d53f05e3e2
Set warning level to /W3 and change implicit conversions from size_t to int. Most "fixes" are simply manifesting the implicit casts or using a special strlen replacement that returns int. Review URL: http://codereview.chromium.org/390004 git-svn-id: http://v8.googlecode.com/svn/branches/bleeding_edge@3273 ce2b1a6d-e550-0410-aec6-3dcde31c8c00
311 lines
11 KiB
C++
311 lines
11 KiB
C++
// Copyright 2006-2009 the V8 project authors. All rights reserved.
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//
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// Tests of logging utilities from log-utils.h
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#ifdef ENABLE_LOGGING_AND_PROFILING
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#include "v8.h"
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#include "log-utils.h"
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#include "cctest.h"
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using v8::internal::CStrVector;
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using v8::internal::EmbeddedVector;
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using v8::internal::LogDynamicBuffer;
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using v8::internal::LogRecordCompressor;
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using v8::internal::MutableCStrVector;
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using v8::internal::ScopedVector;
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using v8::internal::Vector;
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using v8::internal::StrLength;
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// Fills 'ref_buffer' with test data: a sequence of two-digit
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// hex numbers: '0001020304...'. Then writes 'ref_buffer' contents to 'dynabuf'.
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static void WriteData(LogDynamicBuffer* dynabuf, Vector<char>* ref_buffer) {
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static const char kHex[] = "0123456789ABCDEF";
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CHECK_GT(ref_buffer->length(), 0);
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CHECK_GT(513, ref_buffer->length());
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for (int i = 0, half_len = ref_buffer->length() >> 1; i < half_len; ++i) {
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(*ref_buffer)[i << 1] = kHex[i >> 4];
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(*ref_buffer)[(i << 1) + 1] = kHex[i & 15];
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}
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if (ref_buffer->length() & 1) {
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ref_buffer->last() = kHex[ref_buffer->length() >> 5];
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}
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CHECK_EQ(ref_buffer->length(),
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dynabuf->Write(ref_buffer->start(), ref_buffer->length()));
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}
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static int ReadData(
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LogDynamicBuffer* dynabuf, int start_pos, i::Vector<char>* buffer) {
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return dynabuf->Read(start_pos, buffer->start(), buffer->length());
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}
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// Helper function used by CHECK_EQ to compare Vectors. Templatized to
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// accept both "char" and "const char" vector contents.
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template <typename E, typename V>
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static inline void CheckEqualsHelper(const char* file, int line,
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const char* expected_source,
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const Vector<E>& expected,
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const char* value_source,
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const Vector<V>& value) {
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if (expected.length() != value.length()) {
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V8_Fatal(file, line, "CHECK_EQ(%s, %s) failed\n"
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"# Vectors lengths differ: %d expected, %d found\n"
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"# Expected: %.*s\n"
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"# Found: %.*s",
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expected_source, value_source,
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expected.length(), value.length(),
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expected.length(), expected.start(),
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value.length(), value.start());
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}
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if (strncmp(expected.start(), value.start(), expected.length()) != 0) {
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V8_Fatal(file, line, "CHECK_EQ(%s, %s) failed\n"
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"# Vectors contents differ:\n"
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"# Expected: %.*s\n"
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"# Found: %.*s",
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expected_source, value_source,
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expected.length(), expected.start(),
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value.length(), value.start());
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}
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}
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TEST(DynaBufSingleBlock) {
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LogDynamicBuffer dynabuf(32, 32, "", 0);
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EmbeddedVector<char, 32> ref_buf;
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WriteData(&dynabuf, &ref_buf);
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EmbeddedVector<char, 32> buf;
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CHECK_EQ(32, dynabuf.Read(0, buf.start(), buf.length()));
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CHECK_EQ(32, ReadData(&dynabuf, 0, &buf));
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CHECK_EQ(ref_buf, buf);
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// Verify that we can't read and write past the end.
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CHECK_EQ(0, dynabuf.Read(32, buf.start(), buf.length()));
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CHECK_EQ(0, dynabuf.Write(buf.start(), buf.length()));
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}
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TEST(DynaBufCrossBlocks) {
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LogDynamicBuffer dynabuf(32, 128, "", 0);
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EmbeddedVector<char, 48> ref_buf;
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WriteData(&dynabuf, &ref_buf);
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CHECK_EQ(48, dynabuf.Write(ref_buf.start(), ref_buf.length()));
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// Verify that we can't write data when remaining buffer space isn't enough.
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CHECK_EQ(0, dynabuf.Write(ref_buf.start(), ref_buf.length()));
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EmbeddedVector<char, 48> buf;
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CHECK_EQ(48, ReadData(&dynabuf, 0, &buf));
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CHECK_EQ(ref_buf, buf);
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CHECK_EQ(48, ReadData(&dynabuf, 48, &buf));
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CHECK_EQ(ref_buf, buf);
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CHECK_EQ(0, ReadData(&dynabuf, 48 * 2, &buf));
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}
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TEST(DynaBufReadTruncation) {
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LogDynamicBuffer dynabuf(32, 128, "", 0);
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EmbeddedVector<char, 128> ref_buf;
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WriteData(&dynabuf, &ref_buf);
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EmbeddedVector<char, 128> buf;
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CHECK_EQ(128, ReadData(&dynabuf, 0, &buf));
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CHECK_EQ(ref_buf, buf);
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// Try to read near the end with a buffer larger than remaining data size.
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EmbeddedVector<char, 48> tail_buf;
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CHECK_EQ(32, ReadData(&dynabuf, 128 - 32, &tail_buf));
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CHECK_EQ(ref_buf.SubVector(128 - 32, 128), tail_buf.SubVector(0, 32));
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}
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TEST(DynaBufSealing) {
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const char* seal = "Sealed";
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const int seal_size = StrLength(seal);
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LogDynamicBuffer dynabuf(32, 128, seal, seal_size);
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EmbeddedVector<char, 100> ref_buf;
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WriteData(&dynabuf, &ref_buf);
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// Try to write data that will not fit in the buffer.
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CHECK_EQ(0, dynabuf.Write(ref_buf.start(), 128 - 100 - seal_size + 1));
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// Now the buffer is sealed, writing of any amount of data is forbidden.
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CHECK_EQ(0, dynabuf.Write(ref_buf.start(), 1));
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EmbeddedVector<char, 100> buf;
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CHECK_EQ(100, ReadData(&dynabuf, 0, &buf));
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CHECK_EQ(ref_buf, buf);
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// Check the seal.
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EmbeddedVector<char, 50> seal_buf;
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CHECK_EQ(seal_size, ReadData(&dynabuf, 100, &seal_buf));
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CHECK_EQ(CStrVector(seal), seal_buf.SubVector(0, seal_size));
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// Verify that there's no data beyond the seal.
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CHECK_EQ(0, ReadData(&dynabuf, 100 + seal_size, &buf));
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}
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TEST(CompressorStore) {
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LogRecordCompressor comp(2);
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const Vector<const char> empty = CStrVector("");
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CHECK(comp.Store(empty));
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CHECK(!comp.Store(empty));
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CHECK(!comp.Store(empty));
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const Vector<const char> aaa = CStrVector("aaa");
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CHECK(comp.Store(aaa));
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CHECK(!comp.Store(aaa));
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CHECK(!comp.Store(aaa));
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CHECK(comp.Store(empty));
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CHECK(!comp.Store(empty));
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CHECK(!comp.Store(empty));
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}
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void CheckCompression(LogRecordCompressor* comp,
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const Vector<const char>& after) {
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EmbeddedVector<char, 100> result;
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CHECK(comp->RetrievePreviousCompressed(&result));
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CHECK_EQ(after, result);
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}
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void CheckCompression(LogRecordCompressor* comp,
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const char* after) {
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CheckCompression(comp, CStrVector(after));
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}
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TEST(CompressorNonCompressed) {
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LogRecordCompressor comp(0);
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CHECK(!comp.RetrievePreviousCompressed(NULL));
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const Vector<const char> empty = CStrVector("");
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CHECK(comp.Store(empty));
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CHECK(!comp.RetrievePreviousCompressed(NULL));
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const Vector<const char> a_x_20 = CStrVector("aaaaaaaaaaaaaaaaaaaa");
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CHECK(comp.Store(a_x_20));
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CheckCompression(&comp, empty);
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CheckCompression(&comp, empty);
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CHECK(comp.Store(empty));
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CheckCompression(&comp, a_x_20);
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CheckCompression(&comp, a_x_20);
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}
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TEST(CompressorSingleLine) {
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LogRecordCompressor comp(1);
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const Vector<const char> string_1 = CStrVector("eee,ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_1));
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const Vector<const char> string_2 = CStrVector("fff,ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_2));
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// string_1 hasn't been compressed.
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CheckCompression(&comp, string_1);
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CheckCompression(&comp, string_1);
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const Vector<const char> string_3 = CStrVector("hhh,ggg,ccc,bbb,aaa");
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CHECK(comp.Store(string_3));
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// string_2 compressed using string_1.
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CheckCompression(&comp, "fff#1:3");
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CheckCompression(&comp, "fff#1:3");
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CHECK(!comp.Store(string_3));
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// Expecting no changes.
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CheckCompression(&comp, "fff#1:3");
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CHECK(!comp.Store(string_3));
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// Expecting no changes.
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CheckCompression(&comp, "fff#1:3");
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const Vector<const char> string_4 = CStrVector("iii,hhh,ggg,ccc,bbb,aaa");
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CHECK(comp.Store(string_4));
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// string_3 compressed using string_2.
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CheckCompression(&comp, "hhh,ggg#1:7");
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const Vector<const char> string_5 = CStrVector("nnn,mmm,lll,kkk,jjj");
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CHECK(comp.Store(string_5));
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// string_4 compressed using string_3.
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CheckCompression(&comp, "iii,#1");
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const Vector<const char> string_6 = CStrVector("nnn,mmmmmm,lll,kkk,jjj");
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CHECK(comp.Store(string_6));
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// string_5 hasn't been compressed.
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CheckCompression(&comp, string_5);
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CHECK(comp.Store(string_5));
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// string_6 compressed using string_5.
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CheckCompression(&comp, "nnn,mmm#1:4");
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const Vector<const char> string_7 = CStrVector("nnnnnn,mmm,lll,kkk,jjj");
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CHECK(comp.Store(string_7));
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// string_5 compressed using string_6.
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CheckCompression(&comp, "nnn,#1:7");
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const Vector<const char> string_8 = CStrVector("xxn,mmm,lll,kkk,jjj");
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CHECK(comp.Store(string_8));
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// string_7 compressed using string_5.
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CheckCompression(&comp, "nnn#1");
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const Vector<const char> string_9 =
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CStrVector("aaaaaaaaaaaaa,bbbbbbbbbbbbbbbbb");
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CHECK(comp.Store(string_9));
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// string_8 compressed using string_7.
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CheckCompression(&comp, "xx#1:5");
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const Vector<const char> string_10 =
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CStrVector("aaaaaaaaaaaaa,cccccccbbbbbbbbbb");
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CHECK(comp.Store(string_10));
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// string_9 hasn't been compressed.
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CheckCompression(&comp, string_9);
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CHECK(comp.Store(string_1));
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// string_10 compressed using string_9.
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CheckCompression(&comp, "aaaaaaaaaaaaa,ccccccc#1:21");
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}
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TEST(CompressorMultiLines) {
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const int kWindowSize = 3;
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LogRecordCompressor comp(kWindowSize);
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const Vector<const char> string_1 = CStrVector("eee,ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_1));
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const Vector<const char> string_2 = CStrVector("iii,hhh,ggg,fff,aaa");
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CHECK(comp.Store(string_2));
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const Vector<const char> string_3 = CStrVector("mmm,lll,kkk,jjj,aaa");
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CHECK(comp.Store(string_3));
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const Vector<const char> string_4 = CStrVector("nnn,hhh,ggg,fff,aaa");
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CHECK(comp.Store(string_4));
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const Vector<const char> string_5 = CStrVector("ooo,lll,kkk,jjj,aaa");
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CHECK(comp.Store(string_5));
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// string_4 compressed using string_2.
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CheckCompression(&comp, "nnn#2:3");
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CHECK(comp.Store(string_1));
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// string_5 compressed using string_3.
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CheckCompression(&comp, "ooo#2:3");
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CHECK(comp.Store(string_4));
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// string_1 is out of buffer by now, so it shouldn't be compressed.
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CHECK_GE(3, kWindowSize);
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CheckCompression(&comp, string_1);
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CHECK(comp.Store(string_2));
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// string_4 compressed using itself.
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CheckCompression(&comp, "#3");
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}
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TEST(CompressorBestSelection) {
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LogRecordCompressor comp(3);
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const Vector<const char> string_1 = CStrVector("eee,ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_1));
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const Vector<const char> string_2 = CStrVector("ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_2));
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const Vector<const char> string_3 = CStrVector("fff,eee,ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_3));
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// string_2 compressed using string_1.
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CheckCompression(&comp, "#1:4");
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const Vector<const char> string_4 = CStrVector("nnn,hhh,ggg,fff,aaa");
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CHECK(comp.Store(string_4));
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// Compressing string_3 using string_1 gives a better compression than
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// using string_2.
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CheckCompression(&comp, "fff,#2");
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}
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TEST(CompressorCompressibility) {
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LogRecordCompressor comp(2);
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const Vector<const char> string_1 = CStrVector("eee,ddd,ccc,bbb,aaa");
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CHECK(comp.Store(string_1));
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const Vector<const char> string_2 = CStrVector("ccc,bbb,aaa");
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CHECK(comp.Store(string_2));
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const Vector<const char> string_3 = CStrVector("aaa");
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CHECK(comp.Store(string_3));
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// string_2 compressed using string_1.
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CheckCompression(&comp, "#1:8");
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const Vector<const char> string_4 = CStrVector("xxx");
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CHECK(comp.Store(string_4));
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// string_3 can't be compressed using string_2 --- too short.
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CheckCompression(&comp, string_3);
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}
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#endif // ENABLE_LOGGING_AND_PROFILING
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