predictor.html

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<article id="content">
<header>
<h1 class="title">Module <code>ktrain.vision.predictor</code></h1>
</header>
<section id="section-intro">
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">from ..imports import *
from ..predictor import Predictor
from .preprocessor import ImagePreprocessor
from .. import utils as U



class ImagePredictor(Predictor):
    &#34;&#34;&#34;
    ```
    predicts image classes
    ```
    &#34;&#34;&#34;

    def __init__(self, model, preproc, batch_size=U.DEFAULT_BS):

        if not isinstance(model, keras.Model):
            raise ValueError(&#39;model must be of instance keras.Model&#39;)
        if not isinstance(preproc, ImagePreprocessor):
            raise ValueError(&#39;preproc must be instance of ImagePreprocessor&#39;)
        self.model = model
        self.preproc = preproc
        self.datagen = self.preproc.get_preprocessor()
        self.c = self.preproc.get_classes()
        self.batch_size = batch_size


    def get_classes(self):
        return self.c


    def explain(self, img_fpath):
        &#34;&#34;&#34;
        ```
        Highlights image to explain prediction
        ```
        &#34;&#34;&#34;
        #if U.is_tf_keras():
            #warnings.warn(&#34;currently_unsupported: explain() method is not available because tf.keras is &#34;+\
                          #&#34;not yet adequately supported by the eli5 library. You can switch to &#34; +\
                          #&#34;stand-alone Keras by setting os.environ[&#39;TF_KERAS&#39;]=&#39;0&#39;&#34; )
            #return

        try:
            import eli5
        except:
            msg = &#39;ktrain requires a forked version of eli5 to support tf.keras. &#39;+\
                  &#39;Install with: pip install https://github.com/amaiya/eli5/archive/refs/heads/tfkeras_0_10_1.zip&#39;
            warnings.warn(msg)
            return

        #if not hasattr(eli5, &#39;KTRAIN&#39;):
        if not hasattr(eli5, &#39;KTRAIN_ELI5_TAG&#39;) or eli5.KTRAIN_ELI5_TAG != KTRAIN_ELI5_TAG:
            warnings.warn(&#34;Since eli5 does not yet support tf.keras, ktrain uses a forked version of eli5.  &#34; +\
                           &#34;We do not detect this forked version (or it is out-of-date), so predictor.explain may not work.  &#34; +\
                           &#34;It will work if you uninstall the current version of eli5 and install &#34;+\
                           &#34;the forked version:  &#34; +\
                           &#34;pip install https://github.com/amaiya/eli5/archive/refs/heads/tfkeras_0_10_1.zip&#34;)
            return

        if not DISABLE_V2_BEHAVIOR:
            warnings.warn(&#34;Please add os.environ[&#39;DISABLE_V2_BEHAVIOR&#39;] = &#39;1&#39; at top of your script or notebook.&#34;)
            msg = &#34;\nFor image classification, the explain method currently requires disabling V2 behavior in TensorFlow 2.\n&#34; +\
                    &#34;Please add the following to the top of your script or notebook BEFORE you import ktrain and restart Colab runtime or Jupyter kernel:\n\n&#34; +\
                  &#34;import os\n&#34; +\
                  &#34;os.environ[&#39;DISABLE_V2_BEHAVIOR&#39;] = &#39;1&#39;\n&#34;
            print(msg)
            return


        img = keras.preprocessing.image.load_img(img_fpath,
                             target_size=self.preproc.target_size,
                             color_mode=self.preproc.color_mode)
        x = keras.preprocessing.image.img_to_array(img)
        x = np.expand_dims(x, axis=0)
        return eli5.show_prediction(self.model, x)




    def predict(self, data, return_proba=False):
        &#34;&#34;&#34;
        ```
        Predicts class from image in array format.
        If return_proba is True, returns probabilities of each class.
        ```
        &#34;&#34;&#34;
        if not isinstance(data, np.ndarray):
            raise ValueError(&#39;data must be numpy.ndarray&#39;)
        (generator, steps) = self.preproc.preprocess(data, batch_size=self.batch_size)
        return self.predict_generator(generator, steps=steps, return_proba=return_proba)


    def predict_filename(self, img_path, return_proba=False):
        &#34;&#34;&#34;
        ```
        Predicts class from filepath to single image file.
        If return_proba is True, returns probabilities of each class.
        ```
        &#34;&#34;&#34;
        if not os.path.isfile(img_path): raise ValueError(&#39;img_path must be valid file&#39;)
        (generator, steps) = self.preproc.preprocess(img_path, batch_size=self.batch_size)
        return self.predict_generator(generator, steps=steps, return_proba=return_proba)


    def predict_folder(self, folder, return_proba=False):
        &#34;&#34;&#34;
        ```
        Predicts the classes of all images in a folder.
        If return_proba is True, returns probabilities of each class.
        ```

        &#34;&#34;&#34;
        if not os.path.isdir(folder): raise ValueError(&#39;folder must be valid directory&#39;)
        (generator, steps) = self.preproc.preprocess(folder, batch_size=self.batch_size)
        result = self.predict_generator(generator, steps=steps, return_proba=return_proba)
        if len(result) != len(generator.filenames):
            raise Exception(&#39;number of results does not equal number of filenames&#39;)
        return list(zip(generator.filenames, result))


    def predict_generator(self, generator, steps=None, return_proba=False):
        #loss = self.model.loss
        #if callable(loss): loss = loss.__name__
        #treat_multilabel = False
        #if loss != &#39;categorical_crossentropy&#39; and not return_proba:
        #    return_proba=True
        #    treat_multilabel = True
        classification, multilabel = U.is_classifier(self.model)
        if not classification: return_proba=True
        # *_generator methods are deprecated from TF 2.1.0
        #preds =  self.model.predict_generator(generator, steps=steps)
        preds =  self.model.predict(generator, steps=steps)
        result =  preds if return_proba or multilabel else [self.c[np.argmax(pred)] for pred in preds]
        if multilabel and not return_proba:
            return [list(zip(self.c, r)) for r in result]
        if not classification:
            return np.squeeze(result, axis=1)
        else:
            return result


    def predict_proba(self, data):
        return self.predict(data, return_proba=True)


    def predict_proba_folder(self, folder):
        return self.predict_folder(folder, return_proba=True)


    def predict_proba_filename(self, img_path):
        return self.predict_filename(img_path, return_proba=True)


    def predict_proba_generator(self, generator, steps=None):
        return self.predict_proba_generator(generator, steps=steps, return_proba=True)



    def analyze_valid(self, generator, print_report=True, multilabel=None):
        &#34;&#34;&#34;
        ```
        Makes predictions on validation set and returns the confusion matrix.
        Accepts as input a genrator (e.g., DirectoryIterator, DataframeIterator)
        representing the validation set.


        Optionally prints a classification report.
        Currently, this method is only supported for binary and multiclass
        problems, not multilabel classification problems.
        ```
        &#34;&#34;&#34;
        if multilabel is None:
            multilabel = U.is_multilabel(generator)
        if multilabel:
            warnings.warn(&#39;multilabel_confusion_matrix not yet supported - skipping&#39;)
            return

        y_true = generator.classes
        # *_generator methods are deprecated from TF 2.1.0
        #y_pred = self.model.predict_generator(generator)
        y_pred = self.model.predict(generator)
        y_pred = np.argmax(y_pred, axis=1)
        if print_report:
            print(classification_report(y_true, y_pred, target_names=self.c))
        if not multilabel:
            cm_func = confusion_matrix
            cm =  cm_func(y_true,  y_pred)
        else:
            cm = None
        return cm


    def _save_preproc(self, fpath):
        preproc_name = &#39;tf_model.preproc&#39;
        with open(os.path.join(fpath, preproc_name), &#39;wb&#39;) as f:
            datagen = self.preproc.get_preprocessor()
            pfunc = datagen.preprocessing_function
            datagen.preprocessing_function = None
            pickle.dump(self.preproc, f)
            datagen.preprocessing_function = pfunc
        return</code></pre>
</details>
</section>
<section>
</section>
<section>
</section>
<section>
</section>
<section>
<h2 class="section-title" id="header-classes">Classes</h2>
<dl>
<dt id="ktrain.vision.predictor.ImagePredictor"><code class="flex name class">
<span>class <span class="ident">ImagePredictor</span></span>
<span>(</span><span>model, preproc, batch_size=32)</span>
</code></dt>
<dd>
<div class="desc"><pre><code>predicts image classes
</code></pre></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">class ImagePredictor(Predictor):
    &#34;&#34;&#34;
    ```
    predicts image classes
    ```
    &#34;&#34;&#34;

    def __init__(self, model, preproc, batch_size=U.DEFAULT_BS):

        if not isinstance(model, keras.Model):
            raise ValueError(&#39;model must be of instance keras.Model&#39;)
        if not isinstance(preproc, ImagePreprocessor):
            raise ValueError(&#39;preproc must be instance of ImagePreprocessor&#39;)
        self.model = model
        self.preproc = preproc
        self.datagen = self.preproc.get_preprocessor()
        self.c = self.preproc.get_classes()
        self.batch_size = batch_size


    def get_classes(self):
        return self.c


    def explain(self, img_fpath):
        &#34;&#34;&#34;
        ```
        Highlights image to explain prediction
        ```
        &#34;&#34;&#34;
        #if U.is_tf_keras():
            #warnings.warn(&#34;currently_unsupported: explain() method is not available because tf.keras is &#34;+\
                          #&#34;not yet adequately supported by the eli5 library. You can switch to &#34; +\
                          #&#34;stand-alone Keras by setting os.environ[&#39;TF_KERAS&#39;]=&#39;0&#39;&#34; )
            #return

        try:
            import eli5
        except:
            msg = &#39;ktrain requires a forked version of eli5 to support tf.keras. &#39;+\
                  &#39;Install with: pip install https://github.com/amaiya/eli5/archive/refs/heads/tfkeras_0_10_1.zip&#39;
            warnings.warn(msg)
            return

        #if not hasattr(eli5, &#39;KTRAIN&#39;):
        if not hasattr(eli5, &#39;KTRAIN_ELI5_TAG&#39;) or eli5.KTRAIN_ELI5_TAG != KTRAIN_ELI5_TAG:
            warnings.warn(&#34;Since eli5 does not yet support tf.keras, ktrain uses a forked version of eli5.  &#34; +\
                           &#34;We do not detect this forked version (or it is out-of-date), so predictor.explain may not work.  &#34; +\
                           &#34;It will work if you uninstall the current version of eli5 and install &#34;+\
                           &#34;the forked version:  &#34; +\
                           &#34;pip install https://github.com/amaiya/eli5/archive/refs/heads/tfkeras_0_10_1.zip&#34;)
            return

        if not DISABLE_V2_BEHAVIOR:
            warnings.warn(&#34;Please add os.environ[&#39;DISABLE_V2_BEHAVIOR&#39;] = &#39;1&#39; at top of your script or notebook.&#34;)
            msg = &#34;\nFor image classification, the explain method currently requires disabling V2 behavior in TensorFlow 2.\n&#34; +\
                    &#34;Please add the following to the top of your script or notebook BEFORE you import ktrain and restart Colab runtime or Jupyter kernel:\n\n&#34; +\
                  &#34;import os\n&#34; +\
                  &#34;os.environ[&#39;DISABLE_V2_BEHAVIOR&#39;] = &#39;1&#39;\n&#34;
            print(msg)
            return


        img = keras.preprocessing.image.load_img(img_fpath,
                             target_size=self.preproc.target_size,
                             color_mode=self.preproc.color_mode)
        x = keras.preprocessing.image.img_to_array(img)
        x = np.expand_dims(x, axis=0)
        return eli5.show_prediction(self.model, x)




    def predict(self, data, return_proba=False):
        &#34;&#34;&#34;
        ```
        Predicts class from image in array format.
        If return_proba is True, returns probabilities of each class.
        ```
        &#34;&#34;&#34;
        if not isinstance(data, np.ndarray):
            raise ValueError(&#39;data must be numpy.ndarray&#39;)
        (generator, steps) = self.preproc.preprocess(data, batch_size=self.batch_size)
        return self.predict_generator(generator, steps=steps, return_proba=return_proba)


    def predict_filename(self, img_path, return_proba=False):
        &#34;&#34;&#34;
        ```
        Predicts class from filepath to single image file.
        If return_proba is True, returns probabilities of each class.
        ```
        &#34;&#34;&#34;
        if not os.path.isfile(img_path): raise ValueError(&#39;img_path must be valid file&#39;)
        (generator, steps) = self.preproc.preprocess(img_path, batch_size=self.batch_size)
        return self.predict_generator(generator, steps=steps, return_proba=return_proba)


    def predict_folder(self, folder, return_proba=False):
        &#34;&#34;&#34;
        ```
        Predicts the classes of all images in a folder.
        If return_proba is True, returns probabilities of each class.
        ```

        &#34;&#34;&#34;
        if not os.path.isdir(folder): raise ValueError(&#39;folder must be valid directory&#39;)
        (generator, steps) = self.preproc.preprocess(folder, batch_size=self.batch_size)
        result = self.predict_generator(generator, steps=steps, return_proba=return_proba)
        if len(result) != len(generator.filenames):
            raise Exception(&#39;number of results does not equal number of filenames&#39;)
        return list(zip(generator.filenames, result))


    def predict_generator(self, generator, steps=None, return_proba=False):
        #loss = self.model.loss
        #if callable(loss): loss = loss.__name__
        #treat_multilabel = False
        #if loss != &#39;categorical_crossentropy&#39; and not return_proba:
        #    return_proba=True
        #    treat_multilabel = True
        classification, multilabel = U.is_classifier(self.model)
        if not classification: return_proba=True
        # *_generator methods are deprecated from TF 2.1.0
        #preds =  self.model.predict_generator(generator, steps=steps)
        preds =  self.model.predict(generator, steps=steps)
        result =  preds if return_proba or multilabel else [self.c[np.argmax(pred)] for pred in preds]
        if multilabel and not return_proba:
            return [list(zip(self.c, r)) for r in result]
        if not classification:
            return np.squeeze(result, axis=1)
        else:
            return result


    def predict_proba(self, data):
        return self.predict(data, return_proba=True)


    def predict_proba_folder(self, folder):
        return self.predict_folder(folder, return_proba=True)


    def predict_proba_filename(self, img_path):
        return self.predict_filename(img_path, return_proba=True)


    def predict_proba_generator(self, generator, steps=None):
        return self.predict_proba_generator(generator, steps=steps, return_proba=True)



    def analyze_valid(self, generator, print_report=True, multilabel=None):
        &#34;&#34;&#34;
        ```
        Makes predictions on validation set and returns the confusion matrix.
        Accepts as input a genrator (e.g., DirectoryIterator, DataframeIterator)
        representing the validation set.


        Optionally prints a classification report.
        Currently, this method is only supported for binary and multiclass
        problems, not multilabel classification problems.
        ```
        &#34;&#34;&#34;
        if multilabel is None:
            multilabel = U.is_multilabel(generator)
        if multilabel:
            warnings.warn(&#39;multilabel_confusion_matrix not yet supported - skipping&#39;)
            return

        y_true = generator.classes
        # *_generator methods are deprecated from TF 2.1.0
        #y_pred = self.model.predict_generator(generator)
        y_pred = self.model.predict(generator)
        y_pred = np.argmax(y_pred, axis=1)
        if print_report:
            print(classification_report(y_true, y_pred, target_names=self.c))
        if not multilabel:
            cm_func = confusion_matrix
            cm =  cm_func(y_true,  y_pred)
        else:
            cm = None
        return cm


    def _save_preproc(self, fpath):
        preproc_name = &#39;tf_model.preproc&#39;
        with open(os.path.join(fpath, preproc_name), &#39;wb&#39;) as f:
            datagen = self.preproc.get_preprocessor()
            pfunc = datagen.preprocessing_function
            datagen.preprocessing_function = None
            pickle.dump(self.preproc, f)
            datagen.preprocessing_function = pfunc
        return</code></pre>
</details>
<h3>Ancestors</h3>
<ul class="hlist">
<li><a title="ktrain.predictor.Predictor" href="../predictor.html#ktrain.predictor.Predictor">Predictor</a></li>
<li>abc.ABC</li>
</ul>
<h3>Methods</h3>
<dl>
<dt id="ktrain.vision.predictor.ImagePredictor.analyze_valid"><code class="name flex">
<span>def <span class="ident">analyze_valid</span></span>(<span>self, generator, print_report=True, multilabel=None)</span>
</code></dt>
<dd>
<div class="desc"><pre><code>Makes predictions on validation set and returns the confusion matrix.
Accepts as input a genrator (e.g., DirectoryIterator, DataframeIterator)
representing the validation set.


Optionally prints a classification report.
Currently, this method is only supported for binary and multiclass
problems, not multilabel classification problems.
</code></pre></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def analyze_valid(self, generator, print_report=True, multilabel=None):
    &#34;&#34;&#34;
    ```
    Makes predictions on validation set and returns the confusion matrix.
    Accepts as input a genrator (e.g., DirectoryIterator, DataframeIterator)
    representing the validation set.


    Optionally prints a classification report.
    Currently, this method is only supported for binary and multiclass
    problems, not multilabel classification problems.
    ```
    &#34;&#34;&#34;
    if multilabel is None:
        multilabel = U.is_multilabel(generator)
    if multilabel:
        warnings.warn(&#39;multilabel_confusion_matrix not yet supported - skipping&#39;)
        return

    y_true = generator.classes
    # *_generator methods are deprecated from TF 2.1.0
    #y_pred = self.model.predict_generator(generator)
    y_pred = self.model.predict(generator)
    y_pred = np.argmax(y_pred, axis=1)
    if print_report:
        print(classification_report(y_true, y_pred, target_names=self.c))
    if not multilabel:
        cm_func = confusion_matrix
        cm =  cm_func(y_true,  y_pred)
    else:
        cm = None
    return cm</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.explain"><code class="name flex">
<span>def <span class="ident">explain</span></span>(<span>self, img_fpath)</span>
</code></dt>
<dd>
<div class="desc"><pre><code>Highlights image to explain prediction
</code></pre></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def explain(self, img_fpath):
    &#34;&#34;&#34;
    ```
    Highlights image to explain prediction
    ```
    &#34;&#34;&#34;
    #if U.is_tf_keras():
        #warnings.warn(&#34;currently_unsupported: explain() method is not available because tf.keras is &#34;+\
                      #&#34;not yet adequately supported by the eli5 library. You can switch to &#34; +\
                      #&#34;stand-alone Keras by setting os.environ[&#39;TF_KERAS&#39;]=&#39;0&#39;&#34; )
        #return

    try:
        import eli5
    except:
        msg = &#39;ktrain requires a forked version of eli5 to support tf.keras. &#39;+\
              &#39;Install with: pip install https://github.com/amaiya/eli5/archive/refs/heads/tfkeras_0_10_1.zip&#39;
        warnings.warn(msg)
        return

    #if not hasattr(eli5, &#39;KTRAIN&#39;):
    if not hasattr(eli5, &#39;KTRAIN_ELI5_TAG&#39;) or eli5.KTRAIN_ELI5_TAG != KTRAIN_ELI5_TAG:
        warnings.warn(&#34;Since eli5 does not yet support tf.keras, ktrain uses a forked version of eli5.  &#34; +\
                       &#34;We do not detect this forked version (or it is out-of-date), so predictor.explain may not work.  &#34; +\
                       &#34;It will work if you uninstall the current version of eli5 and install &#34;+\
                       &#34;the forked version:  &#34; +\
                       &#34;pip install https://github.com/amaiya/eli5/archive/refs/heads/tfkeras_0_10_1.zip&#34;)
        return

    if not DISABLE_V2_BEHAVIOR:
        warnings.warn(&#34;Please add os.environ[&#39;DISABLE_V2_BEHAVIOR&#39;] = &#39;1&#39; at top of your script or notebook.&#34;)
        msg = &#34;\nFor image classification, the explain method currently requires disabling V2 behavior in TensorFlow 2.\n&#34; +\
                &#34;Please add the following to the top of your script or notebook BEFORE you import ktrain and restart Colab runtime or Jupyter kernel:\n\n&#34; +\
              &#34;import os\n&#34; +\
              &#34;os.environ[&#39;DISABLE_V2_BEHAVIOR&#39;] = &#39;1&#39;\n&#34;
        print(msg)
        return


    img = keras.preprocessing.image.load_img(img_fpath,
                         target_size=self.preproc.target_size,
                         color_mode=self.preproc.color_mode)
    x = keras.preprocessing.image.img_to_array(img)
    x = np.expand_dims(x, axis=0)
    return eli5.show_prediction(self.model, x)</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.get_classes"><code class="name flex">
<span>def <span class="ident">get_classes</span></span>(<span>self)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def get_classes(self):
    return self.c</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict"><code class="name flex">
<span>def <span class="ident">predict</span></span>(<span>self, data, return_proba=False)</span>
</code></dt>
<dd>
<div class="desc"><pre><code>Predicts class from image in array format.
If return_proba is True, returns probabilities of each class.
</code></pre></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict(self, data, return_proba=False):
    &#34;&#34;&#34;
    ```
    Predicts class from image in array format.
    If return_proba is True, returns probabilities of each class.
    ```
    &#34;&#34;&#34;
    if not isinstance(data, np.ndarray):
        raise ValueError(&#39;data must be numpy.ndarray&#39;)
    (generator, steps) = self.preproc.preprocess(data, batch_size=self.batch_size)
    return self.predict_generator(generator, steps=steps, return_proba=return_proba)</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_filename"><code class="name flex">
<span>def <span class="ident">predict_filename</span></span>(<span>self, img_path, return_proba=False)</span>
</code></dt>
<dd>
<div class="desc"><pre><code>Predicts class from filepath to single image file.
If return_proba is True, returns probabilities of each class.
</code></pre></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_filename(self, img_path, return_proba=False):
    &#34;&#34;&#34;
    ```
    Predicts class from filepath to single image file.
    If return_proba is True, returns probabilities of each class.
    ```
    &#34;&#34;&#34;
    if not os.path.isfile(img_path): raise ValueError(&#39;img_path must be valid file&#39;)
    (generator, steps) = self.preproc.preprocess(img_path, batch_size=self.batch_size)
    return self.predict_generator(generator, steps=steps, return_proba=return_proba)</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_folder"><code class="name flex">
<span>def <span class="ident">predict_folder</span></span>(<span>self, folder, return_proba=False)</span>
</code></dt>
<dd>
<div class="desc"><pre><code>Predicts the classes of all images in a folder.
If return_proba is True, returns probabilities of each class.
</code></pre></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_folder(self, folder, return_proba=False):
    &#34;&#34;&#34;
    ```
    Predicts the classes of all images in a folder.
    If return_proba is True, returns probabilities of each class.
    ```

    &#34;&#34;&#34;
    if not os.path.isdir(folder): raise ValueError(&#39;folder must be valid directory&#39;)
    (generator, steps) = self.preproc.preprocess(folder, batch_size=self.batch_size)
    result = self.predict_generator(generator, steps=steps, return_proba=return_proba)
    if len(result) != len(generator.filenames):
        raise Exception(&#39;number of results does not equal number of filenames&#39;)
    return list(zip(generator.filenames, result))</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_generator"><code class="name flex">
<span>def <span class="ident">predict_generator</span></span>(<span>self, generator, steps=None, return_proba=False)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_generator(self, generator, steps=None, return_proba=False):
    #loss = self.model.loss
    #if callable(loss): loss = loss.__name__
    #treat_multilabel = False
    #if loss != &#39;categorical_crossentropy&#39; and not return_proba:
    #    return_proba=True
    #    treat_multilabel = True
    classification, multilabel = U.is_classifier(self.model)
    if not classification: return_proba=True
    # *_generator methods are deprecated from TF 2.1.0
    #preds =  self.model.predict_generator(generator, steps=steps)
    preds =  self.model.predict(generator, steps=steps)
    result =  preds if return_proba or multilabel else [self.c[np.argmax(pred)] for pred in preds]
    if multilabel and not return_proba:
        return [list(zip(self.c, r)) for r in result]
    if not classification:
        return np.squeeze(result, axis=1)
    else:
        return result</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_proba"><code class="name flex">
<span>def <span class="ident">predict_proba</span></span>(<span>self, data)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_proba(self, data):
    return self.predict(data, return_proba=True)</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_proba_filename"><code class="name flex">
<span>def <span class="ident">predict_proba_filename</span></span>(<span>self, img_path)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_proba_filename(self, img_path):
    return self.predict_filename(img_path, return_proba=True)</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_proba_folder"><code class="name flex">
<span>def <span class="ident">predict_proba_folder</span></span>(<span>self, folder)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_proba_folder(self, folder):
    return self.predict_folder(folder, return_proba=True)</code></pre>
</details>
</dd>
<dt id="ktrain.vision.predictor.ImagePredictor.predict_proba_generator"><code class="name flex">
<span>def <span class="ident">predict_proba_generator</span></span>(<span>self, generator, steps=None)</span>
</code></dt>
<dd>
<div class="desc"></div>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def predict_proba_generator(self, generator, steps=None):
    return self.predict_proba_generator(generator, steps=steps, return_proba=True)</code></pre>
</details>
</dd>
</dl>
<h3>Inherited members</h3>
<ul class="hlist">
<li><code><b><a title="ktrain.predictor.Predictor" href="../predictor.html#ktrain.predictor.Predictor">Predictor</a></b></code>:
<ul class="hlist">
<li><code><a title="ktrain.predictor.Predictor.create_onnx_session" href="../predictor.html#ktrain.predictor.Predictor.create_onnx_session">create_onnx_session</a></code></li>
<li><code><a title="ktrain.predictor.Predictor.export_model_to_onnx" href="../predictor.html#ktrain.predictor.Predictor.export_model_to_onnx">export_model_to_onnx</a></code></li>
<li><code><a title="ktrain.predictor.Predictor.export_model_to_tflite" href="../predictor.html#ktrain.predictor.Predictor.export_model_to_tflite">export_model_to_tflite</a></code></li>
<li><code><a title="ktrain.predictor.Predictor.save" href="../predictor.html#ktrain.predictor.Predictor.save">save</a></code></li>
</ul>
</li>
</ul>
</dd>
</dl>
</section>
</article>
<nav id="sidebar">
<h1>Index</h1>
<div class="toc">
<ul></ul>
</div>
<ul id="index">
<li><h3>Super-module</h3>
<ul>
<li><code><a title="ktrain.vision" href="index.html">ktrain.vision</a></code></li>
</ul>
</li>
<li><h3><a href="#header-classes">Classes</a></h3>
<ul>
<li>
<h4><code><a title="ktrain.vision.predictor.ImagePredictor" href="#ktrain.vision.predictor.ImagePredictor">ImagePredictor</a></code></h4>
<ul class="">
<li><code><a title="ktrain.vision.predictor.ImagePredictor.analyze_valid" href="#ktrain.vision.predictor.ImagePredictor.analyze_valid">analyze_valid</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.explain" href="#ktrain.vision.predictor.ImagePredictor.explain">explain</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.get_classes" href="#ktrain.vision.predictor.ImagePredictor.get_classes">get_classes</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict" href="#ktrain.vision.predictor.ImagePredictor.predict">predict</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_filename" href="#ktrain.vision.predictor.ImagePredictor.predict_filename">predict_filename</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_folder" href="#ktrain.vision.predictor.ImagePredictor.predict_folder">predict_folder</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_generator" href="#ktrain.vision.predictor.ImagePredictor.predict_generator">predict_generator</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_proba" href="#ktrain.vision.predictor.ImagePredictor.predict_proba">predict_proba</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_proba_filename" href="#ktrain.vision.predictor.ImagePredictor.predict_proba_filename">predict_proba_filename</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_proba_folder" href="#ktrain.vision.predictor.ImagePredictor.predict_proba_folder">predict_proba_folder</a></code></li>
<li><code><a title="ktrain.vision.predictor.ImagePredictor.predict_proba_generator" href="#ktrain.vision.predictor.ImagePredictor.predict_proba_generator">predict_proba_generator</a></code></li>
</ul>
</li>
</ul>
</li>
</ul>
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