docs/callbacks.hooks.html

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title: callbacks.hooks
keywords: fastai
sidebar: home_sidebar

summary: "Implement callbacks using hooks"
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<h1 id="Hook-callbacks">Hook callbacks<a class="anchor-link" href="#Hook-callbacks">&#182;</a></h1>
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<p>This provides both a standalone class and a callback for registering and automatically deregistering <a href="https://pytorch.org/tutorials/beginner/former_torchies/nn_tutorial.html#forward-and-backward-function-hooks">PyTorch hooks</a>, along with some pre-defined hooks. Hooks can be attached to any <a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>nn.Module</code></a>, for either the forward or the backward pass.</p>
<p>We'll start by looking at the pre-defined hook <a href="/callbacks.hooks.html#ActivationStats"><code>ActivationStats</code></a>, then we'll see how to create our own.</p>

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<h2 id="ActivationStats"><code>class</code> <code>ActivationStats</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L63" class="source_link">[source]</a></h2><blockquote><p><code>ActivationStats</code>(<code>learn</code>:<a href="/basic_train.html#Learner"><code>Learner</code></a>, <code>modules</code>:<code>Sequence</code>[<a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>Module</code></a>]=<code>None</code>, <code>do_remove</code>:<code>bool</code>=<code>True</code>) :: <a href="/callbacks.hooks.html#HookCallback"><code>HookCallback</code></a></p>
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<p>Callback that record the activations.</p>

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<p><a href="/callbacks.hooks.html#ActivationStats"><code>ActivationStats</code></a> saves the layer activations in <code>self.stats</code> for all <code>modules</code> passed to it. By default it will save activations for <em>all</em> modules. For instance:</p>

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<div class=" highlight hl-ipython3"><pre><span></span><span class="n">path</span> <span class="o">=</span> <span class="n">untar_data</span><span class="p">(</span><span class="n">URLs</span><span class="o">.</span><span class="n">MNIST_SAMPLE</span><span class="p">)</span>
<span class="n">data</span> <span class="o">=</span> <span class="n">ImageDataBunch</span><span class="o">.</span><span class="n">from_folder</span><span class="p">(</span><span class="n">path</span><span class="p">)</span>
<span class="n">learn</span> <span class="o">=</span> <span class="n">create_cnn</span><span class="p">(</span><span class="n">data</span><span class="p">,</span> <span class="n">models</span><span class="o">.</span><span class="n">resnet18</span><span class="p">,</span> <span class="n">callback_fns</span><span class="o">=</span><span class="n">ActivationStats</span><span class="p">)</span>
<span class="n">learn</span><span class="o">.</span><span class="n">fit</span><span class="p">(</span><span class="mi">1</span><span class="p">)</span>
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<pre>Total time: 00:13
epoch  train loss  valid loss
0      0.077055    0.049985    (00:13)

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<p>The saved <code>stats</code> is a <code>FloatTensor</code> of shape <code>(2,num_modules,num_batches)</code>. The first axis is <code>(mean,stdev)</code>.</p>

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<div class=" highlight hl-ipython3"><pre><span></span><span class="nb">len</span><span class="p">(</span><span class="n">learn</span><span class="o">.</span><span class="n">data</span><span class="o">.</span><span class="n">train_dl</span><span class="p">),</span><span class="nb">len</span><span class="p">(</span><span class="n">learn</span><span class="o">.</span><span class="n">activation_stats</span><span class="o">.</span><span class="n">modules</span><span class="p">)</span>
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<pre>(194, 44)</pre>
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<div class=" highlight hl-ipython3"><pre><span></span><span class="n">learn</span><span class="o">.</span><span class="n">activation_stats</span><span class="o">.</span><span class="n">stats</span><span class="o">.</span><span class="n">shape</span>
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<pre>torch.Size([2, 44, 194])</pre>
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<p>So this shows the standard deviation (<code>axis0==1</code>) of 5th last layer (<code>axis1==-5</code>) for each batch (<code>axis2</code>):</p>

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<div class=" highlight hl-ipython3"><pre><span></span><span class="n">plt</span><span class="o">.</span><span class="n">plot</span><span class="p">(</span><span class="n">learn</span><span class="o">.</span><span class="n">activation_stats</span><span class="o">.</span><span class="n">stats</span><span class="p">[</span><span class="mi">1</span><span class="p">][</span><span class="o">-</span><span class="mi">5</span><span class="p">]</span><span class="o">.</span><span class="n">numpy</span><span class="p">());</span>
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<h2 id="Hook"><code>class</code> <code>Hook</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L10" class="source_link">[source]</a></h2><blockquote><p><code>Hook</code>(<code>m</code>:<a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>Module</code></a>, <code>hook_func</code>:<code>HookFunc</code>, <code>is_forward</code>:<code>bool</code>=<code>True</code>)</p>
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<p>Create a hook.</p>

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<p>Registers and manually deregisters a <a href="https://pytorch.org/tutorials/beginner/former_torchies/nn_tutorial.html#forward-and-backward-function-hooks">PyTorch hook</a>. Your <code>hook_func</code> will be called automatically when forward/backward (depending on <code>is_forward</code>) for your module <code>m</code> is run, and the result of that function is placed in <code>self.stored</code>.</p>

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<h4 id="Hook.remove"><code>remove</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L23" class="source_link">[source]</a></h4><blockquote><p><code>remove</code>()</p>
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<p>Deregister the hook, if not called already.</p>

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<h2 id="Hooks"><code>class</code> <code>Hooks</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L28" class="source_link">[source]</a></h2><blockquote><p><code>Hooks</code>(<code>ms</code>:<code>ModuleList</code>, <code>hook_func</code>:<code>HookFunc</code>, <code>is_forward</code>:<code>bool</code>=<code>True</code>)</p>
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<p>Create several hooks.</p>

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<p>Acts as a <code>Collection</code> (i.e. <code>len(hooks)</code> and <code>hooks[i]</code>) and an <code>Iterator</code> (i.e. <code>for hook in hooks</code>) of a group of hooks, one for each module in <code>ms</code>, with the ability to remove all as a group. Use <code>stored</code> to get all hook results. <code>hook_func</code> and <code>is_forward</code> behavior is the same as <a href="/callbacks.hooks.html#Hook"><code>Hook</code></a>. See the source code for <a href="/callbacks.hooks.html#HookCallback"><code>HookCallback</code></a> for a simple example.</p>

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<h4 id="Hooks.remove"><code>remove</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L39" class="source_link">[source]</a></h4><blockquote><p><code>remove</code>()</p>
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<p>Deregister all hooks created by this class, if not previously called.</p>

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<h2 id="Convenience-functions-for-hooks">Convenience functions for hooks<a class="anchor-link" href="#Convenience-functions-for-hooks">&#182;</a></h2>
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<h4 id="hook_output"><code>hook_output</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L42" class="source_link">[source]</a></h4><blockquote><p><code>hook_output</code>(<code>module</code>:<a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>Module</code></a>) → <a href="/callbacks.hooks.html#Hook"><code>Hook</code></a></p>
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<p>Function that creates a <a href="/callbacks.hooks.html#Hook"><code>Hook</code></a> for <code>module</code> that simply stores the output of the layer.</p>

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<h4 id="hook_outputs"><code>hook_outputs</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L43" class="source_link">[source]</a></h4><blockquote><p><code>hook_outputs</code>(<code>modules</code>:<code>ModuleList</code>) → <a href="/callbacks.hooks.html#Hooks"><code>Hooks</code></a></p>
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<p>Function that creates a <a href="/callbacks.hooks.html#Hook"><code>Hook</code></a> for all passed <code>modules</code> that simply stores the output of the layers. For example, the (slightly simplified) source code of <a href="/callbacks.hooks.html#model_sizes"><code>model_sizes</code></a> is:</p>
<div class="highlight"><pre><span></span><span class="k">def</span> <span class="nf">model_sizes</span><span class="p">(</span><span class="n">m</span><span class="p">,</span> <span class="n">size</span><span class="p">):</span>
    <span class="n">x</span> <span class="o">=</span> <span class="n">m</span><span class="p">(</span><span class="n">torch</span><span class="o">.</span><span class="n">zeros</span><span class="p">(</span><span class="mi">1</span><span class="p">,</span> <span class="n">in_channels</span><span class="p">(</span><span class="n">m</span><span class="p">),</span> <span class="o">*</span><span class="n">size</span><span class="p">))</span>
    <span class="k">return</span> <span class="p">[</span><span class="n">o</span><span class="o">.</span><span class="n">stored</span><span class="o">.</span><span class="n">shape</span> <span class="k">for</span> <span class="n">o</span> <span class="ow">in</span> <span class="n">hook_outputs</span><span class="p">(</span><span class="n">m</span><span class="p">)]</span>
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<h4 id="model_sizes"><code>model_sizes</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L75" class="source_link">[source]</a></h4><blockquote><p><code>model_sizes</code>(<code>m</code>:<a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>Module</code></a>, <code>size</code>:<code>tuple</code>=<code>(256, 256)</code>, <code>full</code>:<code>bool</code>=<code>True</code>) → <code>Tuple</code>[<code>Sizes</code>, <code>Tensor</code>, <a href="/callbacks.hooks.html#Hooks"><code>Hooks</code></a>]</p>
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<p>Pass a dummy input through the model to get the various sizes.</p>

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<h4 id="num_features_model"><code>num_features_model</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L85" class="source_link">[source]</a></h4><blockquote><p><code>num_features_model</code>(<code>m</code>:<a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>Module</code></a>) → <code>int</code></p>
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<p>Return the number of output features for a <code>model</code>.</p>

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<p>It can be useful to get the size of each layer of a model (e.g. for printing a summary, or for generating cross-connections for a <a href="/vision.models.unet.html#DynamicUnet"><code>DynamicUnet</code></a>), however they depend on the size of the input. This function calculates the layer sizes by passing in a minimal tensor of <code>size</code>.</p>

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<h2 id="HookCallback"><code>class</code> <code>HookCallback</code><a href="https://github.com/fastai/fastai/blob/master/fastai/callbacks/hooks.py#L45" class="source_link">[source]</a></h2><blockquote><p><code>HookCallback</code>(<code>learn</code>:<a href="/basic_train.html#Learner"><code>Learner</code></a>, <code>modules</code>:<code>Sequence</code>[<a href="https://pytorch.org/docs/stable/nn.html#torch.nn.Module"><code>Module</code></a>]=<code>None</code>, <code>do_remove</code>:<code>bool</code>=<code>True</code>) :: <a href="/basic_train.html#LearnerCallback"><code>LearnerCallback</code></a></p>
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<p>Callback that registers given hooks.</p>

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<p>For all <code>modules</code>, uses a callback to automatically register a method <code>self.hook</code> (that you must define in an inherited class) as a hook. This method must have the signature:</p>
<div class="highlight"><pre><span></span><span class="k">def</span> <span class="nf">hook</span><span class="p">(</span><span class="bp">self</span><span class="p">,</span> <span class="n">m</span><span class="p">:</span><span class="n">Model</span><span class="p">,</span> <span class="nb">input</span><span class="p">:</span><span class="n">Tensors</span><span class="p">,</span> <span class="n">output</span><span class="p">:</span><span class="n">Tensors</span><span class="p">)</span>
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<p>If <code>do_remove</code> then the hook is automatically deregistered at the end of training. See <a href="/callbacks.hooks.html#ActivationStats"><code>ActivationStats</code></a> for a simple example of inheriting from this class.</p>

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