[56] | 1 | /* The copyright in this software is being made available under the BSD |
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| 2 | * License, included below. This software may be subject to other third party |
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| 3 | * and contributor rights, including patent rights, and no such rights are |
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| 4 | * granted under this license. |
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| 5 | * |
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| 6 | * Copyright (c) 2010-2012, ITU/ISO/IEC |
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| 7 | * All rights reserved. |
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| 8 | * |
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| 9 | * Redistribution and use in source and binary forms, with or without |
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| 10 | * modification, are permitted provided that the following conditions are met: |
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| 11 | * |
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| 12 | * * Redistributions of source code must retain the above copyright notice, |
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| 13 | * this list of conditions and the following disclaimer. |
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| 14 | * * Redistributions in binary form must reproduce the above copyright notice, |
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| 15 | * this list of conditions and the following disclaimer in the documentation |
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| 16 | * and/or other materials provided with the distribution. |
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| 17 | * * Neither the name of the ITU/ISO/IEC nor the names of its contributors may |
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| 18 | * be used to endorse or promote products derived from this software without |
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| 19 | * specific prior written permission. |
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| 20 | * |
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| 21 | * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" |
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| 22 | * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE |
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| 23 | * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE |
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| 24 | * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS |
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| 25 | * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR |
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| 26 | * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF |
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| 27 | * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS |
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| 28 | * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN |
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| 29 | * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) |
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| 30 | * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF |
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| 31 | * THE POSSIBILITY OF SUCH DAMAGE. |
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| 32 | */ |
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| 33 | |
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| 34 | #include "GuessLambdaModifiers.h" |
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| 35 | #include <limits> |
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| 36 | #include <cassert> |
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| 37 | #include <cmath> |
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| 38 | |
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| 39 | namespace |
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| 40 | { |
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| 41 | /// Formatted input for a bitrate vector |
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| 42 | /// \param left The input stream that contains the bitrate vector |
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| 43 | /// \param right The vector to be written to |
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| 44 | /// \pre right must be empty |
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| 45 | void parseBitrateVector( std::istream& left, std::vector< double >& right ) |
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| 46 | { |
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| 47 | assert( right.empty( ) ); |
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| 48 | |
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| 49 | for( ; ; ) |
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| 50 | { |
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| 51 | assert( left.good( ) ); |
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| 52 | |
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| 53 | double bitrate; |
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| 54 | left >> bitrate; |
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| 55 | if( left.fail( ) ) break; |
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| 56 | if( bitrate <= ( double )0.0 ) |
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| 57 | { |
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| 58 | left.setstate( std::istream::failbit ); |
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| 59 | } |
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| 60 | else |
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| 61 | { |
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| 62 | right.push_back( bitrate ); |
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| 63 | } |
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| 64 | if( !left.good( ) ) break; |
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| 65 | |
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| 66 | if( left.peek( ) == ' ' ) |
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| 67 | { |
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| 68 | left.ignore( ); |
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| 69 | } |
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| 70 | else |
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| 71 | { |
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| 72 | break; |
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| 73 | } |
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| 74 | } |
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| 75 | } |
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| 76 | |
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| 77 | /// Makes a next guess for a single Lambda-modifier based on only one previous guess |
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| 78 | /// \param initialAdjustmentParameter The proportionality to use between the target bitrate and the previous guess |
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| 79 | /// \param target The target bitrate value that this Lambda-modifier is trying to reach |
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| 80 | /// \param previousPoint The previous guess |
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| 81 | /// \return The Lambda-modifier guess |
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| 82 | /// \pre The given point must contain only positive non-zero values |
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| 83 | double incrementLambdaModifier( |
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| 84 | double initialAdjustmentParameter, |
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| 85 | double targetBitrate, |
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| 86 | const Point& previousPoint ) |
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| 87 | { |
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| 88 | assert( ( double )0.0 < previousPoint.lambdaModifier ); |
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| 89 | assert( ( double )0.0 < previousPoint.bitrate ); |
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| 90 | |
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| 91 | double extrapolated( previousPoint.lambdaModifier * targetBitrate / previousPoint.bitrate ); |
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| 92 | return previousPoint.lambdaModifier + initialAdjustmentParameter * ( extrapolated - previousPoint.lambdaModifier ); |
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| 93 | } |
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| 94 | } |
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| 95 | |
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| 96 | double polateLambdaModifier( double targetBitrate, const Point& point1, const Point& point2 ) |
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| 97 | { |
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| 98 | assert( 0.0 < point1.lambdaModifier ); |
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| 99 | assert( 0.0 < point2.lambdaModifier ); |
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| 100 | assert( 0.0 < point1.bitrate ); |
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| 101 | assert( 0.0 < point2.bitrate ); |
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| 102 | assert( point1.lambdaModifier != point2.lambdaModifier ); |
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| 103 | assert( point1.bitrate != point2.bitrate ); |
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| 104 | |
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| 105 | // Calculate and return the result |
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| 106 | double denominator( point1.bitrate - point2.bitrate ); |
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| 107 | double result( point1.lambdaModifier |
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| 108 | + ( point1.lambdaModifier - point2.lambdaModifier ) / denominator * ( targetBitrate - point1.bitrate ) ); |
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| 109 | return result; |
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| 110 | } |
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| 111 | |
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| 112 | double guessLambdaModifier( |
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| 113 | double initialAdjustmentParameter, |
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| 114 | double targetBitrate, |
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| 115 | const std::list< Point >& pointList, |
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| 116 | double interDampeningFactor ) |
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| 117 | { |
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| 118 | assert( ( double )0.0 < interDampeningFactor ); |
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| 119 | assert( interDampeningFactor <= ( double )1.0 ); |
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| 120 | assert( !pointList.empty( ) ); |
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| 121 | |
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| 122 | double preliminaryResult; |
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| 123 | |
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| 124 | if( 1 == pointList.size( ) ) // If there is only one prevous point, then we cannot interpolate, so we call incrementLambdaModifier |
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| 125 | { |
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| 126 | preliminaryResult = incrementLambdaModifier( initialAdjustmentParameter, targetBitrate, pointList.back( ) ); |
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| 127 | } |
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| 128 | else // If there are at least two previous points, then we may be able to interpolate |
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| 129 | { |
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| 130 | std::list< Point >::const_reverse_iterator i( pointList.rbegin( ) ); |
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| 131 | Point point1 = *i; |
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| 132 | ++i; |
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| 133 | Point point2 = *i; |
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| 134 | |
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| 135 | // If the slope is either horizontal or vertical, we cannot interpolate |
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| 136 | if( point1.lambdaModifier == point2.lambdaModifier || point1.bitrate == point2.bitrate ) |
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| 137 | { |
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| 138 | preliminaryResult = incrementLambdaModifier( initialAdjustmentParameter, targetBitrate, pointList.back( ) ); |
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| 139 | } |
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| 140 | else // If the slope is not horizontal and not vertical, we can interpolate |
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| 141 | { |
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| 142 | preliminaryResult = polateLambdaModifier( targetBitrate, point1, point2 ); |
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| 143 | } |
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| 144 | } |
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| 145 | |
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| 146 | double previousResult( pointList.back( ).lambdaModifier ); |
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| 147 | |
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| 148 | // Apply "intra dampening" |
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| 149 | { |
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| 150 | double intermediate( std::log( ( double )1.0 + std::abs( preliminaryResult - previousResult ) / previousResult ) ); |
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| 151 | assert( ( double )0.0 <= intermediate ); |
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| 152 | if( ( preliminaryResult - previousResult ) < 0.0 ) |
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| 153 | { |
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| 154 | preliminaryResult = previousResult * ( ( double )1.0 - intermediate ); |
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| 155 | } |
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| 156 | else |
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| 157 | { |
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| 158 | preliminaryResult = previousResult * ( ( double )1.0 + intermediate ); |
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| 159 | } |
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| 160 | } |
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| 161 | |
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| 162 | // Apply "inter dampening factor". If necessary, reduce the factor until a positive result is acheived. |
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| 163 | double result; |
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| 164 | do |
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| 165 | { |
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| 166 | result = previousResult + interDampeningFactor * ( preliminaryResult - previousResult ); |
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| 167 | interDampeningFactor /= ( double )2.0; |
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| 168 | } while( result <= ( double )0.0 ); |
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| 169 | return result; |
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| 170 | } |
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| 171 | |
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| 172 | namespace |
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| 173 | { |
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| 174 | /// Extracts a single point at the given index from a full meta-log entry |
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| 175 | Point pointFromFullMetaLogEntry( unsigned char index, const MetaLogEntry< std::vector< double > >& fullEntry ) |
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| 176 | { |
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| 177 | Point result; |
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| 178 | result.lambdaModifier = fullEntry.lambdaModifiers[ index ]; |
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| 179 | result.bitrate = fullEntry.bitrateVector[ index ]; |
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| 180 | return result; |
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| 181 | } |
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| 182 | |
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| 183 | /// Calculates the inter dampening factor based |
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| 184 | /// \param parameter The inter dampening parameter which determines how severely the inter dampening factor is affected by Lambda-modifier changes at previous temporal layers |
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| 185 | /// \param cumulativeDelta The sum of the percentage changes of the Lambda-modifiers at the previous temporal layers |
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| 186 | /// \return The calculated inter dampening factor |
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| 187 | /// \pre cumulativeDelta must be non-negative |
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| 188 | /// \pre parameter must be non-negative |
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| 189 | double interDampeningFactor( double parameter, double cumulativeDelta ) |
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| 190 | { |
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| 191 | assert( 0.0 <= cumulativeDelta ); |
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| 192 | assert( 0.0 <= parameter ); |
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| 193 | return ( double )1.0 / ( parameter * cumulativeDelta + ( double )1.0 ); |
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| 194 | } |
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| 195 | } |
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| 196 | |
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| 197 | std::vector< double > guessLambdaModifiers( |
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| 198 | double initialAdjustmentParameter, |
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| 199 | const std::vector< double > &targetBitrateVector, |
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| 200 | const std::list< MetaLogEntry< std::vector< double > > >& metaLogEntryList ) |
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| 201 | { |
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| 202 | assert( !targetBitrateVector.empty( ) ); |
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| 203 | assert( !metaLogEntryList.empty( ) ); |
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| 204 | |
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| 205 | double cumulativeDelta( 0.0 ); |
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| 206 | std::vector< double > resultVector; |
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| 207 | for( unsigned char i( 0 ); i < targetBitrateVector.size( ); ++i ) |
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| 208 | { |
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| 209 | // Populate pointList with up to two of the previous points |
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| 210 | std::list< Point > pointList; |
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| 211 | std::list< MetaLogEntry< std::vector< double > > >::const_reverse_iterator j( metaLogEntryList.rbegin( ) ); |
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| 212 | pointList.push_front( pointFromFullMetaLogEntry( i, *j ) ); |
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| 213 | ++j; |
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| 214 | if( j != metaLogEntryList.rend( ) ) pointList.push_front( pointFromFullMetaLogEntry( i, *j ) ); |
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| 215 | |
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| 216 | // Calculate the new Lambda-modifier guess and add it to the result vector |
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| 217 | const double newLambdaModifier( guessLambdaModifier( |
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| 218 | initialAdjustmentParameter, |
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| 219 | targetBitrateVector[ i ], // target bitrate |
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| 220 | pointList, |
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| 221 | interDampeningFactor( 50.0, cumulativeDelta ) ) ); |
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| 222 | resultVector.push_back( newLambdaModifier ); |
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| 223 | |
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| 224 | // Increment the cumulativeDelta |
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| 225 | const double oldLambdaModifier( pointList.back( ).lambdaModifier ); |
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| 226 | cumulativeDelta += std::abs( newLambdaModifier - oldLambdaModifier ) / oldLambdaModifier; |
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| 227 | } |
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| 228 | |
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| 229 | return resultVector; |
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| 230 | } |
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| 231 | |
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| 232 | namespace |
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| 233 | { |
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| 234 | /// Ignores all of the the characters up to and including a given character |
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| 235 | /// \param i The active input stream |
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| 236 | /// \param character The character to ignore up to |
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| 237 | /// \throw MetaLogParseException if the stream goes bad before character is encountered or just after character is encountered |
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| 238 | void ignoreUpTo( std::istream& i, char character ) |
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| 239 | { |
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| 240 | while( i.good( ) && character != i.get( ) ) |
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| 241 | ; |
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| 242 | if( !i.good( ) ) throw MetaLogParseException( ); |
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| 243 | } |
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| 244 | |
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| 245 | /// Parses a Lambda-modifier map |
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| 246 | /// \param right The map to write the output to |
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| 247 | void parseLambdaModifierMap( std::istream& left, std::map< unsigned char, double >& right ) |
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| 248 | { |
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| 249 | for( ; ; ) |
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| 250 | { |
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| 251 | assert( left.good( ) ); |
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| 252 | |
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| 253 | // Ignore the "-LM" |
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| 254 | if( '-' != left.get( ) ) left.setstate( std::istream::failbit ); |
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| 255 | if( !left.good( ) ) break; |
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| 256 | if( 'L' != left.get( ) ) left.setstate( std::istream::failbit ); |
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| 257 | if( !left.good( ) ) break; |
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| 258 | if( 'M' != left.get( ) ) left.setstate( std::istream::failbit ); |
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| 259 | if( !left.good( ) ) break; |
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| 260 | |
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| 261 | // Parse the index |
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| 262 | long indexLong; |
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| 263 | left >> indexLong; |
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| 264 | if( !left.good( ) ) break; |
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| 265 | if( indexLong < std::numeric_limits< unsigned char >::min( ) ) left.setstate( std::istream::failbit ); |
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| 266 | if( std::numeric_limits< unsigned char >::max( ) < indexLong ) left.setstate( std::istream::failbit ); |
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| 267 | if( !left.good( ) ) break; |
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| 268 | unsigned char index( ( unsigned char )indexLong ); |
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| 269 | |
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| 270 | if( ' ' != left.get( ) ) left.setstate( std::istream::failbit ); |
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| 271 | if( !left.good( ) ) break; |
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| 272 | |
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| 273 | // Parse the Lambda-modifier |
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| 274 | double lambdaModifier; |
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| 275 | left >> lambdaModifier; |
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| 276 | if( lambdaModifier <= ( double )0.0 || ( !right.empty( ) && ( right.count( index ) != 0 || index <= right.rbegin( )->first ) ) ) |
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| 277 | { |
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| 278 | left.setstate( std::istream::failbit ); |
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| 279 | } |
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| 280 | else |
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| 281 | { |
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| 282 | right[ index ] = lambdaModifier; |
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| 283 | } |
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| 284 | if( !left.good( ) ) break; |
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| 285 | |
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| 286 | // If we peek and see a space, then there should be more Lambda-modifiers to parse. Otherwise, we are finished. |
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| 287 | if( left.peek( ) == ' ' ) |
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| 288 | { |
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| 289 | left.ignore( ); |
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| 290 | } |
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| 291 | else |
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| 292 | { |
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| 293 | break; |
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| 294 | } |
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| 295 | } |
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| 296 | } |
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| 297 | |
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| 298 | /// Extracts the indexes from the given maps |
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| 299 | /// \return The set of indexes |
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| 300 | std::set< unsigned char > indexSetFromMap( const std::map< unsigned char, double >& in ) |
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| 301 | { |
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| 302 | std::set< unsigned char > result; |
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| 303 | for( typename std::map< unsigned char, double >::const_iterator i( in.begin( ) ); i != in.end( ); ++i ) |
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| 304 | { |
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| 305 | result.insert( i->first ); |
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| 306 | } |
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| 307 | return result; |
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| 308 | } |
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| 309 | } |
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| 310 | |
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| 311 | void guessLambdaModifiers( |
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| 312 | std::ostream& o, |
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| 313 | std::istream& initialAdjustmentParameterIstream, |
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| 314 | std::istream& targetsIstream, |
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| 315 | std::istream& metaLogIstream ) |
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| 316 | { |
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| 317 | // Parse the initialAdjustmentParameter |
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| 318 | double initialAdjustmentParameter; |
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| 319 | initialAdjustmentParameterIstream >> initialAdjustmentParameter; |
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| 320 | if( initialAdjustmentParameterIstream.fail( ) || initialAdjustmentParameterIstream.good( ) ) |
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| 321 | { |
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| 322 | throw InitialAdjustmentParameterParseException( ); |
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| 323 | } |
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| 324 | |
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| 325 | // Parse the targets |
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| 326 | std::vector< double > targetVector; |
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| 327 | parseBitrateVector( targetsIstream, targetVector ); |
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| 328 | if( targetVector.empty( ) || targetsIstream.fail( ) || targetsIstream.good( ) ) throw TargetsParseException( ); |
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| 329 | |
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| 330 | // Parse the metalog |
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| 331 | std::list< MetaLogEntry< std::map< unsigned char, double > > > metaLogEntryList; |
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| 332 | do |
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| 333 | { |
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| 334 | // Parse the Lambda-modifiers |
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| 335 | MetaLogEntry< std::map< unsigned char, double > > entry; |
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| 336 | parseLambdaModifierMap( metaLogIstream, entry.lambdaModifiers ); |
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| 337 | if( !metaLogIstream.good( ) ) throw MetaLogParseException( ); |
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| 338 | |
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| 339 | // Skip the ';' |
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| 340 | if( ';' != metaLogIstream.get( ) ) throw MetaLogParseException( ); |
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| 341 | if( !metaLogIstream.good( ) ) throw MetaLogParseException( ); |
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| 342 | |
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| 343 | // Parse the bitrates |
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| 344 | parseBitrateVector( metaLogIstream, entry.bitrateVector ); |
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| 345 | if( metaLogIstream.fail( ) ) throw MetaLogParseException( ); |
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| 346 | metaLogEntryList.push_back( entry ); |
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| 347 | |
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| 348 | if( !metaLogIstream.good( ) ) break; |
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| 349 | if( metaLogIstream.get( ) != '\n' ) throw MetaLogParseException( ); |
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| 350 | metaLogIstream.peek( ); |
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| 351 | } while( metaLogIstream.good( ) ); |
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| 352 | if( metaLogEntryList.empty( ) ) throw MetaLogParseException( ); // The meta-log should not be empty |
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| 353 | |
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| 354 | // Initialize firstIndexVector and check that the sizes and indexes match |
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| 355 | std::set< unsigned char > firstIndexSet( indexSetFromMap( metaLogEntryList.front( ).lambdaModifiers ) ); |
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| 356 | if( firstIndexSet.size( ) != targetVector.size( ) ) throw MismatchedIndexesException( ); |
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| 357 | for( std::list< MetaLogEntry< std::map< unsigned char, double > > >::const_iterator i( metaLogEntryList.begin( ) ); |
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| 358 | i != metaLogEntryList.end( ); |
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| 359 | ++i ) |
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| 360 | { |
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| 361 | if( indexSetFromMap( i->lambdaModifiers ) != firstIndexSet ) throw MismatchedIndexesException( ); |
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| 362 | if( i->bitrateVector.size( ) != targetVector.size( ) ) throw MismatchedIndexesException( ); |
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| 363 | } |
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| 364 | |
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| 365 | // Initialize simplifiedMetaLogEntryList |
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| 366 | std::list< MetaLogEntry< std::vector< double > > > simplifiedMetaLogEntryList; |
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| 367 | for( std::list< MetaLogEntry< std::map< unsigned char, double > > >::const_iterator i( metaLogEntryList.begin( ) ); |
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| 368 | i != metaLogEntryList.end( ); |
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| 369 | ++i ) |
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| 370 | { |
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| 371 | simplifiedMetaLogEntryList.push_back( MetaLogEntry< std::vector< double > >( ) ); |
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| 372 | for( std::map< unsigned char, double >::const_iterator j( i->lambdaModifiers.begin( ) ); j != i->lambdaModifiers.end( ); ++j ) |
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| 373 | { |
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| 374 | simplifiedMetaLogEntryList.back( ).lambdaModifiers.push_back( j->second ); |
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| 375 | } |
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| 376 | simplifiedMetaLogEntryList.back( ).bitrateVector = i->bitrateVector; |
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| 377 | } |
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| 378 | |
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| 379 | // Run the calculations |
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| 380 | std::vector< double > resultVector( guessLambdaModifiers( initialAdjustmentParameter, targetVector, simplifiedMetaLogEntryList ) ); |
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| 381 | |
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| 382 | // Output the results |
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| 383 | std::set< unsigned char >::const_iterator indexIter( firstIndexSet.begin( ) ); |
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| 384 | std::vector< double >::const_iterator resultIter( resultVector.begin( ) ); |
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| 385 | do |
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| 386 | { |
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| 387 | if( indexIter != firstIndexSet.begin( ) ) o << " "; |
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| 388 | o << "-LM" << ( long )( *indexIter ) << " "; |
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| 389 | o.setf( std::ostream::fixed, std::ostream::floatfield ); |
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| 390 | o.precision( 7 ); |
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| 391 | o << ( *resultIter ); |
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| 392 | |
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| 393 | ++indexIter; |
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| 394 | ++resultIter; |
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| 395 | } while( indexIter != firstIndexSet.end( ) ); |
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| 396 | assert( resultIter == resultVector.end( ) ); // The index set and the result vector should be the same size |
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| 397 | } |
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