use of com.sri.ai.grinder.sgdpllt.theory.equality.EqualityTheory in project aic-expresso by aic-sri-international.
the class EvaluationTest method testEvaluationOfGroupOperationsOnSets.
@Test
public void testEvaluationOfGroupOperationsOnSets() {
TheoryTestingSupport theoryTestingSupport = TheoryTestingSupport.make(makeRandom(), new CompoundTheory(new EqualityTheory(false, true), new DifferenceArithmeticTheory(false, true), new PropositionalTheory()));
Map<String, Type> variablesAndTypes = new LinkedHashMap<>(theoryTestingSupport.getVariableNamesAndTypesForTesting());
Type booleanType = variablesAndTypes.get("P");
variablesAndTypes.put("S", booleanType);
variablesAndTypes.put("T", booleanType);
variablesAndTypes.put("U", booleanType);
theoryTestingSupport.setVariableNamesAndTypesForTesting(variablesAndTypes);
Context context = theoryTestingSupport.makeContextWithTestingInformation();
String expressionString;
Expression expected;
expressionString = "sum( {{ (on I in 1..10) 3 : I != 4 and P }} )";
expected = parse("if P then 27 else 0");
runTest(expressionString, expected, context);
expressionString = "sum( {{ (on ) 3 : I != 4 and P }} )";
expected = parse("if I != 4 then if P then 3 else 0 else 0");
runTest(expressionString, expected, context);
expressionString = "sum( {{ (on ) 3 : P and not P }} )";
expected = parse("0");
runTest(expressionString, expected, context);
expressionString = "sum( {{ (on I in 1..10, J in 1..2) 3 : I != 4 }} )";
expected = parse("54");
runTest(expressionString, expected, context);
expressionString = "sum( {{ (on I in 1..10, P in Boolean) 3 : I != 4 }} )";
expected = parse("54");
runTest(expressionString, expected, context);
expressionString = "max( {{ (on I in 1..10) 3 : I != 4 and P }} )";
expected = parse("if P then 3 else -infinity");
runTest(expressionString, expected, context);
expressionString = "max( {{ (on ) 3 : I != 4 and P }} )";
expected = parse("if I != 4 then if P then 3 else -infinity else -infinity");
runTest(expressionString, expected, context);
expressionString = "max( {{ (on ) 3 : P and not P }} )";
expected = parse("-infinity");
runTest(expressionString, expected, context);
expressionString = "max( {{ (on I in 1..10, J in 1..2) 3 : I != 4 }} )";
expected = parse("3");
runTest(expressionString, expected, context);
expressionString = "max( {{ (on I in 1..10, P in Boolean) 3 : I != 4 }} )";
expected = parse("3");
runTest(expressionString, expected, context);
}
use of com.sri.ai.grinder.sgdpllt.theory.equality.EqualityTheory in project aic-expresso by aic-sri-international.
the class EvaluationTest method testEvaluationOfFunctionApplications.
@Test
public void testEvaluationOfFunctionApplications() {
TheoryTestingSupport theoryTestingSupport = TheoryTestingSupport.make(makeRandom(), new CompoundTheory(new EqualityTheory(false, true), new DifferenceArithmeticTheory(false, true), new PropositionalTheory()));
Map<String, Type> variablesAndTypes = new LinkedHashMap<>(theoryTestingSupport.getVariableNamesAndTypesForTesting());
Type booleanType = variablesAndTypes.get("P");
variablesAndTypes.put("S", booleanType);
variablesAndTypes.put("T", booleanType);
variablesAndTypes.put("U", booleanType);
theoryTestingSupport.setVariableNamesAndTypesForTesting(variablesAndTypes);
Context context = theoryTestingSupport.makeContextWithTestingInformation();
String expressionString;
Expression expected;
expressionString = "0";
expected = parse("0");
runTest(expressionString, expected, context);
expressionString = "I > J";
expected = parse("I > J");
runTest(expressionString, expected, context);
expressionString = "I > J and I < J";
expected = parse("false");
runTest(expressionString, expected, context);
expressionString = "(if I > J then 1 else 2) + (if I <= J then 30 else 40)";
expected = parse("if I > J then 41 else 32");
runTest(expressionString, expected, context);
expressionString = "(if I > J then 1 else 2) + (if I <= J then 3 else 4)";
expected = parse("5");
runTest(expressionString, expected, context);
expressionString = "(if I > J then if P or Q then 1 else 2 else 5) + (if I <= J then 3 else if not Q then 4 else -3)";
expected = parse("if I > J then if P then if not Q then 5 else -2 else if Q then -2 else 6 else 8");
runTest(expressionString, expected, context);
expressionString = "(if I > J then if P or X = a or Y != b then 1 else 2 else 5) + (if I <= J then 3 else if not (X != a or Y = c and Q) then 4 else -3)";
expected = parse("if I > J then if P then if X != a then -2 else if Y = c then if Q then -2 else 5 else 5 else if X = a then if Y = c then if Q then -2 else 5 else 5 else if Y != b then -2 else -1 else 8");
runTest(expressionString, expected, context);
expressionString = "if P and Q and R then 1 else 0";
expected = parse("if P then if Q then if R then 1 else 0 else 0 else 0");
runTest(expressionString, expected, context);
expressionString = "if P and Q and R and S and T and U then 1 else 0";
expected = parse("if P then if Q then if R then if S then if T then if U then 1 else 0 else 0 else 0 else 0 else 0 else 0");
runTest(expressionString, expected, context);
}
use of com.sri.ai.grinder.sgdpllt.theory.equality.EqualityTheory in project aic-expresso by aic-sri-international.
the class EvaluationTest method testEvaluationOfQuantifiersOverFunctions.
@Test
public void testEvaluationOfQuantifiersOverFunctions() {
TheoryTestingSupport theoryTestingSupport = TheoryTestingSupport.make(makeRandom(), new CompoundTheory(new EqualityTheory(false, true), new DifferenceArithmeticTheory(false, true), new PropositionalTheory(), new BruteForceFunctionTheory()));
Map<String, Type> variablesAndTypes = new LinkedHashMap<>(theoryTestingSupport.getVariableNamesAndTypesForTesting());
Type booleanType = variablesAndTypes.get("P");
variablesAndTypes.put("S", booleanType);
variablesAndTypes.put("T", booleanType);
variablesAndTypes.put("U", booleanType);
theoryTestingSupport.setVariableNamesAndTypesForTesting(variablesAndTypes);
Context context = theoryTestingSupport.makeContextWithTestingInformation();
String expressionString;
Expression expected;
expressionString = "sum( {{ (on f in '->'(x(0..2), Boolean)) if f(0) and f(1) then 2 else 3 : f(2) }} )";
// 2+3+3+3
expected = parse("11");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(x(1..2), Boolean), g in '->'(x(1..2), Boolean)) if f(1) and g(2) then 2 else 3 : f(2) }} )";
expected = parse("22");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(x(1..2), Boolean), g in '->'(x(1..2), Boolean)) if f(1) and g(2) then 2 else 3 }} )";
expected = parse("44");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(x(1..2), Boolean), g in '->'(x(1..2), Boolean)) if f(1) then 2 else 3 }} )";
expected = parse("40");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(x(1..2), Boolean)) if f(1) then 2 else 3 }} )";
expected = parse("10");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(x(1..2), 1..2)) if f(1) = 1 then 2 else 3 }} )";
expected = parse("10");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(x(1..2), 1..2)) f(1) }} )";
expected = parse("6");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(1..2)) f() }} )";
expected = parse("3");
runTest(expressionString, expected, context);
expressionString = "sum({{ (on f in '->'(1..2)) f }} )";
expected = parse("(lambda : 1) + (lambda : 2)");
runTest(expressionString, expected, context);
expressionString = "product( {{ (on f in '->'(x(0..2), Boolean)) if f(0) and f(1) then 2 else 3 : f(2) }} )";
// 2*3*3*3
expected = parse("54");
runTest(expressionString, expected, context);
expressionString = "max( {{ (on f in '->'(x(0..2), Boolean)) if f(0) and f(1) then 2 else 3 : f(2) }} )";
expected = parse("3");
runTest(expressionString, expected, context);
expressionString = "| f in '->'(0..2, Boolean) : f(0) |";
expected = parse("4");
runTest(expressionString, expected, context);
expressionString = "| f in '->'(x(0..2), Boolean) : f(0) |";
expected = parse("4");
runTest(expressionString, expected, context);
expressionString = "| f in 0..2 -> Boolean : f(0) |";
expected = parse("4");
runTest(expressionString, expected, context);
expressionString = "| f in '->'(x(0..2, 0..2), Boolean) : f(0, 0) |";
expected = parse("256");
runTest(expressionString, expected, context);
expressionString = "| f in 0..2 x 0..2 -> Boolean : f(0, 0) |";
expected = parse("256");
runTest(expressionString, expected, context);
expressionString = "for all f in '->'(x(0..2), Boolean) : f(0)";
expected = parse("false");
runTest(expressionString, expected, context);
expressionString = "for all f in '->'(x(0..2), Boolean) : (f(0) or not f(0)) and P";
expected = parse("P");
runTest(expressionString, expected, context);
expressionString = "there exists f in '->'(x(0..2), Boolean) : f(0)";
expected = parse("true");
runTest(expressionString, expected, context);
}
use of com.sri.ai.grinder.sgdpllt.theory.equality.EqualityTheory in project aic-expresso by aic-sri-international.
the class EvaluationTest method testEvaluationOfQuantifiedExpressions.
@Test
public void testEvaluationOfQuantifiedExpressions() {
TheoryTestingSupport theoryTestingSupport = TheoryTestingSupport.make(makeRandom(), new CompoundTheory(new EqualityTheory(false, true), new DifferenceArithmeticTheory(false, true), new PropositionalTheory()));
Map<String, Type> variablesAndTypes = new LinkedHashMap<>(theoryTestingSupport.getVariableNamesAndTypesForTesting());
Type booleanType = variablesAndTypes.get("P");
variablesAndTypes.put("S", booleanType);
variablesAndTypes.put("T", booleanType);
variablesAndTypes.put("U", booleanType);
theoryTestingSupport.setVariableNamesAndTypesForTesting(variablesAndTypes);
Context context = theoryTestingSupport.makeContextWithTestingInformation();
String expressionString;
Expression expected;
expressionString = "for all I in 1..10 : (I != 4 or I = 4) and P";
expected = parse("P");
runTest(expressionString, expected, context);
// the following example tests that quantified expressions that are function arguments get evaluated properly, as there once was a bug preventing it
expressionString = "not(for all I in 1..10 : (I != 4 or I = 4))";
expected = parse("false");
runTest(expressionString, expected, context);
expressionString = "for all I in 1..10 : for all J in 1..2 : I != 4";
expected = parse("false");
runTest(expressionString, expected, context);
expressionString = "for all I in 1..10 : for all P in Boolean : I != 4 or I = 4 and (P or not P)";
expected = parse("true");
runTest(expressionString, expected, context);
expressionString = "there exists I in 1..10 : I != 4 and P";
expected = parse("P");
runTest(expressionString, expected, context);
expressionString = "there exists I in 1..10 : there exists J in 1..2 : I != 4 and J != 1";
expected = parse("true");
runTest(expressionString, expected, context);
expressionString = "there exists I in 1..10 : there exists P in Boolean : I != 4 and P";
expected = parse("true");
runTest(expressionString, expected, context);
}
use of com.sri.ai.grinder.sgdpllt.theory.equality.EqualityTheory in project aic-expresso by aic-sri-international.
the class EvaluationTest method testEvaluationOfCardinalityExpressions.
@Test
public void testEvaluationOfCardinalityExpressions() {
TheoryTestingSupport theoryTestingSupport = TheoryTestingSupport.make(makeRandom(), new CompoundTheory(new EqualityTheory(false, true), new DifferenceArithmeticTheory(false, true), new PropositionalTheory()));
Map<String, Type> variablesAndTypes = new LinkedHashMap<>(theoryTestingSupport.getVariableNamesAndTypesForTesting());
Type booleanType = variablesAndTypes.get("P");
variablesAndTypes.put("S", booleanType);
variablesAndTypes.put("T", booleanType);
variablesAndTypes.put("U", booleanType);
theoryTestingSupport.setVariableNamesAndTypesForTesting(variablesAndTypes);
Context context = theoryTestingSupport.makeContextWithTestingInformation();
String expressionString;
Expression expected;
expressionString = "| {{ (on I in 1..10) 3 : I != 4 and P }} |";
expected = parse("if P then 9 else 0");
runTest(expressionString, expected, context);
expressionString = "| I in 1..10 : I != 4 and P |";
expected = parse("if P then 9 else 0");
runTest(expressionString, expected, context);
expressionString = "| {{ (on ) 3 : I != 4 and P }} |";
expected = parse("if I != 4 then if P then 1 else 0 else 0");
runTest(expressionString, expected, context);
expressionString = "| : I != 4 and P |";
expected = parse("if I != 4 then if P then 1 else 0 else 0");
runTest(expressionString, expected, context);
expressionString = "| {{ (on ) 3 : P and not P }} |";
expected = parse("0");
runTest(expressionString, expected, context);
expressionString = "| : P and not P |";
expected = parse("0");
runTest(expressionString, expected, context);
expressionString = "| {{ (on I in 1..10, J in 1..2) 3 : I != 4 }} |";
expected = parse("18");
runTest(expressionString, expected, context);
expressionString = "| I in 1..10, J in 1..2 : I != 4 |";
expected = parse("18");
runTest(expressionString, expected, context);
expressionString = "| {{ (on I in 1..10, P in Boolean) 3 : I != 4 }} |";
expected = parse("18");
runTest(expressionString, expected, context);
expressionString = "| I in 1..10, P in Boolean: I != 4 |";
expected = parse("18");
runTest(expressionString, expected, context);
}
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