Context Navigation

source: trunk/sources/HeuristicLab.DataPreprocessing/3.4/Implementations/ManipulationLogic.cs @ 13397

Visit:

Last change on this file since 13397 was 12012, checked in by ascheibe, 10 years ago
#2212 merged r12008, r12009, r12010 back into trunk
File size: 16.1 KB

Rev	Line
[10539]	1	#region License Information
	2	/* HeuristicLab
[12012]	3	* Copyright (C) 2002-2015 Heuristic and Evolutionary Algorithms Laboratory (HEAL)
[10539]	4	*
	5	* This file is part of HeuristicLab.
	6	*
	7	* HeuristicLab is free software: you can redistribute it and/or modify
	8	* it under the terms of the GNU General Public License as published by
	9	* the Free Software Foundation, either version 3 of the License, or
	10	* (at your option) any later version.
	11	*
	12	* HeuristicLab is distributed in the hope that it will be useful,
	13	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	15	* GNU General Public License for more details.
	16	*
	17	* You should have received a copy of the GNU General Public License
	18	* along with HeuristicLab. If not, see <http://www.gnu.org/licenses/>.
	19	*/
	20	#endregion
	21
	22	using System;
[10193]	23	using System.Collections.Generic;
	24	using System.Linq;
[10249]	25	using HeuristicLab.Data;
[10193]	26
[10249]	27	namespace HeuristicLab.DataPreprocessing {
[10369]	28	public class ManipulationLogic : IManipulationLogic {
[11070]	29	private readonly ITransactionalPreprocessingData preprocessingData;
	30	private readonly IStatisticsLogic statisticsLogic;
	31	private readonly ISearchLogic searchLogic;
[10193]	32
[11002]	33	public IEnumerable<string> VariableNames {
	34	get { return preprocessingData.VariableNames; }
	35	}
	36
	37	public ITransactionalPreprocessingData PreProcessingData {
	38	get { return preprocessingData; }
	39	}
	40
	41	public ManipulationLogic(ITransactionalPreprocessingData _prepocessingData, ISearchLogic theSearchLogic, IStatisticsLogic theStatisticsLogic) {
[10249]	42	preprocessingData = _prepocessingData;
	43	searchLogic = theSearchLogic;
[10615]	44	statisticsLogic = theStatisticsLogic;
[10249]	45	}
[10193]	46
[10367]	47	public void ReplaceIndicesByValue<T>(int columnIndex, IEnumerable<int> rowIndices, T value) {
	48	foreach (int index in rowIndices) {
	49	preprocessingData.SetCell<T>(columnIndex, index, value);
[10249]	50	}
	51	}
[10193]	52
[10809]	53	public void ReplaceIndicesByAverageValue(IDictionary<int, IList<int>> cells, bool considerSelection) {
[10612]	54	preprocessingData.InTransaction(() => {
	55	foreach (var column in cells) {
[11156]	56	if (preprocessingData.VariableHasType<double>(column.Key)) {
[10809]	57	double average = statisticsLogic.GetAverage(column.Key, considerSelection);
[10615]	58	ReplaceIndicesByValue<double>(column.Key, column.Value, average);
[11156]	59	} else if (preprocessingData.VariableHasType<DateTime>(column.Key)) {
[10809]	60	DateTime average = statisticsLogic.GetAverageDateTime(column.Key, considerSelection);
[10615]	61	ReplaceIndicesByValue<DateTime>(column.Key, column.Value, average);
	62	}
[10612]	63	}
	64	});
[10249]	65	}
[10193]	66
[10809]	67	public void ReplaceIndicesByMedianValue(IDictionary<int, IList<int>> cells, bool considerSelection) {
[10612]	68	preprocessingData.InTransaction(() => {
	69	foreach (var column in cells) {
[11156]	70	if (preprocessingData.VariableHasType<double>(column.Key)) {
[10809]	71	double median = statisticsLogic.GetMedian(column.Key, considerSelection);
[10615]	72	ReplaceIndicesByValue<double>(column.Key, column.Value, median);
[11156]	73	} else if (preprocessingData.VariableHasType<DateTime>(column.Key)) {
[10809]	74	DateTime median = statisticsLogic.GetMedianDateTime(column.Key, considerSelection);
[10615]	75	ReplaceIndicesByValue<DateTime>(column.Key, column.Value, median);
	76	}
[10612]	77	}
	78	});
[10249]	79	}
[10193]	80
[10809]	81	public void ReplaceIndicesByRandomValue(IDictionary<int, IList<int>> cells, bool considerSelection) {
[10612]	82	preprocessingData.InTransaction(() => {
	83	Random r = new Random();
[10193]	84
[10612]	85	foreach (var column in cells) {
[11156]	86	if (preprocessingData.VariableHasType<double>(column.Key)) {
[10809]	87	double max = statisticsLogic.GetMax<double>(column.Key, considerSelection);
	88	double min = statisticsLogic.GetMin<double>(column.Key, considerSelection);
[10615]	89	double randMultiplier = (max - min);
	90	foreach (int index in column.Value) {
	91	double rand = r.NextDouble() * randMultiplier + min;
	92	preprocessingData.SetCell<double>(column.Key, index, rand);
	93	}
[11156]	94	} else if (preprocessingData.VariableHasType<DateTime>(column.Key)) {
[10809]	95	DateTime min = statisticsLogic.GetMin<DateTime>(column.Key, considerSelection);
	96	DateTime max = statisticsLogic.GetMax<DateTime>(column.Key, considerSelection);
[10615]	97	double randMultiplier = (max - min).TotalSeconds;
	98	foreach (int index in column.Value) {
	99	double rand = r.NextDouble() * randMultiplier;
	100	preprocessingData.SetCell<DateTime>(column.Key, index, min.AddSeconds(rand));
	101	}
[10612]	102	}
[10590]	103	}
[10612]	104	});
[10249]	105	}
[10193]	106
[10672]	107	public void ReplaceIndicesByLinearInterpolationOfNeighbours(IDictionary<int, IList<int>> cells) {
[10612]	108	preprocessingData.InTransaction(() => {
	109	foreach (var column in cells) {
[10621]	110	int countValues = 0;
[11156]	111	if (preprocessingData.VariableHasType<double>(column.Key)) {
[10811]	112	countValues = preprocessingData.GetValues<double>(column.Key).Count();
[11156]	113	} else if (preprocessingData.VariableHasType<DateTime>(column.Key)) {
[10811]	114	countValues = preprocessingData.GetValues<DateTime>(column.Key).Count();
[10621]	115	}
[10193]	116
[10820]	117	IList<Tuple<int, int>> startEndings = GetStartAndEndingsForInterpolation(column);
	118	foreach (var tuple in startEndings) {
	119	Interpolate(column, tuple.Item1, tuple.Item2);
	120	}
	121	}
	122	});
	123	}
	124
	125	private List<Tuple<int, int>> GetStartAndEndingsForInterpolation(KeyValuePair<int, IList<int>> column) {
	126	List<Tuple<int, int>> startEndings = new List<Tuple<int, int>>();
	127	var rowIndices = column.Value;
	128	rowIndices = rowIndices.OrderBy(x => x).ToList();
	129	var count = rowIndices.Count;
	130	int start = int.MinValue;
	131	for (int i = 0; i < count; ++i) {
	132	if (start == int.MinValue) {
	133	start = indexOfPrevPresentValue(column.Key, rowIndices[i]);
	134	}
	135	if (i + 1 == count \|\| (i + 1 < count && rowIndices[i + 1] - rowIndices[i] > 1)) {
	136	int next = indexOfNextPresentValue(column.Key, rowIndices[i]);
	137	if (start > 0 && next < preprocessingData.Rows) {
	138	startEndings.Add(new Tuple<int, int>(start, next));
	139	}
	140	start = int.MinValue;
	141	}
	142	}
	143	return startEndings;
	144	}
	145
	146	public void ReplaceIndicesBySmoothing(IDictionary<int, IList<int>> cells) {
	147	preprocessingData.InTransaction(() => {
	148	foreach (var column in cells) {
	149	int countValues = preprocessingData.Rows;
	150
[10621]	151	foreach (int index in column.Value) {
	152	// dont replace first or last values
	153	if (index > 0 && index < countValues) {
	154	int prevIndex = indexOfPrevPresentValue(column.Key, index);
	155	int nextIndex = indexOfNextPresentValue(column.Key, index);
	156
	157	// no neighbours found
[10820]	158	if (prevIndex < 0 \|\| nextIndex >= countValues) {
[10621]	159	continue;
	160	}
	161
[10820]	162	Interpolate(column, prevIndex, nextIndex);
[10590]	163	}
[10249]	164	}
[10193]	165	}
[10612]	166	});
[10249]	167	}
[10193]	168
[10820]	169	private void Interpolate(KeyValuePair<int, IList<int>> column, int prevIndex, int nextIndex) {
	170	int valuesToInterpolate = nextIndex - prevIndex;
	171
[11156]	172	if (preprocessingData.VariableHasType<double>(column.Key)) {
[10820]	173	double prev = preprocessingData.GetCell<double>(column.Key, prevIndex);
	174	double next = preprocessingData.GetCell<double>(column.Key, nextIndex);
	175	double interpolationStep = (next - prev) / valuesToInterpolate;
	176
	177	for (int i = prevIndex; i < nextIndex; ++i) {
	178	double interpolated = prev + (interpolationStep * (i - prevIndex));
	179	preprocessingData.SetCell<double>(column.Key, i, interpolated);
	180	}
[11156]	181	} else if (preprocessingData.VariableHasType<DateTime>(column.Key)) {
[10820]	182	DateTime prev = preprocessingData.GetCell<DateTime>(column.Key, prevIndex);
	183	DateTime next = preprocessingData.GetCell<DateTime>(column.Key, nextIndex);
	184	double interpolationStep = (next - prev).TotalSeconds / valuesToInterpolate;
	185
	186	for (int i = prevIndex; i < nextIndex; ++i) {
	187	DateTime interpolated = prev.AddSeconds(interpolationStep * (i - prevIndex));
	188	preprocessingData.SetCell<DateTime>(column.Key, i, interpolated);
	189	}
	190	}
	191	}
	192
[10367]	193	private int indexOfPrevPresentValue(int columnIndex, int start) {
[10249]	194	int offset = start - 1;
[10367]	195	while (offset >= 0 && searchLogic.IsMissingValue(columnIndex, offset)) {
[10249]	196	offset--;
	197	}
[10234]	198
[10249]	199	return offset;
	200	}
[10234]	201
[10367]	202	private int indexOfNextPresentValue(int columnIndex, int start) {
[10249]	203	int offset = start + 1;
[10367]	204	while (offset < preprocessingData.Rows && searchLogic.IsMissingValue(columnIndex, offset)) {
[10249]	205	offset++;
	206	}
[10234]	207
[10249]	208	return offset;
	209	}
[10234]	210
[10809]	211	public void ReplaceIndicesByMostCommonValue(IDictionary<int, IList<int>> cells, bool considerSelection) {
[10612]	212	preprocessingData.InTransaction(() => {
	213	foreach (var column in cells) {
[11156]	214	if (preprocessingData.VariableHasType<double>(column.Key)) {
[10809]	215	ReplaceIndicesByValue<double>(column.Key, column.Value, statisticsLogic.GetMostCommonValue<double>(column.Key, considerSelection));
[11156]	216	} else if (preprocessingData.VariableHasType<string>(column.Key)) {
[10809]	217	ReplaceIndicesByValue<string>(column.Key, column.Value, statisticsLogic.GetMostCommonValue<string>(column.Key, considerSelection));
[11156]	218	} else if (preprocessingData.VariableHasType<DateTime>(column.Key)) {
[10809]	219	ReplaceIndicesByValue<DateTime>(column.Key, column.Value, statisticsLogic.GetMostCommonValue<DateTime>(column.Key, considerSelection));
[10612]	220	} else {
	221	throw new ArgumentException("column with index: " + column.Key + " contains a non supported type.");
	222	}
[10590]	223	}
[10612]	224	});
[10249]	225	}
[10218]	226
[11403]	227	public void Shuffle(bool shuffleRangesSeparately) {
	228	Random random = new Random();
[11380]	229	var ranges = new[] { preprocessingData.TestPartition, preprocessingData.TrainingPartition };
	230	if (shuffleRangesSeparately) {
	231	preprocessingData.InTransaction(() => {
	232	// process all given ranges - e.g. TrainingPartition, TestPartition
	233	foreach (IntRange range in ranges) {
	234	List<Tuple<int, int>> shuffledIndices = new List<Tuple<int, int>>();
[10218]	235
[11380]	236	// generate random indices used for shuffeling each column
	237	for (int i = range.End - 1; i >= range.Start; --i) {
	238	int rand = random.Next(range.Start, i);
	239	shuffledIndices.Add(new Tuple<int, int>(i, rand));
	240	}
	241
	242	ShuffleToIndices(shuffledIndices);
[10612]	243	}
[11380]	244	});
	245	} else {
	246	preprocessingData.InTransaction(() => {
	247	var indices = ranges.SelectMany(x => Enumerable.Range(x.Start, x.Size)).ToList();
	248	var shuffledIndices = indices.OrderBy(x => random.Next());
	249	ShuffleToIndices(indices.Zip(shuffledIndices, (i, j) => new Tuple<int, int>(i, j)).ToList());
	250	});
	251	}
[10253]	252	}
	253
[10535]	254	public void ReOrderToIndices(IEnumerable<int> indices) {
[10256]	255	List<Tuple<int, int>> indicesTuple = new List<Tuple<int, int>>();
[10255]	256
[10256]	257	for (int i = 0; i < indices.Count(); ++i) {
[10311]	258	indicesTuple.Add(new Tuple<int, int>(i, indices.ElementAt(i)));
[10256]	259	}
	260
[10535]	261	ReOrderToIndices(indicesTuple);
[10255]	262	}
	263
[10535]	264	public void ReOrderToIndices(IList<System.Tuple<int, int>> indices) {
[10612]	265	preprocessingData.InTransaction(() => {
	266	for (int i = 0; i < preprocessingData.Columns; ++i) {
[11156]	267	if (preprocessingData.VariableHasType<double>(i)) {
[10612]	268	reOrderToIndices<double>(i, indices);
[11156]	269	} else if (preprocessingData.VariableHasType<string>(i)) {
[10612]	270	reOrderToIndices<string>(i, indices);
[11156]	271	} else if (preprocessingData.VariableHasType<DateTime>(i)) {
[10612]	272	reOrderToIndices<DateTime>(i, indices);
	273	}
[10249]	274	}
[10612]	275	});
[10249]	276	}
[10218]	277
[10820]	278	public void ShuffleToIndices(IList<System.Tuple<int, int>> indices) {
	279	preprocessingData.InTransaction(() => {
	280	for (int i = 0; i < preprocessingData.Columns; ++i) {
[11156]	281	if (preprocessingData.VariableHasType<double>(i)) {
[10718]	282	ShuffleToIndices<double>(i, indices);
[11156]	283	} else if (preprocessingData.VariableHasType<string>(i)) {
[10718]	284	ShuffleToIndices<string>(i, indices);
[11156]	285	} else if (preprocessingData.VariableHasType<DateTime>(i)) {
[10718]	286	ShuffleToIndices<DateTime>(i, indices);
	287	}
	288	}
	289	});
	290	}
	291
[10367]	292	private void reOrderToIndices<T>(int columnIndex, IList<Tuple<int, int>> indices) {
[10308]	293
[10811]	294	List<T> originalData = new List<T>(preprocessingData.GetValues<T>(columnIndex));
[10308]	295
[10249]	296	// process all columns equally
	297	foreach (Tuple<int, int> index in indices) {
	298	int originalIndex = index.Item1;
	299	int replaceIndex = index.Item2;
[10218]	300
[10308]	301	T replaceValue = originalData.ElementAt<T>(replaceIndex);
[10367]	302	preprocessingData.SetCell<T>(columnIndex, originalIndex, replaceValue);
[10249]	303	}
[10193]	304	}
[10672]	305
[10820]	306	private void ShuffleToIndices<T>(int columnIndex, IList<Tuple<int, int>> indices) {
[10718]	307	// process all columns equally
[10820]	308	foreach (Tuple<int, int> index in indices) {
[10718]	309	int originalIndex = index.Item1;
	310	int replaceIndex = index.Item2;
	311
	312	T tmp = preprocessingData.GetCell<T>(columnIndex, originalIndex);
	313	T replaceValue = preprocessingData.GetCell<T>(columnIndex, replaceIndex);
	314
	315	preprocessingData.SetCell<T>(columnIndex, originalIndex, replaceValue);
	316	preprocessingData.SetCell<T>(columnIndex, replaceIndex, tmp);
	317	}
	318	}
	319
[10672]	320	public void ReplaceIndicesByValue(IDictionary<int, IList<int>> cells, string value) {
	321	preprocessingData.InTransaction(() => {
	322	foreach (var column in cells) {
	323	foreach (var rowIdx in column.Value) {
[11002]	324	preprocessingData.SetValue(value, column.Key, rowIdx);
[10672]	325	}
	326	}
	327	});
	328	}
[10711]	329
	330
[10715]	331	public List<int> RowsWithMissingValuesGreater(double percent) {
	332
[10820]	333	List<int> rows = new List<int>();
[10715]	334
[10820]	335	for (int i = 0; i < preprocessingData.Rows; ++i) {
[10711]	336	int missingCount = statisticsLogic.GetRowMissingValueCount(i);
[10820]	337	if (100f / preprocessingData.Columns * missingCount > percent) {
[10715]	338	rows.Add(i);
[10711]	339	}
	340	}
[10715]	341
	342	return rows;
[10711]	343	}
	344
[10715]	345	public List<int> ColumnsWithMissingValuesGreater(double percent) {
	346
	347	List<int> columns = new List<int>();
[10737]	348	for (int i = 0; i < preprocessingData.Columns; ++i) {
[10711]	349	int missingCount = statisticsLogic.GetMissingValueCount(i);
[10737]	350	if (100f / preprocessingData.Rows * missingCount > percent) {
[10715]	351	columns.Add(i);
[10711]	352	}
	353	}
[10715]	354
	355	return columns;
[10711]	356	}
	357
[10715]	358	public List<int> ColumnsWithVarianceSmaller(double variance) {
	359
	360	List<int> columns = new List<int>();
[10737]	361	for (int i = 0; i < preprocessingData.Columns; ++i) {
[11156]	362	if (preprocessingData.VariableHasType<double>(i) \|\| preprocessingData.VariableHasType<DateTime>(i)) {
[10711]	363	double columnVariance = statisticsLogic.GetVariance(i);
[10820]	364	if (columnVariance < variance) {
[10715]	365	columns.Add(i);
[10711]	366	}
	367	}
	368	}
[10715]	369	return columns;
[10711]	370	}
	371
[10715]	372	public void DeleteRowsWithMissingValuesGreater(double percent) {
	373	DeleteRows(RowsWithMissingValuesGreater(percent));
	374	}
	375
	376	public void DeleteColumnsWithMissingValuesGreater(double percent) {
	377	DeleteColumns(ColumnsWithMissingValuesGreater(percent));
	378	}
	379
	380	public void DeleteColumnsWithVarianceSmaller(double variance) {
	381	DeleteColumns(ColumnsWithVarianceSmaller(variance));
	382	}
	383
[10737]	384	private void DeleteRows(List<int> rows) {
	385	rows.Sort();
	386	rows.Reverse();
[10820]	387	preprocessingData.InTransaction(() => {
	388	foreach (int row in rows) {
[10715]	389	preprocessingData.DeleteRow(row);
	390	}
	391	});
	392	}
	393
[10737]	394	private void DeleteColumns(List<int> columns) {
	395	columns.Sort();
	396	columns.Reverse();
[10820]	397	preprocessingData.InTransaction(() => {
	398	foreach (int column in columns) {
[10715]	399	preprocessingData.DeleteColumn(column);
	400	}
	401	});
	402	}
[10737]	403
[10249]	404	}
[10193]	405	}

Note: See TracBrowser for help on using the repository browser.

Download in other formats:

Update cookies preferences