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Revert "[lldb] Unify type name matching in FormattersContainer" 

This reverts commit 5b0de5756c.

Apparently that caused some test to get stuck on Linuxx. Reverting for now.
This commit is contained in:
Raphael Isemann 2020-07-21 19:03:33 +02:00
parent 4fe912f186
commit e031eda08d
10 changed files with 179 additions and 302 deletions
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6
lldb/include/lldb/DataFormatters/DataVisualization.h
View File

@ -69,9 +69,9 @@ public:
static void Clear();
static void ForEach(std::function<bool(const TypeMatcher &,
const lldb::TypeSummaryImplSP &)>
callback);
static void
ForEach(std::function<bool(ConstString, const lldb::TypeSummaryImplSP &)>
callback);
static uint32_t GetCount();
};

9
lldb/include/lldb/DataFormatters/FormatManager.h
View File

@ -34,7 +34,7 @@ namespace lldb_private {
// this file's objects directly
class FormatManager : public IFormatChangeListener {
typedef FormatMap<TypeSummaryImpl> NamedSummariesMap;
typedef FormatMap<ConstString, TypeSummaryImpl> NamedSummariesMap;
typedef TypeCategoryMap::MapType::iterator CategoryMapIterator;
public:
@ -144,6 +144,13 @@ public:
static const char *GetFormatAsCString(lldb::Format format);
// if the user tries to add formatters for, say, "struct Foo" those will not
// match any type because of the way we strip qualifiers from typenames this
// method looks for the case where the user is adding a
// "class","struct","enum" or "union" Foo and strips the unnecessary
// qualifier
static ConstString GetValidTypeName(ConstString type);
// when DataExtractor dumps a vectorOfT, it uses a predefined format for each
// item this method returns it, or eFormatInvalid if vector_format is not a
// vectorOf

241
lldb/include/lldb/DataFormatters/FormattersContainer.h
View File

@ -37,113 +37,57 @@ public:
virtual uint32_t GetCurrentRevision() = 0;
};
/// Class for matching type names.
class TypeMatcher {
RegularExpression m_type_name_regex;
ConstString m_type_name;
/// False if m_type_name_regex should be used for matching. False if this is
/// just matching by comparing with m_type_name string.
bool m_is_regex;
/// True iff this TypeMatcher is invalid and shouldn't be used for any
/// type matching logic.
bool m_valid = true;
// if the user tries to add formatters for, say, "struct Foo" those will not
// match any type because of the way we strip qualifiers from typenames this
// method looks for the case where the user is adding a "class","struct","enum"
// or "union" Foo and strips the unnecessary qualifier
static inline ConstString GetValidTypeName_Impl(ConstString type) {
if (type.IsEmpty())
return type;
// if the user tries to add formatters for, say, "struct Foo" those will not
// match any type because of the way we strip qualifiers from typenames this
// method looks for the case where the user is adding a
// "class","struct","enum" or "union" Foo and strips the unnecessary qualifier
static ConstString StripTypeName(ConstString type) {
if (type.IsEmpty())
return type;
std::string type_cstr(type.AsCString());
StringLexer type_lexer(type_cstr);
std::string type_cstr(type.AsCString());
StringLexer type_lexer(type_cstr);
type_lexer.AdvanceIf("class ");
type_lexer.AdvanceIf("enum ");
type_lexer.AdvanceIf("struct ");
type_lexer.AdvanceIf("union ");
type_lexer.AdvanceIf("class ");
type_lexer.AdvanceIf("enum ");
type_lexer.AdvanceIf("struct ");
type_lexer.AdvanceIf("union ");
while (type_lexer.NextIf({' ', '\t', '\v', '\f'}).first)
;
while (type_lexer.NextIf({' ', '\t', '\v', '\f'}).first)
;
return ConstString(type_lexer.GetUnlexed());
}
return ConstString(type_lexer.GetUnlexed());
}
template <typename KeyType, typename ValueType> class FormattersContainer;
public:
/// Creates an invalid matcher that should not be used for any type matching.
TypeMatcher() : m_valid(false) {}
/// Creates a matcher that accepts any type with exactly the given type name.
TypeMatcher(ConstString type_name)
: m_type_name(type_name), m_is_regex(false) {}
/// Creates a matcher that accepts any type matching the given regex.
TypeMatcher(RegularExpression regex)
: m_type_name_regex(regex), m_is_regex(true) {}
/// True iff this matches the given type name.
bool Matches(ConstString type_name) const {
assert(m_valid && "Using invalid TypeMatcher");
if (m_is_regex)
return m_type_name_regex.Execute(type_name.GetStringRef());
return m_type_name == type_name ||
StripTypeName(m_type_name) == StripTypeName(type_name);
}
/// Returns the underlying match string for this TypeMatcher.
ConstString GetMatchString() const {
assert(m_valid && "Using invalid TypeMatcher");
if (m_is_regex)
return ConstString(m_type_name_regex.GetText());
return StripTypeName(m_type_name);
}
/// Returns true if this TypeMatcher and the given one were most created by
/// the same match string.
/// The main purpose of this function is to find existing TypeMatcher
/// instances by the user input that created them. This is necessary as LLDB
/// allows referencing existing TypeMatchers in commands by the user input
/// that originally created them:
/// (lldb) type summary add --summary-string \"A\" -x TypeName
/// (lldb) type summary delete TypeName
bool CreatedBySameMatchString(TypeMatcher other) const {
assert(m_valid && "Using invalid TypeMatcher");
return GetMatchString() == other.GetMatchString();
}
};
template <typename ValueType> class FormattersContainer;
template <typename ValueType> class FormatMap {
template <typename KeyType, typename ValueType> class FormatMap {
public:
typedef typename ValueType::SharedPointer ValueSP;
typedef std::vector<std::pair<TypeMatcher, ValueSP>> MapType;
typedef std::vector<std::pair<KeyType, ValueSP>> MapType;
typedef typename MapType::iterator MapIterator;
typedef std::function<bool(const TypeMatcher &, const ValueSP &)>
ForEachCallback;
typedef std::function<bool(const KeyType &, const ValueSP &)> ForEachCallback;
FormatMap(IFormatChangeListener *lst)
: m_map(), m_map_mutex(), listener(lst) {}
void Add(TypeMatcher matcher, const ValueSP &entry) {
void Add(KeyType name, const ValueSP &entry) {
if (listener)
entry->GetRevision() = listener->GetCurrentRevision();
else
entry->GetRevision() = 0;
std::lock_guard<std::recursive_mutex> guard(m_map_mutex);
Delete(matcher);
m_map.emplace_back(std::move(matcher), std::move(entry));
Delete(name);
m_map.emplace_back(std::move(name), std::move(entry));
if (listener)
listener->Changed();
}
bool Delete(const TypeMatcher &matcher) {
bool Delete(const KeyType &name) {
std::lock_guard<std::recursive_mutex> guard(m_map_mutex);
for (MapIterator iter = m_map.begin(); iter != m_map.end(); ++iter)
if (iter->first.CreatedBySameMatchString(matcher)) {
if (iter->first == name) {
m_map.erase(iter);
if (listener)
listener->Changed();
@ -159,10 +103,10 @@ public:
listener->Changed();
}
bool Get(const TypeMatcher &matcher, ValueSP &entry) {
bool Get(const KeyType &name, ValueSP &entry) {
std::lock_guard<std::recursive_mutex> guard(m_map_mutex);
for (const auto &pos : m_map)
if (pos.first.CreatedBySameMatchString(matcher)) {
if (pos.first == name) {
entry = pos.second;
return true;
}
@ -173,7 +117,7 @@ public:
if (callback) {
std::lock_guard<std::recursive_mutex> guard(m_map_mutex);
for (const auto &pos : m_map) {
const TypeMatcher &type = pos.first;
const KeyType &type = pos.first;
if (!callback(type, pos.second))
break;
}
@ -190,10 +134,10 @@ public:
}
// If caller holds the mutex we could return a reference without copy ctor.
llvm::Optional<TypeMatcher> GetKeyAtIndex(size_t index) {
KeyType GetKeyAtIndex(size_t index) {
std::lock_guard<std::recursive_mutex> guard(m_map_mutex);
if (index >= m_map.size())
return llvm::None;
return {};
return m_map[index].first;
}
@ -206,43 +150,41 @@ protected:
std::recursive_mutex &mutex() { return m_map_mutex; }
friend class FormattersContainer<ValueType>;
friend class FormattersContainer<KeyType, ValueType>;
friend class FormatManager;
};
template <typename ValueType> class FormattersContainer {
template <typename KeyType, typename ValueType> class FormattersContainer {
protected:
typedef FormatMap<ValueType> BackEndType;
typedef FormatMap<KeyType, ValueType> BackEndType;
public:
typedef typename BackEndType::MapType MapType;
typedef typename MapType::iterator MapIterator;
typedef KeyType MapKeyType;
typedef std::shared_ptr<ValueType> MapValueType;
typedef typename BackEndType::ForEachCallback ForEachCallback;
typedef typename std::shared_ptr<FormattersContainer<ValueType>>
typedef typename std::shared_ptr<FormattersContainer<KeyType, ValueType>>
SharedPointer;
friend class TypeCategoryImpl;
FormattersContainer(IFormatChangeListener *lst) : m_format_map(lst) {}
void Add(TypeMatcher type, const MapValueType &entry) {
m_format_map.Add(std::move(type), entry);
void Add(MapKeyType type, const MapValueType &entry) {
Add_Impl(std::move(type), entry, static_cast<KeyType *>(nullptr));
}
bool Delete(TypeMatcher type) { return m_format_map.Delete(type); }
bool Delete(ConstString type) {
return Delete_Impl(type, static_cast<KeyType *>(nullptr));
}
bool Get(ConstString type, MapValueType &entry) {
std::lock_guard<std::recursive_mutex> guard(m_format_map.mutex());
for (auto &formatter : llvm::reverse(m_format_map.map())) {
if (formatter.first.Matches(type)) {
entry = formatter.second;
return true;
}
}
return false;
return Get_Impl(type, entry, static_cast<KeyType *>(nullptr));
}
bool GetExact(ConstString type, MapValueType &entry) {
return m_format_map.Get(type, entry);
return GetExact_Impl(type, entry, static_cast<KeyType *>(nullptr));
}
MapValueType GetAtIndex(size_t index) {
@ -250,12 +192,8 @@ public:
}
lldb::TypeNameSpecifierImplSP GetTypeNameSpecifierAtIndex(size_t index) {
llvm::Optional<TypeMatcher> type_matcher =
m_format_map.GetKeyAtIndex(index);
if (!type_matcher)
return lldb::TypeNameSpecifierImplSP();
return lldb::TypeNameSpecifierImplSP(new TypeNameSpecifierImpl(
type_matcher->GetMatchString().GetStringRef(), true));
return GetTypeNameSpecifierAtIndex_Impl(index,
static_cast<KeyType *>(nullptr));
}
void Clear() { m_format_map.Clear(); }
@ -270,6 +208,91 @@ protected:
FormattersContainer(const FormattersContainer &) = delete;
const FormattersContainer &operator=(const FormattersContainer &) = delete;
void Add_Impl(MapKeyType type, const MapValueType &entry,
RegularExpression *dummy) {
m_format_map.Add(std::move(type), entry);
}
void Add_Impl(ConstString type, const MapValueType &entry,
ConstString *dummy) {
m_format_map.Add(GetValidTypeName_Impl(type), entry);
}
bool Delete_Impl(ConstString type, ConstString *dummy) {
return m_format_map.Delete(type);
}
bool Delete_Impl(ConstString type, RegularExpression *dummy) {
std::lock_guard<std::recursive_mutex> guard(m_format_map.mutex());
MapIterator pos, end = m_format_map.map().end();
for (pos = m_format_map.map().begin(); pos != end; pos++) {
const RegularExpression &regex = pos->first;
if (type.GetStringRef() == regex.GetText()) {
m_format_map.map().erase(pos);
if (m_format_map.listener)
m_format_map.listener->Changed();
return true;
}
}
return false;
}
bool Get_Impl(ConstString type, MapValueType &entry, ConstString *dummy) {
return m_format_map.Get(type, entry);
}
bool GetExact_Impl(ConstString type, MapValueType &entry,
ConstString *dummy) {
return Get_Impl(type, entry, static_cast<KeyType *>(nullptr));
}
lldb::TypeNameSpecifierImplSP
GetTypeNameSpecifierAtIndex_Impl(size_t index, ConstString *dummy) {
ConstString key = m_format_map.GetKeyAtIndex(index);
if (key)
return lldb::TypeNameSpecifierImplSP(
new TypeNameSpecifierImpl(key.GetStringRef(), false));
else
return lldb::TypeNameSpecifierImplSP();
}
lldb::TypeNameSpecifierImplSP
GetTypeNameSpecifierAtIndex_Impl(size_t index, RegularExpression *dummy) {
RegularExpression regex = m_format_map.GetKeyAtIndex(index);
if (regex == RegularExpression())
return lldb::TypeNameSpecifierImplSP();
return lldb::TypeNameSpecifierImplSP(
new TypeNameSpecifierImpl(regex.GetText().str().c_str(), true));
}
bool Get_Impl(ConstString key, MapValueType &value,
RegularExpression *dummy) {
llvm::StringRef key_str = key.GetStringRef();
std::lock_guard<std::recursive_mutex> guard(m_format_map.mutex());
// Patterns are matched in reverse-chronological order.
for (const auto &pos : llvm::reverse(m_format_map.map())) {
const RegularExpression &regex = pos.first;
if (regex.Execute(key_str)) {
value = pos.second;
return true;
}
}
return false;
}
bool GetExact_Impl(ConstString key, MapValueType &value,
RegularExpression *dummy) {
std::lock_guard<std::recursive_mutex> guard(m_format_map.mutex());
for (const auto &pos : m_format_map.map()) {
const RegularExpression &regex = pos.first;
if (regex.GetText() == key.GetStringRef()) {
value = pos.second;
return true;
}
}
return false;
}
bool Get(const FormattersMatchVector &candidates, MapValueType &entry) {
for (const FormattersMatchCandidate &candidate : candidates) {
if (Get(candidate.GetTypeName(), entry)) {

23
lldb/include/lldb/DataFormatters/TypeCategory.h
View File

@ -25,11 +25,12 @@ namespace lldb_private {
template <typename FormatterImpl> class FormatterContainerPair {
public:
typedef FormattersContainer<FormatterImpl> ExactMatchContainer;
typedef FormattersContainer<FormatterImpl> RegexMatchContainer;
typedef FormattersContainer<ConstString, FormatterImpl> ExactMatchContainer;
typedef FormattersContainer<RegularExpression, FormatterImpl>
RegexMatchContainer;
typedef TypeMatcher ExactMatchMap;
typedef TypeMatcher RegexMatchMap;
typedef typename ExactMatchContainer::MapType ExactMatchMap;
typedef typename RegexMatchContainer::MapType RegexMatchMap;
typedef typename ExactMatchContainer::MapValueType MapValueType;
@ -347,13 +348,19 @@ private:
friend class LanguageCategory;
friend class TypeCategoryMap;
friend class FormattersContainer<TypeFormatImpl>;
friend class FormattersContainer<ConstString, TypeFormatImpl>;
friend class FormattersContainer<lldb::RegularExpressionSP, TypeFormatImpl>;
friend class FormattersContainer<TypeSummaryImpl>;
friend class FormattersContainer<ConstString, TypeSummaryImpl>;
friend class FormattersContainer<lldb::RegularExpressionSP, TypeSummaryImpl>;
friend class FormattersContainer<TypeFilterImpl>;
friend class FormattersContainer<ConstString, TypeFilterImpl>;
friend class FormattersContainer<lldb::RegularExpressionSP, TypeFilterImpl>;
friend class FormattersContainer<ConstString, ScriptedSyntheticChildren>;
friend class FormattersContainer<lldb::RegularExpressionSP,
ScriptedSyntheticChildren>;
friend class FormattersContainer<ScriptedSyntheticChildren>;
};
} // namespace lldb_private

2
lldb/include/lldb/DataFormatters/TypeCategoryMap.h
View File

@ -103,7 +103,7 @@ private:
std::recursive_mutex &mutex() { return m_map_mutex; }
friend class FormattersContainer<ValueType>;
friend class FormattersContainer<KeyType, ValueType>;
friend class FormatManager;
};
} // namespace lldb_private

31
lldb/source/Commands/CommandObjectType.cpp
View File

@ -1066,15 +1066,13 @@ protected:
TypeCategoryImpl::ForEachCallbacks<FormatterType> foreach;
foreach
.SetExact([&result, &formatter_regex, &any_printed](
const TypeMatcher &type_matcher,
ConstString name,
const FormatterSharedPointer &format_sp) -> bool {
if (formatter_regex) {
bool escape = true;
if (type_matcher.CreatedBySameMatchString(
ConstString(formatter_regex->GetText()))) {
if (name.GetStringRef() == formatter_regex->GetText()) {
escape = false;
} else if (formatter_regex->Execute(
type_matcher.GetMatchString().GetStringRef())) {
} else if (formatter_regex->Execute(name.GetStringRef())) {
escape = false;
}
@ -1083,23 +1081,20 @@ protected:
}
any_printed = true;
result.GetOutputStream().Printf(
"%s: %s\n", type_matcher.GetMatchString().GetCString(),
format_sp->GetDescription().c_str());
result.GetOutputStream().Printf("%s: %s\n", name.AsCString(),
format_sp->GetDescription().c_str());
return true;
});
foreach
.SetWithRegex([&result, &formatter_regex, &any_printed](
const TypeMatcher &type_matcher,
const RegularExpression &regex,
const FormatterSharedPointer &format_sp) -> bool {
if (formatter_regex) {
bool escape = true;
if (type_matcher.CreatedBySameMatchString(
ConstString(formatter_regex->GetText()))) {
if (regex.GetText() == formatter_regex->GetText()) {
escape = false;
} else if (formatter_regex->Execute(
type_matcher.GetMatchString().GetStringRef())) {
} else if (formatter_regex->Execute(regex.GetText())) {
escape = false;
}
@ -1108,9 +1103,9 @@ protected:
}
any_printed = true;
result.GetOutputStream().Printf(
"%s: %s\n", type_matcher.GetMatchString().GetCString(),
format_sp->GetDescription().c_str());
result.GetOutputStream().Printf("%s: %s\n",
regex.GetText().str().c_str(),
format_sp->GetDescription().c_str());
return true;
});
@ -1686,10 +1681,10 @@ protected:
if (DataVisualization::NamedSummaryFormats::GetCount() > 0) {
result.GetOutputStream().Printf("Named summaries:\n");
DataVisualization::NamedSummaryFormats::ForEach(
[&result](const TypeMatcher &type_matcher,
[&result](ConstString name,
const TypeSummaryImplSP &summary_sp) -> bool {
result.GetOutputStream().Printf(
"%s: %s\n", type_matcher.GetMatchString().GetCString(),
"%s: %s\n", name.AsCString(),
summary_sp->GetDescription().c_str());
return true;
});

5
lldb/source/DataFormatters/DataVisualization.cpp
View File

@ -174,7 +174,8 @@ bool DataVisualization::NamedSummaryFormats::GetSummaryFormat(
void DataVisualization::NamedSummaryFormats::Add(
ConstString type, const lldb::TypeSummaryImplSP &entry) {
GetFormatManager().GetNamedSummaryContainer().Add(type, entry);
GetFormatManager().GetNamedSummaryContainer().Add(
FormatManager::GetValidTypeName(type), entry);
}
bool DataVisualization::NamedSummaryFormats::Delete(ConstString type) {
@ -186,7 +187,7 @@ void DataVisualization::NamedSummaryFormats::Clear() {
}
void DataVisualization::NamedSummaryFormats::ForEach(
std::function<bool(const TypeMatcher &, const lldb::TypeSummaryImplSP &)>
std::function<bool(ConstString, const lldb::TypeSummaryImplSP &)>
callback) {
GetFormatManager().GetNamedSummaryContainer().ForEach(callback);
}

4
lldb/source/DataFormatters/FormatManager.cpp
View File

@ -551,6 +551,10 @@ bool FormatManager::ShouldPrintAsOneLiner(ValueObject &valobj) {
return true;
}
ConstString FormatManager::GetValidTypeName(ConstString type) {
return ::GetValidTypeName_Impl(type);
}
ConstString FormatManager::GetTypeForCache(ValueObject &valobj,
lldb::DynamicValueType use_dynamic) {
ValueObjectSP valobj_sp = valobj.GetQualifiedRepresentationIfAvailable(

1
lldb/unittests/DataFormatter/CMakeLists.txt
View File

@ -1,6 +1,5 @@
add_lldb_unittest(LLDBFormatterTests
FormatManagerTests.cpp
FormattersContainerTest.cpp
StringPrinterTests.cpp
LINK_LIBS

159
lldb/unittests/DataFormatter/FormattersContainerTest.cpp
View File

@ -1,159 +0,0 @@
//===-- FormattersContainerTests.cpp --------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "lldb/DataFormatters/FormattersContainer.h"
#include "gtest/gtest.h"
using namespace lldb;
using namespace lldb_private;
// All the prefixes that the exact name matching will strip from the type.
static const std::vector<std::string> exact_name_prefixes = {
"", // no prefix.
"class ", "struct ", "union ", "enum ",
};
// TypeMatcher that uses a exact type name string that needs to be matched.
TEST(TypeMatcherTests, ExactName) {
for (const std::string &prefix : exact_name_prefixes) {
SCOPED_TRACE("Prefix: " + prefix);
TypeMatcher matcher(ConstString(prefix + "Name"));
EXPECT_TRUE(matcher.Matches(ConstString("class Name")));
EXPECT_TRUE(matcher.Matches(ConstString("struct Name")));
EXPECT_TRUE(matcher.Matches(ConstString("union Name")));
EXPECT_TRUE(matcher.Matches(ConstString("enum Name")));
EXPECT_TRUE(matcher.Matches(ConstString("Name")));
EXPECT_FALSE(matcher.Matches(ConstString("Name ")));
EXPECT_FALSE(matcher.Matches(ConstString("ame")));
EXPECT_FALSE(matcher.Matches(ConstString("Nam")));
EXPECT_FALSE(matcher.Matches(ConstString("am")));
EXPECT_FALSE(matcher.Matches(ConstString("a")));
EXPECT_FALSE(matcher.Matches(ConstString(" ")));
EXPECT_FALSE(matcher.Matches(ConstString("class N")));
EXPECT_FALSE(matcher.Matches(ConstString("class ")));
EXPECT_FALSE(matcher.Matches(ConstString("class")));
}
}
// TypeMatcher that uses a regex to match a type name.
TEST(TypeMatcherTests, RegexName) {
TypeMatcher matcher(RegularExpression("^a[a-z]c$"));
EXPECT_TRUE(matcher.Matches(ConstString("abc")));
EXPECT_TRUE(matcher.Matches(ConstString("azc")));
// FIXME: This isn't consistent with the 'exact' type name matches above.
EXPECT_FALSE(matcher.Matches(ConstString("class abc")));
EXPECT_FALSE(matcher.Matches(ConstString("abbc")));
EXPECT_FALSE(matcher.Matches(ConstString(" abc")));
EXPECT_FALSE(matcher.Matches(ConstString("abc ")));
EXPECT_FALSE(matcher.Matches(ConstString(" abc ")));
EXPECT_FALSE(matcher.Matches(ConstString("XabcX")));
EXPECT_FALSE(matcher.Matches(ConstString("ac")));
EXPECT_FALSE(matcher.Matches(ConstString("a[a-z]c")));
EXPECT_FALSE(matcher.Matches(ConstString("aAc")));
EXPECT_FALSE(matcher.Matches(ConstString("ABC")));
EXPECT_FALSE(matcher.Matches(ConstString("")));
}
// TypeMatcher that only searches the type name.
TEST(TypeMatcherTests, RegexMatchPart) {
TypeMatcher matcher(RegularExpression("a[a-z]c"));
EXPECT_TRUE(matcher.Matches(ConstString("class abc")));
EXPECT_TRUE(matcher.Matches(ConstString("abc")));
EXPECT_TRUE(matcher.Matches(ConstString(" abc ")));
EXPECT_TRUE(matcher.Matches(ConstString("azc")));
EXPECT_TRUE(matcher.Matches(ConstString("abc ")));
EXPECT_TRUE(matcher.Matches(ConstString(" abc ")));
EXPECT_TRUE(matcher.Matches(ConstString(" abc")));
EXPECT_TRUE(matcher.Matches(ConstString("XabcX")));
EXPECT_FALSE(matcher.Matches(ConstString("abbc")));
EXPECT_FALSE(matcher.Matches(ConstString("ac")));
EXPECT_FALSE(matcher.Matches(ConstString("a[a-z]c")));
EXPECT_FALSE(matcher.Matches(ConstString("aAc")));
EXPECT_FALSE(matcher.Matches(ConstString("ABC")));
EXPECT_FALSE(matcher.Matches(ConstString("")));
}
// GetMatchString for exact type name matchers.
TEST(TypeMatcherTests, GetMatchStringExactName) {
EXPECT_EQ(TypeMatcher(ConstString("aa")).GetMatchString(), "aa");
EXPECT_EQ(TypeMatcher(ConstString("")).GetMatchString(), "");
EXPECT_EQ(TypeMatcher(ConstString("[a]")).GetMatchString(), "[a]");
}
// GetMatchString for regex matchers.
TEST(TypeMatcherTests, GetMatchStringRegex) {
EXPECT_EQ(TypeMatcher(RegularExpression("aa")).GetMatchString(), "aa");
EXPECT_EQ(TypeMatcher(RegularExpression("")).GetMatchString(), "");
EXPECT_EQ(TypeMatcher(RegularExpression("[a]")).GetMatchString(), "[a]");
}
// GetMatchString for regex matchers.
TEST(TypeMatcherTests, CreatedBySameMatchString) {
TypeMatcher empty_str(ConstString(""));
TypeMatcher empty_regex(RegularExpression(""));
EXPECT_TRUE(empty_str.CreatedBySameMatchString(empty_str));
EXPECT_TRUE(empty_str.CreatedBySameMatchString(empty_regex));
TypeMatcher a_str(ConstString("a"));
TypeMatcher a_regex(RegularExpression("a"));
EXPECT_TRUE(a_str.CreatedBySameMatchString(a_str));
EXPECT_TRUE(a_str.CreatedBySameMatchString(a_regex));
TypeMatcher digit_str(ConstString("[0-9]"));
TypeMatcher digit_regex(RegularExpression("[0-9]"));
EXPECT_TRUE(digit_str.CreatedBySameMatchString(digit_str));
EXPECT_TRUE(digit_str.CreatedBySameMatchString(digit_regex));
EXPECT_FALSE(empty_str.CreatedBySameMatchString(a_str));
EXPECT_FALSE(empty_str.CreatedBySameMatchString(a_regex));
EXPECT_FALSE(empty_str.CreatedBySameMatchString(digit_str));
EXPECT_FALSE(empty_str.CreatedBySameMatchString(digit_regex));
EXPECT_FALSE(empty_regex.CreatedBySameMatchString(a_str));
EXPECT_FALSE(empty_regex.CreatedBySameMatchString(a_regex));
EXPECT_FALSE(empty_regex.CreatedBySameMatchString(digit_str));
EXPECT_FALSE(empty_regex.CreatedBySameMatchString(digit_regex));
EXPECT_FALSE(a_str.CreatedBySameMatchString(empty_str));
EXPECT_FALSE(a_str.CreatedBySameMatchString(empty_regex));
EXPECT_FALSE(a_str.CreatedBySameMatchString(digit_str));
EXPECT_FALSE(a_str.CreatedBySameMatchString(digit_regex));
EXPECT_FALSE(a_regex.CreatedBySameMatchString(empty_str));
EXPECT_FALSE(a_regex.CreatedBySameMatchString(empty_regex));
EXPECT_FALSE(a_regex.CreatedBySameMatchString(digit_str));
EXPECT_FALSE(a_regex.CreatedBySameMatchString(digit_regex));
EXPECT_FALSE(digit_str.CreatedBySameMatchString(empty_str));
EXPECT_FALSE(digit_str.CreatedBySameMatchString(empty_regex));
EXPECT_FALSE(digit_str.CreatedBySameMatchString(a_str));
EXPECT_FALSE(digit_str.CreatedBySameMatchString(a_regex));
EXPECT_FALSE(digit_regex.CreatedBySameMatchString(empty_str));
EXPECT_FALSE(digit_regex.CreatedBySameMatchString(empty_regex));
EXPECT_FALSE(digit_regex.CreatedBySameMatchString(a_str));
EXPECT_FALSE(digit_regex.CreatedBySameMatchString(a_regex));
}
// Test CreatedBySameMatchString with stripped exact name prefixes.
TEST(TypeMatcherTests, CreatedBySameMatchStringExactNamePrefixes) {
for (const std::string &prefix : exact_name_prefixes) {
SCOPED_TRACE("Prefix: " + prefix);
TypeMatcher with_prefix(ConstString(prefix + "Name"));
TypeMatcher without_prefix(RegularExpression(""));
EXPECT_TRUE(with_prefix.CreatedBySameMatchString(with_prefix));
EXPECT_TRUE(without_prefix.CreatedBySameMatchString(without_prefix));
}
}