| // Copyright 2022 The Abseil Authors. |
| // |
| // Licensed under the Apache License, Version 2.0 (the "License"); |
| // you may not use this file except in compliance with the License. |
| // You may obtain a copy of the License at |
| // |
| // https://www.apache.org/licenses/LICENSE-2.0 |
| // |
| // Unless required by applicable law or agreed to in writing, software |
| // distributed under the License is distributed on an "AS IS" BASIS, |
| // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| // See the License for the specific language governing permissions and |
| // limitations under the License. |
| // |
| // ----------------------------------------------------------------------------- |
| // File: log/internal/check_op.h |
| // ----------------------------------------------------------------------------- |
| // |
| // This file declares helpers routines and macros used to implement `CHECK` |
| // macros. |
| |
| #ifndef ABSL_LOG_INTERNAL_CHECK_OP_H_ |
| #define ABSL_LOG_INTERNAL_CHECK_OP_H_ |
| |
| #include <stdint.h> |
| |
| #include <ostream> |
| #include <sstream> |
| #include <string> |
| #include <utility> |
| |
| #include "absl/base/attributes.h" |
| #include "absl/base/config.h" |
| #include "absl/base/optimization.h" |
| #include "absl/log/internal/nullguard.h" |
| #include "absl/log/internal/nullstream.h" |
| #include "absl/log/internal/strip.h" |
| |
| // `ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL` wraps string literals that |
| // should be stripped when `ABSL_MIN_LOG_LEVEL` exceeds `kFatal`. |
| #ifdef ABSL_MIN_LOG_LEVEL |
| #define ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(literal) \ |
| (::absl::LogSeverity::kFatal >= \ |
| static_cast<::absl::LogSeverity>(ABSL_MIN_LOG_LEVEL) \ |
| ? (literal) \ |
| : "") |
| #else |
| #define ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(literal) (literal) |
| #endif |
| |
| #ifdef NDEBUG |
| // `NDEBUG` is defined, so `DCHECK_EQ(x, y)` and so on do nothing. However, we |
| // still want the compiler to parse `x` and `y`, because we don't want to lose |
| // potentially useful errors and warnings. |
| #define ABSL_LOG_INTERNAL_DCHECK_NOP(x, y) \ |
| while (false && ((void)(x), (void)(y), 0)) \ |
| ::absl::log_internal::NullStream().InternalStream() |
| #endif |
| |
| #define ABSL_LOG_INTERNAL_CHECK_OP(name, op, val1, val1_text, val2, val2_text) \ |
| while ( \ |
| ::std::string* absl_log_internal_check_op_result ABSL_ATTRIBUTE_UNUSED = \ |
| ::absl::log_internal::name##Impl( \ |
| ::absl::log_internal::GetReferenceableValue(val1), \ |
| ::absl::log_internal::GetReferenceableValue(val2), \ |
| ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(val1_text \ |
| " " #op " " val2_text))) \ |
| ABSL_LOG_INTERNAL_CHECK(*absl_log_internal_check_op_result).InternalStream() |
| #define ABSL_LOG_INTERNAL_QCHECK_OP(name, op, val1, val1_text, val2, \ |
| val2_text) \ |
| while (::std::string* absl_log_internal_qcheck_op_result = \ |
| ::absl::log_internal::name##Impl( \ |
| ::absl::log_internal::GetReferenceableValue(val1), \ |
| ::absl::log_internal::GetReferenceableValue(val2), \ |
| ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL( \ |
| val1_text " " #op " " val2_text))) \ |
| ABSL_LOG_INTERNAL_QCHECK(*absl_log_internal_qcheck_op_result).InternalStream() |
| #define ABSL_LOG_INTERNAL_CHECK_STROP(func, op, expected, s1, s1_text, s2, \ |
| s2_text) \ |
| while (::std::string* absl_log_internal_check_strop_result = \ |
| ::absl::log_internal::Check##func##expected##Impl( \ |
| (s1), (s2), \ |
| ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(s1_text " " #op \ |
| " " s2_text))) \ |
| ABSL_LOG_INTERNAL_CHECK(*absl_log_internal_check_strop_result) \ |
| .InternalStream() |
| #define ABSL_LOG_INTERNAL_QCHECK_STROP(func, op, expected, s1, s1_text, s2, \ |
| s2_text) \ |
| while (::std::string* absl_log_internal_qcheck_strop_result = \ |
| ::absl::log_internal::Check##func##expected##Impl( \ |
| (s1), (s2), \ |
| ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(s1_text " " #op \ |
| " " s2_text))) \ |
| ABSL_LOG_INTERNAL_QCHECK(*absl_log_internal_qcheck_strop_result) \ |
| .InternalStream() |
| // This one is tricky: |
| // * We must evaluate `val` exactly once, yet we need to do two things with it: |
| // evaluate `.ok()` and (sometimes) `.ToString()`. |
| // * `val` might be an `absl::Status` or some `absl::StatusOr<T>`. |
| // * `val` might be e.g. `ATemporary().GetStatus()`, which may return a |
| // reference to a member of `ATemporary` that is only valid until the end of |
| // the full expression. |
| // * We don't want this file to depend on `absl::Status` `#include`s or linkage, |
| // nor do we want to move the definition to status and introduce a dependency |
| // in the other direction. We can be assured that callers must already have a |
| // `Status` and the necessary `#include`s and linkage. |
| // * Callsites should be small and fast (at least when `val.ok()`): one branch, |
| // minimal stack footprint. |
| // * In particular, the string concat stuff should be out-of-line and emitted |
| // in only one TU to save linker input size |
| // * We want the `val.ok()` check inline so static analyzers and optimizers can |
| // see it. |
| // * As usual, no braces so we can stream into the expansion with `operator<<`. |
| // * Also as usual, it must expand to a single (partial) statement with no |
| // ambiguous-else problems. |
| #define ABSL_LOG_INTERNAL_CHECK_OK(val, val_text) \ |
| for (::std::pair<const ::absl::Status*, ::std::string*> \ |
| absl_log_internal_check_ok_goo; \ |
| absl_log_internal_check_ok_goo.first = \ |
| ::absl::log_internal::AsStatus(val), \ |
| absl_log_internal_check_ok_goo.second = \ |
| ABSL_PREDICT_TRUE(absl_log_internal_check_ok_goo.first->ok()) \ |
| ? nullptr \ |
| : ::absl::status_internal::MakeCheckFailString( \ |
| absl_log_internal_check_ok_goo.first, \ |
| ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(val_text \ |
| " is OK")), \ |
| !ABSL_PREDICT_TRUE(absl_log_internal_check_ok_goo.first->ok());) \ |
| ABSL_LOG_INTERNAL_CHECK(*absl_log_internal_check_ok_goo.second) \ |
| .InternalStream() |
| #define ABSL_LOG_INTERNAL_QCHECK_OK(val, val_text) \ |
| for (::std::pair<const ::absl::Status*, ::std::string*> \ |
| absl_log_internal_check_ok_goo; \ |
| absl_log_internal_check_ok_goo.first = \ |
| ::absl::log_internal::AsStatus(val), \ |
| absl_log_internal_check_ok_goo.second = \ |
| ABSL_PREDICT_TRUE(absl_log_internal_check_ok_goo.first->ok()) \ |
| ? nullptr \ |
| : ::absl::status_internal::MakeCheckFailString( \ |
| absl_log_internal_check_ok_goo.first, \ |
| ABSL_LOG_INTERNAL_STRIP_STRING_LITERAL(val_text \ |
| " is OK")), \ |
| !ABSL_PREDICT_TRUE(absl_log_internal_check_ok_goo.first->ok());) \ |
| ABSL_LOG_INTERNAL_QCHECK(*absl_log_internal_check_ok_goo.second) \ |
| .InternalStream() |
| |
| namespace absl { |
| ABSL_NAMESPACE_BEGIN |
| |
| class Status; |
| template <typename T> |
| class StatusOr; |
| |
| namespace status_internal { |
| std::string* MakeCheckFailString(const absl::Status* status, |
| const char* prefix); |
| } // namespace status_internal |
| |
| namespace log_internal { |
| |
| // Convert a Status or a StatusOr to its underlying status value. |
| // |
| // (This implementation does not require a dep on absl::Status to work.) |
| inline const absl::Status* AsStatus(const absl::Status& s) { return &s; } |
| template <typename T> |
| const absl::Status* AsStatus(const absl::StatusOr<T>& s) { |
| return &s.status(); |
| } |
| |
| // A helper class for formatting `expr (V1 vs. V2)` in a `CHECK_XX` statement. |
| // See `MakeCheckOpString` for sample usage. |
| class CheckOpMessageBuilder final { |
| public: |
| // Inserts `exprtext` and ` (` to the stream. |
| explicit CheckOpMessageBuilder(const char* exprtext); |
| ~CheckOpMessageBuilder() = default; |
| // For inserting the first variable. |
| std::ostream& ForVar1() { return stream_; } |
| // For inserting the second variable (adds an intermediate ` vs. `). |
| std::ostream& ForVar2(); |
| // Get the result (inserts the closing `)`). |
| std::string* NewString(); |
| |
| private: |
| std::ostringstream stream_; |
| }; |
| |
| // This formats a value for a failing `CHECK_XX` statement. Ordinarily, it uses |
| // the definition for `operator<<`, with a few special cases below. |
| template <typename T> |
| inline void MakeCheckOpValueString(std::ostream& os, const T& v) { |
| os << log_internal::NullGuard<T>::Guard(v); |
| } |
| |
| // Overloads for char types provide readable values for unprintable characters. |
| void MakeCheckOpValueString(std::ostream& os, char v); |
| void MakeCheckOpValueString(std::ostream& os, signed char v); |
| void MakeCheckOpValueString(std::ostream& os, unsigned char v); |
| void MakeCheckOpValueString(std::ostream& os, const void* p); |
| |
| namespace detect_specialization { |
| |
| // MakeCheckOpString is being specialized for every T and U pair that is being |
| // passed to the CHECK_op macros. However, there is a lot of redundancy in these |
| // specializations that creates unnecessary library and binary bloat. |
| // The number of instantiations tends to be O(n^2) because we have two |
| // independent inputs. This technique works by reducing `n`. |
| // |
| // Most user-defined types being passed to CHECK_op end up being printed as a |
| // builtin type. For example, enums tend to be implicitly converted to its |
| // underlying type when calling operator<<, and pointers are printed with the |
| // `const void*` overload. |
| // To reduce the number of instantiations we coerce these values before calling |
| // MakeCheckOpString instead of inside it. |
| // |
| // To detect if this coercion is needed, we duplicate all the relevant |
| // operator<< overloads as specified in the standard, just in a different |
| // namespace. If the call to `stream << value` becomes ambiguous, it means that |
| // one of these overloads is the one selected by overload resolution. We then |
| // do overload resolution again just with our overload set to see which one gets |
| // selected. That tells us which type to coerce to. |
| // If the augmented call was not ambiguous, it means that none of these were |
| // selected and we can't coerce the input. |
| // |
| // As a secondary step to reduce code duplication, we promote integral types to |
| // their 64-bit variant. This does not change the printed value, but reduces the |
| // number of instantiations even further. Promoting an integer is very cheap at |
| // the call site. |
| int64_t operator<<(std::ostream&, short value); // NOLINT |
| int64_t operator<<(std::ostream&, unsigned short value); // NOLINT |
| int64_t operator<<(std::ostream&, int value); |
| int64_t operator<<(std::ostream&, unsigned int value); |
| int64_t operator<<(std::ostream&, long value); // NOLINT |
| uint64_t operator<<(std::ostream&, unsigned long value); // NOLINT |
| int64_t operator<<(std::ostream&, long long value); // NOLINT |
| uint64_t operator<<(std::ostream&, unsigned long long value); // NOLINT |
| float operator<<(std::ostream&, float value); |
| double operator<<(std::ostream&, double value); |
| long double operator<<(std::ostream&, long double value); |
| bool operator<<(std::ostream&, bool value); |
| const void* operator<<(std::ostream&, const void* value); |
| const void* operator<<(std::ostream&, std::nullptr_t); |
| |
| // These `char` overloads are specified like this in the standard, so we have to |
| // write them exactly the same to ensure the call is ambiguous. |
| // If we wrote it in a different way (eg taking std::ostream instead of the |
| // template) then one call might have a higher rank than the other and it would |
| // not be ambiguous. |
| template <typename Traits> |
| char operator<<(std::basic_ostream<char, Traits>&, char); |
| template <typename Traits> |
| signed char operator<<(std::basic_ostream<char, Traits>&, signed char); |
| template <typename Traits> |
| unsigned char operator<<(std::basic_ostream<char, Traits>&, unsigned char); |
| template <typename Traits> |
| const char* operator<<(std::basic_ostream<char, Traits>&, const char*); |
| template <typename Traits> |
| const signed char* operator<<(std::basic_ostream<char, Traits>&, |
| const signed char*); |
| template <typename Traits> |
| const unsigned char* operator<<(std::basic_ostream<char, Traits>&, |
| const unsigned char*); |
| |
| // This overload triggers when the call is not ambiguous. |
| // It means that T is being printed with some overload not on this list. |
| // We keep the value as `const T&`. |
| template <typename T, typename = decltype(std::declval<std::ostream&>() |
| << std::declval<const T&>())> |
| const T& Detect(int); |
| |
| // This overload triggers when the call is ambiguous. |
| // It means that T is either one from this list or printed as one from this |
| // list. Eg an enum that decays to `int` for printing. |
| // We ask the overload set to give us the type we want to convert it to. |
| template <typename T> |
| decltype(detect_specialization::operator<<(std::declval<std::ostream&>(), |
| std::declval<const T&>())) |
| Detect(char); |
| |
| } // namespace detect_specialization |
| |
| template <typename T> |
| using CheckOpStreamType = decltype(detect_specialization::Detect<T>(0)); |
| |
| // Build the error message string. Specify no inlining for code size. |
| template <typename T1, typename T2> |
| ABSL_ATTRIBUTE_RETURNS_NONNULL std::string* MakeCheckOpString( |
| T1 v1, T2 v2, const char* exprtext) ABSL_ATTRIBUTE_NOINLINE; |
| |
| template <typename T1, typename T2> |
| std::string* MakeCheckOpString(T1 v1, T2 v2, const char* exprtext) { |
| CheckOpMessageBuilder comb(exprtext); |
| MakeCheckOpValueString(comb.ForVar1(), v1); |
| MakeCheckOpValueString(comb.ForVar2(), v2); |
| return comb.NewString(); |
| } |
| |
| // Add a few commonly used instantiations as extern to reduce size of objects |
| // files. |
| #define ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(x) \ |
| extern template std::string* MakeCheckOpString(x, x, const char*) |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(bool); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(int64_t); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(uint64_t); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(float); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(double); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(char); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(unsigned char); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(const std::string&); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(const absl::string_view&); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(const char*); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(const signed char*); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(const unsigned char*); |
| ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN(const void*); |
| #undef ABSL_LOG_INTERNAL_DEFINE_MAKE_CHECK_OP_STRING_EXTERN |
| |
| // Helper functions for `ABSL_LOG_INTERNAL_CHECK_OP` macro family. The |
| // `(int, int)` override works around the issue that the compiler will not |
| // instantiate the template version of the function on values of unnamed enum |
| // type. |
| #define ABSL_LOG_INTERNAL_CHECK_OP_IMPL(name, op) \ |
| template <typename T1, typename T2> \ |
| inline constexpr ::std::string* name##Impl(const T1& v1, const T2& v2, \ |
| const char* exprtext) { \ |
| using U1 = CheckOpStreamType<T1>; \ |
| using U2 = CheckOpStreamType<T2>; \ |
| return ABSL_PREDICT_TRUE(v1 op v2) \ |
| ? nullptr \ |
| : MakeCheckOpString<U1, U2>(v1, v2, exprtext); \ |
| } \ |
| inline constexpr ::std::string* name##Impl(int v1, int v2, \ |
| const char* exprtext) { \ |
| return name##Impl<int, int>(v1, v2, exprtext); \ |
| } |
| |
| ABSL_LOG_INTERNAL_CHECK_OP_IMPL(Check_EQ, ==) |
| ABSL_LOG_INTERNAL_CHECK_OP_IMPL(Check_NE, !=) |
| ABSL_LOG_INTERNAL_CHECK_OP_IMPL(Check_LE, <=) |
| ABSL_LOG_INTERNAL_CHECK_OP_IMPL(Check_LT, <) |
| ABSL_LOG_INTERNAL_CHECK_OP_IMPL(Check_GE, >=) |
| ABSL_LOG_INTERNAL_CHECK_OP_IMPL(Check_GT, >) |
| #undef ABSL_LOG_INTERNAL_CHECK_OP_IMPL |
| |
| std::string* CheckstrcmptrueImpl(const char* s1, const char* s2, |
| const char* exprtext); |
| std::string* CheckstrcmpfalseImpl(const char* s1, const char* s2, |
| const char* exprtext); |
| std::string* CheckstrcasecmptrueImpl(const char* s1, const char* s2, |
| const char* exprtext); |
| std::string* CheckstrcasecmpfalseImpl(const char* s1, const char* s2, |
| const char* exprtext); |
| |
| // `CHECK_EQ` and friends want to pass their arguments by reference, however |
| // this winds up exposing lots of cases where people have defined and |
| // initialized static const data members but never declared them (i.e. in a .cc |
| // file), meaning they are not referenceable. This function avoids that problem |
| // for integers (the most common cases) by overloading for every primitive |
| // integer type, even the ones we discourage, and returning them by value. |
| template <typename T> |
| inline constexpr const T& GetReferenceableValue(const T& t) { |
| return t; |
| } |
| inline constexpr char GetReferenceableValue(char t) { return t; } |
| inline constexpr unsigned char GetReferenceableValue(unsigned char t) { |
| return t; |
| } |
| inline constexpr signed char GetReferenceableValue(signed char t) { return t; } |
| inline constexpr short GetReferenceableValue(short t) { return t; } // NOLINT |
| inline constexpr unsigned short GetReferenceableValue( // NOLINT |
| unsigned short t) { // NOLINT |
| return t; |
| } |
| inline constexpr int GetReferenceableValue(int t) { return t; } |
| inline constexpr unsigned int GetReferenceableValue(unsigned int t) { |
| return t; |
| } |
| inline constexpr long GetReferenceableValue(long t) { return t; } // NOLINT |
| inline constexpr unsigned long GetReferenceableValue( // NOLINT |
| unsigned long t) { // NOLINT |
| return t; |
| } |
| inline constexpr long long GetReferenceableValue(long long t) { // NOLINT |
| return t; |
| } |
| inline constexpr unsigned long long GetReferenceableValue( // NOLINT |
| unsigned long long t) { // NOLINT |
| return t; |
| } |
| |
| } // namespace log_internal |
| ABSL_NAMESPACE_END |
| } // namespace absl |
| |
| #endif // ABSL_LOG_INTERNAL_CHECK_OP_H_ |