package androidx.constraintlayout.solver;
import androidx.constraintlayout.solver.SolverVariable;
import androidx.constraintlayout.solver.widgets.ConstraintAnchor;
import androidx.constraintlayout.solver.widgets.ConstraintWidget;
import io.sentry.protocol.ViewHierarchyNode;
import java.io.PrintStream;
import java.util.Arrays;
import java.util.HashMap;
/* loaded from: classes.dex */
public class LinearSystem {
public static long ARRAY_ROW_CREATION = 0;
public static final boolean DEBUG = false;
private static final boolean DEBUG_CONSTRAINTS = false;
public static final boolean FULL_DEBUG = false;
public static final boolean MEASURE = false;
public static long OPTIMIZED_ARRAY_ROW_CREATION = 0;
public static boolean OPTIMIZED_ENGINE = true;
private static int POOL_SIZE = 1000;
static final boolean SIMPLIFY_SYNONYMS = false;
private static final boolean USE_SYNONYMS = true;
public static Metrics sMetrics;
final Cache mCache;
private Row mGoal;
ArrayRow[] mRows;
private Row mTempGoal;
int mVariablesID = 0;
private HashMap<String, SolverVariable> mVariables = null;
private int TABLE_SIZE = 32;
private int mMaxColumns = 32;
public boolean graphOptimizer = false;
public boolean newgraphOptimizer = false;
private boolean[] mAlreadyTestedCandidates = new boolean[32];
int mNumColumns = 1;
int mNumRows = 0;
private int mMaxRows = 32;
private SolverVariable[] mPoolVariables = new SolverVariable[POOL_SIZE];
private int mPoolVariablesCount = 0;
/* JADX INFO: Access modifiers changed from: package-private */
/* loaded from: classes.dex */
public interface Row {
void addError(SolverVariable solverVariable);
void clear();
SolverVariable getKey();
SolverVariable getPivotCandidate(LinearSystem linearSystem, boolean[] zArr);
void initFromRow(Row row);
boolean isEmpty();
void updateFromFinalVariable(LinearSystem linearSystem, SolverVariable solverVariable, boolean z);
void updateFromRow(ArrayRow arrayRow, boolean z);
void updateFromSystem(LinearSystem linearSystem);
}
private String getDisplayStrength(int i) {
return i == 1 ? "LOW" : i == 2 ? "MEDIUM" : i == 3 ? "HIGH" : i == 4 ? "HIGHEST" : i == 5 ? "EQUALITY" : i == 8 ? "FIXED" : i == 6 ? "BARRIER" : "NONE";
}
public static Metrics getMetrics() {
return sMetrics;
}
public void fillMetrics(Metrics metrics) {
sMetrics = metrics;
}
public Cache getCache() {
return this.mCache;
}
Row getGoal() {
return this.mGoal;
}
public int getNumEquations() {
return this.mNumRows;
}
public int getNumVariables() {
return this.mVariablesID;
}
/* JADX INFO: Access modifiers changed from: package-private */
/* loaded from: classes.dex */
public class ValuesRow extends ArrayRow {
public ValuesRow(Cache cache) {
this.variables = new SolverVariableValues(this, cache);
}
}
public LinearSystem() {
this.mRows = null;
this.mRows = new ArrayRow[32];
releaseRows();
Cache cache = new Cache();
this.mCache = cache;
this.mGoal = new PriorityGoalRow(cache);
if (OPTIMIZED_ENGINE) {
this.mTempGoal = new ValuesRow(cache);
} else {
this.mTempGoal = new ArrayRow(cache);
}
}
private void increaseTableSize() {
int i = this.TABLE_SIZE * 2;
this.TABLE_SIZE = i;
this.mRows = (ArrayRow[]) Arrays.copyOf(this.mRows, i);
Cache cache = this.mCache;
cache.mIndexedVariables = (SolverVariable[]) Arrays.copyOf(cache.mIndexedVariables, this.TABLE_SIZE);
int i2 = this.TABLE_SIZE;
this.mAlreadyTestedCandidates = new boolean[i2];
this.mMaxColumns = i2;
this.mMaxRows = i2;
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.tableSizeIncrease++;
Metrics metrics2 = sMetrics;
metrics2.maxTableSize = Math.max(metrics2.maxTableSize, this.TABLE_SIZE);
Metrics metrics3 = sMetrics;
metrics3.lastTableSize = metrics3.maxTableSize;
}
}
private void releaseRows() {
int i = 0;
if (OPTIMIZED_ENGINE) {
while (true) {
ArrayRow[] arrayRowArr = this.mRows;
if (i >= arrayRowArr.length) {
return;
}
ArrayRow arrayRow = arrayRowArr[i];
if (arrayRow != null) {
this.mCache.optimizedArrayRowPool.release(arrayRow);
}
this.mRows[i] = null;
i++;
}
} else {
while (true) {
ArrayRow[] arrayRowArr2 = this.mRows;
if (i >= arrayRowArr2.length) {
return;
}
ArrayRow arrayRow2 = arrayRowArr2[i];
if (arrayRow2 != null) {
this.mCache.arrayRowPool.release(arrayRow2);
}
this.mRows[i] = null;
i++;
}
}
}
public void reset() {
for (int i = 0; i < this.mCache.mIndexedVariables.length; i++) {
SolverVariable solverVariable = this.mCache.mIndexedVariables[i];
if (solverVariable != null) {
solverVariable.reset();
}
}
this.mCache.solverVariablePool.releaseAll(this.mPoolVariables, this.mPoolVariablesCount);
this.mPoolVariablesCount = 0;
Arrays.fill(this.mCache.mIndexedVariables, (Object) null);
HashMap<String, SolverVariable> hashMap = this.mVariables;
if (hashMap != null) {
hashMap.clear();
}
this.mVariablesID = 0;
this.mGoal.clear();
this.mNumColumns = 1;
for (int i2 = 0; i2 < this.mNumRows; i2++) {
this.mRows[i2].used = false;
}
releaseRows();
this.mNumRows = 0;
if (OPTIMIZED_ENGINE) {
this.mTempGoal = new ValuesRow(this.mCache);
} else {
this.mTempGoal = new ArrayRow(this.mCache);
}
}
public SolverVariable createObjectVariable(Object obj) {
SolverVariable solverVariable = null;
if (obj == null) {
return null;
}
if (this.mNumColumns + 1 >= this.mMaxColumns) {
increaseTableSize();
}
if (obj instanceof ConstraintAnchor) {
ConstraintAnchor constraintAnchor = (ConstraintAnchor) obj;
solverVariable = constraintAnchor.getSolverVariable();
if (solverVariable == null) {
constraintAnchor.resetSolverVariable(this.mCache);
solverVariable = constraintAnchor.getSolverVariable();
}
if (solverVariable.id == -1 || solverVariable.id > this.mVariablesID || this.mCache.mIndexedVariables[solverVariable.id] == null) {
if (solverVariable.id != -1) {
solverVariable.reset();
}
int i = this.mVariablesID + 1;
this.mVariablesID = i;
this.mNumColumns++;
solverVariable.id = i;
solverVariable.mType = SolverVariable.Type.UNRESTRICTED;
this.mCache.mIndexedVariables[this.mVariablesID] = solverVariable;
}
}
return solverVariable;
}
public ArrayRow createRow() {
ArrayRow acquire;
if (OPTIMIZED_ENGINE) {
acquire = this.mCache.optimizedArrayRowPool.acquire();
if (acquire == null) {
acquire = new ValuesRow(this.mCache);
OPTIMIZED_ARRAY_ROW_CREATION++;
} else {
acquire.reset();
}
} else {
acquire = this.mCache.arrayRowPool.acquire();
if (acquire == null) {
acquire = new ArrayRow(this.mCache);
ARRAY_ROW_CREATION++;
} else {
acquire.reset();
}
}
SolverVariable.increaseErrorId();
return acquire;
}
public SolverVariable createSlackVariable() {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.slackvariables++;
}
if (this.mNumColumns + 1 >= this.mMaxColumns) {
increaseTableSize();
}
SolverVariable acquireSolverVariable = acquireSolverVariable(SolverVariable.Type.SLACK, null);
int i = this.mVariablesID + 1;
this.mVariablesID = i;
this.mNumColumns++;
acquireSolverVariable.id = i;
this.mCache.mIndexedVariables[this.mVariablesID] = acquireSolverVariable;
return acquireSolverVariable;
}
public SolverVariable createExtraVariable() {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.extravariables++;
}
if (this.mNumColumns + 1 >= this.mMaxColumns) {
increaseTableSize();
}
SolverVariable acquireSolverVariable = acquireSolverVariable(SolverVariable.Type.SLACK, null);
int i = this.mVariablesID + 1;
this.mVariablesID = i;
this.mNumColumns++;
acquireSolverVariable.id = i;
this.mCache.mIndexedVariables[this.mVariablesID] = acquireSolverVariable;
return acquireSolverVariable;
}
private void addError(ArrayRow arrayRow) {
arrayRow.addError(this, 0);
}
private void addSingleError(ArrayRow arrayRow, int i) {
addSingleError(arrayRow, i, 0);
}
void addSingleError(ArrayRow arrayRow, int i, int i2) {
arrayRow.addSingleError(createErrorVariable(i2, null), i);
}
private SolverVariable createVariable(String str, SolverVariable.Type type) {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.variables++;
}
if (this.mNumColumns + 1 >= this.mMaxColumns) {
increaseTableSize();
}
SolverVariable acquireSolverVariable = acquireSolverVariable(type, null);
acquireSolverVariable.setName(str);
int i = this.mVariablesID + 1;
this.mVariablesID = i;
this.mNumColumns++;
acquireSolverVariable.id = i;
if (this.mVariables == null) {
this.mVariables = new HashMap<>();
}
this.mVariables.put(str, acquireSolverVariable);
this.mCache.mIndexedVariables[this.mVariablesID] = acquireSolverVariable;
return acquireSolverVariable;
}
public SolverVariable createErrorVariable(int i, String str) {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.errors++;
}
if (this.mNumColumns + 1 >= this.mMaxColumns) {
increaseTableSize();
}
SolverVariable acquireSolverVariable = acquireSolverVariable(SolverVariable.Type.ERROR, str);
int i2 = this.mVariablesID + 1;
this.mVariablesID = i2;
this.mNumColumns++;
acquireSolverVariable.id = i2;
acquireSolverVariable.strength = i;
this.mCache.mIndexedVariables[this.mVariablesID] = acquireSolverVariable;
this.mGoal.addError(acquireSolverVariable);
return acquireSolverVariable;
}
private SolverVariable acquireSolverVariable(SolverVariable.Type type, String str) {
SolverVariable acquire = this.mCache.solverVariablePool.acquire();
if (acquire == null) {
acquire = new SolverVariable(type, str);
acquire.setType(type, str);
} else {
acquire.reset();
acquire.setType(type, str);
}
int i = this.mPoolVariablesCount;
int i2 = POOL_SIZE;
if (i >= i2) {
int i3 = i2 * 2;
POOL_SIZE = i3;
this.mPoolVariables = (SolverVariable[]) Arrays.copyOf(this.mPoolVariables, i3);
}
SolverVariable[] solverVariableArr = this.mPoolVariables;
int i4 = this.mPoolVariablesCount;
this.mPoolVariablesCount = i4 + 1;
solverVariableArr[i4] = acquire;
return acquire;
}
ArrayRow getRow(int i) {
return this.mRows[i];
}
float getValueFor(String str) {
SolverVariable variable = getVariable(str, SolverVariable.Type.UNRESTRICTED);
if (variable == null) {
return 0.0f;
}
return variable.computedValue;
}
public int getObjectVariableValue(Object obj) {
SolverVariable solverVariable = ((ConstraintAnchor) obj).getSolverVariable();
if (solverVariable != null) {
return (int) (solverVariable.computedValue + 0.5f);
}
return 0;
}
SolverVariable getVariable(String str, SolverVariable.Type type) {
if (this.mVariables == null) {
this.mVariables = new HashMap<>();
}
SolverVariable solverVariable = this.mVariables.get(str);
return solverVariable == null ? createVariable(str, type) : solverVariable;
}
public void minimize() throws Exception {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.minimize++;
}
if (this.graphOptimizer || this.newgraphOptimizer) {
Metrics metrics2 = sMetrics;
if (metrics2 != null) {
metrics2.graphOptimizer++;
}
for (int i = 0; i < this.mNumRows; i++) {
if (!this.mRows[i].isSimpleDefinition) {
minimizeGoal(this.mGoal);
return;
}
}
Metrics metrics3 = sMetrics;
if (metrics3 != null) {
metrics3.fullySolved++;
}
computeValues();
return;
}
minimizeGoal(this.mGoal);
}
void minimizeGoal(Row row) throws Exception {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.minimizeGoal++;
Metrics metrics2 = sMetrics;
metrics2.maxVariables = Math.max(metrics2.maxVariables, this.mNumColumns);
Metrics metrics3 = sMetrics;
metrics3.maxRows = Math.max(metrics3.maxRows, this.mNumRows);
}
enforceBFS(row);
optimize(row, false);
computeValues();
}
final void cleanupRows() {
int i;
int i2 = 0;
while (i2 < this.mNumRows) {
ArrayRow arrayRow = this.mRows[i2];
if (arrayRow.variables.getCurrentSize() == 0) {
arrayRow.isSimpleDefinition = true;
}
if (arrayRow.isSimpleDefinition) {
arrayRow.variable.computedValue = arrayRow.constantValue;
arrayRow.variable.removeFromRow(arrayRow);
int i3 = i2;
while (true) {
i = this.mNumRows;
if (i3 >= i - 1) {
break;
}
ArrayRow[] arrayRowArr = this.mRows;
int i4 = i3 + 1;
arrayRowArr[i3] = arrayRowArr[i4];
i3 = i4;
}
this.mRows[i - 1] = null;
this.mNumRows = i - 1;
i2--;
}
i2++;
}
}
public void addConstraint(ArrayRow arrayRow) {
SolverVariable pickPivot;
if (arrayRow == null) {
return;
}
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.constraints++;
if (arrayRow.isSimpleDefinition) {
sMetrics.simpleconstraints++;
}
}
boolean z = true;
if (this.mNumRows + 1 >= this.mMaxRows || this.mNumColumns + 1 >= this.mMaxColumns) {
increaseTableSize();
}
if (!arrayRow.isSimpleDefinition) {
arrayRow.updateFromSystem(this);
if (arrayRow.isEmpty()) {
return;
}
arrayRow.ensurePositiveConstant();
if (arrayRow.chooseSubject(this)) {
SolverVariable createExtraVariable = createExtraVariable();
arrayRow.variable = createExtraVariable;
addRow(arrayRow);
this.mTempGoal.initFromRow(arrayRow);
optimize(this.mTempGoal, true);
if (createExtraVariable.definitionId == -1) {
if (arrayRow.variable == createExtraVariable && (pickPivot = arrayRow.pickPivot(createExtraVariable)) != null) {
Metrics metrics2 = sMetrics;
if (metrics2 != null) {
metrics2.pivots++;
}
arrayRow.pivot(pickPivot);
}
if (!arrayRow.isSimpleDefinition) {
arrayRow.variable.updateReferencesWithNewDefinition(arrayRow);
}
this.mNumRows--;
}
} else {
z = false;
}
if (!arrayRow.hasKeyVariable() || z) {
return;
}
}
addRow(arrayRow);
}
private final void addRow(ArrayRow arrayRow) {
if (OPTIMIZED_ENGINE) {
if (this.mRows[this.mNumRows] != null) {
this.mCache.optimizedArrayRowPool.release(this.mRows[this.mNumRows]);
}
} else if (this.mRows[this.mNumRows] != null) {
this.mCache.arrayRowPool.release(this.mRows[this.mNumRows]);
}
this.mRows[this.mNumRows] = arrayRow;
arrayRow.variable.definitionId = this.mNumRows;
this.mNumRows++;
arrayRow.variable.updateReferencesWithNewDefinition(arrayRow);
}
public void removeRow(ArrayRow arrayRow) {
int i;
if (!arrayRow.isSimpleDefinition || arrayRow.variable == null) {
return;
}
if (arrayRow.variable.definitionId != -1) {
int i2 = arrayRow.variable.definitionId;
while (true) {
i = this.mNumRows;
if (i2 >= i - 1) {
break;
}
ArrayRow[] arrayRowArr = this.mRows;
int i3 = i2 + 1;
arrayRowArr[i2] = arrayRowArr[i3];
i2 = i3;
}
this.mNumRows = i - 1;
}
arrayRow.variable.setFinalValue(this, arrayRow.constantValue);
}
private final int optimize(Row row, boolean z) {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.optimize++;
}
for (int i = 0; i < this.mNumColumns; i++) {
this.mAlreadyTestedCandidates[i] = false;
}
boolean z2 = false;
int i2 = 0;
while (!z2) {
Metrics metrics2 = sMetrics;
if (metrics2 != null) {
metrics2.iterations++;
}
i2++;
if (i2 >= this.mNumColumns * 2) {
return i2;
}
if (row.getKey() != null) {
this.mAlreadyTestedCandidates[row.getKey().id] = true;
}
SolverVariable pivotCandidate = row.getPivotCandidate(this, this.mAlreadyTestedCandidates);
if (pivotCandidate != null) {
if (this.mAlreadyTestedCandidates[pivotCandidate.id]) {
return i2;
}
this.mAlreadyTestedCandidates[pivotCandidate.id] = true;
}
if (pivotCandidate != null) {
float f = Float.MAX_VALUE;
int i3 = -1;
for (int i4 = 0; i4 < this.mNumRows; i4++) {
ArrayRow arrayRow = this.mRows[i4];
if (arrayRow.variable.mType != SolverVariable.Type.UNRESTRICTED && !arrayRow.isSimpleDefinition && arrayRow.hasVariable(pivotCandidate)) {
float f2 = arrayRow.variables.get(pivotCandidate);
if (f2 < 0.0f) {
float f3 = (-arrayRow.constantValue) / f2;
if (f3 < f) {
i3 = i4;
f = f3;
}
}
}
}
if (i3 > -1) {
ArrayRow arrayRow2 = this.mRows[i3];
arrayRow2.variable.definitionId = -1;
Metrics metrics3 = sMetrics;
if (metrics3 != null) {
metrics3.pivots++;
}
arrayRow2.pivot(pivotCandidate);
arrayRow2.variable.definitionId = i3;
arrayRow2.variable.updateReferencesWithNewDefinition(arrayRow2);
}
} else {
z2 = true;
}
}
return i2;
}
private int enforceBFS(Row row) throws Exception {
for (int i = 0; i < this.mNumRows; i++) {
if (this.mRows[i].variable.mType != SolverVariable.Type.UNRESTRICTED) {
float f = 0.0f;
if (this.mRows[i].constantValue < 0.0f) {
boolean z = false;
int i2 = 0;
while (!z) {
Metrics metrics = sMetrics;
if (metrics != null) {
metrics.bfs++;
}
i2++;
float f2 = Float.MAX_VALUE;
int i3 = -1;
int i4 = -1;
int i5 = 0;
int i6 = 0;
while (true) {
int i7 = 1;
if (i5 >= this.mNumRows) {
break;
}
ArrayRow arrayRow = this.mRows[i5];
if (arrayRow.variable.mType != SolverVariable.Type.UNRESTRICTED && !arrayRow.isSimpleDefinition && arrayRow.constantValue < f) {
while (i7 < this.mNumColumns) {
SolverVariable solverVariable = this.mCache.mIndexedVariables[i7];
float f3 = arrayRow.variables.get(solverVariable);
if (f3 > f) {
for (int i8 = 0; i8 < 9; i8++) {
float f4 = solverVariable.strengthVector[i8] / f3;
if ((f4 < f2 && i8 == i6) || i8 > i6) {
i6 = i8;
f2 = f4;
i3 = i5;
i4 = i7;
}
}
}
i7++;
f = 0.0f;
}
}
i5++;
f = 0.0f;
}
if (i3 != -1) {
ArrayRow arrayRow2 = this.mRows[i3];
arrayRow2.variable.definitionId = -1;
Metrics metrics2 = sMetrics;
if (metrics2 != null) {
metrics2.pivots++;
}
arrayRow2.pivot(this.mCache.mIndexedVariables[i4]);
arrayRow2.variable.definitionId = i3;
arrayRow2.variable.updateReferencesWithNewDefinition(arrayRow2);
} else {
z = true;
}
if (i2 > this.mNumColumns / 2) {
z = true;
}
f = 0.0f;
}
return i2;
}
}
}
return 0;
}
private void computeValues() {
for (int i = 0; i < this.mNumRows; i++) {
ArrayRow arrayRow = this.mRows[i];
arrayRow.variable.computedValue = arrayRow.constantValue;
}
}
private void displayRows() {
displaySolverVariables();
String str = "";
for (int i = 0; i < this.mNumRows; i++) {
str = (str + this.mRows[i]) + "\n";
}
System.out.println(str + this.mGoal + "\n");
}
public void displayReadableRows() {
displaySolverVariables();
String str = "";
for (int i = 0; i < this.mVariablesID; i++) {
SolverVariable solverVariable = this.mCache.mIndexedVariables[i];
if (solverVariable != null && solverVariable.isFinalValue) {
str = str + " $[" + i + "] => " + solverVariable + " = " + solverVariable.computedValue + "\n";
}
}
String str2 = str + "\n\n # ";
for (int i2 = 0; i2 < this.mNumRows; i2++) {
str2 = (str2 + this.mRows[i2].toReadableString()) + "\n # ";
}
if (this.mGoal != null) {
str2 = str2 + "Goal: " + this.mGoal + "\n";
}
System.out.println(str2);
}
public void displayVariablesReadableRows() {
displaySolverVariables();
String str = "";
for (int i = 0; i < this.mNumRows; i++) {
if (this.mRows[i].variable.mType == SolverVariable.Type.UNRESTRICTED) {
str = (str + this.mRows[i].toReadableString()) + "\n";
}
}
System.out.println(str + this.mGoal + "\n");
}
public int getMemoryUsed() {
int i = 0;
for (int i2 = 0; i2 < this.mNumRows; i2++) {
ArrayRow arrayRow = this.mRows[i2];
if (arrayRow != null) {
i += arrayRow.sizeInBytes();
}
}
return i;
}
void displaySystemInformations() {
int i = 0;
for (int i2 = 0; i2 < this.TABLE_SIZE; i2++) {
ArrayRow arrayRow = this.mRows[i2];
if (arrayRow != null) {
i += arrayRow.sizeInBytes();
}
}
int i3 = 0;
for (int i4 = 0; i4 < this.mNumRows; i4++) {
ArrayRow arrayRow2 = this.mRows[i4];
if (arrayRow2 != null) {
i3 += arrayRow2.sizeInBytes();
}
}
PrintStream printStream = System.out;
StringBuilder append = new StringBuilder("Linear System -> Table size: ").append(this.TABLE_SIZE).append(" (");
int i5 = this.TABLE_SIZE;
printStream.println(append.append(getDisplaySize(i5 * i5)).append(") -- row sizes: ").append(getDisplaySize(i)).append(", actual size: ").append(getDisplaySize(i3)).append(" rows: ").append(this.mNumRows).append("/").append(this.mMaxRows).append(" cols: ").append(this.mNumColumns).append("/").append(this.mMaxColumns).append(" 0 occupied cells, ").append(getDisplaySize(0)).toString());
}
private void displaySolverVariables() {
System.out.println("Display Rows (" + this.mNumRows + ViewHierarchyNode.JsonKeys.X + this.mNumColumns + ")\n");
}
private String getDisplaySize(int i) {
int i2 = i * 4;
int i3 = i2 / 1024;
int i4 = i3 / 1024;
if (i4 > 0) {
return "" + i4 + " Mb";
}
if (i3 > 0) {
return "" + i3 + " Kb";
}
return "" + i2 + " bytes";
}
public void addGreaterThan(SolverVariable solverVariable, SolverVariable solverVariable2, int i, int i2) {
ArrayRow createRow = createRow();
SolverVariable createSlackVariable = createSlackVariable();
createSlackVariable.strength = 0;
createRow.createRowGreaterThan(solverVariable, solverVariable2, createSlackVariable, i);
if (i2 != 8) {
addSingleError(createRow, (int) (createRow.variables.get(createSlackVariable) * (-1.0f)), i2);
}
addConstraint(createRow);
}
public void addGreaterBarrier(SolverVariable solverVariable, SolverVariable solverVariable2, int i, boolean z) {
ArrayRow createRow = createRow();
SolverVariable createSlackVariable = createSlackVariable();
createSlackVariable.strength = 0;
createRow.createRowGreaterThan(solverVariable, solverVariable2, createSlackVariable, i);
addConstraint(createRow);
}
public void addLowerThan(SolverVariable solverVariable, SolverVariable solverVariable2, int i, int i2) {
ArrayRow createRow = createRow();
SolverVariable createSlackVariable = createSlackVariable();
createSlackVariable.strength = 0;
createRow.createRowLowerThan(solverVariable, solverVariable2, createSlackVariable, i);
if (i2 != 8) {
addSingleError(createRow, (int) (createRow.variables.get(createSlackVariable) * (-1.0f)), i2);
}
addConstraint(createRow);
}
public void addLowerBarrier(SolverVariable solverVariable, SolverVariable solverVariable2, int i, boolean z) {
ArrayRow createRow = createRow();
SolverVariable createSlackVariable = createSlackVariable();
createSlackVariable.strength = 0;
createRow.createRowLowerThan(solverVariable, solverVariable2, createSlackVariable, i);
addConstraint(createRow);
}
public void addCentering(SolverVariable solverVariable, SolverVariable solverVariable2, int i, float f, SolverVariable solverVariable3, SolverVariable solverVariable4, int i2, int i3) {
ArrayRow createRow = createRow();
createRow.createRowCentering(solverVariable, solverVariable2, i, f, solverVariable3, solverVariable4, i2);
if (i3 != 8) {
createRow.addError(this, i3);
}
addConstraint(createRow);
}
public void addRatio(SolverVariable solverVariable, SolverVariable solverVariable2, SolverVariable solverVariable3, SolverVariable solverVariable4, float f, int i) {
ArrayRow createRow = createRow();
createRow.createRowDimensionRatio(solverVariable, solverVariable2, solverVariable3, solverVariable4, f);
if (i != 8) {
createRow.addError(this, i);
}
addConstraint(createRow);
}
public ArrayRow addEquality(SolverVariable solverVariable, SolverVariable solverVariable2, int i, int i2) {
if (i2 == 8 && solverVariable2.isFinalValue && solverVariable.definitionId == -1) {
solverVariable.setFinalValue(this, solverVariable2.computedValue + i);
return null;
}
ArrayRow createRow = createRow();
createRow.createRowEquals(solverVariable, solverVariable2, i);
if (i2 != 8) {
createRow.addError(this, i2);
}
addConstraint(createRow);
return createRow;
}
public void addEquality(SolverVariable solverVariable, int i) {
if (solverVariable.definitionId == -1) {
solverVariable.setFinalValue(this, i);
return;
}
int i2 = solverVariable.definitionId;
if (solverVariable.definitionId != -1) {
ArrayRow arrayRow = this.mRows[i2];
if (arrayRow.isSimpleDefinition) {
arrayRow.constantValue = i;
return;
}
if (arrayRow.variables.getCurrentSize() == 0) {
arrayRow.isSimpleDefinition = true;
arrayRow.constantValue = i;
return;
} else {
ArrayRow createRow = createRow();
createRow.createRowEquals(solverVariable, i);
addConstraint(createRow);
return;
}
}
ArrayRow createRow2 = createRow();
createRow2.createRowDefinition(solverVariable, i);
addConstraint(createRow2);
}
public static ArrayRow createRowDimensionPercent(LinearSystem linearSystem, SolverVariable solverVariable, SolverVariable solverVariable2, float f) {
return linearSystem.createRow().createRowDimensionPercent(solverVariable, solverVariable2, f);
}
public void addCenterPoint(ConstraintWidget constraintWidget, ConstraintWidget constraintWidget2, float f, int i) {
SolverVariable createObjectVariable = createObjectVariable(constraintWidget.getAnchor(ConstraintAnchor.Type.LEFT));
SolverVariable createObjectVariable2 = createObjectVariable(constraintWidget.getAnchor(ConstraintAnchor.Type.TOP));
SolverVariable createObjectVariable3 = createObjectVariable(constraintWidget.getAnchor(ConstraintAnchor.Type.RIGHT));
SolverVariable createObjectVariable4 = createObjectVariable(constraintWidget.getAnchor(ConstraintAnchor.Type.BOTTOM));
SolverVariable createObjectVariable5 = createObjectVariable(constraintWidget2.getAnchor(ConstraintAnchor.Type.LEFT));
SolverVariable createObjectVariable6 = createObjectVariable(constraintWidget2.getAnchor(ConstraintAnchor.Type.TOP));
SolverVariable createObjectVariable7 = createObjectVariable(constraintWidget2.getAnchor(ConstraintAnchor.Type.RIGHT));
SolverVariable createObjectVariable8 = createObjectVariable(constraintWidget2.getAnchor(ConstraintAnchor.Type.BOTTOM));
ArrayRow createRow = createRow();
double d = f;
double d2 = i;
createRow.createRowWithAngle(createObjectVariable2, createObjectVariable4, createObjectVariable6, createObjectVariable8, (float) (Math.sin(d) * d2));
addConstraint(createRow);
ArrayRow createRow2 = createRow();
createRow2.createRowWithAngle(createObjectVariable, createObjectVariable3, createObjectVariable5, createObjectVariable7, (float) (Math.cos(d) * d2));
addConstraint(createRow2);
}
}