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package ml;
import java.io.File;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.Random;
import fileIO.ByteFile;
import fileIO.FileFormat;
import shared.Parse;
import shared.Shared;
import shared.Tools;
import structures.IntList;
public class DataLoader {
private DataLoader(String fname_){
fnames=new File(fname_).exists() ?
new String[] {fname_} : Tools.commaPattern.split(fname_);
}
public static Matrix[] split(Matrix m, float fraction, int maxLines1, boolean exclusive) {
if(!exclusive) {fraction=1;}//For convenience...
Matrix[] array=new Matrix[] {new Matrix(), new Matrix()};
@SuppressWarnings("unchecked")
ArrayList<float[]>[] inputs=new ArrayList[] {new ArrayList<float[]>(), new ArrayList<float[]>()};
@SuppressWarnings("unchecked")
ArrayList<float[]>[] outputs=new ArrayList[] {new ArrayList<float[]>(), new ArrayList<float[]>()};
for(Matrix n : array) {
n.dims=m.dims;
n.numInputs=m.numInputs;
n.numOutputs=m.numOutputs;
n.columns=m.columns;
}
Random randy=new Random(0);
for(int i=0; i<m.inputs.length; i++) {
float[] in=m.inputs[i], out=m.outputs[i];
int positive=(out[0]>=0.5f ? 1 : 0);
int negative=positive^1;
int pick=(randy.nextFloat()>=fraction || inputs[1].size()>=maxLines1) ? 0 : 1;
inputs[pick].add(in);
outputs[pick].add(out);
array[pick].numNegative+=negative;
array[pick].numPositive+=positive;
array[pick].validLines++;
}
for(int set=0; set<array.length; set++){
Matrix n=array[set];
n.inputs=new float[inputs[set].size()][];
n.outputs=new float[outputs[set].size()][];
for(int i=0; i<n.inputs.length; i++) {
n.inputs[i]=inputs[set].get(i);
n.outputs[i]=outputs[set].get(i);
}
n.data=new float[][][] {n.inputs, n.outputs};
if(exclusive || set>0) {n.detectRange();}
}
if(!exclusive) {array[0]=m;}
return array;
}
public static SampleSet[] load(String fname, int maxLines0, boolean shuffleRaw,
float splitFraction, int maxLines1, boolean exclusive, float balance) {
DataLoader dl=new DataLoader(fname);
dl.load(maxLines0, shuffleRaw || splitFraction>0, balance);
lastValidLines=dl.validLines;
lastInvalidLines=dl.invalidLines;
if(splitFraction<=0) {
return new SampleSet[] {new SampleSet(dl.matrix)};
}else {
Matrix[] array=split(dl.matrix, splitFraction, maxLines1, exclusive);
return new SampleSet[] {new SampleSet(array[0]), new SampleSet(array[1])};
}
}
private void load(final int maxLines, final boolean shuffleRaw, final float balance) {
// bf.reset();
matrix=new Matrix();
ArrayList<float[]> inputList=new ArrayList<float[]>();
ArrayList<float[]> outputList=new ArrayList<float[]>();
byte[] s=null;
final int max=(shuffleRaw ? Shared.MAX_ARRAY_LEN : maxLines);
for(String f : fnames) {
FileFormat ff=FileFormat.testInput(f, FileFormat.TEXT, null, true, false);
ByteFile bf=ByteFile.makeByteFile(ff);
for(s=bf.nextLine(); s!=null && validLines<max; s=bf.nextLine()){
if(s.length>0) {
if(s[0]=='#') {//TODO: When processing multiple files,
if(Tools.startsWith(s, "#dims")) {
matrix.dims=parseIntArray(s, delimiter, true);
matrix.numInputs=matrix.dims[0];
matrix.numOutputs=matrix.dims[matrix.dims.length-1];
assert(matrix.dims.length>1) : matrix.dims.length+", "+Arrays.toString(matrix.dims)+", '"+new String(s)+"'";
}else if(Tools.startsWith(s, "#inputs")) {
matrix.numInputs=parseInt(s);
}else if(Tools.startsWith(s, "#outputs")) {
matrix.numOutputs=parseInt(s);
}else if(Tools.startsWith(s, "##")) {
matrix.columns=new ArrayList<String>(Arrays.asList(new String(s).split("\t")));
matrix.columns.set(0, matrix.columns.get(0).substring(2));//Trim ##
}else {
//comment
}
}else {
if(matrix.numInputs==0) {
int terms=Tools.split(s, 0, (byte)'\t').size();
matrix.numInputs=terms-1;
matrix.numOutputs=1;
System.err.println("Inferring "+matrix.numInputs+" inputs, "+matrix.numOutputs+" output.");
}
assert(matrix.numInputs>0 & matrix.numOutputs>0) :
"Number of inputs and outputs must be in data file header, e.g. '#inputs 5'";
float[] inputs=new float[matrix.numInputs];
float[] outputs=new float[matrix.numOutputs];
boolean valid=parseDataLine(s, inputs, outputs);
if(valid) {
inputList.add(inputs);
outputList.add(outputs);
validLines++;
}else {
invalidLines++;
}
}
}
}
bf.close();
if(validLines>=max) {break;}
}
if(shuffleRaw) {shuffle(inputList, outputList, maxLines);}
if(balance>0) {balance(inputList, outputList, balance);}
matrix.inputs=new float[inputList.size()][];
matrix.outputs=new float[outputList.size()][];
for(int i=0; i<matrix.inputs.length; i++) {
matrix.inputs[i]=inputList.get(i);
matrix.outputs[i]=outputList.get(i);
}
matrix.data=new float[][][] {matrix.inputs, matrix.outputs};
matrix.initializeRange();
// assert(false) : validLines+", "+invalidLines+", "+matrix.inputs.length+"\n"+matrix.toString();
// assert(false) : Arrays.toString(matrix.inputs[0])+"\n"+Arrays.toString(matrix.outputs[0])+
// ", "+matrix.targetOutputRangeMax;
}
private static void shuffle(ArrayList<float[]> inputList, ArrayList<float[]> outputList, int maxLines) {
ArrayList<Pair> list=new ArrayList<Pair>(inputList.size());
for(int i=0; i<inputList.size(); i++){
Pair p=new Pair(inputList.get(i), outputList.get(i));
list.add(p);
}
Random randy=new Random(SampleSet.shuffleSeed);
Collections.shuffle(list, randy);
//TODO
inputList.clear();
outputList.clear();
for(int i=0, lim=Tools.min(maxLines, list.size()); i<lim; i++) {
Pair p=list.get(i);
inputList.add(p.in);
outputList.add(p.out);
}
}
private static void balance(ArrayList<float[]> inputList, ArrayList<float[]> outputList, float mult) {
int pos=0, neg=0;
assert(mult>0 && mult<=1);
for(float[] out : outputList) {
if(out[0]>=0.5f) {pos++;} else {neg++;}
}
final int target=(int)(Tools.max(pos, neg)*mult);
if(pos>=target && neg>=target) {return;}
assert(pos>=target || neg>=target);
if(pos<1 || neg<1) {
throw new RuntimeException("Can't balance with zero examples: pos="+pos+", neg="+neg);
}
for(int i=0; i<inputList.size() && (pos<target || neg<target); i++) {
float[] in=inputList.get(i), out=outputList.get(i);
if(out[0]>=0.5 && pos<target) {
pos++;
inputList.add(in);
outputList.add(out);
}else if(out[0]<0.5f && neg<target) {
pos++;
inputList.add(in);
outputList.add(out);
}
}
shuffle(inputList, outputList, inputList.size());
}
boolean parseDataLine(byte[] line, float[] inputs, float[] outputs) {
int a=0, b=0;
for(int i=0; i<matrix.numInputs; i++) {
while(b<line.length && line[b]!=delimiter){b++;}
if(b<=a && IGNORE_BAD_LINES) {return false;}
assert(b>a) : "Missing input "+i+" : '"+new String(line)+"'";
float value=Parse.parseFloat(line, a, b);
b++;
a=b;
inputs[i]=value;
}
for(int i=0; i<matrix.numOutputs; i++) {
while(b<line.length && line[b]!=delimiter){b++;}
if(b<=a && IGNORE_BAD_LINES) {return false;}
assert(b>a) : "Missing output "+i+" : '"+new String(line)+"'";
float value=Parse.parseFloat(line, a, b);
b++;
a=b;
outputs[i]=value;
}
if(b<=line.length && IGNORE_BAD_LINES) {return false;}
assert(b>line.length) : "\nExtra characters for line '"+new String(line)+
"'; numInputs="+matrix.numInputs+", numOutputs="+matrix.numOutputs+
", "+b+", "+line.length+"\n"+Arrays.toString(inputs)+"\n"+Arrays.toString(outputs)+"\n";
return true;
}
/*--------------------------------------------------------------*/
/*---------------- Parsing ----------------*/
/*--------------------------------------------------------------*/
private static int parseInt(byte[] line){
int idx=Tools.indexOf(line, delimiter);
return Parse.parseInt(line, idx+1, line.length);
}
public static int[] parseIntArray(final byte[] line, final byte delimiter, boolean parseTitle){
int a=0, b=0;
IntList list=new IntList(3);
if(parseTitle) {
while(b<line.length && line[b]!=delimiter){b++;}
assert(b>a) : "Missing Title: "+new String(line);
b++;
a=b;
}
while(a<line.length) {
while(b<line.length && line[b]!=delimiter){b++;}
assert(b>a) : "Missing element "+list.size+": '"+new String(line)+"'";
int x=Parse.parseInt(line, a, b);
// assert(x>0) : new String(line);
list.add(x);
b++;
a=b;
}
return list.toArray();
}
/*--------------------------------------------------------------*/
private static class Pair{
Pair(float[] in_, float[] out_){
in=in_;
out=out_;
}
final float[] in, out;
}
/*--------------------------------------------------------------*/
/*---------------- Fields ----------------*/
/*--------------------------------------------------------------*/
String fnames[];
Matrix matrix;
// SampleSet ss;
int pos=0;
long validLines=0;
long invalidLines=0;
static long lastValidLines=0;
static long lastInvalidLines=0;
public static final byte delimiter='\t';
public static boolean IGNORE_BAD_LINES=false;
}
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