/* * upb - a minimalist implementation of protocol buffers. * * Defines a delimited (as opposed to null-terminated) string type and some * library functions for manipulating them. * * There are two primary reasons upb uses delimited strings. One is that they * can be more efficient for some operations because they do not have to scan * the string to find its length. For example, streql can start by just * comparing the lengths (very efficient) and scan the strings themselves only * if the lengths are equal. * * More importantly, using delimited strings makes it possible for strings to * reference substrings of other strings. For example, if I am parsing a * protobuf I can create a string that references the original protobuf's * string data. With NULL-termination I would be forced to write a NULL * into the middle of the protobuf's data, which is less than ideal and in * some cases not practical or possible. * * Copyright (c) 2009 Joshua Haberman. See LICENSE for details. */ #ifndef UPB_STRING_H_ #define UPB_STRING_H_ #ifdef __cplusplus extern "C" { #endif #include #include struct upb_string { /* We expect the data to be 8-bit clean (uint8_t), but char* is such an * ingrained convention that we follow it. */ char *ptr; uint32_t byte_len; }; INLINE bool upb_streql(struct upb_string *s1, struct upb_string *s2) { return s1->byte_len == s2->byte_len && memcmp(s1->ptr, s2->ptr, s1->byte_len) == 0; } INLINE void upb_strcpy(struct upb_string *dest, struct upb_string *src) { memcpy(dest->ptr, src->ptr, dest->byte_len); dest->byte_len = src->byte_len; } INLINE struct upb_string upb_strdup(struct upb_string s) { struct upb_string copy; copy.ptr = (char*)malloc(s.byte_len); copy.byte_len = s.byte_len; memcpy(copy.ptr, s.ptr, s.byte_len); return copy; } INLINE void upb_strfree(struct upb_string s) { free(s.ptr); } #define UPB_STRLIT(strlit) {.ptr=strlit, .byte_len=sizeof(strlit)-1} #define UPB_STRARG(str) (str).byte_len, (str).ptr #define UPB_STRFMT "%.*s" #ifdef __cplusplus } /* extern "C" */ #endif #endif /* UPB_H_ */