def test_onnxt_runtime_argmin(self):
        X = numpy.array([[2, 1], [0, 1]], dtype=float)

        onx = OnnxArgMin('X', output_names=['Y'], keepdims=0)
        model_def = onx.to_onnx({'X': X.astype(numpy.float32)})
        oinf = OnnxInference(model_def)
        got = oinf.run({'X': X})
        self.assertEqual(list(sorted(got)), ['Y'])
        self.assertEqualArray(numpy.argmin(X, axis=0), got['Y'], decimal=6)

        onx = OnnxArgMin('X', output_names=['Y'], axis=1, keepdims=0)
        model_def = onx.to_onnx({'X': X.astype(numpy.float32)})
        oinf = OnnxInference(model_def)
        got = oinf.run({'X': X})
        self.assertEqual(list(sorted(got)), ['Y'])
        self.assertEqualArray(
            numpy.argmin(X, axis=1).ravel(), got['Y'].ravel())

        onx = OnnxArgMin('X', output_names=['Y'], axis=1, keepdims=1)
        model_def = onx.to_onnx({'X': X.astype(numpy.float32)})
        oinf = OnnxInference(model_def)
        got = oinf.run({'X': X})
        self.assertEqual(list(sorted(got)), ['Y'])
        self.assertEqualArray(
            numpy.argmin(X, axis=1).ravel(), got['Y'].ravel())
Example #2
0
    def test_algebra_argmin(self):

        op = OnnxArgMin('I0', op_version=TARGET_OPSET)
        onx = op.to_onnx({'I0': numpy.ones((1, 2), dtype=numpy.float32)})
        assert onx is not None
        sonx = str(onx)
        assert len(sonx) > 0

        import onnxruntime as ort
        sess = ort.InferenceSession(onx.SerializeToString())
        X = numpy.array([[0, 2], [0, -2]])
        exp = numpy.array([[0, 1]])
        Y = sess.run(None, {'I0': X.astype(numpy.float32)})[0]
        assert_almost_equal(exp, Y)
    def test_algebra_normalizer_argmin_named_output(self):

        op = OnnxArgMin(OnnxNormalizer('I0', norm='L1', output_names=['Y']))
        onx = op.to_onnx({'I0': numpy.ones((1, 2), dtype=numpy.float32)})
        assert onx is not None
        sonx = str(onx)
        assert len(sonx) > 0

        import onnxruntime as ort
        sess = ort.InferenceSession(onx.SerializeToString())
        X = numpy.array([[0, 2], [0, -2]])
        exp = numpy.array([[0, 1]])
        Y = sess.run(None, {'I0': X.astype(numpy.float32)})[0]
        assert_almost_equal(exp, Y)
Example #4
0
        def conv(scope, operator, container):
            X = operator.inputs[0]
            out = operator.outputs
            op = operator.raw_operator

            C = op.cluster_centers_
            C2 = row_norms(C, squared=True)

            N = X.type.shape[0]
            zeros = np.zeros((N, ))

            rs = OnnxReduceSumSquare(X, axes=[1], keepdims=1)
            z = OnnxAdd(rs, OnnxGemm(X, C, zeros, alpha=-2., transB=1))
            y2 = OnnxAdd(C2, z)
            lo = OnnxArgMin(y2, axis=1, keepdims=0, output_names=out[:1])
            y2s = OnnxSqrt(y2, output_names=out[1:])

            lo.add_to(scope, container)
            y2s.add_to(scope, container)
        def conv(scope, operator, container):
            X = operator.inputs[0]
            out = operator.outputs
            op = operator.raw_operator
            dtype = guess_numpy_type(X.type)

            C = op.cluster_centers_
            C2 = row_norms(C, squared=True).astype(dtype)
            C = C.astype(dtype)

            rs = OnnxReduceSumSquare(X,
                                     axes=[1],
                                     keepdims=1,
                                     op_version=container.target_opset)

            N = X.type.shape[0]
            if isinstance(N, int):
                zeros = np.zeros((N, ))
            else:
                zeros = OnnxMul(rs,
                                np.array([0], dtype=np.float32),
                                op_version=container.target_opset)

            z = OnnxAdd(rs,
                        OnnxGemm(X,
                                 C,
                                 zeros,
                                 alpha=-2.,
                                 transB=1,
                                 op_version=container.target_opset),
                        op_version=container.target_opset)
            y2 = OnnxAdd(C2, z, op_version=container.target_opset)
            lo = OnnxArgMin(y2,
                            axis=1,
                            keepdims=0,
                            output_names=out[:1],
                            op_version=container.target_opset)
            y2s = OnnxSqrt(y2,
                           output_names=out[1:],
                           op_version=container.target_opset)

            lo.add_to(scope, container)
            y2s.add_to(scope, container)