Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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342 lines
13 KiB
342 lines
13 KiB
/* |
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* upb - a minimalist implementation of protocol buffers. |
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* |
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* Copyright (c) 2010 Joshua Haberman. See LICENSE for details. |
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* |
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* This file defines a simple string type which is length-delimited instead |
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* of NULL-terminated, and which has useful sharing semantics. |
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* |
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* The overriding goal of upb_string is to avoid memcpy(), malloc(), and free() |
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* wheverever possible, while keeping both CPU and memory overhead low. |
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* Throughout upb there are situations where one wants to reference all or part |
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* of another string without copying. upb_string provides APIs for doing this, |
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* and allows the referenced string to be kept alive for as long as anyone is |
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* referencing it. |
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* |
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* Characteristics of upb_string: |
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* - strings are reference-counted. |
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* - strings are immutable (can be mutated only when first created or recycled). |
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* - if a string has no other referents, it can be "recycled" into a new string |
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* without having to reallocate the upb_string. |
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* - strings can be substrings of other strings (owning a ref on the source |
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* string). |
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* |
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* Reference-counted strings have recently fallen out of favor because of the |
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* performance impacts of doing thread-safe reference counting with atomic |
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* operations. We side-step this issue by not performing atomic operations |
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* unless the string has been marked thread-safe. Time will tell whether this |
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* scheme is easy and convenient enough to be practical. |
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* |
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* Strings are expected to be 8-bit-clean, but "char*" is such an entrenched |
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* idiom that we go with it instead of making our pointers uint8_t*. |
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* |
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* WARNING: THE GETREF, UNREF, AND RECYCLE OPERATIONS ARE NOT THREAD_SAFE |
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* UNLESS THE STRING HAS BEEN MARKED SYNCHRONIZED! What this means is that if |
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* you are logically passing a reference to a upb_string to another thread |
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* (which implies that the other thread must eventually call unref of recycle), |
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* you have two options: |
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* |
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* - create a copy of the string that will be used in the other thread only. |
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* - call upb_string_get_synchronized_ref(), which will make getref, unref, and |
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* recycle thread-safe for this upb_string. |
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*/ |
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#ifndef UPB_STRING_H |
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#define UPB_STRING_H |
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#include <assert.h> |
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#include <string.h> |
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#include <stdarg.h> |
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#include "upb_atomic.h" |
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#include "upb.h" |
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#ifdef __cplusplus |
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extern "C" { |
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#endif |
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// All members of this struct are private, and may only be read/written through |
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// the associated functions. |
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struct _upb_string { |
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// The string's refcount. |
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upb_atomic_refcount_t refcount; |
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// The pointer to our currently active data. This may be memory we own |
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// or a pointer into memory we don't own. |
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const char *ptr; |
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// If non-NULL, this is a block of memory we own. We keep this cached even |
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// if "ptr" is currently aliasing memory we don't own. |
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char *cached_mem; |
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// The effective length of the string (the bytes at ptr). |
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int32_t len; |
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#ifndef UPB_HAVE_MSIZE |
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// How many bytes are allocated in cached_mem. |
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// |
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// Many platforms have a function that can tell you the size of a block |
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// that was previously malloc'd. In this case we can avoid storing the |
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// size explicitly. |
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uint32_t size; |
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#endif |
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// Used if this is a slice of another string, NULL otherwise. We own a ref |
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// on src. |
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struct _upb_string *src; |
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}; |
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// Internal-only initializer for upb_string instances. |
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#ifdef UPB_HAVE_MSIZE |
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#define _UPB_STRING_INIT(str, len, refcount) {{refcount}, (char*)str, NULL, len, NULL} |
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#else |
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#define _UPB_STRING_INIT(str, len, refcount) {{refcount}, (char*)str, NULL, len, 0, NULL} |
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#endif |
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// Special pseudo-refcounts for static/stack-allocated strings, respectively. |
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#define _UPB_STRING_REFCOUNT_STATIC -1 |
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#define _UPB_STRING_REFCOUNT_STACK -2 |
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// Returns a newly-created, empty, non-finalized string. When the string is no |
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// longer needed, it should be unref'd, never freed directly. |
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upb_string *upb_string_new(); |
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// Internal-only; clients should call upb_string_unref(). |
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void _upb_string_free(upb_string *str); |
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// Releases a ref on the given string, which may free the memory. "str" |
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// can be NULL, in which case this is a no-op. WARNING: NOT THREAD_SAFE |
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// UNLESS THE STRING IS SYNCHRONIZED. |
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INLINE void upb_string_unref(upb_string *str) { |
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if (str && upb_atomic_read(&str->refcount) > 0 && |
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upb_atomic_unref(&str->refcount)) { |
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_upb_string_free(str); |
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} |
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} |
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upb_string *upb_strdup(upb_string *s); // Forward-declare. |
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// Returns a string with the same contents as "str". The caller owns a ref on |
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// the returned string, which may or may not be the same object as "str. |
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// WARNING: NOT THREAD-SAFE UNLESS THE STRING IS SYNCHRONIZED! |
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INLINE upb_string *upb_string_getref(upb_string *str) { |
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int refcount = upb_atomic_read(&str->refcount); |
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if (refcount == _UPB_STRING_REFCOUNT_STACK) return upb_strdup(str); |
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// We don't ref the special <0 refcount for static strings. |
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if (refcount > 0) upb_atomic_ref(&str->refcount); |
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return str; |
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} |
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// Returns the length of the string. |
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INLINE upb_strlen_t upb_string_len(upb_string *str) { return str->len; } |
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// Use to read the bytes of the string. The caller *must* call |
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// upb_string_endread() after the data has been read. The window between |
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// upb_string_getrobuf() and upb_string_endread() should be kept as short as |
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// possible, because any pending upb_string_detach() may be blocked until |
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// upb_string_endread is called(). No other functions may be called on the |
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// string during this window except upb_string_len(). |
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INLINE const char *upb_string_getrobuf(upb_string *str) { return str->ptr; } |
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INLINE void upb_string_endread(upb_string *str) { (void)str; } |
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// Convenience method for getting the end of the string. Calls |
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// upb_string_getrobuf() so inherits the caveats of calling that function. |
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INLINE const char *upb_string_getbufend(upb_string *str) { |
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return upb_string_getrobuf(str) + upb_string_len(str); |
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} |
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// Attempts to recycle the string "str" so it may be reused and have different |
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// data written to it. After the function returns, "str" points to a writable |
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// string, which is either the original string if it had no other references |
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// or a newly created string if it did have other references. |
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// |
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// As a special case, passing a pointer to NULL will allocate a new string. |
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// This is convenient for the pattern: |
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// |
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// upb_string *str = NULL; |
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// while (x) { |
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// if (y) { |
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// upb_string_recycle(&str); |
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// upb_src_getstr(str); |
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// } |
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// } |
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void upb_string_recycle(upb_string **str); |
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// The options for setting the contents of a string. These may only be called |
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// when a string is first created or recycled; once other functions have been |
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// called on the string, these functions are not allowed until the string is |
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// recycled. |
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// Gets a pointer suitable for writing to the string, which is guaranteed to |
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// have at least "len" bytes of data available. The size of the string will |
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// become "len". |
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char *upb_string_getrwbuf(upb_string *str, upb_strlen_t len); |
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// Replaces the contents of str with the contents of the given printf. |
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void upb_string_vprintf(upb_string *str, const char *format, va_list args); |
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INLINE void upb_string_printf(upb_string *str, const char *format, ...) { |
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va_list args; |
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va_start(args, format); |
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upb_string_vprintf(str, format, args); |
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va_end(args); |
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} |
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// Sets the contents of "str" to be the given substring of "target_str", to |
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// which the caller must own a ref. |
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void upb_string_substr(upb_string *str, upb_string *target_str, |
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upb_strlen_t start, upb_strlen_t len); |
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// Sketch of an API for allowing upb_strings to reference external, unowned |
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// data. Waiting for a clear use case before actually implementing it. |
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// |
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// Makes the string "str" a reference to the given string data. The caller |
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// guarantees that the given string data will not change or be deleted until a |
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// matching call to upb_string_detach(), which may block until any concurrent |
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// readers have finished reading. upb_string_detach() preserves the contents |
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// of the string by copying the referenced data if there are any other |
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// referents. |
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// void upb_string_attach(upb_string *str, char *ptr, upb_strlen_t len); |
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// void upb_string_detach(upb_string *str); |
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// Allows using upb_strings in printf, ie: |
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// upb_strptr str = UPB_STRLIT("Hello, World!\n"); |
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// printf("String is: " UPB_STRFMT, UPB_STRARG(str)); */ |
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#define UPB_STRARG(str) upb_string_len(str), upb_string_getrobuf(str) |
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#define UPB_STRFMT "%.*s" |
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// Macros for constructing upb_string objects statically or on the stack. These |
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// can be used like: |
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// |
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// upb_string static_str = UPB_STATIC_STRING("Foo"); |
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// |
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// int main() { |
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// upb_string stack_str = UPB_STACK_STRING("Foo"); |
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// // Now: |
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// // upb_streql(&static_str, &stack_str) == true |
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// // upb_streql(&static_str, UPB_STRLIT("Foo")) == true |
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// } |
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// |
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// You can also use UPB_STACK_STRING or UPB_STATIC_STRING with character arrays, |
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// but you must not change the underlying data once you've passed the string on: |
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// |
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// void foo() { |
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// char data[] = "ABC123"; |
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// upb_string stack_str = UPB_STACK_STR(data); |
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// bar(&stack_str); |
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// data[0] = "B"; // NOT ALLOWED!! |
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// } |
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// |
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// TODO: should the stack business just be like attach/detach? The latter seems |
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// more flexible, though it does require a stack allocation. Maybe put this off |
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// until there is a clear use case. |
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#define UPB_STATIC_STRING(str) \ |
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_UPB_STRING_INIT(str, sizeof(str)-1, _UPB_STRING_REFCOUNT_STATIC) |
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#define UPB_STATIC_STRING_LEN(str, len) \ |
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_UPB_STRING_INIT(str, len, _UPB_STRING_REFCOUNT_STATIC) |
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#define UPB_STACK_STRING(str) \ |
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_UPB_STRING_INIT(str, sizeof(str)-1, _UPB_STRING_REFCOUNT_STACK) |
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#define UPB_STACK_STRING_LEN(str, len) \ |
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_UPB_STRING_INIT(str, len, _UPB_STRING_REFCOUNT_STACK) |
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// A convenient way of specifying upb_strings as literals, like: |
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// |
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// upb_streql(UPB_STRLIT("expected"), other_str); |
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// |
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// However, this requires either C99 compound initializers or C++. |
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// Must ONLY be called with a string literal as its argument! |
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//#ifdef __cplusplus |
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//namespace upb { |
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//class String : public upb_string { |
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// // This constructor must ONLY be called with a string literal. |
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// String(const char *str) : upb_string(UPB_STATIC_STRING(str)) {} |
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//}; |
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//} |
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//#define UPB_STRLIT(str) upb::String(str) |
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//#endif |
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#define UPB_STRLIT(str) &(upb_string)UPB_STATIC_STRING(str) |
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/* upb_string library functions ***********************************************/ |
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// Named like their <string.h> counterparts, these are all safe against buffer |
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// overflow. For the most part these only use the public upb_string interface. |
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// More efficient than upb_strcmp if all you need is to test equality. |
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INLINE bool upb_streql(upb_string *s1, upb_string *s2) { |
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upb_strlen_t len = upb_string_len(s1); |
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if(len != upb_string_len(s2)) { |
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return false; |
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} else { |
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bool ret = |
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memcmp(upb_string_getrobuf(s1), upb_string_getrobuf(s2), len) == 0; |
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upb_string_endread(s1); |
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upb_string_endread(s2); |
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return ret; |
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} |
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} |
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// Like strcmp(). |
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int upb_strcmp(upb_string *s1, upb_string *s2); |
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// Compare a upb_string with memory or a NULL-terminated C string. |
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INLINE bool upb_streqllen(upb_string *str, const void *buf, upb_strlen_t len) { |
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return len == upb_string_len(str) && |
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memcmp(upb_string_getrobuf(str), buf, len) == 0; |
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} |
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INLINE bool upb_streqlc(upb_string *str, const void *buf) { |
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// Could be made one-pass. |
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return upb_streqllen(str, buf, strlen((const char*)buf)); |
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} |
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// Like upb_strcpy, but copies from a buffer and length. |
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INLINE void upb_strcpylen(upb_string *dest, const void *src, upb_strlen_t len) { |
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memcpy(upb_string_getrwbuf(dest, len), src, len); |
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} |
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// Replaces the contents of "dest" with the contents of "src". |
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INLINE void upb_strcpy(upb_string *dest, upb_string *src) { |
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upb_strcpylen(dest, upb_string_getrobuf(src), upb_string_len(src)); |
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upb_string_endread(src); |
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} |
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// Like upb_strcpy, but copies from a NULL-terminated string. |
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INLINE void upb_strcpyc(upb_string *dest, const void *src) { |
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// This does two passes over src, but that is necessary unless we want to |
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// repeatedly re-allocate dst, which seems worse. |
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upb_strcpylen(dest, src, strlen((const char*)src)); |
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} |
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// Returns a new string whose contents are a copy of s. |
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upb_string *upb_strdup(upb_string *s); |
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// Like upb_strdup(), but duplicates a given buffer and length. |
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INLINE upb_string *upb_strduplen(const void *src, upb_strlen_t len) { |
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upb_string *s = upb_string_new(); |
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upb_strcpylen(s, src, len); |
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return s; |
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} |
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// Like upb_strdup(), but duplicates a C NULL-terminated string. |
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INLINE upb_string *upb_strdupc(const char *src) { |
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return upb_strduplen(src, strlen(src)); |
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} |
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// Appends 'append' to 's' in-place, resizing s if necessary. |
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void upb_strcat(upb_string *s, upb_string *append); |
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// Returns a new string that is a substring of the given string. |
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INLINE upb_string *upb_strslice(upb_string *s, int offset, int len) { |
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upb_string *str = upb_string_new(); |
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upb_string_substr(str, s, offset, len); |
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return str; |
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} |
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// Reads an entire file into a newly-allocated string. |
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upb_string *upb_strreadfile(const char *filename); |
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// Returns a new string with the contents of the given printf. |
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upb_string *upb_string_asprintf(const char *format, ...); |
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#ifdef __cplusplus |
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} /* extern "C" */ |
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#endif |
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#endif
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