import logging import paddle.v2.framework.core as core import unittest import numpy as np from paddle.v2.framework.op import Operator, CondOp class PySimpleCond(object): ''' A simple implementation of dynamic if-else based on numpy ''' def __init__(self): array = [1] * 10 for i in range(1, 10, 2): array[i] = 0 self.cond = np.array(array) self.x = np.ones(shape=(10, 1)).astype("float32") def forward(self): self.index_t = np.where(self.cond == 1) self.index_f = np.where(self.cond == 0) y_t = self.x[self.index_t] y_f = self.x[self.index_f] y_t = y_t * 2. y_f = y_f * (-2.) output = np.zeros(shape=(10, 1)) output[self.index_t] = y_t output[self.index_f] = y_f return output class PySimpleCondTest(unittest.TestCase): def setUp(self): self.condnn = PySimpleCond() def test_forward(self): output = self.condnn.forward() def create_tensor(scope, name, shape, np_data): tensor = scope.new_var(name).get_tensor() tensor.set_dims(shape) tensor.set(np_data, core.CPUPlace()) return tensor class TestCondOp(unittest.TestCase): ''' Test CondOp equation: cond = [True, False, True, False, ...] y[index_t] = x[index_t] * 2. y[index_f] = x[index_f] * -2. outputs: y ''' def setUp(self): self.py_cond = PySimpleCond() def forward(self): self.scope = core.Scope() self.create_global_variables() self.create_cond_op() self.create_sub_net() ctx = core.DeviceContext.create(core.CPUPlace()) self.condop.run(self.scope, ctx) return np.array(self.scope.find_var("Out").get_tensor()) def create_global_variables(self): x_np_data = self.py_cond.x create_tensor(self.scope, "X", [10, 1], x_np_data) cond_np_data = self.py_cond.cond.astype("int32") create_tensor(self.scope, "cond", [10, 1], cond_np_data) self.scope.new_var("SubScopes") self.scope.new_var("IndexTensors") self.scope.new_var("Out") def create_cond_op(self): self.condop = CondOp( Cond="cond", Xs=["X"], Outs=["Out"], SubScopes="SubScopes", IndexTensors="IndexTensors") def create_sub_net(self): truenet = core.Net.create() scale_op_t = Operator("scale", X='X', Out='Out', scale=2.) truenet.append_op(scale_op_t) truenet.complete_add_op(True) self.condop.set_truenet(truenet) falsenet = core.Net.create() scale_op_t = Operator("scale", X='X', Out='Out', scale=-2.) falsenet.append_op(scale_op_t) falsenet.complete_add_op(True) self.condop.set_falsenet(falsenet) def test_forward(self): print 'test cond op forward' pd_output = self.forward() py_output = self.py_cond.forward() print 'pd_output', pd_output print print 'py_output', py_output self.assertEqual(pd_output.shape, py_output.shape) print 'test passed' return 0 if __name__ == "__main__": unittest.main()