@Test public final void testDotProduct() { fill(mF43, range(0, dim43.capacity() - 1)); fill(mF4, range(0, dim4.capacity() - 1)); assertDotProductFalse(mF324, mF43); assertDotProductFalse(mF324, mF4); fill(mF324, range(0, dim324.capacity() - 1)); BooleanValue[] result = new BooleanValue[dim324.dot(dim43).capacity()]; for (int i = 0; i < result.length; i++) { result[i] = BooleanAccumulator.treeGate(Operator.Nary.OR); } int rows43 = dim324.dimension(dim324.numDimensions() - 1); int rows324 = dim324.capacity() / rows43; int cols43 = dim43.capacity() / rows43; for (int i = 0; i < rows324; i++) { for (int j = 0; j < cols43; j++) { for (int k = 0; k < rows43; k++) { int index324 = i * rows43 + k; int index43 = j + k * cols43; int indexR = cols43 * i + j; ((BooleanAccumulator) result[indexR]).add(f.and(mF324.get(index324), mF43.get(index43))); } } } for (int i = 0; i < result.length; i++) { result[i] = f.accumulate((BooleanAccumulator) result[i]); } assertTrue(equivalent(mF324.dot(mF43), result)); for (int i = 0; i < dim324.capacity(); i += 2) { mF324.set(i, FALSE); } for (int i = 1; i < dim4.capacity(); i += 2) { mF4.set(i, FALSE); } assertDotProductFalse(mF324, mF4); }
@Test public final void testOverride() { assertTrue(equivalent(mT324.override(mT324), mT324)); assertTrue(equivalent(mT324.override(mF324), mT324)); assertTrue(equivalent(mF324.override(mT324), mT324)); assertTrue(equivalent(mF324.override(mF324), mF324)); final BooleanMatrix mF324c = mF324.clone(), mT324c = mT324.clone(); mF324.set(3, vars[3]); mF324.set(17, vars[17]); mF324.set(22, vars[22]); assertTrue(equivalent(mF324.override(mF324c), mF324)); assertTrue(equivalent(mF324.override(mT324), mT324)); mF324c.set(9, vars[9]); assertTrue(equivalent(mF324.override(mF324c), mF324.or(mF324c))); mT324.set(0, BooleanConstant.FALSE); assertTrue(equivalent(mF324.override(mT324), mT324)); assertTrue(equivalent(mT324.override(mT324c), mT324c)); assertTrue(equivalent(mT324c.override(mT324), mT324)); final BooleanMatrix mFoF = f.matrix(dim324); mF324.set(10, vars[10]); mF324c.set(3, vars[4]); mF324c.set(20, vars[20]); mF324c.set(19, vars[19]); mFoF.set(3, f.or(vars[4], f.and(vars[3], f.not(vars[4])))); mFoF.set(9, vars[9]); mFoF.set(10, f.and(vars[10], f.not(vars[9]))); mFoF.set(17, f.and(vars[17], f.and(f.not(vars[19]), f.not(vars[20])))); mFoF.set(22, f.and(vars[22], f.and(f.not(vars[19]), f.not(vars[20])))); mFoF.set(20, vars[20]); mFoF.set(19, vars[19]); assertTrue(equivalent(mF324.override(mF324c), mFoF)); mT324.set(3, vars[4]); mT324.set(11, vars[11]); for (int i = 16; i < 24; i++) mT324.set(i, vars[i - 16]); final BooleanMatrix mFoT = f.matrix(dim324); for (int i = 0; i < 16; i++) mFoT.set(i, mT324.get(i)); final BooleanAccumulator g = BooleanAccumulator.treeGate(Operator.AND); for (int i = 0; i < 8; i++) g.add(f.not(vars[i])); final BooleanValue v3 = f.accumulate(g); for (int i = 16; i < 24; i++) mFoT.set(i, f.or(f.and(v3, mF324.get(i)), mT324.get(i))); assertTrue(equivalent(mF324.override(mT324), mFoT)); final BooleanMatrix mToF = f.matrix(dim324); for (int i = 0; i < 8; i++) mToF.set(i, f.or(mF324.get(i), f.and(mT324.get(i), f.not(vars[3])))); for (int i = 8; i < 16; i++) mToF.set(i, f.or(mF324.get(i), f.and(mT324.get(i), f.not(vars[10])))); for (int i = 16; i < 24; i++) mToF.set(i, f.or(mF324.get(i), f.and(mT324.get(i), f.and(f.not(vars[17]), f.not(vars[22]))))); assertTrue(equivalent(mT324.override(mF324), mToF)); final BooleanMatrix mToT = f.matrix(dim324).not(); mT324c.set(11, vars[12]); mT324c.set(12, vars[13]); mT324c.set(18, vars[18]); for (int i = 0; i < 16; i++) mToT.set(i, mT324.get(i)); for (int i = 16; i < 24; i++) mToT.set(i, f.or(mT324.get(i), f.and(mT324c.get(i), v3))); assertTrue(equivalent(mT324c.override(mT324), mToT)); }