Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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291 lines
11 KiB
291 lines
11 KiB
/* |
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* upb - a minimalist implementation of protocol buffers. |
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* |
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* Copyright (c) 2009 Joshua Haberman. See LICENSE for details. |
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* |
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* upb_msg contains a full description of a message as defined in a .proto file. |
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* It supports many features and operations for dealing with proto messages: |
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* - reflection over .proto types at runtime (list fields, get names, etc). |
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* - an in-memory byte-level format for efficiently storing and accessing msgs. |
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* - serializing and deserializing from the in-memory format to a protobuf. |
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* - optional memory management for handling strings, arrays, and submessages. |
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* |
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* The in-memory format is very much like a C struct that you can define at |
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* run-time, but also supports reflection. Like C structs it supports |
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* offset-based access, as opposed to the much slower name-based lookup. The |
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* format represents both the values themselves and bits describing whether each |
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* field is set or not. |
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* |
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* The upb compiler emits C structs that mimic this definition exactly, so that |
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* you can access the same hunk of memory using either this run-time |
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* reflection-supporting interface or a C struct that was generated by the upb |
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* compiler. |
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* |
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* Like C structs the format depends on the endianness of the host machine, so |
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* it is not suitable for exchanging across machines of differing endianness. |
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* But there is no reason to do that -- the protobuf serialization format is |
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* designed already for serialization/deserialization, and is more compact than |
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* this format. This format is designed to allow the fastest possible random |
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* access of individual fields. |
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* |
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* Note that clients need not use the memory management facilities defined here. |
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* They are for convenience only -- clients wishing to do their own memory |
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* management may do so (allowing clients to perform advanced techniques like |
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* reference-counting, garbage collection, and string references). Different |
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* clients can read each others messages regardless of what memory management |
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* scheme each is using. |
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*/ |
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#ifndef UPB_MSG_H_ |
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#define UPB_MSG_H_ |
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#include <stdbool.h> |
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#include <stddef.h> |
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#include <stdint.h> |
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#include <string.h> |
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#include "upb.h" |
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#include "upb_table.h" |
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#ifdef __cplusplus |
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extern "C" { |
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#endif |
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/* Forward declarations from descriptor.h. */ |
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struct google_protobuf_DescriptorProto; |
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struct google_protobuf_FieldDescriptorProto; |
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/* Message definition. ********************************************************/ |
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/* Structure that describes a single field in a message. */ |
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struct upb_msg_field { |
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uint32_t byte_offset; /* Where to find the data. */ |
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uint16_t field_index; /* Indexes upb_msg.fields. Also indicates set bit */ |
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upb_field_type_t type; /* Copied from descriptor for cache-friendliness. */ |
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union upb_symbol_ref ref; |
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}; |
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/* Structure that describes a single .proto message type. */ |
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struct upb_msg { |
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struct google_protobuf_DescriptorProto *descriptor; |
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size_t size; |
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uint32_t num_fields; |
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uint32_t set_flags_bytes; |
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uint32_t num_required_fields; /* Required fields have the lowest set bytemasks. */ |
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struct upb_inttable fields_by_num; |
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struct upb_strtable fields_by_name; |
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struct upb_msg_field *fields; |
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struct google_protobuf_FieldDescriptorProto **field_descriptors; |
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}; |
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/* The num->field and name->field maps in upb_msg allow fast lookup of fields |
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* by number or name. These lookups are in the critical path of parsing and |
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* field lookup, so they must be as fast as possible. To make these more |
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* cache-friendly, we put the data in the table by value. */ |
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struct upb_fieldsbynum_entry { |
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struct upb_inttable_entry e; |
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struct upb_msg_field f; |
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}; |
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struct upb_fieldsbyname_entry { |
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struct upb_strtable_entry e; |
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struct upb_msg_field f; |
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}; |
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/* Can be used to retrieve a field descriptor given the upb_msg_field ref. */ |
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INLINE struct google_protobuf_FieldDescriptorProto *upb_msg_field_descriptor( |
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struct upb_msg_field *f, struct upb_msg *m) { |
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return m->field_descriptors[f->field_index]; |
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} |
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/* Initialize and free a upb_msg. Caller retains ownership of d, but the msg |
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* will contain references to it, so it must outlive the msg. Note that init |
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* does not resolve upb_msg_field.ref -- the caller should do that |
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* post-initialization by calling upb_msg_ref() below. */ |
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bool upb_msg_init(struct upb_msg *m, struct google_protobuf_DescriptorProto *d); |
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void upb_msg_free(struct upb_msg *m); |
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/* Clients use this function on a previously initialized upb_msg to resolve the |
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* "ref" field in the upb_msg_field. Since messages can refer to each other in |
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* mutually-recursive ways, this step must be separated from initialization. */ |
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void upb_msg_ref(struct upb_msg *m, struct upb_msg_field *f, union upb_symbol_ref ref); |
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/* While these are written to be as fast as possible, it will still be faster |
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* to cache the results of this lookup if possible. These return NULL if no |
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* such field is found. */ |
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INLINE struct upb_msg_field *upb_msg_fieldbynum(struct upb_msg *m, |
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uint32_t number) { |
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struct upb_fieldsbynum_entry *e = upb_inttable_lookup( |
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&m->fields_by_num, number, sizeof(struct upb_fieldsbynum_entry)); |
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return e ? &e->f : NULL; |
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} |
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INLINE struct upb_msg_field *upb_msg_fieldbyname(struct upb_msg *m, |
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struct upb_string *name) { |
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struct upb_fieldsbyname_entry *e = |
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upb_strtable_lookup(&m->fields_by_name, name); |
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return e ? &e->f : NULL; |
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} |
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/* Variable-length data (strings and arrays).**********************************/ |
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/* Represents an array (a repeated field) of any type. The interpretation of |
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* the data in the array depends on the type. */ |
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struct upb_array { |
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void *data; /* Size of individual elements is based on type. */ |
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uint32_t len; /* Measured in elements. */ |
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}; |
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/* A generic array of structs, using void* instead of specific types. */ |
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struct upb_msg_array { |
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void **elements; |
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uint32_t len; |
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}; |
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/* An array of strings. */ |
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struct upb_string_array { |
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struct upb_string **elements; |
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uint32_t len; |
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}; |
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/* Specific arrays of all the primitive types. */ |
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#define UPB_DEFINE_PRIMITIVE_ARRAY(type, name) \ |
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struct upb_ ## name ## _array { \ |
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size_t len; \ |
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type *elements; \ |
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}; |
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UPB_DEFINE_PRIMITIVE_ARRAY(double, double) |
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UPB_DEFINE_PRIMITIVE_ARRAY(float, float) |
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UPB_DEFINE_PRIMITIVE_ARRAY(int32_t, int32) |
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UPB_DEFINE_PRIMITIVE_ARRAY(int64_t, int64) |
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UPB_DEFINE_PRIMITIVE_ARRAY(uint32_t, uint32) |
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UPB_DEFINE_PRIMITIVE_ARRAY(uint64_t, uint64) |
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UPB_DEFINE_PRIMITIVE_ARRAY(bool, bool) |
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#undef UPB_DEFINE_PRMITIVE_ARRAY |
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#define UPB_STRUCT_ARRAY(struct_type) struct struct_type ## _array |
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#define UPB_DEFINE_STRUCT_ARRAY(struct_type) \ |
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UPB_STRUCT_ARRAY(struct_type) { \ |
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size_t len; \ |
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struct_type **elements; \ |
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}; |
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/* Accessors for primitive types. ********************************************/ |
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/* For each primitive type we define a set of six functions: |
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* |
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* // For fetching out of a msg (s points to the raw msg data). |
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* int32_t *upb_msg_get_int32_ptr(void *s, struct upb_msg_field *f); |
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* int32_t upb_msg_get_int32(void *s, struct upb_msg_field *f); |
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* void upb_msg_set_int32(void *s, struct upb_msg_field *f, int32_t val); |
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* |
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* // For fetching out of an array. |
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* int32_t *upb_array_get_int32_ptr(struct upb_array *a, int n); |
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* int32_t upb_array_get_int32(struct upb_array *a, int n); |
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* void upb_array_set_int32(struct upb_array *a, int n, ctype val); |
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* |
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* For arrays we provide only the first three because protobufs do not support |
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* arrays of arrays. |
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* |
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* These do no existence checks, bounds checks, or type checks. */ |
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#define UPB_DEFINE_ACCESSORS(ctype, name, INLINE) \ |
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INLINE ctype *upb_msg_get_ ## name ## _ptr( \ |
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void *s, struct upb_msg_field *f) { \ |
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return (ctype*)((char*)s + f->byte_offset); \ |
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} \ |
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INLINE ctype upb_msg_get_ ## name( \ |
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void *s, struct upb_msg_field *f) { \ |
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return *upb_msg_get_ ## name ## _ptr(s, f); \ |
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} \ |
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INLINE void upb_msg_set_ ## name( \ |
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void *s, struct upb_msg_field *f, ctype val) { \ |
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*upb_msg_get_ ## name ## _ptr(s, f) = val; \ |
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} |
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#define UPB_DEFINE_ARRAY_ACCESSORS(ctype, name, INLINE) \ |
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INLINE ctype *upb_array_get_ ## name ## _ptr(struct upb_array *a, int n) { \ |
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return ((ctype*)a->data) + n; \ |
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} \ |
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INLINE ctype upb_array_get_ ## name(struct upb_array *a, int n) { \ |
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return *upb_array_get_ ## name ## _ptr(a, n); \ |
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} \ |
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INLINE void upb_array_set_ ## name(struct upb_array *a, int n, ctype val) { \ |
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*upb_array_get_ ## name ## _ptr(a, n) = val; \ |
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} |
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#define UPB_DEFINE_ALL_ACCESSORS(ctype, name, INLINE) \ |
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UPB_DEFINE_ACCESSORS(ctype, name, INLINE) \ |
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UPB_DEFINE_ARRAY_ACCESSORS(ctype, name, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(double, double, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(float, float, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(int32_t, int32, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(int64_t, int64, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(uint32_t, uint32, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(uint64_t, uint64, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(bool, bool, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(struct upb_string*, bytes, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(struct upb_string*, string, INLINE) |
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UPB_DEFINE_ALL_ACCESSORS(void*, submsg, INLINE) |
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UPB_DEFINE_ACCESSORS(struct upb_array*, array, INLINE) |
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/* "Set" flag reading and writing. *******************************************/ |
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INLINE size_t upb_isset_offset(uint32_t field_index) { |
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return field_index / 8; |
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} |
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INLINE uint8_t upb_isset_mask(uint32_t field_index) { |
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return 1 << (field_index % 8); |
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} |
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/* Functions for reading and writing the "set" flags in the msg. Note that |
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* these do not perform memory management associated with any dynamic memory |
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* these fields may be referencing. These *only* set and test the flags. */ |
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INLINE void upb_msg_set(void *s, struct upb_msg_field *f) |
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{ |
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((char*)s)[upb_isset_offset(f->field_index)] |= upb_isset_mask(f->field_index); |
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} |
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INLINE void upb_msg_unset(void *s, struct upb_msg_field *f) |
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{ |
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((char*)s)[upb_isset_offset(f->field_index)] &= ~upb_isset_mask(f->field_index); |
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} |
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INLINE bool upb_msg_is_set(void *s, struct upb_msg_field *f) |
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{ |
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return ((char*)s)[upb_isset_offset(f->field_index)] & upb_isset_mask(f->field_index); |
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} |
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INLINE bool upb_msg_all_required_fields_set(void *s, struct upb_msg *m) |
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{ |
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int num_fields = m->num_required_fields; |
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int i = 0; |
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while(num_fields > 8) { |
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if(((uint8_t*)s)[i++] != 0xFF) return false; |
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num_fields -= 8; |
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} |
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if(((uint8_t*)s)[i] != (1 << num_fields) - 1) return false; |
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return true; |
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} |
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INLINE void upb_msg_clear(void *s, struct upb_msg *m) |
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{ |
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memset(s, 0, m->set_flags_bytes); |
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} |
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/* Serialization/Deserialization. ********************************************/ |
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/* Parses the string data in s according to the message description in m. |
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* Returns a newly allocated message which is now owned by the caller, or |
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* NULL if there was an error parsing the string. */ |
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void *upb_msg_parse(struct upb_msg *m, struct upb_string *s); |
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#ifdef __cplusplus |
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} /* extern "C" */ |
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#endif |
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#endif /* UPB_MSG_H_ */
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