import warnings from collections import OrderedDict from torch._six import container_abcs from itertools import islice import operator import torch from .module import Module from torch._jit_internal import _copy_to_script_wrapper from typing import Any, Iterable, Iterator, Mapping, Optional, overload, Tuple, TypeVar, Union T = TypeVar('T') class Container(Module): def __init__(self, **kwargs: Any) -> None: super(Container, self).__init__() # DeprecationWarning is ignored by default warnings.warn("nn.Container is deprecated. All of it's functionality " "is now implemented in nn.Module. Subclass that instead.") for key, value in kwargs.items(): self.add_module(key, value) class Sequential(Module): r"""A sequential container. Modules will be added to it in the order they are passed in the constructor. Alternatively, an ordered dict of modules can also be passed in. To make it easier to understand, here is a small example:: # Example of using Sequential model = nn.Sequential( nn.Conv2d(1,20,5), nn.ReLU(), nn.Conv2d(20,64,5), nn.ReLU() ) # Example of using Sequential with OrderedDict model = nn.Sequential(OrderedDict([ ('conv1', nn.Conv2d(1,20,5)), ('relu1', nn.ReLU()), ('conv2', nn.Conv2d(20,64,5)), ('relu2', nn.ReLU()) ])) """ @overload def __init__(self, *args: Module) -> None: ... @overload def __init__(self, arg: 'OrderedDict[str, Module]') -> None: ... def __init__(self, *args: Any): super(Sequential, self).__init__() if len(args) == 1 and isinstance(args[0], OrderedDict): for key, module in args[0].items(): self.add_module(key, module) else: for idx, module in enumerate(args): self.add_module(str(idx), module) def _get_item_by_idx(self, iterator, idx): """Get the idx-th item of the iterator""" size = len(self) idx = operator.index(idx) if not -size <= idx < size: raise IndexError('index {} is out of range'.format(idx)) idx %= size return next(islice(iterator, idx, None)) @_copy_to_script_wrapper def __getitem__(self: T, idx) -> T: if isinstance(idx, slice): return self.__class__(OrderedDict(list(self._modules.items())[idx])) else: return self._get_item_by_idx(self._modules.values(), idx) def __setitem__(self, idx: int, module: Module) -> None: key = self._get_item_by_idx(self._modules.keys(), idx) return setattr(self, key, module) def __delitem__(self, idx: Union[slice, int]) -> None: if isinstance(idx, slice): for key in list(self._modules.keys())[idx]: delattr(self, key) else: key = self._get_item_by_idx(self._modules.keys(), idx) delattr(self, key) @_copy_to_script_wrapper def __len__(self) -> int: return len(self._modules) @_copy_to_script_wrapper def __dir__(self): keys = super(Sequential, self).__dir__() keys = [key for key in keys if not key.isdigit()] return keys @_copy_to_script_wrapper def __iter__(self) -> Iterator[Module]: return iter(self._modules.values()) # NB: We can't really type check this function as the type of input # may change dynamically (as is tested in # TestScript.test_sequential_intermediary_types). Cannot annotate # with Any as TorchScript expects a more precise type def forward(self, input): for module in self: input = module(input) return input class ModuleList(Module): r"""Holds submodules in a list. :class:`~torch.nn.ModuleList` can be indexed like a regular Python list, but modules it contains are properly registered, and will be visible by all :class:`~torch.nn.Module` methods. Arguments: modules (iterable, optional): an iterable of modules to add Example:: class MyModule(nn.Module): def __init__(self): super(MyModule, self).__init__() self.linears = nn.ModuleList([nn.Linear(10, 10) for i in range(10)]) def forward(self, x): # ModuleList can act as an iterable, or be indexed using ints for i, l in enumerate(self.linears): x = self.linears[i // 2](x) + l(x) return x """ def __init__(self, modules: Optional[Iterable[Module]] = None) -> None: super(ModuleList, self).__init__() if modules is not None: self += modules def _get_abs_string_index(self, idx): """Get the absolute index for the list of modules""" idx = operator.index(idx) if not (-len(self) <= idx < len(self)): raise IndexError('index {} is out of range'.format(idx)) if idx < 0: idx += len(self) return str(idx) @_copy_to_script_wrapper def __getitem__(self, idx: int) -> Module: if isinstance(idx, slice): return self.__class__(list(self._modules.values())[idx]) else: return self._modules[self._get_abs_string_index(idx)] def __setitem__(self, idx: int, module: Module) -> None: idx = self._get_abs_string_index(idx) return setattr(self, str(idx), module) def __delitem__(self, idx: Union[int, slice]) -> None: if isinstance(idx, slice): for k in range(len(self._modules))[idx]: delattr(self, str(k)) else: delattr(self, self._get_abs_string_index(idx)) # To preserve numbering, self._modules is being reconstructed with modules after deletion str_indices = [str(i) for i in range(len(self._modules))] self._modules = OrderedDict(list(zip(str_indices, self._modules.values()))) @_copy_to_script_wrapper def __len__(self) -> int: return len(self._modules) @_copy_to_script_wrapper def __iter__(self) -> Iterator[Module]: return iter(self._modules.values()) def __iadd__(self: T, modules: Iterable[Module]) -> T: return self.extend(modules) @_copy_to_script_wrapper def __dir__(self): keys = super(ModuleList, self).__dir__() keys = [key for key in keys if not key.isdigit()] return keys def insert(self, index: int, module: Module) -> None: r"""Insert a given module before a given index in the list. Arguments: index (int): index to insert. module (nn.Module): module to insert """ for i in range(len(self._modules), index, -1): self._modules[str(i)] = self._modules[str(i - 1)] self._modules[str(index)] = module def append(self: T, module: Module) -> T: r"""Appends a given module to the end of the list. Arguments: module (nn.Module): module to append """ self.add_module(str(len(self)), module) return self def extend(self: T, modules: Iterable[Module]) -> T: r"""Appends modules from a Python iterable to the end of the list. Arguments: modules (iterable): iterable of modules to append """ if not isinstance(modules, container_abcs.Iterable): raise TypeError("ModuleList.extend should be called with an " "iterable, but got " + type(modules).__name__) offset = len(self) for i, module in enumerate(modules): self.add_module(str(offset + i), module) return self def forward(self): raise NotImplementedError() class ModuleDict(Module): r"""Holds submodules in a dictionary. :class:`~torch.nn.ModuleDict` can be indexed like a regular Python dictionary, but modules it contains are properly registered, and will be visible by all :class:`~torch.nn.Module` methods. :class:`~torch.nn.ModuleDict` is an **ordered** dictionary that respects * the order of insertion, and * in :meth:`~torch.nn.ModuleDict.update`, the order of the merged ``OrderedDict``, ``dict`` (started from Python 3.6) or another :class:`~torch.nn.ModuleDict` (the argument to :meth:`~torch.nn.ModuleDict.update`). Note that :meth:`~torch.nn.ModuleDict.update` with other unordered mapping types (e.g., Python's plain ``dict`` before Python version 3.6) does not preserve the order of the merged mapping. Arguments: modules (iterable, optional): a mapping (dictionary) of (string: module) or an iterable of key-value pairs of type (string, module) Example:: class MyModule(nn.Module): def __init__(self): super(MyModule, self).__init__() self.choices = nn.ModuleDict({ 'conv': nn.Conv2d(10, 10, 3), 'pool': nn.MaxPool2d(3) }) self.activations = nn.ModuleDict([ ['lrelu', nn.LeakyReLU()], ['prelu', nn.PReLU()] ]) def forward(self, x, choice, act): x = self.choices[choice](x) x = self.activations[act](x) return x """ def __init__(self, modules: Optional[Mapping[str, Module]] = None) -> None: super(ModuleDict, self).__init__() if modules is not None: self.update(modules) @_copy_to_script_wrapper def __getitem__(self, key: str) -> Module: return self._modules[key] def __setitem__(self, key: str, module: Module) -> None: self.add_module(key, module) def __delitem__(self, key: str) -> None: del self._modules[key] @_copy_to_script_wrapper def __len__(self) -> int: return len(self._modules) @_copy_to_script_wrapper def __iter__(self) -> Iterator[str]: return iter(self._modules) @_copy_to_script_wrapper def __contains__(self, key: str) -> bool: return key in self._modules def clear(self) -> None: """Remove all items from the ModuleDict. """ self._modules.clear() def pop(self, key: str) -> Module: r"""Remove key from the ModuleDict and return its module. Arguments: key (string): key to pop from the ModuleDict """ v = self[key] del self[key] return v @_copy_to_script_wrapper def keys(self) -> Iterable[str]: r"""Return an iterable of the ModuleDict keys. """ return self._modules.keys() @_copy_to_script_wrapper def items(self) -> Iterable[Tuple[str, Module]]: r"""Return an iterable of the ModuleDict key/value pairs. """ return self._modules.items() @_copy_to_script_wrapper def values(self) -> Iterable[Module]: r"""Return an iterable of the ModuleDict values. """ return self._modules.values() def update(self, modules: Mapping[str, Module]) -> None: r"""Update the :class:`~torch.nn.ModuleDict` with the key-value pairs from a mapping or an iterable, overwriting existing keys. .. note:: If :attr:`modules` is an ``OrderedDict``, a :class:`~torch.nn.ModuleDict`, or an iterable of key-value pairs, the order of new elements in it is preserved. Arguments: modules (iterable): a mapping (dictionary) from string to :class:`~torch.nn.Module`, or an iterable of key-value pairs of type (string, :class:`~torch.nn.Module`) """ if not isinstance(modules, container_abcs.Iterable): raise TypeError("ModuleDict.update should be called with an " "iterable of key/value pairs, but got " + type(modules).__name__) if isinstance(modules, (OrderedDict, ModuleDict, container_abcs.Mapping)): for key, module in modules.items(): self[key] = module else: for j, m in enumerate(modules): if not isinstance(m, container_abcs.Iterable): raise TypeError("ModuleDict update sequence element " "#" + str(j) + " should be Iterable; is" + type(m).__name__) if not len(m) == 2: raise ValueError("ModuleDict update sequence element " "#" + str(j) + " has length " + str(len(m)) + "; 2 is required") self[m[0]] = m[1] def forward(self): raise NotImplementedError() class ParameterList(Module): r"""Holds parameters in a list. :class:`~torch.nn.ParameterList` can be indexed like a regular Python list, but parameters it contains are properly registered, and will be visible by all :class:`~torch.nn.Module` methods. Arguments: parameters (iterable, optional): an iterable of :class:`~torch.nn.Parameter` to add Example:: class MyModule(nn.Module): def __init__(self): super(MyModule, self).__init__() self.params = nn.ParameterList([nn.Parameter(torch.randn(10, 10)) for i in range(10)]) def forward(self, x): # ParameterList can act as an iterable, or be indexed using ints for i, p in enumerate(self.params): x = self.params[i // 2].mm(x) + p.mm(x) return x """ def __init__(self, parameters: Optional[Iterable['Parameter']] = None) -> None: super(ParameterList, self).__init__() self._initialized = True if parameters is not None: self += parameters def _get_abs_string_index(self, idx): """Get the absolute index for the list of modules""" idx = operator.index(idx) if not (-len(self) <= idx < len(self)): raise IndexError('index {} is out of range'.format(idx)) if idx < 0: idx += len(self) return str(idx) @overload def __getitem__(self, idx: int) -> 'Parameter': ... @overload def __getitem__(self: T, idx: slice) -> T: ... def __getitem__(self, idx): if isinstance(idx, slice): return self.__class__(list(self._parameters.values())[idx]) else: idx = self._get_abs_string_index(idx) return self._parameters[str(idx)] def __setitem__(self, idx: int, param: 'Parameter') -> None: idx = self._get_abs_string_index(idx) return self.register_parameter(str(idx), param) def __setattr__(self, key: Any, value: Any) -> None: if getattr(self, "_initialized", False) and not isinstance(value, torch.nn.Parameter): warnings.warn("Setting attributes on ParameterList is not supported.") super(ParameterList, self).__setattr__(key, value) def __len__(self) -> int: return len(self._parameters) def __iter__(self) -> Iterator['Parameter']: return iter(self._parameters.values()) def __iadd__(self: T, parameters: Iterable['Parameter']) -> T: return self.extend(parameters) def __dir__(self): keys = super(ParameterList, self).__dir__() keys = [key for key in keys if not key.isdigit()] return keys def append(self: T, parameter: 'Parameter') -> T: """Appends a given parameter at the end of the list. Arguments: parameter (nn.Parameter): parameter to append """ self.register_parameter(str(len(self)), parameter) return self def extend(self: T, parameters: Iterable['Parameter']) -> T: """Appends parameters from a Python iterable to the end of the list. Arguments: parameters (iterable): iterable of parameters to append """ if not isinstance(parameters, container_abcs.Iterable): raise TypeError("ParameterList.extend should be called with an " "iterable, but got " + type(parameters).__name__) offset = len(self) for i, param in enumerate(parameters): self.register_parameter(str(offset + i), param) return self def extra_repr(self) -> str: child_lines = [] for k, p in self._parameters.items(): size_str = 'x'.join(str(size) for size in p.size()) device_str = '' if not p.is_cuda else ' (GPU {})'.format(p.get_device()) parastr = 'Parameter containing: [{} of size {}{}]'.format( torch.typename(p), size_str, device_str) child_lines.append(' (' + str(k) + '): ' + parastr) tmpstr = '\n'.join(child_lines) return tmpstr def __call__(self, input): raise RuntimeError('ParameterList should not be called.') def _replicate_for_data_parallel(self): warnings.warn("nn.ParameterList is being used with DataParallel but this is not " "supported. This list will appear empty for the models replicated " "on each GPU except the original one.") return super(ParameterList, self)._replicate_for_data_parallel() class ParameterDict(Module): r"""Holds parameters in a dictionary. ParameterDict can be indexed like a regular Python dictionary, but parameters it contains are properly registered, and will be visible by all Module methods. :class:`~torch.nn.ParameterDict` is an **ordered** dictionary that respects * the order of insertion, and * in :meth:`~torch.nn.ParameterDict.update`, the order of the merged ``OrderedDict`` or another :class:`~torch.nn.ParameterDict` (the argument to :meth:`~torch.nn.ParameterDict.update`). Note that :meth:`~torch.nn.ParameterDict.update` with other unordered mapping types (e.g., Python's plain ``dict``) does not preserve the order of the merged mapping. Arguments: parameters (iterable, optional): a mapping (dictionary) of (string : :class:`~torch.nn.Parameter`) or an iterable of key-value pairs of type (string, :class:`~torch.nn.Parameter`) Example:: class MyModule(nn.Module): def __init__(self): super(MyModule, self).__init__() self.params = nn.ParameterDict({ 'left': nn.Parameter(torch.randn(5, 10)), 'right': nn.Parameter(torch.randn(5, 10)) }) def forward(self, x, choice): x = self.params[choice].mm(x) return x """ def __init__(self, parameters: Optional[Mapping[str, 'Parameter']] = None) -> None: super(ParameterDict, self).__init__() self._initialized = True if parameters is not None: self.update(parameters) def __getitem__(self, key: str) -> 'Parameter': return self._parameters[key] def __setitem__(self, key: str, parameter: 'Parameter') -> None: self.register_parameter(key, parameter) def __delitem__(self, key: str) -> None: del self._parameters[key] def __setattr__(self, key: Any, value: Any) -> None: if getattr(self, "_initialized", False) and not isinstance(value, torch.nn.Parameter): warnings.warn("Setting attributes on ParameterDict is not supported.") super(ParameterDict, self).__setattr__(key, value) def __len__(self) -> int: return len(self._parameters) def __iter__(self) -> Iterator[str]: return iter(self._parameters.keys()) def __contains__(self, key: str) -> bool: return key in self._parameters def clear(self) -> None: """Remove all items from the ParameterDict. """ self._parameters.clear() def pop(self, key: str) -> 'Parameter': r"""Remove key from the ParameterDict and return its parameter. Arguments: key (string): key to pop from the ParameterDict """ v = self[key] del self[key] return v def keys(self) -> Iterable[str]: r"""Return an iterable of the ParameterDict keys. """ return self._parameters.keys() def items(self) -> Iterable[Tuple[str, 'Parameter']]: r"""Return an iterable of the ParameterDict key/value pairs. """ return self._parameters.items() def values(self) -> Iterable['Parameter']: r"""Return an iterable of the ParameterDict values. """ return self._parameters.values() def update(self, parameters: Mapping[str, 'Parameter']) -> None: r"""Update the :class:`~torch.nn.ParameterDict` with the key-value pairs from a mapping or an iterable, overwriting existing keys. .. note:: If :attr:`parameters` is an ``OrderedDict``, a :class:`~torch.nn.ParameterDict`, or an iterable of key-value pairs, the order of new elements in it is preserved. Arguments: parameters (iterable): a mapping (dictionary) from string to :class:`~torch.nn.Parameter`, or an iterable of key-value pairs of type (string, :class:`~torch.nn.Parameter`) """ if not isinstance(parameters, container_abcs.Iterable): raise TypeError("ParametersDict.update should be called with an " "iterable of key/value pairs, but got " + type(parameters).__name__) if isinstance(parameters, (OrderedDict, ParameterDict)): for key, parameter in parameters.items(): self[key] = parameter elif isinstance(parameters, container_abcs.Mapping): for key, parameter in sorted(parameters.items()): self[key] = parameter else: for j, p in enumerate(parameters): if not isinstance(p, container_abcs.Iterable): raise TypeError("ParameterDict update sequence element " "#" + str(j) + " should be Iterable; is" + type(p).__name__) if not len(p) == 2: raise ValueError("ParameterDict update sequence element " "#" + str(j) + " has length " + str(len(p)) + "; 2 is required") self[p[0]] = p[1] def extra_repr(self) -> str: child_lines = [] for k, p in self._parameters.items(): size_str = 'x'.join(str(size) for size in p.size()) device_str = '' if not p.is_cuda else ' (GPU {})'.format(p.get_device()) parastr = 'Parameter containing: [{} of size {}{}]'.format( torch.typename(p), size_str, device_str) child_lines.append(' (' + k + '): ' + parastr) tmpstr = '\n'.join(child_lines) return tmpstr def __call__(self, input): raise RuntimeError('ParameterDict should not be called.') def _replicate_for_data_parallel(self): warnings.warn("nn.ParameterDict is being used with DataParallel but this is not " "supported. This dict will appear empty for the models replicated " "on each GPU except the original one.") return super(ParameterDict, self)._replicate_for_data_parallel()