Mercurial > hg > svcore
view data/fileio/CSVFormat.cpp @ 674:920e3880f7b4
* Add TempWriteFile abstraction, use it when exporting audio to avoid clobbering existing file before export is complete
author | Chris Cannam |
---|---|
date | Tue, 29 Mar 2011 17:30:23 +0100 |
parents | ad7c96620886 |
children | 611a4fa14dde |
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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 Chris Cannam. 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 "CSVFormat.h" #include "base/StringBits.h" #include <QFile> #include <QString> #include <QRegExp> #include <QStringList> #include <QTextStream> #include <iostream> CSVFormat::CSVFormat(QString path) : m_separator(""), m_sampleRate(44100), m_windowSize(1024), m_allowQuoting(true) { guessFormatFor(path); } void CSVFormat::guessFormatFor(QString path) { m_modelType = TwoDimensionalModel; m_timingType = ExplicitTiming; m_timeUnits = TimeSeconds; m_maxExampleCols = 0; m_columnCount = 0; m_variableColumnCount = false; m_example.clear(); m_columnQualities.clear(); m_columnPurposes.clear(); m_prevValues.clear(); QFile file(path); if (!file.exists()) return; if (!file.open(QIODevice::ReadOnly | QIODevice::Text)) return; QTextStream in(&file); in.seek(0); int lineno = 0; while (!in.atEnd()) { // See comment about line endings in CSVFileReader::load() QString chunk = in.readLine(); QStringList lines = chunk.split('\r', QString::SkipEmptyParts); for (size_t li = 0; li < lines.size(); ++li) { QString line = lines[li]; if (line.startsWith("#") || line == "") continue; guessQualities(line, lineno); if (++lineno == 50) break; } } guessPurposes(); } void CSVFormat::guessSeparator(QString line) { char candidates[] = { ',', '\t', ' ', '|', '/', ':' }; for (int i = 0; i < sizeof(candidates)/sizeof(candidates[0]); ++i) { if (StringBits::split(line, candidates[i], m_allowQuoting).size() >= 2) { m_separator = candidates[i]; return; } } m_separator = " "; } void CSVFormat::guessQualities(QString line, int lineno) { if (m_separator == "") guessSeparator(line); QStringList list = StringBits::split(line, m_separator[0], m_allowQuoting); int cols = list.size(); if (lineno == 0 || (cols < m_columnCount)) m_columnCount = cols; if (cols != m_columnCount) m_variableColumnCount = true; // All columns are regarded as having these qualities until we see // something that indicates otherwise: ColumnQualities defaultQualities = ColumnNumeric | ColumnIntegral | ColumnIncreasing; for (int i = 0; i < cols; ++i) { while (m_columnQualities.size() <= i) { m_columnQualities.push_back(defaultQualities); m_prevValues.push_back(0.f); } QString s(list[i]); bool ok = false; ColumnQualities qualities = m_columnQualities[i]; bool numeric = (qualities & ColumnNumeric); bool integral = (qualities & ColumnIntegral); bool increasing = (qualities & ColumnIncreasing); bool large = (qualities & ColumnLarge); // this one defaults to off float value = 0.f; //!!! how to take into account headers? if (numeric) { value = s.toFloat(&ok); if (!ok) { value = (float)StringBits::stringToDoubleLocaleFree(s, &ok); } if (ok) { if (lineno < 2 && value > 1000.f) large = true; } else { numeric = false; } } if (numeric) { if (integral) { if (s.contains('.') || s.contains(',')) { integral = false; } } if (increasing) { if (lineno > 0 && value <= m_prevValues[i]) { increasing = false; } } m_prevValues[i] = value; } m_columnQualities[i] = (numeric ? ColumnNumeric : 0) | (integral ? ColumnIntegral : 0) | (increasing ? ColumnIncreasing : 0) | (large ? ColumnLarge : 0); } if (lineno < 10) { m_example.push_back(list); if (lineno == 0 || cols > m_maxExampleCols) { m_maxExampleCols = cols; } } std::cerr << "Estimated column qualities: "; for (int i = 0; i < m_columnCount; ++i) { std::cerr << int(m_columnQualities[i]) << " "; } std::cerr << std::endl; } void CSVFormat::guessPurposes() { m_timingType = CSVFormat::ImplicitTiming; m_timeUnits = CSVFormat::TimeWindows; int timingColumnCount = 0; for (int i = 0; i < m_columnCount; ++i) { ColumnPurpose purpose = ColumnUnknown; bool primary = (i == 0); ColumnQualities qualities = m_columnQualities[i]; bool numeric = (qualities & ColumnNumeric); bool integral = (qualities & ColumnIntegral); bool increasing = (qualities & ColumnIncreasing); bool large = (qualities & ColumnLarge); bool timingColumn = (numeric && increasing); if (timingColumn) { ++timingColumnCount; if (primary) { purpose = ColumnStartTime; m_timingType = ExplicitTiming; if (integral && large) { m_timeUnits = TimeAudioFrames; } else { m_timeUnits = TimeSeconds; } } else { if (timingColumnCount == 2 && m_timingType == ExplicitTiming) { purpose = ColumnEndTime; } } } if (purpose == ColumnUnknown) { if (numeric) { purpose = ColumnValue; } else { purpose = ColumnLabel; } } setColumnPurpose(i, purpose); } int valueCount = 0; for (int i = 0; i < m_columnCount; ++i) { if (m_columnPurposes[i] == ColumnValue) ++valueCount; } if (valueCount == 2 && timingColumnCount == 1) { // If we have exactly two apparent value columns and only one // timing column, but one value column is integral and the // other is not, guess that whichever one matches the integral // status of the time column is either duration or end time if (m_timingType == ExplicitTiming) { int a = -1, b = -1; for (int i = 0; i < m_columnCount; ++i) { if (m_columnPurposes[i] == ColumnValue) { if (a == -1) a = i; else b = i; } } if ((m_columnQualities[a] & ColumnIntegral) != (m_columnQualities[b] & ColumnIntegral)) { int timecol = a; if ((m_columnQualities[a] & ColumnIntegral) != (m_columnQualities[0] & ColumnIntegral)) { timecol = b; } if (m_columnQualities[timecol] & ColumnIncreasing) { // This shouldn't happen; should have been settled above m_columnPurposes[timecol] = ColumnEndTime; } else { m_columnPurposes[timecol] = ColumnDuration; } --valueCount; } } } if (timingColumnCount > 1) { m_modelType = TwoDimensionalModelWithDuration; } else { if (valueCount == 0) { m_modelType = OneDimensionalModel; } else if (valueCount == 1) { m_modelType = TwoDimensionalModel; } else { m_modelType = ThreeDimensionalModel; } } std::cerr << "Estimated column purposes: "; for (int i = 0; i < m_columnCount; ++i) { std::cerr << int(m_columnPurposes[i]) << " "; } std::cerr << std::endl; std::cerr << "Estimated model type: " << m_modelType << std::endl; std::cerr << "Estimated timing type: " << m_timingType << std::endl; std::cerr << "Estimated units: " << m_timeUnits << std::endl; } CSVFormat::ColumnPurpose CSVFormat::getColumnPurpose(int i) { while (m_columnPurposes.size() <= i) { m_columnPurposes.push_back(ColumnUnknown); } return m_columnPurposes[i]; } CSVFormat::ColumnPurpose CSVFormat::getColumnPurpose(int i) const { if (m_columnPurposes.size() <= i) { return ColumnUnknown; } return m_columnPurposes[i]; } void CSVFormat::setColumnPurpose(int i, ColumnPurpose p) { while (m_columnPurposes.size() <= i) { m_columnPurposes.push_back(ColumnUnknown); } m_columnPurposes[i] = p; }