def testMarginalizeBothAxis(self):
    manage.config.MAXPOWER = np.array([10])
    a = ExprZp([1], np.array([[1, 0, 0]]))
    b = ExprZp([1], np.array([[0, 1, 0]]))
    c = ExprZp([2], np.array([[0, 0, 1]]))
    expressions = np.array([[a, b, c], [a, b, c]], dtype=np.object)

    matrix = ExprMatrix('A', expressions, powers=np.array([1]))
    matrix = matrix.Marginalize(axis=None)
    self.assertEquals((1, 1), matrix.expressions.shape)
Example #2
0
 def testHashImmuneToConst(self):
   manage.config.MAXPOWER = np.array([10])
   a = ExprZp(
       [2, 3],
       np.array([[1, 2, 3], [4, 5, 6]]))
   b = ExprZp(
       [4, 6],
       np.array([[1, 2, 3], [4, 5, 6]]))
   self.assertNotEquals(a, b)
   a = ExprMatrix("a", np.array([[a]]), np.array([1]))
   b = ExprMatrix("b", np.array([[b]]), np.array([1]))
   self.assertEquals(a, b)
  def testElementwiseMultiply(self):
    manage.config.MAXPOWER = np.array([10, 10])
    # a = x1 * x3
    # b = x1 * x2^2
    # c = x2^3 + x3^4
    a = ExprZp([1], np.array([[1, 0, 1]]))
    b = ExprZp([1], np.array([[1, 2, 0]]))
    c = ExprZp([1, 1], np.array([[0, 3, 0], [0, 0, 4]]))
    expressions1 = np.array([[a, b], [c, a]])
    expressions2 = np.array([[a, a], [a, a]])
    # mat1:
    #  x1x3  |  x1 * x2^2
    #  x2^3 + x3^4 | x1x3
    mat1 = ExprMatrix('M1', expressions1, powers=np.array([1, 0]))
    mat2 = ExprMatrix('M2', expressions2, powers=np.array([0, 1]))

    mat1.ElementwiseMultiply(mat2)
    self.assertEquals((2, 2), mat1.expressions.shape)
  def testShapesAfterSumAreCorrec(self):
    manage.config.MAXPOWER = np.array([10])
    a = ExprZp([1], np.array([[1, 0, 0]]))
    b = ExprZp([1], np.array([[0, 1, 0]]))
    expressions = np.array([[a, a, a], [b, b, b]])
    matrix = ExprMatrix('M', expressions, powers=np.array([1]))
    # Exp matrix test
    self.assertEquals((2, 3), matrix.expressions.shape)
    m0 = copy.copy(matrix)
    m0 = m0.Marginalize(axis=0)
    self.assertEquals((1, 3), m0.expressions.shape)
    self.assertEquals(a + b, m0.expressions[0, 0])
    self.assertEquals(a + b, m0.expressions[0, 1])

    m1 = copy.copy(matrix)
    m1 = m1.Marginalize(axis=1)
    self.assertEquals((2, 1), m1.expressions.shape)
    self.assertEquals(a + a + a, m1.expressions[0, 0])
    self.assertEquals(b + b + b, m1.expressions[1, 0])
Example #5
0
 def testAddExpressions(self):
   a = ExprZp([1], np.array([[1, 0, 0]])) # x1
   b = ExprZp([1], np.array([[0, 0, 1]])) # x3
   c = ExprZp([2], np.array([[1, 0, 1]])) # 2x1x3
   d = ExprZp([2], np.array([[1, 0, 0]])) # 2x1
   e = ExprZp([2], np.array([[0, 0, 1]])) # 2x3
   self.assertEquals(a + a, d)
   self.assertEquals(b+b, e)
   print 'Karol D:'
   d.PrintDebug()
   print 'Karol E:'
   e.PrintDebug()
   print 'Karol D*E:'
   (d*e).PrintDebug()
   print 'Karol C+C:'
   (c+c).PrintDebug()
   self.assertEquals(d * e, c+c)
Example #6
0
def main():
    for target, labels in [targets[2]]:
        params = {'depth': 5, 'trials': 1, 'run_id': 1}
        scheduler = NgramScheduler(params)
        solution_tree = None
        for i in range(1, 16):
            matlab, tree, solution_tree = execute_once(scheduler, params,
                                                       target, solution_tree,
                                                       i)
            if matlab is None:
                break
            name = get_name_matlab(target, i)
            original = target(i).GetTargetExpression()
            code = ""
            code += original.comp[MATLAB] + "\n"
            code += "optimized = "
            expr = ""
            try:
                for w, c in matlab:
                    if len(expr) > 0:
                        expr += " + "
                    expr += "%s * (%s)" % (ExprZp.ToFrac(w), c)
            except:
                break
            if target == RBM:
                expr = "2^(n + m - %d) * (%s)" % (manage.config.N +
                                                  manage.config.M, expr)
            if target == RBMOneSide:
                expr = "2^(n - %d) * (%s)" % (manage.config.M, expr)
            if target == Sym:
                expr = "(%s) / 120" % expr
            code += expr + ";\n"
            code += "normalization = sum(abs(original(:)));\n"
            code += "assert(sum(abs(original(:) - optimized(:))) / normalization < 1e-10);"
            f = open("code.m", 'w')
            f.write(code)
            f.close()
            print "Executing matlab code: \n%s\n" % code
            ret = os.system(
                "matlab -nodesktop -nodisplay -nojvm -nosplash -r \"try run('code.m');catch exit(-1); end; exit(0) \" > /dev/null"
            )
            if ret != 0:
                break
            os.rename("code.m", name)
            tree_string = ""
            for j, t in enumerate(tree):
                ProcessLine(j, str(t), get_name_tree(target, i))

            generate_sup()
 def testEquivalence(self):
     targets = [RBMOneSide, SumAmultA, RBM, SumAAT, SumAB, Sym]
     for target in targets:
         manage.config.EXPR_IMPL = ExprZp
         scheduler = NgramScheduler
         params = {'depth': 5, 'trials': 1}
         matlab = execute(scheduler,
                          params,
                          target,
                          maxpower=4,
                          record_it=False)[0]["matlab"]
         for i, m in enumerate(matlab):
             f = open('code.m', 'w')
             original = target(i + 1).GetTargetExpression()
             code = ""
             code += original.comp[MATLAB] + "\n"
             code += "optimized = "
             expr = ""
             for w, c in m:
                 if len(expr) > 0:
                     expr += " + "
                 expr += "%s * (%s)" % (ExprZp.ToFrac(w), c)
             if target == RBM:
                 expr = "2^(n + m - %d) * (%s)" % (manage.config.N +
                                                   manage.config.M, expr)
             if target == RBMOneSide:
                 expr = "2^(n - %d) * (%s)" % (manage.config.M, expr)
             code += expr + ";\n"
             code += "assert(sum(abs(original(:) - optimized(:))) / sum(abs(original(:))) < 1e-8);"
             f.write(code)
             f.close()
             print "Executing matlab code: \n%s\n" % code
             ret = os.system(
                 "matlab -nodesktop -nodisplay -nojvm -nosplash -r \"try run('code.m');catch exit(-1); end; exit(0) \" > /dev/null"
             )
             if ret == 0:
                 print "Passed matlab verification\n"
             else:
                 self.assertEquals(ret, 0)
             os.remove('code.m')
Example #8
0
  def testFindLinearCombinationWithMatrix(self):
    manage.config.MAXPOWER = np.array([10])
    #  mat1          mat2         target
    #  x1  | x1x2    x1 | x1x2    3x1      | 3x1x2
    #  2x3 | x2^2    x1 | x3      4x3+x1   | 2x2^2 + x3
    mat1_11 = ExprZp([1], np.array([[1, 0, 0]]))
    mat1_12 = ExprZp([1], np.array([[1, 1, 0]]))
    mat1_21 = ExprZp([2], np.array([[0, 0, 1]]))
    mat1_22 = ExprZp([1], np.array([[0, 2, 0]]))

    mat2_11 = ExprZp([1], np.array([[1, 0, 0]]))
    mat2_12 = ExprZp([1], np.array([[1, 1, 0]]))
    mat2_21 = ExprZp([1], np.array([[1, 0, 0]]))
    mat2_22 = ExprZp([1], np.array([[0, 0, 1]]))

    target_11 = ExprZp([3], np.array([[1, 0, 0]]))
    target_12 = ExprZp([3], np.array([[1, 1, 0]]))
    target_21 = ExprZp([4, 1], np.array([[0, 0, 1], [1, 0, 0]]))
    target_22 = ExprZp([2, 1], np.array([[0, 2, 0], [0, 0, 1]]))

    mat1 = ExprMatrix("a",
        np.array([[mat1_11, mat1_12], [mat1_21, mat1_22]]), np.array([1]))
    mat2 = ExprMatrix("b",
        np.array([[mat2_11, mat2_12], [mat2_21, mat2_22]]), np.array([1]))
    target = ExprMatrix(
        "target",
        np.array([[target_11, target_12], [target_21, target_22]]),
        np.array([1]))
    expressions_list = [mat1, mat2]
    weights = ExprZp.FindLinearCombination(expressions_list, target)[0]

    self.assertEquals(2, len(weights))
    self.assertAlmostEqual(2.0, weights[0])
    self.assertAlmostEqual(1.0, weights[1])