bytestream.h source code [include/google/protobuf/stubs/bytestream.h]

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30
31	// This file declares the ByteSink and ByteSource abstract interfaces. These
32	// interfaces represent objects that consume (ByteSink) or produce (ByteSource)
33	// a sequence of bytes. Using these abstract interfaces in your APIs can help
34	// make your code work with a variety of input and output types.
35	//
36	// This file also declares the following commonly used implementations of these
37	// interfaces.
38	//
39	// ByteSink:
40	// UncheckedArrayByteSink Writes to an array, without bounds checking
41	// CheckedArrayByteSink Writes to an array, with bounds checking
42	// GrowingArrayByteSink Allocates and writes to a growable buffer
43	// StringByteSink Writes to an STL string
44	// NullByteSink Consumes a never-ending stream of bytes
45	//
46	// ByteSource:
47	// ArrayByteSource Reads from an array or string/StringPiece
48	// LimitedByteSource Limits the number of bytes read from an
49
50	#ifndef GOOGLE_PROTOBUF_STUBS_BYTESTREAM_H_
51	#define GOOGLE_PROTOBUF_STUBS_BYTESTREAM_H_
52
53	#include <stddef.h>
54	#include <string>
55
56	#include <google/protobuf/stubs/common.h>
57	#include <google/protobuf/stubs/stringpiece.h>
58
59	#include <google/protobuf/port_def.inc>
60
61	class CordByteSink;
62
63	namespace google {
64	namespace protobuf {
65	namespace strings {
66
67	// An abstract interface for an object that consumes a sequence of bytes. This
68	// interface offers a way to append data as well as a Flush() function.
69	//
70	// Example:
71	//
72	// string my_data;
73	// ...
74	// ByteSink sink = ...*
75	// sink->Append(my_data.data(), my_data.size());
76	// sink->Flush();
77	//
78	class PROTOBUF_EXPORT ByteSink {
79	public:
80	ByteSink() {}
81	virtual ~ByteSink() {}
82
83	// Appends the "n" bytes starting at "bytes".
84	virtual void Append(const char* bytes, size_t n) = `0`;
85
86	// Flushes internal buffers. The default implementation does nothing. ByteSink
87	// subclasses may use internal buffers that require calling Flush() at the end
88	// of the stream.
89	virtual void Flush();
90
91	private:
92	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ByteSink);
93	};
94
95	// An abstract interface for an object that produces a fixed-size sequence of
96	// bytes.
97	//
98	// Example:
99	//
100	// ByteSource source = ...*
101	// while (source->Available() > 0) {
102	// StringPiece data = source->Peek();
103	// ... do something with "data" ...
104	// source->Skip(data.length());
105	// }
106	//
107	class PROTOBUF_EXPORT ByteSource {
108	public:
109	ByteSource() {}
110	virtual ~ByteSource() {}
111
112	// Returns the number of bytes left to read from the source. Available()
113	// should decrease by N each time Skip(N) is called. Available() may not
114	// increase. Available() returning 0 indicates that the ByteSource is
115	// exhausted.
116	//
117	// Note: Size() may have been a more appropriate name as it's more
118	// indicative of the fixed-size nature of a ByteSource.
119	virtual size_t Available() const = `0`;
120
121	// Returns a StringPiece of the next contiguous region of the source. Does not
122	// reposition the source. The returned region is empty iff Available() == 0.
123	//
124	// The returned region is valid until the next call to Skip() or until this
125	// object is destroyed, whichever occurs first.
126	//
127	// The length of the returned StringPiece will be <= Available().
128	virtual StringPiece Peek() = `0`;
129
130	// Skips the next n bytes. Invalidates any StringPiece returned by a previous
131	// call to Peek().
132	//
133	// REQUIRES: Available() >= n
134	virtual void Skip(size_t n) = `0`;
135
136	// Writes the next n bytes in this ByteSource to the given ByteSink, and
137	// advances this ByteSource past the copied bytes. The default implementation
138	// of this method just copies the bytes normally, but subclasses might
139	// override CopyTo to optimize certain cases.
140	//
141	// REQUIRES: Available() >= n
142	virtual void CopyTo(ByteSink* sink, size_t n);
143
144	private:
145	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ByteSource);
146	};
147
148	//
149	// Some commonly used implementations of ByteSink
150	//
151
152	// Implementation of ByteSink that writes to an unsized byte array. No
153	// bounds-checking is performed--it is the caller's responsibility to ensure
154	// that the destination array is large enough.
155	//
156	// Example:
157	//
158	// char buf[10];
159	// UncheckedArrayByteSink sink(buf);
160	// sink.Append("hi", 2); // OK
161	// sink.Append(data, 100); // WOOPS! Overflows buf[10].
162	//
163	class PROTOBUF_EXPORT UncheckedArrayByteSink : public ByteSink {
164	public:
165	explicit UncheckedArrayByteSink(char* dest) : dest_(dest) {}
166	virtual void Append(const char* data, size_t n) override;
167
168	// Returns the current output pointer so that a caller can see how many bytes
169	// were produced.
170	//
171	// Note: this method is not part of the ByteSink interface.
172	char* CurrentDestination() const { return dest_; }
173
174	private:
175	char* dest_;
176	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(UncheckedArrayByteSink);
177	};
178
179	// Implementation of ByteSink that writes to a sized byte array. This sink will
180	// not write more than "capacity" bytes to outbuf. Once "capacity" bytes are
181	// appended, subsequent bytes will be ignored and Overflowed() will return true.
182	// Overflowed() does not cause a runtime error (i.e., it does not CHECK fail).
183	//
184	// Example:
185	//
186	// char buf[10];
187	// CheckedArrayByteSink sink(buf, 10);
188	// sink.Append("hi", 2); // OK
189	// sink.Append(data, 100); // Will only write 8 more bytes
190	//
191	class PROTOBUF_EXPORT CheckedArrayByteSink : public ByteSink {
192	public:
193	CheckedArrayByteSink(char* outbuf, size_t capacity);
194	virtual void Append(const char* bytes, size_t n) override;
195
196	// Returns the number of bytes actually written to the sink.
197	size_t NumberOfBytesWritten() const { return size_; }
198
199	// Returns true if any bytes were discarded, i.e., if there was an
200	// attempt to write more than 'capacity' bytes.
201	bool Overflowed() const { return overflowed_; }
202
203	private:
204	char* outbuf_;
205	const size_t capacity_;
206	size_t size_;
207	bool overflowed_;
208	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(CheckedArrayByteSink);
209	};
210
211	// Implementation of ByteSink that allocates an internal buffer (a char array)
212	// and expands it as needed to accommodate appended data (similar to a string),
213	// and allows the caller to take ownership of the internal buffer via the
214	// GetBuffer() method. The buffer returned from GetBuffer() must be deleted by
215	// the caller with delete[]. GetBuffer() also sets the internal buffer to be
216	// empty, and subsequent appends to the sink will create a new buffer. The
217	// destructor will free the internal buffer if GetBuffer() was not called.
218	//
219	// Example:
220	//
221	// GrowingArrayByteSink sink(10);
222	// sink.Append("hi", 2);
223	// sink.Append(data, n);
224	// const char buf = sink.GetBuffer(); // Ownership transferred*
225	// delete[] buf;
226	//
227	class PROTOBUF_EXPORT GrowingArrayByteSink : public strings::ByteSink {
228	public:
229	explicit GrowingArrayByteSink(size_t estimated_size);
230	virtual ~GrowingArrayByteSink();
231	virtual void Append(const char* bytes, size_t n) override;
232
233	// Returns the allocated buffer, and sets nbytes to its size. The caller takes
234	// ownership of the buffer and must delete it with delete[].
235	char* GetBuffer(size_t* nbytes);
236
237	private:
238	void Expand(size_t amount);
239	void ShrinkToFit();
240
241	size_t capacity_;
242	char* buf_;
243	size_t size_;
244	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(GrowingArrayByteSink);
245	};
246
247	// Implementation of ByteSink that appends to the given string.
248	// Existing contents of "dest" are not modified; new data is appended.
249	//
250	// Example:
251	//
252	// string dest = "Hello ";
253	// StringByteSink sink(&dest);
254	// sink.Append("World", 5);
255	// assert(dest == "Hello World");
256	//
257	class PROTOBUF_EXPORT StringByteSink : public ByteSink {
258	public:
259	explicit StringByteSink(string* dest) : dest_(dest) {}
260	virtual void Append(const char* data, size_t n) override;
261
262	private:
263	string* dest_;
264	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(StringByteSink);
265	};
266
267	// Implementation of ByteSink that discards all data.
268	//
269	// Example:
270	//
271	// NullByteSink sink;
272	// sink.Append(data, data.size()); // All data ignored.
273	//
274	class PROTOBUF_EXPORT NullByteSink : public ByteSink {
275	public:
276	NullByteSink() {}
277	void Append(const char* /data/, size_t /n/) override {}
278
279	private:
280	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(NullByteSink);
281	};
282
283	//
284	// Some commonly used implementations of ByteSource
285	//
286
287	// Implementation of ByteSource that reads from a StringPiece.
288	//
289	// Example:
290	//
291	// string data = "Hello";
292	// ArrayByteSource source(data);
293	// assert(source.Available() == 5);
294	// assert(source.Peek() == "Hello");
295	//
296	class PROTOBUF_EXPORT ArrayByteSource : public ByteSource {
297	public:
298	explicit ArrayByteSource(StringPiece s) : input_(s) {}
299
300	virtual size_t Available() const override;
301	virtual StringPiece Peek() override;
302	virtual void Skip(size_t n) override;
303
304	private:
305	StringPiece input_;
306	GOOGLE_DISALLOW_EVIL_CONSTRUCTORS(ArrayByteSource);
307	};
308
309	// Implementation of ByteSource that wraps another ByteSource, limiting the
310	// number of bytes returned.
311	//
312	// The caller maintains ownership of the underlying source, and may not use the
313	// underlying source while using the LimitByteSource object. The underlying
314	// source's pointer is advanced by n bytes every time this LimitByteSource
315	// object is advanced by n.
316	//
317	// Example:
318	//
319	// string data = "Hello World";
320	// ArrayByteSource abs(data);
321	// assert(abs.Available() == data.size());
322	//
323	// LimitByteSource limit(abs, 5);
324	// assert(limit.Available() == 5);
325	// assert(limit.Peek() == "Hello");
326	//
327	class PROTOBUF_EXPORT LimitByteSource : public ByteSource {
328	public:
329	// Returns at most "limit" bytes from "source".
330	LimitByteSource(ByteSource* source, size_t limit);
331
332	virtual size_t Available() const override;
333	virtual StringPiece Peek() override;
334	virtual void Skip(size_t n) override;
335
336	// We override CopyTo so that we can forward to the underlying source, in
337	// case it has an efficient implementation of CopyTo.
338	virtual void CopyTo(ByteSink* sink, size_t n) override;
339
340	private:
341	ByteSource* source_;
342	size_t limit_;
343	};
344
345	} // namespace strings
346	} // namespace protobuf
347	} // namespace google
348
349	#include <google/protobuf/port_undef.inc>
350
351	#endif // GOOGLE_PROTOBUF_STUBS_BYTESTREAM_H_
352

source code of include/google/protobuf/stubs/bytestream.h