org.apache.commons.math.analysis.DifferentiableUnivariateRealFunction Java Examples
The following examples show how to use
org.apache.commons.math.analysis.DifferentiableUnivariateRealFunction.
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Example #1
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
//TODO: create abstract solver test class, move these there
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #2
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
//TODO: create abstract solver test class, move these there
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #3
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
//TODO: create abstract solver test class, move these there
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #4
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 6 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
//TODO: create abstract solver test class, move these there
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #5
| Source File: NewtonSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* Find a zero near the value <code>startValue</code>.
*
* @param f the function to solve
* @param min the lower bound for the interval (ignored).
* @param max the upper bound for the interval (ignored).
* @param startValue the start value to use.
* @return the value where the function is zero
* @throws MaxIterationsExceededException if the maximum iteration count is exceeded
* @throws FunctionEvaluationException if an error occurs evaluating the
* function or derivative
* @throws IllegalArgumentException if startValue is not between min and max or
* if function is not a {@link DifferentiableUnivariateRealFunction} instance
*/
public double solve(final UnivariateRealFunction f,
final double min, final double max, final double startValue)
throws MaxIterationsExceededException, FunctionEvaluationException {
try {
final UnivariateRealFunction derivative =
((DifferentiableUnivariateRealFunction) f).derivative();
clearResult();
verifySequence(min, startValue, max);
double x0 = startValue;
double x1;
int i = 0;
while (i < maximalIterationCount) {
x1 = x0 - (f.value(x0) / derivative.value(x0));
if (Math.abs(x1 - x0) <= absoluteAccuracy) {
setResult(x1, i);
return x1;
}
x0 = x1;
++i;
}
throw new MaxIterationsExceededException(maximalIterationCount);
} catch (ClassCastException cce) {
throw MathRuntimeException.createIllegalArgumentException("function is not differentiable");
}
}
Example #6
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #7
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #8
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #9
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #10
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #11
| Source File: NewtonSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* Find a zero near the value <code>startValue</code>.
*
* @param f the function to solve
* @param min the lower bound for the interval (ignored).
* @param max the upper bound for the interval (ignored).
* @param startValue the start value to use.
* @return the value where the function is zero
* @throws MaxIterationsExceededException if the maximum iteration count is exceeded
* @throws FunctionEvaluationException if an error occurs evaluating the
* function or derivative
* @throws IllegalArgumentException if startValue is not between min and max or
* if function is not a {@link DifferentiableUnivariateRealFunction} instance
*/
public double solve(final UnivariateRealFunction f,
final double min, final double max, final double startValue)
throws MaxIterationsExceededException, FunctionEvaluationException {
try {
final UnivariateRealFunction derivative =
((DifferentiableUnivariateRealFunction) f).derivative();
clearResult();
verifySequence(min, startValue, max);
double x0 = startValue;
double x1;
int i = 0;
while (i < maximalIterationCount) {
x1 = x0 - (f.value(x0) / derivative.value(x0));
if (Math.abs(x1 - x0) <= absoluteAccuracy) {
setResult(x1, i);
return x1;
}
x0 = x1;
++i;
}
throw new MaxIterationsExceededException(maximalIterationCount);
} catch (ClassCastException cce) {
throw MathRuntimeException.createIllegalArgumentException("function is not differentiable");
}
}
Example #12
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #13
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #14
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #15
| Source File: NewtonSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* Find a zero near the value <code>startValue</code>.
*
* @param f the function to solve
* @param min the lower bound for the interval (ignored).
* @param max the upper bound for the interval (ignored).
* @param startValue the start value to use.
* @return the value where the function is zero
* @throws MaxIterationsExceededException if the maximum iteration count is exceeded
* @throws FunctionEvaluationException if an error occurs evaluating the
* function or derivative
* @throws IllegalArgumentException if startValue is not between min and max or
* if function is not a {@link DifferentiableUnivariateRealFunction} instance
*/
public double solve(final UnivariateRealFunction f,
final double min, final double max, final double startValue)
throws MaxIterationsExceededException, FunctionEvaluationException {
try {
final UnivariateRealFunction derivative =
((DifferentiableUnivariateRealFunction) f).derivative();
clearResult();
verifySequence(min, startValue, max);
double x0 = startValue;
double x1;
int i = 0;
while (i < maximalIterationCount) {
x1 = x0 - (f.value(x0) / derivative.value(x0));
if (Math.abs(x1 - x0) <= absoluteAccuracy) {
setResult(x1, i);
return x1;
}
x0 = x1;
++i;
}
throw new MaxIterationsExceededException(maximalIterationCount);
} catch (ClassCastException cce) {
throw MathRuntimeException.createIllegalArgumentException("function is not differentiable");
}
}
Example #16
| Source File: NewtonSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* Find a zero near the value <code>startValue</code>.
*
* @param f the function to solve
* @param min the lower bound for the interval (ignored).
* @param max the upper bound for the interval (ignored).
* @param startValue the start value to use.
* @return the value where the function is zero
* @throws MaxIterationsExceededException if the maximum iteration count is exceeded
* @throws FunctionEvaluationException if an error occurs evaluating the
* function or derivative
* @throws IllegalArgumentException if startValue is not between min and max or
* if function is not a {@link DifferentiableUnivariateRealFunction} instance
*/
public double solve(final UnivariateRealFunction f,
final double min, final double max, final double startValue)
throws MaxIterationsExceededException, FunctionEvaluationException {
try {
final UnivariateRealFunction derivative =
((DifferentiableUnivariateRealFunction) f).derivative();
clearResult();
verifySequence(min, startValue, max);
double x0 = startValue;
double x1;
int i = 0;
while (i < maximalIterationCount) {
x1 = x0 - (f.value(x0) / derivative.value(x0));
if (Math.abs(x1 - x0) <= absoluteAccuracy) {
setResult(x1, i);
return x1;
}
x0 = x1;
++i;
}
throw new MaxIterationsExceededException(maximalIterationCount);
} catch (ClassCastException cce) {
throw MathRuntimeException.createIllegalArgumentException("function is not differentiable");
}
}
Example #17
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
@Test
public void testQuinticZero() {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
NewtonSolver solver = new NewtonSolver();
result = solver.solve(100, f, -0.2, 0.2);
Assert.assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, -0.1, 0.3);
Assert.assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, -0.3, 0.45);
Assert.assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.3, 0.7);
Assert.assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.2, 0.6);
Assert.assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.05, 0.95);
Assert.assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.85, 1.25);
Assert.assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.8, 1.2);
Assert.assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.85, 1.75);
Assert.assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.55, 1.45);
Assert.assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 0.85, 5);
Assert.assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #18
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
@Test
public void testSinZero() {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
NewtonSolver solver = new NewtonSolver();
result = solver.solve(100, f, 3, 4);
Assert.assertEquals(result, FastMath.PI, solver.getAbsoluteAccuracy());
result = solver.solve(100, f, 1, 4);
Assert.assertEquals(result, FastMath.PI, solver.getAbsoluteAccuracy());
Assert.assertTrue(solver.getEvaluations() > 0);
}
Example #19
| Source File: AbstractDifferentiableUnivariateRealSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* {@inheritDoc}
*/
@Override
protected void setup(int maxEval, DifferentiableUnivariateRealFunction f,
double min, double max, double startValue) {
super.setup(maxEval, f, min, max, startValue);
functionDerivative = f.derivative();
}
Example #20
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #21
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #22
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #23
| Source File: NewtonSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* Find a zero near the value <code>startValue</code>.
*
* @param f the function to solve
* @param min the lower bound for the interval (ignored).
* @param max the upper bound for the interval (ignored).
* @param startValue the start value to use.
* @return the value where the function is zero
* @throws MaxIterationsExceededException if the maximum iteration count is exceeded
* @throws FunctionEvaluationException if an error occurs evaluating the
* function or derivative
* @throws IllegalArgumentException if startValue is not between min and max or
* if function is not a {@link DifferentiableUnivariateRealFunction} instance
*/
public double solve(final UnivariateRealFunction f,
final double min, final double max, final double startValue)
throws MaxIterationsExceededException, FunctionEvaluationException {
try {
final UnivariateRealFunction derivative =
((DifferentiableUnivariateRealFunction) f).derivative();
clearResult();
verifySequence(min, startValue, max);
double x0 = startValue;
double x1;
int i = 0;
while (i < maximalIterationCount) {
x1 = x0 - (f.value(x0) / derivative.value(x0));
if (Math.abs(x1 - x0) <= absoluteAccuracy) {
setResult(x1, i);
return x1;
}
x0 = x1;
++i;
}
throw new MaxIterationsExceededException(maximalIterationCount);
} catch (ClassCastException cce) {
throw MathRuntimeException.createIllegalArgumentException("function is not differentiable");
}
}
Example #24
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #25
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #26
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #27
| Source File: NewtonSolver.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
* Find a zero near the value <code>startValue</code>.
*
* @param f the function to solve
* @param min the lower bound for the interval (ignored).
* @param max the upper bound for the interval (ignored).
* @param startValue the start value to use.
* @return the value where the function is zero
* @throws MaxIterationsExceededException if the maximum iteration count is exceeded
* @throws FunctionEvaluationException if an error occurs evaluating the
* function or derivative
* @throws IllegalArgumentException if startValue is not between min and max or
* if function is not a {@link DifferentiableUnivariateRealFunction} instance
*/
public double solve(final UnivariateRealFunction f,
final double min, final double max, final double startValue)
throws MaxIterationsExceededException, FunctionEvaluationException {
try {
final UnivariateRealFunction derivative =
((DifferentiableUnivariateRealFunction) f).derivative();
clearResult();
verifySequence(min, startValue, max);
double x0 = startValue;
double x1;
int i = 0;
while (i < maximalIterationCount) {
x1 = x0 - (f.value(x0) / derivative.value(x0));
if (Math.abs(x1 - x0) <= absoluteAccuracy) {
setResult(x1, i);
return x1;
}
x0 = x1;
++i;
}
throw new MaxIterationsExceededException(maximalIterationCount);
} catch (ClassCastException cce) {
throw MathRuntimeException.createIllegalArgumentException("function is not differentiable");
}
}
Example #28
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testQuinticZero() throws MathException {
DifferentiableUnivariateRealFunction f = new QuinticFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, -0.2, 0.2);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.1, 0.3);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, -0.3, 0.45);
assertEquals(result, 0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.3, 0.7);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.2, 0.6);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.05, 0.95);
assertEquals(result, 0.5, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.25);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.8, 1.2);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 1.75);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.55, 1.45);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
result = solver.solve(f, 0.85, 5);
assertEquals(result, 1.0, solver.getAbsoluteAccuracy());
}
Example #29
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
/**
*
*/
public void testSinZero() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver();
result = solver.solve(f, 3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(f, 1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
Example #30
| Source File: NewtonSolverTest.java From astor with GNU General Public License v2.0 | 5 votes |
|
@Deprecated
public void testDeprecated() throws MathException {
DifferentiableUnivariateRealFunction f = new SinFunction();
double result;
UnivariateRealSolver solver = new NewtonSolver(f);
result = solver.solve(3, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
result = solver.solve(1, 4);
assertEquals(result, Math.PI, solver.getAbsoluteAccuracy());
assertEquals(result, solver.getResult(), 0);
assertTrue(solver.getIterationCount() > 0);
}
