| /* |
| * Copyright © 2020 Valve 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 "helpers.h" |
| |
| using namespace aco; |
| |
| BEGIN_TEST(to_hw_instr.swap_subdword) |
| PhysReg v0_lo{256}; |
| PhysReg v0_hi{256}; |
| PhysReg v0_b1{256}; |
| PhysReg v0_b3{256}; |
| PhysReg v1_lo{257}; |
| PhysReg v1_hi{257}; |
| PhysReg v1_b1{257}; |
| PhysReg v1_b3{257}; |
| PhysReg v2_lo{258}; |
| PhysReg v3_lo{259}; |
| v0_hi.reg_b += 2; |
| v1_hi.reg_b += 2; |
| v0_b1.reg_b += 1; |
| v1_b1.reg_b += 1; |
| v0_b3.reg_b += 3; |
| v1_b3.reg_b += 3; |
| |
| for (unsigned i = GFX6; i <= GFX7; i++) { |
| if (!setup_cs(NULL, (chip_class)i)) |
| continue; |
| |
| //~gfx[67]>> p_unit_test 0 |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(0u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v1_lo, v2b), |
| Operand(v1_lo, v2b), Operand(v0_lo, v2b)); |
| |
| //~gfx[67]! p_unit_test 1 |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xffff, %0:v[1][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_cvt_pk_u16_u32 %0:v[1][0:16], %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_mov_b32 %0:v[1] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(1u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v1), |
| Operand(v1_lo, v2b), Operand(v0_lo, v2b)); |
| |
| //~gfx[67]! p_unit_test 2 |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xffff, %0:v[1][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_cvt_pk_u16_u32 %0:v[1][0:16], %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_mov_b32 %0:v[1] |
| //~gfx[67]! v2b: %0:v[1][0:16] = v_mov_b32 %0:v[2][0:16] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(2u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v6b), Operand(v1_lo, v2b), |
| Operand(v0_lo, v2b), Operand(v2_lo, v2b)); |
| |
| //~gfx[67]! p_unit_test 3 |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xffff, %0:v[1][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_cvt_pk_u16_u32 %0:v[1][0:16], %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_mov_b32 %0:v[1] |
| //~gfx[67]! v1: %0:v[2] = v_and_b32 0xffff, %0:v[2][0:16] |
| //~gfx[67]! v1: %0:v[3] = v_and_b32 0xffff, %0:v[3][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_cvt_pk_u16_u32 %0:v[2][0:16], %0:v[3][0:16] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(3u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v2), |
| Operand(v1_lo, v2b), Operand(v0_lo, v2b), |
| Operand(v2_lo, v2b), Operand(v3_lo, v2b)); |
| |
| //~gfx[67]! p_unit_test 4 |
| //~gfx[67]! v1: %0:v[2] = v_and_b32 0xffff, %0:v[2][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xffff, %0:v[1][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_cvt_pk_u16_u32 %0:v[1][0:16], %0:v[2][0:16] |
| //~gfx[67]! v1: %0:v[3] = v_and_b32 0xffff, %0:v[3][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_cvt_pk_u16_u32 %0:v[0][0:16], %0:v[3][0:16] |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(4u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v2), |
| Operand(v1_lo, v2b), Operand(v2_lo, v2b), |
| Operand(v0_lo, v2b), Operand(v3_lo, v2b)); |
| |
| //~gfx[67]! p_unit_test 5 |
| //~gfx[67]! v2b: %0:v[1][0:16] = v_mov_b32 %0:v[0][0:16] |
| //~gfx[67]! v2b: %0:v[0][0:16] = v_lshrrev_b32 16, %0:v[1][16:32] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(5u)); |
| bld.pseudo(aco_opcode::p_split_vector, |
| Definition(v1_lo, v2b), Definition(v0_lo, v2b), |
| Operand(v0_lo, v1)); |
| |
| //~gfx[67]! p_unit_test 6 |
| //~gfx[67]! v2b: %0:v[2][0:16] = v_mov_b32 %0:v[1][0:16] |
| //~gfx[67]! v2b: %0:v[1][0:16] = v_mov_b32 %0:v[0][0:16] |
| //~gfx[67]! v2b: %0:v[0][0:16] = v_lshrrev_b32 16, %0:v[1][16:32] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(6u)); |
| bld.pseudo(aco_opcode::p_split_vector, |
| Definition(v1_lo, v2b), Definition(v0_lo, v2b), |
| Definition(v2_lo, v2b), Operand(v0_lo, v6b)); |
| |
| //~gfx[67]! p_unit_test 7 |
| //~gfx[67]! v2b: %0:v[2][0:16] = v_mov_b32 %0:v[1][0:16] |
| //~gfx[67]! v2b: %0:v[1][0:16] = v_mov_b32 %0:v[0][0:16] |
| //~gfx[67]! v2b: %0:v[0][0:16] = v_lshrrev_b32 16, %0:v[1][16:32] |
| //~gfx[67]! v2b: %0:v[3][0:16] = v_lshrrev_b32 16, %0:v[2][16:32] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(7u)); |
| bld.pseudo(aco_opcode::p_split_vector, |
| Definition(v1_lo, v2b), Definition(v0_lo, v2b), |
| Definition(v2_lo, v2b), Definition(v3_lo, v2b), |
| Operand(v0_lo, v2)); |
| |
| //~gfx[67]! p_unit_test 8 |
| //~gfx[67]! v2b: %0:v[2][0:16] = v_lshrrev_b32 16, %0:v[0][16:32] |
| //~gfx[67]! v2b: %0:v[3][0:16] = v_lshrrev_b32 16, %0:v[1][16:32] |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(8u)); |
| bld.pseudo(aco_opcode::p_split_vector, |
| Definition(v1_lo, v2b), Definition(v2_lo, v2b), |
| Definition(v0_lo, v2b), Definition(v3_lo, v2b), |
| Operand(v0_lo, v2)); |
| |
| //~gfx[67]! p_unit_test 9 |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx[67]! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(9u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1b), Definition(v1_lo, v1b), |
| Operand(v1_lo, v1b), Operand(v0_lo, v1b)); |
| |
| //~gfx[67]! p_unit_test 10 |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xff, %0:v[1][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_lshlrev_b32 8, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[1] = v_or_b32 %0:v[1][0:8], %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_lshrrev_b32 8, %0:v[0][0:8] |
| //~gfx[67]! v2b: %0:v[0][0:16] = v_mov_b32 %0:v[1][0:16] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(10u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v2b), |
| Operand(v1_lo, v1b), Operand(v0_lo, v1b)); |
| |
| //~gfx[67]! p_unit_test 11 |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xff, %0:v[1][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_lshlrev_b32 8, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[1] = v_or_b32 %0:v[1][0:8], %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_lshrrev_b32 8, %0:v[0][0:8] |
| //~gfx[67]! v2b: %0:v[0][0:16] = v_mov_b32 %0:v[1][0:16] |
| //~gfx[67]! v1: %0:v[2] = v_and_b32 0xffff, %0:v[2][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_cvt_pk_u16_u32 %0:v[0][0:16], %0:v[2][0:8] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(11u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v3b), Operand(v1_lo, v1b), |
| Operand(v0_lo, v1b), Operand(v2_lo, v1b)); |
| |
| //~gfx[67]! p_unit_test 12 |
| //~gfx[67]! v1: %0:v[1] = v_and_b32 0xff, %0:v[1][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_lshlrev_b32 8, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[1] = v_or_b32 %0:v[1][0:8], %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_lshrrev_b32 8, %0:v[0][0:8] |
| //~gfx[67]! v2b: %0:v[0][0:16] = v_mov_b32 %0:v[1][0:16] |
| //~gfx[67]! v1: %0:v[2] = v_and_b32 0xffff, %0:v[2][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:16] |
| //~gfx[67]! v1: %0:v[0] = v_cvt_pk_u16_u32 %0:v[0][0:16], %0:v[2][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffffff, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[3] = v_lshlrev_b32 24, %0:v[3][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_or_b32 %0:v[0][0:8], %0:v[3][0:8] |
| //~gfx[67]! v1: %0:v[3] = v_lshrrev_b32 24, %0:v[3][0:8] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(12u)); |
| bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v1), |
| Operand(v1_lo, v1b), Operand(v0_lo, v1b), |
| Operand(v2_lo, v1b), Operand(v3_lo, v1b)); |
| |
| //~gfx[67]! p_unit_test 13 |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xff, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_mul_u32_u24 0x101, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffff, %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_cvt_pk_u16_u32 %0:v[0][0:16], %0:v[0][0:8] |
| //~gfx[67]! v1: %0:v[0] = v_and_b32 0xffffff, %0:v[0][0:8] |
| //~gfx[67]! s1: %0:m0 = s_mov_b32 0x1000001 |
| //~gfx[67]! v1: %0:v[0] = v_mul_lo_u32 %0:m0, %0:v[0][0:8] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(13u)); |
| Instruction* pseudo = bld.pseudo(aco_opcode::p_create_vector, |
| Definition(v0_lo, v1), |
| Operand(v0_lo, v1b), Operand(v0_lo, v1b), |
| Operand(v0_lo, v1b), Operand(v0_lo, v1b)); |
| static_cast<Pseudo_instruction*>(pseudo)->scratch_sgpr = m0; |
| |
| //~gfx[67]! p_unit_test 14 |
| //~gfx[67]! v1b: %0:v[1][0:8] = v_mov_b32 %0:v[0][0:8] |
| //~gfx[67]! v1b: %0:v[0][0:8] = v_lshrrev_b32 8, %0:v[1][8:16] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(14u)); |
| bld.pseudo(aco_opcode::p_split_vector, |
| Definition(v1_lo, v1b), Definition(v0_lo, v1b), |
| Operand(v0_lo, v2b)); |
| |
| //~gfx[67]! p_unit_test 15 |
| //~gfx[67]! v1b: %0:v[1][0:8] = v_mov_b32 %0:v[0][0:8] |
| //~gfx[67]! v1b: %0:v[0][0:8] = v_lshrrev_b32 8, %0:v[1][8:16] |
| //~gfx[67]! v1b: %0:v[2][0:8] = v_lshrrev_b32 16, %0:v[1][16:24] |
| //~gfx[67]! v1b: %0:v[3][0:8] = v_lshrrev_b32 24, %0:v[1][24:32] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(15u)); |
| bld.pseudo(aco_opcode::p_split_vector, |
| Definition(v1_lo, v1b), Definition(v0_lo, v1b), |
| Definition(v2_lo, v1b), Definition(v3_lo, v1b), |
| Operand(v0_lo, v1)); |
| |
| //~gfx[67]! s_endpgm |
| |
| finish_to_hw_instr_test(); |
| } |
| |
| for (unsigned i = GFX8; i <= GFX9; i++) { |
| if (!setup_cs(NULL, (chip_class)i)) |
| continue; |
| |
| //~gfx[89]>> p_unit_test 0 |
| //~gfx8! v2b: %0:v[0][16:32] = v_xor_b32 %0:v[0][16:32], %0:v[0][0:16] dst_preserve |
| //~gfx8! v2b: %0:v[0][0:16] = v_xor_b32 %0:v[0][16:32], %0:v[0][0:16] dst_preserve |
| //~gfx8! v2b: %0:v[0][16:32] = v_xor_b32 %0:v[0][16:32], %0:v[0][0:16] dst_preserve |
| //~gfx9! v1: %0:v[0] = v_pk_add_u16 %0:v[0].yx, 0 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(0u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand(v0_hi, v2b), Operand(v0_lo, v2b)); |
| |
| //~gfx[89]! p_unit_test 1 |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx9! v1: %0:v[0], v1: %0:v[1] = v_swap_b32 %0:v[1], %0:v[0] |
| //~gfx[89]! v2b: %0:v[1][16:32] = v_mov_b32 %0:v[0][16:32] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(1u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1), Definition(v1_lo, v2b), |
| Operand(v1_lo, v1), Operand(v0_lo, v2b)); |
| |
| //~gfx[89]! p_unit_test 2 |
| //~gfx[89]! v2b: %0:v[0][16:32] = v_mov_b32 %0:v[1][16:32] dst_preserve |
| //~gfx[89]! v2b: %0:v[1][16:32] = v_mov_b32 %0:v[0][0:16] dst_preserve |
| //~gfx[89]! v2b: %0:v[1][0:16] = v_xor_b32 %0:v[1][0:16], %0:v[0][0:16] dst_preserve |
| //~gfx[89]! v2b: %0:v[0][0:16] = v_xor_b32 %0:v[1][0:16], %0:v[0][0:16] dst_preserve |
| //~gfx[89]! v2b: %0:v[1][0:16] = v_xor_b32 %0:v[1][0:16], %0:v[0][0:16] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(2u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1), Definition(v1_lo, v2b), Definition(v1_hi, v2b), |
| Operand(v1_lo, v1), Operand(v0_lo, v2b), Operand(v0_lo, v2b)); |
| |
| //~gfx[89]! p_unit_test 3 |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx9! v1: %0:v[0], v1: %0:v[1] = v_swap_b32 %0:v[1], %0:v[0] |
| //~gfx[89]! v2b: %0:v[1][0:16] = v_mov_b32 %0:v[0][0:16] dst_preserve |
| //~gfx[89]! v1b: %0:v[1][16:24] = v_mov_b32 %0:v[0][16:24] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(3u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1), Definition(v1_b3, v1b), |
| Operand(v1_lo, v1), Operand(v0_b3, v1b)); |
| |
| //~gfx[89]! p_unit_test 4 |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx9! v1: %0:v[0], v1: %0:v[1] = v_swap_b32 %0:v[1], %0:v[0] |
| //~gfx[89]! v1b: %0:v[1][8:16] = v_mov_b32 %0:v[0][8:16] dst_preserve |
| //~gfx[89]! v2b: %0:v[1][16:32] = v_mov_b32 %0:v[0][16:32] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(4u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1), Definition(v1_lo, v1b), |
| Operand(v1_lo, v1), Operand(v0_lo, v1b)); |
| |
| //~gfx[89]! p_unit_test 5 |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[0], %0:v[1] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[0], %0:v[1] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[0], %0:v[1] |
| //~gfx9! v1: %0:v[1], v1: %0:v[0] = v_swap_b32 %0:v[0], %0:v[1] |
| //~gfx[89]! v1b: %0:v[0][8:16] = v_mov_b32 %0:v[1][8:16] dst_preserve |
| //~gfx[89]! v1b: %0:v[0][24:32] = v_mov_b32 %0:v[1][24:32] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(5u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1b), Definition(v0_hi, v1b), Definition(v1_lo, v1), |
| Operand(v1_lo, v1b), Operand(v1_hi, v1b), Operand(v0_lo, v1)); |
| |
| //~gfx[89]! p_unit_test 6 |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx9! v1: %0:v[0], v1: %0:v[1] = v_swap_b32 %0:v[1], %0:v[0] |
| bld.pseudo(aco_opcode::p_unit_test, Operand(6u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), Definition(v1_lo, v1), |
| Operand(v1_lo, v2b), Operand(v1_hi, v2b), Operand(v0_lo, v1)); |
| |
| //~gfx[89]! p_unit_test 7 |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[0], %0:v[1] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[0], %0:v[1] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[0], %0:v[1] |
| //~gfx8! v2b: %0:v[0][16:32] = v_xor_b32 %0:v[0][16:32], %0:v[0][0:16] dst_preserve |
| //~gfx8! v2b: %0:v[0][0:16] = v_xor_b32 %0:v[0][16:32], %0:v[0][0:16] dst_preserve |
| //~gfx8! v2b: %0:v[0][16:32] = v_xor_b32 %0:v[0][16:32], %0:v[0][0:16] dst_preserve |
| //~gfx9! v1: %0:v[1], v1: %0:v[0] = v_swap_b32 %0:v[0], %0:v[1] |
| //~gfx9! v1: %0:v[0] = v_pk_add_u16 %0:v[0].yx, 0 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(7u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), Definition(v1_lo, v1), |
| Operand(v1_hi, v2b), Operand(v1_lo, v2b), Operand(v0_lo, v1)); |
| |
| //~gfx[89]! p_unit_test 8 |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx9! v1: %0:v[0], v1: %0:v[1] = v_swap_b32 %0:v[1], %0:v[0] |
| //~gfx[89]! v1b: %0:v[1][24:32] = v_xor_b32 %0:v[1][24:32], %0:v[0][24:32] dst_preserve |
| //~gfx[89]! v1b: %0:v[0][24:32] = v_xor_b32 %0:v[1][24:32], %0:v[0][24:32] dst_preserve |
| //~gfx[89]! v1b: %0:v[1][24:32] = v_xor_b32 %0:v[1][24:32], %0:v[0][24:32] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(8u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v3b), Definition(v1_lo, v3b), |
| Operand(v1_lo, v3b), Operand(v0_lo, v3b)); |
| |
| //~gfx[89]! p_unit_test 9 |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[0] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx8! v1: %0:v[1] = v_xor_b32 %0:v[1], %0:v[0] |
| //~gfx9! v1: %0:v[0], v1: %0:v[1] = v_swap_b32 %0:v[1], %0:v[0] |
| //~gfx[89]! v1b: %0:v[1][24:32] = v_mov_b32 %0:v[0][24:32] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(9u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v3b), Definition(v1_lo, v3b), Definition(v0_b3, v1b), |
| Operand(v1_lo, v3b), Operand(v0_lo, v3b), Operand(v1_b3, v1b)); |
| |
| //~gfx[89]! p_unit_test 10 |
| //~gfx[89]! v1b: %0:v[1][8:16] = v_xor_b32 %0:v[1][8:16], %0:v[0][8:16] dst_preserve |
| //~gfx[89]! v1b: %0:v[0][8:16] = v_xor_b32 %0:v[1][8:16], %0:v[0][8:16] dst_preserve |
| //~gfx[89]! v1b: %0:v[1][8:16] = v_xor_b32 %0:v[1][8:16], %0:v[0][8:16] dst_preserve |
| //~gfx[89]! v1b: %0:v[1][16:24] = v_xor_b32 %0:v[1][16:24], %0:v[0][16:24] dst_preserve |
| //~gfx[89]! v1b: %0:v[0][16:24] = v_xor_b32 %0:v[1][16:24], %0:v[0][16:24] dst_preserve |
| //~gfx[89]! v1b: %0:v[1][16:24] = v_xor_b32 %0:v[1][16:24], %0:v[0][16:24] dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(10u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_b1, v2b), Definition(v1_b1, v2b), |
| Operand(v1_b1, v2b), Operand(v0_b1, v2b)); |
| |
| //~gfx[89]! p_unit_test 11 |
| //~gfx[89]! v2b: %0:v[1][0:16] = v_mov_b32 %0:v[0][16:32] dst_preserve |
| //~gfx[89]! v1: %0:v[0] = v_mov_b32 42 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(11u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1), Definition(v1_lo, v2b), |
| Operand(42u), Operand(v0_hi, v2b)); |
| |
| //~gfx[89]! s_endpgm |
| |
| finish_to_hw_instr_test(); |
| } |
| END_TEST |
| |
| BEGIN_TEST(to_hw_instr.subdword_constant) |
| PhysReg v0_lo{256}; |
| PhysReg v0_hi{256}; |
| PhysReg v0_b1{256}; |
| PhysReg v1_hi{257}; |
| v0_hi.reg_b += 2; |
| v0_b1.reg_b += 1; |
| v1_hi.reg_b += 2; |
| |
| for (unsigned i = GFX9; i <= GFX10; i++) { |
| if (!setup_cs(NULL, (chip_class)i)) |
| continue; |
| |
| /* 16-bit pack */ |
| //>> p_unit_test 0 |
| //! v1: %_:v[0] = v_pack_b32_f16 0.5, hi(%_:v[1][16:32]) |
| bld.pseudo(aco_opcode::p_unit_test, Operand(0u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand((uint16_t)0x3800), Operand(v1_hi, v2b)); |
| |
| //! p_unit_test 1 |
| //~gfx9! v1: %_:v[0] = v_mov_b32 0x4205 |
| //~gfx9! v2b: %_:v[0][16:32] = v_mov_b32 %_:v[1][16:32] dst_preserve |
| //~gfx10! v1: %_:v[0] = v_pack_b32_f16 0x4205, hi(%_:v[1][16:32]) |
| bld.pseudo(aco_opcode::p_unit_test, Operand(1u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand((uint16_t)0x4205), Operand(v1_hi, v2b)); |
| |
| //TODO: optimize this with GFX10. do_pack_2x16() isn't used in this case |
| //! p_unit_test 2 |
| //~gfx9! v2b: %_:v[0][16:32] = v_mov_b32 %_:v[0][0:16] dst_preserve |
| //~gfx9! v1: %_:v[0] = v_and_b32 0xffff0000, %_:v[0] |
| //~gfx9! v1: %_:v[0] = v_or_b32 0x4205, %_:v[0] |
| //~gfx10! v2b: %_:v[0][16:32] = v_mov_b32 %_:v[0][0:16] dst_preserve |
| //~gfx10! v2b: %_:v[0][0:16] = v_pack_b32_f16 0x4205, hi(%_:v[0][16:32]) |
| bld.pseudo(aco_opcode::p_unit_test, Operand(2u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand((uint16_t)0x4205), Operand(v0_lo, v2b)); |
| |
| //! p_unit_test 3 |
| //! v1: %_:v[0] = v_mov_b32 0x3c003800 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(3u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand((uint16_t)0x3800), Operand((uint16_t)0x3c00)); |
| |
| //! p_unit_test 4 |
| //! v1: %_:v[0] = v_mov_b32 0x43064205 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(4u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand((uint16_t)0x4205), Operand((uint16_t)0x4306)); |
| |
| //! p_unit_test 5 |
| //! v1: %_:v[0] = v_mov_b32 0x38004205 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(5u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Definition(v0_hi, v2b), |
| Operand((uint16_t)0x4205), Operand((uint16_t)0x3800)); |
| |
| /* 16-bit copy */ |
| //! p_unit_test 6 |
| //! v2b: %_:v[0][0:16] = v_add_f16 0.5, 0 dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(6u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Operand((uint16_t)0x3800)); |
| |
| //! p_unit_test 7 |
| //~gfx9! v1: %_:v[0] = v_and_b32 0xffff0000, %_:v[0] |
| //~gfx9! v1: %_:v[0] = v_or_b32 0x4205, %_:v[0] |
| //~gfx10! v2b: %_:v[0][0:16] = v_pack_b32_f16 0x4205, hi(%_:v[0][16:32]) |
| bld.pseudo(aco_opcode::p_unit_test, Operand(7u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v2b), Operand((uint16_t)0x4205)); |
| |
| //! p_unit_test 8 |
| //~gfx9! v1: %_:v[0] = v_and_b32 0xffff, %_:v[0] |
| //~gfx9! v1: %_:v[0] = v_or_b32 0x42050000, %_:v[0] |
| //~gfx10! v2b: %_:v[0][16:32] = v_pack_b32_f16 %_:v[0][0:16], 0x4205 |
| bld.pseudo(aco_opcode::p_unit_test, Operand(8u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_hi, v2b), Operand((uint16_t)0x4205)); |
| |
| //! p_unit_test 9 |
| //! v1b: %_:v[0][8:16] = v_mov_b32 0 dst_preserve |
| //! v1b: %_:v[0][16:24] = v_mov_b32 56 dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(9u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_b1, v2b), Operand((uint16_t)0x3800)); |
| |
| //! p_unit_test 10 |
| //! v1b: %_:v[0][8:16] = v_mov_b32 5 dst_preserve |
| //! v1b: %_:v[0][16:24] = v_mul_u32_u24 2, 33 dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(10u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_b1, v2b), Operand((uint16_t)0x4205)); |
| |
| /* 8-bit copy */ |
| //! p_unit_test 11 |
| //! v1b: %_:v[0][0:8] = v_mul_u32_u24 2, 33 dst_preserve |
| bld.pseudo(aco_opcode::p_unit_test, Operand(11u)); |
| bld.pseudo(aco_opcode::p_parallelcopy, |
| Definition(v0_lo, v1b), Operand((uint8_t)0x42)); |
| |
| //! s_endpgm |
| |
| finish_to_hw_instr_test(); |
| } |
| END_TEST |