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1 /* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */
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2
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3 /*
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4 Sonic Visualiser
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5 An audio file viewer and annotation editor.
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6 Centre for Digital Music, Queen Mary, University of London.
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7
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8 This program is free software; you can redistribute it and/or
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9 modify it under the terms of the GNU General Public License as
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10 published by the Free Software Foundation; either version 2 of the
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11 License, or (at your option) any later version. See the file
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12 COPYING included with this distribution for more information.
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13 */
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14
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15 /*
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16 This is a modified version of a source file from the
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17 Rosegarden MIDI and audio sequencer and notation editor.
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18 This file copyright 2000-2006 Chris Cannam.
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19 */
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20
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21 #ifndef _RINGBUFFER_H_
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22 #define _RINGBUFFER_H_
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23
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24 #include <sys/types.h>
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25
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26 #include "system/System.h"
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27 #include "Scavenger.h"
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28
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29 #include <cstring> // memcpy, memset &c
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30
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31 //#define DEBUG_RINGBUFFER 1
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32
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33 #ifdef DEBUG_RINGBUFFER
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34 #include <iostream>
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35 #endif
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36
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37 /**
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38 * RingBuffer implements a lock-free ring buffer for one writer and N
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39 * readers, that is to be used to store a sample type T.
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40 *
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41 * For efficiency, RingBuffer frequently initialises samples by
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42 * writing zeroes into their memory space, so T should normally be a
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43 * simple type that can safely be set to zero using memset.
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44 */
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45
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46 template <typename T, int N = 1>
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47 class RingBuffer
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48 {
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49 public:
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50 /**
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51 * Create a ring buffer with room to write n samples.
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52 *
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53 * Note that the internal storage size will actually be n+1
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54 * samples, as one element is unavailable for administrative
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55 * reasons. Since the ring buffer performs best if its size is a
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56 * power of two, this means n should ideally be some power of two
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57 * minus one.
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58 */
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59 RingBuffer(size_t n);
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60
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61 virtual ~RingBuffer();
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62
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63 /**
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64 * Return the total capacity of the ring buffer in samples.
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65 * (This is the argument n passed to the constructor.)
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66 */
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67 size_t getSize() const;
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68
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69 /**
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70 * Resize the ring buffer. This also empties it. Actually swaps
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71 * in a new, larger buffer; the old buffer is scavenged after a
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72 * seemly delay. Should be called from the write thread.
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73 */
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74 void resize(size_t newSize);
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75
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76 /**
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77 * Lock the ring buffer into physical memory. Returns true
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78 * for success.
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79 */
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80 bool mlock();
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81
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82 /**
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83 * Reset read and write pointers, thus emptying the buffer.
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84 * Should be called from the write thread.
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85 */
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86 void reset();
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87
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88 /**
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89 * Return the amount of data available for reading by reader R, in
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90 * samples.
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91 */
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92 size_t getReadSpace(int R = 0) const;
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93
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94 /**
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95 * Return the amount of space available for writing, in samples.
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96 */
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97 size_t getWriteSpace() const;
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98
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99 /**
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100 * Read n samples from the buffer, for reader R. If fewer than n
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101 * are available, the remainder will be zeroed out. Returns the
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102 * number of samples actually read.
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103 */
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104 size_t read(T *destination, size_t n, int R = 0);
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105
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106 /**
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107 * Read n samples from the buffer, for reader R, adding them to
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108 * the destination. If fewer than n are available, the remainder
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109 * will be left alone. Returns the number of samples actually
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110 * read.
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111 */
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112 size_t readAdding(T *destination, size_t n, int R = 0);
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113
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114 /**
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115 * Read one sample from the buffer, for reader R. If no sample is
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116 * available, this will silently return zero. Calling this
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117 * repeatedly is obviously slower than calling read once, but it
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118 * may be good enough if you don't want to allocate a buffer to
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119 * read into.
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120 */
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121 T readOne(int R = 0);
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122
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123 /**
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124 * Read n samples from the buffer, if available, for reader R,
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125 * without advancing the read pointer -- i.e. a subsequent read()
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126 * or skip() will be necessary to empty the buffer. If fewer than
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127 * n are available, the remainder will be zeroed out. Returns the
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128 * number of samples actually read.
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129 */
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130 size_t peek(T *destination, size_t n, int R = 0) const;
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131
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132 /**
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133 * Read one sample from the buffer, if available, without
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134 * advancing the read pointer -- i.e. a subsequent read() or
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135 * skip() will be necessary to empty the buffer. Returns zero if
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136 * no sample was available.
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137 */
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138 T peekOne(int R = 0) const;
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139
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140 /**
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141 * Pretend to read n samples from the buffer, for reader R,
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142 * without actually returning them (i.e. discard the next n
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143 * samples). Returns the number of samples actually available for
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144 * discarding.
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145 */
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146 size_t skip(size_t n, int R = 0);
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147
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148 /**
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149 * Write n samples to the buffer. If insufficient space is
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150 * available, not all samples may actually be written. Returns
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151 * the number of samples actually written.
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152 */
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153 size_t write(const T *source, size_t n);
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154
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155 /**
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156 * Write n zero-value samples to the buffer. If insufficient
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157 * space is available, not all zeros may actually be written.
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158 * Returns the number of zeroes actually written.
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159 */
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160 size_t zero(size_t n);
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161
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162 protected:
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163 T *m_buffer;
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164 bool m_mlocked;
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165 size_t m_writer;
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166 size_t *m_readers;
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167 size_t m_size;
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168 size_t m_spare;
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169
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170 static Scavenger<ScavengerArrayWrapper<T> > m_scavenger;
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171
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172 private:
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173 RingBuffer(const RingBuffer &); // not provided
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174 RingBuffer &operator=(const RingBuffer &); // not provided
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175 };
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176
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177 template <typename T, int N>
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178 Scavenger<ScavengerArrayWrapper<T> > RingBuffer<T, N>::m_scavenger;
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179
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180 template <typename T, int N>
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181 RingBuffer<T, N>::RingBuffer(size_t n) :
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182 m_buffer(new T[n + 1]),
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183 m_mlocked(false),
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184 m_writer(0),
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185 m_readers(new size_t[N]),
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186 m_size(n + 1)
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187 {
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188 #ifdef DEBUG_RINGBUFFER
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189 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::RingBuffer(" << n << ")" << std::endl;
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190 #endif
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191 /*
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192 std::cerr << "note: sizeof(RingBuffer<T,N> = " << sizeof(RingBuffer<T,N>) << ")" << std::endl;
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193
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194 std::cerr << "this = " << this << std::endl;
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195 std::cerr << "&m_buffer = " << &m_buffer << std::endl;
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196 std::cerr << "&m_mlocked = " << &m_mlocked << std::endl;
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197 std::cerr << "&m_writer = " << &m_writer << std::endl;
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198 std::cerr << "&m_readers = " << &m_readers << std::endl;
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199 std::cerr << "&m_size = " << &m_size << std::endl;
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200 */
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201 for (int i = 0; i < N; ++i) m_readers[i] = 0;
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202
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203 m_scavenger.scavenge();
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204 }
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205
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206 template <typename T, int N>
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207 RingBuffer<T, N>::~RingBuffer()
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208 {
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209 #ifdef DEBUG_RINGBUFFER
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210 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::~RingBuffer" << std::endl;
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211 #endif
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212
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213 delete[] m_readers;
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214
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215 if (m_mlocked) {
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216 MUNLOCK((void *)m_buffer, m_size * sizeof(T));
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217 }
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218 delete[] m_buffer;
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219
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220 m_scavenger.scavenge();
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221 }
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222
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223 template <typename T, int N>
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224 size_t
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225 RingBuffer<T, N>::getSize() const
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226 {
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227 #ifdef DEBUG_RINGBUFFER
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228 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::getSize(): " << m_size-1 << std::endl;
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229 #endif
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230
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231 return m_size - 1;
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232 }
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233
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234 template <typename T, int N>
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235 void
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236 RingBuffer<T, N>::resize(size_t newSize)
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237 {
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238 #ifdef DEBUG_RINGBUFFER
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239 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::resize(" << newSize << ")" << std::endl;
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240 #endif
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241
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242 m_scavenger.scavenge();
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243
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244 if (m_mlocked) {
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245 MUNLOCK((void *)m_buffer, m_size * sizeof(T));
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246 }
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247
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248 m_scavenger.claim(new ScavengerArrayWrapper<T>(m_buffer));
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249
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250 reset();
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251 m_buffer = new T[newSize + 1];
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252 m_size = newSize + 1;
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253
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254 if (m_mlocked) {
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255 if (MLOCK((void *)m_buffer, m_size * sizeof(T))) {
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256 m_mlocked = false;
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257 }
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258 }
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259 }
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260
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261 template <typename T, int N>
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262 bool
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263 RingBuffer<T, N>::mlock()
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264 {
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265 if (MLOCK((void *)m_buffer, m_size * sizeof(T))) return false;
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266 m_mlocked = true;
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267 return true;
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268 }
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269
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270 template <typename T, int N>
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271 void
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272 RingBuffer<T, N>::reset()
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273 {
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274 #ifdef DEBUG_RINGBUFFER
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275 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::reset" << std::endl;
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276 #endif
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277
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278 m_writer = 0;
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279 for (int i = 0; i < N; ++i) m_readers[i] = 0;
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280 }
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281
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282 template <typename T, int N>
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283 size_t
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284 RingBuffer<T, N>::getReadSpace(int R) const
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285 {
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286 size_t writer = m_writer;
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287 size_t reader = m_readers[R];
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288 size_t space = 0;
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289
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290 if (writer > reader) space = writer - reader;
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291 else space = ((writer + m_size) - reader) % m_size;
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292
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293 #ifdef DEBUG_RINGBUFFER
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294 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::getReadSpace(" << R << "): " << space << std::endl;
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295 #endif
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296
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297 return space;
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298 }
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299
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300 template <typename T, int N>
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301 size_t
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302 RingBuffer<T, N>::getWriteSpace() const
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303 {
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304 size_t space = 0;
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305 for (int i = 0; i < N; ++i) {
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306 size_t here = (m_readers[i] + m_size - m_writer - 1) % m_size;
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307 if (i == 0 || here < space) space = here;
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308 }
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309
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310 #ifdef DEBUG_RINGBUFFER
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311 size_t rs(getReadSpace()), rp(m_readers[0]);
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312
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313 std::cerr << "RingBuffer: write space " << space << ", read space "
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314 << rs << ", total " << (space + rs) << ", m_size " << m_size << std::endl;
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315 std::cerr << "RingBuffer: reader " << rp << ", writer " << m_writer << std::endl;
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316 #endif
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317
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318 #ifdef DEBUG_RINGBUFFER
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319 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::getWriteSpace(): " << space << std::endl;
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320 #endif
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321
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322 return space;
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323 }
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324
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325 template <typename T, int N>
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326 size_t
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327 RingBuffer<T, N>::read(T *destination, size_t n, int R)
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328 {
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329 #ifdef DEBUG_RINGBUFFER
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330 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::read(dest, " << n << ", " << R << ")" << std::endl;
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331 #endif
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332
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333 size_t available = getReadSpace(R);
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334 if (n > available) {
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335 #ifdef DEBUG_RINGBUFFER
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336 std::cerr << "WARNING: Only " << available << " samples available"
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337 << std::endl;
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338 #endif
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339 memset(destination + available, 0, (n - available) * sizeof(T));
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340 n = available;
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341 }
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342 if (n == 0) return n;
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343
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344 size_t here = m_size - m_readers[R];
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345 if (here >= n) {
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346 memcpy(destination, m_buffer + m_readers[R], n * sizeof(T));
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347 } else {
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348 memcpy(destination, m_buffer + m_readers[R], here * sizeof(T));
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349 memcpy(destination + here, m_buffer, (n - here) * sizeof(T));
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350 }
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351
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352 m_readers[R] = (m_readers[R] + n) % m_size;
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353
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354 #ifdef DEBUG_RINGBUFFER
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355 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::read: read " << n << ", reader now " << m_readers[R] << std::endl;
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356 #endif
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357
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358 return n;
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359 }
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360
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361 template <typename T, int N>
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362 size_t
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363 RingBuffer<T, N>::readAdding(T *destination, size_t n, int R)
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364 {
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365 #ifdef DEBUG_RINGBUFFER
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366 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::readAdding(dest, " << n << ", " << R << ")" << std::endl;
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367 #endif
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368
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369 size_t available = getReadSpace(R);
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370 if (n > available) {
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371 #ifdef DEBUG_RINGBUFFER
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372 std::cerr << "WARNING: Only " << available << " samples available"
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373 << std::endl;
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374 #endif
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375 n = available;
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Chris@0
|
376 }
|
Chris@0
|
377 if (n == 0) return n;
|
Chris@0
|
378
|
Chris@0
|
379 size_t here = m_size - m_readers[R];
|
Chris@0
|
380
|
Chris@0
|
381 if (here >= n) {
|
Chris@0
|
382 for (size_t i = 0; i < n; ++i) {
|
Chris@0
|
383 destination[i] += (m_buffer + m_readers[R])[i];
|
Chris@0
|
384 }
|
Chris@0
|
385 } else {
|
Chris@0
|
386 for (size_t i = 0; i < here; ++i) {
|
Chris@0
|
387 destination[i] += (m_buffer + m_readers[R])[i];
|
Chris@0
|
388 }
|
Chris@0
|
389 for (size_t i = 0; i < (n - here); ++i) {
|
Chris@0
|
390 destination[i + here] += m_buffer[i];
|
Chris@0
|
391 }
|
Chris@0
|
392 }
|
Chris@0
|
393
|
Chris@0
|
394 m_readers[R] = (m_readers[R] + n) % m_size;
|
Chris@0
|
395 return n;
|
Chris@0
|
396 }
|
Chris@0
|
397
|
Chris@0
|
398 template <typename T, int N>
|
Chris@0
|
399 T
|
Chris@0
|
400 RingBuffer<T, N>::readOne(int R)
|
Chris@0
|
401 {
|
Chris@0
|
402 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
403 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::readOne(" << R << ")" << std::endl;
|
Chris@0
|
404 #endif
|
Chris@0
|
405
|
Chris@0
|
406 if (m_writer == m_readers[R]) {
|
Chris@0
|
407 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
408 std::cerr << "WARNING: No sample available"
|
Chris@0
|
409 << std::endl;
|
Chris@0
|
410 #endif
|
Chris@0
|
411 T t;
|
Chris@0
|
412 memset(&t, 0, sizeof(T));
|
Chris@0
|
413 return t;
|
Chris@0
|
414 }
|
Chris@0
|
415 T value = m_buffer[m_readers[R]];
|
Chris@0
|
416 if (++m_readers[R] == m_size) m_readers[R] = 0;
|
Chris@0
|
417 return value;
|
Chris@0
|
418 }
|
Chris@0
|
419
|
Chris@0
|
420 template <typename T, int N>
|
Chris@0
|
421 size_t
|
Chris@0
|
422 RingBuffer<T, N>::peek(T *destination, size_t n, int R) const
|
Chris@0
|
423 {
|
Chris@0
|
424 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
425 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::peek(dest, " << n << ", " << R << ")" << std::endl;
|
Chris@0
|
426 #endif
|
Chris@0
|
427
|
Chris@0
|
428 size_t available = getReadSpace(R);
|
Chris@0
|
429 if (n > available) {
|
Chris@0
|
430 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
431 std::cerr << "WARNING: Only " << available << " samples available"
|
Chris@0
|
432 << std::endl;
|
Chris@0
|
433 #endif
|
Chris@0
|
434 memset(destination + available, 0, (n - available) * sizeof(T));
|
Chris@0
|
435 n = available;
|
Chris@0
|
436 }
|
Chris@0
|
437 if (n == 0) return n;
|
Chris@0
|
438
|
Chris@0
|
439 size_t here = m_size - m_readers[R];
|
Chris@0
|
440 if (here >= n) {
|
Chris@0
|
441 memcpy(destination, m_buffer + m_readers[R], n * sizeof(T));
|
Chris@0
|
442 } else {
|
Chris@0
|
443 memcpy(destination, m_buffer + m_readers[R], here * sizeof(T));
|
Chris@0
|
444 memcpy(destination + here, m_buffer, (n - here) * sizeof(T));
|
Chris@0
|
445 }
|
Chris@0
|
446
|
Chris@0
|
447 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
448 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::peek: read " << n << std::endl;
|
Chris@0
|
449 #endif
|
Chris@0
|
450
|
Chris@0
|
451 return n;
|
Chris@0
|
452 }
|
Chris@0
|
453
|
Chris@0
|
454 template <typename T, int N>
|
Chris@0
|
455 T
|
Chris@0
|
456 RingBuffer<T, N>::peekOne(int R) const
|
Chris@0
|
457 {
|
Chris@0
|
458 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
459 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::peek(" << R << ")" << std::endl;
|
Chris@0
|
460 #endif
|
Chris@0
|
461
|
Chris@0
|
462 if (m_writer == m_readers[R]) {
|
Chris@0
|
463 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
464 std::cerr << "WARNING: No sample available"
|
Chris@0
|
465 << std::endl;
|
Chris@0
|
466 #endif
|
Chris@0
|
467 T t;
|
Chris@0
|
468 memset(&t, 0, sizeof(T));
|
Chris@0
|
469 return t;
|
Chris@0
|
470 }
|
Chris@0
|
471 T value = m_buffer[m_readers[R]];
|
Chris@0
|
472 return value;
|
Chris@0
|
473 }
|
Chris@0
|
474
|
Chris@0
|
475 template <typename T, int N>
|
Chris@0
|
476 size_t
|
Chris@0
|
477 RingBuffer<T, N>::skip(size_t n, int R)
|
Chris@0
|
478 {
|
Chris@0
|
479 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
480 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::skip(" << n << ", " << R << ")" << std::endl;
|
Chris@0
|
481 #endif
|
Chris@0
|
482
|
Chris@0
|
483 size_t available = getReadSpace(R);
|
Chris@0
|
484 if (n > available) {
|
Chris@0
|
485 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
486 std::cerr << "WARNING: Only " << available << " samples available"
|
Chris@0
|
487 << std::endl;
|
Chris@0
|
488 #endif
|
Chris@0
|
489 n = available;
|
Chris@0
|
490 }
|
Chris@0
|
491 if (n == 0) return n;
|
Chris@0
|
492 m_readers[R] = (m_readers[R] + n) % m_size;
|
Chris@0
|
493 return n;
|
Chris@0
|
494 }
|
Chris@0
|
495
|
Chris@0
|
496 template <typename T, int N>
|
Chris@0
|
497 size_t
|
Chris@0
|
498 RingBuffer<T, N>::write(const T *source, size_t n)
|
Chris@0
|
499 {
|
Chris@0
|
500 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
501 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::write(" << n << ")" << std::endl;
|
Chris@0
|
502 #endif
|
Chris@0
|
503
|
Chris@0
|
504 size_t available = getWriteSpace();
|
Chris@0
|
505 if (n > available) {
|
Chris@0
|
506 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
507 std::cerr << "WARNING: Only room for " << available << " samples"
|
Chris@0
|
508 << std::endl;
|
Chris@0
|
509 #endif
|
Chris@0
|
510 n = available;
|
Chris@0
|
511 }
|
Chris@0
|
512 if (n == 0) return n;
|
Chris@0
|
513
|
Chris@0
|
514 size_t here = m_size - m_writer;
|
Chris@0
|
515 if (here >= n) {
|
Chris@0
|
516 memcpy(m_buffer + m_writer, source, n * sizeof(T));
|
Chris@0
|
517 } else {
|
Chris@0
|
518 memcpy(m_buffer + m_writer, source, here * sizeof(T));
|
Chris@0
|
519 memcpy(m_buffer, source + here, (n - here) * sizeof(T));
|
Chris@0
|
520 }
|
Chris@0
|
521
|
Chris@0
|
522 m_writer = (m_writer + n) % m_size;
|
Chris@0
|
523
|
Chris@0
|
524 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
525 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::write: wrote " << n << ", writer now " << m_writer << std::endl;
|
Chris@0
|
526 #endif
|
Chris@0
|
527
|
Chris@0
|
528 return n;
|
Chris@0
|
529 }
|
Chris@0
|
530
|
Chris@0
|
531 template <typename T, int N>
|
Chris@0
|
532 size_t
|
Chris@0
|
533 RingBuffer<T, N>::zero(size_t n)
|
Chris@0
|
534 {
|
Chris@0
|
535 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
536 std::cerr << "RingBuffer<T," << N << ">[" << this << "]::zero(" << n << ")" << std::endl;
|
Chris@0
|
537 #endif
|
Chris@0
|
538
|
Chris@0
|
539 size_t available = getWriteSpace();
|
Chris@0
|
540 if (n > available) {
|
Chris@0
|
541 #ifdef DEBUG_RINGBUFFER
|
Chris@0
|
542 std::cerr << "WARNING: Only room for " << available << " samples"
|
Chris@0
|
543 << std::endl;
|
Chris@0
|
544 #endif
|
Chris@0
|
545 n = available;
|
Chris@0
|
546 }
|
Chris@0
|
547 if (n == 0) return n;
|
Chris@0
|
548
|
Chris@0
|
549 size_t here = m_size - m_writer;
|
Chris@0
|
550 if (here >= n) {
|
Chris@0
|
551 memset(m_buffer + m_writer, 0, n * sizeof(T));
|
Chris@0
|
552 } else {
|
Chris@0
|
553 memset(m_buffer + m_writer, 0, here * sizeof(T));
|
Chris@0
|
554 memset(m_buffer, 0, (n - here) * sizeof(T));
|
Chris@0
|
555 }
|
Chris@0
|
556
|
Chris@0
|
557 m_writer = (m_writer + n) % m_size;
|
Chris@0
|
558 return n;
|
Chris@0
|
559 }
|
Chris@0
|
560
|
Chris@0
|
561 #endif // _RINGBUFFER_H_
|