test/cctest/test-simulator-neon-arm64.cc - Issue 2819093002: Revert "Reland "ARM64: Add NEON support""

Unified Diff: test/cctest/test-simulator-neon-arm64.cc

Issue 2819093002: Revert "Reland "ARM64: Add NEON support"" (Closed)

Patch Set: Created 3 years, 8 months ago

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Index: test/cctest/test-simulator-neon-arm64.cc

diff --git a/test/cctest/test-simulator-neon-arm64.cc b/test/cctest/test-simulator-neon-arm64.cc

deleted file mode 100644

index 7468e3d854d70fe20c98243c59e71ab81654a4b4..0000000000000000000000000000000000000000

--- a/test/cctest/test-simulator-neon-arm64.cc

+++ /dev/null

@@ -1,2562 +0,0 @@

-// Use of this source code is governed by a BSD-style license that can be

-// found in the LICENSE file.

-#include <stdio.h>

-#include <stdlib.h>

-#include <string.h>

-#include <cmath>

-#include <limits>

-#include "src/arm64/decoder-arm64-inl.h"

-#include "src/arm64/disasm-arm64.h"

-#include "src/arm64/simulator-arm64.h"

-#include "src/arm64/utils-arm64.h"

-#include "src/base/platform/platform.h"

-#include "src/base/utils/random-number-generator.h"

-#include "src/macro-assembler-inl.h"

-#include "test/cctest/cctest.h"

-#include "test/cctest/test-simulator-neon-inputs-arm64.h"

-#include "test/cctest/test-simulator-neon-traces-arm64.h"

-#include "test/cctest/test-utils-arm64.h"

-using namespace v8::internal;

-// Test infrastructure.

-//

-// Tests are functions which accept no parameters and have no return values.

-// The testing code should not perform an explicit return once completed. For

-// example to test the mov immediate instruction a very simple test would be:

-//

-// SIMTEST(mov_x0_one) {

-// SETUP();

-//

-// START();

-// __ mov(x0, Operand(1));

-// END();

-//

-// RUN();

-//

-// CHECK_EQUAL_64(1, x0);

-//

-// TEARDOWN();

-// }

-//

-// Within a START ... END block all registers but sp can be modified. sp has to

-// be explicitly saved/restored. The END() macro replaces the function return

-// so it may appear multiple times in a test if the test has multiple exit

-// points.

-//

-// Once the test has been run all integer and floating point registers as well

-// as flags are accessible through a RegisterDump instance, see

-// test-utils-arm64.h for more info on RegisterDump.

-//

-// We provide some helper assert to handle common cases:

-//

-// CHECK_EQUAL_32(int32_t, int32_t)

-// CHECK_EQUAL_FP32(float, float)

-// CHECK_EQUAL_32(int32_t, W register)

-// CHECK_EQUAL_FP32(float, S register)

-// CHECK_EQUAL_64(int64_t, int64_t)

-// CHECK_EQUAL_FP64(double, double)

-// CHECK_EQUAL_64(int64_t, X register)

-// CHECK_EQUAL_64(X register, X register)

-// CHECK_EQUAL_FP64(double, D register)

-//

-// e.g. CHECK_EQUAL_64(0.5, d30);

-//

-// If more advance computation is required before the assert then access the

-// RegisterDump named core directly:

-//

-// CHECK_EQUAL_64(0x1234, core.xreg(0) & 0xffff);

-#if 0 // TODO(all): enable.

-static v8::Persistent<v8::Context> env;

-static void InitializeVM() {

- if (env.IsEmpty()) {

- env = v8::Context::New();

- }

-#endif

-#define __ masm.

-#define SIMTEST(name) TEST(SIM_##name)

-#define BUF_SIZE 8192

-#define SETUP() SETUP_SIZE(BUF_SIZE)

-#define INIT_V8() CcTest::InitializeVM();

-#ifdef USE_SIMULATOR

-// Run tests with the simulator.

-#define SETUP_SIZE(buf_size) \

- Isolate* isolate = CcTest::i_isolate(); \

- HandleScope scope(isolate); \

- CHECK(isolate != NULL); \

- byte* buf = new byte[buf_size]; \

- MacroAssembler masm(isolate, buf, buf_size, \

- v8::internal::CodeObjectRequired::kYes); \

- Decoder<DispatchingDecoderVisitor>* decoder = \

- new Decoder<DispatchingDecoderVisitor>(); \

- Simulator simulator(decoder); \

- RegisterDump core;

-// Reset the assembler and simulator, so that instructions can be generated,

-// but don't actually emit any code. This can be used by tests that need to

-// emit instructions at the start of the buffer. Note that START_AFTER_RESET

-// must be called before any callee-saved register is modified, and before an

-// END is encountered.

-//

-// Most tests should call START, rather than call RESET directly.

-#define RESET() \

- __ Reset(); \

- simulator.ResetState();

-#define START_AFTER_RESET() \

- __ SetStackPointer(csp); \

- __ PushCalleeSavedRegisters(); \

- __ Debug("Start test.", __LINE__, TRACE_ENABLE | LOG_ALL);

-#define START() \

- RESET(); \

- START_AFTER_RESET();

-#define RUN() simulator.RunFrom(reinterpret_cast<Instruction*>(buf))

-#define END() \

- __ Debug("End test.", __LINE__, TRACE_DISABLE | LOG_ALL); \

- core.Dump(&masm); \

- __ PopCalleeSavedRegisters(); \

- __ Ret(); \

- __ GetCode(NULL);

-#define TEARDOWN() delete[] buf;

-#else // ifdef USE_SIMULATOR.

-// Run the test on real hardware or models.

-#define SETUP_SIZE(buf_size) \

- Isolate* isolate = CcTest::i_isolate(); \

- HandleScope scope(isolate); \

- CHECK(isolate != NULL); \

- size_t actual_size; \

- byte* buf = static_cast<byte*>( \

- v8::base::OS::Allocate(buf_size, &actual_size, true)); \

- MacroAssembler masm(isolate, buf, actual_size, \

- v8::internal::CodeObjectRequired::kYes); \

- RegisterDump core;

-#define RESET() \

- __ Reset(); \

- /* Reset the machine state (like simulator.ResetState()). */ \

- __ Msr(NZCV, xzr); \

- __ Msr(FPCR, xzr);

-#define START_AFTER_RESET() \

- __ SetStackPointer(csp); \

- __ PushCalleeSavedRegisters();

-#define START() \

- RESET(); \

- START_AFTER_RESET();

-#define RUN() \

- Assembler::FlushICache(isolate, buf, masm.SizeOfGeneratedCode()); \

- { \

- void (*test_function)(void); \

- memcpy(&test_function, &buf, sizeof(buf)); \

- test_function(); \

- }

-#define END() \

- core.Dump(&masm); \

- __ PopCalleeSavedRegisters(); \

- __ Ret(); \

- __ GetCode(NULL);

-#define TEARDOWN() v8::base::OS::Free(buf, actual_size);

-#endif // ifdef USE_SIMULATOR.

-#define CHECK_EQUAL_NZCV(expected) CHECK(EqualNzcv(expected, core.flags_nzcv()))

-#define CHECK_EQUAL_REGISTERS(expected) CHECK(EqualRegisters(&expected, &core))

-#define CHECK_EQUAL_32(expected, result) \

- CHECK(Equal32(static_cast<uint32_t>(expected), &core, result))

-#define CHECK_EQUAL_FP32(expected, result) \

- CHECK(EqualFP32(expected, &core, result))

-#define CHECK_EQUAL_64(expected, result) CHECK(Equal64(expected, &core, result))

-#define CHECK_EQUAL_FP64(expected, result) \

- CHECK(EqualFP64(expected, &core, result))

-#ifdef DEBUG

-#define CHECK_LITERAL_POOL_SIZE(expected) \

- CHECK((expected) == (__ LiteralPoolSize()))

-#else

-#define CHECK_LITERAL_POOL_SIZE(expected) ((void)0)

-#endif

-// The maximum number of errors to report in detail for each test.

-static const unsigned kErrorReportLimit = 8;

-typedef void (MacroAssembler::*Test1OpNEONHelper_t)(const VRegister& vd,

- const VRegister& vn);

-typedef void (MacroAssembler::*Test2OpNEONHelper_t)(const VRegister& vd,

- const VRegister& vn,

- const VRegister& vm);

-typedef void (MacroAssembler::*TestByElementNEONHelper_t)(const VRegister& vd,

- const VRegister& vn,

- const VRegister& vm,

- int vm_index);

-typedef void (MacroAssembler::*TestOpImmOpImmVdUpdateNEONHelper_t)(

- const VRegister& vd, int imm1, const VRegister& vn, int imm2);

-// This helps using the same typename for both the function pointer

-// and the array of immediates passed to helper routines.

-template <typename T>

-class Test2OpImmediateNEONHelper_t {

- public:

- typedef void (MacroAssembler::*mnemonic)(const VRegister& vd,

- const VRegister& vn, T imm);

-};

-namespace {

-// Maximum number of hex characters required to represent values of either

-// templated type.

-template <typename Ta, typename Tb>

-unsigned MaxHexCharCount() {

- unsigned count = static_cast<unsigned>(std::max(sizeof(Ta), sizeof(Tb)));

- return (count * 8) / 4;

-// ==== Tests for instructions of the form <INST> VReg, VReg. ====

-void Test1OpNEON_Helper(Test1OpNEONHelper_t helper, uintptr_t inputs_n,

- unsigned inputs_n_length, uintptr_t results,

- VectorFormat vd_form, VectorFormat vn_form) {

- DCHECK_NE(vd_form, kFormatUndefined);

- DCHECK_NE(vn_form, kFormatUndefined);

- SETUP();

- START();

- // Roll up the loop to keep the code size down.

- Label loop_n;

- Register out = x0;

- Register inputs_n_base = x1;

- Register inputs_n_last_16bytes = x3;

- Register index_n = x5;

- const unsigned vd_bits = RegisterSizeInBitsFromFormat(vd_form);

- const unsigned vd_lane_count = LaneCountFromFormat(vd_form);

- const unsigned vn_bits = RegisterSizeInBitsFromFormat(vn_form);

- const unsigned vn_lane_count = LaneCountFromFormat(vn_form);

- const unsigned vn_lane_bytes = LaneSizeInBytesFromFormat(vn_form);

- const unsigned vn_lane_bytes_log2 = LaneSizeInBytesLog2FromFormat(vn_form);

- const unsigned vn_lane_bits = LaneSizeInBitsFromFormat(vn_form);

- // These will be either a D- or a Q-register form, with a single lane

- // (for use in scalar load and store operations).

- VRegister vd = VRegister::Create(0, vd_bits);

- VRegister vn = v1.V16B();

- VRegister vntmp = v3.V16B();

- // These will have the correct format for use when calling 'helper'.

- VRegister vd_helper = VRegister::Create(0, vd_bits, vd_lane_count);

- VRegister vn_helper = VRegister::Create(1, vn_bits, vn_lane_count);

- // 'v*tmp_single' will be either 'Vt.B', 'Vt.H', 'Vt.S' or 'Vt.D'.

- VRegister vntmp_single = VRegister::Create(3, vn_lane_bits);

- __ Mov(out, results);

- __ Mov(inputs_n_base, inputs_n);

- __ Mov(inputs_n_last_16bytes,

- inputs_n + (vn_lane_bytes * inputs_n_length) - 16);

- __ Ldr(vn, MemOperand(inputs_n_last_16bytes));

- __ Mov(index_n, 0);

- __ Bind(&loop_n);

- __ Ldr(vntmp_single,

- MemOperand(inputs_n_base, index_n, LSL, vn_lane_bytes_log2));

- __ Ext(vn, vn, vntmp, vn_lane_bytes);

- // Set the destination to zero.

- // TODO(all): Setting the destination to values other than zero might be a

- // better test for instructions such as sqxtn2 which may leave parts of V

- // registers unchanged.

- __ Movi(vd.V16B(), 0);

- (masm.*helper)(vd_helper, vn_helper);

- __ Str(vd, MemOperand(out, vd.SizeInBytes(), PostIndex));

- __ Add(index_n, index_n, 1);

- __ Cmp(index_n, inputs_n_length);

- __ B(lo, &loop_n);

- END();

- RUN();

- TEARDOWN();

-// Test NEON instructions. The inputs_*[] and expected[] arrays should be

-// arrays of rawbit representation of input values. This ensures that

-// exact bit comparisons can be performed.

-template <typename Td, typename Tn>

-void Test1OpNEON(const char* name, Test1OpNEONHelper_t helper,

- const Tn inputs_n[], unsigned inputs_n_length,

- const Td expected[], unsigned expected_length,

- VectorFormat vd_form, VectorFormat vn_form) {

- DCHECK_GT(inputs_n_length, 0U);

- const unsigned vd_lane_count = LaneCountFromFormat(vd_form);

- const unsigned vn_lane_bytes = LaneSizeInBytesFromFormat(vn_form);

- const unsigned vn_lane_count = LaneCountFromFormat(vn_form);

- const unsigned results_length = inputs_n_length;

- std::vector<Td> results(results_length * vd_lane_count, 0);

- const unsigned lane_len_in_hex = MaxHexCharCount<Td, Tn>();

- Test1OpNEON_Helper(

- helper, reinterpret_cast<uintptr_t>(inputs_n), inputs_n_length,

- reinterpret_cast<uintptr_t>(results.data()), vd_form, vn_form);

- // Check the results.

- CHECK(expected_length == results_length);

- unsigned error_count = 0;

- unsigned d = 0;

- const char* padding = " ";

- DCHECK_GE(strlen(padding), (lane_len_in_hex + 1));

- for (unsigned n = 0; n < inputs_n_length; n++, d++) {

- bool error_in_vector = false;

- for (unsigned lane = 0; lane < vd_lane_count; lane++) {

- unsigned output_index = (n * vd_lane_count) + lane;

- if (results[output_index] != expected[output_index]) {

- error_in_vector = true;

- break;

- }

- if (error_in_vector && (++error_count <= kErrorReportLimit)) {

- printf("%s\n", name);

- printf(" Vn%.*s| Vd%.*s| Expected\n", lane_len_in_hex + 1, padding,

- lane_len_in_hex + 1, padding);

- const unsigned first_index_n =

- inputs_n_length - (16 / vn_lane_bytes) + n + 1;

- for (unsigned lane = 0; lane < std::max(vd_lane_count, vn_lane_count);

- lane++) {

- unsigned output_index = (n * vd_lane_count) + lane;

- unsigned input_index_n = (first_index_n + lane) % inputs_n_length;

- printf("%c0x%0*" PRIx64 " | 0x%0*" PRIx64

- " "

- "| 0x%0*" PRIx64 "\n",

- results[output_index] != expected[output_index] ? '*' : ' ',

- lane_len_in_hex, static_cast<uint64_t>(inputs_n[input_index_n]),

- lane_len_in_hex, static_cast<uint64_t>(results[output_index]),

- lane_len_in_hex, static_cast<uint64_t>(expected[output_index]));

- }

- DCHECK_EQ(d, expected_length);

- if (error_count > kErrorReportLimit) {

- printf("%u other errors follow.\n", error_count - kErrorReportLimit);

- }

- DCHECK_EQ(error_count, 0U);

-// ==== Tests for instructions of the form <mnemonic> <V><d>, <Vn>.<T> ====

-// where <V> is one of B, H, S or D registers.

-// e.g. saddlv H1, v0.8B

-// TODO(all): Change tests to store all lanes of the resulting V register.

-// Some tests store all 128 bits of the resulting V register to

-// check the simulator's behaviour on the rest of the register.

-// This is better than storing the affected lanes only.

-// Change any tests such as the 'Across' template to do the same.

-void Test1OpAcrossNEON_Helper(Test1OpNEONHelper_t helper, uintptr_t inputs_n,

- unsigned inputs_n_length, uintptr_t results,

- VectorFormat vd_form, VectorFormat vn_form) {

- DCHECK_NE(vd_form, kFormatUndefined);

- DCHECK_NE(vn_form, kFormatUndefined);

- SETUP();

- START();

- // Roll up the loop to keep the code size down.

- Label loop_n;

- Register out = x0;

- Register inputs_n_base = x1;

- Register inputs_n_last_vector = x3;

- Register index_n = x5;

- const unsigned vd_bits = RegisterSizeInBitsFromFormat(vd_form);

- const unsigned vn_bits = RegisterSizeInBitsFromFormat(vn_form);

- const unsigned vn_lane_count = LaneCountFromFormat(vn_form);

- const unsigned vn_lane_bytes = LaneSizeInBytesFromFormat(vn_form);

- const unsigned vn_lane_bytes_log2 = LaneSizeInBytesLog2FromFormat(vn_form);

- const unsigned vn_lane_bits = LaneSizeInBitsFromFormat(vn_form);

- // Test destructive operations by (arbitrarily) using the same register for

- // B and S lane sizes.

- bool destructive = (vd_bits == kBRegSize) || (vd_bits == kSRegSize);

- // These will be either a D- or a Q-register form, with a single lane

- // (for use in scalar load and store operations).

- // Create two aliases for v8; the first is the destination for the tested

- // instruction, the second, the whole Q register to check the results.

- VRegister vd = VRegister::Create(0, vd_bits);

- VRegister vdstr = VRegister::Create(0, kQRegSizeInBits);

- VRegister vn = VRegister::Create(1, vn_bits);

- VRegister vntmp = VRegister::Create(3, vn_bits);

- // These will have the correct format for use when calling 'helper'.

- VRegister vd_helper = VRegister::Create(0, vn_bits, vn_lane_count);

- VRegister vn_helper = VRegister::Create(1, vn_bits, vn_lane_count);

- // 'v*tmp_single' will be either 'Vt.B', 'Vt.H', 'Vt.S' or 'Vt.D'.

- VRegister vntmp_single = VRegister::Create(3, vn_lane_bits);

- // Same registers for use in the 'ext' instructions.

- VRegister vn_ext = (kDRegSizeInBits == vn_bits) ? vn.V8B() : vn.V16B();

- VRegister vntmp_ext =

- (kDRegSizeInBits == vn_bits) ? vntmp.V8B() : vntmp.V16B();

- __ Mov(out, results);

- __ Mov(inputs_n_base, inputs_n);

- __ Mov(inputs_n_last_vector,

- inputs_n + vn_lane_bytes * (inputs_n_length - vn_lane_count));

- __ Ldr(vn, MemOperand(inputs_n_last_vector));

- __ Mov(index_n, 0);

- __ Bind(&loop_n);

- __ Ldr(vntmp_single,

- MemOperand(inputs_n_base, index_n, LSL, vn_lane_bytes_log2));

- __ Ext(vn_ext, vn_ext, vntmp_ext, vn_lane_bytes);

- if (destructive) {

- __ Mov(vd_helper, vn_helper);

- (masm.*helper)(vd, vd_helper);

- } else {

- (masm.*helper)(vd, vn_helper);

- }

- __ Str(vdstr, MemOperand(out, kQRegSize, PostIndex));

- __ Add(index_n, index_n, 1);

- __ Cmp(index_n, inputs_n_length);

- __ B(lo, &loop_n);

- END();

- RUN();

- TEARDOWN();

-// Test NEON instructions. The inputs_*[] and expected[] arrays should be

-// arrays of rawbit representation of input values. This ensures that

-// exact bit comparisons can be performed.

-template <typename Td, typename Tn>

-void Test1OpAcrossNEON(const char* name, Test1OpNEONHelper_t helper,

- const Tn inputs_n[], unsigned inputs_n_length,

- const Td expected[], unsigned expected_length,

- VectorFormat vd_form, VectorFormat vn_form) {

- DCHECK_GT(inputs_n_length, 0U);

- const unsigned vd_lane_count = LaneCountFromFormat(vd_form);

- const unsigned vd_lanes_per_q = MaxLaneCountFromFormat(vd_form);

- const unsigned results_length = inputs_n_length;

- std::vector<Td> results(results_length * vd_lanes_per_q, 0);

- const unsigned lane_len_in_hex = MaxHexCharCount<Td, Tn>();

- Test1OpAcrossNEON_Helper(

- helper, reinterpret_cast<uintptr_t>(inputs_n), inputs_n_length,

- reinterpret_cast<uintptr_t>(results.data()), vd_form, vn_form);

- // Check the results.

- DCHECK_EQ(expected_length, results_length);

- unsigned error_count = 0;

- unsigned d = 0;

- const char* padding = " ";

- DCHECK_GE(strlen(padding), (lane_len_in_hex + 1));

- for (unsigned n = 0; n < inputs_n_length; n++, d++) {

- bool error_in_vector = false;

- for (unsigned lane = 0; lane < vd_lane_count; lane++) {

- unsigned expected_index = (n * vd_lane_count) + lane;

- unsigned results_index = (n * vd_lanes_per_q) + lane;

- if (results[results_index] != expected[expected_index]) {

- error_in_vector = true;

- break;

- }

- // For across operations, the remaining lanes should be zero.

- for (unsigned lane = vd_lane_count; lane < vd_lanes_per_q; lane++) {

- unsigned results_index = (n * vd_lanes_per_q) + lane;

- if (results[results_index] != 0) {

- error_in_vector = true;

- break;

- }

- if (error_in_vector && (++error_count <= kErrorReportLimit)) {

- const unsigned vn_lane_count = LaneCountFromFormat(vn_form);

- printf("%s\n", name);

- printf(" Vn%.*s| Vd%.*s| Expected\n", lane_len_in_hex + 1, padding,

- lane_len_in_hex + 1, padding);

- for (unsigned lane = 0; lane < vn_lane_count; lane++) {

- unsigned results_index =

- (n * vd_lanes_per_q) + ((vn_lane_count - 1) - lane);

- unsigned input_index_n =

- (inputs_n_length - vn_lane_count + n + 1 + lane) % inputs_n_length;

- Td expect = 0;

- if ((vn_lane_count - 1) == lane) {

- // This is the last lane to be printed, ie. the least-significant

- // lane, so use the expected value; any other lane should be zero.

- unsigned expected_index = n * vd_lane_count;

- expect = expected[expected_index];

- }

- printf("%c0x%0*" PRIx64 " | 0x%0*" PRIx64 " | 0x%0*" PRIx64 "\n",

- results[results_index] != expect ? '*' : ' ', lane_len_in_hex,

- static_cast<uint64_t>(inputs_n[input_index_n]), lane_len_in_hex,

- static_cast<uint64_t>(results[results_index]), lane_len_in_hex,

- static_cast<uint64_t>(expect));

- }

- DCHECK_EQ(d, expected_length);

- if (error_count > kErrorReportLimit) {

- printf("%u other errors follow.\n", error_count - kErrorReportLimit);

- }

- DCHECK_EQ(error_count, 0U);

-// ==== Tests for instructions of the form <INST> VReg, VReg, VReg. ====

-void Test2OpNEON_Helper(Test2OpNEONHelper_t helper, uintptr_t inputs_d,

- uintptr_t inputs_n, unsigned inputs_n_length,

- uintptr_t inputs_m, unsigned inputs_m_length,

- uintptr_t results, VectorFormat vd_form,

- VectorFormat vn_form, VectorFormat vm_form) {

- DCHECK_NE(vd_form, kFormatUndefined);

- DCHECK_NE(vn_form, kFormatUndefined);

- DCHECK_NE(vm_form, kFormatUndefined);

- SETUP();

- START();

- // Roll up the loop to keep the code size down.

- Label loop_n, loop_m;

- Register out = x0;

- Register inputs_n_base = x1;

- Register inputs_m_base = x2;

- Register inputs_d_base = x3;

- Register inputs_n_last_16bytes = x4;

- Register inputs_m_last_16bytes = x5;

- Register index_n = x6;

- Register index_m = x7;

- const unsigned vd_bits = RegisterSizeInBitsFromFormat(vd_form);

- const unsigned vd_lane_count = LaneCountFromFormat(vd_form);

- const unsigned vn_bits = RegisterSizeInBitsFromFormat(vn_form);

- const unsigned vn_lane_count = LaneCountFromFormat(vn_form);

- const unsigned vn_lane_bytes = LaneSizeInBytesFromFormat(vn_form);

- const unsigned vn_lane_bytes_log2 = LaneSizeInBytesLog2FromFormat(vn_form);

- const unsigned vn_lane_bits = LaneSizeInBitsFromFormat(vn_form);

- const unsigned vm_bits = RegisterSizeInBitsFromFormat(vm_form);

- const unsigned vm_lane_count = LaneCountFromFormat(vm_form);

- const unsigned vm_lane_bytes = LaneSizeInBytesFromFormat(vm_form);

- const unsigned vm_lane_bytes_log2 = LaneSizeInBytesLog2FromFormat(vm_form);

- const unsigned vm_lane_bits = LaneSizeInBitsFromFormat(vm_form);

- // Always load and store 128 bits regardless of the format.

- VRegister vd = v0.V16B();

- VRegister vn = v1.V16B();

- VRegister vm = v2.V16B();

- VRegister vntmp = v3.V16B();

- VRegister vmtmp = v4.V16B();

- VRegister vres = v5.V16B();

- // These will have the correct format for calling the 'helper'.

- VRegister vn_helper = VRegister::Create(1, vn_bits, vn_lane_count);

- VRegister vm_helper = VRegister::Create(2, vm_bits, vm_lane_count);

- VRegister vres_helper = VRegister::Create(5, vd_bits, vd_lane_count);

- // 'v*tmp_single' will be either 'Vt.B', 'Vt.H', 'Vt.S' or 'Vt.D'.

- VRegister vntmp_single = VRegister::Create(3, vn_lane_bits);

- VRegister vmtmp_single = VRegister::Create(4, vm_lane_bits);

- __ Mov(out, results);

- __ Mov(inputs_d_base, inputs_d);

- __ Mov(inputs_n_base, inputs_n);

- __ Mov(inputs_n_last_16bytes, inputs_n + (inputs_n_length - 16));

- __ Mov(inputs_m_base, inputs_m);

- __ Mov(inputs_m_last_16bytes, inputs_m + (inputs_m_length - 16));

- __ Ldr(vd, MemOperand(inputs_d_base));

- __ Ldr(vn, MemOperand(inputs_n_last_16bytes));

- __ Ldr(vm, MemOperand(inputs_m_last_16bytes));

- __ Mov(index_n, 0);

- __ Bind(&loop_n);

- __ Ldr(vntmp_single,

- MemOperand(inputs_n_base, index_n, LSL, vn_lane_bytes_log2));

- __ Ext(vn, vn, vntmp, vn_lane_bytes);

- __ Mov(index_m, 0);

- __ Bind(&loop_m);

- __ Ldr(vmtmp_single,

- MemOperand(inputs_m_base, index_m, LSL, vm_lane_bytes_log2));

- __ Ext(vm, vm, vmtmp, vm_lane_bytes);

- __ Mov(vres, vd);

- (masm.*helper)(vres_helper, vn_helper, vm_helper);

- __ Str(vres, MemOperand(out, vd.SizeInBytes(), PostIndex));

- __ Add(index_m, index_m, 1);

- __ Cmp(index_m, inputs_m_length);

- __ B(lo, &loop_m);

- __ Add(index_n, index_n, 1);

- __ Cmp(index_n, inputs_n_length);

- __ B(lo, &loop_n);

- END();

- RUN();

- TEARDOWN();

-// Test NEON instructions. The inputs_*[] and expected[] arrays should be

-// arrays of rawbit representation of input values. This ensures that

-// exact bit comparisons can be performed.

-template <typename Td, typename Tn, typename Tm>

-void Test2OpNEON(const char* name, Test2OpNEONHelper_t helper,

- const Td inputs_d[], const Tn inputs_n[],

- unsigned inputs_n_length, const Tm inputs_m[],

- unsigned inputs_m_length, const Td expected[],

- unsigned expected_length, VectorFormat vd_form,

- VectorFormat vn_form, VectorFormat vm_form) {

- DCHECK(inputs_n_length > 0 && inputs_m_length > 0);

- const unsigned vd_lane_count = MaxLaneCountFromFormat(vd_form);

- const unsigned results_length = inputs_n_length * inputs_m_length;

- std::vector<Td> results(results_length * vd_lane_count);

- const unsigned lane_len_in_hex =

- static_cast<unsigned>(std::max(sizeof(Td), sizeof(Tm)) * 8) / 4;

- Test2OpNEON_Helper(helper, reinterpret_cast<uintptr_t>(inputs_d),

- reinterpret_cast<uintptr_t>(inputs_n), inputs_n_length,

- reinterpret_cast<uintptr_t>(inputs_m), inputs_m_length,

- reinterpret_cast<uintptr_t>(results.data()), vd_form,

- vn_form, vm_form);

- // Check the results.

- CHECK(expected_length == results_length);

- unsigned error_count = 0;

- unsigned d = 0;

- const char* padding = " ";

- DCHECK_GE(strlen(padding), lane_len_in_hex + 1);

- for (unsigned n = 0; n < inputs_n_length; n++) {

- for (unsigned m = 0; m < inputs_m_length; m++, d++) {

- bool error_in_vector = false;

- for (unsigned lane = 0; lane < vd_lane_count; lane++) {

- unsigned output_index =

- (n * inputs_m_length * vd_lane_count) + (m * vd_lane_count) + lane;

- if (results[output_index] != expected[output_index]) {

- error_in_vector = true;

- break;

- }

- if (error_in_vector && (++error_count <= kErrorReportLimit)) {

- printf("%s\n", name);

- printf(" Vd%.*s| Vn%.*s| Vm%.*s| Vd%.*s| Expected\n",

- lane_len_in_hex + 1, padding, lane_len_in_hex + 1, padding,

- lane_len_in_hex + 1, padding, lane_len_in_hex + 1, padding);

- for (unsigned lane = 0; lane < vd_lane_count; lane++) {

- unsigned output_index = (n * inputs_m_length * vd_lane_count) +

- (m * vd_lane_count) + lane;

- unsigned input_index_n =

- (inputs_n_length - vd_lane_count + n + 1 + lane) %

- inputs_n_length;

- unsigned input_index_m =

- (inputs_m_length - vd_lane_count + m + 1 + lane) %

- inputs_m_length;

- printf(

- "%c0x%0*" PRIx64 " | 0x%0*" PRIx64 " | 0x%0*" PRIx64

- " "

- "| 0x%0*" PRIx64 " | 0x%0*" PRIx64 "\n",

- results[output_index] != expected[output_index] ? '*' : ' ',

- lane_len_in_hex, static_cast<uint64_t>(inputs_d[lane]),

- lane_len_in_hex, static_cast<uint64_t>(inputs_n[input_index_n]),

- lane_len_in_hex, static_cast<uint64_t>(inputs_m[input_index_m]),

- lane_len_in_hex, static_cast<uint64_t>(results[output_index]),

- lane_len_in_hex, static_cast<uint64_t>(expected[output_index]));

- }

- DCHECK_EQ(d, expected_length);

- if (error_count > kErrorReportLimit) {

- printf("%u other errors follow.\n", error_count - kErrorReportLimit);

- }

- DCHECK_EQ(error_count, 0U);

-// ==== Tests for instructions of the form <INST> Vd, Vn, Vm[<#index>]. ====

-void TestByElementNEON_Helper(TestByElementNEONHelper_t helper,

- uintptr_t inputs_d, uintptr_t inputs_n,

- unsigned inputs_n_length, uintptr_t inputs_m,

- unsigned inputs_m_length, const int indices[],

- unsigned indices_length, uintptr_t results,

- VectorFormat vd_form, VectorFormat vn_form,

- VectorFormat vm_form) {