protobuf/upb/def.h

/*
 * upb - a minimalist implementation of protocol buffers.
 *
 * Copyright (c) 2009-2012 Google Inc.  See LICENSE for details.
 * Author: Josh Haberman <jhaberman@gmail.com>
 *
 * Defs are upb's internal representation of the constructs that can appear
 * in a .proto file:
 *
 * - upb_msgdef: describes a "message" construct.
 * - upb_fielddef: describes a message field.
 * - upb_enumdef: describes an enum.
 * (TODO: definitions of services).
 *
 * Like upb_refcounted objects, defs are mutable only until frozen, and are
 * only thread-safe once frozen.
 *
 * 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_DEF_H_
#define UPB_DEF_H_

#include "upb/refcounted.h"

#ifdef __cplusplus
#include <cstring>
#include <string>
#include <vector>

namespace upb {
class Def;
class EnumDef;
class FieldDef;
class MessageDef;
}
#endif

UPB_DECLARE_TYPE(upb::Def, upb_def);
UPB_DECLARE_TYPE(upb::EnumDef, upb_enumdef);
UPB_DECLARE_TYPE(upb::FieldDef, upb_fielddef);
UPB_DECLARE_TYPE(upb::MessageDef, upb_msgdef);

// Maximum field number allowed for FieldDefs.  This is an inherent limit of the
// protobuf wire format.
#define UPB_MAX_FIELDNUMBER ((1 << 29) - 1)

// The maximum message depth that the type graph can have.  This is a resource
// limit for the C stack since we sometimes need to recursively traverse the
// graph.  Cycles are ok; the traversal will stop when it detects a cycle, but
// we must hit the cycle before the maximum depth is reached.
//
// If having a single static limit is too inflexible, we can add another variant
// of Def::Freeze that allows specifying this as a parameter.
#define UPB_MAX_MESSAGE_DEPTH 64


/* upb::Def: base class for defs  *********************************************/

// All the different kind of defs we support.  These correspond 1:1 with
// declarations in a .proto file.
typedef enum {
  UPB_DEF_MSG,
  UPB_DEF_FIELD,
  UPB_DEF_ENUM,
  UPB_DEF_SERVICE,   // Not yet implemented.
  UPB_DEF_ANY = -1,  // Wildcard for upb_symtab_get*()
} upb_deftype_t;

// The base class of all defs.  Its base is upb::RefCounted (use upb::upcast()
// to convert).
UPB_DEFINE_CLASS1(upb::Def, upb::RefCounted,
 public:
  typedef upb_deftype_t Type;

  Def* Dup(const void *owner) const;

  // Functionality from upb::RefCounted.
  bool IsFrozen() const;
  void Ref(const void* owner) const;
  void Unref(const void* owner) const;
  void DonateRef(const void* from, const void* to) const;
  void CheckRef(const void* owner) const;

  Type def_type() const;

  // "fullname" is the def's fully-qualified name (eg. foo.bar.Message).
  const char *full_name() const;

  // The def must be mutable.  Caller retains ownership of fullname.  Defs are
  // not required to have a name; if a def has no name when it is frozen, it
  // will remain an anonymous def.  On failure, returns false and details in "s"
  // if non-NULL.
  bool set_full_name(const char* fullname, upb::Status* s);
  bool set_full_name(const std::string &fullname, upb::Status* s);

  // Freezes the given defs; this validates all constraints and marks the defs
  // as frozen (read-only).  "defs" may not contain any fielddefs, but fields
  // of any msgdefs will be frozen.
  //
  // Symbolic references to sub-types and enum defaults must have already been
  // resolved.  Any mutable defs reachable from any of "defs" must also be in
  // the list; more formally, "defs" must be a transitive closure of mutable
  // defs.
  //
  // After this operation succeeds, the finalized defs must only be accessed
  // through a const pointer!
  static bool Freeze(Def* const* defs, int n, Status* status);
  static bool Freeze(const std::vector<Def*>& defs, Status* status);

 private:
  UPB_DISALLOW_POD_OPS(Def, upb::Def);
,
UPB_DEFINE_STRUCT(upb_def, upb_refcounted,
  const char *fullname;
  upb_deftype_t type : 8;
  // Used as a flag during the def's mutable stage.  Must be false unless
  // it is currently being used by a function on the stack.  This allows
  // us to easily determine which defs were passed into the function's
  // current invocation.
  bool came_from_user;
));

#define UPB_DEF_INIT(name, type, refs, ref2s) \
    { UPB_REFCOUNT_INIT(refs, ref2s), name, type, false }

UPB_BEGIN_EXTERN_C  // {

// Native C API.
upb_def *upb_def_dup(const upb_def *def, const void *owner);

// From upb_refcounted.
bool upb_def_isfrozen(const upb_def *def);
void upb_def_ref(const upb_def *def, const void *owner);
void upb_def_unref(const upb_def *def, const void *owner);
void upb_def_donateref(const upb_def *def, const void *from, const void *to);
void upb_def_checkref(const upb_def *def, const void *owner);

upb_deftype_t upb_def_type(const upb_def *d);
const char *upb_def_fullname(const upb_def *d);
bool upb_def_setfullname(upb_def *def, const char *fullname, upb_status *s);
bool upb_def_freeze(upb_def *const *defs, int n, upb_status *s);

UPB_END_EXTERN_C  // }


/* upb::Def casts *************************************************************/

#ifdef __cplusplus
#define UPB_CPP_CASTS(cname, cpptype)                                          \
  namespace upb {                                                              \
  template <>                                                                  \
  inline cpptype *down_cast<cpptype *, Def>(Def * def) {                       \
    return upb_downcast_##cname##_mutable(def);                                \
  }                                                                            \
  template <>                                                                  \
  inline cpptype *dyn_cast<cpptype *, Def>(Def * def) {                        \
    return upb_dyncast_##cname##_mutable(def);                                 \
  }                                                                            \
  template <>                                                                  \
  inline const cpptype *down_cast<const cpptype *, const Def>(                 \
      const Def *def) {                                                        \
    return upb_downcast_##cname(def);                                          \
  }                                                                            \
  template <>                                                                  \
  inline const cpptype *dyn_cast<const cpptype *, const Def>(const Def *def) { \
    return upb_dyncast_##cname(def);                                           \
  }                                                                            \
  template <>                                                                  \
  inline const cpptype *down_cast<const cpptype *, Def>(Def * def) {           \
    return upb_downcast_##cname(def);                                          \
  }                                                                            \
  template <>                                                                  \
  inline const cpptype *dyn_cast<const cpptype *, Def>(Def * def) {            \
    return upb_dyncast_##cname(def);                                           \
  }                                                                            \
  }  // namespace upb
#else
#define UPB_CPP_CASTS(cname, cpptype)
#endif

// Dynamic casts, for determining if a def is of a particular type at runtime.
// Downcasts, for when some wants to assert that a def is of a particular type.
// These are only checked if we are building debug.
#define UPB_DEF_CASTS(lower, upper, cpptype)                               \
  UPB_INLINE const upb_##lower *upb_dyncast_##lower(const upb_def *def) {  \
    if (upb_def_type(def) != UPB_DEF_##upper) return NULL;                 \
    return (upb_##lower *)def;                                             \
  }                                                                        \
  UPB_INLINE const upb_##lower *upb_downcast_##lower(const upb_def *def) { \
    assert(upb_def_type(def) == UPB_DEF_##upper);                          \
    return (const upb_##lower *)def;                                       \
  }                                                                        \
  UPB_INLINE upb_##lower *upb_dyncast_##lower##_mutable(upb_def *def) {    \
    return (upb_##lower *)upb_dyncast_##lower(def);                        \
  }                                                                        \
  UPB_INLINE upb_##lower *upb_downcast_##lower##_mutable(upb_def *def) {   \
    return (upb_##lower *)upb_downcast_##lower(def);                       \
  }                                                                        \
  UPB_CPP_CASTS(lower, cpptype)

#define UPB_DEFINE_DEF(cppname, lower, upper, cppmethods, members)             \
  UPB_DEFINE_CLASS2(cppname, upb::Def, upb::RefCounted, UPB_QUOTE(cppmethods), \
                   members)                                                    \
  UPB_DEF_CASTS(lower, upper, cppname)


/* upb::FieldDef **************************************************************/

// The types a field can have.  Note that this list is not identical to the
// types defined in descriptor.proto, which gives INT32 and SINT32 separate
// types (we distinguish the two with the "integer encoding" enum below).
typedef enum {
  UPB_TYPE_FLOAT    = 1,
  UPB_TYPE_DOUBLE   = 2,
  UPB_TYPE_BOOL     = 3,
  UPB_TYPE_STRING   = 4,
  UPB_TYPE_BYTES    = 5,
  UPB_TYPE_MESSAGE  = 6,
  UPB_TYPE_ENUM     = 7,  // Enum values are int32.
  UPB_TYPE_INT32    = 8,
  UPB_TYPE_UINT32   = 9,
  UPB_TYPE_INT64    = 10,
  UPB_TYPE_UINT64   = 11,
} upb_fieldtype_t;

// The repeated-ness of each field; this matches descriptor.proto.
typedef enum {
  UPB_LABEL_OPTIONAL = 1,
  UPB_LABEL_REQUIRED = 2,
  UPB_LABEL_REPEATED = 3,
} upb_label_t;

// How integers should be encoded in serializations that offer multiple
// integer encoding methods.
typedef enum {
  UPB_INTFMT_VARIABLE = 1,
  UPB_INTFMT_FIXED = 2,
  UPB_INTFMT_ZIGZAG = 3,  // Only for signed types (INT32/INT64).
} upb_intfmt_t;

// Descriptor types, as defined in descriptor.proto.
typedef enum {
  UPB_DESCRIPTOR_TYPE_DOUBLE   = 1,
  UPB_DESCRIPTOR_TYPE_FLOAT    = 2,
  UPB_DESCRIPTOR_TYPE_INT64    = 3,
  UPB_DESCRIPTOR_TYPE_UINT64   = 4,
  UPB_DESCRIPTOR_TYPE_INT32    = 5,
  UPB_DESCRIPTOR_TYPE_FIXED64  = 6,
  UPB_DESCRIPTOR_TYPE_FIXED32  = 7,
  UPB_DESCRIPTOR_TYPE_BOOL     = 8,
  UPB_DESCRIPTOR_TYPE_STRING   = 9,
  UPB_DESCRIPTOR_TYPE_GROUP    = 10,
  UPB_DESCRIPTOR_TYPE_MESSAGE  = 11,
  UPB_DESCRIPTOR_TYPE_BYTES    = 12,
  UPB_DESCRIPTOR_TYPE_UINT32   = 13,
  UPB_DESCRIPTOR_TYPE_ENUM     = 14,
  UPB_DESCRIPTOR_TYPE_SFIXED32 = 15,
  UPB_DESCRIPTOR_TYPE_SFIXED64 = 16,
  UPB_DESCRIPTOR_TYPE_SINT32   = 17,
  UPB_DESCRIPTOR_TYPE_SINT64   = 18,
} upb_descriptortype_t;


// A upb_fielddef describes a single field in a message.  It is most often
// found as a part of a upb_msgdef, but can also stand alone to represent
// an extension.
//
// Its base class is upb::Def (use upb::upcast() to convert).
UPB_DEFINE_DEF(upb::FieldDef, fielddef, FIELD,
 public:
  typedef upb_fieldtype_t Type;
  typedef upb_label_t Label;
  typedef upb_intfmt_t IntegerFormat;
  typedef upb_descriptortype_t DescriptorType;

  // These return true if the given value is a valid member of the enumeration.
  static bool CheckType(int32_t val);
  static bool CheckLabel(int32_t val);
  static bool CheckDescriptorType(int32_t val);
  static bool CheckIntegerFormat(int32_t val);

  // These convert to the given enumeration; they require that the value is
  // valid.
  static Type ConvertType(int32_t val);
  static Label ConvertLabel(int32_t val);
  static DescriptorType ConvertDescriptorType(int32_t val);
  static IntegerFormat ConvertIntegerFormat(int32_t val);

  // Returns NULL if memory allocation failed.
  static reffed_ptr<FieldDef> New();

  // Duplicates the given field, returning NULL if memory allocation failed.
  // When a fielddef is duplicated, the subdef (if any) is made symbolic if it
  // wasn't already.  If the subdef is set but has no name (which is possible
  // since msgdefs are not required to have a name) the new fielddef's subdef
  // will be unset.
  FieldDef* Dup(const void* owner) const;

  // Functionality from upb::RefCounted.
  bool IsFrozen() const;
  void Ref(const void* owner) const;
  void Unref(const void* owner) const;
  void DonateRef(const void* from, const void* to) const;
  void CheckRef(const void* owner) const;

  // Functionality from upb::Def.
  const char* full_name() const;

  bool type_is_set() const;  // Whether set_[descriptor_]type() has been called.
  Type type() const;         // Requires that type_is_set() == true.
  Label label() const;       // Defaults to UPB_LABEL_OPTIONAL.
  const char* name() const;  // NULL if uninitialized.
  uint32_t number() const;   // Returns 0 if uninitialized.
  bool is_extension() const;

  // For UPB_TYPE_MESSAGE fields only where is_tag_delimited() == false,
  // indicates whether this field should have lazy parsing handlers that yield
  // the unparsed string for the submessage.
  //
  // TODO(haberman): I think we want to move this into a FieldOptions container
  // when we add support for custom options (the FieldOptions struct will
  // contain both regular FieldOptions like "lazy" *and* custom options).
  bool lazy() const;

  // For non-string, non-submessage fields, this indicates whether binary
  // protobufs are encoded in packed or non-packed format.
  //
  // TODO(haberman): see note above about putting options like this into a
  // FieldOptions container.
  bool packed() const;

  // An integer that can be used as an index into an array of fields for
  // whatever message this field belongs to.  Guaranteed to be less than
  // f->containing_type()->field_count().  May only be accessed once the def has
  // been finalized.
  int index() const;

  // The MessageDef to which this field belongs.
  //
  // If this field has been added to a MessageDef, that message can be retrieved
  // directly (this is always the case for frozen FieldDefs).
  //
  // If the field has not yet been added to a MessageDef, you can set the name
  // of the containing type symbolically instead.  This is mostly useful for
  // extensions, where the extension is declared separately from the message.
  const MessageDef* containing_type() const;
  const char* containing_type_name();

  // The field's type according to the enum in descriptor.proto.  This is not
  // the same as UPB_TYPE_*, because it distinguishes between (for example)
  // INT32 and SINT32, whereas our "type" enum does not.  This return of
  // descriptor_type() is a function of type(), integer_format(), and
  // is_tag_delimited().  Likewise set_descriptor_type() sets all three
  // appropriately.
  DescriptorType descriptor_type() const;

  // Convenient field type tests.
  bool IsSubMessage() const;
  bool IsString() const;
  bool IsSequence() const;
  bool IsPrimitive() const;

  // How integers are encoded.  Only meaningful for integer types.
  // Defaults to UPB_INTFMT_VARIABLE, and is reset when "type" changes.
  IntegerFormat integer_format() const;

  // Whether a submessage field is tag-delimited or not (if false, then
  // length-delimited).  May only be set when type() == UPB_TYPE_MESSAGE.
  bool is_tag_delimited() const;

  // Returns the non-string default value for this fielddef, which may either
  // be something the client set explicitly or the "default default" (0 for
  // numbers, empty for strings).  The field's type indicates the type of the
  // returned value, except for enum fields that are still mutable.
  //
  // Requires that the given function matches the field's current type.
  int64_t default_int64() const;
  int32_t default_int32() const;
  uint64_t default_uint64() const;
  uint32_t default_uint32() const;
  bool default_bool() const;
  float default_float() const;
  double default_double() const;

  // The resulting string is always NULL-terminated.  If non-NULL, the length
  // will be stored in *len.
  const char *default_string(size_t* len) const;

  // For frozen UPB_TYPE_ENUM fields, enum defaults can always be read as either
  // string or int32, and both of these methods will always return true.
  //
  // For mutable UPB_TYPE_ENUM fields, the story is a bit more complicated.
  // Enum defaults are unusual. They can be specified either as string or int32,
  // but to be valid the enum must have that value as a member.  And if no
  // default is specified, the "default default" comes from the EnumDef.
  //
  // We allow reading the default as either an int32 or a string, but only if
  // we have a meaningful value to report.  We have a meaningful value if it was
  // set explicitly, or if we could get the "default default" from the EnumDef.
  // Also if you explicitly set the name and we find the number in the EnumDef
  bool EnumHasStringDefault() const;
  bool EnumHasInt32Default() const;

  // Submessage and enum fields must reference a "subdef", which is the
  // upb::MessageDef or upb::EnumDef that defines their type.  Note that when
  // the FieldDef is mutable it may not have a subdef *yet*, but this function
  // still returns true to indicate that the field's type requires a subdef.
  bool HasSubDef() const;

  // Returns the enum or submessage def for this field, if any.  The field's
  // type must match (ie. you may only call enum_subdef() for fields where
  // type() == UPB_TYPE_ENUM).  Returns NULL if the subdef has not been set or
  // is currently set symbolically.
  const EnumDef* enum_subdef() const;
  const MessageDef* message_subdef() const;

  // Returns the generic subdef for this field.  Requires that HasSubDef() (ie.
  // only works for UPB_TYPE_ENUM and UPB_TYPE_MESSAGE fields).
  const Def* subdef() const;

  // Returns the symbolic name of the subdef.  If the subdef is currently set
  // unresolved (ie. set symbolically) returns the symbolic name.  If it has
  // been resolved to a specific subdef, returns the name from that subdef.
  const char* subdef_name() const;

  //////////////////////////////////////////////////////////////////////////////
  // Setters (non-const methods), only valid for mutable FieldDefs!
  //////////////////////////////////////////////////////////////////////////////

  bool set_full_name(const char* fullname, upb::Status* s);
  bool set_full_name(const std::string& fullname, upb::Status* s);

  // This may only be called if containing_type() == NULL (ie. the field has not
  // been added to a message yet).
  bool set_containing_type_name(const char *name, Status* status);
  bool set_containing_type_name(const std::string& name, Status* status);

  // Defaults to false.  When we freeze, we ensure that this can only be true
  // for length-delimited message fields.  Prior to freezing this can be true or
  // false with no restrictions.
  void set_lazy(bool lazy);

  // Defaults to true.  Sets whether this field is encoded in packed format.
  void set_packed(bool packed);

  // "type" or "descriptor_type" MUST be set explicitly before the fielddef is
  // finalized.  These setters require that the enum value is valid; if the
  // value did not come directly from an enum constant, the caller should
  // validate it first with the functions above (CheckFieldType(), etc).
  void set_type(Type type);
  void set_label(Label label);
  void set_descriptor_type(DescriptorType type);
  void set_is_extension(bool is_extension);

  // "number" and "name" must be set before the FieldDef is added to a
  // MessageDef, and may not be set after that.
  //
  // "name" is the same as full_name()/set_full_name(), but since fielddefs
  // most often use simple, non-qualified names, we provide this accessor
  // also.  Generally only extensions will want to think of this name as
  // fully-qualified.
  bool set_number(uint32_t number, upb::Status* s);
  bool set_name(const char* name, upb::Status* s);
  bool set_name(const std::string& name, upb::Status* s);

  void set_integer_format(IntegerFormat format);
  bool set_tag_delimited(bool tag_delimited, upb::Status* s);

  // Sets default value for the field.  The call must exactly match the type
  // of the field.  Enum fields may use either setint32 or setstring to set
  // the default numerically or symbolically, respectively, but symbolic
  // defaults must be resolved before finalizing (see ResolveEnumDefault()).
  //
  // Changing the type of a field will reset its default.
  void set_default_int64(int64_t val);
  void set_default_int32(int32_t val);
  void set_default_uint64(uint64_t val);
  void set_default_uint32(uint32_t val);
  void set_default_bool(bool val);
  void set_default_float(float val);
  void set_default_double(double val);
  bool set_default_string(const void *str, size_t len, Status *s);
  bool set_default_string(const std::string &str, Status *s);
  void set_default_cstr(const char *str, Status *s);

  // Before a fielddef is frozen, its subdef may be set either directly (with a
  // upb::Def*) or symbolically.  Symbolic refs must be resolved before the
  // containing msgdef can be frozen (see upb_resolve() above).  upb always
  // guarantees that any def reachable from a live def will also be kept alive.
  //
  // Both methods require that upb_hassubdef(f) (so the type must be set prior
  // to calling these methods).  Returns false if this is not the case, or if
  // the given subdef is not of the correct type.  The subdef is reset if the
  // field's type is changed.  The subdef can be set to NULL to clear it.
  bool set_subdef(const Def* subdef, Status* s);
  bool set_enum_subdef(const EnumDef* subdef, Status* s);
  bool set_message_subdef(const MessageDef* subdef, Status* s);
  bool set_subdef_name(const char* name, Status* s);
  bool set_subdef_name(const std::string &name, Status* s);

 private:
  UPB_DISALLOW_POD_OPS(FieldDef, upb::FieldDef);
,
UPB_DEFINE_STRUCT(upb_fielddef, upb_def,
  union {
    int64_t sint;
    uint64_t uint;
    double dbl;
    float flt;
    void *bytes;
  } defaultval;
  union {
    const upb_msgdef *def;  // If !msg_is_symbolic.
    char *name;             // If msg_is_symbolic.
  } msg;
  union {
    const upb_def *def;  // If !subdef_is_symbolic.
    char *name;          // If subdef_is_symbolic.
  } sub;  // The msgdef or enumdef for this field, if upb_hassubdef(f).
  bool subdef_is_symbolic;
  bool msg_is_symbolic;
  bool default_is_string;
  bool type_is_set_;     // False until type is explicitly set.
  bool is_extension_;
  bool lazy_;
  bool packed_;
  upb_intfmt_t intfmt;
  bool tagdelim;
  upb_fieldtype_t type_;
  upb_label_t label_;
  uint32_t number_;
  uint32_t selector_base;  // Used to index into a upb::Handlers table.
  uint32_t index_;
));

#define UPB_FIELDDEF_INIT(label, type, intfmt, tagdelim, is_extension, lazy,   \
                          packed, name, num, msgdef, subdef, selector_base,     \
                          index, defaultval, refs, ref2s)                      \
  {                                                                            \
    UPB_DEF_INIT(name, UPB_DEF_FIELD, refs, ref2s), defaultval, {msgdef},      \
        {subdef}, false, false,                                                \
        type == UPB_TYPE_STRING || type == UPB_TYPE_BYTES, true, is_extension, \
        lazy, packed, intfmt, tagdelim, type, label, num, selector_base, index \
  }

UPB_BEGIN_EXTERN_C  // {

// Native C API.
upb_fielddef *upb_fielddef_new(const void *owner);
upb_fielddef *upb_fielddef_dup(const upb_fielddef *f, const void *owner);

// From upb_refcounted.
bool upb_fielddef_isfrozen(const upb_fielddef *f);
void upb_fielddef_ref(const upb_fielddef *f, const void *owner);
void upb_fielddef_unref(const upb_fielddef *f, const void *owner);
void upb_fielddef_donateref(const upb_fielddef *f, const void *from,
                            const void *to);
void upb_fielddef_checkref(const upb_fielddef *f, const void *owner);

// From upb_def.
const char *upb_fielddef_fullname(const upb_fielddef *f);
bool upb_fielddef_setfullname(upb_fielddef *f, const char *fullname,
                              upb_status *s);

bool upb_fielddef_typeisset(const upb_fielddef *f);
upb_fieldtype_t upb_fielddef_type(const upb_fielddef *f);
upb_descriptortype_t upb_fielddef_descriptortype(const upb_fielddef *f);
upb_label_t upb_fielddef_label(const upb_fielddef *f);
uint32_t upb_fielddef_number(const upb_fielddef *f);
const char *upb_fielddef_name(const upb_fielddef *f);
bool upb_fielddef_isextension(const upb_fielddef *f);
bool upb_fielddef_lazy(const upb_fielddef *f);
bool upb_fielddef_packed(const upb_fielddef *f);
const upb_msgdef *upb_fielddef_containingtype(const upb_fielddef *f);
upb_msgdef *upb_fielddef_containingtype_mutable(upb_fielddef *f);
const char *upb_fielddef_containingtypename(upb_fielddef *f);
upb_intfmt_t upb_fielddef_intfmt(const upb_fielddef *f);
uint32_t upb_fielddef_index(const upb_fielddef *f);
bool upb_fielddef_istagdelim(const upb_fielddef *f);
bool upb_fielddef_issubmsg(const upb_fielddef *f);
bool upb_fielddef_isstring(const upb_fielddef *f);
bool upb_fielddef_isseq(const upb_fielddef *f);
bool upb_fielddef_isprimitive(const upb_fielddef *f);
int64_t upb_fielddef_defaultint64(const upb_fielddef *f);
int32_t upb_fielddef_defaultint32(const upb_fielddef *f);
uint64_t upb_fielddef_defaultuint64(const upb_fielddef *f);
uint32_t upb_fielddef_defaultuint32(const upb_fielddef *f);
bool upb_fielddef_defaultbool(const upb_fielddef *f);
float upb_fielddef_defaultfloat(const upb_fielddef *f);
double upb_fielddef_defaultdouble(const upb_fielddef *f);
const char *upb_fielddef_defaultstr(const upb_fielddef *f, size_t *len);
bool upb_fielddef_enumhasdefaultint32(const upb_fielddef *f);
bool upb_fielddef_enumhasdefaultstr(const upb_fielddef *f);
bool upb_fielddef_hassubdef(const upb_fielddef *f);
const upb_def *upb_fielddef_subdef(const upb_fielddef *f);
const upb_msgdef *upb_fielddef_msgsubdef(const upb_fielddef *f);
const upb_enumdef *upb_fielddef_enumsubdef(const upb_fielddef *f);
const char *upb_fielddef_subdefname(const upb_fielddef *f);

void upb_fielddef_settype(upb_fielddef *f, upb_fieldtype_t type);
void upb_fielddef_setdescriptortype(upb_fielddef *f, int type);
void upb_fielddef_setlabel(upb_fielddef *f, upb_label_t label);
bool upb_fielddef_setnumber(upb_fielddef *f, uint32_t number, upb_status *s);
bool upb_fielddef_setname(upb_fielddef *f, const char *name, upb_status *s);
bool upb_fielddef_setcontainingtypename(upb_fielddef *f, const char *name,
                                        upb_status *s);
void upb_fielddef_setisextension(upb_fielddef *f, bool is_extension);
void upb_fielddef_setlazy(upb_fielddef *f, bool lazy);
void upb_fielddef_setpacked(upb_fielddef *f, bool packed);
void upb_fielddef_setintfmt(upb_fielddef *f, upb_intfmt_t fmt);
void upb_fielddef_settagdelim(upb_fielddef *f, bool tag_delim);
void upb_fielddef_setdefaultint64(upb_fielddef *f, int64_t val);
void upb_fielddef_setdefaultint32(upb_fielddef *f, int32_t val);
void upb_fielddef_setdefaultuint64(upb_fielddef *f, uint64_t val);
void upb_fielddef_setdefaultuint32(upb_fielddef *f, uint32_t val);
void upb_fielddef_setdefaultbool(upb_fielddef *f, bool val);
void upb_fielddef_setdefaultfloat(upb_fielddef *f, float val);
void upb_fielddef_setdefaultdouble(upb_fielddef *f, double val);
bool upb_fielddef_setdefaultstr(upb_fielddef *f, const void *str, size_t len,
                                upb_status *s);
void upb_fielddef_setdefaultcstr(upb_fielddef *f, const char *str,
                                 upb_status *s);
bool upb_fielddef_setsubdef(upb_fielddef *f, const upb_def *subdef,
                            upb_status *s);
bool upb_fielddef_setmsgsubdef(upb_fielddef *f, const upb_msgdef *subdef,
                               upb_status *s);
bool upb_fielddef_setenumsubdef(upb_fielddef *f, const upb_enumdef *subdef,
                                upb_status *s);
bool upb_fielddef_setsubdefname(upb_fielddef *f, const char *name,
                                upb_status *s);

bool upb_fielddef_checklabel(int32_t label);
bool upb_fielddef_checktype(int32_t type);
bool upb_fielddef_checkdescriptortype(int32_t type);
bool upb_fielddef_checkintfmt(int32_t fmt);

UPB_END_EXTERN_C  // }


/* upb::MessageDef ************************************************************/

typedef upb_inttable_iter upb_msg_iter;

// Structure that describes a single .proto message type.
//
// Its base class is upb::Def (use upb::upcast() to convert).
UPB_DEFINE_DEF(upb::MessageDef, msgdef, MSG, UPB_QUOTE(
 public:
  // Returns NULL if memory allocation failed.
  static reffed_ptr<MessageDef> New();

  // Functionality from upb::RefCounted.
  bool IsFrozen() const;
  void Ref(const void* owner) const;
  void Unref(const void* owner) const;
  void DonateRef(const void* from, const void* to) const;
  void CheckRef(const void* owner) const;

  // Functionality from upb::Def.
  const char* full_name() const;
  bool set_full_name(const char* fullname, Status* s);
  bool set_full_name(const std::string& fullname, Status* s);

  // Call to freeze this MessageDef.
  // WARNING: this will fail if this message has any unfrozen submessages!
  // Messages with cycles must be frozen as a batch using upb::Def::Freeze().
  bool Freeze(Status* s);

  // The number of fields that belong to the MessageDef.
  int field_count() const;

  // Adds a field (upb_fielddef object) to a msgdef.  Requires that the msgdef
  // and the fielddefs are mutable.  The fielddef's name and number must be
  // set, and the message may not already contain any field with this name or
  // number, and this fielddef may not be part of another message.  In error
  // cases false is returned and the msgdef is unchanged.
  bool AddField(FieldDef* f, Status* s);
  bool AddField(const reffed_ptr<FieldDef>& f, Status* s);

  // These return NULL if the field is not found.
  FieldDef* FindFieldByNumber(uint32_t number);
  FieldDef* FindFieldByName(const char *name, size_t len);
  const FieldDef* FindFieldByNumber(uint32_t number) const;
  const FieldDef* FindFieldByName(const char* name, size_t len) const;


  FieldDef* FindFieldByName(const char *name) {
    return FindFieldByName(name, strlen(name));
  }
  const FieldDef* FindFieldByName(const char *name) const {
    return FindFieldByName(name, strlen(name));
  }

  template <class T>
  FieldDef* FindFieldByName(const T& str) {
    return FindFieldByName(str.c_str(), str.size());
  }
  template <class T>
  const FieldDef* FindFieldByName(const T& str) const {
    return FindFieldByName(str.c_str(), str.size());
  }

  // Returns a new msgdef that is a copy of the given msgdef (and a copy of all
  // the fields) but with any references to submessages broken and replaced
  // with just the name of the submessage.  Returns NULL if memory allocation
  // failed.
  //
  // TODO(haberman): which is more useful, keeping fields resolved or
  // unresolving them?  If there's no obvious answer, Should this functionality
  // just be moved into symtab.c?
  MessageDef* Dup(const void* owner) const;

  // Iteration over fields.  The order is undefined.
  class iterator : public std::iterator<std::forward_iterator_tag, FieldDef*> {
   public:
    explicit iterator(MessageDef* md);
    static iterator end(MessageDef* md);

    void operator++();
    FieldDef* operator*() const;
    bool operator!=(const iterator& other) const;
    bool operator==(const iterator& other) const;

   private:
    upb_msg_iter iter_;
  };

  class const_iterator
      : public std::iterator<std::forward_iterator_tag, const FieldDef*> {
   public:
    explicit const_iterator(const MessageDef* md);
    static const_iterator end(const MessageDef* md);

    void operator++();
    const FieldDef* operator*() const;
    bool operator!=(const const_iterator& other) const;
    bool operator==(const const_iterator& other) const;

   private:
    upb_msg_iter iter_;
  };

  iterator begin();
  iterator end();
  const_iterator begin() const;
  const_iterator end() const;

 private:
  UPB_DISALLOW_POD_OPS(MessageDef, upb::MessageDef);
),
UPB_DEFINE_STRUCT(upb_msgdef, upb_def,
  size_t selector_count;
  uint32_t submsg_field_count;

  // Tables for looking up fields by number and name.
  upb_inttable itof;  // int to field
  upb_strtable ntof;  // name to field

  // TODO(haberman): proper extension ranges (there can be multiple).
));

#define UPB_MSGDEF_INIT(name, selector_count, submsg_field_count, itof, ntof, \
                        refs, ref2s)                                          \
  {                                                                           \
    UPB_DEF_INIT(name, UPB_DEF_MSG, refs, ref2s), selector_count,             \
        submsg_field_count, itof, ntof                                        \
  }

UPB_BEGIN_EXTERN_C  // {

// Returns NULL if memory allocation failed.
upb_msgdef *upb_msgdef_new(const void *owner);

// From upb_refcounted.
bool upb_msgdef_isfrozen(const upb_msgdef *m);
void upb_msgdef_ref(const upb_msgdef *m, const void *owner);
void upb_msgdef_unref(const upb_msgdef *m, const void *owner);
void upb_msgdef_donateref(const upb_msgdef *m, const void *from,
                          const void *to);
void upb_msgdef_checkref(const upb_msgdef *m, const void *owner);
bool upb_msgdef_freeze(upb_msgdef *m, upb_status *status);

// From upb_def.
const char *upb_msgdef_fullname(const upb_msgdef *m);
bool upb_msgdef_setfullname(upb_msgdef *m, const char *fullname, upb_status *s);

upb_msgdef *upb_msgdef_dup(const upb_msgdef *m, const void *owner);
bool upb_msgdef_addfield(upb_msgdef *m, upb_fielddef *f, const void *ref_donor,
                         upb_status *s);

// Field lookup in a couple of different variations:
//   - itof = int to field
//   - ntof = name to field
//   - ntofz = name to field, null-terminated string.
const upb_fielddef *upb_msgdef_itof(const upb_msgdef *m, uint32_t i);
const upb_fielddef *upb_msgdef_ntof(const upb_msgdef *m, const char *name,
                                    size_t len);
int upb_msgdef_numfields(const upb_msgdef *m);

UPB_INLINE const upb_fielddef *upb_msgdef_ntofz(const upb_msgdef *m,
                                                const char *name) {
  return upb_msgdef_ntof(m, name, strlen(name));
}

UPB_INLINE upb_fielddef *upb_msgdef_itof_mutable(upb_msgdef *m, uint32_t i) {
  return (upb_fielddef*)upb_msgdef_itof(m, i);
}

UPB_INLINE upb_fielddef *upb_msgdef_ntof_mutable(upb_msgdef *m,
                                                 const char *name, size_t len) {
  return (upb_fielddef *)upb_msgdef_ntof(m, name, len);
}

// upb_msg_iter i;
// for(upb_msg_begin(&i, m); !upb_msg_done(&i); upb_msg_next(&i)) {
//   upb_fielddef *f = upb_msg_iter_field(&i);
//   // ...
// }
//
// For C we don't have separate iterators for const and non-const.
// It is the caller's responsibility to cast the upb_fielddef* to
// const if the upb_msgdef* is const.
void upb_msg_begin(upb_msg_iter *iter, const upb_msgdef *m);
void upb_msg_next(upb_msg_iter *iter);
bool upb_msg_done(const upb_msg_iter *iter);
upb_fielddef *upb_msg_iter_field(const upb_msg_iter *iter);
void upb_msg_iter_setdone(upb_msg_iter *iter);

UPB_END_EXTERN_C  // }


/* upb::EnumDef ***************************************************************/

typedef upb_strtable_iter upb_enum_iter;

// Class that represents an enum.  Its base class is upb::Def (convert with
// upb::upcast()).
UPB_DEFINE_DEF(upb::EnumDef, enumdef, ENUM,
 public:
  // Returns NULL if memory allocation failed.
  static reffed_ptr<EnumDef> New();

  // Functionality from upb::RefCounted.
  bool IsFrozen() const;
  void Ref(const void* owner) const;
  void Unref(const void* owner) const;
  void DonateRef(const void* from, const void* to) const;
  void CheckRef(const void* owner) const;

  // Functionality from upb::Def.
  const char* full_name() const;
  bool set_full_name(const char* fullname, Status* s);
  bool set_full_name(const std::string& fullname, Status* s);

  // Call to freeze this EnumDef.
  bool Freeze(Status* s);

  // The value that is used as the default when no field default is specified.
  // If not set explicitly, the first value that was added will be used.
  // The default value must be a member of the enum.
  // Requires that value_count() > 0.
  int32_t default_value() const;

  // Sets the default value.  If this value is not valid, returns false and an
  // error message in status.
  bool set_default_value(int32_t val, Status* status);

  // Returns the number of values currently defined in the enum.  Note that
  // multiple names can refer to the same number, so this may be greater than
  // the total number of unique numbers.
  int value_count() const;

  // Adds a single name/number pair to the enum.  Fails if this name has
  // already been used by another value.
  bool AddValue(const char* name, int32_t num, Status* status);
  bool AddValue(const std::string& name, int32_t num, Status* status);

  // Lookups from name to integer, returning true if found.
  bool FindValueByName(const char* name, int32_t* num) const;

  // Finds the name corresponding to the given number, or NULL if none was
  // found.  If more than one name corresponds to this number, returns the
  // first one that was added.
  const char* FindValueByNumber(int32_t num) const;

  // Returns a new EnumDef with all the same values.  The new EnumDef will be
  // owned by the given owner.
  EnumDef* Dup(const void* owner) const;

  // Iteration over name/value pairs.  The order is undefined.
  // Adding an enum val invalidates any iterators.
  //
  // TODO: make compatible with range-for, with elements as pairs?
  class Iterator {
   public:
    explicit Iterator(const EnumDef*);

    int32_t number();
    const char *name();
    bool Done();
    void Next();

   private:
    upb_enum_iter iter_;
  };

 private:
  UPB_DISALLOW_POD_OPS(EnumDef, upb::EnumDef);
,
UPB_DEFINE_STRUCT(upb_enumdef, upb_def,
  upb_strtable ntoi;
  upb_inttable iton;
  int32_t defaultval;
));

#define UPB_ENUMDEF_INIT(name, ntoi, iton, defaultval, refs, ref2s) \
  { UPB_DEF_INIT(name, UPB_DEF_ENUM, refs, ref2s), ntoi, iton, defaultval }

UPB_BEGIN_EXTERN_C  // {

// Native C API.
upb_enumdef *upb_enumdef_new(const void *owner);
upb_enumdef *upb_enumdef_dup(const upb_enumdef *e, const void *owner);

// From upb_refcounted.
void upb_enumdef_unref(const upb_enumdef *e, const void *owner);
bool upb_enumdef_isfrozen(const upb_enumdef *e);
void upb_enumdef_ref(const upb_enumdef *e, const void *owner);
void upb_enumdef_donateref(const upb_enumdef *m, const void *from,
                           const void *to);
void upb_enumdef_checkref(const upb_enumdef *e, const void *owner);
bool upb_enumdef_freeze(upb_enumdef *e, upb_status *status);

// From upb_def.
const char *upb_enumdef_fullname(const upb_enumdef *e);
bool upb_enumdef_setfullname(upb_enumdef *e, const char *fullname,
                             upb_status *s);

int32_t upb_enumdef_default(const upb_enumdef *e);
bool upb_enumdef_setdefault(upb_enumdef *e, int32_t val, upb_status *s);
int upb_enumdef_numvals(const upb_enumdef *e);
bool upb_enumdef_addval(upb_enumdef *e, const char *name, int32_t num,
                        upb_status *status);

// Enum lookups:
// - ntoi:  look up a name with specified length.
// - ntoiz: look up a name provided as a null-terminated string.
// - iton:  look up an integer, returning the name as a null-terminated string.
bool upb_enumdef_ntoi(const upb_enumdef *e, const char *name, size_t len,
                      int32_t *num);
UPB_INLINE bool upb_enumdef_ntoiz(const upb_enumdef *e,
                                  const char *name, int32_t *num) {
  return upb_enumdef_ntoi(e, name, strlen(name), num);
}
const char *upb_enumdef_iton(const upb_enumdef *e, int32_t num);

//  upb_enum_iter i;
//  for(upb_enum_begin(&i, e); !upb_enum_done(&i); upb_enum_next(&i)) {
//    // ...
//  }
void upb_enum_begin(upb_enum_iter *iter, const upb_enumdef *e);
void upb_enum_next(upb_enum_iter *iter);
bool upb_enum_done(upb_enum_iter *iter);
const char *upb_enum_iter_name(upb_enum_iter *iter);
int32_t upb_enum_iter_number(upb_enum_iter *iter);

UPB_END_EXTERN_C  // }


#ifdef __cplusplus

UPB_INLINE const char* upb_safecstr(const std::string& str) {
  assert(str.size() == std::strlen(str.c_str()));
  return str.c_str();
}

// Inline C++ wrappers.
namespace upb {

inline Def* Def::Dup(const void* owner) const {
  return upb_def_dup(this, owner);
}
inline bool Def::IsFrozen() const { return upb_def_isfrozen(this); }
inline void Def::Ref(const void* owner) const { upb_def_ref(this, owner); }
inline void Def::Unref(const void* owner) const { upb_def_unref(this, owner); }
inline void Def::DonateRef(const void* from, const void* to) const {
  upb_def_donateref(this, from, to);
}
inline void Def::CheckRef(const void* owner) const {
  upb_def_checkref(this, owner);
}
inline Def::Type Def::def_type() const { return upb_def_type(this); }
inline const char* Def::full_name() const { return upb_def_fullname(this); }
inline bool Def::set_full_name(const char* fullname, Status* s) {
  return upb_def_setfullname(this, fullname, s);
}
inline bool Def::set_full_name(const std::string& fullname, Status* s) {
  return upb_def_setfullname(this, upb_safecstr(fullname), s);
}
inline bool Def::Freeze(Def* const* defs, int n, Status* status) {
  return upb_def_freeze(defs, n, status);
}
inline bool Def::Freeze(const std::vector<Def*>& defs, Status* status) {
  return upb_def_freeze((Def* const*)&defs[0], defs.size(), status);
}

inline bool FieldDef::CheckType(int32_t val) {
  return upb_fielddef_checktype(val);
}
inline bool FieldDef::CheckLabel(int32_t val) {
  return upb_fielddef_checklabel(val);
}
inline bool FieldDef::CheckDescriptorType(int32_t val) {
  return upb_fielddef_checkdescriptortype(val);
}
inline bool FieldDef::CheckIntegerFormat(int32_t val) {
  return upb_fielddef_checkintfmt(val);
}
inline FieldDef::Type FieldDef::ConvertType(int32_t val) {
  assert(CheckType(val));
  return static_cast<FieldDef::Type>(val);
}
inline FieldDef::Label FieldDef::ConvertLabel(int32_t val) {
  assert(CheckLabel(val));
  return static_cast<FieldDef::Label>(val);
}
inline FieldDef::DescriptorType FieldDef::ConvertDescriptorType(int32_t val) {
  assert(CheckDescriptorType(val));
  return static_cast<FieldDef::DescriptorType>(val);
}
inline FieldDef::IntegerFormat FieldDef::ConvertIntegerFormat(int32_t val) {
  assert(CheckIntegerFormat(val));
  return static_cast<FieldDef::IntegerFormat>(val);
}

inline reffed_ptr<FieldDef> FieldDef::New() {
  upb_fielddef *f = upb_fielddef_new(&f);
  return reffed_ptr<FieldDef>(f, &f);
}
inline FieldDef* FieldDef::Dup(const void* owner) const {
  return upb_fielddef_dup(this, owner);
}
inline bool FieldDef::IsFrozen() const { return upb_fielddef_isfrozen(this); }
inline void FieldDef::Ref(const void* owner) const {
  upb_fielddef_ref(this, owner);
}
inline void FieldDef::Unref(const void* owner) const {
  upb_fielddef_unref(this, owner);
}
inline void FieldDef::DonateRef(const void* from, const void* to) const {
  upb_fielddef_donateref(this, from, to);
}
inline void FieldDef::CheckRef(const void* owner) const {
  upb_fielddef_checkref(this, owner);
}
inline const char* FieldDef::full_name() const {
  return upb_fielddef_fullname(this);
}
inline bool FieldDef::set_full_name(const char* fullname, Status* s) {
  return upb_fielddef_setfullname(this, fullname, s);
}
inline bool FieldDef::set_full_name(const std::string& fullname, Status* s) {
  return upb_fielddef_setfullname(this, upb_safecstr(fullname), s);
}
inline bool FieldDef::type_is_set() const {
  return upb_fielddef_typeisset(this);
}
inline FieldDef::Type FieldDef::type() const { return upb_fielddef_type(this); }
inline FieldDef::DescriptorType FieldDef::descriptor_type() const {
  return upb_fielddef_descriptortype(this);
}
inline FieldDef::Label FieldDef::label() const {
  return upb_fielddef_label(this);
}
inline uint32_t FieldDef::number() const { return upb_fielddef_number(this); }
inline const char* FieldDef::name() const { return upb_fielddef_name(this); }
inline bool FieldDef::is_extension() const {
  return upb_fielddef_isextension(this);
}
inline bool FieldDef::lazy() const {
  return upb_fielddef_lazy(this);
}
inline void FieldDef::set_lazy(bool lazy) {
  upb_fielddef_setlazy(this, lazy);
}
inline bool FieldDef::packed() const {
  return upb_fielddef_packed(this);
}
inline void FieldDef::set_packed(bool packed) {
  upb_fielddef_setpacked(this, packed);
}
inline const MessageDef* FieldDef::containing_type() const {
  return upb_fielddef_containingtype(this);
}
inline const char* FieldDef::containing_type_name() {
  return upb_fielddef_containingtypename(this);
}
inline bool FieldDef::set_number(uint32_t number, Status* s) {
  return upb_fielddef_setnumber(this, number, s);
}
inline bool FieldDef::set_name(const char *name, Status* s) {
  return upb_fielddef_setname(this, name, s);
}
inline bool FieldDef::set_name(const std::string& name, Status* s) {
  return upb_fielddef_setname(this, upb_safecstr(name), s);
}
inline bool FieldDef::set_containing_type_name(const char *name, Status* s) {
  return upb_fielddef_setcontainingtypename(this, name, s);
}
inline bool FieldDef::set_containing_type_name(const std::string &name,
                                               Status *s) {
  return upb_fielddef_setcontainingtypename(this, upb_safecstr(name), s);
}
inline void FieldDef::set_type(upb_fieldtype_t type) {
  upb_fielddef_settype(this, type);
}
inline void FieldDef::set_is_extension(bool is_extension) {
  upb_fielddef_setisextension(this, is_extension);
}
inline void FieldDef::set_descriptor_type(FieldDef::DescriptorType type) {
  upb_fielddef_setdescriptortype(this, type);
}
inline void FieldDef::set_label(upb_label_t label) {
  upb_fielddef_setlabel(this, label);
}
inline bool FieldDef::IsSubMessage() const {
  return upb_fielddef_issubmsg(this);
}
inline bool FieldDef::IsString() const { return upb_fielddef_isstring(this); }
inline bool FieldDef::IsSequence() const { return upb_fielddef_isseq(this); }
inline int64_t FieldDef::default_int64() const {
  return upb_fielddef_defaultint64(this);
}
inline int32_t FieldDef::default_int32() const {
  return upb_fielddef_defaultint32(this);
}
inline uint64_t FieldDef::default_uint64() const {
  return upb_fielddef_defaultuint64(this);
}
inline uint32_t FieldDef::default_uint32() const {
  return upb_fielddef_defaultuint32(this);
}
inline bool FieldDef::default_bool() const {
  return upb_fielddef_defaultbool(this);
}
inline float FieldDef::default_float() const {
  return upb_fielddef_defaultfloat(this);
}
inline double FieldDef::default_double() const {
  return upb_fielddef_defaultdouble(this);
}
inline const char* FieldDef::default_string(size_t* len) const {
  return upb_fielddef_defaultstr(this, len);
}
inline void FieldDef::set_default_int64(int64_t value) {
  upb_fielddef_setdefaultint64(this, value);
}
inline void FieldDef::set_default_int32(int32_t value) {
  upb_fielddef_setdefaultint32(this, value);
}
inline void FieldDef::set_default_uint64(uint64_t value) {
  upb_fielddef_setdefaultuint64(this, value);
}
inline void FieldDef::set_default_uint32(uint32_t value) {
  upb_fielddef_setdefaultuint32(this, value);
}
inline void FieldDef::set_default_bool(bool value) {
  upb_fielddef_setdefaultbool(this, value);
}
inline void FieldDef::set_default_float(float value) {
  upb_fielddef_setdefaultfloat(this, value);
}
inline void FieldDef::set_default_double(double value) {
  upb_fielddef_setdefaultdouble(this, value);
}
inline bool FieldDef::set_default_string(const void *str, size_t len,
                                         Status *s) {
  return upb_fielddef_setdefaultstr(this, str, len, s);
}
inline bool FieldDef::set_default_string(const std::string& str, Status* s) {
  return upb_fielddef_setdefaultstr(this, str.c_str(), str.size(), s);
}
inline void FieldDef::set_default_cstr(const char* str, Status* s) {
  return upb_fielddef_setdefaultcstr(this, str, s);
}
inline bool FieldDef::HasSubDef() const { return upb_fielddef_hassubdef(this); }
inline const Def* FieldDef::subdef() const { return upb_fielddef_subdef(this); }
inline const MessageDef *FieldDef::message_subdef() const {
  return upb_fielddef_msgsubdef(this);
}
inline const EnumDef *FieldDef::enum_subdef() const {
  return upb_fielddef_enumsubdef(this);
}
inline const char* FieldDef::subdef_name() const {
  return upb_fielddef_subdefname(this);
}
inline bool FieldDef::set_subdef(const Def* subdef, Status* s) {
  return upb_fielddef_setsubdef(this, subdef, s);
}
inline bool FieldDef::set_enum_subdef(const EnumDef* subdef, Status* s) {
  return upb_fielddef_setenumsubdef(this, subdef, s);
}
inline bool FieldDef::set_message_subdef(const MessageDef* subdef, Status* s) {
  return upb_fielddef_setmsgsubdef(this, subdef, s);
}
inline bool FieldDef::set_subdef_name(const char* name, Status* s) {
  return upb_fielddef_setsubdefname(this, name, s);
}
inline bool FieldDef::set_subdef_name(const std::string& name, Status* s) {
  return upb_fielddef_setsubdefname(this, upb_safecstr(name), s);
}

inline reffed_ptr<MessageDef> MessageDef::New() {
  upb_msgdef *m = upb_msgdef_new(&m);
  return reffed_ptr<MessageDef>(m, &m);
}
inline bool MessageDef::IsFrozen() const { return upb_msgdef_isfrozen(this); }
inline void MessageDef::Ref(const void* owner) const {
  return upb_msgdef_ref(this, owner);
}
inline void MessageDef::Unref(const void* owner) const {
  return upb_msgdef_unref(this, owner);
}
inline void MessageDef::DonateRef(const void* from, const void* to) const {
  return upb_msgdef_donateref(this, from, to);
}
inline void MessageDef::CheckRef(const void* owner) const {
  return upb_msgdef_checkref(this, owner);
}
inline const char *MessageDef::full_name() const {
  return upb_msgdef_fullname(this);
}
inline bool MessageDef::set_full_name(const char* fullname, Status* s) {
  return upb_msgdef_setfullname(this, fullname, s);
}
inline bool MessageDef::set_full_name(const std::string& fullname, Status* s) {
  return upb_msgdef_setfullname(this, upb_safecstr(fullname), s);
}
inline bool MessageDef::Freeze(Status* status) {
  return upb_msgdef_freeze(this, status);
}
inline int MessageDef::field_count() const {
  return upb_msgdef_numfields(this);
}
inline bool MessageDef::AddField(upb_fielddef* f, Status* s) {
  return upb_msgdef_addfield(this, f, NULL, s);
}
inline bool MessageDef::AddField(const reffed_ptr<FieldDef>& f, Status* s) {
  return upb_msgdef_addfield(this, f.get(), NULL, s);
}
inline FieldDef* MessageDef::FindFieldByNumber(uint32_t number) {
  return upb_msgdef_itof_mutable(this, number);
}
inline FieldDef* MessageDef::FindFieldByName(const char* name, size_t len) {
  return upb_msgdef_ntof_mutable(this, name, len);
}
inline const FieldDef* MessageDef::FindFieldByNumber(uint32_t number) const {
  return upb_msgdef_itof(this, number);
}
inline const FieldDef *MessageDef::FindFieldByName(const char *name,
                                                   size_t len) const {
  return upb_msgdef_ntof(this, name, len);
}
inline MessageDef* MessageDef::Dup(const void *owner) const {
  return upb_msgdef_dup(this, owner);
}
inline MessageDef::iterator MessageDef::begin() { return iterator(this); }
inline MessageDef::iterator MessageDef::end() { return iterator::end(this); }
inline MessageDef::const_iterator MessageDef::begin() const {
  return const_iterator(this);
}
inline MessageDef::const_iterator MessageDef::end() const {
  return const_iterator::end(this);
}

inline MessageDef::iterator::iterator(MessageDef* md) {
  upb_msg_begin(&iter_, md);
}
inline MessageDef::iterator MessageDef::iterator::end(MessageDef* md) {
  MessageDef::iterator iter(md);
  upb_msg_iter_setdone(&iter.iter_);
  return iter;
}
inline FieldDef* MessageDef::iterator::operator*() const {
  return upb_msg_iter_field(&iter_);
}
inline void MessageDef::iterator::operator++() { return upb_msg_next(&iter_); }
inline bool MessageDef::iterator::operator==(const iterator &other) const {
  return upb_inttable_iter_isequal(&iter_, &other.iter_);
}
inline bool MessageDef::iterator::operator!=(const iterator &other) const {
  return !(*this == other);
}

inline MessageDef::const_iterator::const_iterator(const MessageDef* md) {
  upb_msg_begin(&iter_, md);
}
inline MessageDef::const_iterator MessageDef::const_iterator::end(
    const MessageDef *md) {
  MessageDef::const_iterator iter(md);
  upb_msg_iter_setdone(&iter.iter_);
  return iter;
}
inline const FieldDef* MessageDef::const_iterator::operator*() const {
  return upb_msg_iter_field(&iter_);
}
inline void MessageDef::const_iterator::operator++() {
  return upb_msg_next(&iter_);
}
inline bool MessageDef::const_iterator::operator==(
    const const_iterator &other) const {
  return upb_inttable_iter_isequal(&iter_, &other.iter_);
}
inline bool MessageDef::const_iterator::operator!=(
    const const_iterator &other) const {
  return !(*this == other);
}

inline reffed_ptr<EnumDef> EnumDef::New() {
  upb_enumdef *e = upb_enumdef_new(&e);
  return reffed_ptr<EnumDef>(e, &e);
}
inline bool EnumDef::IsFrozen() const { return upb_enumdef_isfrozen(this); }
inline void EnumDef::Ref(const void* owner) const {
  return upb_enumdef_ref(this, owner);
}
inline void EnumDef::Unref(const void* owner) const {
  return upb_enumdef_unref(this, owner);
}
inline void EnumDef::DonateRef(const void* from, const void* to) const {
  return upb_enumdef_donateref(this, from, to);
}
inline void EnumDef::CheckRef(const void* owner) const {
  return upb_enumdef_checkref(this, owner);
}
inline const char* EnumDef::full_name() const {
  return upb_enumdef_fullname(this);
}
inline bool EnumDef::set_full_name(const char* fullname, Status* s) {
  return upb_enumdef_setfullname(this, fullname, s);
}
inline bool EnumDef::set_full_name(const std::string& fullname, Status* s) {
  return upb_enumdef_setfullname(this, upb_safecstr(fullname), s);
}
inline bool EnumDef::Freeze(Status* status) {
  return upb_enumdef_freeze(this, status);
}
inline int32_t EnumDef::default_value() const {
  return upb_enumdef_default(this);
}
inline bool EnumDef::set_default_value(int32_t val, Status* status) {
  return upb_enumdef_setdefault(this, val, status);
}
inline int EnumDef::value_count() const { return upb_enumdef_numvals(this); }
inline bool EnumDef::AddValue(const char* name, int32_t num, Status* status) {
  return upb_enumdef_addval(this, name, num, status);
}
inline bool EnumDef::AddValue(const std::string& name, int32_t num,
                              Status* status) {
  return upb_enumdef_addval(this, upb_safecstr(name), num, status);
}
inline bool EnumDef::FindValueByName(const char* name, int32_t *num) const {
  return upb_enumdef_ntoiz(this, name, num);
}
inline const char* EnumDef::FindValueByNumber(int32_t num) const {
  return upb_enumdef_iton(this, num);
}
inline EnumDef* EnumDef::Dup(const void* owner) const {
  return upb_enumdef_dup(this, owner);
}

inline EnumDef::Iterator::Iterator(const EnumDef* e) {
  upb_enum_begin(&iter_, e);
}
inline int32_t EnumDef::Iterator::number() {
  return upb_enum_iter_number(&iter_);
}
inline const char* EnumDef::Iterator::name() {
  return upb_enum_iter_name(&iter_);
}
inline bool EnumDef::Iterator::Done() { return upb_enum_done(&iter_); }
inline void EnumDef::Iterator::Next() { return upb_enum_next(&iter_); }
}  // namespace upb
#endif

#undef UPB_DEFINE_DEF
#undef UPB_DEF_CASTS
#undef UPB_CPP_CASTS

#endif /* UPB_DEF_H_ */