/* * Copyright © 2018 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. */ #include #include "nir.h" #include "nir_builder.h" namespace { class nir_vars_test : public ::testing::Test { protected: nir_vars_test(); ~nir_vars_test(); nir_variable *create_var(nir_variable_mode mode, const glsl_type *type, const char *name) { if (mode == nir_var_function_temp) return nir_local_variable_create(b->impl, type, name); else return nir_variable_create(b->shader, mode, type, name); } nir_variable *create_int(nir_variable_mode mode, const char *name) { return create_var(mode, glsl_int_type(), name); } nir_variable *create_ivec2(nir_variable_mode mode, const char *name) { return create_var(mode, glsl_vector_type(GLSL_TYPE_INT, 2), name); } nir_variable *create_ivec4(nir_variable_mode mode, const char *name) { return create_var(mode, glsl_vector_type(GLSL_TYPE_INT, 4), name); } nir_variable **create_many_int(nir_variable_mode mode, const char *prefix, unsigned count) { nir_variable **result = (nir_variable **)linear_alloc_child(lin_ctx, sizeof(nir_variable *) * count); for (unsigned i = 0; i < count; i++) result[i] = create_int(mode, linear_asprintf(lin_ctx, "%s%u", prefix, i)); return result; } nir_variable **create_many_ivec2(nir_variable_mode mode, const char *prefix, unsigned count) { nir_variable **result = (nir_variable **)linear_alloc_child(lin_ctx, sizeof(nir_variable *) * count); for (unsigned i = 0; i < count; i++) result[i] = create_ivec2(mode, linear_asprintf(lin_ctx, "%s%u", prefix, i)); return result; } nir_variable **create_many_ivec4(nir_variable_mode mode, const char *prefix, unsigned count) { nir_variable **result = (nir_variable **)linear_alloc_child(lin_ctx, sizeof(nir_variable *) * count); for (unsigned i = 0; i < count; i++) result[i] = create_ivec4(mode, linear_asprintf(lin_ctx, "%s%u", prefix, i)); return result; } unsigned count_derefs(nir_deref_type deref_type); unsigned count_intrinsics(nir_intrinsic_op intrinsic); unsigned count_function_temp_vars(void) { return exec_list_length(&b->impl->locals); } unsigned count_shader_temp_vars(void) { return exec_list_length(&b->shader->globals); } nir_intrinsic_instr *get_intrinsic(nir_intrinsic_op intrinsic, unsigned index); nir_deref_instr *get_deref(nir_deref_type deref_type, unsigned index); void *mem_ctx; void *lin_ctx; nir_builder *b; }; nir_vars_test::nir_vars_test() { glsl_type_singleton_init_or_ref(); mem_ctx = ralloc_context(NULL); lin_ctx = linear_alloc_parent(mem_ctx, 0); static const nir_shader_compiler_options options = { }; b = rzalloc(mem_ctx, nir_builder); nir_builder_init_simple_shader(b, mem_ctx, MESA_SHADER_COMPUTE, &options); } nir_vars_test::~nir_vars_test() { if (HasFailure()) { printf("\nShader from the failed test:\n\n"); nir_print_shader(b->shader, stdout); } ralloc_free(mem_ctx); glsl_type_singleton_decref(); } unsigned nir_vars_test::count_intrinsics(nir_intrinsic_op intrinsic) { unsigned count = 0; nir_foreach_block(block, b->impl) { nir_foreach_instr(instr, block) { if (instr->type != nir_instr_type_intrinsic) continue; nir_intrinsic_instr *intrin = nir_instr_as_intrinsic(instr); if (intrin->intrinsic == intrinsic) count++; } } return count; } unsigned nir_vars_test::count_derefs(nir_deref_type deref_type) { unsigned count = 0; nir_foreach_block(block, b->impl) { nir_foreach_instr(instr, block) { if (instr->type != nir_instr_type_deref) continue; nir_deref_instr *intrin = nir_instr_as_deref(instr); if (intrin->deref_type == deref_type) count++; } } return count; } nir_intrinsic_instr * nir_vars_test::get_intrinsic(nir_intrinsic_op intrinsic, unsigned index) { nir_foreach_block(block, b->impl) { nir_foreach_instr(instr, block) { if (instr->type != nir_instr_type_intrinsic) continue; nir_intrinsic_instr *intrin = nir_instr_as_intrinsic(instr); if (intrin->intrinsic == intrinsic) { if (index == 0) return intrin; index--; } } } return NULL; } nir_deref_instr * nir_vars_test::get_deref(nir_deref_type deref_type, unsigned index) { nir_foreach_block(block, b->impl) { nir_foreach_instr(instr, block) { if (instr->type != nir_instr_type_deref) continue; nir_deref_instr *deref = nir_instr_as_deref(instr); if (deref->deref_type == deref_type) { if (index == 0) return deref; index--; } } } return NULL; } /* Allow grouping the tests while still sharing the helpers. */ class nir_redundant_load_vars_test : public nir_vars_test {}; class nir_copy_prop_vars_test : public nir_vars_test {}; class nir_dead_write_vars_test : public nir_vars_test {}; class nir_combine_stores_test : public nir_vars_test {}; class nir_split_vars_test : public nir_vars_test {}; } // namespace TEST_F(nir_redundant_load_vars_test, duplicated_load) { /* Load a variable twice in the same block. One should be removed. */ nir_variable *in = create_int(nir_var_shader_in, "in"); nir_variable **out = create_many_int(nir_var_shader_out, "out", 2); nir_store_var(b, out[0], nir_load_var(b, in), 1); nir_store_var(b, out[1], nir_load_var(b, in), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 1); } TEST_F(nir_redundant_load_vars_test, duplicated_load_in_two_blocks) { /* Load a variable twice in different blocks. One should be removed. */ nir_variable *in = create_int(nir_var_shader_in, "in"); nir_variable **out = create_many_int(nir_var_shader_out, "out", 2); nir_store_var(b, out[0], nir_load_var(b, in), 1); /* Forces the stores to be in different blocks. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_store_var(b, out[1], nir_load_var(b, in), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 1); } TEST_F(nir_redundant_load_vars_test, invalidate_inside_if_block) { /* Load variables, then write to some of then in different branches of the * if statement. They should be invalidated accordingly. */ nir_variable **g = create_many_int(nir_var_shader_temp, "g", 3); nir_variable **out = create_many_int(nir_var_shader_out, "out", 3); nir_load_var(b, g[0]); nir_load_var(b, g[1]); nir_load_var(b, g[2]); nir_if *if_stmt = nir_push_if(b, nir_imm_int(b, 0)); nir_store_var(b, g[0], nir_imm_int(b, 10), 1); nir_push_else(b, if_stmt); nir_store_var(b, g[1], nir_imm_int(b, 20), 1); nir_pop_if(b, if_stmt); nir_store_var(b, out[0], nir_load_var(b, g[0]), 1); nir_store_var(b, out[1], nir_load_var(b, g[1]), 1); nir_store_var(b, out[2], nir_load_var(b, g[2]), 1); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); /* There are 3 initial loads, plus 2 loads for the values invalidated * inside the if statement. */ ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 5); /* We only load g[2] once. */ unsigned g2_load_count = 0; for (int i = 0; i < 5; i++) { nir_intrinsic_instr *load = get_intrinsic(nir_intrinsic_load_deref, i); if (nir_intrinsic_get_var(load, 0) == g[2]) g2_load_count++; } EXPECT_EQ(g2_load_count, 1); } TEST_F(nir_redundant_load_vars_test, invalidate_live_load_in_the_end_of_loop) { /* Invalidating a load in the end of loop body will apply to the whole loop * body. */ nir_variable *v = create_int(nir_var_mem_ssbo, "v"); nir_load_var(b, v); nir_loop *loop = nir_push_loop(b); nir_if *if_stmt = nir_push_if(b, nir_imm_int(b, 0)); nir_jump(b, nir_jump_break); nir_pop_if(b, if_stmt); nir_load_var(b, v); nir_store_var(b, v, nir_imm_int(b, 10), 1); nir_pop_loop(b, loop); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); } TEST_F(nir_copy_prop_vars_test, simple_copies) { nir_variable *in = create_int(nir_var_shader_in, "in"); nir_variable *temp = create_int(nir_var_function_temp, "temp"); nir_variable *out = create_int(nir_var_shader_out, "out"); nir_copy_var(b, temp, in); nir_copy_var(b, out, temp); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_copy_deref), 2); nir_intrinsic_instr *first_copy = get_intrinsic(nir_intrinsic_copy_deref, 0); ASSERT_TRUE(first_copy->src[1].is_ssa); nir_intrinsic_instr *second_copy = get_intrinsic(nir_intrinsic_copy_deref, 1); ASSERT_TRUE(second_copy->src[1].is_ssa); EXPECT_EQ(first_copy->src[1].ssa, second_copy->src[1].ssa); } TEST_F(nir_copy_prop_vars_test, simple_store_load) { nir_variable **v = create_many_ivec2(nir_var_function_temp, "v", 2); unsigned mask = 1 | 2; nir_ssa_def *stored_value = nir_imm_ivec2(b, 10, 20); nir_store_var(b, v[0], stored_value, mask); nir_ssa_def *read_value = nir_load_var(b, v[0]); nir_store_var(b, v[1], read_value, mask); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); for (int i = 0; i < 2; i++) { nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, i); ASSERT_TRUE(store->src[1].is_ssa); EXPECT_EQ(store->src[1].ssa, stored_value); } } TEST_F(nir_copy_prop_vars_test, store_store_load) { nir_variable **v = create_many_ivec2(nir_var_function_temp, "v", 2); unsigned mask = 1 | 2; nir_ssa_def *first_value = nir_imm_ivec2(b, 10, 20); nir_store_var(b, v[0], first_value, mask); nir_ssa_def *second_value = nir_imm_ivec2(b, 30, 40); nir_store_var(b, v[0], second_value, mask); nir_ssa_def *read_value = nir_load_var(b, v[0]); nir_store_var(b, v[1], read_value, mask); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); /* Store to v[1] should use second_value directly. */ nir_intrinsic_instr *store_to_v1 = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(store_to_v1, 0), v[1]); ASSERT_TRUE(store_to_v1->src[1].is_ssa); EXPECT_EQ(store_to_v1->src[1].ssa, second_value); } TEST_F(nir_copy_prop_vars_test, store_store_load_different_components) { nir_variable **v = create_many_ivec2(nir_var_function_temp, "v", 2); nir_ssa_def *first_value = nir_imm_ivec2(b, 10, 20); nir_store_var(b, v[0], first_value, 1 << 1); nir_ssa_def *second_value = nir_imm_ivec2(b, 30, 40); nir_store_var(b, v[0], second_value, 1 << 0); nir_ssa_def *read_value = nir_load_var(b, v[0]); nir_store_var(b, v[1], read_value, 1 << 1); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); nir_opt_constant_folding(b->shader); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); /* Store to v[1] should use first_value directly. The write of * second_value did not overwrite the component it uses. */ nir_intrinsic_instr *store_to_v1 = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(store_to_v1, 0), v[1]); ASSERT_EQ(nir_src_comp_as_uint(store_to_v1->src[1], 1), 20); } TEST_F(nir_copy_prop_vars_test, store_store_load_different_components_in_many_blocks) { nir_variable **v = create_many_ivec2(nir_var_function_temp, "v", 2); nir_ssa_def *first_value = nir_imm_ivec2(b, 10, 20); nir_store_var(b, v[0], first_value, 1 << 1); /* Adding an if statement will cause blocks to be created. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_ssa_def *second_value = nir_imm_ivec2(b, 30, 40); nir_store_var(b, v[0], second_value, 1 << 0); /* Adding an if statement will cause blocks to be created. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_ssa_def *read_value = nir_load_var(b, v[0]); nir_store_var(b, v[1], read_value, 1 << 1); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); nir_opt_constant_folding(b->shader); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); /* Store to v[1] should use first_value directly. The write of * second_value did not overwrite the component it uses. */ nir_intrinsic_instr *store_to_v1 = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(store_to_v1, 0), v[1]); ASSERT_EQ(nir_src_comp_as_uint(store_to_v1->src[1], 1), 20); } TEST_F(nir_copy_prop_vars_test, memory_barrier_in_two_blocks) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 4); nir_store_var(b, v[0], nir_imm_int(b, 1), 1); nir_store_var(b, v[1], nir_imm_int(b, 2), 1); /* Split into many blocks. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_store_var(b, v[2], nir_load_var(b, v[0]), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQ_REL, nir_var_mem_ssbo); nir_store_var(b, v[3], nir_load_var(b, v[1]), 1); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); /* Only the second load will remain after the optimization. */ ASSERT_EQ(1, count_intrinsics(nir_intrinsic_load_deref)); nir_intrinsic_instr *load = get_intrinsic(nir_intrinsic_load_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(load, 0), v[1]); } TEST_F(nir_redundant_load_vars_test, acquire_barrier_prevents_load_removal) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 1); nir_load_var(b, x[0]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_load_var(b, x[0]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_redundant_load_vars_test, acquire_barrier_prevents_same_mode_load_removal) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); ASSERT_EQ(4, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_redundant_load_vars_test, acquire_barrier_allows_different_mode_load_removal) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_variable **y = create_many_int(nir_var_mem_shared, "y", 2); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_load_var(b, y[0]); nir_load_var(b, y[1]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_load_var(b, y[0]); nir_load_var(b, y[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(6, count_intrinsics(nir_intrinsic_load_deref)); nir_intrinsic_instr *load; load = get_intrinsic(nir_intrinsic_load_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[0]); load = get_intrinsic(nir_intrinsic_load_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[1]); load = get_intrinsic(nir_intrinsic_load_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(load, 0), y[0]); load = get_intrinsic(nir_intrinsic_load_deref, 3); ASSERT_EQ(nir_intrinsic_get_var(load, 0), y[1]); load = get_intrinsic(nir_intrinsic_load_deref, 4); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[0]); load = get_intrinsic(nir_intrinsic_load_deref, 5); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[1]); } TEST_F(nir_redundant_load_vars_test, release_barrier_allows_load_removal) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 1); nir_load_var(b, x[0]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_load_var(b, x[0]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(1, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_redundant_load_vars_test, release_barrier_allows_same_mode_load_removal) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_redundant_load_vars_test, release_barrier_allows_different_mode_load_removal) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_variable **y = create_many_int(nir_var_mem_shared, "y", 2); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_load_var(b, y[0]); nir_load_var(b, y[1]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_load_var(b, y[0]); nir_load_var(b, y[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(4, count_intrinsics(nir_intrinsic_load_deref)); nir_intrinsic_instr *load; load = get_intrinsic(nir_intrinsic_load_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[0]); load = get_intrinsic(nir_intrinsic_load_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[1]); load = get_intrinsic(nir_intrinsic_load_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(load, 0), y[0]); load = get_intrinsic(nir_intrinsic_load_deref, 3); ASSERT_EQ(nir_intrinsic_get_var(load, 0), y[1]); } TEST_F(nir_copy_prop_vars_test, acquire_barrier_prevents_propagation) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 1); nir_store_var(b, x[0], nir_imm_int(b, 10), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_load_var(b, x[0]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); ASSERT_EQ(1, count_intrinsics(nir_intrinsic_store_deref)); ASSERT_EQ(1, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_copy_prop_vars_test, acquire_barrier_prevents_same_mode_propagation) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_store_var(b, x[0], nir_imm_int(b, 10), 1); nir_store_var(b, x[1], nir_imm_int(b, 20), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_store_deref)); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_copy_prop_vars_test, acquire_barrier_allows_different_mode_propagation) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_variable **y = create_many_int(nir_var_mem_shared, "y", 2); nir_store_var(b, x[0], nir_imm_int(b, 10), 1); nir_store_var(b, x[1], nir_imm_int(b, 20), 1); nir_store_var(b, y[0], nir_imm_int(b, 30), 1); nir_store_var(b, y[1], nir_imm_int(b, 40), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_load_var(b, y[0]); nir_load_var(b, y[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(4, count_intrinsics(nir_intrinsic_store_deref)); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_load_deref)); nir_intrinsic_instr *store; store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(store, 0), x[0]); store = get_intrinsic(nir_intrinsic_store_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(store, 0), x[1]); store = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(store, 0), y[0]); store = get_intrinsic(nir_intrinsic_store_deref, 3); ASSERT_EQ(nir_intrinsic_get_var(store, 0), y[1]); nir_intrinsic_instr *load; load = get_intrinsic(nir_intrinsic_load_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[0]); load = get_intrinsic(nir_intrinsic_load_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(load, 0), x[1]); } TEST_F(nir_copy_prop_vars_test, release_barrier_allows_propagation) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 1); nir_store_var(b, x[0], nir_imm_int(b, 10), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_load_var(b, x[0]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(1, count_intrinsics(nir_intrinsic_store_deref)); } TEST_F(nir_copy_prop_vars_test, release_barrier_allows_same_mode_propagation) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_store_var(b, x[0], nir_imm_int(b, 10), 1); nir_store_var(b, x[1], nir_imm_int(b, 20), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_store_deref)); ASSERT_EQ(0, count_intrinsics(nir_intrinsic_load_deref)); } TEST_F(nir_copy_prop_vars_test, release_barrier_allows_different_mode_propagation) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_variable **y = create_many_int(nir_var_mem_shared, "y", 2); nir_store_var(b, x[0], nir_imm_int(b, 10), 1); nir_store_var(b, x[1], nir_imm_int(b, 20), 1); nir_store_var(b, y[0], nir_imm_int(b, 30), 1); nir_store_var(b, y[1], nir_imm_int(b, 40), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_load_var(b, x[0]); nir_load_var(b, x[1]); nir_load_var(b, y[0]); nir_load_var(b, y[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(4, count_intrinsics(nir_intrinsic_store_deref)); ASSERT_EQ(0, count_intrinsics(nir_intrinsic_load_deref)); nir_intrinsic_instr *store; store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(store, 0), x[0]); store = get_intrinsic(nir_intrinsic_store_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(store, 0), x[1]); store = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_EQ(nir_intrinsic_get_var(store, 0), y[0]); store = get_intrinsic(nir_intrinsic_store_deref, 3); ASSERT_EQ(nir_intrinsic_get_var(store, 0), y[1]); } TEST_F(nir_copy_prop_vars_test, acquire_barrier_prevents_propagation_from_copy) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 3); nir_copy_var(b, x[1], x[0]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_copy_var(b, x[2], x[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_copy_deref)); nir_intrinsic_instr *copy; copy = get_intrinsic(nir_intrinsic_copy_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[0]); copy = get_intrinsic(nir_intrinsic_copy_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[1]); } TEST_F(nir_copy_prop_vars_test, acquire_barrier_prevents_propagation_from_copy_to_different_mode) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_variable **y = create_many_int(nir_var_mem_shared, "y", 1); nir_copy_var(b, y[0], x[0]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQUIRE, nir_var_mem_ssbo); nir_copy_var(b, x[1], y[0]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_FALSE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_copy_deref)); nir_intrinsic_instr *copy; copy = get_intrinsic(nir_intrinsic_copy_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[0]); copy = get_intrinsic(nir_intrinsic_copy_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), y[0]); } TEST_F(nir_copy_prop_vars_test, release_barrier_allows_propagation_from_copy) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 3); nir_copy_var(b, x[1], x[0]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_copy_var(b, x[2], x[1]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_copy_deref)); nir_intrinsic_instr *copy; copy = get_intrinsic(nir_intrinsic_copy_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[0]); copy = get_intrinsic(nir_intrinsic_copy_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[0]); } TEST_F(nir_copy_prop_vars_test, release_barrier_allows_propagation_from_copy_to_different_mode) { nir_variable **x = create_many_int(nir_var_mem_ssbo, "x", 2); nir_variable **y = create_many_int(nir_var_mem_shared, "y", 1); nir_copy_var(b, y[0], x[0]); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_RELEASE, nir_var_mem_ssbo); nir_copy_var(b, x[1], y[0]); bool progress = nir_opt_copy_prop_vars(b->shader); ASSERT_TRUE(progress); ASSERT_EQ(2, count_intrinsics(nir_intrinsic_copy_deref)); nir_intrinsic_instr *copy; copy = get_intrinsic(nir_intrinsic_copy_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[0]); copy = get_intrinsic(nir_intrinsic_copy_deref, 1); ASSERT_EQ(nir_intrinsic_get_var(copy, 1), x[0]); } TEST_F(nir_copy_prop_vars_test, simple_store_load_in_two_blocks) { nir_variable **v = create_many_ivec2(nir_var_function_temp, "v", 2); unsigned mask = 1 | 2; nir_ssa_def *stored_value = nir_imm_ivec2(b, 10, 20); nir_store_var(b, v[0], stored_value, mask); /* Adding an if statement will cause blocks to be created. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_ssa_def *read_value = nir_load_var(b, v[0]); nir_store_var(b, v[1], read_value, mask); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); for (int i = 0; i < 2; i++) { nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, i); ASSERT_TRUE(store->src[1].is_ssa); EXPECT_EQ(store->src[1].ssa, stored_value); } } TEST_F(nir_copy_prop_vars_test, load_direct_array_deref_on_vector_reuses_previous_load) { nir_variable *in0 = create_ivec2(nir_var_mem_ssbo, "in0"); nir_variable *in1 = create_ivec2(nir_var_mem_ssbo, "in1"); nir_variable *vec = create_ivec2(nir_var_mem_ssbo, "vec"); nir_variable *out = create_int(nir_var_mem_ssbo, "out"); nir_store_var(b, vec, nir_load_var(b, in0), 1 << 0); nir_store_var(b, vec, nir_load_var(b, in1), 1 << 1); /* This load will be dropped, as vec.y (or vec[1]) is already known. */ nir_deref_instr *deref = nir_build_deref_array_imm(b, nir_build_deref_var(b, vec), 1); nir_ssa_def *loaded_from_deref = nir_load_deref(b, deref); /* This store should use the value loaded from in1. */ nir_store_var(b, out, loaded_from_deref, 1 << 0); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 3); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_TRUE(store->src[1].is_ssa); /* NOTE: The ALU instruction is how we get the vec.y. */ ASSERT_TRUE(nir_src_as_alu_instr(store->src[1])); } TEST_F(nir_copy_prop_vars_test, load_direct_array_deref_on_vector_reuses_previous_copy) { nir_variable *in0 = create_ivec2(nir_var_mem_ssbo, "in0"); nir_variable *vec = create_ivec2(nir_var_mem_ssbo, "vec"); nir_copy_var(b, vec, in0); /* This load will be replaced with one from in0. */ nir_deref_instr *deref = nir_build_deref_array_imm(b, nir_build_deref_var(b, vec), 1); nir_load_deref(b, deref); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 1); nir_intrinsic_instr *load = get_intrinsic(nir_intrinsic_load_deref, 0); ASSERT_EQ(nir_intrinsic_get_var(load, 0), in0); } TEST_F(nir_copy_prop_vars_test, load_direct_array_deref_on_vector_gets_reused) { nir_variable *in0 = create_ivec2(nir_var_mem_ssbo, "in0"); nir_variable *vec = create_ivec2(nir_var_mem_ssbo, "vec"); nir_variable *out = create_ivec2(nir_var_mem_ssbo, "out"); /* Loading "vec[1]" deref will save the information about vec.y. */ nir_deref_instr *deref = nir_build_deref_array_imm(b, nir_build_deref_var(b, vec), 1); nir_load_deref(b, deref); /* Store to vec.x. */ nir_store_var(b, vec, nir_load_var(b, in0), 1 << 0); /* This load will be dropped, since both vec.x and vec.y are known. */ nir_ssa_def *loaded_from_vec = nir_load_var(b, vec); nir_store_var(b, out, loaded_from_vec, 0x3); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 3); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, 1); ASSERT_TRUE(store->src[1].is_ssa); ASSERT_TRUE(nir_src_as_alu_instr(store->src[1])); } TEST_F(nir_copy_prop_vars_test, store_load_direct_array_deref_on_vector) { nir_variable *vec = create_ivec2(nir_var_mem_ssbo, "vec"); nir_variable *out0 = create_int(nir_var_mem_ssbo, "out0"); nir_variable *out1 = create_ivec2(nir_var_mem_ssbo, "out1"); /* Store to "vec[1]" and "vec[0]". */ nir_deref_instr *store_deref_y = nir_build_deref_array_imm(b, nir_build_deref_var(b, vec), 1); nir_store_deref(b, store_deref_y, nir_imm_int(b, 20), 1); nir_deref_instr *store_deref_x = nir_build_deref_array_imm(b, nir_build_deref_var(b, vec), 0); nir_store_deref(b, store_deref_x, nir_imm_int(b, 10), 1); /* Both loads below will be dropped, because the values are already known. */ nir_deref_instr *load_deref_y = nir_build_deref_array_imm(b, nir_build_deref_var(b, vec), 1); nir_store_var(b, out0, nir_load_deref(b, load_deref_y), 1); nir_store_var(b, out1, nir_load_var(b, vec), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 4); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 0); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 4); /* Third store will just use the value from first store. */ nir_intrinsic_instr *first_store = get_intrinsic(nir_intrinsic_store_deref, 0); nir_intrinsic_instr *third_store = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_TRUE(third_store->src[1].is_ssa); EXPECT_EQ(third_store->src[1].ssa, first_store->src[1].ssa); /* Fourth store will compose first and second store values. */ nir_intrinsic_instr *fourth_store = get_intrinsic(nir_intrinsic_store_deref, 3); ASSERT_TRUE(fourth_store->src[1].is_ssa); EXPECT_TRUE(nir_src_as_alu_instr(fourth_store->src[1])); } TEST_F(nir_copy_prop_vars_test, store_load_indirect_array_deref_on_vector) { nir_variable *vec = create_ivec2(nir_var_mem_ssbo, "vec"); nir_variable *idx = create_int(nir_var_mem_ssbo, "idx"); nir_variable *out = create_int(nir_var_mem_ssbo, "out"); nir_ssa_def *idx_ssa = nir_load_var(b, idx); /* Store to vec[idx]. */ nir_deref_instr *store_deref = nir_build_deref_array(b, nir_build_deref_var(b, vec), idx_ssa); nir_store_deref(b, store_deref, nir_imm_int(b, 20), 1); /* Load from vec[idx] to store in out. This load should be dropped. */ nir_deref_instr *load_deref = nir_build_deref_array(b, nir_build_deref_var(b, vec), idx_ssa); nir_store_var(b, out, nir_load_deref(b, load_deref), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 1); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); /* Store to vec[idx] propagated to out. */ nir_intrinsic_instr *first = get_intrinsic(nir_intrinsic_store_deref, 0); nir_intrinsic_instr *second = get_intrinsic(nir_intrinsic_store_deref, 1); ASSERT_TRUE(first->src[1].is_ssa); ASSERT_TRUE(second->src[1].is_ssa); EXPECT_EQ(first->src[1].ssa, second->src[1].ssa); } TEST_F(nir_copy_prop_vars_test, store_load_direct_and_indirect_array_deref_on_vector) { nir_variable *vec = create_ivec2(nir_var_mem_ssbo, "vec"); nir_variable *idx = create_int(nir_var_mem_ssbo, "idx"); nir_variable **out = create_many_int(nir_var_mem_ssbo, "out", 2); nir_ssa_def *idx_ssa = nir_load_var(b, idx); /* Store to vec. */ nir_store_var(b, vec, nir_imm_ivec2(b, 10, 10), 1 | 2); /* Load from vec[idx]. This load is currently not dropped. */ nir_deref_instr *indirect = nir_build_deref_array(b, nir_build_deref_var(b, vec), idx_ssa); nir_store_var(b, out[0], nir_load_deref(b, indirect), 1); /* Load from vec[idx] again. This load should be dropped. */ nir_store_var(b, out[1], nir_load_deref(b, indirect), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 3); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 3); /* Store to vec[idx] propagated to out. */ nir_intrinsic_instr *second = get_intrinsic(nir_intrinsic_store_deref, 1); nir_intrinsic_instr *third = get_intrinsic(nir_intrinsic_store_deref, 2); ASSERT_TRUE(second->src[1].is_ssa); ASSERT_TRUE(third->src[1].is_ssa); EXPECT_EQ(second->src[1].ssa, third->src[1].ssa); } TEST_F(nir_copy_prop_vars_test, store_load_indirect_array_deref) { nir_variable *arr = create_var(nir_var_mem_ssbo, glsl_array_type(glsl_int_type(), 10, 0), "arr"); nir_variable *idx = create_int(nir_var_mem_ssbo, "idx"); nir_variable *out = create_int(nir_var_mem_ssbo, "out"); nir_ssa_def *idx_ssa = nir_load_var(b, idx); /* Store to arr[idx]. */ nir_deref_instr *store_deref = nir_build_deref_array(b, nir_build_deref_var(b, arr), idx_ssa); nir_store_deref(b, store_deref, nir_imm_int(b, 20), 1); /* Load from arr[idx] to store in out. This load should be dropped. */ nir_deref_instr *load_deref = nir_build_deref_array(b, nir_build_deref_var(b, arr), idx_ssa); nir_store_var(b, out, nir_load_deref(b, load_deref), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); bool progress = nir_opt_copy_prop_vars(b->shader); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_intrinsics(nir_intrinsic_load_deref), 1); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 2); /* Store to arr[idx] propagated to out. */ nir_intrinsic_instr *first = get_intrinsic(nir_intrinsic_store_deref, 0); nir_intrinsic_instr *second = get_intrinsic(nir_intrinsic_store_deref, 1); ASSERT_TRUE(first->src[1].is_ssa); ASSERT_TRUE(second->src[1].is_ssa); EXPECT_EQ(first->src[1].ssa, second->src[1].ssa); } TEST_F(nir_dead_write_vars_test, no_dead_writes_in_block) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 2); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_FALSE(progress); } TEST_F(nir_dead_write_vars_test, no_dead_writes_different_components_in_block) { nir_variable **v = create_many_ivec2(nir_var_mem_ssbo, "v", 3); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1 << 0); nir_store_var(b, v[0], nir_load_var(b, v[2]), 1 << 1); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_FALSE(progress); } TEST_F(nir_dead_write_vars_test, no_dead_writes_in_if_statement) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 6); nir_store_var(b, v[2], nir_load_var(b, v[0]), 1); nir_store_var(b, v[3], nir_load_var(b, v[1]), 1); /* Each arm of the if statement will overwrite one store. */ nir_if *if_stmt = nir_push_if(b, nir_imm_int(b, 0)); nir_store_var(b, v[2], nir_load_var(b, v[4]), 1); nir_push_else(b, if_stmt); nir_store_var(b, v[3], nir_load_var(b, v[5]), 1); nir_pop_if(b, if_stmt); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_FALSE(progress); } TEST_F(nir_dead_write_vars_test, no_dead_writes_in_loop_statement) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 3); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1); /* Loop will write other value. Since it might not be executed, it doesn't * kill the first write. */ nir_loop *loop = nir_push_loop(b); nir_if *if_stmt = nir_push_if(b, nir_imm_int(b, 0)); nir_jump(b, nir_jump_break); nir_pop_if(b, if_stmt); nir_store_var(b, v[0], nir_load_var(b, v[2]), 1); nir_pop_loop(b, loop); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_FALSE(progress); } TEST_F(nir_dead_write_vars_test, dead_write_in_block) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 3); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1); nir_ssa_def *load_v2 = nir_load_var(b, v[2]); nir_store_var(b, v[0], load_v2, 1); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); EXPECT_EQ(1, count_intrinsics(nir_intrinsic_store_deref)); nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_TRUE(store->src[1].is_ssa); EXPECT_EQ(store->src[1].ssa, load_v2); } TEST_F(nir_dead_write_vars_test, dead_write_components_in_block) { nir_variable **v = create_many_ivec2(nir_var_mem_ssbo, "v", 3); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1 << 0); nir_ssa_def *load_v2 = nir_load_var(b, v[2]); nir_store_var(b, v[0], load_v2, 1 << 0); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); EXPECT_EQ(1, count_intrinsics(nir_intrinsic_store_deref)); nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_TRUE(store->src[1].is_ssa); EXPECT_EQ(store->src[1].ssa, load_v2); } /* TODO: The DISABLED tests below depend on the dead write removal be able to * identify dead writes between multiple blocks. This is still not * implemented. */ TEST_F(nir_dead_write_vars_test, DISABLED_dead_write_in_two_blocks) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 3); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1); nir_ssa_def *load_v2 = nir_load_var(b, v[2]); /* Causes the stores to be in different blocks. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_store_var(b, v[0], load_v2, 1); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); EXPECT_EQ(1, count_intrinsics(nir_intrinsic_store_deref)); nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_TRUE(store->src[1].is_ssa); EXPECT_EQ(store->src[1].ssa, load_v2); } TEST_F(nir_dead_write_vars_test, DISABLED_dead_write_components_in_two_blocks) { nir_variable **v = create_many_ivec2(nir_var_mem_ssbo, "v", 3); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1 << 0); /* Causes the stores to be in different blocks. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); nir_ssa_def *load_v2 = nir_load_var(b, v[2]); nir_store_var(b, v[0], load_v2, 1 << 0); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); EXPECT_EQ(1, count_intrinsics(nir_intrinsic_store_deref)); nir_intrinsic_instr *store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_TRUE(store->src[1].is_ssa); EXPECT_EQ(store->src[1].ssa, load_v2); } TEST_F(nir_dead_write_vars_test, DISABLED_dead_writes_in_if_statement) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 4); /* Both branches will overwrite, making the previous store dead. */ nir_store_var(b, v[0], nir_load_var(b, v[1]), 1); nir_if *if_stmt = nir_push_if(b, nir_imm_int(b, 0)); nir_ssa_def *load_v2 = nir_load_var(b, v[2]); nir_store_var(b, v[0], load_v2, 1); nir_push_else(b, if_stmt); nir_ssa_def *load_v3 = nir_load_var(b, v[3]); nir_store_var(b, v[0], load_v3, 1); nir_pop_if(b, if_stmt); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); EXPECT_EQ(2, count_intrinsics(nir_intrinsic_store_deref)); nir_intrinsic_instr *first_store = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_TRUE(first_store->src[1].is_ssa); EXPECT_EQ(first_store->src[1].ssa, load_v2); nir_intrinsic_instr *second_store = get_intrinsic(nir_intrinsic_store_deref, 1); ASSERT_TRUE(second_store->src[1].is_ssa); EXPECT_EQ(second_store->src[1].ssa, load_v3); } TEST_F(nir_dead_write_vars_test, DISABLED_memory_barrier_in_two_blocks) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 2); nir_store_var(b, v[0], nir_imm_int(b, 1), 1); nir_store_var(b, v[1], nir_imm_int(b, 2), 1); /* Split into many blocks. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); /* Because it is before the barrier, this will kill the previous store to that target. */ nir_store_var(b, v[0], nir_imm_int(b, 3), 1); nir_scoped_memory_barrier(b, NIR_SCOPE_DEVICE, NIR_MEMORY_ACQ_REL, nir_var_mem_ssbo); nir_store_var(b, v[1], nir_imm_int(b, 4), 1); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); EXPECT_EQ(3, count_intrinsics(nir_intrinsic_store_deref)); } TEST_F(nir_dead_write_vars_test, DISABLED_unrelated_barrier_in_two_blocks) { nir_variable **v = create_many_int(nir_var_mem_ssbo, "v", 3); nir_variable *out = create_int(nir_var_shader_out, "out"); nir_store_var(b, out, nir_load_var(b, v[1]), 1); nir_store_var(b, v[0], nir_load_var(b, v[1]), 1); /* Split into many blocks. */ nir_pop_if(b, nir_push_if(b, nir_imm_int(b, 0))); /* Emit vertex will ensure writes to output variables are considered used, * but should not affect other types of variables. */ nir_builder_instr_insert(b, &nir_intrinsic_instr_create(b->shader, nir_intrinsic_emit_vertex)->instr); nir_store_var(b, out, nir_load_var(b, v[2]), 1); nir_store_var(b, v[0], nir_load_var(b, v[2]), 1); bool progress = nir_opt_dead_write_vars(b->shader); ASSERT_TRUE(progress); /* Verify the first write to v[0] was removed. */ EXPECT_EQ(3, count_intrinsics(nir_intrinsic_store_deref)); nir_intrinsic_instr *first_store = get_intrinsic(nir_intrinsic_store_deref, 0); EXPECT_EQ(nir_intrinsic_get_var(first_store, 0), out); nir_intrinsic_instr *second_store = get_intrinsic(nir_intrinsic_store_deref, 1); EXPECT_EQ(nir_intrinsic_get_var(second_store, 0), out); nir_intrinsic_instr *third_store = get_intrinsic(nir_intrinsic_store_deref, 2); EXPECT_EQ(nir_intrinsic_get_var(third_store, 0), v[0]); } TEST_F(nir_combine_stores_test, non_overlapping_stores) { nir_variable **v = create_many_ivec4(nir_var_mem_ssbo, "v", 4); nir_variable *out = create_ivec4(nir_var_shader_out, "out"); for (int i = 0; i < 4; i++) nir_store_var(b, out, nir_load_var(b, v[i]), 1 << i); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_combine_stores(b->shader, nir_var_shader_out); ASSERT_TRUE(progress); nir_validate_shader(b->shader, NULL); /* Clean up to verify from where the values in combined store are coming. */ nir_copy_prop(b->shader); nir_opt_dce(b->shader); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 1); nir_intrinsic_instr *combined = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_EQ(nir_intrinsic_write_mask(combined), 0xf); ASSERT_EQ(nir_intrinsic_get_var(combined, 0), out); nir_alu_instr *vec = nir_src_as_alu_instr(combined->src[1]); ASSERT_TRUE(vec); for (int i = 0; i < 4; i++) { nir_intrinsic_instr *load = nir_src_as_intrinsic(vec->src[i].src); ASSERT_EQ(load->intrinsic, nir_intrinsic_load_deref); ASSERT_EQ(nir_intrinsic_get_var(load, 0), v[i]) << "Source value for component " << i << " of store is wrong"; ASSERT_EQ(vec->src[i].swizzle[0], i) << "Source component for component " << i << " of store is wrong"; } } TEST_F(nir_combine_stores_test, overlapping_stores) { nir_variable **v = create_many_ivec4(nir_var_mem_ssbo, "v", 3); nir_variable *out = create_ivec4(nir_var_shader_out, "out"); /* Make stores with xy, yz and zw masks. */ for (int i = 0; i < 3; i++) { nir_component_mask_t mask = (1 << i) | (1 << (i + 1)); nir_store_var(b, out, nir_load_var(b, v[i]), mask); } nir_validate_shader(b->shader, NULL); bool progress = nir_opt_combine_stores(b->shader, nir_var_shader_out); ASSERT_TRUE(progress); nir_validate_shader(b->shader, NULL); /* Clean up to verify from where the values in combined store are coming. */ nir_copy_prop(b->shader); nir_opt_dce(b->shader); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 1); nir_intrinsic_instr *combined = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_EQ(nir_intrinsic_write_mask(combined), 0xf); ASSERT_EQ(nir_intrinsic_get_var(combined, 0), out); nir_alu_instr *vec = nir_src_as_alu_instr(combined->src[1]); ASSERT_TRUE(vec); /* Component x comes from v[0]. */ nir_intrinsic_instr *load_for_x = nir_src_as_intrinsic(vec->src[0].src); ASSERT_EQ(nir_intrinsic_get_var(load_for_x, 0), v[0]); ASSERT_EQ(vec->src[0].swizzle[0], 0); /* Component y comes from v[1]. */ nir_intrinsic_instr *load_for_y = nir_src_as_intrinsic(vec->src[1].src); ASSERT_EQ(nir_intrinsic_get_var(load_for_y, 0), v[1]); ASSERT_EQ(vec->src[1].swizzle[0], 1); /* Components z and w come from v[2]. */ nir_intrinsic_instr *load_for_z = nir_src_as_intrinsic(vec->src[2].src); nir_intrinsic_instr *load_for_w = nir_src_as_intrinsic(vec->src[3].src); ASSERT_EQ(load_for_z, load_for_w); ASSERT_EQ(nir_intrinsic_get_var(load_for_z, 0), v[2]); ASSERT_EQ(vec->src[2].swizzle[0], 2); ASSERT_EQ(vec->src[3].swizzle[0], 3); } TEST_F(nir_combine_stores_test, direct_array_derefs) { nir_variable **v = create_many_ivec4(nir_var_mem_ssbo, "vec", 2); nir_variable **s = create_many_int(nir_var_mem_ssbo, "scalar", 2); nir_variable *out = create_ivec4(nir_var_mem_ssbo, "out"); nir_deref_instr *out_deref = nir_build_deref_var(b, out); /* Store to vector with mask x. */ nir_store_deref(b, out_deref, nir_load_var(b, v[0]), 1 << 0); /* Store to vector with mask yz. */ nir_store_deref(b, out_deref, nir_load_var(b, v[1]), (1 << 2) | (1 << 1)); /* Store to vector[2], overlapping with previous store. */ nir_store_deref(b, nir_build_deref_array_imm(b, out_deref, 2), nir_load_var(b, s[0]), 1 << 0); /* Store to vector[3], no overlap. */ nir_store_deref(b, nir_build_deref_array_imm(b, out_deref, 3), nir_load_var(b, s[1]), 1 << 0); nir_validate_shader(b->shader, NULL); bool progress = nir_opt_combine_stores(b->shader, nir_var_mem_ssbo); ASSERT_TRUE(progress); nir_validate_shader(b->shader, NULL); /* Clean up to verify from where the values in combined store are coming. */ nir_copy_prop(b->shader); nir_opt_dce(b->shader); ASSERT_EQ(count_intrinsics(nir_intrinsic_store_deref), 1); nir_intrinsic_instr *combined = get_intrinsic(nir_intrinsic_store_deref, 0); ASSERT_EQ(nir_intrinsic_write_mask(combined), 0xf); ASSERT_EQ(nir_intrinsic_get_var(combined, 0), out); nir_alu_instr *vec = nir_src_as_alu_instr(combined->src[1]); ASSERT_TRUE(vec); /* Component x comes from v[0]. */ nir_intrinsic_instr *load_for_x = nir_src_as_intrinsic(vec->src[0].src); ASSERT_EQ(nir_intrinsic_get_var(load_for_x, 0), v[0]); ASSERT_EQ(vec->src[0].swizzle[0], 0); /* Component y comes from v[1]. */ nir_intrinsic_instr *load_for_y = nir_src_as_intrinsic(vec->src[1].src); ASSERT_EQ(nir_intrinsic_get_var(load_for_y, 0), v[1]); ASSERT_EQ(vec->src[1].swizzle[0], 1); /* Components z comes from s[0]. */ nir_intrinsic_instr *load_for_z = nir_src_as_intrinsic(vec->src[2].src); ASSERT_EQ(nir_intrinsic_get_var(load_for_z, 0), s[0]); ASSERT_EQ(vec->src[2].swizzle[0], 0); /* Component w comes from s[1]. */ nir_intrinsic_instr *load_for_w = nir_src_as_intrinsic(vec->src[3].src); ASSERT_EQ(nir_intrinsic_get_var(load_for_w, 0), s[1]); ASSERT_EQ(vec->src[3].swizzle[0], 0); } TEST_F(nir_split_vars_test, simple_split) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 4); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_function_temp_vars(), 4); } TEST_F(nir_split_vars_test, simple_no_split_array_struct) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); struct glsl_struct_field field; field.type = glsl_float_type(); field.name = ralloc_asprintf(b, "field1"); field.location = -1; field.offset = 0; const struct glsl_type *st_type = glsl_struct_type(&field, 1, "struct", false); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(st_type, 4, 0), "temp"); nir_variable *temp2 = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp2"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); nir_deref_instr *temp2_deref = nir_build_deref_var(b, temp2); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp2_deref, i), nir_load_var(b, in[i]), 1); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_struct(b, nir_build_deref_array_imm(b, temp_deref, i), 0), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 8); ASSERT_EQ(count_derefs(nir_deref_type_struct), 4); ASSERT_EQ(count_function_temp_vars(), 2); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 4); ASSERT_EQ(count_derefs(nir_deref_type_struct), 4); for (int i = 0; i < 4; i++) { nir_deref_instr *deref = get_deref(nir_deref_type_array, i); ASSERT_TRUE(deref); ASSERT_TRUE(glsl_type_is_struct(deref->type)); } ASSERT_EQ(count_function_temp_vars(), 5); } TEST_F(nir_split_vars_test, simple_split_shader_temp) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_shader_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 4); ASSERT_EQ(count_shader_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_shader_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_shader_temp_vars(), 4); } TEST_F(nir_split_vars_test, simple_oob) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 6); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 6; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 6); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_function_temp_vars(), 4); } TEST_F(nir_split_vars_test, simple_unused) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 2); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 2; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 2); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); /* this pass doesn't remove the unused ones */ ASSERT_EQ(count_function_temp_vars(), 4); } TEST_F(nir_split_vars_test, two_level_split) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_array_type(glsl_int_type(), 4, 0), 4, 0), "temp"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 4; i++) { nir_deref_instr *level0 = nir_build_deref_array_imm(b, temp_deref, i); for (int j = 0; j < 4; j++) { nir_deref_instr *level1 = nir_build_deref_array_imm(b, level0, j); nir_store_deref(b, level1, nir_load_var(b, in[i]), 1); } } nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 20); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_function_temp_vars(), 16); } TEST_F(nir_split_vars_test, simple_dont_split) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_variable *ind = create_int(nir_var_shader_in, "ind"); nir_deref_instr *ind_deref = nir_build_deref_var(b, ind); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array(b, temp_deref, &ind_deref->dest.ssa), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 4); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_FALSE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 4); ASSERT_EQ(count_function_temp_vars(), 1); } TEST_F(nir_split_vars_test, twolevel_dont_split_lvl_0) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_array_type(glsl_int_type(), 6, 0), 4, 0), "temp"); nir_variable *ind = create_int(nir_var_shader_in, "ind"); nir_deref_instr *ind_deref = nir_build_deref_var(b, ind); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 4; i++) { nir_deref_instr *level0 = nir_build_deref_array(b, temp_deref, &ind_deref->dest.ssa); for (int j = 0; j < 6; j++) { nir_deref_instr *level1 = nir_build_deref_array_imm(b, level0, j); nir_store_deref(b, level1, nir_load_var(b, in[i]), 1); } } nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 28); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 24); ASSERT_EQ(count_function_temp_vars(), 6); } TEST_F(nir_split_vars_test, twolevel_dont_split_lvl_1) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 6); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_array_type(glsl_int_type(), 6, 0), 4, 0), "temp"); nir_variable *ind = create_int(nir_var_shader_in, "ind"); nir_deref_instr *ind_deref = nir_build_deref_var(b, ind); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); for (int i = 0; i < 4; i++) { nir_deref_instr *level0 = nir_build_deref_array_imm(b, temp_deref, i); for (int j = 0; j < 6; j++) { /* just add the inner index to get some different derefs */ nir_deref_instr *level1 = nir_build_deref_array(b, level0, nir_iadd(b, &ind_deref->dest.ssa, nir_imm_int(b, j))); nir_store_deref(b, level1, nir_load_var(b, in[i]), 1); } } nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 28); ASSERT_EQ(count_function_temp_vars(), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 24); ASSERT_EQ(count_function_temp_vars(), 4); } TEST_F(nir_split_vars_test, split_multiple_store) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_variable *temp2 = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp2"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); nir_deref_instr *temp2_deref = nir_build_deref_var(b, temp2); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp2_deref, i), nir_load_var(b, in[i]), 1); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 8); ASSERT_EQ(count_function_temp_vars(), 2); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_function_temp_vars(), 8); } TEST_F(nir_split_vars_test, split_load_store) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_variable *temp2 = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp2"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); nir_deref_instr *temp2_deref = nir_build_deref_var(b, temp2); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); for (int i = 0; i < 4; i++) { nir_deref_instr *store_deref = nir_build_deref_array_imm(b, temp2_deref, i); nir_deref_instr *load_deref = nir_build_deref_array_imm(b, temp_deref, i); nir_store_deref(b, store_deref, nir_load_deref(b, load_deref), 1); } nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 12); ASSERT_EQ(count_function_temp_vars(), 2); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_function_temp_vars(), 8); } TEST_F(nir_split_vars_test, split_copy) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_variable *temp2 = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp2"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); nir_deref_instr *temp2_deref = nir_build_deref_var(b, temp2); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); for (int i = 0; i < 4; i++) { nir_deref_instr *store_deref = nir_build_deref_array_imm(b, temp2_deref, i); nir_deref_instr *load_deref = nir_build_deref_array_imm(b, temp_deref, i); nir_copy_deref(b, store_deref, load_deref); } nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 12); ASSERT_EQ(count_function_temp_vars(), 2); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_function_temp_vars(), 8); } TEST_F(nir_split_vars_test, split_wildcard_copy) { nir_variable **in = create_many_int(nir_var_shader_in, "in", 4); nir_variable *temp = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp"); nir_variable *temp2 = create_var(nir_var_function_temp, glsl_array_type(glsl_int_type(), 4, 0), "temp2"); nir_deref_instr *temp_deref = nir_build_deref_var(b, temp); nir_deref_instr *temp2_deref = nir_build_deref_var(b, temp2); for (int i = 0; i < 4; i++) nir_store_deref(b, nir_build_deref_array_imm(b, temp_deref, i), nir_load_var(b, in[i]), 1); nir_deref_instr *src_wildcard = nir_build_deref_array_wildcard(b, temp_deref); nir_deref_instr *dst_wildcard = nir_build_deref_array_wildcard(b, temp2_deref); nir_copy_deref(b, dst_wildcard, src_wildcard); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 4); ASSERT_EQ(count_derefs(nir_deref_type_array_wildcard), 2); ASSERT_EQ(count_function_temp_vars(), 2); ASSERT_EQ(count_intrinsics(nir_intrinsic_copy_deref), 1); bool progress = nir_split_array_vars(b->shader, nir_var_function_temp); EXPECT_TRUE(progress); nir_validate_shader(b->shader, NULL); ASSERT_EQ(count_derefs(nir_deref_type_array), 0); ASSERT_EQ(count_derefs(nir_deref_type_array_wildcard), 0); ASSERT_EQ(count_function_temp_vars(), 8); ASSERT_EQ(count_intrinsics(nir_intrinsic_copy_deref), 4); }