Beispiel #1
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def test_prod_var_limit():

    k = pystencils.TypedSymbol('k', create_type('int64'))
    limit = pystencils.TypedSymbol('limit', create_type('int64'))

    sum = sympy.Sum(k, (k, 1, limit))
    expanded_sum = sum.replace(limit, 100).doit()

    print(sum)
    print(expanded_sum)

    x = pystencils.fields('x: int64[1d]')

    assignments = pystencils.AssignmentCollection({x.center(): sum})

    ast = pystencils.create_kernel(assignments)
    code = str(pystencils.show_code(ast))
    kernel = ast.compile()

    print(code)

    array = np.zeros((10, ), np.int64)

    kernel(x=array, limit=100)

    assert np.allclose(array, int(expanded_sum) * np.ones_like(array))
Beispiel #2
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def test_projection():
    volume = pystencils.fields('volume: float32[100,200,300]')
    projections = pystencils.fields('projections: float32[2D]')

    projection_matrix = sympy.Matrix(
        [[-289.0098977737411, -1205.2274801832275, 0.0, 186000.0],
         [-239.9634468375339, -4.188577544948043, 1200.0, 144000.0],
         [-0.9998476951563913, -0.01745240643728351, 0.0, 600.0]])

    assignments = forward_projection(
        volume, projections, projection_matrix)  # .compile(target='gpu')
    print(type(assignments))
    print(pickle.dumps(assignments))

    # a = sympy.Symbol('a')
    # projection_matrix = sympy.Matrix([[-289.0098977737411, -1205.2274801832275, 0.0, 186000.0],
    # [a, - 4.188577544948043, 1200.0, 144000.0],
    # [-0.9998476951563913, -0.01745240643728351, 0.0, 600.0]])

    # kernel = forward_projection(volume, projections, projection_matrix).compile(target='gpu')
    # print(kernel.code)

    a = sympy.symbols('a:12')
    a = [pystencils.TypedSymbol(s.name, 'float32') for s in a]
    A = sympy.Matrix(3, 4, lambda i, j: a[i * 4 + j])
    # A = sympy.MatrixSymbol('A', 3, 4)
    projection_matrix = A
    forward_projection(volume, projections,
                       projection_matrix).compile(target='gpu')
Beispiel #3
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def test_product(default_assignment_simplifications):

    k = ps.TypedSymbol('k', create_type('int64'))

    sum = sympy.Product(k, (k, 1, 10))
    expanded_sum = sum.doit()

    print(sum)
    print(expanded_sum)

    x = ps.fields('x: int64[1d]')

    assignments = ps.AssignmentCollection({x.center(): sum})

    config = ps.CreateKernelConfig(
        default_assignment_simplifications=default_assignment_simplifications)

    ast = ps.create_kernel(assignments, config=config)
    code = ps.get_code_str(ast)
    kernel = ast.compile()

    print(code)
    if default_assignment_simplifications is False:
        assert 'int64_t product' in code

    array = np.zeros((10, ), np.int64)

    kernel(x=array)

    assert np.allclose(array, int(expanded_sum) * np.ones_like(array))
Beispiel #4
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def test_complex_execution(dtype, target, with_complex_argument):

    complex_dtype = f'complex{64 if dtype ==np.float32 else 128}'
    x, y = pystencils.fields(f'x, y:  {complex_dtype}[2d]')

    x_arr = np.zeros((20, 30), complex_dtype)
    y_arr = np.zeros((20, 30), complex_dtype)

    if with_complex_argument:
        a = pystencils.TypedSymbol('a', create_type(complex_dtype))
    else:
        a = (2j + 1)

    assignments = AssignmentCollection({y.center: x.center + a})

    if target == pystencils.Target.GPU:
        pytest.importorskip('pycuda')
        from pycuda.gpuarray import zeros
        x_arr = zeros((20, 30), complex_dtype)
        y_arr = zeros((20, 30), complex_dtype)

    kernel = pystencils.create_kernel(assignments,
                                      target=target,
                                      data_type=dtype).compile()

    if with_complex_argument:
        kernel(x=x_arr, y=y_arr, a=2j + 1)
    else:
        kernel(x=x_arr, y=y_arr)

    if target == pystencils.Target.GPU:
        y_arr = y_arr.get()
    assert np.allclose(y_arr, 2j + 1)
Beispiel #5
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def test_floor_ceil_float_no_optimization():
    x, y = pystencils.fields('x,y: float32[2d]')
    a, b, c = sp.symbols('a, b, c')
    int_symbol = sp.Symbol('int_symbol', integer=True)
    typed_symbol = pystencils.TypedSymbol('typed_symbol',
                                          create_type('float32'))

    assignments = pystencils.AssignmentCollection({
        a:
        sp.floor(1),
        b:
        sp.ceiling(typed_symbol),
        c:
        sp.floor(int_symbol),
        y.center():
        sp.ceiling(x.center()) + sp.floor(x.center())
    })

    assert not typed_symbol.is_integer
    print(sp.simplify(sp.ceiling(typed_symbol)))

    print(assignments)

    wild_floor = sp.floor(sp.Wild('w1'))

    assert not sp.floor(int_symbol).match(wild_floor)
    assert sp.floor(a).match(wild_floor)

    assert assignments.find(wild_floor)
Beispiel #6
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def test_address_of_with_cse():
    x, y = pystencils.fields('x,y: int64[2d]')
    s = pystencils.TypedSymbol('s', PointerType(create_type('int64')))

    assignments = pystencils.AssignmentCollection({
        y[0, 0]: cast_func(address_of(x[0, 0]), create_type('int64')) + s,
        x[0, 0]: cast_func(address_of(x[0, 0]), create_type('int64')) + 1
    }, {})

    ast = pystencils.create_kernel(assignments)
    pystencils.show_code(ast)
    assignments_cse = sympy_cse(assignments)

    ast = pystencils.create_kernel(assignments_cse)
    pystencils.show_code(ast)
Beispiel #7
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def test_address_of():
    x, y = pystencils.fields('x,y: int64[2d]')
    s = pystencils.TypedSymbol('s', PointerType('int64'))

    assignments = pystencils.AssignmentCollection(
        {
            s: address_of(x[0, 0]),
            y[0, 0]: cast_func(s, 'int64')
        }, {})

    ast = pystencils.create_kernel(assignments)
    code = pystencils.show_code(ast)
    print(code)

    assignments = pystencils.AssignmentCollection(
        {y[0, 0]: cast_func(address_of(x[0, 0]), 'int64')}, {})

    ast = pystencils.create_kernel(assignments)
    code = pystencils.show_code(ast)
    print(code)
Beispiel #8
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def test_address_of():
    x, y = pystencils.fields('x,y: int64[2d]')
    s = pystencils.TypedSymbol('s', PointerType(create_type('int64')))

    assert address_of(x[0, 0]).canonical() == x[0, 0]
    assert address_of(x[0, 0]).dtype == PointerType(x[0, 0].dtype, restrict=True)
    assert address_of(sp.Symbol("a")).dtype == PointerType('void', restrict=True)

    assignments = pystencils.AssignmentCollection({
        s: address_of(x[0, 0]),
        y[0, 0]: cast_func(s, create_type('int64'))
    }, {})

    ast = pystencils.create_kernel(assignments)
    pystencils.show_code(ast)

    assignments = pystencils.AssignmentCollection({
        y[0, 0]: cast_func(address_of(x[0, 0]), create_type('int64'))
    }, {})

    ast = pystencils.create_kernel(assignments)
    pystencils.show_code(ast)
Beispiel #9
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    def __init__(self, body, what, from_iterable, predicate, counter_symbol,
                 hit_counter_symbol, max_selected, compilation_target):
        self.num_iterations = len(from_iterable)
        self.elements = what
        self.iterable = from_iterable
        self._body = body
        self.counter_symbol = counter_symbol
        self.hit_counter_symbol = hit_counter_symbol
        self.predicate = predicate
        self.max_selected = max_selected
        self.predicate_symbol = pystencils.TypedSymbol('predicate',
                                                       create_type('bool'))
        predicate_ast = pystencils.create_kernel(pystencils.Assignment(
            self.predicate_symbol, predicate),
                                                 target=compilation_target)
        predicate_assignments = []
        stack = [predicate_ast]
        while stack:
            top = stack.pop()
            if isinstance(top, SympyAssignment):
                predicate_assignments.insert(0, top)
            stack.extend(top.args)

        self.predicate_assignments = predicate_assignments
Beispiel #10
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 def __next__(self):
     name = f"{self._symbol}_{self._ctr}"
     self._ctr += 1
     if self._dtype is not None:
         return pystencils.TypedSymbol(name, self._dtype)
     return sp.Symbol(name)