xpag.agents.flax_agents.sac.sac_from_jaxrl.DoubleCritic#
- class DoubleCritic(hidden_dims, activations=<jax._src.custom_derivatives.custom_jvp object>, num_qs=2, parent=<flax.linen.module._Sentinel object>, name=None)#
Bases:
Module
Methods
Applies a module method to variables and returns output and modified variables.
Creates an interactive Module instance by binding variables and RNGs.
Creates a clone of this Module, with optionally updated arguments.
Retrieves the value of a Variable.
Returns true if a PRNGSequence with name name exists.
Checks if a variable of given collection and name exists in this Module.
Initializes a module method with variables and returns modified variables.
Initializes a module method with variables and returns output and modified variables.
Returns True if running under self.init(...) or nn.init(...)().
Returns true if the collection col is mutable.
Initializes a module without computing on an actual input.
Returns a new RNG key from a given RNG sequence for this Module.
Declares and returns a parameter in this Module.
Add an zero-value variable ('perturbation') to the intermediate value.
Updates the value of the given variable if it is mutable, or an error otherwise.
Initializes a Module lazily (similar to a lazy
__init__
).Stores a value in a collection.
Creates a summary of the Module represented as a table.
Returns an unbound copy of a Module and its variables.
Declares and returns a variable in this Module.
Attributes
activations
(x)name
num_qs
parent
path
scope
Returns the variables in this module.
hidden_dims
- __call__(states, actions)#
Call self as a function.
-
activations(x):
Callable
[[Array
],Array
] = <jax._src.custom_derivatives.custom_jvp object>#
- apply(variables, *args, rngs=None, method=None, mutable=False, capture_intermediates=False, **kwargs)#
Applies a module method to variables and returns output and modified variables.
Note that method should be set if one would like to call apply on a different class method than
__call__
. For instance, suppose a Transformer modules has a method called encode, then the following calls apply on that method:model = Transformer() encoded = model.apply({'params': params}, x, method=Transformer.encode)
If a function instance is provided, the unbound function is used. For instance, the example below is equivalent to the one above:
encoded = model.apply({'params': params}, x, method=model.encode)
You can also pass a string to a callable attribute of the module. For example, the previous can be written as:
encoded = model.apply({'params': params}, x, method='encode')
Note
method
can also be a function that is not defined inTransformer
. In that case, the function should have at least one argument representing an instance of the Module class:def other_fn(instance, ...): instance.some_module_attr(...) ... model.apply({'params': params}, x, method=other_fn)
- Parameters:
variables (
Mapping
[str
,Mapping
[str
,Any
]]) – A dictionary containing variables keyed by variable collections. Seeflax.core.variables
for more details about variables.*args – Named arguments passed to the specified apply method.
rngs (
Optional
[Dict
[str
,Array
]]) – a dict of PRNGKeys to initialize the PRNG sequences. The “params” PRNG sequence is used to initialize parameters.method (
Union
[Callable
[...
,Any
],str
,None
]) – A function to call apply on. This is generally a function in the module. If provided, applies this method. If not provided, applies the__call__
method of the module. A string can also be provided to specify a method by name.mutable (
Union
[bool
,str
,Collection
[str
],DenyList
]) – Can be bool, str, or list. Specifies which collections should be treated as mutable:bool
: all/no collections are mutable.str
: The name of a single mutable collection.list
: A list of names of mutable collections.capture_intermediates (
Union
[bool
,Callable
[[Module
,str
],bool
]]) – If True, captures intermediate return values of all Modules inside the “intermediates” collection. By default, only the return values of all__call__
methods are stored. A function can be passed to change the filter behavior. The filter function takes the Module instance and method name and returns a bool indicating whether the output of that method invocation should be stored.**kwargs – Keyword arguments passed to the specified apply method.
- Return type:
Union
[Any
,Tuple
[Any
,Union
[FrozenDict
[str
,Mapping
[str
,Any
]],Dict
[str
,Any
]]]]- Returns:
If
mutable
is False, returns output. If any collections are mutable, returns(output, vars)
, wherevars
are is a dict of the modified collections.
- bind(variables, *args, rngs=None, mutable=False)#
Creates an interactive Module instance by binding variables and RNGs.
bind
provides an “interactive” instance of a Module directly without transforming a function withapply
. This is particularly useful for debugging and interactive use cases like notebooks where a function would limit the ability to split up code into different cells.Once the variables (and optionally RNGs) are bound to a
Module
it becomes a stateful object. Note that idiomatic JAX is functional and therefore an interactive instance does not mix well with vanilla JAX APIs.bind()
should only be used for interactive experimentation, and in all other cases we strongly encourage users to useapply()
instead.Example:
import jax import jax.numpy as jnp import flax.linen as nn class AutoEncoder(nn.Module): def setup(self): self.encoder = nn.Dense(3) self.decoder = nn.Dense(5) def __call__(self, x): return self.decoder(self.encoder(x)) x = jnp.ones((16, 9)) ae = AutoEncoder() variables = ae.init(jax.random.key(0), x) model = ae.bind(variables) z = model.encoder(x) x_reconstructed = model.decoder(z)
- Parameters:
variables (
Mapping
[str
,Mapping
[str
,Any
]]) – A dictionary containing variables keyed by variable collections. Seeflax.core.variables
for more details about variables.*args – Named arguments (not used).
rngs (
Optional
[Dict
[str
,Array
]]) – a dict of PRNGKeys to initialize the PRNG sequences.mutable (
Union
[bool
,str
,Collection
[str
],DenyList
]) – Can be bool, str, or list. Specifies which collections should be treated as mutable:bool
: all/no collections are mutable.str
: The name of a single mutable collection.list
: A list of names of mutable collections.
- Return type:
TypeVar
(M
, bound= Module)- Returns:
A copy of this instance with bound variables and RNGs.
- clone(*, parent=None, _deep_clone=False, _reset_names=False, **updates)#
Creates a clone of this Module, with optionally updated arguments.
- Parameters:
parent (
Union
[Scope
,Module
,None
]) – The parent of the clone. The clone will have no parent if no explicit parent is specified._deep_clone (
Union
[bool
,WeakValueDictionary
]) – A boolean or a weak value dictionary to control deep cloning of submodules. If True, submodules will be cloned recursively. If a weak value dictionary is passed, it will be used to cache cloned submodules. This flag is used by init/apply/bind to avoid scope leakage._reset_names (
bool
) – If True, name=None is also passed to submodules when cloning. Resetting names in submodules is necessary when calling .unbind.**updates – Attribute updates.
- Return type:
TypeVar
(M
, bound= Module)- Returns:
A clone of the this Module with the updated attributes and parent.
- get_variable(col, name, default=None)#
Retrieves the value of a Variable.
- Parameters:
col (
str
) – the variable collection.name (
str
) – the name of the variable.default (
Optional
[TypeVar
(T
)]) – the default value to return if the variable does not exist in this scope.
- Return type:
TypeVar
(T
)- Returns:
The value of the input variable, of the default value if the variable doesn’t exist in this scope.
- has_rng(name)#
Returns true if a PRNGSequence with name name exists.
- Return type:
bool
- has_variable(col, name)#
Checks if a variable of given collection and name exists in this Module.
See
flax.core.variables
for more explanation on variables and collections.- Parameters:
col (
str
) – The variable collection name.name (
str
) – The name of the variable.
- Return type:
bool
- Returns:
True if the variable exists.
- init(rngs, *args, method=None, mutable=DenyList(deny='intermediates'), capture_intermediates=False, **kwargs)#
Initializes a module method with variables and returns modified variables.
init
takes as first argument either a singlePRNGKey
, or a dictionary mapping variable collections names to theirPRNGKeys
, and will callmethod
(which is the module’s__call__
function by default) passing*args
and**kwargs
, and returns a dictionary of initialized variables.Example:
>>> import flax.linen as nn >>> import jax.numpy as jnp >>> import jax ... >>> class Foo(nn.Module): ... @nn.compact ... def __call__(self, x, train): ... x = nn.Dense(16)(x) ... x = nn.BatchNorm(use_running_average=not train)(x) ... x = nn.relu(x) ... return nn.Dense(1)(x) ... >>> module = Foo() >>> key = jax.random.key(0) >>> variables = module.init(key, jnp.empty((1, 7)), train=False)
If you pass a single
PRNGKey
, Flax will use it to feed the'params'
RNG stream. If you want to use a different RNG stream or need to use multiple streams, you must pass a dictionary mapping each RNG stream name to its correspondingPRNGKey
toinit
.Example:
>>> class Foo(nn.Module): ... @nn.compact ... def __call__(self, x, train): ... x = nn.Dense(16)(x) ... x = nn.BatchNorm(use_running_average=not train)(x) ... x = nn.relu(x) ... ... # Add gaussian noise ... noise_key = self.make_rng('noise') ... x = x + jax.random.normal(noise_key, x.shape) ... ... return nn.Dense(1)(x) ... >>> module = Foo() >>> rngs = {'params': jax.random.key(0), ... 'noise': jax.random.key(1)} >>> variables = module.init(rngs, jnp.empty((1, 7)), train=False)
Jitting init initializes a model lazily using only the shapes of the provided arguments, and avoids computing the forward pass with actual values. Example:
>>> module = nn.Dense(1) >>> init_jit = jax.jit(module.init) >>> variables = init_jit(jax.random.key(0), jnp.empty((1, 7)))
init
is a light wrapper overapply
, so otherapply
arguments likemethod
,mutable
, andcapture_intermediates
are also available.- Parameters:
rngs (
Union
[Array
,Dict
[str
,Array
]]) – The rngs for the variable collections.*args – Named arguments passed to the init function.
method (
Union
[Callable
[...
,Any
],str
,None
]) – An optional method. If provided, applies this method. If not provided, applies the__call__
method. A string can also be provided to specify a method by name.mutable (
Union
[bool
,str
,Collection
[str
],DenyList
]) – Can be bool, str, or list. Specifies which collections should be treated as mutable:bool
: all/no collections are mutable.str
: The name of a single mutable collection.list
: A list of names of mutable collections. By default all collections except “intermediates” are mutable.capture_intermediates (
Union
[bool
,Callable
[[Module
,str
],bool
]]) – If True, captures intermediate return values of all Modules inside the “intermediates” collection. By default only the return values of all__call__
methods are stored. A function can be passed to change the filter behavior. The filter function takes the Module instance and method name and returns a bool indicating whether the output of that method invocation should be stored.**kwargs – Keyword arguments passed to the init function.
- Return type:
Union
[FrozenDict
[str
,Mapping
[str
,Any
]],Dict
[str
,Any
]]- Returns:
The initialized variable dict.
- init_with_output(rngs, *args, method=None, mutable=DenyList(deny='intermediates'), capture_intermediates=False, **kwargs)#
Initializes a module method with variables and returns output and modified variables.
- Parameters:
rngs (
Union
[Array
,Dict
[str
,Array
]]) – The rngs for the variable collections.*args – Named arguments passed to the init function.
method (
Union
[Callable
[...
,Any
],str
,None
]) – An optional method. If provided, applies this method. If not provided, applies the__call__
method. A string can also be provided to specify a method by name.mutable (
Union
[bool
,str
,Collection
[str
],DenyList
]) – Can be bool, str, or list. Specifies which collections should be treated as mutable:bool
: all/no collections are mutable.str
: The name of a single mutable collection.list
: A list of names of mutable collections. By default, all collections except “intermediates” are mutable.capture_intermediates (
Union
[bool
,Callable
[[Module
,str
],bool
]]) – If True, captures intermediate return values of all Modules inside the “intermediates” collection. By default only the return values of all__call__
methods are stored. A function can be passed to change the filter behavior. The filter function takes the Module instance and method name and returns a bool indicating whether the output of that method invocation should be stored.**kwargs – Keyword arguments passed to the init function.
- Return type:
Tuple
[Any
,Union
[FrozenDict
[str
,Mapping
[str
,Any
]],Dict
[str
,Any
]]]- Returns:
(output, vars)`, where
vars
are is a dict of the modified collections.
- is_initializing()#
Returns True if running under self.init(…) or nn.init(…)().
This is a helper method to handle the common case of simple initialization where we wish to have setup logic occur when only called under
module.init
ornn.init
. For more complicated multi-phase initialization scenarios it is better to test for the mutability of particular variable collections or for the presence of particular variables that potentially need to be initialized.- Return type:
bool
- is_mutable_collection(col)#
Returns true if the collection col is mutable.
- Return type:
bool
- lazy_init(rngs, *args, method=None, mutable=DenyList(deny='intermediates'), **kwargs)#
Initializes a module without computing on an actual input.
lazy_init will initialize the variables without doing unnecessary compute. The input data should be passed as a
jax.ShapeDtypeStruct
which specifies the shape and dtype of the input but no concrete data.Example:
model = nn.Dense(features=256) variables = model.lazy_init( rng, jax.ShapeDtypeStruct((1, 128), jnp.float32))
The args and kwargs args passed to
lazy_init
can be a mix of concrete (jax arrays, scalars, bools) and abstract (ShapeDtypeStruct) values. Concrete values are only necessary for arguments that affect the initialization of variables. For example, the model might expect a keyword arg that enables/disables a subpart of the model. In this case, an explicit value (True/Flase) should be passed otherwiselazy_init
cannot infer which variables should be initialized.- Parameters:
rngs (
Union
[Array
,Dict
[str
,Array
]]) – The rngs for the variable collections.*args – arguments passed to the init function.
method (
Optional
[Callable
[...
,Any
]]) – An optional method. If provided, applies this method. If not provided, applies the__call__
method.mutable (
Union
[bool
,str
,Collection
[str
],DenyList
]) – Can be bool, str, or list. Specifies which collections should be treated as mutable:bool
: all/no collections are mutable.str
: The name of a single mutable collection.list
: A list of names of mutable collections. By default all collections except “intermediates” are mutable.**kwargs – Keyword arguments passed to the init function.
- Return type:
FrozenDict
[str
,Mapping
[str
,Any
]]- Returns:
The initialized variable dict.
- make_rng(name)#
Returns a new RNG key from a given RNG sequence for this Module.
The new RNG key is split from the previous one. Thus, every call to make_rng returns a new RNG key, while still guaranteeing full reproducibility.
TODO: Link to Flax RNG design note.
- Parameters:
name (
str
) – The RNG sequence name.- Return type:
Array
- Returns:
The newly generated RNG key.
- param(name, init_fn, *init_args, unbox=True)#
Declares and returns a parameter in this Module.
Parameters are read-only variables in the collection named “params”. See
flax.core.variables
for more details on variables.The first argument of init_fn is assumed to be a PRNG key, which is provided automatically and does not have to be passed using init_args:
mean = self.param('mean', lecun_normal(), (2, 2))
In the example above, the function lecun_normal expects two arguments: key and shape, but only shape has to be provided explicitly; key is set automatically using the PRNG for params that is passed when initializing the module using
init()
.- Parameters:
name (
str
) – The parameter name.init_fn (
Callable
[...
,TypeVar
(T
)]) – The function that will be called to compute the initial value of this variable. This function will only be called the first time this parameter is used in this module.*init_args – The arguments to pass to init_fn.
unbox (
bool
) – If True,AxisMetadata
instances are replaced by their unboxed value, seeflax.nn.meta.unbox
(default: True).
- Return type:
Union
[TypeVar
(T
),AxisMetadata
[TypeVar
(T
)]]- Returns:
The value of the initialized parameter. Throws an error if the parameter exists already.
- perturb(name, value, collection='perturbations')#
Add an zero-value variable (‘perturbation’) to the intermediate value.
The gradient of value would be the same as the gradient of this perturbation variable. Therefore, if you define your loss function with both params and perturbations as standalone arguments, you can get the intermediate gradients of value by running jax.grad on the perturbation argument.
Note: this is an experimental API and may be tweaked later for better performance and usability. At its current stage, it creates extra dummy variables that occupies extra memory space. Use it only to debug gradients in training.
Example:
import jax import jax.numpy as jnp import flax.linen as nn class Foo(nn.Module): @nn.compact def __call__(self, x): x = nn.Dense(3)(x) x = self.perturb('dense3', x) return nn.Dense(2)(x) def loss(params, perturbations, inputs, targets): variables = {'params': params, 'perturbations': perturbations} preds = model.apply(variables, inputs) return jnp.square(preds - targets).mean() x = jnp.ones((2, 9)) y = jnp.ones((2, 2)) model = Foo() variables = model.init(jax.random.key(0), x) intm_grads = jax.grad(loss, argnums=1)( variables['params'], variables['perturbations'], x, y) print(intm_grads['dense3']) # ==> [[-1.456924 -0.44332537 0.02422847] # [-1.456924 -0.44332537 0.02422847]]
If perturbations are not passed to apply, perturb behaves like a no-op so you can easily disable the behavior when not needed:
model.apply( {'params': params, 'perturbations': perturbations}, x) # works as expected model.apply({'params': params}, x) # behaves like a no-op
- Return type:
TypeVar
(T
)
- put_variable(col, name, value)#
Updates the value of the given variable if it is mutable, or an error otherwise.
- Parameters:
col (
str
) – the variable collection.name (
str
) – the name of the variable.value (
Any
) – the new value of the variable.
- setup()#
Initializes a Module lazily (similar to a lazy
__init__
).setup
is called once lazily on a module instance when a module is bound, immediately before any other methods like__call__
are invoked, or before asetup
-defined attribute on self is accessed.This can happen in three cases: :rtype:
None
Immediately when invoking
apply()
,init()
orinit_and_output()
.Once the module is given a name by being assigned to an attribute of another module inside the other module’s
setup
method (see__setattr__()
):class MyModule(nn.Module): def setup(self): submodule = Conv(...) # Accessing `submodule` attributes does not yet work here. # The following line invokes `self.__setattr__`, which gives # `submodule` the name "conv1". self.conv1 = submodule # Accessing `submodule` attributes or methods is now safe and # either causes setup() to be called once.
Once a module is constructed inside a method wrapped with
compact()
, immediately before another method is called orsetup
defined attribute is accessed.
- sow(col, name, value, reduce_fn=<function <lambda>>, init_fn=<function <lambda>>)#
Stores a value in a collection.
Collections can be used to collect intermediate values without the overhead of explicitly passing a container through each Module call.
If the target collection is not mutable sow behaves like a no-op and returns False.
Example:
import jax import jax.numpy as jnp import flax.linen as nn class Foo(nn.Module): @nn.compact def __call__(self, x): h = nn.Dense(4)(x) self.sow('intermediates', 'h', h) return nn.Dense(2)(h) x = jnp.ones((16, 9)) model = Foo() variables = model.init(jax.random.key(0), x) y, state = model.apply(variables, x, mutable=['intermediates']) print(state['intermediates']) # {'h': (...,)}
By default the values are stored in a tuple and each stored value is appended at the end. This way all intermediates can be tracked when the same module is called multiple times. Alternatively, a custom init/reduce function can be passed:
class Foo2(nn.Module): @nn.compact def __call__(self, x): init_fn = lambda: 0 reduce_fn = lambda a, b: a + b self.sow('intermediates', 'h', x, init_fn=init_fn, reduce_fn=reduce_fn) self.sow('intermediates', 'h', x * 2, init_fn=init_fn, reduce_fn=reduce_fn) return x model = Foo2() variables = model.init(jax.random.key(0), x) y, state = model.apply( variables, jnp.ones((1, 1)), mutable=['intermediates']) print(state['intermediates']) # ==> {'h': [[3.]]}
- Parameters:
col (
str
) – The name of the variable collection.name (
str
) – The name of the variable.value (
TypeVar
(T
)) – The value of the variable.reduce_fn (
Callable
[[TypeVar
(K
),TypeVar
(T
)],TypeVar
(K
)]) – The function used to combine the existing value with the new value. The default is to append the value to a tuple.init_fn (
Callable
[[],TypeVar
(K
)]) – For the first value stored, reduce_fn will be passed the result of init_fn together with the value to be stored. The default is an empty tuple.
- Return type:
bool
- Returns:
True if the value has been stored successfully, False otherwise.
- tabulate(rngs, *args, depth=None, show_repeated=False, mutable=DenyList(deny='intermediates'), console_kwargs=None, table_kwargs=mappingproxy({}), column_kwargs=mappingproxy({}), compute_flops=False, compute_vjp_flops=False, **kwargs)#
Creates a summary of the Module represented as a table.
This method has the same signature and internally calls Module.init, but instead of returning the variables, it returns the string summarizing the Module in a table. tabulate uses jax.eval_shape to run the forward computation without consuming any FLOPs or allocating memory.
Additional arguments can be passed into the console_kwargs argument, for example, {‘width’: 120}. For a full list of console_kwargs arguments, see: https://rich.readthedocs.io/en/stable/reference/console.html#rich.console.Console
Example:
import jax import jax.numpy as jnp import flax.linen as nn class Foo(nn.Module): @nn.compact def __call__(self, x): h = nn.Dense(4)(x) return nn.Dense(2)(h) x = jnp.ones((16, 9)) print(Foo().tabulate( jax.random.key(0), x, compute_flops=True, compute_vjp_flops=True))
This gives the following output:
Foo Summary
┏━━━━━━━━━┳━━━━━━━━┳━━━━━━━━━━━━━━━┳━━━━━━━━━━━━━━━┳━━━━━━━┳━━━━━━━━━━━┳━━━━━━━━━━━━━━━━━┓ ┃ path ┃ module ┃ inputs ┃ outputs ┃ flops ┃ vjp_flops ┃ params ┃ ┡━━━━━━━━━╇━━━━━━━━╇━━━━━━━━━━━━━━━╇━━━━━━━━━━━━━━━╇━━━━━━━╇━━━━━━━━━━━╇━━━━━━━━━━━━━━━━━┩ │ │ Foo │ float32[16,9] │ float32[16,2] │ 1504 │ 4460 │ │ ├─────────┼────────┼───────────────┼───────────────┼───────┼───────────┼─────────────────┤ │ Dense_0 │ Dense │ float32[16,9] │ float32[16,4] │ 1216 │ 3620 │ bias: │ │ │ │ │ │ │ │ float32[4] │ │ │ │ │ │ │ │ kernel: │ │ │ │ │ │ │ │ float32[9,4] │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ 40 (160 B) │ ├─────────┼────────┼───────────────┼───────────────┼───────┼───────────┼─────────────────┤ │ Dense_1 │ Dense │ float32[16,4] │ float32[16,2] │ 288 │ 840 │ bias: │ │ │ │ │ │ │ │ float32[2] │ │ │ │ │ │ │ │ kernel: │ │ │ │ │ │ │ │ float32[4,2] │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ │ 10 (40 B) │ ├─────────┼────────┼───────────────┼───────────────┼───────┼───────────┼─────────────────┤ │ │ │ │ │ │ Total │ 50 (200 B) │ └─────────┴────────┴───────────────┴───────────────┴───────┴───────────┴─────────────────┘
Total Parameters: 50 (200 B)
Note: rows order in the table does not represent execution order, instead it aligns with the order of keys in variables which are sorted alphabetically.
Note: vjp_flops returns 0 if the module is not differentiable.
- Parameters:
rngs (
Union
[Array
,Dict
[str
,Array
]]) – The rngs for the variable collections as passed to Module.init.*args – The arguments to the forward computation.
depth (
Optional
[int
]) – controls how many submodule deep the summary can go. By default, its None which means no limit. If a submodule is not shown because of the depth limit, its parameter count and bytes will be added to the row of its first shown ancestor such that the sum of all rows always adds up to the total number of parameters of the Module.show_repeated (
bool
) – If True, repeated calls to the same module will be shown in the table, otherwise only the first call will be shown. Default is False.mutable (
Union
[bool
,str
,Collection
[str
],DenyList
]) – Can be bool, str, or list. Specifies which collections should be treated as mutable:bool
: all/no collections are mutable.str
: The name of a single mutable collection.list
: A list of names of mutable collections. By default, all collections except ‘intermediates’ are mutable.console_kwargs (
Optional
[Mapping
[str
,Any
]]) – An optional dictionary with additional keyword arguments that are passed to rich.console.Console when rendering the table. Default arguments are {‘force_terminal’: True, ‘force_jupyter’: False}.table_kwargs (
Mapping
[str
,Any
]) – An optional dictionary with additional keyword arguments that are passed to rich.table.Table constructor.column_kwargs (
Mapping
[str
,Any
]) – An optional dictionary with additional keyword arguments that are passed to rich.table.Table.add_column when adding columns to the table.compute_flops (
bool
) – whether to include a flops column in the table listing the estimated FLOPs cost of each module forward pass. Does incur actual on-device computation / compilation / memory allocation, but still introduces overhead for large modules (e.g. extra 20 seconds for a Stable Diffusion’s UNet, whereas otherwise tabulation would finish in 5 seconds).compute_vjp_flops (
bool
) – whether to include a vjp_flops column in the table listing the estimated FLOPs cost of each module backward pass. Introduces a compute overhead of about 2-3X of compute_flops.**kwargs – keyword arguments to pass to the forward computation.
- Return type:
str
- Returns:
A string summarizing the Module.
- unbind()#
Returns an unbound copy of a Module and its variables.
unbind
helps create a stateless version of a bound Module.An example of a common use case: to extract a sub-Module defined inside
setup()
and its corresponding variables: 1) temporarilybind
the parent Module; and then 2)unbind
the desired sub-Module. (Recall thatsetup()
is only called when the Module is bound.):class AutoEncoder(nn.Module): def setup(self): self.encoder = Encoder() self.decoder = Decoder() def __call__(self, x): return self.decoder(self.encoder(x)) module = AutoEncoder() variables = module.init(jax.random.key(0), jnp.ones((1, 784))) ... # Extract the Encoder sub-Module and its variables encoder, encoder_vars = module.bind(variables).encoder.unbind()
- Return type:
Tuple
[TypeVar
(M
, bound= Module),Mapping
[str
,Mapping
[str
,Any
]]]- Returns:
A tuple with an unbound copy of this Module and its variables.
- variable(col, name, init_fn=None, *init_args, unbox=True)#
Declares and returns a variable in this Module.
See
flax.core.variables
for more information. See alsoparam()
for a shorthand way to define read-only variables in the “params” collection.Contrary to
param()
, all arguments passing using init_fn should be passed on explicitly:key = self.make_rng('stats') mean = self.variable('stats', 'mean', lecun_normal(), key, (2, 2))
In the example above, the function lecun_normal expects two arguments: key and shape, and both have to be passed on. The PRNG for stats has to be provided explicitly when calling
init()
andapply()
.- Parameters:
col (
str
) – The variable collection name.name (
str
) – The variable name.init_fn (
Optional
[Callable
[...
,TypeVar
(T
)]]) – The function that will be called to compute the initial value of this variable. This function will only be called the first time this variable is used in this module. If None, the variable must already be initialized otherwise an error is raised.*init_args – The arguments to pass to init_fn.
unbox (
bool
) – If True,AxisMetadata
instances are replaced by their unboxed value, seeflax.nn.meta.unbox
(default: True).
- Return type:
Union
[Variable
[TypeVar
(T
)],Variable
[AxisMetadata
[TypeVar
(T
)]]]- Returns:
A
flax.core.variables.Variable
that can be read or set via “.value” attribute. Throws an error if the variable exists already.
- property variables: Mapping[str, Mapping[str, Any]]#
Returns the variables in this module.