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annotate base/RingBuffer.h @ 194:10e897e6dcba

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author Chris Cannam
date Thu, 19 Oct 2006 09:56:53 +0000
parents 4b2ea82fd0ed
children 9eb7ef610d7f
rev   line source
Chris@49 1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
Chris@0 2
Chris@0 3 /*
Chris@52 4 Sonic Visualiser
Chris@52 5 An audio file viewer and annotation editor.
Chris@52 6 Centre for Digital Music, Queen Mary, University of London.
Chris@0 7
Chris@52 8 This program is free software; you can redistribute it and/or
Chris@52 9 modify it under the terms of the GNU General Public License as
Chris@52 10 published by the Free Software Foundation; either version 2 of the
Chris@52 11 License, or (at your option) any later version. See the file
Chris@52 12 COPYING included with this distribution for more information.
Chris@0 13 */
Chris@0 14
Chris@0 15 /*
Chris@0 16 This is a modified version of a source file from the
Chris@0 17 Rosegarden MIDI and audio sequencer and notation editor.
Chris@17 18 This file copyright 2000-2006 Chris Cannam.
Chris@0 19 */
Chris@0 20
Chris@0 21 #ifndef _RINGBUFFER_H_
Chris@0 22 #define _RINGBUFFER_H_
Chris@0 23
Chris@0 24 #include <sys/types.h>
Chris@0 25
Chris@150 26 #include "system/System.h"
Chris@0 27 #include "Scavenger.h"
Chris@0 28
Chris@0 29 //#define DEBUG_RINGBUFFER 1
Chris@0 30
Chris@0 31 #ifdef DEBUG_RINGBUFFER
Chris@0 32 #include <iostream>
Chris@0 33 #endif
Chris@0 34
Chris@0 35 /**
Chris@0 36 * RingBuffer implements a lock-free ring buffer for one writer and N
Chris@0 37 * readers, that is to be used to store a sample type T.
Chris@0 38 *
Chris@0 39 * For efficiency, RingBuffer frequently initialises samples by
Chris@0 40 * writing zeroes into their memory space, so T should normally be a
Chris@0 41 * simple type that can safely be set to zero using memset.
Chris@0 42 */
Chris@0 43
Chris@0 44 template <typename T, int N = 1>
Chris@0 45 class RingBuffer
Chris@0 46 {
Chris@0 47 public:
Chris@0 48 /**
Chris@0 49 * Create a ring buffer with room to write n samples.
Chris@0 50 *
Chris@0 51 * Note that the internal storage size will actually be n+1
Chris@0 52 * samples, as one element is unavailable for administrative
Chris@0 53 * reasons. Since the ring buffer performs best if its size is a
Chris@0 54 * power of two, this means n should ideally be some power of two
Chris@0 55 * minus one.
Chris@0 56 */
Chris@0 57 RingBuffer(size_t n);
Chris@0 58
Chris@0 59 virtual ~RingBuffer();
Chris@0 60
Chris@0 61 /**
Chris@0 62 * Return the total capacity of the ring buffer in samples.
Chris@0 63 * (This is the argument n passed to the constructor.)
Chris@0 64 */
Chris@0 65 size_t getSize() const;
Chris@0 66
Chris@0 67 /**
Chris@0 68 * Resize the ring buffer. This also empties it. Actually swaps
Chris@0 69 * in a new, larger buffer; the old buffer is scavenged after a
Chris@0 70 * seemly delay. Should be called from the write thread.
Chris@0 71 */
Chris@0 72 void resize(size_t newSize);
Chris@0 73
Chris@0 74 /**
Chris@0 75 * Lock the ring buffer into physical memory. Returns true
Chris@0 76 * for success.
Chris@0 77 */
Chris@0 78 bool mlock();
Chris@0 79
Chris@0 80 /**
Chris@0 81 * Reset read and write pointers, thus emptying the buffer.
Chris@0 82 * Should be called from the write thread.
Chris@0 83 */
Chris@0 84 void reset();
Chris@0 85
Chris@0 86 /**
Chris@0 87 * Return the amount of data available for reading by reader R, in
Chris@0 88 * samples.
Chris@0 89 */
Chris@0 90 size_t getReadSpace(int R = 0) const;
Chris@0 91
Chris@0 92 /**
Chris@0 93 * Return the amount of space available for writing, in samples.
Chris@0 94 */
Chris@0 95 size_t getWriteSpace() const;
Chris@0 96
Chris@0 97 /**
Chris@0 98 * Read n samples from the buffer, for reader R. If fewer than n
Chris@0 99 * are available, the remainder will be zeroed out. Returns the
Chris@0 100 * number of samples actually read.
Chris@0 101 */
Chris@0 102 size_t read(T *destination, size_t n, int R = 0);
Chris@0 103
Chris@0 104 /**
Chris@0 105 * Read n samples from the buffer, for reader R, adding them to
Chris@0 106 * the destination. If fewer than n are available, the remainder
Chris@0 107 * will be left alone. Returns the number of samples actually
Chris@0 108 * read.
Chris@0 109 */
Chris@0 110 size_t readAdding(T *destination, size_t n, int R = 0);
Chris@0 111
Chris@0 112 /**
Chris@0 113 * Read one sample from the buffer, for reader R. If no sample is
Chris@0 114 * available, this will silently return zero. Calling this
Chris@0 115 * repeatedly is obviously slower than calling read once, but it
Chris@0 116 * may be good enough if you don't want to allocate a buffer to
Chris@0 117 * read into.
Chris@0 118 */
Chris@0 119 T readOne(int R = 0);
Chris@0 120
Chris@0 121 /**
Chris@0 122 * Read n samples from the buffer, if available, for reader R,
Chris@0 123 * without advancing the read pointer -- i.e. a subsequent read()
Chris@0 124 * or skip() will be necessary to empty the buffer. If fewer than
Chris@0 125 * n are available, the remainder will be zeroed out. Returns the
Chris@0 126 * number of samples actually read.
Chris@0 127 */
Chris@0 128 size_t peek(T *destination, size_t n, int R = 0) const;
Chris@0 129
Chris@0 130 /**
Chris@0 131 * Read one sample from the buffer, if available, without
Chris@0 132 * advancing the read pointer -- i.e. a subsequent read() or
Chris@0 133 * skip() will be necessary to empty the buffer. Returns zero if
Chris@0 134 * no sample was available.
Chris@0 135 */
Chris@0 136 T peekOne(int R = 0) const;
Chris@0 137
Chris@0 138 /**
Chris@0 139 * Pretend to read n samples from the buffer, for reader R,
Chris@0 140 * without actually returning them (i.e. discard the next n
Chris@0 141 * samples). Returns the number of samples actually available for
Chris@0 142 * discarding.
Chris@0 143 */
Chris@0 144 size_t skip(size_t n, int R = 0);
Chris@0 145
Chris@0 146 /**
Chris@0 147 * Write n samples to the buffer. If insufficient space is
Chris@0 148 * available, not all samples may actually be written. Returns
Chris@0 149 * the number of samples actually written.
Chris@0 150 */
Chris@0 151 size_t write(const T *source, size_t n);
Chris@0 152
Chris@0 153 /**
Chris@0 154 * Write n zero-value samples to the buffer. If insufficient
Chris@0 155 * space is available, not all zeros may actually be written.
Chris@0 156 * Returns the number of zeroes actually written.
Chris@0 157 */
Chris@0 158 size_t zero(size_t n);
Chris@0 159
Chris@0 160 protected:
Chris@0 161 T *m_buffer;
Chris@0 162 volatile size_t m_writer;
Chris@0 163 volatile size_t m_readers[N];
Chris@0 164 size_t m_size;
Chris@0 165 bool m_mlocked;
Chris@0 166
Chris@0 167 static Scavenger<ScavengerArrayWrapper<T> > m_scavenger;
Chris@0 168
Chris@0 169 private:
Chris@0 170 RingBuffer(const RingBuffer &); // not provided
Chris@0 171 RingBuffer &operator=(const RingBuffer &); // not provided
Chris@0 172 };
Chris@0 173
Chris@0 174 template <typename T, int N>
Chris@0 175 Scavenger<ScavengerArrayWrapper<T> > RingBuffer<T, N>::m_scavenger;
Chris@0 176
Chris@0 177 template <typename T, int N>
Chris@0 178 RingBuffer<T, N>::RingBuffer(size_t n) :
Chris@0 179 m_buffer(new T[n + 1]),
Chris@0 180 m_writer(0),
Chris@0 181 m_size(n + 1),
Chris@0 182 m_mlocked(false)
Chris@0 183 {
Chris@0 184 #ifdef DEBUG_RINGBUFFER
Chris@0 185 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::RingBuffer(" << n << ")" << std::endl;
Chris@0 186 #endif
Chris@0 187
Chris@0 188 for (int i = 0; i < N; ++i) m_readers[i] = 0;
Chris@0 189
Chris@0 190 m_scavenger.scavenge();
Chris@0 191 }
Chris@0 192
Chris@0 193 template <typename T, int N>
Chris@0 194 RingBuffer<T, N>::~RingBuffer()
Chris@0 195 {
Chris@0 196 #ifdef DEBUG_RINGBUFFER
Chris@0 197 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::~RingBuffer" << std::endl;
Chris@0 198 #endif
Chris@0 199
Chris@0 200 if (m_mlocked) {
Chris@0 201 MUNLOCK((void *)m_buffer, m_size * sizeof(T));
Chris@0 202 }
Chris@0 203 delete[] m_buffer;
Chris@0 204
Chris@0 205 m_scavenger.scavenge();
Chris@0 206 }
Chris@0 207
Chris@0 208 template <typename T, int N>
Chris@0 209 size_t
Chris@0 210 RingBuffer<T, N>::getSize() const
Chris@0 211 {
Chris@0 212 #ifdef DEBUG_RINGBUFFER
Chris@0 213 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::getSize(): " << m_size-1 << std::endl;
Chris@0 214 #endif
Chris@0 215
Chris@0 216 return m_size - 1;
Chris@0 217 }
Chris@0 218
Chris@0 219 template <typename T, int N>
Chris@0 220 void
Chris@0 221 RingBuffer<T, N>::resize(size_t newSize)
Chris@0 222 {
Chris@0 223 #ifdef DEBUG_RINGBUFFER
Chris@0 224 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::resize(" << newSize << ")" << std::endl;
Chris@0 225 #endif
Chris@0 226
Chris@0 227 m_scavenger.scavenge();
Chris@0 228
Chris@0 229 if (m_mlocked) {
Chris@0 230 MUNLOCK((void *)m_buffer, m_size * sizeof(T));
Chris@0 231 }
Chris@0 232
Chris@0 233 m_scavenger.claim(new ScavengerArrayWrapper<T>(m_buffer));
Chris@0 234
Chris@0 235 reset();
Chris@0 236 m_buffer = new T[newSize + 1];
Chris@0 237 m_size = newSize + 1;
Chris@0 238
Chris@0 239 if (m_mlocked) {
Chris@0 240 if (MLOCK((void *)m_buffer, m_size * sizeof(T))) {
Chris@0 241 m_mlocked = false;
Chris@0 242 }
Chris@0 243 }
Chris@0 244 }
Chris@0 245
Chris@0 246 template <typename T, int N>
Chris@0 247 bool
Chris@0 248 RingBuffer<T, N>::mlock()
Chris@0 249 {
Chris@0 250 if (MLOCK((void *)m_buffer, m_size * sizeof(T))) return false;
Chris@0 251 m_mlocked = true;
Chris@0 252 return true;
Chris@0 253 }
Chris@0 254
Chris@0 255 template <typename T, int N>
Chris@0 256 void
Chris@0 257 RingBuffer<T, N>::reset()
Chris@0 258 {
Chris@0 259 #ifdef DEBUG_RINGBUFFER
Chris@0 260 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::reset" << std::endl;
Chris@0 261 #endif
Chris@0 262
Chris@0 263 m_writer = 0;
Chris@0 264 for (int i = 0; i < N; ++i) m_readers[i] = 0;
Chris@0 265 }
Chris@0 266
Chris@0 267 template <typename T, int N>
Chris@0 268 size_t
Chris@0 269 RingBuffer<T, N>::getReadSpace(int R) const
Chris@0 270 {
Chris@0 271 size_t writer = m_writer;
Chris@0 272 size_t reader = m_readers[R];
Chris@0 273 size_t space = 0;
Chris@0 274
Chris@0 275 if (writer > reader) space = writer - reader;
Chris@0 276 else space = ((writer + m_size) - reader) % m_size;
Chris@0 277
Chris@0 278 #ifdef DEBUG_RINGBUFFER
Chris@0 279 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::getReadSpace(" << R << "): " << space << std::endl;
Chris@0 280 #endif
Chris@0 281
Chris@0 282 return space;
Chris@0 283 }
Chris@0 284
Chris@0 285 template <typename T, int N>
Chris@0 286 size_t
Chris@0 287 RingBuffer<T, N>::getWriteSpace() const
Chris@0 288 {
Chris@0 289 size_t space = 0;
Chris@0 290 for (int i = 0; i < N; ++i) {
Chris@0 291 size_t here = (m_readers[i] + m_size - m_writer - 1) % m_size;
Chris@0 292 if (i == 0 || here < space) space = here;
Chris@0 293 }
Chris@0 294
Chris@0 295 #ifdef DEBUG_RINGBUFFER
Chris@0 296 size_t rs(getReadSpace()), rp(m_readers[0]);
Chris@0 297
Chris@0 298 std::cerr << "RingBuffer: write space " << space << ", read space "
Chris@0 299 << rs << ", total " << (space + rs) << ", m_size " << m_size << std::endl;
Chris@0 300 std::cerr << "RingBuffer: reader " << rp << ", writer " << m_writer << std::endl;
Chris@0 301 #endif
Chris@0 302
Chris@0 303 #ifdef DEBUG_RINGBUFFER
Chris@0 304 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::getWriteSpace(): " << space << std::endl;
Chris@0 305 #endif
Chris@0 306
Chris@0 307 return space;
Chris@0 308 }
Chris@0 309
Chris@0 310 template <typename T, int N>
Chris@0 311 size_t
Chris@0 312 RingBuffer<T, N>::read(T *destination, size_t n, int R)
Chris@0 313 {
Chris@0 314 #ifdef DEBUG_RINGBUFFER
Chris@0 315 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::read(dest, " << n << ", " << R << ")" << std::endl;
Chris@0 316 #endif
Chris@0 317
Chris@0 318 size_t available = getReadSpace(R);
Chris@0 319 if (n > available) {
Chris@0 320 #ifdef DEBUG_RINGBUFFER
Chris@0 321 std::cerr << "WARNING: Only " << available << " samples available"
Chris@0 322 << std::endl;
Chris@0 323 #endif
Chris@0 324 memset(destination + available, 0, (n - available) * sizeof(T));
Chris@0 325 n = available;
Chris@0 326 }
Chris@0 327 if (n == 0) return n;
Chris@0 328
Chris@0 329 size_t here = m_size - m_readers[R];
Chris@0 330 if (here >= n) {
Chris@0 331 memcpy(destination, m_buffer + m_readers[R], n * sizeof(T));
Chris@0 332 } else {
Chris@0 333 memcpy(destination, m_buffer + m_readers[R], here * sizeof(T));
Chris@0 334 memcpy(destination + here, m_buffer, (n - here) * sizeof(T));
Chris@0 335 }
Chris@0 336
Chris@0 337 m_readers[R] = (m_readers[R] + n) % m_size;
Chris@0 338
Chris@0 339 #ifdef DEBUG_RINGBUFFER
Chris@0 340 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::read: read " << n << ", reader now " << m_readers[R] << std::endl;
Chris@0 341 #endif
Chris@0 342
Chris@0 343 return n;
Chris@0 344 }
Chris@0 345
Chris@0 346 template <typename T, int N>
Chris@0 347 size_t
Chris@0 348 RingBuffer<T, N>::readAdding(T *destination, size_t n, int R)
Chris@0 349 {
Chris@0 350 #ifdef DEBUG_RINGBUFFER
Chris@0 351 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::readAdding(dest, " << n << ", " << R << ")" << std::endl;
Chris@0 352 #endif
Chris@0 353
Chris@0 354 size_t available = getReadSpace(R);
Chris@0 355 if (n > available) {
Chris@0 356 #ifdef DEBUG_RINGBUFFER
Chris@0 357 std::cerr << "WARNING: Only " << available << " samples available"
Chris@0 358 << std::endl;
Chris@0 359 #endif
Chris@0 360 n = available;
Chris@0 361 }
Chris@0 362 if (n == 0) return n;
Chris@0 363
Chris@0 364 size_t here = m_size - m_readers[R];
Chris@0 365
Chris@0 366 if (here >= n) {
Chris@0 367 for (size_t i = 0; i < n; ++i) {
Chris@0 368 destination[i] += (m_buffer + m_readers[R])[i];
Chris@0 369 }
Chris@0 370 } else {
Chris@0 371 for (size_t i = 0; i < here; ++i) {
Chris@0 372 destination[i] += (m_buffer + m_readers[R])[i];
Chris@0 373 }
Chris@0 374 for (size_t i = 0; i < (n - here); ++i) {
Chris@0 375 destination[i + here] += m_buffer[i];
Chris@0 376 }
Chris@0 377 }
Chris@0 378
Chris@0 379 m_readers[R] = (m_readers[R] + n) % m_size;
Chris@0 380 return n;
Chris@0 381 }
Chris@0 382
Chris@0 383 template <typename T, int N>
Chris@0 384 T
Chris@0 385 RingBuffer<T, N>::readOne(int R)
Chris@0 386 {
Chris@0 387 #ifdef DEBUG_RINGBUFFER
Chris@0 388 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::readOne(" << R << ")" << std::endl;
Chris@0 389 #endif
Chris@0 390
Chris@0 391 if (m_writer == m_readers[R]) {
Chris@0 392 #ifdef DEBUG_RINGBUFFER
Chris@0 393 std::cerr << "WARNING: No sample available"
Chris@0 394 << std::endl;
Chris@0 395 #endif
Chris@0 396 T t;
Chris@0 397 memset(&t, 0, sizeof(T));
Chris@0 398 return t;
Chris@0 399 }
Chris@0 400 T value = m_buffer[m_readers[R]];
Chris@0 401 if (++m_readers[R] == m_size) m_readers[R] = 0;
Chris@0 402 return value;
Chris@0 403 }
Chris@0 404
Chris@0 405 template <typename T, int N>
Chris@0 406 size_t
Chris@0 407 RingBuffer<T, N>::peek(T *destination, size_t n, int R) const
Chris@0 408 {
Chris@0 409 #ifdef DEBUG_RINGBUFFER
Chris@0 410 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::peek(dest, " << n << ", " << R << ")" << std::endl;
Chris@0 411 #endif
Chris@0 412
Chris@0 413 size_t available = getReadSpace(R);
Chris@0 414 if (n > available) {
Chris@0 415 #ifdef DEBUG_RINGBUFFER
Chris@0 416 std::cerr << "WARNING: Only " << available << " samples available"
Chris@0 417 << std::endl;
Chris@0 418 #endif
Chris@0 419 memset(destination + available, 0, (n - available) * sizeof(T));
Chris@0 420 n = available;
Chris@0 421 }
Chris@0 422 if (n == 0) return n;
Chris@0 423
Chris@0 424 size_t here = m_size - m_readers[R];
Chris@0 425 if (here >= n) {
Chris@0 426 memcpy(destination, m_buffer + m_readers[R], n * sizeof(T));
Chris@0 427 } else {
Chris@0 428 memcpy(destination, m_buffer + m_readers[R], here * sizeof(T));
Chris@0 429 memcpy(destination + here, m_buffer, (n - here) * sizeof(T));
Chris@0 430 }
Chris@0 431
Chris@0 432 #ifdef DEBUG_RINGBUFFER
Chris@0 433 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::peek: read " << n << std::endl;
Chris@0 434 #endif
Chris@0 435
Chris@0 436 return n;
Chris@0 437 }
Chris@0 438
Chris@0 439 template <typename T, int N>
Chris@0 440 T
Chris@0 441 RingBuffer<T, N>::peekOne(int R) const
Chris@0 442 {
Chris@0 443 #ifdef DEBUG_RINGBUFFER
Chris@0 444 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::peek(" << R << ")" << std::endl;
Chris@0 445 #endif
Chris@0 446
Chris@0 447 if (m_writer == m_readers[R]) {
Chris@0 448 #ifdef DEBUG_RINGBUFFER
Chris@0 449 std::cerr << "WARNING: No sample available"
Chris@0 450 << std::endl;
Chris@0 451 #endif
Chris@0 452 T t;
Chris@0 453 memset(&t, 0, sizeof(T));
Chris@0 454 return t;
Chris@0 455 }
Chris@0 456 T value = m_buffer[m_readers[R]];
Chris@0 457 return value;
Chris@0 458 }
Chris@0 459
Chris@0 460 template <typename T, int N>
Chris@0 461 size_t
Chris@0 462 RingBuffer<T, N>::skip(size_t n, int R)
Chris@0 463 {
Chris@0 464 #ifdef DEBUG_RINGBUFFER
Chris@0 465 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::skip(" << n << ", " << R << ")" << std::endl;
Chris@0 466 #endif
Chris@0 467
Chris@0 468 size_t available = getReadSpace(R);
Chris@0 469 if (n > available) {
Chris@0 470 #ifdef DEBUG_RINGBUFFER
Chris@0 471 std::cerr << "WARNING: Only " << available << " samples available"
Chris@0 472 << std::endl;
Chris@0 473 #endif
Chris@0 474 n = available;
Chris@0 475 }
Chris@0 476 if (n == 0) return n;
Chris@0 477 m_readers[R] = (m_readers[R] + n) % m_size;
Chris@0 478 return n;
Chris@0 479 }
Chris@0 480
Chris@0 481 template <typename T, int N>
Chris@0 482 size_t
Chris@0 483 RingBuffer<T, N>::write(const T *source, size_t n)
Chris@0 484 {
Chris@0 485 #ifdef DEBUG_RINGBUFFER
Chris@0 486 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::write(" << n << ")" << std::endl;
Chris@0 487 #endif
Chris@0 488
Chris@0 489 size_t available = getWriteSpace();
Chris@0 490 if (n > available) {
Chris@0 491 #ifdef DEBUG_RINGBUFFER
Chris@0 492 std::cerr << "WARNING: Only room for " << available << " samples"
Chris@0 493 << std::endl;
Chris@0 494 #endif
Chris@0 495 n = available;
Chris@0 496 }
Chris@0 497 if (n == 0) return n;
Chris@0 498
Chris@0 499 size_t here = m_size - m_writer;
Chris@0 500 if (here >= n) {
Chris@0 501 memcpy(m_buffer + m_writer, source, n * sizeof(T));
Chris@0 502 } else {
Chris@0 503 memcpy(m_buffer + m_writer, source, here * sizeof(T));
Chris@0 504 memcpy(m_buffer, source + here, (n - here) * sizeof(T));
Chris@0 505 }
Chris@0 506
Chris@0 507 m_writer = (m_writer + n) % m_size;
Chris@0 508
Chris@0 509 #ifdef DEBUG_RINGBUFFER
Chris@0 510 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::write: wrote " << n << ", writer now " << m_writer << std::endl;
Chris@0 511 #endif
Chris@0 512
Chris@0 513 return n;
Chris@0 514 }
Chris@0 515
Chris@0 516 template <typename T, int N>
Chris@0 517 size_t
Chris@0 518 RingBuffer<T, N>::zero(size_t n)
Chris@0 519 {
Chris@0 520 #ifdef DEBUG_RINGBUFFER
Chris@0 521 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::zero(" << n << ")" << std::endl;
Chris@0 522 #endif
Chris@0 523
Chris@0 524 size_t available = getWriteSpace();
Chris@0 525 if (n > available) {
Chris@0 526 #ifdef DEBUG_RINGBUFFER
Chris@0 527 std::cerr << "WARNING: Only room for " << available << " samples"
Chris@0 528 << std::endl;
Chris@0 529 #endif
Chris@0 530 n = available;
Chris@0 531 }
Chris@0 532 if (n == 0) return n;
Chris@0 533
Chris@0 534 size_t here = m_size - m_writer;
Chris@0 535 if (here >= n) {
Chris@0 536 memset(m_buffer + m_writer, 0, n * sizeof(T));
Chris@0 537 } else {
Chris@0 538 memset(m_buffer + m_writer, 0, here * sizeof(T));
Chris@0 539 memset(m_buffer, 0, (n - here) * sizeof(T));
Chris@0 540 }
Chris@0 541
Chris@0 542 m_writer = (m_writer + n) % m_size;
Chris@0 543 return n;
Chris@0 544 }
Chris@0 545
Chris@0 546 #endif // _RINGBUFFER_H_