test-assembler-s390.cc 15.8 KB
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// Copyright 2014 the V8 project authors. All rights reserved.
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
//     * Redistributions of source code must retain the above copyright
//       notice, this list of conditions and the following disclaimer.
//     * Redistributions in binary form must reproduce the above
//       copyright notice, this list of conditions and the following
//       disclaimer in the documentation and/or other materials provided
//       with the distribution.
//     * Neither the name of Google Inc. nor the names of its
//       contributors may be used to endorse or promote products derived
//       from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

#include "src/v8.h"

#include "src/disassembler.h"
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#include "src/heap/factory.h"
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#include "src/macro-assembler.h"
#include "src/s390/assembler-s390-inl.h"
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#include "src/simulator.h"
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#include "test/cctest/cctest.h"

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namespace v8 {
namespace internal {
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// Define these function prototypes to match JSEntryFunction in execution.cc.
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// TODO(s390): Refine these signatures per test case.
using F1 = Object*(int x, int p1, int p2, int p3, int p4);
using F2 = Object*(int x, int y, int p2, int p3, int p4);
using F3 = Object*(void* p0, int p1, int p2, int p3, int p4);
using F4 = Object*(void* p0, void* p1, int p2, int p3, int p4);
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#define __ assm.

// Simple add parameter 1 to parameter 2 and return
TEST(0) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  __ lhi(r1, Operand(3));    // test 4-byte instr
  __ llilf(r2, Operand(4));  // test 6-byte instr
  __ lgr(r2, r2);            // test 2-byte opcode
  __ ar(r2, r1);             // test 2-byte instr
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code =
      isolate->factory()->NewCode(desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F2>::FromCode(*code);
  intptr_t res = reinterpret_cast<intptr_t>(f.Call(3, 4, 0, 0, 0));
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  ::printf("f() = %" V8PRIxPTR "\n", res);
  CHECK_EQ(7, static_cast<int>(res));
}

// Loop 100 times, adding loop counter to result
TEST(1) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  Label L, C;

#if defined(_AIX)
  __ function_descriptor();
#endif

  __ lr(r3, r2);
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  __ lhi(r2, Operand(0, RelocInfo::NONE));
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  __ b(&C);

  __ bind(&L);
  __ ar(r2, r3);
  __ ahi(r3, Operand(-1 & 0xFFFF));

  __ bind(&C);
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  __ cfi(r3, Operand(0, RelocInfo::NONE));
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  __ bne(&L);
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code =
      isolate->factory()->NewCode(desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F1>::FromCode(*code);
  intptr_t res = reinterpret_cast<intptr_t>(f.Call(100, 0, 0, 0, 0));
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  ::printf("f() = %" V8PRIxPTR "\n", res);
  CHECK_EQ(5050, static_cast<int>(res));
}

TEST(2) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

  // Create a function that accepts &t, and loads, manipulates, and stores
  // the doubles and floats.
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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  Label L, C;

#if defined(_AIX)
  __ function_descriptor();
#endif

  __ lgr(r3, r2);
  __ lhi(r2, Operand(1));
  __ b(&C);

  __ bind(&L);
  __ lr(r5, r2);    // Set up muliplicant in R4:R5
  __ mr_z(r4, r3);  // this is actually R4:R5 = R5 * R2
  __ lr(r2, r5);
  __ ahi(r3, Operand(-1 & 0xFFFF));

  __ bind(&C);
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  __ cfi(r3, Operand(0, RelocInfo::NONE));
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  __ bne(&L);
  __ b(r14);

  // some relocated stuff here, not executed
  __ RecordComment("dead code, just testing relocations");
  __ iilf(r0, Operand(isolate->factory()->true_value()));
  __ RecordComment("dead code, just testing immediate operands");
  __ iilf(r0, Operand(-1));
  __ iilf(r0, Operand(0xFF000000));
  __ iilf(r0, Operand(0xF0F0F0F0));
  __ iilf(r0, Operand(0xFFF0FFFF));

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code =
      isolate->factory()->NewCode(desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F1>::FromCode(*code);
  intptr_t res = reinterpret_cast<intptr_t>(f.Call(10, 0, 0, 0, 0));
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  ::printf("f() = %" V8PRIxPTR "\n", res);
  CHECK_EQ(3628800, static_cast<int>(res));
}

TEST(3) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  __ ar(r14, r13);
  __ sr(r14, r13);
  __ mr_z(r14, r13);
  __ dr(r14, r13);
  __ or_z(r14, r13);
  __ nr(r14, r13);
  __ xr(r14, r13);

  __ agr(r14, r13);
  __ sgr(r14, r13);
  __ ogr(r14, r13);
  __ ngr(r14, r13);
  __ xgr(r14, r13);

  __ ahi(r13, Operand(123));
  __ aghi(r13, Operand(123));
  __ stm(r1, r2, MemOperand(r3, r0, 123));
  __ slag(r1, r2, Operand(123));
  __ lay(r1, MemOperand(r2, r3, -123));
  __ a(r13, MemOperand(r1, r2, 123));
  __ ay(r13, MemOperand(r1, r2, 123));
  __ brc(Condition(14), Operand(123));
  __ brc(Condition(14), Operand(-123));
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  __ brcl(Condition(14), Operand(123));
  __ brcl(Condition(14), Operand(-123));
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  __ iilf(r13, Operand(123456789));
  __ iihf(r13, Operand(-123456789));
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  __ mvc(MemOperand(r0, 123), MemOperand(r4, 567), Operand(88));
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  __ sll(r13, Operand(10));

  v8::internal::byte* bufPos = assm.buffer_pos();
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  ::printf("buffer position = %p", static_cast<void*>(bufPos));
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  ::fflush(stdout);
  // OS::DebugBreak();

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code =
      isolate->factory()->NewCode(desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
  USE(code);
  ::exit(0);
}

#if 0
TEST(4) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  Label L2, L3, L4;

  __ chi(r2, Operand(10));
  __ ble(&L2);
  __ lr(r2, r4);
  __ ar(r2, r3);
  __ b(&L3);

  __ bind(&L2);
  __ chi(r2, Operand(5));
  __ bgt(&L4);

  __ lhi(r2, Operand::Zero());
  __ b(&L3);

  __ bind(&L4);
  __ lr(r2, r3);
  __ sr(r2, r4);

  __ bind(&L3);
  __ lgfr(r2, r3);
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code = isolate->factory()->NewCode(
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      desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F2>::FromCode(*code);
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  intptr_t res = reinterpret_cast<intptr_t>(
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      f.Call(3, 4, 3, 0, 0));
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  ::printf("f() = %" V8PRIdPTR "\n", res);
  CHECK_EQ(4, static_cast<int>(res));
}


// Test ExtractBitRange
TEST(5) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  MacroAssembler assm(isolate, nullptr, 0);
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  __ mov(r2, Operand(0x12345678));
  __ ExtractBitRange(r3, r2, 3, 2);
  __ lgfr(r2, r3);
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code = isolate->factory()->NewCode(
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      desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F2>::FromCode(*code);
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  intptr_t res =
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    reinterpret_cast<intptr_t>(f.Call(3, 4, 3, 0, 0));
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  ::printf("f() = %" V8PRIdPTR "\n", res);
  CHECK_EQ(2, static_cast<int>(res));
}


// Test JumpIfSmi
TEST(6) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  MacroAssembler assm(isolate, nullptr, 0);
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  Label yes;

  __ mov(r2, Operand(0x12345678));
  __ JumpIfSmi(r2, &yes);
  __ beq(&yes);
  __ Load(r2, Operand::Zero());
  __ b(r14);
  __ bind(&yes);
  __ Load(r2, Operand(1));
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code = isolate->factory()->NewCode(
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      desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F2>::FromCode(*code);
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  intptr_t res =
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    reinterpret_cast<intptr_t>(f.Call(3, 4, 3, 0, 0));
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  ::printf("f() = %" V8PRIdPTR "\n", res);
  CHECK_EQ(1, static_cast<int>(res));
}


// Test fix<->floating point conversion.
TEST(7) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  MacroAssembler assm(isolate, nullptr, 0);
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  Label yes;

  __ mov(r3, Operand(0x1234));
  __ cdfbr(d1, r3);
  __ ldr(d2, d1);
  __ adbr(d1, d2);
  __ cfdbr(Condition(0), r2, d1);
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code = isolate->factory()->NewCode(
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      desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F2>::FromCode(*code);
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  intptr_t res =
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    reinterpret_cast<intptr_t>(f.Call(3, 4, 3, 0, 0));
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  ::printf("f() = %" V8PRIdPTR "\n", res);
  CHECK_EQ(0x2468, static_cast<int>(res));
}


// Test DSGR
TEST(8) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  MacroAssembler assm(isolate, nullptr, 0);
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  // Zero upper bits of r3/r4
  __ llihf(r3, Operand::Zero());
  __ llihf(r4, Operand::Zero());
  __ mov(r3, Operand(0x0002));
  __ mov(r4, Operand(0x0002));
  __ dsgr(r2, r4);
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code = isolate->factory()->NewCode(
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      desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F1>::FromCode(*code);
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  intptr_t res =
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    reinterpret_cast<intptr_t>(f.Call(100, 0,
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                                                   0, 0, 0));
  ::printf("f() = %" V8PRIdPTR  "\n", res);
  CHECK_EQ(0, static_cast<int>(res));
}


// Test LZDR
TEST(9) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  MacroAssembler assm(isolate, nullptr, 0);
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  __ lzdr(d4);
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code = isolate->factory()->NewCode(
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      desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F1>::FromCode(*code);
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  intptr_t res =
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    reinterpret_cast<intptr_t>(f.Call(0, 0, 0, 0, 0));
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  ::printf("f() = %" V8PRIdPTR  "\n", res);
}
#endif

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// Test msrkc and msgrkc
TEST(10) {
  if (!CpuFeatures::IsSupported(MISC_INSTR_EXT2)) {
    return;
  }

  ::printf("MISC_INSTR_EXT2 is enabled.\n");

  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);

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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  Label ok, failed;

  {  // test 1: msrkc
    __ lgfi(r2, Operand(3));
    __ lgfi(r3, Operand(4));
    __ msrkc(r1, r2, r3);                                  // 3 * 4
    __ b(static_cast<Condition>(le | overflow), &failed);  // test failed.
    __ chi(r1, Operand(12));
    __ bne(&failed);  // test failed.

    __ lgfi(r2, Operand(-3));
    __ lgfi(r3, Operand(4));
    __ msrkc(r1, r2, r3);                                  // -3 * 4
    __ b(static_cast<Condition>(ge | overflow), &failed);  // test failed.
    __ chi(r1, Operand(-12));
    __ bne(&failed);  // test failed.

    __ iilf(r2, Operand(0x80000000));
    __ lgfi(r3, Operand(-1));
    __ msrkc(r1, r2, r3);       // INT_MIN * -1
    __ b(nooverflow, &failed);  // test failed.
    __ cfi(r1, Operand(0x80000000));
    __ bne(&failed);  // test failed.
  }

  {  // test 1: msgrkc
    __ lgfi(r2, Operand(3));
    __ lgfi(r3, Operand(4));
    __ msgrkc(r1, r2, r3);                                 // 3 * 4
    __ b(static_cast<Condition>(le | overflow), &failed);  // test failed.
    __ chi(r1, Operand(12));
    __ bne(&failed);  // test failed.

    __ lgfi(r2, Operand(-3));
    __ lgfi(r3, Operand(4));
    __ msgrkc(r1, r2, r3);                                 // -3 * 4
    __ b(static_cast<Condition>(ge | overflow), &failed);  // test failed.
    __ chi(r1, Operand(-12));
    __ bne(&failed);  // test failed.

    __ lgfi(r2, Operand::Zero());
    __ iihf(r2, Operand(0x80000000));
    __ lgfi(r3, Operand(-1));
    __ msgrkc(r1, r2, r3);      // INT_MIN * -1
    __ b(nooverflow, &failed);  // test failed.
    __ cgr(r1, r2);
    __ bne(&failed);  // test failed.
  }

  __ bind(&ok);
  __ lgfi(r2, Operand::Zero());
  __ b(r14);  // test done.

  __ bind(&failed);
  __ lgfi(r2, Operand(1));
  __ b(r14);

  CodeDesc desc;
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  assm.GetCode(isolate, &desc);
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  Handle<Code> code =
      isolate->factory()->NewCode(desc, Code::STUB, Handle<Code>());
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#ifdef DEBUG
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  code->Print();
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#endif
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  auto f = GeneratedCode<F2>::FromCode(*code);
  intptr_t res = reinterpret_cast<intptr_t>(f.Call(3, 4, 0, 0, 0));
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  ::printf("f() = %" V8PRIxPTR "\n", res);
  CHECK_EQ(0, static_cast<int>(res));
}

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// brxh
TEST(11) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);
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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  Label ok, failed, continue1, continue2;
  // r1 - operand; r3 - inc / test val
  __ lgfi(r1, Operand(1));
  __ lgfi(r3, Operand(1));
  __ brxh(r1, r3, &continue1);
  __ b(&failed);

  __ bind(&continue1);
  __ lgfi(r1, Operand(-2));
  __ lgfi(r3, Operand(1));
  __ brxh(r1, r3, &failed);
  __ brxh(r1, r3, &failed);
  __ brxh(r1, r3, &failed);
  __ brxh(r1, r3, &continue2);
  __ b(&failed);

  //r1 - operand; r4 - inc; r5 - test val
  __ bind(&continue2);
  __ lgfi(r1, Operand(-2));
  __ lgfi(r4, Operand(1));
  __ lgfi(r5, Operand(-1));
  __ brxh(r1, r4, &failed);
  __ brxh(r1, r4, &ok);
  __ b(&failed);

  __ bind(&ok);
  __ lgfi(r2, Operand::Zero());
  __ b(r14);  // test done.

  __ bind(&failed);
  __ lgfi(r2, Operand(1));
  __ b(r14);  // test done.

  CodeDesc desc;
  assm.GetCode(isolate, &desc);
  Handle<Code> code = isolate->factory()->NewCode(
      desc, Code::STUB, Handle<Code>());
#ifdef DEBUG
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  code->Print();
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#endif
  auto f = GeneratedCode<F1>::FromCode(*code);
  intptr_t res = reinterpret_cast<intptr_t>(f.Call(0, 0, 0, 0, 0));
  ::printf("f() = %" V8PRIdPTR  "\n", res);
  CHECK_EQ(0, static_cast<int>(res));
}


// brxhg
TEST(12) {
  CcTest::InitializeVM();
  Isolate* isolate = CcTest::i_isolate();
  HandleScope scope(isolate);
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  Assembler assm(AssemblerOptions{}, nullptr, 0);
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  Label ok, failed, continue1, continue2;
  // r1 - operand; r3 - inc / test val
  __ lgfi(r1, Operand(1));
  __ lgfi(r3, Operand(1));
  __ brxhg(r1, r3, &continue1);
  __ b(&failed);

  __ bind(&continue1);
  __ lgfi(r1, Operand(-2));
  __ lgfi(r3, Operand(1));
  __ brxhg(r1, r3, &failed);
  __ brxhg(r1, r3, &failed);
  __ brxhg(r1, r3, &failed);
  __ brxhg(r1, r3, &continue2);
  __ b(&failed);

  //r1 - operand; r4 - inc; r5 - test val
  __ bind(&continue2);
  __ lgfi(r1, Operand(-2));
  __ lgfi(r4, Operand(1));
  __ lgfi(r5, Operand(-1));
  __ brxhg(r1, r4, &failed);
  __ brxhg(r1, r4, &ok);
  __ b(&failed);

  __ bind(&ok);
  __ lgfi(r2, Operand::Zero());
  __ b(r14);  // test done.

  __ bind(&failed);
  __ lgfi(r2, Operand(1));
  __ b(r14);  // test done.

  CodeDesc desc;
  assm.GetCode(isolate, &desc);
  Handle<Code> code = isolate->factory()->NewCode(
      desc, Code::STUB, Handle<Code>());
#ifdef DEBUG
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  code->Print();
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#endif
  auto f = GeneratedCode<F1>::FromCode(*code);
  intptr_t res = reinterpret_cast<intptr_t>(f.Call(0, 0, 0, 0, 0));
  ::printf("f() = %" V8PRIdPTR  "\n", res);
  CHECK_EQ(0, static_cast<int>(res));
}


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#undef __
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}  // namespace internal
}  // namespace v8