tf.compat.v1.metrics.precision_at_k
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Computes precision@k of the predictions with respect to sparse labels.
tf.compat.v1.metrics.precision_at_k(
labels,
predictions,
k,
class_id=None,
weights=None,
metrics_collections=None,
updates_collections=None,
name=None
)
If class_id is specified, we calculate precision by considering only the
entries in the batch for which class_id is in the top-k highest
predictions, and computing the fraction of them for which class_id is
indeed a correct label.
If class_id is not specified, we'll calculate precision as how often on
average a class among the top-k classes with the highest predicted values
of a batch entry is correct and can be found in the label for that entry.
precision_at_k creates two local variables,
true_positive_at_<k> and false_positive_at_<k>, that are used to compute
the precision@k frequency. This frequency is ultimately returned as
precision_at_<k>: an idempotent operation that simply divides
true_positive_at_<k> by total (true_positive_at_<k> +
false_positive_at_<k>).
For estimation of the metric over a stream of data, the function creates an
update_op operation that updates these variables and returns the
precision_at_<k>. Internally, a top_k operation computes a Tensor
indicating the top k predictions. Set operations applied to top_k and
labels calculate the true positives and false positives weighted by
weights. Then update_op increments true_positive_at_<k> and
false_positive_at_<k> using these values.
If weights is None, weights default to 1. Use weights of 0 to mask values.
Args |
|---|
labels
|
int64 Tensor or SparseTensor with shape
[D1, ... DN, num_labels] or [D1, ... DN], where the latter implies
num_labels=1. N >= 1 and num_labels is the number of target classes for
the associated prediction. Commonly, N=1 and labels has shape
[batch_size, num_labels]. [D1, ... DN] must match predictions. Values
should be in range [0, num_classes), where num_classes is the last
dimension of predictions. Values outside this range are ignored.
|
predictions
|
Float Tensor with shape [D1, ... DN, num_classes] where
N >= 1. Commonly, N=1 and predictions has shape [batch size, num_classes].
The final dimension contains the logit values for each class. [D1, ... DN]
must match labels.
|
k
|
Integer, k for @k metric.
|
class_id
|
Integer class ID for which we want binary metrics. This should be
in range [0, num_classes], where num_classes is the last dimension of
predictions. If class_id is outside this range, the method returns
NAN.
|
weights
|
Tensor whose rank is either 0, or n-1, where n is the rank of
labels. If the latter, it must be broadcastable to labels (i.e., all
dimensions must be either 1, or the same as the corresponding labels
dimension).
|
metrics_collections
|
An optional list of collections that values should
be added to.
|
updates_collections
|
An optional list of collections that updates should
be added to.
|
name
|
Name of new update operation, and namespace for other dependent ops.
|
Returns |
|---|
precision
|
Scalar float64 Tensor with the value of true_positives
divided by the sum of true_positives and false_positives.
|
update_op
|
Operation that increments true_positives and
false_positives variables appropriately, and whose value matches
precision.
|
Raises |
|---|
ValueError
|
If weights is not None and its shape doesn't match
predictions, or if either metrics_collections or updates_collections
are not a list or tuple.
|
RuntimeError
|
If eager execution is enabled.
|
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Last updated 2024-04-26 UTC.
[null,null,["Last updated 2024-04-26 UTC."],[],[],null,["# tf.compat.v1.metrics.precision_at_k\n\n\u003cbr /\u003e\n\n|----------------------------------------------------------------------------------------------------------------------------------|\n| [View source on GitHub](https://github.com/tensorflow/tensorflow/blob/v2.16.1/tensorflow/python/ops/metrics_impl.py#L3720-L3811) |\n\nComputes precision@k of the predictions with respect to sparse labels. \n\n tf.compat.v1.metrics.precision_at_k(\n labels,\n predictions,\n k,\n class_id=None,\n weights=None,\n metrics_collections=None,\n updates_collections=None,\n name=None\n )\n\nIf `class_id` is specified, we calculate precision by considering only the\nentries in the batch for which `class_id` is in the top-k highest\n`predictions`, and computing the fraction of them for which `class_id` is\nindeed a correct label.\nIf `class_id` is not specified, we'll calculate precision as how often on\naverage a class among the top-k classes with the highest predicted values\nof a batch entry is correct and can be found in the label for that entry.\n\n`precision_at_k` creates two local variables,\n`true_positive_at_\u003ck\u003e` and `false_positive_at_\u003ck\u003e`, that are used to compute\nthe precision@k frequency. This frequency is ultimately returned as\n`precision_at_\u003ck\u003e`: an idempotent operation that simply divides\n`true_positive_at_\u003ck\u003e` by total (`true_positive_at_\u003ck\u003e` +\n`false_positive_at_\u003ck\u003e`).\n\nFor estimation of the metric over a stream of data, the function creates an\n`update_op` operation that updates these variables and returns the\n`precision_at_\u003ck\u003e`. Internally, a `top_k` operation computes a `Tensor`\nindicating the top `k` `predictions`. Set operations applied to `top_k` and\n`labels` calculate the true positives and false positives weighted by\n`weights`. Then `update_op` increments `true_positive_at_\u003ck\u003e` and\n`false_positive_at_\u003ck\u003e` using these values.\n\nIf `weights` is `None`, weights default to 1. Use weights of 0 to mask values.\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Args ---- ||\n|-----------------------|----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `labels` | `int64` `Tensor` or `SparseTensor` with shape \\[D1, ... DN, num_labels\\] or \\[D1, ... DN\\], where the latter implies num_labels=1. N \\\u003e= 1 and num_labels is the number of target classes for the associated prediction. Commonly, N=1 and `labels` has shape \\[batch_size, num_labels\\]. \\[D1, ... DN\\] must match `predictions`. Values should be in range \\[0, num_classes), where num_classes is the last dimension of `predictions`. Values outside this range are ignored. |\n| `predictions` | Float `Tensor` with shape \\[D1, ... DN, num_classes\\] where N \\\u003e= 1. Commonly, N=1 and predictions has shape \\[batch size, num_classes\\]. The final dimension contains the logit values for each class. \\[D1, ... DN\\] must match `labels`. |\n| `k` | Integer, k for @k metric. |\n| `class_id` | Integer class ID for which we want binary metrics. This should be in range \\[0, num_classes\\], where num_classes is the last dimension of `predictions`. If `class_id` is outside this range, the method returns NAN. |\n| `weights` | `Tensor` whose rank is either 0, or n-1, where n is the rank of `labels`. If the latter, it must be broadcastable to `labels` (i.e., all dimensions must be either `1`, or the same as the corresponding `labels` dimension). |\n| `metrics_collections` | An optional list of collections that values should be added to. |\n| `updates_collections` | An optional list of collections that updates should be added to. |\n| `name` | Name of new update operation, and namespace for other dependent ops. |\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Returns ------- ||\n|-------------|----------------------------------------------------------------------------------------------------------------------------------|\n| `precision` | Scalar `float64` `Tensor` with the value of `true_positives` divided by the sum of `true_positives` and `false_positives`. |\n| `update_op` | `Operation` that increments `true_positives` and `false_positives` variables appropriately, and whose value matches `precision`. |\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n\u003cbr /\u003e\n\n| Raises ------ ||\n|----------------|------------------------------------------------------------------------------------------------------------------------------------------------------------|\n| `ValueError` | If `weights` is not `None` and its shape doesn't match `predictions`, or if either `metrics_collections` or `updates_collections` are not a list or tuple. |\n| `RuntimeError` | If eager execution is enabled. |\n\n\u003cbr /\u003e"]]
View source on GitHub