Runtime type annotations for the shape, dtype etc. of PyTorch Tensors.
Project description
torchtyping
Type annotations for a tensor's shape, dtype, names, ...
Turn this:
def batch_outer_product(x: torch.Tensor, y: torch.Tensor) -> torch.Tensor:
# x has shape (batch, x_channels)
# y has shape (batch, y_channels)
# return has shape (batch, x_channels, y_channels)
return x.unsqueeze(-1) * y.unsqueeze(-2)
into this:
def batch_outer_product(x: TensorType["batch", "x_channels"],
y: TensorType["batch", "y_channels"]
) -> TensorType["batch", "x_channels", "y_channels"]:
return x.unsqueeze(-1) * y.unsqueeze(-2)
with programmatic checking that the shape (dtype, ...) specification is met.
Bye-bye bugs! Say hello to enforced, clear documentation of your code.
If (like me) you find yourself littering your code with comments like # x has shape (batch, hidden_state)
or statements like assert x.shape == y.shape
, just to keep track of what shape everything is, then this is for you.
Installation
pip install torchtyping
Requires Python 3.7+ and PyTorch 1.7.0+.
Usage
torchtyping
allows for type annotating:
- shape: size, number of dimensions;
- dtype (float, integer, etc.);
- layout (dense, sparse);
- names of dimensions as per named tensors;
- arbitrary number of batch dimensions with
...
; - ...plus anything else you like, as
torchtyping
is highly extensible.
If typeguard
is (optionally) installed then at runtime the types can be checked to ensure that the tensors really are of the advertised shape, dtype, etc.
# EXAMPLE
from torch import rand
from torchtyping import TensorType, patch_typeguard
from typeguard import typechecked
patch_typeguard() # use before @typechecked
@typechecked
def func(x: TensorType["batch"],
y: TensorType["batch"]) -> TensorType["batch"]:
return x + y
func(rand(3), rand(3)) # works
func(rand(3), rand(1))
# TypeError: Dimension 'batch' of inconsistent size. Got both 1 and 3.
typeguard
also has an import hook that can be used to automatically test an entire module, without needing to manually add @typeguard.typechecked
decorators.
If you're not using typeguard
then torchtyping.patch_typeguard()
can be omitted altogether, and torchtyping
just used for documentation purposes. If you're not already using typeguard
for your regular Python programming, then strongly consider using it. It's a great way to squash bugs. Both typeguard
and torchtyping
also integrate with pytest
, so if you're concerned about any performance penalty then they can be enabled during tests only.
API
torchtyping.TensorType[shape, dtype, layout, details]
The core of the library.
Each of shape
, dtype
, layout
, details
are optional.
- The
shape
argument can be any of:- An
int
: the dimension must be of exactly this size. If it is-1
then any size is allowed. - A
str
: the size of the dimension passed at runtime will be bound to this name, and all tensors checked that the sizes are consistent. - A
...
: An arbitrary number of dimensions of any sizes. - A
str: int
pair (technically it's a slice), combining bothstr
andint
behaviour. (Just astr
on its own is equivalent tostr: -1
.) - A
str: str
pair, in which case the size of the dimension passed at runtime will be bound to both names, and all dimensions with either name must have the same size. (Some people like to use this as a way to associate multiple names with a dimension, for extra documentation purposes.) - A
str: ...
pair, in which case the multiple dimensions corresponding to...
will be bound to the name specified bystr
, and again checked for consistency between arguments. None
, which when used in conjunction withis_named
below, indicates a dimension that must not have a name in the sense of named tensors.- A
None: int
pair, combining bothNone
andint
behaviour. (Just aNone
on its own is equivalent toNone: -1
.) - A
None: str
pair, combining bothNone
andstr
behaviour. (That is, it must not have a named dimension, but must be of a size consistent with other uses of the string.) - A
typing.Any
: Any size is allowed for this dimension (equivalent to-1
). - Any tuple of the above. For example.
TensorType["batch": ..., "length": 10, "channels", -1]
. If you just want to specify the number of dimensions then use for exampleTensorType[-1, -1, -1]
for a three-dimensional tensor.
- An
- The
dtype
argument can be any of:torch.float32
,torch.float64
etc.int
,bool
,float
, which are converted to their corresponding PyTorch types.float
is specifically interpreted astorch.get_default_dtype()
, which is usuallyfloat32
.
- The
layout
argument can be eithertorch.strided
ortorch.sparse_coo
, for dense and sparse tensors respectively. - The
details
argument offers a way to pass an arbitrary number of additional flags that customise and extendtorchtyping
. Two flags are built-in by default.torchtyping.is_named
causes the names of tensor dimensions to be checked, andtorchtyping.is_float
can be used to check that arbitrary floating point types are passed in. (Rather than just a specific one as with e.g.TensorType[torch.float32]
.) For discussion on how to customisetorchtyping
with your owndetails
, see the further documentation. - Check multiple things at once by just putting them all together inside a single
[]
. For exampleTensorType["batch": ..., "length", "channels", float, is_named]
.
torchtyping.patch_typeguard()
torchtyping
integrates with typeguard
to perform runtime type checking. torchtyping.patch_typeguard()
should be called at the global level, and will patch typeguard
to check TensorType
s.
This function is safe to run multiple times. (It does nothing after the first run).
- If using
@typeguard.typechecked
, thentorchtyping.patch_typeguard()
should be called any time before using@typeguard.typechecked
. For example you could call it at the start of each file usingtorchtyping
. - If using
typeguard.importhook.install_import_hook
, thentorchtyping.patch_typeguard()
should be called any time before defining the functions you want checked. For example you could calltorchtyping.patch_typeguard()
just once, at the same time as thetypeguard
import hook. (The order of the hook and the patch doesn't matter.) - If you're not using
typeguard
thentorchtyping.patch_typeguard()
can be omitted altogether, andtorchtyping
just used for documentation purposes.
pytest --torchtyping-patch-typeguard
torchtyping
offers a pytest
plugin to automatically run torchtyping.patch_typeguard()
before your tests. pytest
will automatically discover the plugin, you just need to pass the --torchtyping-patch-typeguard
flag to enable it. Packages can then be passed to typeguard
as normal, either by using @typeguard.typechecked
, typeguard
's import hook, or the pytest
flag --typeguard-packages="your_package_here"
.
Further documentation
See the further documentation for:
- FAQ;
- Including
flake8
andmypy
compatibility;
- Including
- How to write custom extensions to
torchtyping
; - Resources and links to other libraries and materials on this topic;
- More examples.
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