Protocol Buffers - Google's data interchange format (grpc依赖) https://developers.google.com/protocol-buffers/
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/*
* upb - a minimalist implementation of protocol buffers.
*
* Copyright (c) 2009 Google Inc. See LICENSE for details.
* Author: Josh Haberman <jhaberman@gmail.com>
*
* This file contains shared definitions that are widely used across upb.
*
* This is a mixed C/C++ interface that offers a full API to both languages.
* See the top-level README for more information.
*/
#ifndef UPB_H_
#define UPB_H_
#include <assert.h>
#include <stdarg.h>
#include <stdbool.h>
#include <stddef.h>
/* UPB_INLINE: inline if possible, emit standalone code if required. */
#ifdef __cplusplus
#define UPB_INLINE inline
#elif defined (__GNUC__)
#define UPB_INLINE static __inline__
#else
#define UPB_INLINE static
#endif
/* Define UPB_BIG_ENDIAN manually if you're on big endian and your compiler
* doesn't provide these preprocessor symbols. */
#if defined(__BYTE_ORDER__) && (__BYTE_ORDER__ == __ORDER_BIG_ENDIAN__)
#define UPB_BIG_ENDIAN
#endif
/* Macros for function attributes on compilers that support them. */
#ifdef __GNUC__
#define UPB_FORCEINLINE __inline__ __attribute__((always_inline))
#define UPB_NOINLINE __attribute__((noinline))
#define UPB_NORETURN __attribute__((__noreturn__))
#else /* !defined(__GNUC__) */
#define UPB_FORCEINLINE
#define UPB_NOINLINE
#define UPB_NORETURN
#endif
/* A few hacky workarounds for functions not in C89.
* For internal use only!
* TODO(haberman): fix these by including our own implementations, or finding
* another workaround.
*/
#ifdef __GNUC__
#define _upb_snprintf __builtin_snprintf
#define _upb_vsnprintf __builtin_vsnprintf
#define _upb_va_copy(a, b) __va_copy(a, b)
#elif __STDC_VERSION__ >= 199901L
/* C99 versions. */
#define _upb_snprintf snprintf
#define _upb_vsnprintf vsnprintf
#define _upb_va_copy(a, b) va_copy(a, b)
#else
#error Need implementations of [v]snprintf and va_copy
#endif
#if ((defined(__cplusplus) && __cplusplus >= 201103L) || \
defined(__GXX_EXPERIMENTAL_CXX0X__)) && !defined(UPB_NO_CXX11)
#define UPB_CXX11
#endif
/* UPB_DISALLOW_COPY_AND_ASSIGN()
* UPB_DISALLOW_POD_OPS()
*
* Declare these in the "private" section of a C++ class to forbid copy/assign
* or all POD ops (construct, destruct, copy, assign) on that class. */
#ifdef UPB_CXX11
#include <type_traits>
#define UPB_DISALLOW_COPY_AND_ASSIGN(class_name) \
class_name(const class_name&) = delete; \
void operator=(const class_name&) = delete;
#define UPB_DISALLOW_POD_OPS(class_name, full_class_name) \
class_name() = delete; \
~class_name() = delete; \
UPB_DISALLOW_COPY_AND_ASSIGN(class_name)
#define UPB_ASSERT_STDLAYOUT(type) \
static_assert(std::is_standard_layout<type>::value, \
#type " must be standard layout");
#else /* !defined(UPB_CXX11) */
#define UPB_DISALLOW_COPY_AND_ASSIGN(class_name) \
class_name(const class_name&); \
void operator=(const class_name&);
#define UPB_DISALLOW_POD_OPS(class_name, full_class_name) \
class_name(); \
~class_name(); \
UPB_DISALLOW_COPY_AND_ASSIGN(class_name)
#define UPB_ASSERT_STDLAYOUT(type)
#endif
/* UPB_DECLARE_TYPE()
* UPB_DECLARE_DERIVED_TYPE()
* UPB_DECLARE_DERIVED_TYPE2()
*
* Macros for declaring C and C++ types both, including inheritance.
* The inheritance doesn't use real C++ inheritance, to stay compatible with C.
*
* These macros also provide upcasts:
* - in C: types-specific functions (ie. upb_foo_upcast(foo))
* - in C++: upb::upcast(foo) along with implicit conversions
*
* Downcasts are not provided, but upb/def.h defines downcasts for upb::Def. */
#define UPB_C_UPCASTS(ty, base) \
UPB_INLINE base *ty ## _upcast_mutable(ty *p) { return (base*)p; } \
UPB_INLINE const base *ty ## _upcast(const ty *p) { return (const base*)p; }
#define UPB_C_UPCASTS2(ty, base, base2) \
UPB_C_UPCASTS(ty, base) \
UPB_INLINE base2 *ty ## _upcast2_mutable(ty *p) { return (base2*)p; } \
UPB_INLINE const base2 *ty ## _upcast2(const ty *p) { return (const base2*)p; }
#ifdef __cplusplus
#define UPB_BEGIN_EXTERN_C extern "C" {
#define UPB_END_EXTERN_C }
#define UPB_PRIVATE_FOR_CPP private:
#define UPB_DECLARE_TYPE(cppname, cname) typedef cppname cname;
#define UPB_DECLARE_DERIVED_TYPE(cppname, cppbase, cname, cbase) \
UPB_DECLARE_TYPE(cppname, cname) \
UPB_C_UPCASTS(cname, cbase) \
namespace upb { \
template <> \
class Pointer<cppname> : public PointerBase<cppname, cppbase> { \
public: \
explicit Pointer(cppname* ptr) : PointerBase(ptr) {} \
}; \
template <> \
class Pointer<const cppname> \
: public PointerBase<const cppname, const cppbase> { \
public: \
explicit Pointer(const cppname* ptr) : PointerBase(ptr) {} \
}; \
}
#define UPB_DECLARE_DERIVED_TYPE2(cppname, cppbase, cppbase2, cname, cbase, \
cbase2) \
UPB_DECLARE_TYPE(cppname, cname) \
UPB_C_UPCASTS2(cname, cbase, cbase2) \
namespace upb { \
template <> \
class Pointer<cppname> : public PointerBase2<cppname, cppbase, cppbase2> { \
public: \
explicit Pointer(cppname* ptr) : PointerBase2(ptr) {} \
}; \
template <> \
class Pointer<const cppname> \
: public PointerBase2<const cppname, const cppbase, const cppbase2> { \
public: \
explicit Pointer(const cppname* ptr) : PointerBase2(ptr) {} \
}; \
}
#else /* !defined(__cplusplus) */
#define UPB_BEGIN_EXTERN_C
#define UPB_END_EXTERN_C
#define UPB_PRIVATE_FOR_CPP
#define UPB_DECLARE_TYPE(cppname, cname) \
struct cname; \
typedef struct cname cname;
#define UPB_DECLARE_DERIVED_TYPE(cppname, cppbase, cname, cbase) \
UPB_DECLARE_TYPE(cppname, cname) \
UPB_C_UPCASTS(cname, cbase)
#define UPB_DECLARE_DERIVED_TYPE2(cppname, cppbase, cppbase2, \
cname, cbase, cbase2) \
UPB_DECLARE_TYPE(cppname, cname) \
UPB_C_UPCASTS2(cname, cbase, cbase2)
#endif /* defined(__cplusplus) */
#define UPB_MAX(x, y) ((x) > (y) ? (x) : (y))
#define UPB_MIN(x, y) ((x) < (y) ? (x) : (y))
#define UPB_UNUSED(var) (void)var
/* For asserting something about a variable when the variable is not used for
* anything else. This prevents "unused variable" warnings when compiling in
* debug mode. */
#define UPB_ASSERT_VAR(var, predicate) UPB_UNUSED(var); assert(predicate)
/* Generic function type. */
typedef void upb_func();
/* C++ Casts ******************************************************************/
#ifdef __cplusplus
namespace upb {
template <class T> class Pointer;
/* Casts to a subclass. The caller must know that cast is correct; an
* incorrect cast will throw an assertion failure in debug mode.
*
* Example:
* upb::Def* def = GetDef();
* // Assert-fails if this was not actually a MessageDef.
* upb::MessgeDef* md = upb::down_cast<upb::MessageDef>(def);
*
* Note that downcasts are only defined for some types (at the moment you can
* only downcast from a upb::Def to a specific Def type). */
template<class To, class From> To down_cast(From* f);
/* Casts to a subclass. If the class does not actually match the given To type,
* returns NULL.
*
* Example:
* upb::Def* def = GetDef();
* // md will be NULL if this was not actually a MessageDef.
* upb::MessgeDef* md = upb::down_cast<upb::MessageDef>(def);
*
* Note that dynamic casts are only defined for some types (at the moment you
* can only downcast from a upb::Def to a specific Def type).. */
template<class To, class From> To dyn_cast(From* f);
/* Casts to any base class, or the type itself (ie. can be a no-op).
*
* Example:
* upb::MessageDef* md = GetDef();
* // This will fail to compile if this wasn't actually a base class.
* upb::Def* def = upb::upcast(md);
*/
template <class T> inline Pointer<T> upcast(T *f) { return Pointer<T>(f); }
/* Attempt upcast to specific base class.
*
* Example:
* upb::MessageDef* md = GetDef();
* upb::upcast_to<upb::Def>(md)->MethodOnDef();
*/
template <class T, class F> inline T* upcast_to(F *f) {
return static_cast<T*>(upcast(f));
}
/* PointerBase<T>: implementation detail of upb::upcast().
* It is implicitly convertable to pointers to the Base class(es).
*/
template <class T, class Base>
class PointerBase {
public:
explicit PointerBase(T* ptr) : ptr_(ptr) {}
operator T*() { return ptr_; }
operator Base*() { return (Base*)ptr_; }
private:
T* ptr_;
};
template <class T, class Base, class Base2>
class PointerBase2 : public PointerBase<T, Base> {
public:
explicit PointerBase2(T* ptr) : PointerBase<T, Base>(ptr) {}
operator Base2*() { return Pointer<Base>(*this); }
};
}
#endif
/* upb::reffed_ptr ************************************************************/
#ifdef __cplusplus
#include <algorithm> /* For std::swap(). */
namespace upb {
/* Provides RAII semantics for upb refcounted objects. Each reffed_ptr owns a
* ref on whatever object it points to (if any). */
template <class T> class reffed_ptr {
public:
reffed_ptr() : ptr_(NULL) {}
/* If ref_donor is NULL, takes a new ref, otherwise adopts from ref_donor. */
template <class U>
reffed_ptr(U* val, const void* ref_donor = NULL)
: ptr_(upb::upcast(val)) {
if (ref_donor) {
assert(ptr_);
ptr_->DonateRef(ref_donor, this);
} else if (ptr_) {
ptr_->Ref(this);
}
}
template <class U>
reffed_ptr(const reffed_ptr<U>& other)
: ptr_(upb::upcast(other.get())) {
if (ptr_) ptr_->Ref(this);
}
~reffed_ptr() { if (ptr_) ptr_->Unref(this); }
template <class U>
reffed_ptr& operator=(const reffed_ptr<U>& other) {
reset(other.get());
return *this;
}
reffed_ptr& operator=(const reffed_ptr& other) {
reset(other.get());
return *this;
}
/* TODO(haberman): add C++11 move construction/assignment for greater
* efficiency. */
void swap(reffed_ptr& other) {
if (ptr_ == other.ptr_) {
return;
}
if (ptr_) ptr_->DonateRef(this, &other);
if (other.ptr_) other.ptr_->DonateRef(&other, this);
std::swap(ptr_, other.ptr_);
}
T& operator*() const {
assert(ptr_);
return *ptr_;
}
T* operator->() const {
assert(ptr_);
return ptr_;
}
T* get() const { return ptr_; }
/* If ref_donor is NULL, takes a new ref, otherwise adopts from ref_donor. */
template <class U>
void reset(U* ptr = NULL, const void* ref_donor = NULL) {
reffed_ptr(ptr, ref_donor).swap(*this);
}
template <class U>
reffed_ptr<U> down_cast() {
return reffed_ptr<U>(upb::down_cast<U*>(get()));
}
template <class U>
reffed_ptr<U> dyn_cast() {
return reffed_ptr<U>(upb::dyn_cast<U*>(get()));
}
/* Plain release() is unsafe; if we were the only owner, it would leak the
* object. Instead we provide this: */
T* ReleaseTo(const void* new_owner) {
T* ret = NULL;
ptr_->DonateRef(this, new_owner);
std::swap(ret, ptr_);
return ret;
}
private:
T* ptr_;
};
} /* namespace upb */
#endif /* __cplusplus */
/* upb::Status ****************************************************************/
#ifdef __cplusplus
namespace upb {
class ErrorSpace;
class Status;
}
#endif
UPB_DECLARE_TYPE(upb::ErrorSpace, upb_errorspace)
UPB_DECLARE_TYPE(upb::Status, upb_status)
/* The maximum length of an error message before it will get truncated. */
#define UPB_STATUS_MAX_MESSAGE 128
/* An error callback function is used to report errors from some component.
* The function can return "true" to indicate that the component should try
* to recover and proceed, but this is not always possible. */
typedef bool upb_errcb_t(void *closure, const upb_status* status);
#ifdef __cplusplus
class upb::ErrorSpace {
#else
struct upb_errorspace {
#endif
const char *name;
/* Should the error message in the status object according to this code. */
void (*set_message)(upb_status* status, int code);
};
#ifdef __cplusplus
/* Object representing a success or failure status.
* It owns no resources and allocates no memory, so it should work
* even in OOM situations. */
class upb::Status {
public:
Status();
/* Returns true if there is no error. */
bool ok() const;
/* Optional error space and code, useful if the caller wants to
* programmatically check the specific kind of error. */
ErrorSpace* error_space();
int code() const;
const char *error_message() const;
/* The error message will be truncated if it is longer than
* UPB_STATUS_MAX_MESSAGE-4. */
void SetErrorMessage(const char* msg);
void SetFormattedErrorMessage(const char* fmt, ...);
/* If there is no error message already, this will use the ErrorSpace to
* populate the error message for this code. The caller can still call
* SetErrorMessage() to give a more specific message. */
void SetErrorCode(ErrorSpace* space, int code);
/* Resets the status to a successful state with no message. */
void Clear();
void CopyFrom(const Status& other);
private:
UPB_DISALLOW_COPY_AND_ASSIGN(Status)
#else
struct upb_status {
#endif
bool ok_;
/* Specific status code defined by some error space (optional). */
int code_;
upb_errorspace *error_space_;
/* Error message; NULL-terminated. */
char msg[UPB_STATUS_MAX_MESSAGE];
};
#define UPB_STATUS_INIT {true, 0, NULL, {0}}
#ifdef __cplusplus
extern "C" {
#endif
/* The returned string is invalidated by any other call into the status. */
const char *upb_status_errmsg(const upb_status *status);
bool upb_ok(const upb_status *status);
upb_errorspace *upb_status_errspace(const upb_status *status);
int upb_status_errcode(const upb_status *status);
/* Any of the functions that write to a status object allow status to be NULL,
* to support use cases where the function's caller does not care about the
* status message. */
void upb_status_clear(upb_status *status);
void upb_status_seterrmsg(upb_status *status, const char *msg);
void upb_status_seterrf(upb_status *status, const char *fmt, ...);
void upb_status_vseterrf(upb_status *status, const char *fmt, va_list args);
void upb_status_seterrcode(upb_status *status, upb_errorspace *space, int code);
void upb_status_copy(upb_status *to, const upb_status *from);
#ifdef __cplusplus
} /* extern "C" */
namespace upb {
/* C++ Wrappers */
inline Status::Status() { Clear(); }
inline bool Status::ok() const { return upb_ok(this); }
inline const char* Status::error_message() const {
return upb_status_errmsg(this);
}
inline void Status::SetErrorMessage(const char* msg) {
upb_status_seterrmsg(this, msg);
}
inline void Status::SetFormattedErrorMessage(const char* fmt, ...) {
va_list args;
va_start(args, fmt);
upb_status_vseterrf(this, fmt, args);
va_end(args);
}
inline void Status::SetErrorCode(ErrorSpace* space, int code) {
upb_status_seterrcode(this, space, code);
}
inline void Status::Clear() { upb_status_clear(this); }
inline void Status::CopyFrom(const Status& other) {
upb_status_copy(this, &other);
}
} /* namespace upb */
#endif
#endif /* UPB_H_ */