Typos and Doc Fixes in implement.rst (#72)
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Haswanth Aekula
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@ -55,35 +55,35 @@ In practise this means that:
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Internal implementation details
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-------------------------------
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This section briefly describe how metrics work internally. We encourage looking at the source code for more info.
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This section briefly describes how metrics work internally. We encourage looking at the source code for more info.
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Internally, Lightning wraps the user defined ``update()`` and ``compute()`` method. We do this to automatically
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synchronize and reduce metric states across multiple devices. More precisely, calling ``update()`` does the
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following internally:
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1. Clears computed cache
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2. Calls user-defined ``update()``
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1. Clears computed cache.
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2. Calls user-defined ``update()``.
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Simiarly, calling ``compute()`` does the following internally
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Similarly, calling ``compute()`` does the following internally:
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1. Syncs metric states between processes
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2. Reduce gathered metric states
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3. Calls the user defined ``compute()`` method on the gathered metric states
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4. Cache computed result
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1. Syncs metric states between processes.
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2. Reduce gathered metric states.
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3. Calls the user defined ``compute()`` method on the gathered metric states.
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4. Cache computed result.
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From a user's standpoint this has one important side-effect: computed results are cached. This means that no
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matter how many times ``compute`` is called after one and another, it will continue to return the same result.
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The cache is first emptied on the next call to ``update``.
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``forward`` serves the dual purpose of both returning the metric on the current data and updating the internal
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metric state for accumulating over multiple batches. The ``forward()`` method achives this by combining calls
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metric state for accumulating over multiple batches. The ``forward()`` method achieves this by combining calls
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to ``update`` and ``compute`` in the following way (assuming metric is initialized with ``compute_on_step=True``):
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1. Calls ``update()`` to update the global metric states (for accumulation over multiple batches)
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2. Caches the global state
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3. Calls ``reset()`` to clear global metric state
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4. Calls ``update()`` to update local metric state
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5. Calls ``compute()`` to calculate metric for current batch
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6. Restores the global state
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1. Calls ``update()`` to update the global metric state (for accumulation over multiple batches)
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2. Caches the global state.
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3. Calls ``reset()`` to clear global metric state.
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4. Calls ``update()`` to update local metric state.
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5. Calls ``compute()`` to calculate metric for current batch.
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6. Restores the global state.
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This procedure has the consequence of calling the user defined ``update`` **twice** during a single
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forward call (one to update global statistics and one for getting the batch statistics).
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@ -97,18 +97,18 @@ forward call (one to update global statistics and one for getting the batch stat
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Contributing your metric to Torchmetrics
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----------------------------------------
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Wanting to contribute the metric you have implement? Great, we are always open to adding more metrics to Torchmetrics
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Wanting to contribute the metric you have implemented? Great, we are always open to adding more metrics to ``torchmetrics``
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as long as they serve a general purpose. However, to keep all our metrics consistent we request that the implementation
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and tests gets formatted in the following way:
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1. Start by reading our `contribution guidelines <https://torchmetrics.readthedocs.io//en/latest/generated/CONTRIBUTING.html>`_
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2. First implement the functional backend. This takes cares of all logic that does into the metric. The code should
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to put into single file placed under ``torchmetrics/functional/"domain"/"new_metric".py`` where ``domain`` is the type of
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metric (classification, regression, nlp ect) and ``new_metric`` is the name of the metric. In this file should be the
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1. Start by reading our `contribution guidelines <https://torchmetrics.readthedocs.io//en/latest/generated/CONTRIBUTING.html>`_.
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2. First implement the functional backend. This takes cares of all the logic that goes into the metric. The code should
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be put into a single file placed under ``torchmetrics/functional/"domain"/"new_metric".py`` where ``domain`` is the type of
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metric (classification, regression, nlp etc) and ``new_metric`` is the name of the metric. In this file, there should be the
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following three functions:
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1. ``_new_metric_update(...)``: everything that has to do with type/shape checking and all logic required before distributed syncing need to go here.
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2. ``_new_metric_compute(...)``: all remaining logic
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2. ``_new_metric_compute(...)``: all remaining logic.
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3. ``new_metric(...)``: essentially wraps the ``_update`` and ``_compute`` private functions into one public function that
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makes up the functional interface for the metric.
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@ -118,33 +118,33 @@ and tests gets formatted in the following way:
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3. In a corresponding file placed in ``torchmetrics/"domain"/"new_metric".py`` create the module interface:
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1. Create a new module metric by subclassing ``torchmetrics.Metric``
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1. Create a new module metric by subclassing ``torchmetrics.Metric``.
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2. In the ``__init__`` of the module call ``self.add_state`` for as many metric states are needed for the metric to
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proper accumulate metric statistics
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3. The module interface should essentially call the private ``_new_metric_update(...)`` in its `update` method and simiarly the
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proper accumulate metric statistics.
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3. The module interface should essentially call the private ``_new_metric_update(...)`` in its `update` method and similarly the
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``_new_metric_compute(...)`` function in its ``compute``. No logic should really be implemented in the module interface.
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We do this to not have duplicate code to maintain.
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.. note::
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The module `Accuracy <https://github.com/PyTorchLightning/metrics/blob/master/torchmetrics/classification/accuracy.py>`_
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metric that correspond to the above functional example showcases these steps
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metric that corresponds to the above functional example showcases these steps.
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4. Remember to add binding to the different relevant ``__init__`` files
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4. Remember to add binding to the different relevant ``__init__`` files.
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5. Testing is key to keeping torchmetrics trustworty. This is why we have a very rigid testing protocol. This means
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that we in most cases require the metric to be tested against some other commen framework (``sklearn``, ``scipy`` ect).
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5. Testing is key to keeping ``torchmetrics`` trustworty. This is why we have a very rigid testing protocol. This means
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that we in most cases require the metric to be tested against some other common framework (``sklearn``, ``scipy`` etc).
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1. Create a testing file in ``tests/"domain"/test_"new_metric".py``. Only one file is needed as it is intended to test
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both the functional and module interface
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2. In that file, start by defining a number of test inputs that your metric should be evaluated on
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both the functional and module interface.
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2. In that file, start by defining a number of test inputs that your metric should be evaluated on.
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3. Create a testclass ``class NewMetric(MetricTester)`` that inherits from ``tests.helpers.testers.MetricTester``.
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This testclass should essentially implement the ``test_"new_metric"_class`` and ``test_"new_metric"_fn`` methods that
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respectively tests the module interface and the functional interface.
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4. The testclass should be parametrized (using ``@pytest.mark.parametrize``) by the different test inputs defined initiallly.
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Additionally, the ``test_"new_metric"_class`` method should also be parametrized with an `ddp` parameter such that it gets
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tested in a distributed setting. If your metric has additionally parameters, then make sure to also parametrize these
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such that different combinations of input and parameters gets tested.
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5. (optional) Ff your metrics raises any exceptions, please add tests that showcases this
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4. The testclass should be parameterized (using ``@pytest.mark.parametrize``) by the different test inputs defined initially.
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Additionally, the ``test_"new_metric"_class`` method should also be parameterized with an ``ddp`` parameter such that it gets
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tested in a distributed setting. If your metric has additional parameters, then make sure to also parameterize these
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such that different combinations of inputs and parameters gets tested.
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5. (optional) If your metric raises any exception, please add tests that showcase this.
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.. note::
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The `test file for accuracy <https://github.com/PyTorchLightning/metrics/blob/master/tests/classification/test_accuracy.py>`_ metric
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