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/*
* Copyright (C) 2018-2019 Alyssa Rosenzweig <alyssa@rosenzweig.io>
*
* 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.
*/
#include <math.h>
#include "util/bitscan.h"
#include "util/half_float.h"
#include "compiler.h"
#include "helpers.h"
#include "midgard_ops.h"
/* Pretty printer for Midgard IR, for use debugging compiler-internal
* passes like register allocation. The output superficially resembles
* Midgard assembly, with the exception that unit information and such is
* (normally) omitted, and generic indices are usually used instead of
* registers */
static void
mir_print_index(int source)
{
if (source == ~0) {
printf("_");
return;
}
if (source >= SSA_FIXED_MINIMUM) {
/* Specific register */
int reg = SSA_REG_FROM_FIXED(source);
/* TODO: Moving threshold */
if (reg > 16 && reg < 24)
printf("u%d", 23 - reg);
else
printf("r%d", reg);
} else {
printf("%d", source);
}
}
static const char components[16] = "xyzwefghijklmnop";
static void
mir_print_mask(unsigned mask)
{
printf(".");
for (unsigned i = 0; i < 16; ++i) {
if (mask & (1 << i))
putchar(components[i]);
}
}
static void
mir_print_swizzle(unsigned *swizzle)
{
printf(".");
for (unsigned i = 0; i < 16; ++i)
putchar(components[swizzle[i]]);
}
static const char *
mir_get_unit(unsigned unit)
{
switch (unit) {
case ALU_ENAB_VEC_MUL:
return "vmul";
case ALU_ENAB_SCAL_ADD:
return "sadd";
case ALU_ENAB_VEC_ADD:
return "vadd";
case ALU_ENAB_SCAL_MUL:
return "smul";
case ALU_ENAB_VEC_LUT:
return "lut";
case ALU_ENAB_BR_COMPACT:
return "br";
case ALU_ENAB_BRANCH:
return "brx";
default:
return "???";
}
}
void
mir_print_constant_component(FILE *fp, const midgard_constants *consts, unsigned c,
midgard_reg_mode reg_mode, bool half,
unsigned mod, midgard_alu_op op)
{
bool is_sint = false, is_uint = false, is_hex = false;
const char *opname = alu_opcode_props[op].name;
/* Add a sentinel name to prevent crashing */
if (!opname)
opname = "unknown";
if (opname[0] == 'u') {
/* If the opcode starts with a 'u' we are sure we deal with an
* unsigned int operation
*/
is_uint = true;
} else if (opname[0] == 'i') {
/* Bit ops are easier to follow when the constant is printed in
* hexadecimal. Other operations starting with a 'i' are
* considered to operate on signed integers. That might not
* be true for all of them, but it's good enough for traces.
*/
if (op >= midgard_alu_op_iand &&
op <= midgard_alu_op_ibitcount8)
is_hex = true;
else
is_sint = true;
}
if (half)
reg_mode--;
switch (reg_mode) {
case midgard_reg_mode_64:
if (is_sint) {
printf("%"PRIi64, consts->i64[c]);
} else if (is_uint) {
printf("%"PRIu64, consts->u64[c]);
} else if (is_hex) {
printf("0x%"PRIX64, consts->u64[c]);
} else {
double v = consts->f64[c];
if (mod & MIDGARD_FLOAT_MOD_ABS) v = fabs(v);
if (mod & MIDGARD_FLOAT_MOD_NEG) v = -v;
printf("%g", v);
}
break;
case midgard_reg_mode_32:
if (is_sint) {
int64_t v;
if (half && mod == midgard_int_zero_extend)
v = consts->u32[c];
else if (half && mod == midgard_int_shift)
v = (uint64_t)consts->u32[c] << 32;
else
v = consts->i32[c];
printf("%"PRIi64, v);
} else if (is_uint || is_hex) {
uint64_t v;
if (half && mod == midgard_int_shift)
v = (uint64_t)consts->u32[c] << 32;
else
v = consts->u32[c];
printf(is_uint ? "%"PRIu64 : "0x%"PRIX64, v);
} else {
float v = consts->f32[c];
if (mod & MIDGARD_FLOAT_MOD_ABS) v = fabsf(v);
if (mod & MIDGARD_FLOAT_MOD_NEG) v = -v;
printf("%g", v);
}
break;
case midgard_reg_mode_16:
if (is_sint) {
int32_t v;
if (half && mod == midgard_int_zero_extend)
v = consts->u16[c];
else if (half && mod == midgard_int_shift)
v = (uint32_t)consts->u16[c] << 16;
else
v = consts->i16[c];
printf("%d", v);
} else if (is_uint || is_hex) {
uint32_t v;
if (half && mod == midgard_int_shift)
v = (uint32_t)consts->u16[c] << 16;
else
v = consts->u16[c];
printf(is_uint ? "%u" : "0x%X", v);
} else {
float v = _mesa_half_to_float(consts->f16[c]);
if (mod & MIDGARD_FLOAT_MOD_ABS) v = fabsf(v);
if (mod & MIDGARD_FLOAT_MOD_NEG) v = -v;
printf("%g", v);
}
break;
case midgard_reg_mode_8:
unreachable("XXX TODO: sort out how 8-bit constant encoding works");
break;
}
}
static void
mir_print_embedded_constant(midgard_instruction *ins, unsigned src_idx)
{
unsigned type_size = mir_bytes_for_mode(ins->alu.reg_mode);
midgard_vector_alu_src src;
assert(src_idx <= 1);
if (src_idx == 0)
src = vector_alu_from_unsigned(ins->alu.src1);
else
src = vector_alu_from_unsigned(ins->alu.src2);
unsigned *swizzle = ins->swizzle[src_idx];
unsigned comp_mask = effective_writemask(&ins->alu, ins->mask);
unsigned num_comp = util_bitcount(comp_mask);
unsigned max_comp = 16 / type_size;
bool first = true;
printf("#");
if (num_comp > 1)
printf("vec%d(", num_comp);
for (unsigned comp = 0; comp < max_comp; comp++) {
if (!(comp_mask & (1 << comp)))
continue;
if (first)
first = false;
else
printf(", ");
mir_print_constant_component(stdout, &ins->constants,
swizzle[comp], ins->alu.reg_mode,
src.half, src.mod, ins->alu.op);
}
if (num_comp > 1)
printf(")");
}
void
mir_print_instruction(midgard_instruction *ins)
{
printf("\t");
if (midgard_is_branch_unit(ins->unit)) {
const char *branch_target_names[] = {
"goto", "break", "continue", "discard"
};
printf("%s.", mir_get_unit(ins->unit));
if (ins->branch.target_type == TARGET_DISCARD)
printf("discard.");
else if (ins->writeout)
printf("write.");
else if (ins->unit == ALU_ENAB_BR_COMPACT &&
!ins->branch.conditional)
printf("uncond.");
else
printf("cond.");
if (!ins->branch.conditional)
printf("always");
else if (ins->branch.invert_conditional)
printf("false");
else
printf("true");
if (ins->branch.target_type != TARGET_DISCARD)
printf(" %s -> block(%d)\n",
branch_target_names[ins->branch.target_type],
ins->branch.target_block);
return;
}
switch (ins->type) {
case TAG_ALU_4: {
midgard_alu_op op = ins->alu.op;
const char *name = alu_opcode_props[op].name;
if (ins->unit)
printf("%s.", mir_get_unit(ins->unit));
printf("%s", name ? name : "??");
break;
}
case TAG_LOAD_STORE_4: {
midgard_load_store_op op = ins->load_store.op;
const char *name = load_store_opcode_props[op].name;
assert(name);
printf("%s", name);
break;
}
case TAG_TEXTURE_4: {
printf("texture");
break;
}
default:
assert(0);
}
if (ins->invert || (ins->compact_branch && ins->branch.invert_conditional))
printf(".not");
printf(" ");
mir_print_index(ins->dest);
if (ins->mask != 0xF)
mir_print_mask(ins->mask);
printf(", ");
unsigned r_constant = SSA_FIXED_REGISTER(REGISTER_CONSTANT);
if (ins->src[0] == r_constant)
mir_print_embedded_constant(ins, 0);
else {
mir_print_index(ins->src[0]);
mir_print_swizzle(ins->swizzle[0]);
}
printf(", ");
if (ins->has_inline_constant)
printf("#%d", ins->inline_constant);
else if (ins->src[1] == r_constant)
mir_print_embedded_constant(ins, 1);
else {
mir_print_index(ins->src[1]);
mir_print_swizzle(ins->swizzle[1]);
}
printf(", ");
mir_print_index(ins->src[2]);
mir_print_swizzle(ins->swizzle[2]);
printf(", ");
mir_print_index(ins->src[3]);
mir_print_swizzle(ins->swizzle[3]);
if (ins->no_spill)
printf(" /* no spill */");
printf("\n");
}
/* Dumps MIR for a block or entire shader respective */
void
mir_print_block(midgard_block *block)
{
printf("block%u: {\n", block->source_id);
if (block->is_scheduled) {
mir_foreach_bundle_in_block(block, bundle) {
for (unsigned i = 0; i < bundle->instruction_count; ++i)
mir_print_instruction(bundle->instructions[i]);
printf("\n");
}
} else {
mir_foreach_instr_in_block(block, ins) {
mir_print_instruction(ins);
}
}
printf("}");
if (block->nr_successors) {
printf(" -> ");
for (unsigned i = 0; i < block->nr_successors; ++i) {
printf("block%u%s", block->successors[i]->source_id,
(i + 1) != block->nr_successors ? ", " : "");
}
}
printf(" from { ");
mir_foreach_predecessor(block, pred)
printf("block%u ", pred->source_id);
printf("}");
printf("\n\n");
}
void
mir_print_shader(compiler_context *ctx)
{
mir_foreach_block(ctx, block) {
mir_print_block(block);
}
}
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