completed the porting from c++ code, also fixed one or two errors that might be introduced during the original porting.

This commit is contained in:
yongsunCN 2016-01-18 13:36:30 -05:00
parent 68fd7509f9
commit c787873a2e
11 changed files with 617 additions and 222 deletions

View File

@ -1,5 +1,7 @@
package no.birkett.kiwi;
import java.util.*;
/**
* Created by alex on 30/01/15.
*/
@ -17,7 +19,7 @@ public class Constraint {
}
public Constraint(Expression expr, RelationalOperator op, double strength) {
this.expression = expr;
this.expression = reduce(expr);
this.op = op;
this.strength = Strength.clip(strength);
}
@ -26,6 +28,26 @@ public class Constraint {
this(other.expression, other.op, strength);
}
private static Expression reduce(Expression expr){
Map<Variable, Double> vars = new LinkedHashMap<>();
for(Term term: expr.getTerms()){
Double value = vars.get(term.getVariable());
if(value == null){
value = 0.0;
}
value += term.coefficient;
vars.put(term.getVariable(), value);
}
List<Term> reducedTerms = new ArrayList<>();
for(Variable variable: vars.keySet()){
reducedTerms.add(new Term(variable, vars.get(variable)));
}
return new Expression(reducedTerms, expr.getConstant());
}
public Expression getExpression() {
return expression;
}

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@ -0,0 +1,8 @@
package no.birkett.kiwi;
/**
* Created by yongsun on 1/13/16.
*/
public class DuplicateEditVariableException extends Exception {
}

View File

@ -1,6 +1,7 @@
package no.birkett.kiwi;
import java.util.HashMap;
import java.util.LinkedHashMap;
import java.util.Map;
import java.util.Set;
@ -11,7 +12,7 @@ public class Row {
private double constant;
private Map<Symbol, Double> cells = new HashMap<Symbol, Double>();
private Map<Symbol, Double> cells = new LinkedHashMap<>();
public Row() {
this(0);
@ -22,10 +23,20 @@ public class Row {
}
public Row(Row other) {
this.cells = other.cells;
this.cells = new LinkedHashMap<>(other.cells);
this.constant = other.constant;
}
public Row deepCopy(){
Row result = new Row();
result.constant = this.constant;
result.cells = new LinkedHashMap<>();
for(Symbol s: this.cells.keySet()){
result.cells.put(s, this.cells.get(s));
}
return result;
}
public double getConstant() {
return constant;
}
@ -60,16 +71,28 @@ public class Row {
*/
void insert(Symbol symbol, double coefficient) {
Double existingCoefficient = cells.get(symbol);
//this looks different than c++ code
// Double existingCoefficient = cells.get(symbol);
//
// if (existingCoefficient != null) {
// coefficient = existingCoefficient;
// }
//
// if (Util.nearZero(coefficient)) {
// cells.remove(symbol);
// } else {
// cells.put(symbol, coefficient);
// }
if (existingCoefficient != null) {
coefficient = existingCoefficient;
//changes start here
Double value = this.cells.get(symbol);
if(value == null){
this.cells.put(symbol, 0.0);
}
if (Util.nearZero(coefficient)) {
cells.remove(symbol);
} else {
cells.put(symbol, Double.valueOf(coefficient));
double temp = this.cells.get(symbol) + coefficient;
this.cells.put(symbol, temp);
if(Util.nearZero(temp)){
this.cells.remove(symbol);
}
}
@ -96,11 +119,21 @@ public class Row {
void insert(Row other, double coefficient) {
this.constant += other.constant * coefficient;
Set<Map.Entry<Symbol, Double>> map = other.getCells().entrySet();
for(Symbol s: other.cells.keySet()){
double coeff = other.cells.get(s) * coefficient;
for (Map.Entry<Symbol, Double> entry : map) {
double coeff = entry.getValue() * coefficient;
insert(entry.getKey(), coeff);
//insert(s, coeff); this line looks different than the c++
//changes start here
Double value = this.cells.get(s);
if(value == null){
this.cells.put(s, 0.0);
}
double temp = this.cells.get(s) + coeff;
this.cells.put(s, temp);
if(Util.nearZero(temp)){
this.cells.remove(s);
}
}
}
@ -113,7 +146,7 @@ public class Row {
* @param other
*/
void insert(Row other) {
insert(other, 0);
insert(other, 1.0);
}
/**
@ -134,11 +167,12 @@ public class Row {
void reverseSign() {
this.constant = -this.constant;
Set<Map.Entry<Symbol, Double>> map = getCells().entrySet();
for (Map.Entry<Symbol, Double> entry : map) {
entry.setValue(-entry.getValue());
Map<Symbol, Double> newCells = new LinkedHashMap<>();
for(Symbol s: cells.keySet()){
double value = - cells.get(s);
newCells.put(s, value);
}
this.cells = newCells;
}
/**
@ -158,11 +192,12 @@ public class Row {
cells.remove(symbol);
this.constant *= coeff;
Set<Map.Entry<Symbol, Double>> map = getCells().entrySet();
for (Map.Entry<Symbol, Double> entry : map) {
entry.setValue(entry.getValue() * coeff);
HashMap<Symbol, Double> newCells = new LinkedHashMap<>();
for(Symbol s: cells.keySet()){
double value = cells.get(s) * coeff;
newCells.put(s, value);
}
this.cells = newCells;
}
/**

View File

@ -1,6 +1,8 @@
package no.birkett.kiwi;
import com.oracle.tools.packager.Log;
import java.util.*;
/**
@ -11,23 +13,29 @@ public class Solver {
private static class Tag {
Symbol marker;
Symbol other;
public Tag(){
marker = new Symbol();
other = new Symbol();
}
}
private static class EditInfo {
Tag tag;
Constraint constraint;
double constant;
public EditInfo(Constraint constraint, Tag tag, double constant){
this.constraint = constraint;
this.tag = tag;
this.constant = constant;
}
}
private static class RowAndTag {
Tag tag;
Row row;
}
private Map<Constraint, Tag> cns = new HashMap<Constraint, Tag>();
private Map<Symbol, Row> rows = new HashMap<Symbol, Row>();
private Map<Variable, Symbol> vars = new HashMap<Variable, Symbol>();
private Map<Variable, EditInfo> edits = new HashMap<Variable, EditInfo>();
private Map<Constraint, Tag> cns = new LinkedHashMap<Constraint, Tag>();
private Map<Symbol, Row> rows = new LinkedHashMap<Symbol, Row>();
private Map<Variable, Symbol> vars = new LinkedHashMap<Variable, Symbol>();
private Map<Variable, EditInfo> edits = new LinkedHashMap<Variable, EditInfo>();
private List<Symbol> infeasibleRows = new ArrayList<Symbol>();
private Row objective = new Row();
private Row artificial;
@ -47,50 +55,219 @@ public class Solver {
throw new DuplicateConstraintException(constraint);
}
// Creating a row causes symbols to reserved for the variables
// in the constraint. If this method exits with an exception,
// then its possible those variables will linger in the var map.
// Since its likely that those variables will be used in other
// constraints and since exceptional conditions are uncommon,
// i'm not too worried about aggressive cleanup of the var map.
Tag tag = new Tag();
Row row = createRow(constraint, tag);
Symbol subject = chooseSubject(row, tag);
RowAndTag rowAndTag = createRow(constraint);
Symbol subject = chooseSubject(rowAndTag.row, rowAndTag.tag);
// If chooseSubject could find a valid entering symbol, one
// last option is available if the entire row is composed of
// dummy variables. If the constant of the row is zero, then
// this represents redundant constraints and the new dummy
// marker can enter the basis. If the constant is non-zero,
// then it represents an unsatisfiable constraint.
if (subject.getType() == Symbol.Type.INVALID && allDummies(rowAndTag.row)) {
if (!Util.nearZero(rowAndTag.row.getConstant())) {
if(subject.getType() == Symbol.Type.INVALID && allDummies(row)){
if (!Util.nearZero(row.getConstant())) {
throw new UnsatisfiableConstraintException(constraint);
} else {
subject = rowAndTag.tag.marker;
subject = tag.marker;
}
}
// If an entering symbol still isn't found, then the row must
// be added using an artificial variable. If that fails, then
// the row represents an unsatisfiable constraint.
if (subject.getType() == Symbol.Type.INVALID) {
if (!addWithArtificialVariable(rowAndTag.row)) {
if (!addWithArtificialVariable(row)) {
throw new UnsatisfiableConstraintException(constraint);
}
} else {
rowAndTag.row.solveFor(subject);
substitute(subject, rowAndTag.row);
this.rows.put(subject, rowAndTag.row);
row.solveFor(subject);
substitute(subject, row);
this.rows.put(subject, row);
}
this.cns.put(constraint, rowAndTag.tag);
this.cns.put(constraint, tag);
// Optimizing after each constraint is added performs less
// aggregate work due to a smaller average system size. It
// also ensures the solver remains in a consistent state.
optimize(this.objective);
optimize(objective);
}
void removeConstraint(Constraint constraint) throws UnknownConstraintException, InternalSolverError{
Tag tag = cns.get(constraint);
if(tag == null){
throw new UnknownConstraintException(constraint);
}
cns.remove(constraint);
removeConstraintEffects(constraint, tag);
Row row = rows.get(tag.marker);
if(row != null){
rows.remove(tag.marker);
}
else{
row = getMarkerLeavingRow(tag.marker);
if(row == null){
throw new InternalSolverError("internal solver error");
}
//This looks wrong! changes made below
//Symbol leaving = tag.marker;
//rows.remove(tag.marker);
Symbol leaving = null;
for(Symbol s: rows.keySet()){
if(rows.get(s) == row){
leaving = s;
}
}
if(leaving == null){
throw new InternalSolverError("internal solver error");
}
rows.remove(leaving);
row.solveFor(leaving, tag.marker);
substitute(tag.marker, row);
}
optimize(objective);
}
void removeConstraintEffects(Constraint constraint, Tag tag){
if(tag.marker.getType() == Symbol.Type.ERROR){
removeMarkerEffects(tag.marker, constraint.getStrength());
}
else if(tag.other.getType() == Symbol.Type.ERROR){
removeMarkerEffects(tag.other, constraint.getStrength());
}
}
void removeMarkerEffects(Symbol marker, double strength){
Row row = rows.get(marker);
if(row != null){
objective.insert(row, -strength);
}else {
objective.insert(marker, -strength);
}
}
Row getMarkerLeavingRow(Symbol marker){
double dmax = Double.MAX_VALUE;
double r1 = dmax;
double r2 = dmax;
Row first = null;
Row second = null;
Row third = null;
for(Symbol s: rows.keySet()){
Row candidateRow = rows.get(s);
double c = candidateRow.coefficientFor(marker);
if(c == 0.0){
continue;
}
if(s.getType() == Symbol.Type.EXTERNAL){
third = candidateRow;
}
else if(c < 0.0){
double r = - candidateRow.getConstant() / c;
if(r < r1){
r1 = r;
first = candidateRow;
}
}
else{
double r = candidateRow.getConstant() / c;
if(r < r2){
r2 = r;
second = candidateRow;
}
}
}
if(first != null){
return first;
}
if(second != null){
return second;
}
return third;
}
public boolean hasConstraint(Constraint constraint){
return cns.containsKey(constraint);
}
public void addEditVariable(Variable variable, double strength) throws DuplicateEditVariableException, RequiredFailureException{
if(edits.containsKey(variable)){
throw new DuplicateEditVariableException();
}
strength = Strength.clip(strength);
if(strength == Strength.REQUIRED){
throw new RequiredFailureException();
}
List<Term> terms = new ArrayList<>();
terms.add(new Term(variable));
Constraint constraint = new Constraint(new Expression(terms), RelationalOperator.OP_EQ, strength);
try {
addConstraint(constraint);
} catch (DuplicateConstraintException e) {
e.printStackTrace();
} catch (UnsatisfiableConstraintException e) {
e.printStackTrace();
}
EditInfo info = new EditInfo(constraint, cns.get(constraint), 0.0);
edits.put(variable, info);
}
public void removeEditVariable(Variable variable) throws UnknownEditVariableException{
EditInfo edit = edits.get(variable);
if(edit == null){
throw new UnknownEditVariableException();
}
try {
removeConstraint(edit.constraint);
} catch (UnknownConstraintException e) {
e.printStackTrace();
}
edits.remove(variable);
}
public boolean hasEditVariable(Variable variable){
return edits.containsKey(variable);
}
public void suggestValue(Variable variable, double value) throws UnknownEditVariableException{
EditInfo info = edits.get(variable);
if(info == null){
throw new UnknownEditVariableException();
}
double delta = value - info.constant;
info.constant = value;
Row row = rows.get(info.tag.marker);
if(row != null){
if(row.add(-delta) < 0.0){
infeasibleRows.add(info.tag.marker);
}
return;
}
row = rows.get(info.tag.other);
if(row != null){
if(row.add(delta) < 0.0){
infeasibleRows.add(info.tag.other);
}
return;
}
for(Symbol s: rows.keySet()){
Row currentRow = rows.get(s);
double coefficient = currentRow.coefficientFor(info.tag.marker);
if(coefficient != 0.0 && currentRow.add(delta * coefficient) < 0.0 && s.getType() != Symbol.Type.EXTERNAL){
infeasibleRows.add(s);
}
}
dualOptimize();
}
/**
@ -128,14 +305,11 @@ public class Solver {
* The tag will be updated with the marker and error symbols to use
* for tracking the movement of the constraint in the tableau.
*/
RowAndTag createRow(Constraint constraint) {
Row createRow(Constraint constraint, Tag tag) {
Expression expression = constraint.getExpression();
Row row = new Row(expression.getConstant());
Expression expr = constraint.getExpression();
Row row = new Row(expr.getConstant());
Tag tag = new Tag();
// Substitute the current basic variables into the row.
for (Term term : expr.getTerms()) {
for (Term term : expression.getTerms()) {
if (!Util.nearZero(term.getCoefficient())) {
Symbol symbol = getVarSymbol(term.getVariable());
@ -149,7 +323,6 @@ public class Solver {
}
}
// Add the necessary slack, error, and dummy variables.
switch (constraint.getOp()) {
case OP_LE:
case OP_GE: {
@ -189,12 +362,7 @@ public class Solver {
row.reverseSign();
}
RowAndTag rowAndTag = new RowAndTag();
rowAndTag.row = row;
rowAndTag.tag = tag;
return rowAndTag;
return row;
}
/**
@ -237,9 +405,9 @@ public class Solver {
// Create and add the artificial variable to the tableau
Symbol art = new Symbol(Symbol.Type.SLACK, idTick++);
rows.put(art, new Row(row));
rows.put(art, row.deepCopy());
this.artificial = new Row(row);
this.artificial = row.deepCopy();
// Optimize the artificial objective. This is successful
// only if the artificial objective is optimized to zero.
@ -253,10 +421,25 @@ public class Solver {
Row rowptr = this.rows.get(art);
if (rowptr != null) {
rows.remove(rowptr);
/**this looks wrong!!!*/
//rows.remove(rowptr);
LinkedList<Symbol> deleteQueue = new LinkedList<>();
for(Symbol s: rows.keySet()){
if(rows.get(s) == rowptr){
deleteQueue.add(s);
}
}
while(!deleteQueue.isEmpty()){
rows.remove(deleteQueue.pop());
}
deleteQueue.clear();
if (rowptr.getCells().isEmpty()) {
return success;
}
Symbol entering = anyPivotableSymbol(rowptr);
if (entering.getType() == Symbol.Type.INVALID) {
return false; // unsatisfiable (will this ever happen?)
@ -312,23 +495,46 @@ public class Solver {
return;
}
Map.Entry<Symbol, Row> entry = getLeavingRow(entering);
Row entry = getLeavingRow(entering);
if(entry == null){
throw new InternalSolverError("The objective is unbounded.");
}
Symbol leaving = null;
if (entry == null) {
throw new InternalSolverError("The objective is unbounded.");
for(Symbol key: rows.keySet()){
if(rows.get(key) == entry){
leaving = key;
}
}
// pivot the entering symbol into the basis
Symbol leaving = entry.getKey();
Row row = entry.getValue();
Symbol entryKey = null;
for(Symbol key: rows.keySet()){
if(rows.get(key) == entry){
entryKey = key;
}
}
this.rows.remove(entry.getKey());
rows.remove(entryKey);
entry.solveFor(leaving, entering);
substitute(entering, entry);
rows.put(entering, entry);
}
}
row.solveFor(leaving, entering);
substitute(entering, row);
this.rows.put(entering, row);
void dualOptimize() throws InternalSolverError{
while(!infeasibleRows.isEmpty()){
Symbol leaving = infeasibleRows.remove(infeasibleRows.size() - 1);
Row row = rows.get(leaving);
if(row != null && row.getConstant() < 0.0){
Symbol entering = getDualEnteringSymbol(row);
if(entering.getType() == Symbol.Type.INVALID){
throw new InternalSolverError("internal solver error");
}
rows.remove(entering);
row.solveFor(leaving, entering);
substitute(entering, row);
rows.put(entering, row);
}
}
}
@ -353,6 +559,26 @@ public class Solver {
}
private Symbol getDualEnteringSymbol(Row row){
Symbol entering = new Symbol();
double ratio = Double.MAX_VALUE;
for(Symbol s: row.getCells().keySet()){
if(s.getType() != Symbol.Type.DUMMY){
double currentCell = row.getCells().get(s);
if(currentCell > 0.0){
double coefficient = objective.coefficientFor(s);
double r = coefficient / currentCell;
if(r < ratio){
ratio = r;
entering = s;
}
}
}
}
return entering;
}
/**
* Get the first Slack or Error symbol in the row.
* <p/>
@ -360,7 +586,7 @@ public class Solver {
*/
private Symbol anyPivotableSymbol(Row row) {
Symbol symbol = null;
for (Map.Entry<Symbol, Double> entry : objective.getCells().entrySet()) {
for (Map.Entry<Symbol, Double> entry : row.getCells().entrySet()) {
if (entry.getKey().getType() == Symbol.Type.SLACK || entry.getKey().getType() == Symbol.Type.ERROR) {
symbol = entry.getKey();
}
@ -382,23 +608,24 @@ public class Solver {
* found, the end() iterator will be returned. This indicates that
* the objective function is unbounded.
*/
private Map.Entry<Symbol, Row> getLeavingRow(Symbol entering) {
// TODO check
private Row getLeavingRow(Symbol entering) {
double ratio = Double.MAX_VALUE;
Map.Entry<Symbol, Row> found = null;
for (Map.Entry<Symbol, Row> row : rows.entrySet()) {
if (row.getKey().getType() != Symbol.Type.EXTERNAL) {
double temp = row.getValue().coefficientFor(entering);
if (temp < 0.0) {
double temp_ratio = -row.getValue().getConstant() / temp;
if (temp_ratio < ratio) {
Row row = null;
for(Symbol key: rows.keySet()){
if(key.getType() != Symbol.Type.EXTERNAL){
Row candidateRow = rows.get(key);
double temp = candidateRow.coefficientFor(entering);
if(temp < 0){
double temp_ratio = (-candidateRow.getConstant() / temp);
if(temp_ratio < ratio){
ratio = temp_ratio;
found = row;
row = candidateRow;
}
}
}
}
return found;
return row;
}
/**
@ -412,6 +639,7 @@ public class Solver {
symbol = vars.get(variable);
} else {
symbol = new Symbol(Symbol.Type.EXTERNAL, idTick++);
symbol.setVariableName(variable.getName());
vars.put(variable, symbol);
}
return symbol;

View File

@ -15,6 +15,7 @@ public class Symbol {
private Type type;
private long id;
private String variableName;
public Symbol() {
this(Type.INVALID, 0);
@ -41,6 +42,14 @@ public class Symbol {
this.id = id;
}
public String getVariableName() {
return variableName;
}
public void setVariableName(String variableName) {
this.variableName = variableName;
}
boolean lessThan(Symbol other) {
return this.id < other.getId();
}

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@ -0,0 +1,11 @@
package no.birkett.kiwi;
/**
* Created by yongsun on 1/13/16.
*/
public class UnknownConstraintException extends Exception {
public UnknownConstraintException(Constraint constraint){
}
}

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@ -0,0 +1,7 @@
package no.birkett.kiwi;
/**
* Created by yongsun on 1/13/16.
*/
public class UnknownEditVariableException extends Exception {
}

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@ -24,4 +24,7 @@ public class Variable {
this.value = value;
}
public String getName() {
return name;
}
}

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@ -1,8 +1,6 @@
package no.birkett.kiwi;
import java.util.ArrayList;
import java.util.List;
import java.util.Stack;
import java.util.*;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
@ -31,8 +29,7 @@ public class ConstraintParser {
Expression expression = resolveExpression(matcher.group(3), variableResolver);
double strength = parseStrength(matcher.group(4));
return new Constraint(Symbolics.subtract(variable, expression), operator);
return new Constraint(Symbolics.subtract(variable, expression), operator, strength);
} else {
throw new RuntimeException("could not parse " + constraintString);
}

View File

@ -2,9 +2,7 @@ package no.birkett.kiwi;
import org.junit.Test;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import java.util.*;
import static org.junit.Assert.assertEquals;
@ -35,93 +33,114 @@ public class RealWorldTests {
private static final String[] CONSTRAINTS = {
"container.columnWidth == container.width * 0.4",
"container.thumbHeight == container.columnWidth / 2",
"container.padding == container.width * (0.2 / 3)",
// "container.width == 500",
// "container.height == 500",
// "container.left == 0",
// "container.top == 0",
//
// "view.left == container.left + 100",
// "view.top == container.top + 100",
// "view.bottom == container.bottom - 100",
// "view.right == container.right - 100",
//
// "view2.left == view.left",
// "view2.right <= view.right",
// "view2.width == 250 !weak"
"container.columnWidth == container.width * 0.4 + 30",
"container.thumbHeight == container.columnWidth / 2 - 25",
"container.padding == container.width * 0.1",
"container.leftPadding == container.padding",
"container.rightPadding == container.width - container.padding",
"container.rightPadding == container.width * 1.5 - 30",
"container.paddingUnderThumb == 5",
"container.rowPadding == 15",
"container.buttonPadding == 20",
"container.width == 200 !medium"
"thumb0.left == container.leftPadding",
"thumb0.top == container.padding",
"thumb0.height == container.thumbHeight",
"thumb0.width == container.columnWidth",
"title0.left == container.leftPadding",
"title0.top == thumb0.bottom + container.paddingUnderThumb",
"title0.height == title0.intrinsicHeight",
"title0.width == container.columnWidth",
"thumb1.right == container.rightPadding",
"thumb1.top == container.padding",
"thumb1.height == container.thumbHeight",
"thumb1.width == container.columnWidth",
"title1.right == container.rightPadding",
"title1.top == thumb0.bottom + container.paddingUnderThumb",
"title1.height == title1.intrinsicHeight",
"title1.width == container.columnWidth",
"thumb2.left == container.leftPadding",
"thumb2.top >= title0.bottom + container.rowPadding",
"thumb2.top == title0.bottom + container.rowPadding !weak",
"thumb2.top >= title1.bottom + container.rowPadding",
"thumb2.top == title1.bottom + container.rowPadding !weak",
"thumb2.height == container.thumbHeight",
"thumb2.width == container.columnWidth",
"title2.left == container.leftPadding",
"title2.top == thumb2.bottom + container.paddingUnderThumb",
"title2.height == title2.intrinsicHeight",
"title2.width == container.columnWidth",
"thumb3.right == container.rightPadding",
"thumb3.top == thumb2.top",
"thumb3.height == container.thumbHeight",
"thumb3.width == container.columnWidth",
"title3.right == container.rightPadding",
"title3.top == thumb3.bottom + container.paddingUnderThumb",
"title3.height == title3.intrinsicHeight",
"title3.width == container.columnWidth",
"thumb4.left == container.leftPadding",
"thumb4.top >= title2.bottom + container.rowPadding",
"thumb4.top >= title3.bottom + container.rowPadding",
"thumb4.top == title2.bottom + container.rowPadding !weak",
"thumb4.top == title3.bottom + container.rowPadding !weak",
"thumb4.height == container.thumbHeight",
"thumb4.width == container.columnWidth",
"title4.left == container.leftPadding",
"title4.top == thumb4.bottom + container.paddingUnderThumb",
"title4.height == title4.intrinsicHeight",
"title4.width == container.columnWidth",
"thumb5.right == container.rightPadding",
"thumb5.top == thumb4.top",
"thumb5.height == container.thumbHeight",
"thumb5.width == container.columnWidth",
"title5.right == container.rightPadding",
"title5.top == thumb5.bottom + container.paddingUnderThumb",
"title5.height == title5.intrinsicHeight",
"title5.width == container.columnWidth",
"line.height == 1",
"line.width == container.width",
"line.top >= title4.bottom + container.rowPadding",
"line.top >= title5.bottom + container.rowPadding",
"more.top == line.bottom + container.buttonPadding",
"more.height == more.intrinsicHeight",
"more.left == container.leftPadding",
"more.right == container.rightPadding",
"container.height == more.bottom + container.buttonPadding"};
// "thumb0.left == container.leftPadding",
// "thumb0.top == container.padding",
// "thumb0.height == container.thumbHeight",
// "thumb0.width == container.columnWidth",
//
// "title0.left == container.leftPadding",
// "title0.top == thumb0.bottom + container.paddingUnderThumb",
// "title0.height == title0.intrinsicHeight",
// "title0.width == container.columnWidth",
//
// "thumb1.right == container.rightPadding",
// "thumb1.top == container.padding",
// "thumb1.height == container.thumbHeight",
// "thumb1.width == container.columnWidth",
//
// "title1.right == container.rightPadding",
// "title1.top == thumb0.bottom + container.paddingUnderThumb",
// "title1.height == title1.intrinsicHeight",
// "title1.width == container.columnWidth",
//
// "thumb2.left == container.leftPadding",
// "thumb2.top >= title0.bottom + container.rowPadding",
// "thumb2.top == title0.bottom + container.rowPadding !weak",
// "thumb2.top >= title1.bottom + container.rowPadding",
// "thumb2.top == title1.bottom + container.rowPadding !weak",
// "thumb2.height == container.thumbHeight",
// "thumb2.width == container.columnWidth",
//
// "title2.left == container.leftPadding",
// "title2.top == thumb2.bottom + container.paddingUnderThumb",
// "title2.height == title2.intrinsicHeight",
// "title2.width == container.columnWidth",
//
// "thumb3.right == container.rightPadding",
// "thumb3.top == thumb2.top",
//
// "thumb3.height == container.thumbHeight",
// "thumb3.width == container.columnWidth",
//
// "title3.right == container.rightPadding",
// "title3.top == thumb3.bottom + container.paddingUnderThumb",
// "title3.height == title3.intrinsicHeight",
// "title3.width == container.columnWidth",
//
// "thumb4.left == container.leftPadding",
// "thumb4.top >= title2.bottom + container.rowPadding",
// "thumb4.top >= title3.bottom + container.rowPadding",
// "thumb4.top == title2.bottom + container.rowPadding !weak",
// "thumb4.top == title3.bottom + container.rowPadding !weak",
// "thumb4.height == container.thumbHeight",
// "thumb4.width == container.columnWidth",
//
// "title4.left == container.leftPadding",
// "title4.top == thumb4.bottom + container.paddingUnderThumb",
// "title4.height == title4.intrinsicHeight",
// "title4.width == container.columnWidth",
//
// "thumb5.right == container.rightPadding",
// "thumb5.top == thumb4.top",
// "thumb5.height == container.thumbHeight",
// "thumb5.width == container.columnWidth",
//
// "title5.right == container.rightPadding",
// "title5.top == thumb5.bottom + container.paddingUnderThumb",
// "title5.height == title5.intrinsicHeight",
// "title5.width == container.columnWidth",
//
// "line.height == 1",
// "line.width == container.width",
// "line.top >= title4.bottom + container.rowPadding",
// "line.top >= title5.bottom + container.rowPadding",
//
// "more.top == line.bottom + container.buttonPadding",
// "more.height == more.intrinsicHeight",
// "more.left == container.leftPadding",
// "more.right == container.rightPadding",
//
// "container.height == more.bottom + container.buttonPadding"
};
public ConstraintParser.CassowaryVariableResolver createVariableResolver(final Solver solver, final HashMap<String, HashMap<String, Variable>> nodeHashMap) {
@ -147,9 +166,9 @@ public class RealWorldTests {
return variable;
}
} catch(DuplicateConstraintException e) {
e.printStackTrace();
} catch (UnsatisfiableConstraintException e) {
e.printStackTrace();
}
return null;
@ -196,48 +215,104 @@ public class RealWorldTests {
return variableResolver;
}
@Test
public void testSimple() {
int a = 20;
assertEquals(20, a);
}
@Test
public void testGridLayout() throws DuplicateConstraintException, UnsatisfiableConstraintException {
final Solver solver = new Solver();
final HashMap<String, HashMap<String, Variable>> nodeHashMap = new HashMap<String, HashMap<String, Variable>>();
final HashMap<String, HashMap<String, Variable>> nodeHashMap = new HashMap<>();
ConstraintParser.CassowaryVariableResolver variableResolver = createVariableResolver(solver, nodeHashMap);
for (String constraint : CONSTRAINTS) {
solver.addConstraint(ConstraintParser.parseConstraint(constraint, variableResolver));
}
solver.addConstraint(ConstraintParser.parseConstraint("container.width == 300", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("title0.intrinsicHeight == 100", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("title1.intrinsicHeight == 110", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("title2.intrinsicHeight == 120", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("title3.intrinsicHeight == 130", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("title4.intrinsicHeight == 140", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("title5.intrinsicHeight == 150", variableResolver));
solver.addConstraint(ConstraintParser.parseConstraint("more.intrinsicHeight == 160", variableResolver));
List<Constraint> cache = new ArrayList<>();
for (String constraint : CONSTRAINTS) {
Constraint con = ConstraintParser.parseConstraint(constraint, variableResolver);
solver.addConstraint(con);
cache.add(con);
}
solver.updateVariables();
assertEquals(20, nodeHashMap.get("thumb0").get("top").getValue(), EPSILON);
assertEquals(20, nodeHashMap.get("thumb1").get("top").getValue(), EPSILON);
// assertEquals(300, nodeHashMap.get("container").get("width").getValue(), EPSILON);
// assertEquals(150, nodeHashMap.get("container").get("columnWidth").getValue(), EPSILON);
// assertEquals(50, nodeHashMap.get("container").get("thumbHeight").getValue(), EPSILON);
// assertEquals(30, nodeHashMap.get("container").get("padding").getValue(), EPSILON);
// assertEquals(30, nodeHashMap.get("container").get("leftPadding").getValue(), EPSILON);
assertEquals(85, nodeHashMap.get("title0").get("top").getValue(), EPSILON);
assertEquals(85, nodeHashMap.get("title1").get("top").getValue(), EPSILON);
assertEquals(210, nodeHashMap.get("thumb2").get("top").getValue(), EPSILON);
assertEquals(210, nodeHashMap.get("thumb3").get("top").getValue(), EPSILON);
// try {
// solver.removeConstraint(cache.get(cache.size() -1));
// } catch (UnknownConstraintException e) {
// e.printStackTrace();
// }
// solver.addConstraint(ConstraintParser.parseConstraint("container.width == 300", variableResolver, 8));
assertEquals(275, nodeHashMap.get("title2").get("top").getValue(), EPSILON);
assertEquals(275, nodeHashMap.get("title3").get("top").getValue(), EPSILON);
Variable width = variableResolver.resolveVariable("container.width");
try {
solver.addEditVariable(width, Strength.STRONG);
} catch (DuplicateEditVariableException e) {
e.printStackTrace();
} catch (RequiredFailureException e) {
e.printStackTrace();
}
assertEquals(420, nodeHashMap.get("thumb4").get("top").getValue(), EPSILON);
assertEquals(420, nodeHashMap.get("thumb5").get("top").getValue(), EPSILON);
try {
solver.suggestValue(width, 300);
} catch (UnknownEditVariableException e) {
e.printStackTrace();
}
assertEquals(485, nodeHashMap.get("title4").get("top").getValue(), EPSILON);
assertEquals(485, nodeHashMap.get("title5").get("top").getValue(), EPSILON);
solver.updateVariables();
assertEquals(300, nodeHashMap.get("container").get("width").getValue(), EPSILON);
try {
solver.suggestValue(width, 200);
} catch (UnknownEditVariableException e) {
e.printStackTrace();
}
solver.updateVariables();
assertEquals(200, nodeHashMap.get("container").get("width").getValue(), EPSILON);
// assertEquals(150, nodeHashMap.get("container").get("columnWidth").getValue(), EPSILON);
// assertEquals(50, nodeHashMap.get("container").get("thumbHeight").getValue(), EPSILON);
// assertEquals(30, nodeHashMap.get("container").get("padding").getValue(), EPSILON);
// assertEquals(30, nodeHashMap.get("container").get("leftPadding").getValue(), EPSILON);
// assertEquals(280, nodeHashMap.get("container").get("test").getValue(), EPSILON);
// assertEquals(270, nodeHashMap.get("container").get("width").getValue() - nodeHashMap.get("container").get("padding").getValue(), EPSILON);
// assertEquals(270, nodeHashMap.get("container").get("rightPadding").getValue(), EPSILON);
// assertEquals(100, nodeHashMap.get("view").get("top").getValue(), EPSILON);
// assertEquals(400, nodeHashMap.get("view").get("bottom").getValue(), EPSILON);
// assertEquals(350, nodeHashMap.get("view2").get("right").getValue(), EPSILON);
// assertEquals(20, nodeHashMap.get("thumb0").get("top").getValue(), EPSILON);
// assertEquals(20, nodeHashMap.get("thumb1").get("top").getValue(), EPSILON);
//
// assertEquals(85, nodeHashMap.get("title0").get("top").getValue(), EPSILON);
// assertEquals(85, nodeHashMap.get("title1").get("top").getValue(), EPSILON);
//
// assertEquals(210, nodeHashMap.get("thumb2").get("top").getValue(), EPSILON);
// assertEquals(210, nodeHashMap.get("thumb3").get("top").getValue(), EPSILON);
//
// assertEquals(275, nodeHashMap.get("title2").get("top").getValue(), EPSILON);
// assertEquals(275, nodeHashMap.get("title3").get("top").getValue(), EPSILON);
//
// assertEquals(420, nodeHashMap.get("thumb4").get("top").getValue(), EPSILON);
// assertEquals(420, nodeHashMap.get("thumb5").get("top").getValue(), EPSILON);
//
// assertEquals(485, nodeHashMap.get("title4").get("top").getValue(), EPSILON);
// assertEquals(485, nodeHashMap.get("title5").get("top").getValue(), EPSILON);
}