Exemplo n.º 1
0
def test_sort():
    random.seed(42)
    rvals = pgf.var_int()
    rkeys = pgf.var_int()
    rsorted = pgf.sort(rvals, rkeys)
    lvals = []
    lkeys = []
    for _ in range(10):
        nItems = random.randint(75, 155)
        vals = list(range(nItems))
        keys = list(range(nItems))
        random.shuffle(vals)
        random.shuffle(keys)
        lvals.append(vals)
        lkeys.append(keys)
        expected = [
            x for x, _ in sorted(zip(vals, keys), key=lambda pair: pair[1])
        ]

        pgf.assign(rvals, vals)
        pgf.assign(rkeys, keys)
        assert tu.equal(expected, pgf.read(rsorted))

    # Test the same with tree combinatorics.
    expected = [[x for x, _ in sorted(zip(v, k), key=lambda pair: pair[1])]
                for v, k in zip(lvals, lkeys)]
    pgf.assign(rvals, lvals)
    pgf.assign(rkeys, lkeys)
    assert tu.equal(expected, pgf.read(rsorted))
Exemplo n.º 2
0
def test_flatten():
    random.seed(42)
    intree = pgf.var_int()
    outtree = pgf.flatten(intree)
    for _ in range(5):
        vals = [[random.randint(23, 234)] for __ in range(10)]
        pgf.assign(intree, vals)
        expected = [item for subl in vals for item in subl]
        assert tu.equal(expected, pgf.read(outtree))
        vals = [[[random.randint(23, 234) for __ in range(5)]
                 for ___ in range(5)] for _____ in range(5)]
        pgf.assign(intree, vals)
        expected = [item for l0 in vals for l1 in l0 for item in l1]
        assert tu.equal(expected, pgf.read(outtree))
Exemplo n.º 3
0
def test_graft():
    random.seed(42)
    intree = pgf.var_int()
    out = pgf.graft(intree)
    for _ in range(5):
        vals = [random.randint(23, 345) for __ in range(10)]
        expected = [[v] for v in vals]
        pgf.assign(intree, vals)
        assert tu.equal(expected, pgf.read(out))
    for _ in range(5):
        vals = [[random.randint(23, 345) for __ in range(5)]
                for ___ in range(5)]
        expected = [[[v] for v in vl] for vl in vals]
        pgf.assign(intree, vals)
        assert tu.equal(expected, pgf.read(out))
def test_treeInputs():
    random.seed(42)
    vals = [[random.randint(23, 345) for _ in range(10)] for _ in range(10)]
    rvals = pgf.var_int()
    rsum = pgf.treeSum(rvals)
    expected = sum([sum(v) for v in vals])

    pgf.assign(rvals, vals)
    assert tu.equal(expected, pgf.read(rsum))
Exemplo n.º 5
0
def test_listSumInt():
    random.seed(42)
    valrange = (23, 345)
    vals = [random.randint(valrange[0], valrange[1]) for _ in range(25)]

    lst = pgf.var_int(vals)
    result = pgf.listSum(lst)

    assert tu.equal(sum(vals), pgf.read(result))
def test_heterogenousTrees():
    random.seed(42)
    vals1 = [[2], [3]]
    vals2 = [4, 5]
    expected = [[8, 10], [12, 15]]

    rvals1 = pgf.var_int(vals1)
    rvals2 = pgf.var_int(vals2)
    prod = pgf.mul(rvals1, rvals2)
    assert tu.equal(expected, pgf.read(prod))
Exemplo n.º 7
0
def binaryIntOpTest(expFn, pgfn, minval=2, maxval=124):
    random.seed(42)
    a = pgf.var_int()
    b = pgf.var_int()
    r = pgfn(a, b)

    for _ in range(20):
        va = random.randint(minval, maxval)
        vb = random.randint(minval, maxval)
        expected = expFn(va, vb)
        pgf.assign(a, va)
        pgf.assign(b, vb)
        assert tu.equal(expected, pgf.read(r))

    vas = [random.randint(minval, maxval) for _ in range(20)]
    vbs = [random.randint(minval, maxval) for _ in range(20)]
    expectedVals = [expFn(va, vb) for va, vb in zip(vas, vbs)]
    pgf.assign(a, vas)
    pgf.assign(b, vbs)
    assert tu.equal(expectedVals, pgf.read(r))
def test_itemListMapping():
    random.seed(42)
    singleval = 42
    single = pgf.var_int(singleval)
    lst = pgf.var_int()
    out = pgf.add(single, lst)
    for _ in range(10):
        vals = list(range(12))
        random.shuffle(vals)
        expected = [singleval + v for v in vals]

        pgf.assign(lst, vals)
        assert tu.equal(expected, pgf.read(out))
Exemplo n.º 9
0
def test_dispatch():
    random.seed(42)
    valrange = (23, 345)
    rvals = pgf.var_int()
    rpattern = pgf.var_bool()
    rtvals, rfvals = pgf.dispatch(rvals, rpattern)
    for _ in range(20):
        nItems = 25
        vals = [
            random.randint(valrange[0], valrange[1]) for _ in range(nItems)
        ]
        pattern = [
            random.randint(valrange[0], valrange[1]) % 2 == 0
            for _ in range(nItems)
        ]
        tvals = [v for v, p in zip(vals, pattern) if p]
        fvals = [v for v, p in zip(vals, pattern) if not p]

        pgf.assign(rvals, vals)
        pgf.assign(rpattern, pattern)
        assert tu.equal(tvals, pgf.read(rtvals))
        assert tu.equal(fvals, pgf.read(rfvals))
Exemplo n.º 10
0
def test_seriesInt():
    random.seed(42)
    valrange = (23, 256)
    steprange = (2, 9)
    valstart = random.randint(valrange[0], valrange[1])
    valstep = random.randint(steprange[0], steprange[1])
    valcount = random.randint(valrange[0], valrange[1])
    valstop = valstart + valstep * valcount

    start = pgf.var_int(valstart)
    step = pgf.var_int(valstep)
    count = pgf.var_int(valcount)
    series = pgf.series(start, step, count)

    assert tu.equal(range(valstart, valstop, valstep), pgf.read(series))
Exemplo n.º 11
0
def test_combinations():
    random.seed(42)
    valrange = (23, 345)
    rvals = pgf.var_int()
    rnumc = pgf.var_int()
    rcombs = pgf.combinations(rvals, rnumc)
    for _ in range(5):
        nItems = random.randint(23, 29)
        numc = random.randint(3, 5)
        vals = [
            random.randint(valrange[0], valrange[1]) for _ in range(nItems)
        ]
        combs = list(itertools.combinations(vals, numc))

        pgf.assign(rvals, vals)
        pgf.assign(rnumc, numc)
        assert tu.equal(combs, pgf.read(rcombs))
Exemplo n.º 12
0
 def compareInt(a, b):
     return tu.equal(a, b)