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未验证 提交 5e722245 编写于 作者: L Leo Guo 提交者: GitHub
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Add unitest for set_value, set_value_grad. test=kunlun (#49773)

上级 5fd115f3
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Showing with 876 addition and 16 deletion
paddle/phi/kernels/xpu/set_value_grad_kernel.cc
浏览文件 @ 5e722245
......@@ -143,7 +143,13 @@ void SetValueGradImpl(const Context& dev_ctx,
if (x_grad) {
// Set gradient of `Input`
Copy(dev_ctx, out_grad, dev_ctx.GetPlace(), false, x_grad);
x_grad->Resize(out_grad.dims());
dev_ctx.template Alloc<T>(x_grad);
r = xpu::copy(dev_ctx.x_context(),
reinterpret_cast<const XPUType*>(out_grad.data<T>()),
reinterpret_cast<XPUType*>(x_grad->data<T>()),
out_grad.numel());
PADDLE_ENFORCE_XDNN_SUCCESS(r, "copy");
DenseTensor tmp = Full<T>(dev_ctx, out_dims_vector, static_cast<T>(0));
......
paddle/phi/kernels/xpu/set_value_kernel.cc
浏览文件 @ 5e722245
......@@ -119,8 +119,6 @@ void SetValueImpl(const Context& dev_ctx,
slice_dims_for_assign = phi::make_ddim(slice_dims_with_none);
}
auto place = dev_ctx.GetPlace();
// Here copy data from input to avoid data loss at PE and Graph level.
// TODO(liym27): Speed up in the future version.
// - Q: Why don't call ShareDataWith to speed up?
......@@ -132,7 +130,14 @@ void SetValueImpl(const Context& dev_ctx,
// be two ops points to the output in graph: op1 -> output <- set_value.
// In this case, we have to find a way to handle the running order of
// set_value is what we want.
Copy(dev_ctx, in, place, false, out);
int r = XPU_SUCCESS;
out->Resize(in.dims());
dev_ctx.template Alloc<T>(out);
r = xpu::copy(dev_ctx.x_context(),
reinterpret_cast<const XPUType*>(in.data<T>()),
reinterpret_cast<XPUType*>(out->data<T>()),
in.numel());
PADDLE_ENFORCE_XDNN_SUCCESS(r, "copy");
DenseTensor slice_tensor =
Empty<T>(dev_ctx, IntArray{slice_dims.Get(), slice_dims.size()});
......@@ -179,7 +184,6 @@ void SetValueImpl(const Context& dev_ctx,
auto out_shape = phi::vectorize<int>(out->dims());
auto slice_shape = phi::vectorize<int>(slice_dims);
int r = XPU_SUCCESS;
r = xpu::strided_slice(dev_ctx.x_context(),
reinterpret_cast<const XPUType*>(out->data<T>()),
reinterpret_cast<XPUType*>(slice_tensor.data<T>()),
......
python/paddle/fluid/tests/unittests/xpu/test_set_value_op_xpu.py
浏览文件 @ 5e722245
# Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
# Copyright (c) 2023 PaddlePaddle Authors. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
......@@ -19,6 +19,9 @@ import unittest
import numpy as np
# from functools import reduce
sys.path.append("../")
from op_test_xpu import XPUOpTest
from xpu.get_test_cover_info import (
......@@ -29,45 +32,65 @@ from xpu.get_test_cover_info import (
import paddle
# from paddle.fluid.layer_helper import LayerHelper
class XPUTestSetValueOp(XPUOpTestWrapper):
def __init__(self):
self.op_name = 'set_value'
self.use_dynamic_create_class = False
class TestSetValueOp(XPUOpTest):
class XPUTestSetValueBase(XPUOpTest):
def setUp(self):
paddle.enable_static()
self.__class__.op_type = "set_value"
self.__class__.no_need_check_grad = True
self.place = paddle.XPUPlace(0)
self.shape = [2]
self.value = 6
self.dtype = "float32"
self.__class__.dtype = self.dtype
self.set_dtype()
self.set_value()
self.set_shape()
self.data = np.ones(self.shape).astype(self.dtype)
self.program = paddle.static.Program()
def set_shape(self):
self.shape = [2, 3, 4]
def set_value(self):
self.value = 6
def set_dtype(self):
self.dtype = self.in_type
def _call_setitem(self, x):
x[0] = self.value
x[0, 0] = self.value
def _get_answer(self):
self.data[0] = self.value
self.data[0, 0] = self.value
class TestSetValueOp1(TestSetValueOp):
class XPUTestSetValueApi(XPUTestSetValueBase):
def _run_static(self):
paddle.enable_static()
with paddle.static.program_guard(self.program):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
self._call_setitem(x)
exe = paddle.static.Executor(paddle.XPUPlace(0))
exe = paddle.static.Executor(self.place)
out = exe.run(self.program, fetch_list=[x])
paddle.disable_static()
return out
def _run_dynamic(self):
paddle.disable_static()
x = paddle.ones(shape=self.shape, dtype=self.dtype)
self._call_setitem(x)
out = x.numpy()
paddle.enable_static()
return out
def test_api(self):
static_out = self._run_static()
self._get_answer()
static_out = self._run_static()
dynamic_out = self._run_dynamic()
error_msg = (
"\nIn {} mode: \nExpected res = \n{}, \n\nbut received : \n{}"
......@@ -76,6 +99,833 @@ class XPUTestSetValueOp(XPUOpTestWrapper):
(self.data == static_out).all(),
msg=error_msg.format("static", self.data, static_out),
)
self.assertTrue(
(self.data == dynamic_out).all(),
msg=error_msg.format("dynamic", self.data, dynamic_out),
)
# 1. Test different type of item: int, Python slice, Paddle Tensor
# 1.1 item is int
class XPUTestSetValueItemInt(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0] = self.value
def _get_answer(self):
self.data[0] = self.value
class XPUTestSetValueItemInt2(XPUTestSetValueApi):
def set_shape(self):
self.shape = [6, 6, 6, 6, 6]
def _call_setitem(self, x):
x[0, 3, 4] = self.value
def _get_answer(self):
self.data[0, 3, 4] = self.value
class XPUTestSetValueItemInt3(XPUTestSetValueApi):
def set_shape(self):
self.shape = [6, 6, 6, 6, 6]
def _call_setitem(self, x):
x[1] = self.value
def _get_answer(self):
self.data[1] = self.value
# 1.2 item is slice
# 1.2.1 step is 1
class XPUTestSetValueItemSlice(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:2] = self.value
def _get_answer(self):
self.data[0:2] = self.value
class XPUTestSetValueItemSlice2(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:-1] = self.value
def _get_answer(self):
self.data[0:-1] = self.value
class XPUTestSetValueItemSlice3(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:-1, 0:2] = self.value
def _get_answer(self):
self.data[0:-1, 0:2] = self.value
class XPUTestSetValueItemSlice4(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:, 1:2, :] = self.value
def _get_answer(self):
self.data[0:, 1:2, :] = self.value
class XPUTestSetValueItemSlice5(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:, 1:1, :] = self.value
def _get_answer(self):
self.data[0:, 1:1, :] = self.value
class XPUTestSetValueItemSliceInWhile(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
def cond(i, x):
return i < 1
def body(i, x):
x[i] = self.value
i = i + 1
return i, x
i = paddle.zeros(shape=(1,), dtype='int32')
i, x = paddle.static.nn.while_loop(cond, body, [i, x])
def _get_answer(self):
self.data[0] = self.value
# 1.2.2 step > 1
class XPUTestSetValueItemSliceStep(XPUTestSetValueApi):
def set_shape(self):
self.shape = [5, 5, 5]
def _call_setitem(self, x):
x[0:2:2] = self.value
def _get_answer(self):
self.data[0:2:2] = self.value
class XPUTestSetValueItemSliceStep2(XPUTestSetValueApi):
def set_shape(self):
self.shape = [7, 5, 5]
def _call_setitem(self, x):
x[0:-1:3] = self.value
def _get_answer(self):
self.data[0:-1:3] = self.value
class XPUTestSetValueItemSliceStep3(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:-1, 0:2, ::2] = self.value
def _get_answer(self):
self.data[0:-1, 0:2, ::2] = self.value
class XPUTestSetValueItemSliceStep4(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:, 1:2:2, :] = self.value
def _get_answer(self):
self.data[0:, 1:2:2, :] = self.value
# 1.2.3 step < 0
class XPUTestSetValueItemSliceNegetiveStep(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_shape(self):
self.shape = [5, 2]
def set_value(self):
self.value = np.array([3, 4])
def _call_setitem(self, x):
x[5:2:-1] = self.value
def _get_answer(self):
self.data[5:2:-1] = self.value
class XPUTestSetValueItemSliceNegetiveStep2(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_shape(self):
self.shape = [5]
def set_value(self):
self.value = np.array([3, 4])
# print("self.value: \n", self.value)
def _call_setitem(self, x):
x[1::-1] = self.value
def _get_answer(self):
self.data[1::-1] = self.value
class XPUTestSetValueItemSliceNegetiveStep3(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_shape(self):
self.shape = [3]
def set_value(self):
self.value = np.array([3, 4, 5])
def _call_setitem(self, x):
x[::-1] = self.value
def _get_answer(self):
self.data[::-1] = self.value
class XPUTestSetValueItemSliceNegetiveStep4(XPUTestSetValueApi):
def set_shape(self):
self.shape = [3, 4, 5]
def _call_setitem(self, x):
x[2:0:-1, 0:2, ::-1] = self.value
def _get_answer(self):
self.data[2:0:-1, 0:2, ::-1] = self.value
# 1.2.3 step < 0 and stride < -1
class XPUTestSetValueItemSliceNegetiveStep5(XPUTestSetValueApi):
def set_shape(self):
self.shape = [5, 5, 5]
def _call_setitem(self, x):
x[2:-1:-2] = self.value
def _get_answer(self):
paddle.enable_static()
with paddle.static.program_guard(self.program):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
self._call_setitem(x)
exe = paddle.static.Executor(paddle.CPUPlace())
self.data = exe.run(self.program, fetch_list=[x])
paddle.disable_static()
def test_api(self):
self._get_answer()
static_out = self._run_static()
dynamic_out = self._run_dynamic()
error_msg = (
"\nIn {} mode: \nExpected res = \n{}, \n\nbut received : \n{}"
)
self.assertTrue(
(self.data[0] == static_out[0]).all(),
msg=error_msg.format("static", self.data, static_out),
)
self.assertTrue(
(self.data == dynamic_out).all(),
msg=error_msg.format("dynamic", self.data, dynamic_out),
)
# 1.3 item is Ellipsis
class XPUTestSetValueItemEllipsis1(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:, ..., 1:] = self.value
def _get_answer(self):
self.data[0:, ..., 1:] = self.value
class XPUTestSetValueItemEllipsis2(XPUTestSetValueApi):
def _call_setitem(self, x):
x[0:, ...] = self.value
def _get_answer(self):
self.data[0:, ...] = self.value
class XPUTestSetValueItemEllipsis3(XPUTestSetValueApi):
def _call_setitem(self, x):
x[..., 1:] = self.value
def _get_answer(self):
self.data[..., 1:] = self.value
class XPUTestSetValueItemEllipsis4(XPUTestSetValueApi):
def _call_setitem(self, x):
x[...] = self.value
def _get_answer(self):
self.data[...] = self.value
# 1.4 item is Paddle Tensor
class XPUTestSetValueItemTensor(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
zero = paddle.full([1], 0, dtype="int32")
x[zero] = self.value
def _get_answer(self):
self.data[0] = self.value
class XPUTestSetValueItemTensor2(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
zero = paddle.full([1], 0, dtype="int32")
two = paddle.full([1], 2, dtype="int64")
x[zero:two] = self.value
def _get_answer(self):
self.data[0:2] = self.value
class XPUTestSetValueItemTensor3(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
zero = paddle.full([1], 0, dtype="int32")
two = paddle.full([1], 2, dtype="int64")
x[zero:-1, 0:two] = self.value
def _get_answer(self):
self.data[0:-1, 0:2] = self.value
class XPUTestSetValueItemTensor4(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
zero = paddle.full([1], 0, dtype="int32")
two = paddle.full([1], 2, dtype="int64")
x[0:-1, zero:2, 0:6:two] = self.value
def _get_answer(self):
self.data[0:-1, 0:2, ::2] = self.value
class XPUTestSetValueItemTensor5(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
zero = paddle.full([1], 0, dtype="int32")
two = paddle.full([1], 2, dtype="int64")
x[zero:, 1:2:two, :] = self.value
def _get_answer(self):
self.data[0:, 1:2:2, :] = self.value
class XPUTestSetValueItemTensor6(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_shape(self):
self.shape = [3, 4, 5]
def _call_setitem(self, x):
minus1 = paddle.full([1], -1, dtype="int32")
zero = paddle.full([1], 0, dtype="int32")
x[2:zero:minus1, 0:2, 10:-6:minus1] = self.value
def _get_answer(self):
self.data[2:0:-1, 0:2, ::-1] = self.value
# 1.5 item is None
class XPUTestSetValueItemNone1(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[None] = self.value
def _get_answer(self):
self.data[None] = self.value
class XPUTestSetValueItemNone2(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[0, None, 1] = self.value
def _get_answer(self):
self.data[0, None, 1] = self.value
class XPUTestSetValueItemNone3(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[:, None, None, 1] = self.value
def _get_answer(self):
self.data[:, None, None, 1] = self.value
class XPUTestSetValueItemNone4(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[0, 0, None, 1] = self.value
def _get_answer(self):
self.data[0, 0, None, 1] = self.value
class XPUTestSetValueItemNone5(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[0, None, 0, None, 1] = self.value
def _get_answer(self):
self.data[0, None, 0, None, 1] = self.value
class XPUTestSetValueItemNone6(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[None, 0, 0, None, 0] = self.value
def _get_answer(self):
self.data[None, 0, 0, None, 0] = self.value
class XPUTestSetValueItemNone7(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[:, None, 1] = np.zeros(self.shape)[:, None, 0]
def _get_answer(self):
self.data[:, None, 1] = np.zeros(self.shape)[:, None, 0]
class XPUTestSetValueItemNone8(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[:, 1, None] = np.zeros(self.shape)[:, 0, None]
def _get_answer(self):
self.data[:, 1, None] = np.zeros(self.shape)[:, 0, None]
class XPUTestSetValueItemNone9(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[None, :, 1, ..., None] = np.zeros(self.shape)[0, 0, :, None]
def _get_answer(self):
self.data[None, :, 1, ..., None] = np.zeros(self.shape)[
0, 0, :, None
]
class XPUTestSetValueItemNone10(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[..., None, :, None] = np.zeros(self.shape)[..., None, :, None]
def _get_answer(self):
self.data[..., None, :, None] = np.zeros(self.shape)[
..., None, :, None
]
# 1.6 item is list or Tensor of bol
class XPUTestSetValueItemBool1(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[[True, False]] = self.value
def _get_answer(self):
self.data[[True, False]] = self.value
class XPUTestSetValueItemBool2(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[[False, False]] = self.value
def _get_answer(self):
self.data[[False, False]] = self.value
class XPUTestSetValueItemBool3(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[[False, True]] = np.zeros(self.shape[2])
def _get_answer(self):
self.data[[False, True]] = np.zeros(self.shape[2])
class XPUTestSetValueItemBool4(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
idx = paddle.assign(np.array([False, True]))
x[idx] = np.zeros(self.shape[2])
def _get_answer(self):
self.data[np.array([False, True])] = np.zeros(self.shape[2])
class XPUTestSetValueItemBool5(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
idx = paddle.assign(
np.array([[False, True, False], [True, True, False]])
)
x[idx] = self.value
def _get_answer(self):
self.data[
np.array([[False, True, False], [True, True, False]])
] = self.value
class XPUTestSetValueItemBool6(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def _call_setitem(self, x):
x[0, ...] = 0
x[x > 0] = self.value
def _get_answer(self):
self.data[0, ...] = 0
self.data[self.data > 0] = self.value
# 2. Test different type of value: Tensor
# 2.1 value is a Paddle Tensor (int32, int64, float32, bool)
def create_test_value_tensor_int32(parent):
class XPUTestValueInt(parent):
def set_dtype(self):
self.dtype = "int32"
def _call_setitem(self, x):
value = paddle.full(shape=[1], fill_value=3, dtype=self.dtype)
x[0, 1] = value
def _get_answer(self):
self.data[0, 1] = 3
cls_name = "{0}_{1}".format(parent.__name__, "ValueTensorInt32")
XPUTestValueInt.__name__ = cls_name
globals()[cls_name] = XPUTestValueInt
create_test_value_tensor_int32(XPUTestSetValueItemInt)
create_test_value_tensor_int32(XPUTestSetValueItemSlice)
create_test_value_tensor_int32(XPUTestSetValueItemSlice2)
create_test_value_tensor_int32(XPUTestSetValueItemSlice3)
create_test_value_tensor_int32(XPUTestSetValueItemSlice4)
def create_test_value_tensor_int64(parent):
class XPUTestValueInt(parent):
def set_dtype(self):
self.dtype = "int64"
def _call_setitem(self, x):
value = paddle.full(shape=[1], fill_value=3, dtype=self.dtype)
x[0, 1] = value
def _get_answer(self):
self.data[0, 1] = 3
cls_name = "{0}_{1}".format(parent.__name__, "ValueTensorInt64")
XPUTestValueInt.__name__ = cls_name
globals()[cls_name] = XPUTestValueInt
create_test_value_tensor_int64(XPUTestSetValueItemInt)
create_test_value_tensor_int64(XPUTestSetValueItemSlice)
create_test_value_tensor_int64(XPUTestSetValueItemSlice2)
create_test_value_tensor_int64(XPUTestSetValueItemSlice3)
create_test_value_tensor_int64(XPUTestSetValueItemSlice4)
def create_test_value_tensor_fp32(parent):
class XPUTestValueInt(parent):
def set_dtype(self):
self.dtype = "float32"
def _call_setitem(self, x):
value = paddle.full(shape=[1], fill_value=3, dtype=self.dtype)
x[0, 1] = value
def _get_answer(self):
self.data[0, 1] = 3
cls_name = "{0}_{1}".format(parent.__name__, "ValueTensorFp32")
XPUTestValueInt.__name__ = cls_name
globals()[cls_name] = XPUTestValueInt
create_test_value_tensor_fp32(XPUTestSetValueItemInt)
create_test_value_tensor_fp32(XPUTestSetValueItemSlice)
create_test_value_tensor_fp32(XPUTestSetValueItemSlice2)
create_test_value_tensor_fp32(XPUTestSetValueItemSlice3)
create_test_value_tensor_fp32(XPUTestSetValueItemSlice4)
def create_test_value_tensor_bool(parent):
class XPUTestValueInt(parent):
def set_dtype(self):
self.dtype = "bool"
def _call_setitem(self, x):
value = paddle.full(
shape=[1], fill_value=False, dtype=self.dtype
)
x[0, 1] = value
def _get_answer(self):
self.data[0, 1] = False
cls_name = "{0}_{1}".format(parent.__name__, "ValueTensorBool")
XPUTestValueInt.__name__ = cls_name
globals()[cls_name] = XPUTestValueInt
create_test_value_tensor_bool(XPUTestSetValueItemInt)
create_test_value_tensor_bool(XPUTestSetValueItemSlice)
create_test_value_tensor_bool(XPUTestSetValueItemSlice2)
create_test_value_tensor_bool(XPUTestSetValueItemSlice3)
create_test_value_tensor_bool(XPUTestSetValueItemSlice4)
# 3. Test different shape of value
class XPUTestSetValueValueShape1(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_value(self):
self.value = np.array([3, 4, 5, 6]) # shape is (4,)
def _call_setitem(self, x):
x[0] = self.value
def _get_answer(self):
self.data[0] = self.value
class XPUTestSetValueValueShape2(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_value(self):
self.value = np.array([[3, 4, 5, 6]]) # shape is (1,4)
def _call_setitem(self, x):
x[0:1] = self.value
def _get_answer(self):
self.data[0:1] = self.value
class XPUTestSetValueValueShape3(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_value(self):
self.value = np.array(
[[1, 1, 1, 1], [2, 2, 2, 2], [3, 3, 3, 3]]
) # shape is (3,4)
def _call_setitem(self, x):
x[0] = self.value
def _get_answer(self):
self.data[0] = self.value
class XPUTestSetValueValueShape4(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_value(self):
self.value = np.array(
[[1, 1, 1, 1], [2, 2, 2, 2], [3, 3, 3, 3]]
).astype(
self.dtype
) # shape is (3,4)
def _call_setitem(self, x):
x[0] = paddle.assign(self.value) # x is Paddle.Tensor
def _get_answer(self):
self.data[0] = self.value
class XPUTestSetValueValueShape5(XPUTestSetValueApi):
def set_dtype(self):
if self.in_type == np.float16:
self.dtype = "float32"
else:
self.dtype = self.in_type
def set_value(self):
self.value = np.array([3, 3, 3]).astype(self.dtype)
def set_shape(self):
self.shape = [3, 4]
def _call_setitem(self, x):
x[:, 0] = paddle.assign(self.value) # x is Paddle.Tensor
def _get_answer(self):
self.data[:, 0] = self.value
# 4. Test error
class XPUTestError(XPUTestSetValueBase):
def _value_type_error(self):
with self.assertRaisesRegex(
TypeError,
"Only support to assign an integer, float, numpy.ndarray or paddle.Tensor",
):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
value = [1]
x[0] = value
def _dtype_error(self):
with self.assertRaisesRegex(
TypeError,
"When assign a numpy.ndarray, integer or float to a paddle.Tensor, ",
):
y = paddle.ones(shape=self.shape, dtype="float16")
y[0] = 1
def _step_error(self):
with self.assertRaisesRegex(ValueError, "step can not be 0"):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
x[0:1:0] = self.value
def _ellipsis_error(self):
with self.assertRaisesRegex(
IndexError, "An index can only have a single ellipsis"
):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
x[..., ...] = self.value
with self.assertRaisesRegex(ValueError, "the start or end is None"):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
one = paddle.ones([1])
x[::one] = self.value
def _bool_list_error(self):
with self.assertRaises(TypeError):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
x[[True, False, 0]] = 0
with self.assertRaises(IndexError):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
x[[True, False], [True, False]] = 0
def _bool_tensor_error(self):
with self.assertRaises(IndexError):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
idx = paddle.assign([True, False, True])
x[idx] = 0
def _broadcast_mismatch(self):
program = paddle.static.Program()
with paddle.static.program_guard(program):
x = paddle.ones(shape=self.shape, dtype=self.dtype)
value = np.array([3, 4, 5, 6, 7])
x[0] = value
exe = paddle.static.Executor(paddle.XPUPlace(0))
with self.assertRaises(ValueError):
exe.run(program)
def test_error(self):
paddle.enable_static()
with paddle.static.program_guard(self.program):
self._value_type_error()
self._step_error()
self._bool_list_error()
self._bool_tensor_error()
self._broadcast_mismatch()
support_types = get_xpu_op_support_types('set_value')
......
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