Mercurial > hg > svcore
view base/RangeMapper.cpp @ 492:23945cdd7161
* Update RDF query stuff again so as to set up a temporary datastore
each time we want to query over an rdf file, instead of using rasqal
against the file. Seems the only way to avoid threading and storage
management issues when trying to load from a single-source file and
perform queries against our main datastore at the same time. Maybe.
author | Chris Cannam |
---|---|
date | Mon, 24 Nov 2008 16:26:11 +0000 |
parents | 9525c9d7e54d |
children | bdc9bb371a9f |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 QMUL. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. See the file COPYING included with this distribution for more information. */ #include "RangeMapper.h" #include <cassert> #include <cmath> #include <iostream> LinearRangeMapper::LinearRangeMapper(int minpos, int maxpos, float minval, float maxval, QString unit, bool inverted) : m_minpos(minpos), m_maxpos(maxpos), m_minval(minval), m_maxval(maxval), m_unit(unit), m_inverted(inverted) { assert(m_maxval != m_minval); assert(m_maxpos != m_minpos); } int LinearRangeMapper::getPositionForValue(float value) const { int position = m_minpos + lrintf(((value - m_minval) / (m_maxval - m_minval)) * (m_maxpos - m_minpos)); if (position < m_minpos) position = m_minpos; if (position > m_maxpos) position = m_maxpos; // std::cerr << "LinearRangeMapper::getPositionForValue: " << value << " -> " // << position << " (minpos " << m_minpos << ", maxpos " << m_maxpos << ", minval " << m_minval << ", maxval " << m_maxval << ")" << std::endl; if (m_inverted) return m_maxpos - position; else return position; } float LinearRangeMapper::getValueForPosition(int position) const { if (m_inverted) position = m_maxpos - position; float value = m_minval + ((float(position - m_minpos) / float(m_maxpos - m_minpos)) * (m_maxval - m_minval)); if (value < m_minval) value = m_minval; if (value > m_maxval) value = m_maxval; // std::cerr << "LinearRangeMapper::getValueForPosition: " << position << " -> " // << value << " (minpos " << m_minpos << ", maxpos " << m_maxpos << ", minval " << m_minval << ", maxval " << m_maxval << ")" << std::endl; return value; } LogRangeMapper::LogRangeMapper(int minpos, int maxpos, float minval, float maxval, QString unit, bool inverted) : m_minpos(minpos), m_maxpos(maxpos), m_unit(unit), m_inverted(inverted) { convertMinMax(minpos, maxpos, minval, maxval, m_minlog, m_ratio); std::cerr << "LogRangeMapper: minpos " << minpos << ", maxpos " << maxpos << ", minval " << minval << ", maxval " << maxval << ", minlog " << m_minlog << ", ratio " << m_ratio << ", unit " << unit.toStdString() << std::endl; assert(m_maxpos != m_minpos); m_maxlog = (m_maxpos - m_minpos) / m_ratio + m_minlog; } void LogRangeMapper::convertMinMax(int minpos, int maxpos, float minval, float maxval, float &minlog, float &ratio) { static float thresh = powf(10, -10); if (minval < thresh) minval = thresh; minlog = log10f(minval); ratio = (maxpos - minpos) / (log10f(maxval) - minlog); } void LogRangeMapper::convertRatioMinLog(float ratio, float minlog, int minpos, int maxpos, float &minval, float &maxval) { minval = powf(10, minlog); maxval = powf(10, (maxpos - minpos) / ratio + minlog); } int LogRangeMapper::getPositionForValue(float value) const { int position = (log10(value) - m_minlog) * m_ratio + m_minpos; if (position < m_minpos) position = m_minpos; if (position > m_maxpos) position = m_maxpos; // std::cerr << "LogRangeMapper::getPositionForValue: " << value << " -> " // << position << " (minpos " << m_minpos << ", maxpos " << m_maxpos << ", ratio " << m_ratio << ", minlog " << m_minlog << ")" << std::endl; if (m_inverted) return m_maxpos - position; else return position; } float LogRangeMapper::getValueForPosition(int position) const { if (m_inverted) position = m_maxpos - position; float value = powf(10, (position - m_minpos) / m_ratio + m_minlog); // std::cerr << "LogRangeMapper::getValueForPosition: " << position << " -> " // << value << " (minpos " << m_minpos << ", maxpos " << m_maxpos << ", ratio " << m_ratio << ", minlog " << m_minlog << ")" << std::endl; return value; }