Ejemplo n.º 1
0
def expand_probability_estimate(probest, population, generator):
    simmodels = ast.SimulateModelsExp([ast.SelColExp(probest.expression, 'x')],
                                      population, generator)
    select = ast.Select(ast.SELQUANT_ALL, [
        ast.SelColExp(ast.ExpApp(False, 'AVG', [ast.ExpCol(None, 'x')]), None)
    ], [ast.SelTab(simmodels, None)], None, None, None, None)
    return ast.ExpSub(select)
Ejemplo n.º 2
0
def test_simulate_models_nontrivial():
    # XXX test descent into ExpLit
    # XXX test descent into ExpNumpar
    # XXX test descent into ExpNampar
    # XXX test descent into ExpCol
    # XXX test descent into ExpSub
    # XXX test descent into ExpCollate
    # XXX test descent into ExpIn
    # XXX test descent into ExpCast
    # XXX test descent into ExpExists
    # XXX test descent into ExpApp
    # XXX test descent into ExpAppStar
    # XXX test descent into ExpCase
    mutinf0 = ast.ExpBQLMutInf(['c0'], ['c1', 'c2'],
                               [('c3', ast.ExpLit(ast.LitInt(3)))], None)
    mutinf1 = ast.ExpBQLMutInf(['c4', 'c5'], ['c6'],
                               [('c7', ast.ExpLit(ast.LitString('ergodic')))],
                               100)
    probdensity = ast.ExpBQLProbDensity(
        [('x', ast.ExpLit(ast.LitFloat(1.2)))],
        # No conditions for now -- that changes the weighting of the average.
        [])
    expression0 = ast.ExpOp(ast.OP_LT, [
        mutinf0,
        ast.ExpOp(ast.OP_MUL, [ast.ExpLit(ast.LitFloat(0.1)), mutinf1]),
    ])
    expression1 = probdensity
    simmodels = ast.SimulateModelsExp([
        ast.SelColExp(expression0, 'quagga'),
        ast.SelColExp(expression1, 'eland'),
    ], 'p', 'g')
    assert macro.expand_simulate_models(simmodels) == \
        ast.Select(ast.SELQUANT_ALL,
            [
                ast.SelColExp(
                    ast.ExpOp(ast.OP_LT, [
                        ast.ExpCol(None, 'v0'),
                        ast.ExpOp(ast.OP_MUL, [
                            ast.ExpLit(ast.LitFloat(0.1)),
                            ast.ExpCol(None, 'v1'),
                        ])
                    ]),
                    'quagga'),
                ast.SelColExp(ast.ExpCol(None, 'v2'), 'eland'),
            ],
            [ast.SelTab(
                ast.SimulateModels(
                    [
                        ast.SelColExp(mutinf0, 'v0'),
                        ast.SelColExp(mutinf1, 'v1'),
                        ast.SelColExp(probdensity, 'v2'),
                    ], 'p', 'g'),
                None)],
            None, None, None, None)
Ejemplo n.º 3
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def test_expand_probability_estimate():
    expression = ast.ExpOp(ast.OP_LT, [
        ast.ExpBQLMutInf(['c0'], ['c1', 'c2'],
                         [('c3', ast.ExpLit(ast.LitInt(3)))], None),
        ast.ExpLit(ast.LitFloat(0.1)),
    ])
    probest = ast.ExpBQLProbEst(expression)
    assert macro.expand_probability_estimate(probest, 'p', 'g') == \
        ast.ExpSub(
            ast.Select(ast.SELQUANT_ALL,
                [ast.SelColExp(
                    ast.ExpApp(False, 'AVG', [ast.ExpCol(None, 'x')]),
                    None)],
                [ast.SelTab(
                    ast.SimulateModelsExp([ast.SelColExp(expression, 'x')],
                        'p', 'g'),
                    None)],
                None, None, None, None))
Ejemplo n.º 4
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 def p_simulate_models(self, cols, population, generator):
     return ast.SimulateModelsExp(cols, population, generator)
Ejemplo n.º 5
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def test_simulate_models_trivial():
    e = ast.ExpBQLMutInf(['c0'], ['c1', 'c2'],
                         [('c3', ast.ExpLit(ast.LitInt(3)))], None)
    simmodels = ast.SimulateModelsExp([ast.SelColExp(e, 'x')], 'p', 'g')
    assert macro.expand_simulate_models(simmodels) == \
        ast.SimulateModels([ast.SelColExp(e, 'x')], 'p', 'g')