1 /* 2 * Copyright 2015 Intel Corporation 3 * 4 * Permission is hereby granted, free of charge, to any person obtaining a 5 * copy of this software and associated documentation files (the "Software"), 6 * to deal in the Software without restriction, including without limitation 7 * the rights to use, copy, modify, merge, publish, distribute, sublicense, 8 * and/or sell copies of the Software, and to permit persons to whom the 9 * Software is furnished to do so, subject to the following conditions: 10 * 11 * The above copyright notice and this permission notice (including the next 12 * paragraph) shall be included in all copies or substantial portions of the 13 * Software. 14 * 15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING 20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS 21 * IN THE SOFTWARE. 22 * 23 * Based on test_fs_cmod_propagation.cpp 24 */ 25 26 #include <gtest/gtest.h> 27 #include "brw_vec4.h" 28 #include "brw_vec4_builder.h" 29 #include "brw_cfg.h" 30 #include "program/program.h" 31 32 using namespace brw; 33 34 class cmod_propagation_test : public ::testing::Test { 35 virtual void SetUp(); 36 37 public: 38 struct brw_compiler *compiler; 39 struct gen_device_info *devinfo; 40 struct gl_context *ctx; 41 struct gl_shader_program *shader_prog; 42 struct brw_vue_prog_data *prog_data; 43 vec4_visitor *v; 44 }; 45 46 class cmod_propagation_vec4_visitor : public vec4_visitor 47 { 48 public: 49 cmod_propagation_vec4_visitor(struct brw_compiler *compiler, 50 nir_shader *shader, 51 struct brw_vue_prog_data *prog_data) 52 : vec4_visitor(compiler, NULL, NULL, prog_data, shader, NULL, 53 false, -1) 54 { 55 prog_data->dispatch_mode = DISPATCH_MODE_4X2_DUAL_OBJECT; 56 } 57 58 protected: 59 /* Dummy implementation for pure virtual methods */ 60 virtual dst_reg *make_reg_for_system_value(int location) 61 { 62 unreachable("Not reached"); 63 } 64 65 virtual void setup_payload() 66 { 67 unreachable("Not reached"); 68 } 69 70 virtual void emit_prolog() 71 { 72 unreachable("Not reached"); 73 } 74 75 virtual void emit_program_code() 76 { 77 unreachable("Not reached"); 78 } 79 80 virtual void emit_thread_end() 81 { 82 unreachable("Not reached"); 83 } 84 85 virtual void emit_urb_write_header(int mrf) 86 { 87 unreachable("Not reached"); 88 } 89 90 virtual vec4_instruction *emit_urb_write_opcode(bool complete) 91 { 92 unreachable("Not reached"); 93 } 94 }; 95 96 97 void cmod_propagation_test::SetUp() 98 { 99 ctx = (struct gl_context *)calloc(1, sizeof(*ctx)); 100 compiler = (struct brw_compiler *)calloc(1, sizeof(*compiler)); 101 devinfo = (struct gen_device_info *)calloc(1, sizeof(*devinfo)); 102 prog_data = (struct brw_vue_prog_data *)calloc(1, sizeof(*prog_data)); 103 compiler->devinfo = devinfo; 104 105 nir_shader *shader = 106 nir_shader_create(NULL, MESA_SHADER_VERTEX, NULL, NULL); 107 108 v = new cmod_propagation_vec4_visitor(compiler, shader, prog_data); 109 110 devinfo->gen = 4; 111 } 112 113 static vec4_instruction * 114 instruction(bblock_t *block, int num) 115 { 116 vec4_instruction *inst = (vec4_instruction *)block->start(); 117 for (int i = 0; i < num; i++) { 118 inst = (vec4_instruction *)inst->next; 119 } 120 return inst; 121 } 122 123 static bool 124 cmod_propagation(vec4_visitor *v) 125 { 126 const bool print = getenv("TEST_DEBUG"); 127 128 if (print) { 129 fprintf(stderr, "= Before =\n"); 130 v->dump_instructions(); 131 } 132 133 bool ret = v->opt_cmod_propagation(); 134 135 if (print) { 136 fprintf(stderr, "\n= After =\n"); 137 v->dump_instructions(); 138 } 139 140 return ret; 141 } 142 143 TEST_F(cmod_propagation_test, basic) 144 { 145 const vec4_builder bld = vec4_builder(v).at_end(); 146 dst_reg dest = dst_reg(v, glsl_type::float_type); 147 src_reg src0 = src_reg(v, glsl_type::float_type); 148 src_reg src1 = src_reg(v, glsl_type::float_type); 149 src_reg zero(brw_imm_f(0.0f)); 150 dst_reg dest_null = bld.null_reg_f(); 151 dest_null.writemask = WRITEMASK_X; 152 153 bld.ADD(dest, src0, src1); 154 bld.CMP(dest_null, src_reg(dest), zero, BRW_CONDITIONAL_GE); 155 156 /* = Before = 157 * 158 * 0: add dest.x src0.xxxx src1.xxxx 159 * 1: cmp.ge.f0 null.x dest.xxxx 0.0f 160 * 161 * = After = 162 * 0: add.ge.f0 dest.x src0.xxxx src1.xxxx 163 */ 164 165 v->calculate_cfg(); 166 bblock_t *block0 = v->cfg->blocks[0]; 167 168 EXPECT_EQ(0, block0->start_ip); 169 EXPECT_EQ(1, block0->end_ip); 170 171 EXPECT_TRUE(cmod_propagation(v)); 172 173 ASSERT_EQ(0, block0->start_ip); 174 ASSERT_EQ(0, block0->end_ip); 175 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 176 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 0)->conditional_mod); 177 } 178 179 TEST_F(cmod_propagation_test, basic_different_dst_writemask) 180 { 181 const vec4_builder bld = vec4_builder(v).at_end(); 182 dst_reg dest = dst_reg(v, glsl_type::float_type); 183 src_reg src0 = src_reg(v, glsl_type::float_type); 184 src_reg src1 = src_reg(v, glsl_type::float_type); 185 src_reg zero(brw_imm_f(0.0f)); 186 dst_reg dest_null = bld.null_reg_f(); 187 188 bld.ADD(dest, src0, src1); 189 bld.CMP(dest_null, src_reg(dest), zero, BRW_CONDITIONAL_GE); 190 191 /* = Before = 192 * 193 * 0: add dest.x src0 src1 194 * 1: cmp.ge.f0 null.xyzw dest 0.0f 195 * 196 * = After = 197 * (no changes) 198 */ 199 200 v->calculate_cfg(); 201 bblock_t *block0 = v->cfg->blocks[0]; 202 203 EXPECT_EQ(0, block0->start_ip); 204 EXPECT_EQ(1, block0->end_ip); 205 206 EXPECT_FALSE(cmod_propagation(v)); 207 208 ASSERT_EQ(0, block0->start_ip); 209 ASSERT_EQ(1, block0->end_ip); 210 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 211 EXPECT_EQ(BRW_CONDITIONAL_NONE, instruction(block0, 0)->conditional_mod); 212 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 213 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 1)->conditional_mod); 214 } 215 216 TEST_F(cmod_propagation_test, andz_one) 217 { 218 const vec4_builder bld = vec4_builder(v).at_end(); 219 dst_reg dest = dst_reg(v, glsl_type::int_type); 220 src_reg src0 = src_reg(v, glsl_type::float_type); 221 src_reg zero(brw_imm_f(0.0f)); 222 src_reg one(brw_imm_d(1)); 223 224 bld.CMP(retype(dest, BRW_REGISTER_TYPE_F), src0, zero, BRW_CONDITIONAL_L); 225 set_condmod(BRW_CONDITIONAL_Z, 226 bld.AND(bld.null_reg_d(), src_reg(dest), one)); 227 228 /* = Before = 229 * 0: cmp.l.f0 dest:F src0:F 0F 230 * 1: and.z.f0 null:D dest:D 1D 231 * 232 * = After = 233 * (no changes) 234 */ 235 236 v->calculate_cfg(); 237 bblock_t *block0 = v->cfg->blocks[0]; 238 239 EXPECT_EQ(0, block0->start_ip); 240 EXPECT_EQ(1, block0->end_ip); 241 242 EXPECT_FALSE(cmod_propagation(v)); 243 244 ASSERT_EQ(0, block0->start_ip); 245 ASSERT_EQ(1, block0->end_ip); 246 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 0)->opcode); 247 EXPECT_EQ(BRW_CONDITIONAL_L, instruction(block0, 0)->conditional_mod); 248 EXPECT_EQ(BRW_OPCODE_AND, instruction(block0, 1)->opcode); 249 EXPECT_EQ(BRW_CONDITIONAL_EQ, instruction(block0, 1)->conditional_mod); 250 } 251 252 TEST_F(cmod_propagation_test, non_cmod_instruction) 253 { 254 const vec4_builder bld = vec4_builder(v).at_end(); 255 dst_reg dest = dst_reg(v, glsl_type::uint_type); 256 src_reg src0 = src_reg(v, glsl_type::uint_type); 257 src_reg zero(brw_imm_ud(0u)); 258 bld.FBL(dest, src0); 259 bld.CMP(bld.null_reg_ud(), src_reg(dest), zero, BRW_CONDITIONAL_GE); 260 261 /* = Before = 262 * 263 * 0: fbl dest src0 264 * 1: cmp.ge.f0 null dest 0u 265 * 266 * = After = 267 * (no changes) 268 */ 269 270 v->calculate_cfg(); 271 bblock_t *block0 = v->cfg->blocks[0]; 272 273 EXPECT_EQ(0, block0->start_ip); 274 EXPECT_EQ(1, block0->end_ip); 275 276 EXPECT_FALSE(cmod_propagation(v)); 277 278 ASSERT_EQ(0, block0->start_ip); 279 ASSERT_EQ(1, block0->end_ip); 280 EXPECT_EQ(BRW_OPCODE_FBL, instruction(block0, 0)->opcode); 281 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 282 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 1)->conditional_mod); 283 } 284 285 TEST_F(cmod_propagation_test, intervening_flag_write) 286 { 287 const vec4_builder bld = vec4_builder(v).at_end(); 288 dst_reg dest = dst_reg(v, glsl_type::float_type); 289 src_reg src0 = src_reg(v, glsl_type::float_type); 290 src_reg src1 = src_reg(v, glsl_type::float_type); 291 src_reg src2 = src_reg(v, glsl_type::float_type); 292 src_reg zero(brw_imm_f(0.0f)); 293 bld.ADD(dest, src0, src1); 294 bld.CMP(bld.null_reg_f(), src2, zero, BRW_CONDITIONAL_GE); 295 bld.CMP(bld.null_reg_f(), src_reg(dest), zero, BRW_CONDITIONAL_GE); 296 297 /* = Before = 298 * 299 * 0: add dest src0 src1 300 * 1: cmp.ge.f0 null src2 0.0f 301 * 2: cmp.ge.f0 null dest 0.0f 302 * 303 * = After = 304 * (no changes) 305 */ 306 307 v->calculate_cfg(); 308 bblock_t *block0 = v->cfg->blocks[0]; 309 310 EXPECT_EQ(0, block0->start_ip); 311 EXPECT_EQ(2, block0->end_ip); 312 313 EXPECT_FALSE(cmod_propagation(v)); 314 315 ASSERT_EQ(0, block0->start_ip); 316 ASSERT_EQ(2, block0->end_ip); 317 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 318 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 319 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 1)->conditional_mod); 320 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 2)->opcode); 321 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 2)->conditional_mod); 322 } 323 324 TEST_F(cmod_propagation_test, intervening_flag_read) 325 { 326 const vec4_builder bld = vec4_builder(v).at_end(); 327 dst_reg dest0 = dst_reg(v, glsl_type::float_type); 328 dst_reg dest1 = dst_reg(v, glsl_type::float_type); 329 src_reg src0 = src_reg(v, glsl_type::float_type); 330 src_reg src1 = src_reg(v, glsl_type::float_type); 331 src_reg src2 = src_reg(v, glsl_type::float_type); 332 src_reg zero(brw_imm_f(0.0f)); 333 bld.ADD(dest0, src0, src1); 334 set_predicate(BRW_PREDICATE_NORMAL, bld.SEL(dest1, src2, zero)); 335 bld.CMP(bld.null_reg_f(), src_reg(dest0), zero, BRW_CONDITIONAL_GE); 336 337 /* = Before = 338 * 339 * 0: add dest0 src0 src1 340 * 1: (+f0) sel dest1 src2 0.0f 341 * 2: cmp.ge.f0 null dest0 0.0f 342 * 343 * = After = 344 * (no changes) 345 */ 346 347 v->calculate_cfg(); 348 bblock_t *block0 = v->cfg->blocks[0]; 349 350 EXPECT_EQ(0, block0->start_ip); 351 EXPECT_EQ(2, block0->end_ip); 352 353 EXPECT_FALSE(cmod_propagation(v)); 354 355 ASSERT_EQ(0, block0->start_ip); 356 ASSERT_EQ(2, block0->end_ip); 357 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 358 EXPECT_EQ(BRW_OPCODE_SEL, instruction(block0, 1)->opcode); 359 EXPECT_EQ(BRW_PREDICATE_NORMAL, instruction(block0, 1)->predicate); 360 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 2)->opcode); 361 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 2)->conditional_mod); 362 } 363 364 TEST_F(cmod_propagation_test, intervening_dest_write) 365 { 366 const vec4_builder bld = vec4_builder(v).at_end(); 367 dst_reg dest = dst_reg(v, glsl_type::vec4_type); 368 src_reg src0 = src_reg(v, glsl_type::float_type); 369 src_reg src1 = src_reg(v, glsl_type::float_type); 370 src_reg src2 = src_reg(v, glsl_type::vec2_type); 371 src_reg zero(brw_imm_f(0.0f)); 372 bld.ADD(offset(dest, 8, 2), src0, src1); 373 bld.emit(SHADER_OPCODE_TEX, dest, src2) 374 ->size_written = 4 * REG_SIZE; 375 bld.CMP(bld.null_reg_f(), offset(src_reg(dest), 8, 2), zero, BRW_CONDITIONAL_GE); 376 377 /* = Before = 378 * 379 * 0: add dest+2 src0 src1 380 * 1: tex rlen 4 dest+0 src2 381 * 2: cmp.ge.f0 null dest+2 0.0f 382 * 383 * = After = 384 * (no changes) 385 */ 386 387 v->calculate_cfg(); 388 bblock_t *block0 = v->cfg->blocks[0]; 389 390 EXPECT_EQ(0, block0->start_ip); 391 EXPECT_EQ(2, block0->end_ip); 392 393 EXPECT_FALSE(cmod_propagation(v)); 394 395 ASSERT_EQ(0, block0->start_ip); 396 ASSERT_EQ(2, block0->end_ip); 397 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 398 EXPECT_EQ(BRW_CONDITIONAL_NONE, instruction(block0, 0)->conditional_mod); 399 EXPECT_EQ(SHADER_OPCODE_TEX, instruction(block0, 1)->opcode); 400 EXPECT_EQ(BRW_CONDITIONAL_NONE, instruction(block0, 0)->conditional_mod); 401 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 2)->opcode); 402 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 2)->conditional_mod); 403 } 404 405 TEST_F(cmod_propagation_test, intervening_flag_read_same_value) 406 { 407 const vec4_builder bld = vec4_builder(v).at_end(); 408 dst_reg dest0 = dst_reg(v, glsl_type::float_type); 409 dst_reg dest1 = dst_reg(v, glsl_type::float_type); 410 src_reg src0 = src_reg(v, glsl_type::float_type); 411 src_reg src1 = src_reg(v, glsl_type::float_type); 412 src_reg src2 = src_reg(v, glsl_type::float_type); 413 src_reg zero(brw_imm_f(0.0f)); 414 dst_reg dest_null = bld.null_reg_f(); 415 dest_null.writemask = WRITEMASK_X; 416 417 set_condmod(BRW_CONDITIONAL_GE, bld.ADD(dest0, src0, src1)); 418 set_predicate(BRW_PREDICATE_NORMAL, bld.SEL(dest1, src2, zero)); 419 bld.CMP(dest_null, src_reg(dest0), zero, BRW_CONDITIONAL_GE); 420 421 /* = Before = 422 * 423 * 0: add.ge.f0 dest0 src0 src1 424 * 1: (+f0) sel dest1 src2 0.0f 425 * 2: cmp.ge.f0 null.x dest0 0.0f 426 * 427 * = After = 428 * 0: add.ge.f0 dest0 src0 src1 429 * 1: (+f0) sel dest1 src2 0.0f 430 */ 431 432 v->calculate_cfg(); 433 bblock_t *block0 = v->cfg->blocks[0]; 434 435 EXPECT_EQ(0, block0->start_ip); 436 EXPECT_EQ(2, block0->end_ip); 437 438 EXPECT_TRUE(cmod_propagation(v)); 439 ASSERT_EQ(0, block0->start_ip); 440 ASSERT_EQ(1, block0->end_ip); 441 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 442 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 0)->conditional_mod); 443 EXPECT_EQ(BRW_OPCODE_SEL, instruction(block0, 1)->opcode); 444 EXPECT_EQ(BRW_PREDICATE_NORMAL, instruction(block0, 1)->predicate); 445 } 446 447 TEST_F(cmod_propagation_test, negate) 448 { 449 const vec4_builder bld = vec4_builder(v).at_end(); 450 dst_reg dest = dst_reg(v, glsl_type::float_type); 451 src_reg src0 = src_reg(v, glsl_type::float_type); 452 src_reg src1 = src_reg(v, glsl_type::float_type); 453 src_reg zero(brw_imm_f(0.0f)); 454 bld.ADD(dest, src0, src1); 455 src_reg tmp_src = src_reg(dest); 456 tmp_src.negate = true; 457 dst_reg dest_null = bld.null_reg_f(); 458 dest_null.writemask = WRITEMASK_X; 459 bld.CMP(dest_null, tmp_src, zero, BRW_CONDITIONAL_GE); 460 461 /* = Before = 462 * 463 * 0: add dest src0 src1 464 * 1: cmp.ge.f0 null.x -dest 0.0f 465 * 466 * = After = 467 * 0: add.le.f0 dest src0 src1 468 */ 469 470 v->calculate_cfg(); 471 bblock_t *block0 = v->cfg->blocks[0]; 472 473 EXPECT_EQ(0, block0->start_ip); 474 EXPECT_EQ(1, block0->end_ip); 475 476 EXPECT_TRUE(cmod_propagation(v)); 477 EXPECT_EQ(0, block0->start_ip); 478 EXPECT_EQ(0, block0->end_ip); 479 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 480 EXPECT_EQ(BRW_CONDITIONAL_LE, instruction(block0, 0)->conditional_mod); 481 } 482 483 TEST_F(cmod_propagation_test, movnz) 484 { 485 const vec4_builder bld = vec4_builder(v).at_end(); 486 dst_reg dest = dst_reg(v, glsl_type::float_type); 487 src_reg src0 = src_reg(v, glsl_type::float_type); 488 src_reg src1 = src_reg(v, glsl_type::float_type); 489 dst_reg dest_null = bld.null_reg_f(); 490 dest_null.writemask = WRITEMASK_X; 491 492 bld.CMP(dest, src0, src1, BRW_CONDITIONAL_L); 493 set_condmod(BRW_CONDITIONAL_NZ, 494 bld.MOV(dest_null, src_reg(dest))); 495 496 /* = Before = 497 * 498 * 0: cmp.l.f0 dest:F src0:F src1:F 499 * 1: mov.nz.f0 null.x dest:F 500 * 501 * = After = 502 * 0: cmp.l.f0 dest src0:F src1:F 503 */ 504 505 v->calculate_cfg(); 506 bblock_t *block0 = v->cfg->blocks[0]; 507 508 EXPECT_EQ(0, block0->start_ip); 509 EXPECT_EQ(1, block0->end_ip); 510 511 EXPECT_TRUE(cmod_propagation(v)); 512 513 ASSERT_EQ(0, block0->start_ip); 514 ASSERT_EQ(0, block0->end_ip); 515 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 0)->opcode); 516 EXPECT_EQ(BRW_CONDITIONAL_L, instruction(block0, 0)->conditional_mod); 517 } 518 519 TEST_F(cmod_propagation_test, different_types_cmod_with_zero) 520 { 521 const vec4_builder bld = vec4_builder(v).at_end(); 522 dst_reg dest = dst_reg(v, glsl_type::int_type); 523 src_reg src0 = src_reg(v, glsl_type::int_type); 524 src_reg src1 = src_reg(v, glsl_type::int_type); 525 src_reg zero(brw_imm_f(0.0f)); 526 bld.ADD(dest, src0, src1); 527 bld.CMP(bld.null_reg_f(), retype(src_reg(dest), BRW_REGISTER_TYPE_F), zero, 528 BRW_CONDITIONAL_GE); 529 530 /* = Before = 531 * 532 * 0: add dest:D src0:D src1:D 533 * 1: cmp.ge.f0 null:F dest:F 0.0f 534 * 535 * = After = 536 * (no changes) 537 */ 538 539 v->calculate_cfg(); 540 bblock_t *block0 = v->cfg->blocks[0]; 541 542 EXPECT_EQ(0, block0->start_ip); 543 EXPECT_EQ(1, block0->end_ip); 544 545 EXPECT_FALSE(cmod_propagation(v)); 546 547 ASSERT_EQ(0, block0->start_ip); 548 ASSERT_EQ(1, block0->end_ip); 549 EXPECT_EQ(BRW_OPCODE_ADD, instruction(block0, 0)->opcode); 550 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 551 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 1)->conditional_mod); 552 } 553 554 TEST_F(cmod_propagation_test, andnz_non_one) 555 { 556 const vec4_builder bld = vec4_builder(v).at_end(); 557 dst_reg dest = dst_reg(v, glsl_type::int_type); 558 src_reg src0 = src_reg(v, glsl_type::float_type); 559 src_reg zero(brw_imm_f(0.0f)); 560 src_reg nonone(brw_imm_d(38)); 561 562 bld.CMP(retype(dest, BRW_REGISTER_TYPE_F), src0, zero, BRW_CONDITIONAL_L); 563 set_condmod(BRW_CONDITIONAL_NZ, 564 bld.AND(bld.null_reg_d(), src_reg(dest), nonone)); 565 566 /* = Before = 567 * 0: cmp.l.f0 dest:F src0:F 0F 568 * 1: and.nz.f0 null:D dest:D 38D 569 * 570 * = After = 571 * (no changes) 572 */ 573 574 v->calculate_cfg(); 575 bblock_t *block0 = v->cfg->blocks[0]; 576 577 EXPECT_EQ(0, block0->start_ip); 578 EXPECT_EQ(1, block0->end_ip); 579 580 EXPECT_FALSE(cmod_propagation(v)); 581 582 ASSERT_EQ(0, block0->start_ip); 583 ASSERT_EQ(1, block0->end_ip); 584 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 0)->opcode); 585 EXPECT_EQ(BRW_CONDITIONAL_L, instruction(block0, 0)->conditional_mod); 586 EXPECT_EQ(BRW_OPCODE_AND, instruction(block0, 1)->opcode); 587 EXPECT_EQ(BRW_CONDITIONAL_NZ, instruction(block0, 1)->conditional_mod); 588 } 589 590 /* Note that basic is using glsl_type:float types, while this one is using 591 * glsl_type::vec4 */ 592 TEST_F(cmod_propagation_test, basic_vec4) 593 { 594 const vec4_builder bld = vec4_builder(v).at_end(); 595 dst_reg dest = dst_reg(v, glsl_type::vec4_type); 596 src_reg src0 = src_reg(v, glsl_type::vec4_type); 597 src_reg src1 = src_reg(v, glsl_type::vec4_type); 598 src_reg zero(brw_imm_f(0.0f)); 599 600 bld.MUL(dest, src0, src1); 601 bld.CMP(bld.null_reg_f(), src_reg(dest), zero, BRW_CONDITIONAL_NZ); 602 603 /* = Before = 604 * 0: mul dest.xyzw src0.xyzw src1.xyzw 605 * 1: cmp.nz.f0.0 null.xyzw dest.xyzw 0.0f 606 * 607 * = After = 608 * 0: mul.nz.f0.0 dest.xyzw src0.xyzw src1.xyzw 609 */ 610 611 v->calculate_cfg(); 612 bblock_t *block0 = v->cfg->blocks[0]; 613 614 EXPECT_EQ(0, block0->start_ip); 615 EXPECT_EQ(1, block0->end_ip); 616 617 EXPECT_TRUE(cmod_propagation(v)); 618 619 ASSERT_EQ(0, block0->start_ip); 620 ASSERT_EQ(0, block0->end_ip); 621 EXPECT_EQ(BRW_OPCODE_MUL, instruction(block0, 0)->opcode); 622 EXPECT_EQ(BRW_CONDITIONAL_NZ, instruction(block0, 0)->conditional_mod); 623 } 624 625 TEST_F(cmod_propagation_test, basic_vec4_different_dst_writemask) 626 { 627 const vec4_builder bld = vec4_builder(v).at_end(); 628 dst_reg dest = dst_reg(v, glsl_type::vec4_type); 629 dest.writemask = WRITEMASK_X; 630 src_reg src0 = src_reg(v, glsl_type::vec4_type); 631 src_reg src1 = src_reg(v, glsl_type::vec4_type); 632 src_reg zero(brw_imm_f(0.0f)); 633 dst_reg dest_null = bld.null_reg_f(); 634 635 bld.MUL(dest, src0, src1); 636 bld.CMP(dest_null, src_reg(dest), zero, BRW_CONDITIONAL_NZ); 637 638 /* = Before = 639 * 0: mul dest.x src0 src1 640 * 1: cmp.nz.f0.0 null dest 0.0f 641 * 642 * = After = 643 * (no changes) 644 */ 645 646 v->calculate_cfg(); 647 bblock_t *block0 = v->cfg->blocks[0]; 648 649 EXPECT_EQ(0, block0->start_ip); 650 EXPECT_EQ(1, block0->end_ip); 651 652 EXPECT_FALSE(cmod_propagation(v)); 653 654 ASSERT_EQ(0, block0->start_ip); 655 ASSERT_EQ(1, block0->end_ip); 656 EXPECT_EQ(BRW_OPCODE_MUL, instruction(block0, 0)->opcode); 657 EXPECT_EQ(BRW_CONDITIONAL_NONE, instruction(block0, 0)->conditional_mod); 658 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 659 EXPECT_EQ(BRW_CONDITIONAL_NZ, instruction(block0, 1)->conditional_mod); 660 } 661 662 TEST_F(cmod_propagation_test, mad_one_component_vec4) 663 { 664 const vec4_builder bld = vec4_builder(v).at_end(); 665 dst_reg dest = dst_reg(v, glsl_type::vec4_type); 666 dest.writemask = WRITEMASK_X; 667 src_reg src0 = src_reg(v, glsl_type::vec4_type); 668 src_reg src1 = src_reg(v, glsl_type::vec4_type); 669 src_reg src2 = src_reg(v, glsl_type::vec4_type); 670 src0.swizzle = src1.swizzle = src2.swizzle = BRW_SWIZZLE_XXXX; 671 src2.negate = true; 672 src_reg zero(brw_imm_f(0.0f)); 673 src_reg tmp(dest); 674 tmp.swizzle = BRW_SWIZZLE_XXXX; 675 dst_reg dest_null = bld.null_reg_f(); 676 dest_null.writemask = WRITEMASK_X; 677 678 bld.MAD(dest, src0, src1, src2); 679 bld.CMP(dest_null, tmp, zero, BRW_CONDITIONAL_L); 680 681 /* = Before = 682 * 683 * 0: mad dest.x:F src0.xxxx:F src10.xxxx:F -src2.xxxx:F 684 * 1: cmp.l.f0.0 null.x:F dest.xxxx:F 0.0f 685 * 686 * = After = 687 * 0: mad.l.f0 dest.x:F src0.xxxx:F src10.xxxx:F -src2.xxxx:F 688 */ 689 690 v->calculate_cfg(); 691 bblock_t *block0 = v->cfg->blocks[0]; 692 693 EXPECT_EQ(0, block0->start_ip); 694 EXPECT_EQ(1, block0->end_ip); 695 696 EXPECT_TRUE(cmod_propagation(v)); 697 698 ASSERT_EQ(0, block0->start_ip); 699 ASSERT_EQ(0, block0->end_ip); 700 EXPECT_EQ(BRW_OPCODE_MAD, instruction(block0, 0)->opcode); 701 EXPECT_EQ(BRW_CONDITIONAL_L, instruction(block0, 0)->conditional_mod); 702 } 703 704 TEST_F(cmod_propagation_test, mad_more_one_component_vec4) 705 { 706 const vec4_builder bld = vec4_builder(v).at_end(); 707 dst_reg dest = dst_reg(v, glsl_type::vec4_type); 708 dest.writemask = WRITEMASK_XW; 709 src_reg src0 = src_reg(v, glsl_type::vec4_type); 710 src_reg src1 = src_reg(v, glsl_type::vec4_type); 711 src_reg src2 = src_reg(v, glsl_type::vec4_type); 712 src0.swizzle = src1.swizzle = src2.swizzle = BRW_SWIZZLE_XXXX; 713 src2.negate = true; 714 src_reg zero(brw_imm_f(0.0f)); 715 src_reg tmp(dest); 716 tmp.swizzle = BRW_SWIZZLE_XXXX; 717 dst_reg dest_null = bld.null_reg_f(); 718 719 bld.MAD(dest, src0, src1, src2); 720 bld.CMP(dest_null, tmp, zero, BRW_CONDITIONAL_L); 721 722 /* = Before = 723 * 724 * 0: mad dest.xw:F src0.xxxx:F src10.xxxx:F -src2.xxxx:F 725 * 1: cmp.l.f0.0 null:F dest.xxxx:F zeroF 726 * 727 * = After = 728 * (No changes) 729 */ 730 731 v->calculate_cfg(); 732 bblock_t *block0 = v->cfg->blocks[0]; 733 734 EXPECT_EQ(0, block0->start_ip); 735 EXPECT_EQ(1, block0->end_ip); 736 737 EXPECT_FALSE(cmod_propagation(v)); 738 739 ASSERT_EQ(0, block0->start_ip); 740 ASSERT_EQ(1, block0->end_ip); 741 EXPECT_EQ(BRW_OPCODE_MAD, instruction(block0, 0)->opcode); 742 EXPECT_EQ(BRW_CONDITIONAL_NONE, instruction(block0, 0)->conditional_mod); 743 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 744 EXPECT_EQ(BRW_CONDITIONAL_L, instruction(block0, 1)->conditional_mod); 745 } 746 747 TEST_F(cmod_propagation_test, cmp_mov_vec4) 748 { 749 const vec4_builder bld = vec4_builder(v).at_end(); 750 dst_reg dest = dst_reg(v, glsl_type::ivec4_type); 751 dest.writemask = WRITEMASK_X; 752 src_reg src0 = src_reg(v, glsl_type::ivec4_type); 753 src0.swizzle = BRW_SWIZZLE_XXXX; 754 src0.file = UNIFORM; 755 src_reg nonone = retype(brw_imm_d(16), BRW_REGISTER_TYPE_D); 756 src_reg mov_src = src_reg(dest); 757 mov_src.swizzle = BRW_SWIZZLE_XXXX; 758 dst_reg dest_null = bld.null_reg_d(); 759 dest_null.writemask = WRITEMASK_X; 760 761 bld.CMP(dest, src0, nonone, BRW_CONDITIONAL_GE); 762 set_condmod(BRW_CONDITIONAL_NZ, 763 bld.MOV(dest_null, mov_src)); 764 765 /* = Before = 766 * 767 * 0: cmp.ge.f0 dest.x:D u.xxxx:D 16D 768 * 1: mov.nz.f0 null.x:D dest.xxxx:D 769 * 770 * = After = 771 * 0: cmp.ge.f0 dest.x:D u.xxxx:D 16D 772 */ 773 774 v->calculate_cfg(); 775 bblock_t *block0 = v->cfg->blocks[0]; 776 777 EXPECT_EQ(0, block0->start_ip); 778 EXPECT_EQ(1, block0->end_ip); 779 780 EXPECT_TRUE(cmod_propagation(v)); 781 782 ASSERT_EQ(0, block0->start_ip); 783 ASSERT_EQ(0, block0->end_ip); 784 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 0)->opcode); 785 EXPECT_EQ(BRW_CONDITIONAL_GE, instruction(block0, 0)->conditional_mod); 786 } 787 788 TEST_F(cmod_propagation_test, mul_cmp_different_channels_vec4) 789 { 790 const vec4_builder bld = vec4_builder(v).at_end(); 791 dst_reg dest = dst_reg(v, glsl_type::vec4_type); 792 src_reg src0 = src_reg(v, glsl_type::vec4_type); 793 src_reg src1 = src_reg(v, glsl_type::vec4_type); 794 src_reg zero(brw_imm_f(0.0f)); 795 src_reg cmp_src = src_reg(dest); 796 cmp_src.swizzle = BRW_SWIZZLE4(0,1,3,2); 797 798 bld.MUL(dest, src0, src1); 799 bld.CMP(bld.null_reg_f(), cmp_src, zero, BRW_CONDITIONAL_NZ); 800 801 /* = Before = 802 * 0: mul dest src0 src1 803 * 1: cmp.nz.f0.0 null dest.xywz 0.0f 804 * 805 * = After = 806 * (No changes) 807 */ 808 809 v->calculate_cfg(); 810 bblock_t *block0 = v->cfg->blocks[0]; 811 812 EXPECT_EQ(0, block0->start_ip); 813 EXPECT_EQ(1, block0->end_ip); 814 815 EXPECT_FALSE(cmod_propagation(v)); 816 817 ASSERT_EQ(0, block0->start_ip); 818 ASSERT_EQ(1, block0->end_ip); 819 EXPECT_EQ(BRW_OPCODE_MUL, instruction(block0, 0)->opcode); 820 EXPECT_EQ(BRW_CONDITIONAL_NONE, instruction(block0, 0)->conditional_mod); 821 EXPECT_EQ(BRW_OPCODE_CMP, instruction(block0, 1)->opcode); 822 EXPECT_EQ(BRW_CONDITIONAL_NZ, instruction(block0, 1)->conditional_mod); 823 } 824
