v8/test/cctest/test-constantpool.cc

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// Copyright 2015 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Test embedded constant pool builder code.
#include "src/init/v8.h"
#include "src/codegen/constant-pool.h"
#include "test/cctest/cctest.h"
namespace v8 {
namespace internal {
#if defined(V8_TARGET_ARCH_PPC) || defined(V8_TARGET_ARCH_PPC64)
const ConstantPoolEntry::Type kPtrType = ConstantPoolEntry::INTPTR;
const ConstantPoolEntry::Type kDblType = ConstantPoolEntry::DOUBLE;
const ConstantPoolEntry::Access kRegAccess = ConstantPoolEntry::REGULAR;
const ConstantPoolEntry::Access kOvflAccess = ConstantPoolEntry::OVERFLOWED;
const int kReachBits = 6; // Use reach of 64-bytes to test overflow.
const int kReach = 1 << kReachBits;
TEST(ConstantPoolPointers) {
ConstantPoolBuilder builder(kReachBits, kReachBits);
const int kRegularCount = kReach / kSystemPointerSize;
ConstantPoolEntry::Access access;
int pos = 0;
intptr_t value = 0;
bool sharing_ok = true;
CHECK(builder.IsEmpty());
while (builder.NextAccess(kPtrType) == kRegAccess) {
access = builder.AddEntry(pos++, value++, sharing_ok);
CHECK_EQ(access, kRegAccess);
}
CHECK(!builder.IsEmpty());
CHECK_EQ(pos, kRegularCount);
access = builder.AddEntry(pos, value, sharing_ok);
CHECK_EQ(access, kOvflAccess);
}
TEST(ConstantPoolDoubles) {
ConstantPoolBuilder builder(kReachBits, kReachBits);
const int kRegularCount = kReach / kDoubleSize;
ConstantPoolEntry::Access access;
int pos = 0;
double value = 0.0;
CHECK(builder.IsEmpty());
while (builder.NextAccess(kDblType) == kRegAccess) {
access = builder.AddEntry(pos++, value);
value += 0.5;
CHECK_EQ(access, kRegAccess);
}
CHECK(!builder.IsEmpty());
CHECK_EQ(pos, kRegularCount);
access = builder.AddEntry(pos, value);
CHECK_EQ(access, kOvflAccess);
}
TEST(ConstantPoolMixedTypes) {
ConstantPoolBuilder builder(kReachBits, kReachBits);
const int kRegularCount =
(((kReach / (kDoubleSize + kSystemPointerSize)) * 2) +
((kSystemPointerSize < kDoubleSize) ? 1 : 0));
ConstantPoolEntry::Type type = kPtrType;
ConstantPoolEntry::Access access;
int pos = 0;
intptr_t ptrValue = 0;
double dblValue = 0.0;
bool sharing_ok = true;
CHECK(builder.IsEmpty());
while (builder.NextAccess(type) == kRegAccess) {
if (type == kPtrType) {
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
type = kDblType;
} else {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
type = kPtrType;
}
CHECK_EQ(access, kRegAccess);
}
CHECK(!builder.IsEmpty());
CHECK_EQ(pos, kRegularCount);
access = builder.AddEntry(pos++, ptrValue, sharing_ok);
CHECK_EQ(access, kOvflAccess);
access = builder.AddEntry(pos, dblValue);
CHECK_EQ(access, kOvflAccess);
}
TEST(ConstantPoolMixedReach) {
const int ptrReachBits = kReachBits + 2;
const int ptrReach = 1 << ptrReachBits;
const int dblReachBits = kReachBits;
const int dblReach = kReach;
const int dblRegularCount = std::min(
dblReach / kDoubleSize, ptrReach / (kDoubleSize + kSystemPointerSize));
const int ptrRegularCount =
((ptrReach - (dblRegularCount * (kDoubleSize + kSystemPointerSize))) /
kSystemPointerSize) +
dblRegularCount;
ConstantPoolBuilder builder(ptrReachBits, dblReachBits);
ConstantPoolEntry::Access access;
int pos = 0;
intptr_t ptrValue = 0;
double dblValue = 0.0;
bool sharing_ok = true;
int ptrCount = 0;
int dblCount = 0;
CHECK(builder.IsEmpty());
while (builder.NextAccess(kDblType) == kRegAccess) {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
dblCount++;
CHECK_EQ(access, kRegAccess);
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
ptrCount++;
CHECK_EQ(access, kRegAccess);
}
CHECK(!builder.IsEmpty());
CHECK_EQ(dblCount, dblRegularCount);
while (ptrCount < ptrRegularCount) {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
CHECK_EQ(access, kOvflAccess);
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
ptrCount++;
CHECK_EQ(access, kRegAccess);
}
CHECK_EQ(builder.NextAccess(kPtrType), kOvflAccess);
access = builder.AddEntry(pos++, ptrValue, sharing_ok);
CHECK_EQ(access, kOvflAccess);
access = builder.AddEntry(pos, dblValue);
CHECK_EQ(access, kOvflAccess);
}
TEST(ConstantPoolSharing) {
ConstantPoolBuilder builder(kReachBits, kReachBits);
const int kRegularCount =
(((kReach / (kDoubleSize + kSystemPointerSize)) * 2) +
((kSystemPointerSize < kDoubleSize) ? 1 : 0));
ConstantPoolEntry::Access access;
CHECK(builder.IsEmpty());
ConstantPoolEntry::Type type = kPtrType;
int pos = 0;
intptr_t ptrValue = 0;
double dblValue = 0.0;
bool sharing_ok = true;
while (builder.NextAccess(type) == kRegAccess) {
if (type == kPtrType) {
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
type = kDblType;
} else {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
type = kPtrType;
}
CHECK_EQ(access, kRegAccess);
}
CHECK(!builder.IsEmpty());
CHECK_EQ(pos, kRegularCount);
type = kPtrType;
ptrValue = 0;
dblValue = 0.0;
while (pos < kRegularCount * 2) {
if (type == kPtrType) {
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
type = kDblType;
} else {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
type = kPtrType;
}
CHECK_EQ(access, kRegAccess);
}
access = builder.AddEntry(pos++, ptrValue, sharing_ok);
CHECK_EQ(access, kOvflAccess);
access = builder.AddEntry(pos, dblValue);
CHECK_EQ(access, kOvflAccess);
}
TEST(ConstantPoolNoSharing) {
ConstantPoolBuilder builder(kReachBits, kReachBits);
const int kRegularCount =
(((kReach / (kDoubleSize + kSystemPointerSize)) * 2) +
((kSystemPointerSize < kDoubleSize) ? 1 : 0));
ConstantPoolEntry::Access access;
CHECK(builder.IsEmpty());
ConstantPoolEntry::Type type = kPtrType;
int pos = 0;
intptr_t ptrValue = 0;
double dblValue = 0.0;
bool sharing_ok = false;
while (builder.NextAccess(type) == kRegAccess) {
if (type == kPtrType) {
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
type = kDblType;
} else {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
type = kPtrType;
}
CHECK_EQ(access, kRegAccess);
}
CHECK(!builder.IsEmpty());
CHECK_EQ(pos, kRegularCount);
type = kPtrType;
ptrValue = 0;
dblValue = 0.0;
sharing_ok = true;
while (pos < kRegularCount * 2) {
if (type == kPtrType) {
access = builder.AddEntry(pos++, ptrValue++, sharing_ok);
type = kDblType;
CHECK_EQ(access, kOvflAccess);
} else {
access = builder.AddEntry(pos++, dblValue);
dblValue += 0.5;
type = kPtrType;
CHECK_EQ(access, kRegAccess);
}
}
access = builder.AddEntry(pos++, ptrValue, sharing_ok);
CHECK_EQ(access, kOvflAccess);
access = builder.AddEntry(pos, dblValue);
CHECK_EQ(access, kOvflAccess);
}
#endif // defined(V8_TARGET_ARCH_PPC) || defined(V8_TARGET_ARCH_PPC64)
} // namespace internal
} // namespace v8