1b8021494Sopenharmony_ci// Copyright 2016, VIXL authors 2b8021494Sopenharmony_ci// All rights reserved. 3b8021494Sopenharmony_ci// 4b8021494Sopenharmony_ci// Redistribution and use in source and binary forms, with or without 5b8021494Sopenharmony_ci// modification, are permitted provided that the following conditions are met: 6b8021494Sopenharmony_ci// 7b8021494Sopenharmony_ci// * Redistributions of source code must retain the above copyright notice, 8b8021494Sopenharmony_ci// this list of conditions and the following disclaimer. 9b8021494Sopenharmony_ci// * Redistributions in binary form must reproduce the above copyright notice, 10b8021494Sopenharmony_ci// this list of conditions and the following disclaimer in the documentation 11b8021494Sopenharmony_ci// and/or other materials provided with the distribution. 12b8021494Sopenharmony_ci// * Neither the name of ARM Limited nor the names of its contributors may be 13b8021494Sopenharmony_ci// used to endorse or promote products derived from this software without 14b8021494Sopenharmony_ci// specific prior written permission. 15b8021494Sopenharmony_ci// 16b8021494Sopenharmony_ci// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS CONTRIBUTORS "AS IS" AND 17b8021494Sopenharmony_ci// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 18b8021494Sopenharmony_ci// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 19b8021494Sopenharmony_ci// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE 20b8021494Sopenharmony_ci// FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 21b8021494Sopenharmony_ci// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 22b8021494Sopenharmony_ci// SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER 23b8021494Sopenharmony_ci// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, 24b8021494Sopenharmony_ci// OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 25b8021494Sopenharmony_ci// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 26b8021494Sopenharmony_ci 27b8021494Sopenharmony_ci 28b8021494Sopenharmony_ci// ----------------------------------------------------------------------------- 29b8021494Sopenharmony_ci// This file is auto generated from the 30b8021494Sopenharmony_ci// test/aarch32/config/template-simulator-aarch32.cc.in template file using 31b8021494Sopenharmony_ci// tools/generate_tests.py. 32b8021494Sopenharmony_ci// 33b8021494Sopenharmony_ci// PLEASE DO NOT EDIT. 34b8021494Sopenharmony_ci// ----------------------------------------------------------------------------- 35b8021494Sopenharmony_ci 36b8021494Sopenharmony_ci 37b8021494Sopenharmony_ci#include "test-runner.h" 38b8021494Sopenharmony_ci 39b8021494Sopenharmony_ci#include "test-utils.h" 40b8021494Sopenharmony_ci#include "test-utils-aarch32.h" 41b8021494Sopenharmony_ci 42b8021494Sopenharmony_ci#include "aarch32/assembler-aarch32.h" 43b8021494Sopenharmony_ci#include "aarch32/disasm-aarch32.h" 44b8021494Sopenharmony_ci#include "aarch32/macro-assembler-aarch32.h" 45b8021494Sopenharmony_ci 46b8021494Sopenharmony_ci#define __ masm. 47b8021494Sopenharmony_ci#define BUF_SIZE (4096) 48b8021494Sopenharmony_ci 49b8021494Sopenharmony_ci#ifdef VIXL_INCLUDE_SIMULATOR_AARCH32 50b8021494Sopenharmony_ci// Run tests with the simulator. 51b8021494Sopenharmony_ci 52b8021494Sopenharmony_ci#define SETUP() MacroAssembler masm(BUF_SIZE) 53b8021494Sopenharmony_ci 54b8021494Sopenharmony_ci#define START() masm.GetBuffer()->Reset() 55b8021494Sopenharmony_ci 56b8021494Sopenharmony_ci#define END() \ 57b8021494Sopenharmony_ci __ Hlt(0); \ 58b8021494Sopenharmony_ci __ FinalizeCode(); 59b8021494Sopenharmony_ci 60b8021494Sopenharmony_ci// TODO: Run the tests in the simulator. 61b8021494Sopenharmony_ci#define RUN() 62b8021494Sopenharmony_ci 63b8021494Sopenharmony_ci#else // ifdef VIXL_INCLUDE_SIMULATOR_AARCH32. 64b8021494Sopenharmony_ci 65b8021494Sopenharmony_ci#define SETUP() \ 66b8021494Sopenharmony_ci MacroAssembler masm(BUF_SIZE); \ 67b8021494Sopenharmony_ci UseScratchRegisterScope harness_scratch; 68b8021494Sopenharmony_ci 69b8021494Sopenharmony_ci#define START() \ 70b8021494Sopenharmony_ci harness_scratch.Open(&masm); \ 71b8021494Sopenharmony_ci harness_scratch.ExcludeAll(); \ 72b8021494Sopenharmony_ci masm.GetBuffer()->Reset(); \ 73b8021494Sopenharmony_ci __ Push(r4); \ 74b8021494Sopenharmony_ci __ Push(r5); \ 75b8021494Sopenharmony_ci __ Push(r6); \ 76b8021494Sopenharmony_ci __ Push(r7); \ 77b8021494Sopenharmony_ci __ Push(r8); \ 78b8021494Sopenharmony_ci __ Push(r9); \ 79b8021494Sopenharmony_ci __ Push(r10); \ 80b8021494Sopenharmony_ci __ Push(r11); \ 81b8021494Sopenharmony_ci __ Push(lr); \ 82b8021494Sopenharmony_ci harness_scratch.Include(ip); 83b8021494Sopenharmony_ci 84b8021494Sopenharmony_ci#define END() \ 85b8021494Sopenharmony_ci harness_scratch.Exclude(ip); \ 86b8021494Sopenharmony_ci __ Pop(lr); \ 87b8021494Sopenharmony_ci __ Pop(r11); \ 88b8021494Sopenharmony_ci __ Pop(r10); \ 89b8021494Sopenharmony_ci __ Pop(r9); \ 90b8021494Sopenharmony_ci __ Pop(r8); \ 91b8021494Sopenharmony_ci __ Pop(r7); \ 92b8021494Sopenharmony_ci __ Pop(r6); \ 93b8021494Sopenharmony_ci __ Pop(r5); \ 94b8021494Sopenharmony_ci __ Pop(r4); \ 95b8021494Sopenharmony_ci __ Bx(lr); \ 96b8021494Sopenharmony_ci __ FinalizeCode(); \ 97b8021494Sopenharmony_ci harness_scratch.Close(); 98b8021494Sopenharmony_ci 99b8021494Sopenharmony_ci#define RUN() \ 100b8021494Sopenharmony_ci { \ 101b8021494Sopenharmony_ci int pcs_offset = masm.IsUsingT32() ? 1 : 0; \ 102b8021494Sopenharmony_ci masm.GetBuffer()->SetExecutable(); \ 103b8021494Sopenharmony_ci ExecuteMemory(masm.GetBuffer()->GetStartAddress<byte*>(), \ 104b8021494Sopenharmony_ci masm.GetSizeOfCodeGenerated(), \ 105b8021494Sopenharmony_ci pcs_offset); \ 106b8021494Sopenharmony_ci masm.GetBuffer()->SetWritable(); \ 107b8021494Sopenharmony_ci } 108b8021494Sopenharmony_ci 109b8021494Sopenharmony_ci#endif // ifdef VIXL_INCLUDE_SIMULATOR_AARCH32 110b8021494Sopenharmony_ci 111b8021494Sopenharmony_cinamespace vixl { 112b8021494Sopenharmony_cinamespace aarch32 { 113b8021494Sopenharmony_ci 114b8021494Sopenharmony_ci// List of instruction encodings: 115b8021494Sopenharmony_ci#define FOREACH_INSTRUCTION(M) \ 116b8021494Sopenharmony_ci M(Mov) \ 117b8021494Sopenharmony_ci M(Movt) 118b8021494Sopenharmony_ci 119b8021494Sopenharmony_ci 120b8021494Sopenharmony_ci// The following definitions are defined again in each generated test, therefore 121b8021494Sopenharmony_ci// we need to place them in an anonymous namespace. It expresses that they are 122b8021494Sopenharmony_ci// local to this file only, and the compiler is not allowed to share these types 123b8021494Sopenharmony_ci// across test files during template instantiation. Specifically, `Operands` and 124b8021494Sopenharmony_ci// `Inputs` have various layouts across generated tests so they absolutely 125b8021494Sopenharmony_ci// cannot be shared. 126b8021494Sopenharmony_ci 127b8021494Sopenharmony_ci#ifdef VIXL_INCLUDE_TARGET_T32 128b8021494Sopenharmony_cinamespace { 129b8021494Sopenharmony_ci 130b8021494Sopenharmony_ci// Values to be passed to the assembler to produce the instruction under test. 131b8021494Sopenharmony_cistruct Operands { 132b8021494Sopenharmony_ci Condition cond; 133b8021494Sopenharmony_ci Register rd; 134b8021494Sopenharmony_ci uint32_t immediate; 135b8021494Sopenharmony_ci}; 136b8021494Sopenharmony_ci 137b8021494Sopenharmony_ci// Input data to feed to the instruction. 138b8021494Sopenharmony_cistruct Inputs { 139b8021494Sopenharmony_ci uint32_t apsr; 140b8021494Sopenharmony_ci uint32_t rd; 141b8021494Sopenharmony_ci}; 142b8021494Sopenharmony_ci 143b8021494Sopenharmony_ci// This structure contains all input data needed to test one specific encoding. 144b8021494Sopenharmony_ci// It used to generate a loop over an instruction. 145b8021494Sopenharmony_cistruct TestLoopData { 146b8021494Sopenharmony_ci // The `operands` fields represents the values to pass to the assembler to 147b8021494Sopenharmony_ci // produce the instruction. 148b8021494Sopenharmony_ci Operands operands; 149b8021494Sopenharmony_ci // Description of the operands, used for error reporting. 150b8021494Sopenharmony_ci const char* operands_description; 151b8021494Sopenharmony_ci // Unique identifier, used for generating traces. 152b8021494Sopenharmony_ci const char* identifier; 153b8021494Sopenharmony_ci // Array of values to be fed to the instruction. 154b8021494Sopenharmony_ci size_t input_size; 155b8021494Sopenharmony_ci const Inputs* inputs; 156b8021494Sopenharmony_ci}; 157b8021494Sopenharmony_ci 158b8021494Sopenharmony_cistatic const Inputs kCondition[] = {{NFlag, 0xabababab}, 159b8021494Sopenharmony_ci {ZFlag, 0xabababab}, 160b8021494Sopenharmony_ci {CFlag, 0xabababab}, 161b8021494Sopenharmony_ci {VFlag, 0xabababab}, 162b8021494Sopenharmony_ci {NZFlag, 0xabababab}, 163b8021494Sopenharmony_ci {NCFlag, 0xabababab}, 164b8021494Sopenharmony_ci {NVFlag, 0xabababab}, 165b8021494Sopenharmony_ci {ZCFlag, 0xabababab}, 166b8021494Sopenharmony_ci {ZVFlag, 0xabababab}, 167b8021494Sopenharmony_ci {CVFlag, 0xabababab}, 168b8021494Sopenharmony_ci {NZCFlag, 0xabababab}, 169b8021494Sopenharmony_ci {NZVFlag, 0xabababab}, 170b8021494Sopenharmony_ci {NCVFlag, 0xabababab}, 171b8021494Sopenharmony_ci {ZCVFlag, 0xabababab}, 172b8021494Sopenharmony_ci {NZCVFlag, 0xabababab}}; 173b8021494Sopenharmony_ci 174b8021494Sopenharmony_cistatic const Inputs kModifiedImmediate[] = 175b8021494Sopenharmony_ci {{NoFlag, 0x00000000}, {NoFlag, 0x00000001}, {NoFlag, 0x00000002}, 176b8021494Sopenharmony_ci {NoFlag, 0x00000020}, {NoFlag, 0x0000007d}, {NoFlag, 0x0000007e}, 177b8021494Sopenharmony_ci {NoFlag, 0x0000007f}, {NoFlag, 0x00007ffd}, {NoFlag, 0x00007ffe}, 178b8021494Sopenharmony_ci {NoFlag, 0x00007fff}, {NoFlag, 0x33333333}, {NoFlag, 0x55555555}, 179b8021494Sopenharmony_ci {NoFlag, 0x7ffffffd}, {NoFlag, 0x7ffffffe}, {NoFlag, 0x7fffffff}, 180b8021494Sopenharmony_ci {NoFlag, 0x80000000}, {NoFlag, 0x80000001}, {NoFlag, 0xaaaaaaaa}, 181b8021494Sopenharmony_ci {NoFlag, 0xcccccccc}, {NoFlag, 0xffff8000}, {NoFlag, 0xffff8001}, 182b8021494Sopenharmony_ci {NoFlag, 0xffff8002}, {NoFlag, 0xffff8003}, {NoFlag, 0xffffff80}, 183b8021494Sopenharmony_ci {NoFlag, 0xffffff81}, {NoFlag, 0xffffff82}, {NoFlag, 0xffffff83}, 184b8021494Sopenharmony_ci {NoFlag, 0xffffffe0}, {NoFlag, 0xfffffffd}, {NoFlag, 0xfffffffe}, 185b8021494Sopenharmony_ci {NoFlag, 0xffffffff}}; 186b8021494Sopenharmony_ci 187b8021494Sopenharmony_ci 188b8021494Sopenharmony_ci// A loop will be generated for each element of this array. 189b8021494Sopenharmony_ciconst TestLoopData kTests[] = {{{eq, r0, 0x0}, 190b8021494Sopenharmony_ci "eq r0 0x0", 191b8021494Sopenharmony_ci "Condition_eq_r0_0x0", 192b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 193b8021494Sopenharmony_ci kCondition}, 194b8021494Sopenharmony_ci {{ne, r0, 0x0}, 195b8021494Sopenharmony_ci "ne r0 0x0", 196b8021494Sopenharmony_ci "Condition_ne_r0_0x0", 197b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 198b8021494Sopenharmony_ci kCondition}, 199b8021494Sopenharmony_ci {{cs, r0, 0x0}, 200b8021494Sopenharmony_ci "cs r0 0x0", 201b8021494Sopenharmony_ci "Condition_cs_r0_0x0", 202b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 203b8021494Sopenharmony_ci kCondition}, 204b8021494Sopenharmony_ci {{cc, r0, 0x0}, 205b8021494Sopenharmony_ci "cc r0 0x0", 206b8021494Sopenharmony_ci "Condition_cc_r0_0x0", 207b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 208b8021494Sopenharmony_ci kCondition}, 209b8021494Sopenharmony_ci {{mi, r0, 0x0}, 210b8021494Sopenharmony_ci "mi r0 0x0", 211b8021494Sopenharmony_ci "Condition_mi_r0_0x0", 212b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 213b8021494Sopenharmony_ci kCondition}, 214b8021494Sopenharmony_ci {{pl, r0, 0x0}, 215b8021494Sopenharmony_ci "pl r0 0x0", 216b8021494Sopenharmony_ci "Condition_pl_r0_0x0", 217b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 218b8021494Sopenharmony_ci kCondition}, 219b8021494Sopenharmony_ci {{vs, r0, 0x0}, 220b8021494Sopenharmony_ci "vs r0 0x0", 221b8021494Sopenharmony_ci "Condition_vs_r0_0x0", 222b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 223b8021494Sopenharmony_ci kCondition}, 224b8021494Sopenharmony_ci {{vc, r0, 0x0}, 225b8021494Sopenharmony_ci "vc r0 0x0", 226b8021494Sopenharmony_ci "Condition_vc_r0_0x0", 227b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 228b8021494Sopenharmony_ci kCondition}, 229b8021494Sopenharmony_ci {{hi, r0, 0x0}, 230b8021494Sopenharmony_ci "hi r0 0x0", 231b8021494Sopenharmony_ci "Condition_hi_r0_0x0", 232b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 233b8021494Sopenharmony_ci kCondition}, 234b8021494Sopenharmony_ci {{ls, r0, 0x0}, 235b8021494Sopenharmony_ci "ls r0 0x0", 236b8021494Sopenharmony_ci "Condition_ls_r0_0x0", 237b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 238b8021494Sopenharmony_ci kCondition}, 239b8021494Sopenharmony_ci {{ge, r0, 0x0}, 240b8021494Sopenharmony_ci "ge r0 0x0", 241b8021494Sopenharmony_ci "Condition_ge_r0_0x0", 242b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 243b8021494Sopenharmony_ci kCondition}, 244b8021494Sopenharmony_ci {{lt, r0, 0x0}, 245b8021494Sopenharmony_ci "lt r0 0x0", 246b8021494Sopenharmony_ci "Condition_lt_r0_0x0", 247b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 248b8021494Sopenharmony_ci kCondition}, 249b8021494Sopenharmony_ci {{gt, r0, 0x0}, 250b8021494Sopenharmony_ci "gt r0 0x0", 251b8021494Sopenharmony_ci "Condition_gt_r0_0x0", 252b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 253b8021494Sopenharmony_ci kCondition}, 254b8021494Sopenharmony_ci {{le, r0, 0x0}, 255b8021494Sopenharmony_ci "le r0 0x0", 256b8021494Sopenharmony_ci "Condition_le_r0_0x0", 257b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 258b8021494Sopenharmony_ci kCondition}, 259b8021494Sopenharmony_ci {{al, r0, 0x0}, 260b8021494Sopenharmony_ci "al r0 0x0", 261b8021494Sopenharmony_ci "Condition_al_r0_0x0", 262b8021494Sopenharmony_ci ARRAY_SIZE(kCondition), 263b8021494Sopenharmony_ci kCondition}, 264b8021494Sopenharmony_ci {{al, r0, 0x0000}, 265b8021494Sopenharmony_ci "al r0 0x0000", 266b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x0000", 267b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 268b8021494Sopenharmony_ci kModifiedImmediate}, 269b8021494Sopenharmony_ci {{al, r0, 0x0001}, 270b8021494Sopenharmony_ci "al r0 0x0001", 271b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x0001", 272b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 273b8021494Sopenharmony_ci kModifiedImmediate}, 274b8021494Sopenharmony_ci {{al, r0, 0x0002}, 275b8021494Sopenharmony_ci "al r0 0x0002", 276b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x0002", 277b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 278b8021494Sopenharmony_ci kModifiedImmediate}, 279b8021494Sopenharmony_ci {{al, r0, 0x0020}, 280b8021494Sopenharmony_ci "al r0 0x0020", 281b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x0020", 282b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 283b8021494Sopenharmony_ci kModifiedImmediate}, 284b8021494Sopenharmony_ci {{al, r0, 0x007d}, 285b8021494Sopenharmony_ci "al r0 0x007d", 286b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x007d", 287b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 288b8021494Sopenharmony_ci kModifiedImmediate}, 289b8021494Sopenharmony_ci {{al, r0, 0x007e}, 290b8021494Sopenharmony_ci "al r0 0x007e", 291b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x007e", 292b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 293b8021494Sopenharmony_ci kModifiedImmediate}, 294b8021494Sopenharmony_ci {{al, r0, 0x007f}, 295b8021494Sopenharmony_ci "al r0 0x007f", 296b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x007f", 297b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 298b8021494Sopenharmony_ci kModifiedImmediate}, 299b8021494Sopenharmony_ci {{al, r0, 0x7ffd}, 300b8021494Sopenharmony_ci "al r0 0x7ffd", 301b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x7ffd", 302b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 303b8021494Sopenharmony_ci kModifiedImmediate}, 304b8021494Sopenharmony_ci {{al, r0, 0x7ffe}, 305b8021494Sopenharmony_ci "al r0 0x7ffe", 306b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x7ffe", 307b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 308b8021494Sopenharmony_ci kModifiedImmediate}, 309b8021494Sopenharmony_ci {{al, r0, 0x7fff}, 310b8021494Sopenharmony_ci "al r0 0x7fff", 311b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x7fff", 312b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 313b8021494Sopenharmony_ci kModifiedImmediate}, 314b8021494Sopenharmony_ci {{al, r0, 0x3333}, 315b8021494Sopenharmony_ci "al r0 0x3333", 316b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x3333", 317b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 318b8021494Sopenharmony_ci kModifiedImmediate}, 319b8021494Sopenharmony_ci {{al, r0, 0x5555}, 320b8021494Sopenharmony_ci "al r0 0x5555", 321b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x5555", 322b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 323b8021494Sopenharmony_ci kModifiedImmediate}, 324b8021494Sopenharmony_ci {{al, r0, 0xaaaa}, 325b8021494Sopenharmony_ci "al r0 0xaaaa", 326b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xaaaa", 327b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 328b8021494Sopenharmony_ci kModifiedImmediate}, 329b8021494Sopenharmony_ci {{al, r0, 0xcccc}, 330b8021494Sopenharmony_ci "al r0 0xcccc", 331b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xcccc", 332b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 333b8021494Sopenharmony_ci kModifiedImmediate}, 334b8021494Sopenharmony_ci {{al, r0, 0x8000}, 335b8021494Sopenharmony_ci "al r0 0x8000", 336b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x8000", 337b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 338b8021494Sopenharmony_ci kModifiedImmediate}, 339b8021494Sopenharmony_ci {{al, r0, 0x8001}, 340b8021494Sopenharmony_ci "al r0 0x8001", 341b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x8001", 342b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 343b8021494Sopenharmony_ci kModifiedImmediate}, 344b8021494Sopenharmony_ci {{al, r0, 0x8002}, 345b8021494Sopenharmony_ci "al r0 0x8002", 346b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x8002", 347b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 348b8021494Sopenharmony_ci kModifiedImmediate}, 349b8021494Sopenharmony_ci {{al, r0, 0x8003}, 350b8021494Sopenharmony_ci "al r0 0x8003", 351b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0x8003", 352b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 353b8021494Sopenharmony_ci kModifiedImmediate}, 354b8021494Sopenharmony_ci {{al, r0, 0xff80}, 355b8021494Sopenharmony_ci "al r0 0xff80", 356b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xff80", 357b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 358b8021494Sopenharmony_ci kModifiedImmediate}, 359b8021494Sopenharmony_ci {{al, r0, 0xff81}, 360b8021494Sopenharmony_ci "al r0 0xff81", 361b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xff81", 362b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 363b8021494Sopenharmony_ci kModifiedImmediate}, 364b8021494Sopenharmony_ci {{al, r0, 0xff82}, 365b8021494Sopenharmony_ci "al r0 0xff82", 366b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xff82", 367b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 368b8021494Sopenharmony_ci kModifiedImmediate}, 369b8021494Sopenharmony_ci {{al, r0, 0xff83}, 370b8021494Sopenharmony_ci "al r0 0xff83", 371b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xff83", 372b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 373b8021494Sopenharmony_ci kModifiedImmediate}, 374b8021494Sopenharmony_ci {{al, r0, 0xffe0}, 375b8021494Sopenharmony_ci "al r0 0xffe0", 376b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xffe0", 377b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 378b8021494Sopenharmony_ci kModifiedImmediate}, 379b8021494Sopenharmony_ci {{al, r0, 0xfffd}, 380b8021494Sopenharmony_ci "al r0 0xfffd", 381b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xfffd", 382b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 383b8021494Sopenharmony_ci kModifiedImmediate}, 384b8021494Sopenharmony_ci {{al, r0, 0xfffe}, 385b8021494Sopenharmony_ci "al r0 0xfffe", 386b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xfffe", 387b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 388b8021494Sopenharmony_ci kModifiedImmediate}, 389b8021494Sopenharmony_ci {{al, r0, 0xffff}, 390b8021494Sopenharmony_ci "al r0 0xffff", 391b8021494Sopenharmony_ci "ModifiedImmediate_al_r0_0xffff", 392b8021494Sopenharmony_ci ARRAY_SIZE(kModifiedImmediate), 393b8021494Sopenharmony_ci kModifiedImmediate}}; 394b8021494Sopenharmony_ci 395b8021494Sopenharmony_ci// We record all inputs to the instructions as outputs. This way, we also check 396b8021494Sopenharmony_ci// that what shouldn't change didn't change. 397b8021494Sopenharmony_cistruct TestResult { 398b8021494Sopenharmony_ci size_t output_size; 399b8021494Sopenharmony_ci const Inputs* outputs; 400b8021494Sopenharmony_ci}; 401b8021494Sopenharmony_ci 402b8021494Sopenharmony_ci// These headers each contain an array of `TestResult` with the reference output 403b8021494Sopenharmony_ci// values. The reference arrays are names `kReference{mnemonic}`. 404b8021494Sopenharmony_ci#include "aarch32/traces/simulator-cond-rd-operand-imm16-mov-t32.h" 405b8021494Sopenharmony_ci#include "aarch32/traces/simulator-cond-rd-operand-imm16-movt-t32.h" 406b8021494Sopenharmony_ci 407b8021494Sopenharmony_ci 408b8021494Sopenharmony_ci// The maximum number of errors to report in detail for each test. 409b8021494Sopenharmony_ciconst unsigned kErrorReportLimit = 8; 410b8021494Sopenharmony_ci 411b8021494Sopenharmony_citypedef void (MacroAssembler::*Fn)(Condition cond, 412b8021494Sopenharmony_ci Register rd, 413b8021494Sopenharmony_ci const Operand& op); 414b8021494Sopenharmony_ci 415b8021494Sopenharmony_civoid TestHelper(Fn instruction, 416b8021494Sopenharmony_ci const char* mnemonic, 417b8021494Sopenharmony_ci const TestResult reference[]) { 418b8021494Sopenharmony_ci SETUP(); 419b8021494Sopenharmony_ci masm.UseT32(); 420b8021494Sopenharmony_ci START(); 421b8021494Sopenharmony_ci 422b8021494Sopenharmony_ci // Data to compare to `reference`. 423b8021494Sopenharmony_ci TestResult* results[ARRAY_SIZE(kTests)]; 424b8021494Sopenharmony_ci 425b8021494Sopenharmony_ci // Test cases for memory bound instructions may allocate a buffer and save its 426b8021494Sopenharmony_ci // address in this array. 427b8021494Sopenharmony_ci byte* scratch_memory_buffers[ARRAY_SIZE(kTests)]; 428b8021494Sopenharmony_ci 429b8021494Sopenharmony_ci // Generate a loop for each element in `kTests`. Each loop tests one specific 430b8021494Sopenharmony_ci // instruction. 431b8021494Sopenharmony_ci for (unsigned i = 0; i < ARRAY_SIZE(kTests); i++) { 432b8021494Sopenharmony_ci // Allocate results on the heap for this test. 433b8021494Sopenharmony_ci results[i] = new TestResult; 434b8021494Sopenharmony_ci results[i]->outputs = new Inputs[kTests[i].input_size]; 435b8021494Sopenharmony_ci results[i]->output_size = kTests[i].input_size; 436b8021494Sopenharmony_ci 437b8021494Sopenharmony_ci size_t input_stride = sizeof(kTests[i].inputs[0]) * kTests[i].input_size; 438b8021494Sopenharmony_ci VIXL_ASSERT(IsUint32(input_stride)); 439b8021494Sopenharmony_ci 440b8021494Sopenharmony_ci scratch_memory_buffers[i] = NULL; 441b8021494Sopenharmony_ci 442b8021494Sopenharmony_ci Label loop; 443b8021494Sopenharmony_ci UseScratchRegisterScope scratch_registers(&masm); 444b8021494Sopenharmony_ci // Include all registers from r0 ro r12. 445b8021494Sopenharmony_ci scratch_registers.Include(RegisterList(0x1fff)); 446b8021494Sopenharmony_ci 447b8021494Sopenharmony_ci // Values to pass to the macro-assembler. 448b8021494Sopenharmony_ci Condition cond = kTests[i].operands.cond; 449b8021494Sopenharmony_ci Register rd = kTests[i].operands.rd; 450b8021494Sopenharmony_ci uint32_t immediate = kTests[i].operands.immediate; 451b8021494Sopenharmony_ci Operand op(immediate); 452b8021494Sopenharmony_ci scratch_registers.Exclude(rd); 453b8021494Sopenharmony_ci 454b8021494Sopenharmony_ci // Allocate reserved registers for our own use. 455b8021494Sopenharmony_ci Register input_ptr = scratch_registers.Acquire(); 456b8021494Sopenharmony_ci Register input_end = scratch_registers.Acquire(); 457b8021494Sopenharmony_ci Register result_ptr = scratch_registers.Acquire(); 458b8021494Sopenharmony_ci 459b8021494Sopenharmony_ci // Initialize `input_ptr` to the first element and `input_end` the address 460b8021494Sopenharmony_ci // after the array. 461b8021494Sopenharmony_ci __ Mov(input_ptr, Operand::From(kTests[i].inputs)); 462b8021494Sopenharmony_ci __ Add(input_end, input_ptr, static_cast<uint32_t>(input_stride)); 463b8021494Sopenharmony_ci __ Mov(result_ptr, Operand::From(results[i]->outputs)); 464b8021494Sopenharmony_ci __ Bind(&loop); 465b8021494Sopenharmony_ci 466b8021494Sopenharmony_ci { 467b8021494Sopenharmony_ci UseScratchRegisterScope temp_registers(&masm); 468b8021494Sopenharmony_ci Register nzcv_bits = temp_registers.Acquire(); 469b8021494Sopenharmony_ci Register saved_q_bit = temp_registers.Acquire(); 470b8021494Sopenharmony_ci // Save the `Q` bit flag. 471b8021494Sopenharmony_ci __ Mrs(saved_q_bit, APSR); 472b8021494Sopenharmony_ci __ And(saved_q_bit, saved_q_bit, QFlag); 473b8021494Sopenharmony_ci // Set the `NZCV` and `Q` flags together. 474b8021494Sopenharmony_ci __ Ldr(nzcv_bits, MemOperand(input_ptr, offsetof(Inputs, apsr))); 475b8021494Sopenharmony_ci __ Orr(nzcv_bits, nzcv_bits, saved_q_bit); 476b8021494Sopenharmony_ci __ Msr(APSR_nzcvq, nzcv_bits); 477b8021494Sopenharmony_ci } 478b8021494Sopenharmony_ci __ Ldr(rd, MemOperand(input_ptr, offsetof(Inputs, rd))); 479b8021494Sopenharmony_ci 480b8021494Sopenharmony_ci (masm.*instruction)(cond, rd, op); 481b8021494Sopenharmony_ci 482b8021494Sopenharmony_ci { 483b8021494Sopenharmony_ci UseScratchRegisterScope temp_registers(&masm); 484b8021494Sopenharmony_ci Register nzcv_bits = temp_registers.Acquire(); 485b8021494Sopenharmony_ci __ Mrs(nzcv_bits, APSR); 486b8021494Sopenharmony_ci // Only record the NZCV bits. 487b8021494Sopenharmony_ci __ And(nzcv_bits, nzcv_bits, NZCVFlag); 488b8021494Sopenharmony_ci __ Str(nzcv_bits, MemOperand(result_ptr, offsetof(Inputs, apsr))); 489b8021494Sopenharmony_ci } 490b8021494Sopenharmony_ci __ Str(rd, MemOperand(result_ptr, offsetof(Inputs, rd))); 491b8021494Sopenharmony_ci 492b8021494Sopenharmony_ci // Advance the result pointer. 493b8021494Sopenharmony_ci __ Add(result_ptr, result_ptr, Operand::From(sizeof(kTests[i].inputs[0]))); 494b8021494Sopenharmony_ci // Loop back until `input_ptr` is lower than `input_base`. 495b8021494Sopenharmony_ci __ Add(input_ptr, input_ptr, Operand::From(sizeof(kTests[i].inputs[0]))); 496b8021494Sopenharmony_ci __ Cmp(input_ptr, input_end); 497b8021494Sopenharmony_ci __ B(ne, &loop); 498b8021494Sopenharmony_ci } 499b8021494Sopenharmony_ci 500b8021494Sopenharmony_ci END(); 501b8021494Sopenharmony_ci 502b8021494Sopenharmony_ci RUN(); 503b8021494Sopenharmony_ci 504b8021494Sopenharmony_ci if (Test::generate_test_trace()) { 505b8021494Sopenharmony_ci // Print the results. 506b8021494Sopenharmony_ci for (size_t i = 0; i < ARRAY_SIZE(kTests); i++) { 507b8021494Sopenharmony_ci printf("const Inputs kOutputs_%s_%s[] = {\n", 508b8021494Sopenharmony_ci mnemonic, 509b8021494Sopenharmony_ci kTests[i].identifier); 510b8021494Sopenharmony_ci for (size_t j = 0; j < results[i]->output_size; j++) { 511b8021494Sopenharmony_ci printf(" { "); 512b8021494Sopenharmony_ci printf("0x%08" PRIx32, results[i]->outputs[j].apsr); 513b8021494Sopenharmony_ci printf(", "); 514b8021494Sopenharmony_ci printf("0x%08" PRIx32, results[i]->outputs[j].rd); 515b8021494Sopenharmony_ci printf(" },\n"); 516b8021494Sopenharmony_ci } 517b8021494Sopenharmony_ci printf("};\n"); 518b8021494Sopenharmony_ci } 519b8021494Sopenharmony_ci printf("const TestResult kReference%s[] = {\n", mnemonic); 520b8021494Sopenharmony_ci for (size_t i = 0; i < ARRAY_SIZE(kTests); i++) { 521b8021494Sopenharmony_ci printf(" {\n"); 522b8021494Sopenharmony_ci printf(" ARRAY_SIZE(kOutputs_%s_%s),\n", 523b8021494Sopenharmony_ci mnemonic, 524b8021494Sopenharmony_ci kTests[i].identifier); 525b8021494Sopenharmony_ci printf(" kOutputs_%s_%s,\n", mnemonic, kTests[i].identifier); 526b8021494Sopenharmony_ci printf(" },\n"); 527b8021494Sopenharmony_ci } 528b8021494Sopenharmony_ci printf("};\n"); 529b8021494Sopenharmony_ci } else if (kCheckSimulatorTestResults) { 530b8021494Sopenharmony_ci // Check the results. 531b8021494Sopenharmony_ci unsigned total_error_count = 0; 532b8021494Sopenharmony_ci for (size_t i = 0; i < ARRAY_SIZE(kTests); i++) { 533b8021494Sopenharmony_ci bool instruction_has_errors = false; 534b8021494Sopenharmony_ci for (size_t j = 0; j < kTests[i].input_size; j++) { 535b8021494Sopenharmony_ci uint32_t apsr = results[i]->outputs[j].apsr; 536b8021494Sopenharmony_ci uint32_t rd = results[i]->outputs[j].rd; 537b8021494Sopenharmony_ci uint32_t apsr_input = kTests[i].inputs[j].apsr; 538b8021494Sopenharmony_ci uint32_t rd_input = kTests[i].inputs[j].rd; 539b8021494Sopenharmony_ci uint32_t apsr_ref = reference[i].outputs[j].apsr; 540b8021494Sopenharmony_ci uint32_t rd_ref = reference[i].outputs[j].rd; 541b8021494Sopenharmony_ci 542b8021494Sopenharmony_ci if (((apsr != apsr_ref) || (rd != rd_ref)) && 543b8021494Sopenharmony_ci (++total_error_count <= kErrorReportLimit)) { 544b8021494Sopenharmony_ci // Print the instruction once even if it triggered multiple failures. 545b8021494Sopenharmony_ci if (!instruction_has_errors) { 546b8021494Sopenharmony_ci printf("Error(s) when testing \"%s %s\":\n", 547b8021494Sopenharmony_ci mnemonic, 548b8021494Sopenharmony_ci kTests[i].operands_description); 549b8021494Sopenharmony_ci instruction_has_errors = true; 550b8021494Sopenharmony_ci } 551b8021494Sopenharmony_ci // Print subsequent errors. 552b8021494Sopenharmony_ci printf(" Input: "); 553b8021494Sopenharmony_ci printf("0x%08" PRIx32, apsr_input); 554b8021494Sopenharmony_ci printf(", "); 555b8021494Sopenharmony_ci printf("0x%08" PRIx32, rd_input); 556b8021494Sopenharmony_ci printf("\n"); 557b8021494Sopenharmony_ci printf(" Expected: "); 558b8021494Sopenharmony_ci printf("0x%08" PRIx32, apsr_ref); 559b8021494Sopenharmony_ci printf(", "); 560b8021494Sopenharmony_ci printf("0x%08" PRIx32, rd_ref); 561b8021494Sopenharmony_ci printf("\n"); 562b8021494Sopenharmony_ci printf(" Found: "); 563b8021494Sopenharmony_ci printf("0x%08" PRIx32, apsr); 564b8021494Sopenharmony_ci printf(", "); 565b8021494Sopenharmony_ci printf("0x%08" PRIx32, rd); 566b8021494Sopenharmony_ci printf("\n\n"); 567b8021494Sopenharmony_ci } 568b8021494Sopenharmony_ci } 569b8021494Sopenharmony_ci } 570b8021494Sopenharmony_ci 571b8021494Sopenharmony_ci if (total_error_count > kErrorReportLimit) { 572b8021494Sopenharmony_ci printf("%u other errors follow.\n", 573b8021494Sopenharmony_ci total_error_count - kErrorReportLimit); 574b8021494Sopenharmony_ci } 575b8021494Sopenharmony_ci VIXL_CHECK(total_error_count == 0); 576b8021494Sopenharmony_ci } else { 577b8021494Sopenharmony_ci VIXL_WARNING("Assembled the code, but did not run anything.\n"); 578b8021494Sopenharmony_ci } 579b8021494Sopenharmony_ci 580b8021494Sopenharmony_ci for (size_t i = 0; i < ARRAY_SIZE(kTests); i++) { 581b8021494Sopenharmony_ci delete[] results[i]->outputs; 582b8021494Sopenharmony_ci delete results[i]; 583b8021494Sopenharmony_ci delete[] scratch_memory_buffers[i]; 584b8021494Sopenharmony_ci } 585b8021494Sopenharmony_ci} 586b8021494Sopenharmony_ci 587b8021494Sopenharmony_ci// Instantiate tests for each instruction in the list. 588b8021494Sopenharmony_ci// TODO: Remove this limitation by having a sandboxing mechanism. 589b8021494Sopenharmony_ci#if defined(VIXL_HOST_POINTER_32) 590b8021494Sopenharmony_ci#define TEST(mnemonic) \ 591b8021494Sopenharmony_ci void Test_##mnemonic() { \ 592b8021494Sopenharmony_ci TestHelper(&MacroAssembler::mnemonic, #mnemonic, kReference##mnemonic); \ 593b8021494Sopenharmony_ci } \ 594b8021494Sopenharmony_ci Test test_##mnemonic("AARCH32_SIMULATOR_COND_RD_OPERAND_IMM16_" #mnemonic \ 595b8021494Sopenharmony_ci "_T32", \ 596b8021494Sopenharmony_ci &Test_##mnemonic); 597b8021494Sopenharmony_ci#else 598b8021494Sopenharmony_ci#define TEST(mnemonic) \ 599b8021494Sopenharmony_ci void Test_##mnemonic() { \ 600b8021494Sopenharmony_ci VIXL_WARNING("This test can only run on a 32-bit host.\n"); \ 601b8021494Sopenharmony_ci USE(TestHelper); \ 602b8021494Sopenharmony_ci } \ 603b8021494Sopenharmony_ci Test test_##mnemonic("AARCH32_SIMULATOR_COND_RD_OPERAND_IMM16_" #mnemonic \ 604b8021494Sopenharmony_ci "_T32", \ 605b8021494Sopenharmony_ci &Test_##mnemonic); 606b8021494Sopenharmony_ci#endif 607b8021494Sopenharmony_ci 608b8021494Sopenharmony_ciFOREACH_INSTRUCTION(TEST) 609b8021494Sopenharmony_ci#undef TEST 610b8021494Sopenharmony_ci 611b8021494Sopenharmony_ci} // namespace 612b8021494Sopenharmony_ci#endif 613b8021494Sopenharmony_ci 614b8021494Sopenharmony_ci} // namespace aarch32 615b8021494Sopenharmony_ci} // namespace vixl 616