mindspore.ms_function
- mindspore.ms_function(fn=None, input_signature=None, hash_args=None, jit_config=None)[源代码]
将Python函数编译为一张可调用的MindSpore图。
MindSpore可以在运行时对图进行优化。
说明
ms_function 将在未来版本中弃用和移除,请改用
mindspore.jit()
。如果指定了 input_signature ,则 fn 的每个输入都必须是Tensor,并且 fn 的输入参数将不会接受 **kwargs 参数。
- 参数:
fn (Function) - 要编译成图的Python函数。默认值:
None
。input_signature (Tensor) - 用于表示输入参数的Tensor。Tensor的shape和dtype将作为函数的输入shape和dtype。 fn 实际输入的shape和dtype应与 input_signature 相同,否则会出现TypeError。默认值:
None
。hash_args (Union[Object, List or Tuple of Objects]) - fn 里面用到的自由变量,比如外部函数或类对象,再次调用时若 hash_args 出现变化会触发重新编译。默认值:
None
。jit_config (JitConfig) - 编译时所使用的JitConfig配置项。默认值:
None
。
- 返回:
函数,如果 fn 不是None,则返回一个已经将输入 fn 编译成图的可执行函数;如果 fn 为None,则返回一个装饰器。当这个装饰器使用单个 fn 参数进行调用时,等价于 fn 不是None的场景。
- 支持平台:
Ascend
GPU
CPU
样例:
>>> import numpy as np >>> from mindspore import Tensor >>> from mindspore import ops >>> from mindspore import ms_function ... >>> x = Tensor(np.ones([1, 1, 3, 3]).astype(np.float32)) >>> y = Tensor(np.ones([1, 1, 3, 3]).astype(np.float32)) ... >>> # create a callable MindSpore graph by calling ms_function >>> def tensor_add(x, y): ... z = x + y ... return z ... >>> tensor_add_graph = ms_function(fn=tensor_add) >>> out = tensor_add_graph(x, y) ... >>> # create a callable MindSpore graph through decorator @ms_function >>> @ms_function ... def tensor_add_with_dec(x, y): ... z = x + y ... return z ... >>> out = tensor_add_with_dec(x, y) ... >>> # create a callable MindSpore graph through decorator @ms_function with input_signature parameter >>> @ms_function(input_signature=(Tensor(np.ones([1, 1, 3, 3]).astype(np.float32)), ... Tensor(np.ones([1, 1, 3, 3]).astype(np.float32)))) ... def tensor_add_with_sig(x, y): ... z = x + y ... return z ... >>> out = tensor_add_with_sig(x, y) ... ... # Set hash_args as fn, otherwise cache of compiled `closure_fn` will not be reused. ... # While fn differs during calling again, recompilation will be triggered. >>> def func(x): ... return ops.exp(x) ... >>> def closure_fn(x, fn): ... @ms_function(hash_args=fn) ... def inner_fn(a): ... return fn(a) ... return inner_fn(x) ... >>> inputs = Tensor(np.ones([10, 10, 10]).astype(np.float32)) >>> for i in range(10): ... closure_fn(inputs, func)