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package bjc.utils.funcutils;
import java.util.Deque;
import java.util.function.Consumer;
import java.util.function.Function;
import bjc.utils.data.GenHolder;
import bjc.utils.data.Pair;
import bjc.utils.funcdata.FunctionalList;
/**
* Utilities for manipulating FunctionalLists that don't belong in the
* class itself
*
* @author ben
*
*/
public class ListUtils {
private static final int MAX_NTRIESPART = 50;
/**
* Implements a single group partitioning pass on a list
*
* @author ben
*
* @param <E>
* The type of element in the list being partitioned
*/
private static final class GroupPartIteration<E>
implements Consumer<E> {
private FunctionalList<FunctionalList<E>> ret;
private GenHolder<FunctionalList<E>> currPart;
private FunctionalList<E> rejects;
private GenHolder<Integer> numInCurrPart;
private int nPerPart;
private Function<E, Integer> eleCount;
public GroupPartIteration(FunctionalList<FunctionalList<E>> ret,
GenHolder<FunctionalList<E>> currPart,
FunctionalList<E> rejects,
GenHolder<Integer> numInCurrPart, int nPerPart,
Function<E, Integer> eleCount) {
this.ret = ret;
this.currPart = currPart;
this.rejects = rejects;
this.numInCurrPart = numInCurrPart;
this.nPerPart = nPerPart;
this.eleCount = eleCount;
}
@Override
public void accept(E val) {
if (numInCurrPart.unwrap((vl) -> vl >= nPerPart)) {
ret.add(currPart.unwrap((vl) -> vl));
currPart.transform((vl) -> new FunctionalList<>());
numInCurrPart.transform((vl) -> 0);
} else {
int vCount = eleCount.apply(val);
if (numInCurrPart
.unwrap((vl) -> (vl + vCount) >= nPerPart)) {
rejects.add(val);
} else {
currPart.unwrap((vl) -> vl.add(val));
numInCurrPart.transform((vl) -> vl + vCount);
}
}
}
}
/**
* Partition a list into a list of lists, where each element can count
* for more than one element in a partition
*
* @param <E>
* The type of elements in the list to partition
*
* @param list
* The list to partition
* @param eleCount
* The function to determine the count for each element for
* @param nPerPart
* The number of elements to put in each partition
* @return A list partitioned according to the above rules
*/
public static <E> FunctionalList<FunctionalList<E>> groupPartition(
FunctionalList<E> list, Function<E, Integer> eleCount,
int nPerPart) {
/*
* List that holds our results
*/
FunctionalList<FunctionalList<E>> ret = new FunctionalList<>();
/*
* List that holds current partition
*/
GenHolder<FunctionalList<E>> currPart = new GenHolder<>(
new FunctionalList<>());
/*
* List that holds elements rejected during current pass
*/
FunctionalList<E> rejects = new FunctionalList<>();
/*
* The effective number of elements in the current partitition
*/
GenHolder<Integer> numInCurrPart = new GenHolder<>(0);
/*
* Run up to a certain number of passes
*/
for (int nIterations = 0; nIterations < MAX_NTRIESPART
&& !rejects.isEmpty(); nIterations++) {
list.forEach(new GroupPartIteration<>(ret, currPart, rejects,
numInCurrPart, nPerPart, eleCount));
if (rejects.isEmpty()) {
// Nothing was rejected, so we're done
return ret;
}
}
throw new IllegalArgumentException("Heuristic (more than "
+ MAX_NTRIESPART
+ " iterations of partitioning) detected unpartitionable list "
+ list.toString()
+ "\nThe following elements were not partitioned: "
+ rejects.toString() + "\nCurrent group in formation: "
+ currPart.unwrap((vl) -> vl.toString())
+ "\nPreviously formed groups: " + ret.toString());
}
/**
* Split tokens in a list of tokens into multiple tokens.
*
* The intended use is for expression parsers so that you can enter
* something like 1+1 instead of 1 + 1.
*
* @param input
* The tokens to split
* @param ops
* The operators to split on.
* @return A list of tokens split on all the operators
*/
public static FunctionalList<String> splitTokens(
FunctionalList<String> input,
Deque<Pair<String, String>> ops) {
GenHolder<FunctionalList<String>> ret = new GenHolder<>(input);
ops.forEach(
(op) -> ret.transform((oldRet) -> oldRet.flatMap((tok) -> {
return op.merge((opName, opRegex) -> {
if (tok.contains(opName)) {
FunctionalList<String> splitTokens = new FunctionalList<>(
tok.split(opRegex));
FunctionalList<String> rt = new FunctionalList<>();
int tkSize = splitTokens.getSize();
splitTokens.forEachIndexed((idx, tk) -> {
if (idx != tkSize && idx != 0) {
rt.add(opName);
rt.add(tk);
} else {
rt.add(tk);
}
});
return rt;
} else {
return new FunctionalList<>(tok);
}
});
})));
return ret.unwrap((l) -> l);
}
/**
* Split off affixes from tokens
*
* @param input
* The tokens to deaffix
* @param ops
* The affixes to remove
* @return The tokens that have been deaffixed
*/
@SuppressWarnings("unchecked")
public static FunctionalList<String> deAffixTokens(
FunctionalList<String> input,
Deque<Pair<String, String>> ops) {
GenHolder<FunctionalList<String>> ret = new GenHolder<>(input);
ops.forEach(
(op) -> ret.transform((oldRet) -> oldRet.flatMap((tok) -> {
return (FunctionalList<String>) op
.merge((opName, opRegex) -> {
if (tok.startsWith(opName)) {
return new FunctionalList<>(op,
tok.split(opRegex)[1]);
} else if (tok.endsWith(opName)) {
return new FunctionalList<>(
tok.split(opRegex)[0], op);
} else {
return new FunctionalList<>(tok);
}
});
})));
return ret.unwrap((l) -> l);
}
/**
* Collapse a string of tokens into a single string without adding any
* spaces
*
* @param input
* The list of tokens to collapse
* @return The collapsed string of tokens
*/
public static String collapseTokens(FunctionalList<String> input) {
return input.reduceAux("",
(currString, state) -> state + currString, (s) -> s);
}
}
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