0].dst = dst;
floor[0].src[2] = src[0];
floor[1].opcode = INST_OPCODE_ADD;
floor[1].sat = inst->Instruction.Saturate;
floor[1].dst = dst;
floor[1].src[0] = src[0];
floor[1].src[2].use = 1;
floor[1].src[2].swiz = INST_SWIZ_IDENTITY;
floor[1].src[2].neg = 1;
floor[1].src[2].rgroup = temp.rgroup;
floor[1].src[2].reg = temp.id;
emit_inst(c, &floor[0]);
emit_inst(c, &floor[1]);
}
arl.opcode = INST_OPCODE_MOVAR;
arl.sat = inst->Instruction.Saturate;
arl.dst = convert_dst(c, &inst->Dst[0]);
arl.src[2] = etna_native_to_src(temp, INST_SWIZ_IDENTITY);
emit_inst(c, &arl);
}
static void
trans_lrp(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
/* dst = src0 * src1 + (1 - src0) * src2
* => src0 * src1 - (src0 - 1) * src2
* => src0 * src1 - (src0 * src2 - src2)
* MAD tTEMP.xyzw, tSRC0.xyzw, tSRC2.xyzw, -tSRC2.xyzw
* MAD tDST.xyzw, tSRC0.xyzw, tSRC1.xyzw, -tTEMP.xyzw
*/
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
if (etna_src_uniforms_conflict(src[0], src[1]) ||
etna_src_uniforms_conflict(src[0], src[2])) {
src[0] = etna_mov_src(c, src[0]);
}
struct etna_inst mad[2] = { };
mad[0].opcode = INST_OPCODE_MAD;
mad[0].sat = 0;
mad[0].dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z | INST_COMPS_W);
mad[0].src[0] = src[0];
mad[0].src[1] = src[2];
mad[0].src[2] = negate(src[2]);
mad[1].opcode = INST_OPCODE_MAD;
mad[1].sat = inst->Instruction.Saturate;
mad[1].dst = convert_dst(c, &inst->Dst[0]), mad[1].src[0] = src[0];
mad[1].src[1] = src[1];
mad[1].src[2] = negate(etna_native_to_src(temp, INST_SWIZ_IDENTITY));
emit_inst(c, &mad[0]);
emit_inst(c, &mad[1]);
}
static void
trans_lit(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
/* SELECT.LT tmp._y__, 0, src.yyyy, 0
* - can be eliminated if src.y is a uniform and >= 0
* SELECT.GT tmp.___w, 128, src.wwww, 128
* SELECT.LT tmp.___w, -128, tmp.wwww, -128
* - can be eliminated if src.w is a uniform and fits clamp
* LOG tmp.x, void, void, tmp.yyyy
* MUL tmp.x, tmp.xxxx, tmp.wwww, void
* LITP dst, undef, src.xxxx, tmp.xxxx
*/
struct etna_native_reg inner_temp = etna_compile_get_inner_temp(c);
struct etna_inst_src src_y = { };
if (!etna_rgroup_is_uniform(src[0].rgroup)) {
src_y = etna_native_to_src(inner_temp, SWIZZLE(Y, Y, Y, Y));
struct etna_inst ins = { };
ins.opcode = INST_OPCODE_SELECT;
ins.cond = INST_CONDITION_LT;
ins.dst = etna_native_to_dst(inner_temp, INST_COMPS_Y);
ins.src[0] = ins.src[2] = alloc_imm_f32(c, 0.0);
ins.src[1] = swizzle(src[0], SWIZZLE(Y, Y, Y, Y));
emit_inst(c, &ins);
} else if (uif(get_imm_u32(c, &src[0], 1)) < 0)
src_y = alloc_imm_f32(c, 0.0);
else
src_y = swizzle(src[0], SWIZZLE(Y, Y, Y, Y));
struct etna_inst_src src_w = { };
if (!etna_rgroup_is_uniform(src[0].rgroup)) {
src_w = etna_native_to_src(inner_temp, SWIZZLE(W, W, W, W));
struct etna_inst ins = { };
ins.opcode = INST_OPCODE_SELECT;
ins.cond = INST_CONDITION_GT;
ins.dst = etna_native_to_dst(inner_temp, INST_COMPS_W);
ins.src[0] = ins.src[2] = alloc_imm_f32(c, 128.);
ins.src[1] = swizzle(src[0], SWIZZLE(W, W, W, W));
emit_inst(c, &ins);
ins.cond = INST_CONDITION_LT;
ins.src[0].neg = !ins.src[0].neg;
ins.src[2].neg = !ins.src[2].neg;
ins.src[1] = src_w;
emit_inst(c, &ins);
} else if (uif(get_imm_u32(c, &src[0], 3)) < -128.)
src_w = alloc_imm_f32(c, -128.);
else if (uif(get_imm_u32(c, &src[0], 3)) > 128.)
src_w = alloc_imm_f32(c, 128.);
else
src_w = swizzle(src[0], SWIZZLE(W, W, W, W));
struct etna_inst ins[3] = { };
ins[0].opcode = INST_OPCODE_LOG;
ins[0].dst = etna_native_to_dst(inner_temp, INST_COMPS_X);
ins[0].src[2] = src_y;
emit_inst(c, &ins[0]);
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_MUL,
.sat = 0,
.dst = etna_native_to_dst(inner_temp, INST_COMPS_X),
.src[0] = etna_native_to_src(inner_temp, SWIZZLE(X, X, X, X)),
.src[1] = src_w,
});
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_LITP,
.sat = 0,
.dst = convert_dst(c, &inst->Dst[0]),
.src[0] = swizzle(src[0], SWIZZLE(X, X, X, X)),
.src[1] = swizzle(src[0], SWIZZLE(X, X, X, X)),
.src[2] = etna_native_to_src(inner_temp, SWIZZLE(X, X, X, X)),
});
}
static void
trans_ssg(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
if (c->specs->has_sign_floor_ceil) {
emit_inst(c, &(struct etna_inst){
.opcode = INST_OPCODE_SIGN,
.sat = inst->Instruction.Saturate,
.dst = convert_dst(c, &inst->Dst[0]),
.src[2] = src[0],
});
} else {
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
struct etna_inst ins[2] = { };
ins[0].opcode = INST_OPCODE_SET;
ins[0].cond = INST_CONDITION_NZ;
ins[0].dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z | INST_COMPS_W);
ins[0].src[0] = src[0];
ins[1].opcode = INST_OPCODE_SELECT;
ins[1].cond = INST_CONDITION_LZ;
ins[1].sat = inst->Instruction.Saturate;
ins[1].dst = convert_dst(c, &inst->Dst[0]);
ins[1].src[0] = src[0];
ins[1].src[2] = etna_native_to_src(temp, INST_SWIZ_IDENTITY);
ins[1].src[1] = negate(ins[1].src[2]);
emit_inst(c, &ins[0]);
emit_inst(c, &ins[1]);
}
}
static void
trans_trig(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
if (c->specs->has_new_sin_cos) { /* Alternative SIN/COS */
/* On newer chips alternative SIN/COS instructions are implemented,
* which:
* - Need their input scaled by 1/pi instead of 2/pi
* - Output an x and y component, which need to be multiplied to
* get the result
*/
/* TGSI lowering should deal with SCS */
assert(inst->Instruction.Opcode != TGSI_OPCODE_SCS);
struct etna_native_reg temp = etna_compile_get_inner_temp(c); /* only using .xyz */
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_MUL,
.sat = 0,
.dst = etna_native_to_dst(temp, INST_COMPS_Z),
.src[0] = src[0], /* any swizzling happens here */
.src[1] = alloc_imm_f32(c, 1.0f / M_PI),
});
emit_inst(c, &(struct etna_inst) {
.opcode = inst->Instruction.Opcode == TGSI_OPCODE_COS
? INST_OPCODE_COS
: INST_OPCODE_SIN,
.sat = 0,
.dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y),
.src[2] = etna_native_to_src(temp, SWIZZLE(Z, Z, Z, Z)),
.tex = { .amode=1 }, /* Unknown bit needs to be set */
});
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_MUL,
.sat = inst->Instruction.Saturate,
.dst = convert_dst(c, &inst->Dst[0]),
.src[0] = etna_native_to_src(temp, SWIZZLE(X, X, X, X)),
.src[1] = etna_native_to_src(temp, SWIZZLE(Y, Y, Y, Y)),
});
} else if (c->specs->has_sin_cos_sqrt) {
/* TGSI lowering should deal with SCS */
assert(inst->Instruction.Opcode != TGSI_OPCODE_SCS);
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
/* add divide by PI/2, using a temp register. GC2000
* fails with src==dst for the trig instruction. */
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_MUL,
.sat = 0,
.dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z | INST_COMPS_W),
.src[0] = src[0], /* any swizzling happens here */
.src[1] = alloc_imm_f32(c, 2.0f / M_PI),
});
emit_inst(c, &(struct etna_inst) {
.opcode = inst->Instruction.Opcode == TGSI_OPCODE_COS
? INST_OPCODE_COS
: INST_OPCODE_SIN,
.sat = inst->Instruction.Saturate,
.dst = convert_dst(c, &inst->Dst[0]),
.src[2] = etna_native_to_src(temp, INST_SWIZ_IDENTITY),
});
} else {
/* Implement Nick's fast sine/cosine. Taken from:
* http://forum.devmaster.net/t/fast-and-accurate-sine-cosine/9648
* A=(1/2*PI 0 1/2*PI 0) B=(0.75 0 0.5 0) C=(-4 4 X X)
* MAD t.x_zw, src.xxxx, A, B
* FRC t.x_z_, void, void, t.xwzw
* MAD t.x_z_, t.xwzw, 2, -1
* MUL t._y__, t.wzww, |t.wzww|, void (for sin/scs)
* DP3 t.x_z_, t.zyww, C, void (for sin)
* DP3 t.__z_, t.zyww, C, void (for scs)
* MUL t._y__, t.wxww, |t.wxww|, void (for cos/scs)
* DP3 t.x_z_, t.xyww, C, void (for cos)
* DP3 t.x___, t.xyww, C, void (for scs)
* MAD t._y_w, t,xxzz, |t.xxzz|, -t.xxzz
* MAD dst, t.ywyw, .2225, t.xzxz
*
* TODO: we don't set dst.zw correctly for SCS.
*/
struct etna_inst *p, ins[9] = { };
struct etna_native_reg t0 = etna_compile_get_inner_temp(c);
struct etna_inst_src t0s = etna_native_to_src(t0, INST_SWIZ_IDENTITY);
struct etna_inst_src sincos[3], in = src[0];
sincos[0] = etna_imm_vec4f(c, sincos_const[0]);
sincos[1] = etna_imm_vec4f(c, sincos_const[1]);
/* A uniform source will cause the inner temp limit to
* be exceeded. Explicitly deal with that scenario.
*/
if (etna_rgroup_is_uniform(src[0].rgroup)) {
struct etna_inst ins = { };
ins.opcode = INST_OPCODE_MOV;
ins.dst = etna_native_to_dst(t0, INST_COMPS_X);
ins.src[2] = in;
emit_inst(c, &ins);
in = t0s;
}
ins[0].opcode = INST_OPCODE_MAD;
ins[0].dst = etna_native_to_dst(t0, INST_COMPS_X | INST_COMPS_Z | INST_COMPS_W);
ins[0].src[0] = swizzle(in, SWIZZLE(X, X, X, X));
ins[0].src[1] = swizzle(sincos[1], SWIZZLE(X, W, X, W)); /* 1/2*PI */
ins[0].src[2] = swizzle(sincos[1], SWIZZLE(Y, W, Z, W)); /* 0.75, 0, 0.5, 0 */
ins[1].opcode = INST_OPCODE_FRC;
ins[1].dst = etna_native_to_dst(t0, INST_COMPS_X | INST_COMPS_Z);
ins[1].src[2] = swizzle(t0s, SWIZZLE(X, W, Z, W));
ins[2].opcode = INST_OPCODE_MAD;
ins[2].dst = etna_native_to_dst(t0, INST_COMPS_X | INST_COMPS_Z);
ins[2].src[0] = swizzle(t0s, SWIZZLE(X, W, Z, W));
ins[2].src[1] = swizzle(sincos[0], SWIZZLE(X, X, X, X)); /* 2 */
ins[2].src[2] = swizzle(sincos[0], SWIZZLE(Y, Y, Y, Y)); /* -1 */
unsigned mul_swiz, dp3_swiz;
if (inst->Instruction.Opcode == TGSI_OPCODE_SIN) {
mul_swiz = SWIZZLE(W, Z, W, W);
dp3_swiz = SWIZZLE(Z, Y, W, W);
} else {
mul_swiz = SWIZZLE(W, X, W, W);
dp3_swiz = SWIZZLE(X, Y, W, W);
}
ins[3].opcode = INST_OPCODE_MUL;
ins[3].dst = etna_native_to_dst(t0, INST_COMPS_Y);
ins[3].src[0] = swizzle(t0s, mul_swiz);
ins[3].src[1] = absolute(ins[3].src[0]);
ins[4].opcode = INST_OPCODE_DP3;
ins[4].dst = etna_native_to_dst(t0, INST_COMPS_X | INST_COMPS_Z);
ins[4].src[0] = swizzle(t0s, dp3_swiz);
ins[4].src[1] = swizzle(sincos[0], SWIZZLE(Z, W, W, W));
if (inst->Instruction.Opcode == TGSI_OPCODE_SCS) {
ins[5] = ins[3];
ins[6] = ins[4];
ins[4].dst.comps = INST_COMPS_X;
ins[6].dst.comps = INST_COMPS_Z;
ins[5].src[0] = swizzle(t0s, SWIZZLE(W, Z, W, W));
ins[6].src[0] = swizzle(t0s, SWIZZLE(Z, Y, W, W));
ins[5].src[1] = absolute(ins[5].src[0]);
p = &ins[7];
} else {
p = &ins[5];
}
p->opcode = INST_OPCODE_MAD;
p->dst = etna_native_to_dst(t0, INST_COMPS_Y | INST_COMPS_W);
p->src[0] = swizzle(t0s, SWIZZLE(X, X, Z, Z));
p->src[1] = absolute(p->src[0]);
p->src[2] = negate(p->src[0]);
p++;
p->opcode = INST_OPCODE_MAD;
p->sat = inst->Instruction.Saturate;
p->dst = convert_dst(c, &inst->Dst[0]),
p->src[0] = swizzle(t0s, SWIZZLE(Y, W, Y, W));
p->src[1] = alloc_imm_f32(c, 0.2225);
p->src[2] = swizzle(t0s, SWIZZLE(X, Z, X, Z));
for (int i = 0; &ins[i] <= p; i++)
emit_inst(c, &ins[i]);
}
}
static void
trans_dph(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
/*
DP3 tmp.xyzw, src0.xyzw, src1,xyzw, void
ADD dst.xyzw, tmp.xyzw, void, src1.wwww
*/
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
struct etna_inst ins[2] = { };
ins[0].opcode = INST_OPCODE_DP3;
ins[0].dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z | INST_COMPS_W);
ins[0].src[0] = src[0];
ins[0].src[1] = src[1];
ins[1].opcode = INST_OPCODE_ADD;
ins[1].sat = inst->Instruction.Saturate;
ins[1].dst = convert_dst(c, &inst->Dst[0]);
ins[1].src[0] = etna_native_to_src(temp, INST_SWIZ_IDENTITY);
ins[1].src[2] = swizzle(src[1], SWIZZLE(W, W, W, W));
emit_inst(c, &ins[0]);
emit_inst(c, &ins[1]);
}
static void
trans_sampler(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst,
struct etna_inst_src *src)
{
/* There is no native support for GL texture rectangle coordinates, so
* we have to rescale from ([0, width], [0, height]) to ([0, 1], [0, 1]). */
if (inst->Texture.Texture == TGSI_TEXTURE_RECT) {
uint32_t unit = inst->Src[1].Register.Index;
struct etna_inst ins[2] = { };
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
ins[0].opcode = INST_OPCODE_MUL;
ins[0].dst = etna_native_to_dst(temp, INST_COMPS_X);
ins[0].src[0] = src[0];
ins[0].src[1] = alloc_imm(c, ETNA_IMMEDIATE_TEXRECT_SCALE_X, unit);
ins[1].opcode = INST_OPCODE_MUL;
ins[1].dst = etna_native_to_dst(temp, INST_COMPS_Y);
ins[1].src[0] = src[0];
ins[1].src[1] = alloc_imm(c, ETNA_IMMEDIATE_TEXRECT_SCALE_Y, unit);
emit_inst(c, &ins[0]);
emit_inst(c, &ins[1]);
src[0] = etna_native_to_src(temp, INST_SWIZ_IDENTITY); /* temp.xyzw */
}
switch (inst->Instruction.Opcode) {
case TGSI_OPCODE_TEX:
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_TEXLD,
.sat = 0,
.dst = convert_dst(c, &inst->Dst[0]),
.tex = convert_tex(c, &inst->Src[1], &inst->Texture),
.src[0] = src[0],
});
break;
case TGSI_OPCODE_TXB:
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_TEXLDB,
.sat = 0,
.dst = convert_dst(c, &inst->Dst[0]),
.tex = convert_tex(c, &inst->Src[1], &inst->Texture),
.src[0] = src[0],
});
break;
case TGSI_OPCODE_TXL:
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_TEXLDL,
.sat = 0,
.dst = convert_dst(c, &inst->Dst[0]),
.tex = convert_tex(c, &inst->Src[1], &inst->Texture),
.src[0] = src[0],
});
break;
case TGSI_OPCODE_TXP: { /* divide src.xyz by src.w */
struct etna_native_reg temp = etna_compile_get_inner_temp(c);
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_RCP,
.sat = 0,
.dst = etna_native_to_dst(temp, INST_COMPS_W), /* tmp.w */
.src[2] = swizzle(src[0], SWIZZLE(W, W, W, W)),
});
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_MUL,
.sat = 0,
.dst = etna_native_to_dst(temp, INST_COMPS_X | INST_COMPS_Y |
INST_COMPS_Z), /* tmp.xyz */
.src[0] = etna_native_to_src(temp, SWIZZLE(W, W, W, W)),
.src[1] = src[0], /* src.xyzw */
});
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_TEXLD,
.sat = 0,
.dst = convert_dst(c, &inst->Dst[0]),
.tex = convert_tex(c, &inst->Src[1], &inst->Texture),
.src[0] = etna_native_to_src(temp, INST_SWIZ_IDENTITY), /* tmp.xyzw */
});
} break;
default:
BUG("Unhandled instruction %s",
tgsi_get_opcode_name(inst->Instruction.Opcode));
assert(0);
break;
}
}
static void
trans_dummy(const struct instr_translater *t, struct etna_compile *c,
const struct tgsi_full_instruction *inst, struct etna_inst_src *src)
{
/* nothing to do */
}
static const struct instr_translater translaters[TGSI_OPCODE_LAST] = {
#define INSTR(n, f, ...) \
[TGSI_OPCODE_##n] = {.fxn = (f), .tgsi_opc = TGSI_OPCODE_##n, ##__VA_ARGS__}
INSTR(MOV, trans_instr, .opc = INST_OPCODE_MOV, .src = {2, -1, -1}),
INSTR(RCP, trans_instr, .opc = INST_OPCODE_RCP, .src = {2, -1, -1}),
INSTR(RSQ, trans_instr, .opc = INST_OPCODE_RSQ, .src = {2, -1, -1}),
INSTR(MUL, trans_instr, .opc = INST_OPCODE_MUL, .src = {0, 1, -1}),
INSTR(ADD, trans_instr, .opc = INST_OPCODE_ADD, .src = {0, 2, -1}),
INSTR(DP3, trans_instr, .opc = INST_OPCODE_DP3, .src = {0, 1, -1}),
INSTR(DP4, trans_instr, .opc = INST_OPCODE_DP4, .src = {0, 1, -1}),
INSTR(DST, trans_instr, .opc = INST_OPCODE_DST, .src = {0, 1, -1}),
INSTR(MAD, trans_instr, .opc = INST_OPCODE_MAD, .src = {0, 1, 2}),
INSTR(EX2, trans_instr, .opc = INST_OPCODE_EXP, .src = {2, -1, -1}),
INSTR(LG2, trans_instr, .opc = INST_OPCODE_LOG, .src = {2, -1, -1}),
INSTR(SQRT, trans_instr, .opc = INST_OPCODE_SQRT, .src = {2, -1, -1}),
INSTR(FRC, trans_instr, .opc = INST_OPCODE_FRC, .src = {2, -1, -1}),
INSTR(CEIL, trans_instr, .opc = INST_OPCODE_CEIL, .src = {2, -1, -1}),
INSTR(FLR, trans_instr, .opc = INST_OPCODE_FLOOR, .src = {2, -1, -1}),
INSTR(CMP, trans_instr, .opc = INST_OPCODE_SELECT, .src = {0, 1, 2}, .cond = INST_CONDITION_LZ),
INSTR(KILL, trans_instr, .opc = INST_OPCODE_TEXKILL),
INSTR(KILL_IF, trans_instr, .opc = INST_OPCODE_TEXKILL, .src = {0, -1, -1}, .cond = INST_CONDITION_LZ),
INSTR(DDX, trans_deriv, .opc = INST_OPCODE_DSX),
INSTR(DDY, trans_deriv, .opc = INST_OPCODE_DSY),
INSTR(IF, trans_if),
INSTR(ELSE, trans_else),
INSTR(ENDIF, trans_endif),
INSTR(BGNLOOP, trans_loop_bgn),
INSTR(ENDLOOP, trans_loop_end),
INSTR(BRK, trans_brk),
INSTR(CONT, trans_cont),
INSTR(MIN, trans_min_max, .opc = INST_OPCODE_SELECT, .cond = INST_CONDITION_GT),
INSTR(MAX, trans_min_max, .opc = INST_OPCODE_SELECT, .cond = INST_CONDITION_LT),
INSTR(ARL, trans_arl),
INSTR(LRP, trans_lrp),
INSTR(LIT, trans_lit),
INSTR(SSG, trans_ssg),
INSTR(DPH, trans_dph),
INSTR(SIN, trans_trig),
INSTR(COS, trans_trig),
INSTR(SCS, trans_trig),
INSTR(SLT, trans_instr, .opc = INST_OPCODE_SET, .src = {0, 1, -1}, .cond = INST_CONDITION_LT),
INSTR(SGE, trans_instr, .opc = INST_OPCODE_SET, .src = {0, 1, -1}, .cond = INST_CONDITION_GE),
INSTR(SEQ, trans_instr, .opc = INST_OPCODE_SET, .src = {0, 1, -1}, .cond = INST_CONDITION_EQ),
INSTR(SGT, trans_instr, .opc = INST_OPCODE_SET, .src = {0, 1, -1}, .cond = INST_CONDITION_GT),
INSTR(SLE, trans_instr, .opc = INST_OPCODE_SET, .src = {0, 1, -1}, .cond = INST_CONDITION_LE),
INSTR(SNE, trans_instr, .opc = INST_OPCODE_SET, .src = {0, 1, -1}, .cond = INST_CONDITION_NE),
INSTR(TEX, trans_sampler),
INSTR(TXB, trans_sampler),
INSTR(TXL, trans_sampler),
INSTR(TXP, trans_sampler),
INSTR(NOP, trans_dummy),
INSTR(END, trans_dummy),
};
/* Pass -- compile instructions */
static void
etna_compile_pass_generate_code(struct etna_compile *c)
{
struct tgsi_parse_context ctx = { };
unsigned status = tgsi_parse_init(&ctx, c->tokens);
assert(status == TGSI_PARSE_OK);
int inst_idx = 0;
while (!tgsi_parse_end_of_tokens(&ctx)) {
const struct tgsi_full_instruction *inst = 0;
/* No inner temps used yet for this instruction, clear counter */
c->inner_temps = 0;
tgsi_parse_token(&ctx);
switch (ctx.FullToken.Token.Type) {
case TGSI_TOKEN_TYPE_INSTRUCTION:
/* iterate over operands */
inst = &ctx.FullToken.FullInstruction;
if (c->dead_inst[inst_idx]) { /* skip dead instructions */
inst_idx++;
continue;
}
/* Lookup the TGSI information and generate the source arguments */
struct etna_inst_src src[ETNA_NUM_SRC];
memset(src, 0, sizeof(src));
const struct tgsi_opcode_info *tgsi = tgsi_get_opcode_info(inst->Instruction.Opcode);
for (int i = 0; i < tgsi->num_src && i < ETNA_NUM_SRC; i++) {
const struct tgsi_full_src_register *reg = &inst->Src[i];
const struct etna_native_reg *n = &etna_get_src_reg(c, reg->Register)->native;
if (!n->valid || n->is_tex)
continue;
src[i] = etna_create_src(reg, n);
}
const unsigned opc = inst->Instruction.Opcode;
const struct instr_translater *t = &translaters[opc];
if (t->fxn) {
t->fxn(t, c, inst, src);
inst_idx += 1;
} else {
BUG("Unhandled instruction %s", tgsi_get_opcode_name(opc));
assert(0);
}
break;
}
}
tgsi_parse_free(&ctx);
}
/* Look up register by semantic */
static struct etna_reg_desc *
find_decl_by_semantic(struct etna_compile *c, uint file, uint name, uint index)
{
for (int idx = 0; idx < c->file[file].reg_size; ++idx) {
struct etna_reg_desc *reg = &c->file[file].reg[idx];
if (reg->semantic.Name == name && reg->semantic.Index == index)
return reg;
}
return NULL; /* not found */
}
/** Add ADD and MUL instruction to bring Z/W to 0..1 if -1..1 if needed:
* - this is a vertex shader
* - and this is an older GPU
*/
static void
etna_compile_add_z_div_if_needed(struct etna_compile *c)
{
if (c->info.processor == PIPE_SHADER_VERTEX && c->specs->vs_need_z_div) {
/* find position out */
struct etna_reg_desc *pos_reg =
find_decl_by_semantic(c, TGSI_FILE_OUTPUT, TGSI_SEMANTIC_POSITION, 0);
if (pos_reg != NULL) {
/*
* ADD tX.__z_, tX.zzzz, void, tX.wwww
* MUL tX.__z_, tX.zzzz, 0.5, void
*/
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_ADD,
.dst = etna_native_to_dst(pos_reg->native, INST_COMPS_Z),
.src[0] = etna_native_to_src(pos_reg->native, SWIZZLE(Z, Z, Z, Z)),
.src[2] = etna_native_to_src(pos_reg->native, SWIZZLE(W, W, W, W)),
});
emit_inst(c, &(struct etna_inst) {
.opcode = INST_OPCODE_MUL,
.dst = etna_native_to_dst(pos_reg->native, INST_COMPS_Z),
.src[0] = etna_native_to_src(pos_reg->native, SWIZZLE(Z, Z, Z, Z)),
.src[1] = alloc_imm_f32(c, 0.5f),
});
}
}
}
/** add a NOP to the shader if
* a) the shader is empty
* or
* b) there is a label at the end of the shader
*/
static void
etna_compile_add_nop_if_needed(struct etna_compile *c)
{
bool label_at_last_inst = false;
for (int idx = 0; idx < c->labels_count; ++idx) {
if (c->labels[idx].inst_idx == c->inst_ptr)
label_at_last_inst = true;
}
if (c->inst_ptr == 0 || label_at_last_inst)
emit_inst(c, &(struct etna_inst){.opcode = INST_OPCODE_NOP});
}
static void
assign_uniforms(struct etna_compile_file *file, unsigned base)
{
for (int idx = 0; idx < file->reg_size; ++idx) {
file->reg[idx].native.valid = 1;
file->reg[idx].native.rgroup = INST_RGROUP_UNIFORM_0;
file->reg[idx].native.id = base + idx;
}
}
/* Allocate CONST and IMM to native ETNA_RGROUP_UNIFORM(x).
* CONST must be consecutive as const buffers are supposed to be consecutive,
* and before IMM, as this is
* more convenient because is possible for the compilation process itself to
* generate extra
* immediates for constants such as pi, one, zero.
*/
static void
assign_constants_and_immediates(struct etna_compile *c)
{
assign_uniforms(&c->file[TGSI_FILE_CONSTANT], 0);
/* immediates start after the constants */
c->imm_base = c->file[TGSI_FILE_CONSTANT].reg_size * 4;
assign_uniforms(&c->file[TGSI_FILE_IMMEDIATE], c->imm_base / 4);
DBG_F(ETNA_DBG_COMPILER_MSGS, "imm base: %i size: %i", c->imm_base,
c->imm_size);
}
/* Assign declared samplers to native texture units */
static void
assign_texture_units(struct etna_compile *c)
{
uint tex_base = 0;
if (c->info.processor == PIPE_SHADER_VERTEX)
tex_base = c->specs->vertex_sampler_offset;
for (int idx = 0; idx < c->file[TGSI_FILE_SAMPLER].reg_size; ++idx) {
c->file[TGSI_FILE_SAMPLER].reg[idx].native.valid = 1;
c->file[TGSI_FILE_SAMPLER].reg[idx].native.is_tex = 1; // overrides rgroup
c->file[TGSI_FILE_SAMPLER].reg[idx].native.id = tex_base + idx;
}
}
/* Additional pass to fill in branch targets. This pass should be last
* as no instruction reordering or removing/addition can be done anymore
* once the branch targets are computed.
*/
static void
etna_compile_fill_in_labels(struct etna_compile *c)
{
for (int idx = 0; idx < c->inst_ptr; ++idx) {
if (c->lbl_usage[idx])
etna_assemble_set_imm(&c->code[idx * 4], c->lbl_usage[idx]->inst_idx);
}
}
/* compare two etna_native_reg structures, return true if equal */
static bool
cmp_etna_native_reg(const struct etna_native_reg to,
const struct etna_native_reg from)
{
return to.valid == from.valid && to.is_tex == from.is_tex &&
to.rgroup == from.rgroup && to.id == from.id;
}
/* go through all declarations and swap native registers *to* and *from* */
static void
swap_native_registers(struct etna_compile *c, const struct etna_native_reg to,
const struct etna_native_reg from)
{
if (cmp_etna_native_reg(from, to))
return; /* Nothing to do */
for (int idx = 0; idx < c->total_decls; ++idx) {
if (cmp_etna_native_reg(c->decl[idx].native, from)) {
c->decl[idx].native = to;
} else if (cmp_etna_native_reg(c->decl[idx].native, to)) {
c->decl[idx].native = from;
}
}
}
/* For PS we need to permute so that inputs are always in temporary 0..N-1.
* Semantic POS is always t0. If that semantic is not used, avoid t0.
*/
static void
permute_ps_inputs(struct etna_compile *c)
{
/* Special inputs:
* gl_FragCoord VARYING_SLOT_POS TGSI_SEMANTIC_POSITION
* gl_PointCoord VARYING_SLOT_PNTC TGSI_SEMANTIC_PCOORD
*/
uint native_idx = 1;
for (int idx = 0; idx < c->file[TGSI_FILE_INPUT].reg_size; ++idx) {
struct etna_reg_desc *reg = &c->file[TGSI_FILE_INPUT].reg[idx];
uint input_id;
assert(reg->has_semantic);
if (!reg->active || reg->semantic.Name == TGSI_SEMANTIC_POSITION)
continue;
input_id = native_idx++;
swap_native_registers(c, etna_native_temp(input_id),
c->file[TGSI_FILE_INPUT].reg[idx].native);
}
c->num_varyings = native_idx - 1;
if (native_idx > c->next_free_native)
c->next_free_native = native_idx;
}
/* fill in ps inputs into shader object */
static void
fill_in_ps_inputs(struct etna_shader *sobj, struct etna_compile *c)
{
struct etna_shader_io_file *sf = &sobj->infile;
sf->num_reg = 0;
for (int idx = 0; idx < c->file[TGSI_FILE_INPUT].reg_size; ++idx) {
struct etna_reg_desc *reg = &c->file[TGSI_FILE_INPUT].reg[idx];
if (reg->native.id > 0) {
assert(sf->num_reg < ETNA_NUM_INPUTS);
sf->reg[sf->num_reg].reg = reg->native.id;
sf->reg[sf->num_reg].semantic = reg->semantic;
/* convert usage mask to number of components (*=wildcard)
* .r (0..1) -> 1 component
* .*g (2..3) -> 2 component
* .**b (4..7) -> 3 components
* .***a (8..15) -> 4 components
*/
sf->reg[sf->num_reg].num_components = util_last_bit(reg->usage_mask);
sf->num_reg++;
}
}
assert(sf->num_reg == c->num_varyings);
sobj->input_count_unk8 = 31; /* XXX what is this */
}
/* fill in output mapping for ps into shader object */
static void
fill_in_ps_outputs(struct etna_shader *sobj, struct etna_compile *c)
{
sobj->outfile.num_reg = 0;
for (int idx = 0; idx < c->file[TGSI_FILE_OUTPUT].reg_size; ++idx) {
struct etna_reg_desc *reg = &c->file[TGSI_FILE_OUTPUT].reg[idx];
switch (reg->semantic.Name) {
case TGSI_SEMANTIC_COLOR: /* FRAG_RESULT_COLOR */
sobj->ps_color_out_reg = reg->native.id;
break;
case TGSI_SEMANTIC_POSITION: /* FRAG_RESULT_DEPTH */
sobj->ps_depth_out_reg = reg->native.id; /* =always native reg 0, only z component should be assigned */
break;
default:
assert(0); /* only outputs supported are COLOR and POSITION at the moment */
}
}
}
/* fill in inputs for vs into shader object */
static void
fill_in_vs_inputs(struct etna_shader *sobj, struct etna_compile *c)
{
struct etna_shader_io_file *sf = &sobj->infile;
sf->num_reg = 0;
for (int idx = 0; idx < c->file[TGSI_FILE_INPUT].reg_size; ++idx) {
struct etna_reg_desc *reg = &c->file[TGSI_FILE_INPUT].reg[idx];
assert(sf->num_reg < ETNA_NUM_INPUTS);
/* XXX exclude inputs with special semantics such as gl_frontFacing */
sf->reg[sf->num_reg].reg = reg->native.id;
sf->reg[sf->num_reg].semantic = reg->semantic;
sf->reg[sf->num_reg].num_components = util_last_bit(reg->usage_mask);
sf->num_reg++;
}
sobj->input_count_unk8 = (sf->num_reg + 19) / 16; /* XXX what is this */
}
/* build two-level output index [Semantic][Index] for fast linking */
static void
build_output_index(struct etna_shader *sobj)
{
int total = 0;
int offset = 0;
for (int name = 0; name < TGSI_SEMANTIC_COUNT; ++name)
total += sobj->output_count_per_semantic[name];
sobj->output_per_semantic_list = CALLOC(total, sizeof(struct etna_shader_inout *));
for (int name = 0; name < TGSI_SEMANTIC_COUNT; ++name) {
sobj->output_per_semantic[name] = &sobj->output_per_semantic_list[offset];
offset += sobj->output_count_per_semantic[name];
}
for (int idx = 0; idx < sobj->outfile.num_reg; ++idx) {
sobj->output_per_semantic[sobj->outfile.reg[idx].semantic.Name]
[sobj->outfile.reg[idx].semantic.Index] =
&sobj->outfile.reg[idx];
}
}
/* fill in outputs for vs into shader object */
static void
fill_in_vs_outputs(struct etna_shader *sobj, struct etna_compile *c)
{
struct etna_shader_io_file *sf = &sobj->outfile;
sf->num_reg = 0;
for (int idx = 0; idx < c->file[TGSI_FILE_OUTPUT].reg_size; ++idx) {
struct etna_reg_desc *reg = &c->file[TGSI_FILE_OUTPUT].reg[idx];
assert(sf->num_reg < ETNA_NUM_INPUTS);
switch (reg->semantic.Name) {
case TGSI_SEMANTIC_POSITION:
sobj->vs_pos_out_reg = reg->native.id;
break;
case TGSI_SEMANTIC_PSIZE:
sobj->vs_pointsize_out_reg = reg->native.id;
break;
default:
sf->reg[sf->num_reg].reg = reg->native.id;
sf->reg[sf->num_reg].semantic = reg->semantic;
sf->reg[sf->num_reg].num_components = 4; // XXX reg->num_components;
sf->num_reg++;
sobj->output_count_per_semantic[reg->semantic.Name] =
MAX2(reg->semantic.Index + 1,
sobj->output_count_per_semantic[reg->semantic.Name]);
}
}
/* build two-level index for linking */
build_output_index(sobj);
/* fill in "mystery meat" load balancing value. This value determines how
* work is scheduled between VS and PS
* in the unified shader architecture. More precisely, it is determined from
* the number of VS outputs, as well as chip-specific
* vertex output buffer size, vertex cache size, and the number of shader
* cores.
*
* XXX this is a conservative estimate, the "optimal" value is only known for
* sure at link time because some
* outputs may be unused and thus unmapped. Then again, in the general use
* case with GLSL the vertex and fragment
* shaders are linked already before submitting to Gallium, thus all outputs
* are used.
*/
int half_out = (c->file[TGSI_FILE_OUTPUT].reg_size + 1) / 2;
assert(half_out);
uint32_t b = ((20480 / (c->specs->vertex_output_buffer_size -
2 * half_out * c->specs->vertex_cache_size)) +
9) /
10;
uint32_t a = (b + 256 / (c->specs->shader_core_count * half_out)) / 2;
sobj->vs_load_balancing = VIVS_VS_LOAD_BALANCING_A(MIN2(a, 255)) |
VIVS_VS_LOAD_BALANCING_B(MIN2(b, 255)) |
VIVS_VS_LOAD_BALANCING_C(0x3f) |
VIVS_VS_LOAD_BALANCING_D(0x0f);
}
static bool
etna_compile_check_limits(struct etna_compile *c)
{
int max_uniforms = (c->info.processor == PIPE_SHADER_VERTEX)
? c->specs->max_vs_uniforms
: c->specs->max_ps_uniforms;
/* round up number of uniforms, including immediates, in units of four */
int num_uniforms = c->imm_base / 4 + (c->imm_size + 3) / 4;
if (c->inst_ptr > c->specs->max_instructions) {
DBG("Number of instructions (%d) exceeds maximum %d", c->inst_ptr,
c->specs->max_instructions);
return false;
}
if (c->next_free_native > c->specs->max_registers) {
DBG("Number of registers (%d) exceeds maximum %d", c->next_free_native,
c->specs->max_registers);
return false;
}
if (num_uniforms > max_uniforms) {
DBG("Number of uniforms (%d) exceeds maximum %d", num_uniforms,
max_uniforms);
return false;
}
if (c->num_varyings > c->specs->max_varyings) {
DBG("Number of varyings (%d) exceeds maximum %d", c->num_varyings,
c->specs->max_varyings);
return false;
}
if (c->imm_base > c->specs->num_constants) {
DBG("Number of constants (%d) exceeds maximum %d", c->imm_base,
c->specs->num_constants);
}
return true;
}
static void
copy_uniform_state_to_shader(struct etna_compile *c, struct etna_shader *sobj)
{
uint32_t count = c->imm_size;
struct etna_shader_uniform_info *uinfo = &sobj->uniforms;
uinfo->const_count = c->imm_base;
uinfo->imm_count = count;
uinfo->imm_data = mem_dup(c->imm_data, count * sizeof(*c->imm_data));
uinfo->imm_contents = mem_dup(c->imm_contents, count * sizeof(*c->imm_contents));
etna_set_shader_uniforms_dirty_flags(sobj);
}
struct etna_shader *
etna_compile_shader(const struct etna_specs *specs,
const struct tgsi_token *tokens)
{
/* Create scratch space that may be too large to fit on stack
*/
bool ret;
struct etna_compile *c;
struct etna_shader *shader;
struct tgsi_lowering_config lconfig = {
.lower_SCS = specs->has_sin_cos_sqrt,
.lower_FLR = !specs->has_sign_floor_ceil,
.lower_CEIL = !specs->has_sign_floor_ceil,
.lower_POW = true,
.lower_EXP = true,
.lower_LOG = true,
.lower_DP2 = true,
.lower_DP2A = true,
.lower_TRUNC = true,
.lower_XPD = true
};
c = CALLOC_STRUCT(etna_compile);
if (!c)
return NULL;
shader = CALLOC_STRUCT(etna_shader);
if (!shader)
goto out;
c->specs = specs;
c->tokens = tgsi_transform_lowering(&lconfig, tokens, &c->info);
c->free_tokens = !!c->tokens;
if (!c->tokens) {
/* no lowering */
c->tokens = tokens;
}
/* Build a map from gallium register to native registers for files
* CONST, SAMP, IMM, OUT, IN, TEMP.
* SAMP will map as-is for fragment shaders, there will be a +8 offset for
* vertex shaders.
*/
/* Pass one -- check register file declarations and immediates */
etna_compile_parse_declarations(c);
etna_allocate_decls(c);
/* Pass two -- check usage of temporaries, inputs, outputs */
etna_compile_pass_check_usage(c);
assign_special_inputs(c);
/* Assign native temp register to TEMPs */
assign_temporaries_to_native(c, &c->file[TGSI_FILE_TEMPORARY]);
/* optimize outputs */
etna_compile_pass_optimize_outputs(c);
/* XXX assign special inputs: gl_FrontFacing (VARYING_SLOT_FACE)
* this is part of RGROUP_INTERNAL
*/
/* assign inputs: last usage of input should be <= first usage of temp */
/* potential optimization case:
* if single MOV TEMP[y], IN[x] before which temp y is not used, and
* after which IN[x]
* is not read, temp[y] can be used as input register as-is
*/
/* sort temporaries by first use
* sort inputs by last usage
* iterate over inputs, temporaries
* if last usage of input <= first usage of temp:
* assign input to temp
* advance input, temporary pointer
* else
* advance temporary pointer
*
* potential problem: instruction with multiple inputs of which one is the
* temp and the other is the input;
* however, as the temp is not used before this, how would this make
* sense? uninitialized temporaries have an undefined
* value, so this would be ok
*/
assign_inouts_to_temporaries(c, TGSI_FILE_INPUT);
/* assign outputs: first usage of output should be >= last usage of temp */
/* potential optimization case:
* if single MOV OUT[x], TEMP[y] (with full write mask, or at least
* writing all components that are used in
* the shader) after which temp y is no longer used temp[y] can be
* used as output register as-is
*
* potential problem: instruction with multiple outputs of which one is the
* temp and the other is the output;
* however, as the temp is not used after this, how would this make
* sense? could just discard the output value
*/
/* sort temporaries by last use
* sort outputs by first usage
* iterate over outputs, temporaries
* if first usage of output >= last usage of temp:
* assign output to temp
* advance output, temporary pointer
* else
* advance temporary pointer
*/
assign_inouts_to_temporaries(c, TGSI_FILE_OUTPUT);
assign_constants_and_immediates(c);
assign_texture_units(c);
/* list declarations */
for (int x = 0; x < c->total_decls; ++x) {
DBG_F(ETNA_DBG_COMPILER_MSGS, "%i: %s,%d active=%i first_use=%i "
"last_use=%i native=%i usage_mask=%x "
"has_semantic=%i",
x, tgsi_file_name(c->decl[x].file), c->decl[x].idx,
c->decl[x].active, c->decl[x].first_use, c->decl[x].last_use,
c->decl[x].native.valid ? c->decl[x].native.id : -1,
c->decl[x].usage_mask, c->decl[x].has_semantic);
if (c->decl[x].has_semantic)
DBG_F(ETNA_DBG_COMPILER_MSGS, " semantic_name=%s semantic_idx=%i",
tgsi_semantic_names[c->decl[x].semantic.Name],
c->decl[x].semantic.Index);
}
/* XXX for PS we need to permute so that inputs are always in temporary
* 0..N-1.
* There is no "switchboard" for varyings (AFAIK!). The output color,
* however, can be routed
* from an arbitrary temporary.
*/
if (c->info.processor == PIPE_SHADER_FRAGMENT)
permute_ps_inputs(c);
/* list declarations */
for (int x = 0; x < c->total_decls; ++x) {
DBG_F(ETNA_DBG_COMPILER_MSGS, "%i: %s,%d active=%i first_use=%i "
"last_use=%i native=%i usage_mask=%x "
"has_semantic=%i",
x, tgsi_file_name(c->decl[x].file), c->decl[x].idx,
c->decl[x].active, c->decl[x].first_use, c->decl[x].last_use,
c->decl[x].native.valid ? c->decl[x].native.id : -1,
c->decl[x].usage_mask, c->decl[x].has_semantic);
if (c->decl[x].has_semantic)
DBG_F(ETNA_DBG_COMPILER_MSGS, " semantic_name=%s semantic_idx=%i",
tgsi_semantic_names[c->decl[x].semantic.Name],
c->decl[x].semantic.Index);
}
/* pass 3: generate instructions */
etna_compile_pass_generate_code(c);
etna_compile_add_z_div_if_needed(c);
etna_compile_add_nop_if_needed(c);
etna_compile_fill_in_labels(c);
ret = etna_compile_check_limits(c);
if (!ret) {
FREE(shader);
shader = NULL;
goto out;
}
/* fill in output structure */
shader->processor = c->info.processor;
shader->code_size = c->inst_ptr * 4;
shader->code = mem_dup(c->code, c->inst_ptr * 16);
shader->num_temps = c->next_free_native;
shader->vs_pos_out_reg = -1;
shader->vs_pointsize_out_reg = -1;
shader->ps_color_out_reg = -1;
shader->ps_depth_out_reg = -1;
copy_uniform_state_to_shader(c, shader);
if (c->info.processor == PIPE_SHADER_VERTEX) {
fill_in_vs_inputs(shader, c);
fill_in_vs_outputs(shader, c);
} else if (c->info.processor == PIPE_SHADER_FRAGMENT) {
fill_in_ps_inputs(shader, c);
fill_in_ps_outputs(shader, c);
}
out:
if (c->free_tokens)
FREE((void *)c->tokens);
FREE(c->labels);
FREE(c);
return shader;
}
extern const char *tgsi_swizzle_names[];
void
etna_dump_shader(const struct etna_shader *shader)
{
if (shader->processor == PIPE_SHADER_VERTEX)
printf("VERT\n");
else
printf("FRAG\n");
etna_disasm(shader->code, shader->code_size, PRINT_RAW);
printf("num temps: %i\n", shader->num_temps);
printf("num const: %i\n", shader->uniforms.const_count);
printf("immediates:\n");
for (int idx = 0; idx < shader->uniforms.imm_count; ++idx) {
printf(" [%i].%s = %f (0x%08x)\n",
(idx + shader->uniforms.const_count) / 4,
tgsi_swizzle_names[idx % 4],
*((float *)&shader->uniforms.imm_data[idx]),
shader->uniforms.imm_data[idx]);
}
printf("inputs:\n");
for (int idx = 0; idx < shader->infile.num_reg; ++idx) {
printf(" [%i] name=%s index=%i comps=%i\n", shader->infile.reg[idx].reg,
tgsi_semantic_names[shader->infile.reg[idx].semantic.Name],
shader->infile.reg[idx].semantic.Index,
shader->infile.reg[idx].num_components);
}
printf("outputs:\n");
for (int idx = 0; idx < shader->outfile.num_reg; ++idx) {
printf(" [%i] name=%s index=%i comps=%i\n", shader->outfile.reg[idx].reg,
tgsi_semantic_names[shader->outfile.reg[idx].semantic.Name],
shader->outfile.reg[idx].semantic.Index,
shader->outfile.reg[idx].num_components);
}
printf("special:\n");
if (shader->processor == PIPE_SHADER_VERTEX) {
printf(" vs_pos_out_reg=%i\n", shader->vs_pos_out_reg);
printf(" vs_pointsize_out_reg=%i\n", shader->vs_pointsize_out_reg);
printf(" vs_load_balancing=0x%08x\n", shader->vs_load_balancing);
} else {
printf(" ps_color_out_reg=%i\n", shader->ps_color_out_reg);
printf(" ps_depth_out_reg=%i\n", shader->ps_depth_out_reg);
}
printf(" input_count_unk8=0x%08x\n", shader->input_count_unk8);
}
void
etna_destroy_shader(struct etna_shader *shader)
{
assert(shader);
FREE(shader->code);
FREE(shader->uniforms.imm_data);
FREE(shader->uniforms.imm_contents);
FREE(shader->output_per_semantic_list);
FREE(shader);
}
static const struct etna_shader_inout *
etna_shader_vs_lookup(const struct etna_shader *sobj,
const struct etna_shader_inout *in)
{
if (in->semantic.Index < sobj->output_count_per_semantic[in->semantic.Name])
return sobj->output_per_semantic[in->semantic.Name][in->semantic.Index];
return NULL;
}
bool
etna_link_shader(struct etna_shader_link_info *info,
const struct etna_shader *vs, const struct etna_shader *fs)
{
/* For each fragment input we need to find the associated vertex shader
* output, which can be found by matching on semantic name and index. A
* binary search could be used because the vs outputs are sorted by their
* semantic index and grouped by semantic type by fill_in_vs_outputs.
*/
assert(fs->infile.num_reg < ETNA_NUM_INPUTS);
for (int idx = 0; idx < fs->infile.num_reg; ++idx) {
const struct etna_shader_inout *fsio = &fs->infile.reg[idx];
const struct etna_shader_inout *vsio = etna_shader_vs_lookup(vs, fsio);
struct etna_varying *varying;
assert(fsio->reg > 0 && fsio->reg <= ARRAY_SIZE(info->varyings));
if (fsio->reg > info->num_varyings)
info->num_varyings = fsio->reg;
varying = &info->varyings[fsio->reg - 1];
varying->num_components = fsio->num_components;
if (fsio->semantic.Name == TGSI_SEMANTIC_COLOR) /* colors affected by flat shading */
varying->pa_attributes = 0x200;
else /* texture coord or other bypasses flat shading */
varying->pa_attributes = 0x2f1;
if (fsio->semantic.Name == TGSI_SEMANTIC_PCOORD) {
varying->use[0] = VARYING_COMPONENT_USE_POINTCOORD_X;
varying->use[1] = VARYING_COMPONENT_USE_POINTCOORD_Y;
varying->use[2] = VARYING_COMPONENT_USE_USED;
varying->use[3] = VARYING_COMPONENT_USE_USED;
varying->reg = 0; /* replaced by point coord -- doesn't matter */
continue;
}
if (vsio == NULL)
return true; /* not found -- link error */
varying->use[0] = VARYING_COMPONENT_USE_USED;
varying->use[1] = VARYING_COMPONENT_USE_USED;
varying->use[2] = VARYING_COMPONENT_USE_USED;
varying->use[3] = VARYING_COMPONENT_USE_USED;
varying->reg = vsio->reg;
}
assert(info->num_varyings == fs->infile.num_reg);
return false;
}
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