/* * Copyright 2020-2021 Collabora Ltd. * SPDX-License-Identifier: MIT */ #ifndef __AGX_TEST_H #define __AGX_TEST_H #include #include #include "agx_builder.h" #include "agx_compiler.h" /* Helper to generate a agx_builder suitable for creating test instructions */ static inline agx_builder * agx_test_builder(void *memctx) { agx_context *ctx = rzalloc(memctx, agx_context); list_inithead(&ctx->blocks); agx_block *blk = rzalloc(ctx, agx_block); util_dynarray_init(&blk->predecessors, NULL); ctx->num_blocks = 1; list_addtail(&blk->link, &ctx->blocks); list_inithead(&blk->instructions); agx_builder *b = rzalloc(memctx, agx_builder); b->shader = ctx; b->cursor = agx_after_block(blk); return b; } static inline agx_block * agx_test_block(agx_context *ctx) { agx_block *blk = rzalloc(ctx, agx_block); util_dynarray_init(&blk->predecessors, blk); list_addtail(&blk->link, &ctx->blocks); list_inithead(&blk->instructions); blk->index = ctx->num_blocks++; return blk; } /* Helper to compare for logical equality of instructions. Need to compare the * pointers, then compare raw data. */ static inline bool agx_instr_equal(agx_instr *A, agx_instr *B) { unsigned pointers = sizeof(struct list_head) + sizeof(agx_index *) * 2; if (A->nr_srcs != B->nr_srcs) return false; if (memcmp(A->src, B->src, A->nr_srcs * sizeof(agx_index))) return false; if (A->nr_dests != B->nr_dests) return false; if (memcmp(A->dest, B->dest, A->nr_dests * sizeof(agx_index))) return false; return memcmp((uint8_t *)A + pointers, (uint8_t *)B + pointers, sizeof(agx_instr) - pointers) == 0; } static inline bool agx_block_equal(agx_block *A, agx_block *B) { if (list_length(&A->instructions) != list_length(&B->instructions)) return false; list_pair_for_each_entry(agx_instr, insA, insB, &A->instructions, &B->instructions, link) { if (!agx_instr_equal(insA, insB)) return false; } return true; } static inline bool agx_shader_equal(agx_context *A, agx_context *B) { if (list_length(&A->blocks) != list_length(&B->blocks)) return false; list_pair_for_each_entry(agx_block, blockA, blockB, &A->blocks, &B->blocks, link) { if (!agx_block_equal(blockA, blockB)) return false; } return true; } #define ASSERT_SHADER_EQUAL(A, B) \ if (!agx_shader_equal(A, B)) { \ ADD_FAILURE(); \ fprintf(stderr, "Pass produced unexpected results"); \ fprintf(stderr, " Actual:\n"); \ agx_print_shader(A, stderr); \ fprintf(stderr, " Expected:\n"); \ agx_print_shader(B, stderr); \ fprintf(stderr, "\n"); \ } #define INSTRUCTION_CASE(instr, expected, pass) \ do { \ agx_builder *A = agx_test_builder(mem_ctx); \ agx_builder *B = agx_test_builder(mem_ctx); \ { \ agx_builder *b = A; \ instr; \ } \ { \ agx_builder *b = B; \ expected; \ } \ pass(A->shader); \ ASSERT_SHADER_EQUAL(A->shader, B->shader); \ } while (0) #endif