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1 // Copyright (c) 2002-2009 Nokia Corporation and/or its subsidiary(-ies). |
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2 // All rights reserved. |
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3 // This component and the accompanying materials are made available |
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4 // under the terms of "Eclipse Public License v1.0" |
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5 // which accompanies this distribution, and is available |
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6 // at the URL "http://www.eclipse.org/legal/epl-v10.html". |
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7 // |
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8 // Initial Contributors: |
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9 // Nokia Corporation - initial contribution. |
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10 // |
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11 // Contributors: |
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12 // |
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13 // Description: |
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14 // |
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15 |
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16 #include "MmfUtilities.h" |
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17 #include "mmfutilitiespriv.h" |
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18 #include "mmf/utils/rateconvert.h" |
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19 |
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20 const TInt KMaxInt16Bit = 65536 ; //Maximum for a 16bit int |
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21 |
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22 EXPORT_C CMMFChannelAndSampleRateConverterFactory::~CMMFChannelAndSampleRateConverterFactory() |
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23 { |
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24 delete iConverter; |
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25 } |
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26 |
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27 |
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28 EXPORT_C CMMFChannelAndSampleRateConverter* CMMFChannelAndSampleRateConverterFactory::CreateConverterL(TInt aFromRate,TInt aFromChannels, |
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29 TInt aToRate,TInt aToChannels) |
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30 { |
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31 if(aFromRate<0 || aFromChannels<0 || aToRate<0 || aToChannels<0) |
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32 { |
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33 User::Leave(KErrArgument); |
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34 } |
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35 |
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36 iFromRate=aFromRate; |
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37 iToRate=aToRate; |
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38 iFromChannels=aFromChannels; |
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39 iToChannels=aToChannels; |
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40 return CreateConverterL(); |
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41 } |
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42 |
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43 EXPORT_C CMMFChannelAndSampleRateConverter* CMMFChannelAndSampleRateConverterFactory::CreateConverterL() |
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44 { |
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45 if (iConverter |
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46 &&(iFromRate==iConverter->iFromRate) |
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47 &&(iToRate==iConverter->iToRate) |
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48 &&(iFromChannels==iConverter->iFromChannels) |
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49 &&(iToChannels==iConverter->iToChannels)) |
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50 return iConverter; |
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51 |
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52 delete iConverter; |
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53 iConverter=NULL; |
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54 |
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55 iConverter = CMMFForwardingChannelAndSampleRateConverter::NewL(iFromRate, iFromChannels, iToRate, iToChannels); |
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56 |
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57 return iConverter; |
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58 } |
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59 |
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60 // SetRates kept for BC reasons - populates publically visible properties |
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61 |
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62 void CMMFChannelAndSampleRateConverter::SetRates(TInt aFromRate,TInt aFromChannels, |
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63 TInt aToRate,TInt aToChannels) |
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64 { |
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65 iFromRate=aFromRate; |
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66 iToRate=aToRate; |
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67 iFromChannels=aFromChannels; |
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68 iToChannels=aToChannels; |
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69 |
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70 iRatio = (TReal)aFromRate / (TReal)aToRate; |
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71 |
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72 TInt quotient = (TInt)iRatio; |
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73 TReal remainder = iRatio - (TReal)quotient; |
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74 iFraction = quotient * KMaxInt16Bit + (TInt32)(remainder * KMaxInt16Bit); |
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75 |
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76 Reset(); |
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77 } |
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78 |
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79 // |
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80 // Forwarding converter - adapt to the implementation in audioutils. |
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81 // |
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82 |
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83 CMMFForwardingChannelAndSampleRateConverter* CMMFForwardingChannelAndSampleRateConverter::NewL(TInt aFromRate, |
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84 TInt aFromChannels, |
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85 TInt aToRate, |
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86 TInt aToChannels) |
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87 { |
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88 CMMFForwardingChannelAndSampleRateConverter* self = new (ELeave) CMMFForwardingChannelAndSampleRateConverter; |
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89 CleanupStack::PushL(self); |
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90 self->ConstructL(aFromRate,aFromChannels,aToRate,aToChannels); |
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91 CleanupStack::Pop(self); |
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92 return self; |
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93 } |
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94 |
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95 CMMFForwardingChannelAndSampleRateConverter::CMMFForwardingChannelAndSampleRateConverter() |
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96 { |
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97 } |
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98 |
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99 void CMMFForwardingChannelAndSampleRateConverter::ConstructL(TInt aFromRate, |
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100 TInt aFromChannels, |
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101 TInt aToRate, |
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102 TInt aToChannels) |
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103 { |
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104 SetRates(aFromRate, aFromChannels, aToRate, aToChannels); |
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105 // delib called before iRealConverter created. Reset() will be no-op. |
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106 // this is preserved solely to keep BC with original API that exposes too much |
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107 iRealConverter = CChannelAndSampleRateConverter::CreateL(aFromRate,aFromChannels,aToRate,aToChannels); |
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108 } |
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109 |
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110 CMMFForwardingChannelAndSampleRateConverter::~CMMFForwardingChannelAndSampleRateConverter() |
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111 { |
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112 delete iRealConverter; |
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113 } |
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114 |
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115 TInt CMMFForwardingChannelAndSampleRateConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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116 { |
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117 TInt ignore = iRealConverter->Convert(aSrcBuffer.Data(), aDstBuffer.Data()); |
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118 // CChannelAndSampleRateConverter returns the source length converted |
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119 // while the old API wants the destination generated, so change. |
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120 TInt result = aDstBuffer.Data().Length(); |
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121 return result; |
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122 } |
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123 |
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124 void CMMFForwardingChannelAndSampleRateConverter::Reset() |
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125 { |
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126 // need to check iRealConverter created. Won't be true during construction |
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127 if (iRealConverter) |
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128 { |
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129 iRealConverter->Reset(); |
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130 } |
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131 } |
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132 |
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133 TUint CMMFForwardingChannelAndSampleRateConverter::MaxConvertBufferSize(TUint aSrcBufferSize) |
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134 { |
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135 return TUint(iRealConverter->MaxConvertBufferSize(aSrcBufferSize)); |
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136 } |
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137 |
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138 // |
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139 // Old derivatives of CMMFChannelAndSampleRateConverter. These were previously returned by |
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140 // CreateConverterL(). Kept for BC, but no longer used by main code. |
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141 // |
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142 |
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143 TInt CMMFStereoToStereoRateConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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144 { |
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145 TInt32* aSrc = (TInt32*)aSrcBuffer.Data().Ptr(); |
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146 TInt32* aDst = (TInt32*)aDstBuffer.Data().Ptr(); |
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147 TUint aSamples = aSrcBuffer.Data().Length()/4; |
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148 |
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149 TInt32* src = aSrc; |
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150 TInt32* dst = aDst; |
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151 TInt32* limit=src+aSamples; |
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152 |
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153 // add left over from last buffer |
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154 TUint index = iIndex; |
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155 src = aSrc + (index>>16); |
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156 |
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157 while(src<limit) |
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158 { |
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159 *dst++ = *src; |
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160 index += iFraction; |
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161 src = aSrc + (index>>16); |
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162 } |
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163 |
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164 // get amount by which index exceeded end of buffer |
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165 // so that we can add it back to start of next buffer |
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166 iIndex = index - (aSamples << 16); |
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167 |
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168 // return sample byte count and setup output buffer |
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169 TInt length = (dst-(TInt32*)aDst)*4; //dealing with 32bit values so multiply by 4 for bytes |
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170 aDstBuffer.Data().SetLength(length); //adjust length of destination buffer |
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171 return (length); |
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172 } |
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173 |
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174 TInt CMMFMonoToStereoRateConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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175 { |
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176 TInt16* aSrc = (TInt16*)aSrcBuffer.Data().Ptr(); |
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177 TInt16* aDst = (TInt16*)aDstBuffer.Data().Ptr(); |
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178 TUint aSamples = aSrcBuffer.Data().Length()/2; |
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179 |
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180 TInt16* src = aSrc; |
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181 TInt16* dst = aDst; |
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182 TInt16* limit=aSrc+aSamples; |
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183 |
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184 // add left over from last buffer |
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185 TUint index = iIndex; |
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186 src = aSrc + (index>>16); |
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187 |
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188 while(src<limit) |
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189 { |
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190 *dst++ = *src; |
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191 *dst++ = *src; |
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192 index += iFraction; |
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193 src = aSrc + (index>>16); |
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194 } |
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195 |
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196 // get amount by which index exceeded end of buffer |
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197 // so that we can add it back to start of next buffer |
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198 iIndex = index - (aSamples << 16); |
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199 |
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200 // return sample byte count and setup output buffer |
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201 TInt length = (dst-aDst) * 2; // size in bytes |
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202 aDstBuffer.Data().SetLength(length); //adjust length of destination buffer |
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203 return (length); |
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204 } |
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205 |
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206 |
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207 TUint CMMFMonoToStereoRateConverter::MaxConvertBufferSize(TUint aSrcBufferSize) |
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208 { |
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209 return aSrcBufferSize*2; |
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210 } |
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211 |
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212 |
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213 |
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214 TInt CMMFMonoToMonoRateConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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215 { |
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216 TInt16* aSrc = (TInt16*)aSrcBuffer.Data().Ptr(); |
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217 TInt16* aDst = (TInt16*)aDstBuffer.Data().Ptr(); |
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218 TUint aSamples = aSrcBuffer.Data().Length()/2; |
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219 |
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220 TInt16* src = aSrc; |
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221 TInt16* dst = aDst; |
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222 TInt16* limit=aSrc+aSamples; //*2 ??? |
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223 |
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224 // add left over from last buffer |
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225 TUint index = iIndex; |
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226 src = aSrc + (index>>16); |
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227 |
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228 while(src<limit) |
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229 { |
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230 *dst++ = *src; |
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231 index += iFraction; |
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232 src = aSrc + (index>>16); |
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233 } |
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234 |
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235 // get amount by which index exceeded end of buffer |
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236 // so that we can add it back to start of next buffer |
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237 iIndex = index - (aSamples << 16); |
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238 |
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239 // return sample byte count and setup output buffer |
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240 TInt length = (dst-aDst)*2; // size in bytes |
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241 aDstBuffer.Data().SetLength(length); //adjust length of destination buffer |
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242 return (length); |
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243 } |
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244 |
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245 //This method takes the left and right sample of interleaved PCM and sums it, then divides by 2 |
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246 TInt CMMFStereoToMonoRateConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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247 { |
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248 TInt16* aSrc = (TInt16*)aSrcBuffer.Data().Ptr(); |
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249 TInt16* aDst = (TInt16*)aDstBuffer.Data().Ptr(); |
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250 TUint aSamples = aSrcBuffer.Data().Length()/4; |
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251 |
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252 TInt16* src = aSrc; |
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253 TInt16* limit=aSrc+aSamples*2; //because 1 sample = two TInt16s |
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254 |
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255 // add left over from last buffer |
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256 TUint index = iIndex; |
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257 src = aSrc + (index>>16)*2; |
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258 |
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259 TInt length = 0; |
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260 |
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261 while(src<limit) |
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262 { |
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263 *aDst++ = (TInt16)((src[0] + (src[1])) / 2); |
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264 index += iFraction; |
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265 src = aSrc + (index>>16)*2; |
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266 length++; |
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267 } |
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268 // get amount by which index exceeded end of buffer |
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269 // so that we can add it back to start of next buffer |
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270 iIndex = index - (aSamples << 16); |
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271 |
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272 // return sample byte count and setup output buffer |
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273 aDstBuffer.Data().SetLength(length * 2); //adjust length of destination buffer |
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274 return (length); |
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275 } |
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276 |
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277 |
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278 TUint CMMFStereoToMonoRateConverter::MaxConvertBufferSize(TUint aSrcBufferSize) |
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279 { |
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280 TUint size = aSrcBufferSize/2; |
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281 size += aSrcBufferSize & 1; //avoid round down error |
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282 return size; |
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283 } |
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284 |
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285 //This method takes the left and right sample of interleaved PCM and sums it, then divides by 2 |
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286 TInt CMMFStereoToMonoConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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287 { |
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288 TInt16* aSrc = (TInt16*)aSrcBuffer.Data().Ptr(); |
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289 TInt16* aDst = (TInt16*)aDstBuffer.Data().Ptr(); |
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290 TUint aSamples = aSrcBuffer.Data().Length()/4; |
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291 for (TUint i=0;i<aSamples;i++) |
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292 { |
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293 *aDst++ = (TInt16)((aSrc[0] + (aSrc[1])) / 2); |
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294 aSrc+=2; |
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295 } |
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296 aDstBuffer.Data().SetLength(aSamples*2); //adjust length of destination buffer |
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297 return aSamples*2; |
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298 } |
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299 |
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300 TUint CMMFStereoToMonoConverter::MaxConvertBufferSize(TUint aSrcBufferSize) |
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301 { |
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302 TUint size = aSrcBufferSize/2; |
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303 size += aSrcBufferSize & 1; //avoid round down error |
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304 return size; |
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305 } |
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306 |
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307 |
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308 |
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309 TInt CMMFMonoToStereoConverter::Convert(const CMMFDataBuffer& aSrcBuffer, CMMFDataBuffer& aDstBuffer) |
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310 { |
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311 TInt16* aSrc = (TInt16*)aSrcBuffer.Data().Ptr(); |
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312 TInt16* aDst = (TInt16*)aDstBuffer.Data().Ptr(); |
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313 TUint aSamples = aSrcBuffer.Data().Length()/2; |
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314 for (TUint i=0;i<aSamples;i++) |
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315 { |
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316 *aDst++ = *aSrc; |
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317 *aDst++ = *aSrc++; |
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318 } |
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319 aDstBuffer.Data().SetLength(aSamples*4); //adjust length of destination buffer |
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320 return aSamples*4; |
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321 } |
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322 |
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323 TUint CMMFMonoToStereoConverter::MaxConvertBufferSize(TUint aSrcBufferSize) |
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324 { |
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325 return aSrcBufferSize*2; |
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326 } |
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327 |
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328 |
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329 |
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330 |
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331 |