def verify_full(shape, dtype, fill_value):
A = te.placeholder(shape, dtype=dtype, name="A")
B = topi.full_like(A, fill_value=fill_value)
C = topi.full(shape=shape, dtype=dtype, fill_value=fill_value)
s1 = te.create_schedule([B.op])
s2 = te.create_schedule([C.op])
@memoize("topi.tests.test_topi_full")
def get_ref_data():
return np.full(shape, fill_value, dtype)
np_nd = get_ref_data()
def check_device(device):
if not tvm.runtime.enabled(device):
print("Skip because %s is not enabled" % device)
return
ctx = tvm.context(device, 0)
out = tvm.nd.array(np.zeros(shape, dtype=dtype), ctx)
f = tvm.build(s1, [A, B], device, name="full_like")
f(tvm.nd.array(np.zeros(shape, dtype), ctx), out)
tvm.testing.assert_allclose(out.asnumpy(), np_nd, rtol=1e-5)
f = tvm.build(s2, [C], device, name="full")
f(out)
tvm.testing.assert_allclose(out.asnumpy(), np_nd, rtol=1e-5)
for device in ["llvm"]:
check_device(device)
def check_device(device, ctx):
with tvm.target.Target(device):
print("Running on target: %s" % device)
conv2d_compute, conv2d_schedule = tvm.topi.testing.get_conv2d_nchw_implement(device)
data = te.placeholder((2, 1, 2, 4), "int8", "data")
w = te.placeholder((3, 1, 2, 2), "int8", "w")
conv1 = conv2d_compute(data, w, 1, 0, 1, "int32")
zeros = topi.full((2, 3, 1, 3), "int32", tvm.tir.const(0, dtype="int32"))
gt = topi.greater_equal(conv1, zeros)
one = topi.full((2, 3, 1, 3), "int32", tvm.tir.const(1, dtype="int32"))
two = topi.full((2, 3, 1, 3), "int32", tvm.tir.const(2, dtype="int32"))
where = topi.where(gt, one, two)
add = topi.add(conv1, where)
outs = [add]
s = conv2d_schedule(outs)
tvm.build(s, [data, w, add], target=backend)
def check_device(device):
with tvm.target.create(device):
ctx = tvm.context(device, 0)
if not ctx.exist:
print("Skip because %s is not enabled" % device)
return
print("Running on target: %s" % device)
conv2d_compute, conv2d_schedule = tvm.topi.testing.get_conv2d_nchw_implement(device)
data = te.placeholder((2, 1, 2, 4), 'int8', 'data')
w = te.placeholder((3, 1, 2, 2), 'int8', 'w')
conv1 = conv2d_compute(data, w, 1, 0, 1, 'int32')
zeros = topi.full((2, 3, 1, 3), 'int32', tvm.tir.const(0, dtype='int32'))
gt = topi.greater_equal(conv1, zeros)
one = topi.full((2, 3, 1, 3), 'int32', tvm.tir.const(1, dtype='int32'))
two = topi.full((2, 3, 1, 3), 'int32', tvm.tir.const(2, dtype='int32'))
where = topi.where(gt, one, two)
add = topi.add(conv1, where)
outs = [add]
s = conv2d_schedule(outs)
tvm.build(s, [data, w, add], target=backend)
def zeros_compute(attrs, inputs, output_type):
assert not inputs
return [topi.full(output_type.shape, output_type.dtype, 0.0)]
def ensure_tensor(tensor):
if len(tensor.shape) == 0:
return topi.full((1,), "int64", 1)
return tensor
def ones_compute(attrs, inputs, output_type):
assert len(inputs) == 1
return [topi.full(output_type.shape, output_type.dtype, 1.0)]
