Create output_onnx_single_probability.py

docs/examples/output_onnx_single_probability.py

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+from skl2onnx import convert_sklearn
+from skl2onnx.common.data_types import FloatTensorType
+import onnx
+import onnx.helper as helper
+
+# Convert a RandomForestClassifier() model to ONNX format such that it outputs a single probability as a float32.
+# This code reshapes the output to ensure it is a single float32 value instead of a tuple of probabilities
+
+
+# Configuration options to set the model to be converted and the output filename
+# Set the model to be converted (e.g., RandomForest classifier)
+model_to_convert = rfc  # Replace with the model you want to convert
+
+# Set the output filename for the modified ONNX model
+output_filename = "output_file.onnx"  # Replace with your desired output filename
+
+# Step 1: Convert the model to ONNX format, disabling the output of labels.
+# Define the input type for the ONNX model. The input type is a float tensor with shape
+# [None, X_test.shape[1]], where None indicates that the number of input samples can be flexible,
+# and X_test.shape[1] is the number of features for each input sample.
+# A "tensor" is essentially a multi-dimensional array, commonly used in machine learning to represent data.
+# A "float tensor" specifically contains floating-point numbers, which are numbers with decimals.
+initial_type = [('float_input', FloatTensorType([None, X_test.shape[1]]))]
+
+# Convert the model to ONNX format.
+# - target_opset=12 specifies the version of ONNX operators to use.
+# - options={...} sets parameters for the conversion:
+#   - "zipmap": False ensures that the output is a raw array of probabilities instead of a dictionary.
+#   - "output_class_labels": False ensures that the output contains only probabilities, not class labels.
+# ONNX (Open Neural Network Exchange) is an open format for representing machine learning models.
+# It allows interoperability between different machine learning frameworks, enabling the use of models across various platforms.
+onx = convert_sklearn(
+    model_to_convert,
+    initial_types=initial_type,
+    target_opset=12,
+    options={id(model_to_convert): {"zipmap": False, "output_class_labels": False}}  # Ensures the output is only probabilities, not labels
+)
+
+# Step 2: Load the ONNX model for further modifications if needed
+# Load the ONNX model from the serialized string representation.
+# An ONNX file is essentially a serialized representation of a machine learning model that can be shared and used across different systems.
+onnx_model = onnx.load_model_from_string(onx.SerializeToString())
+
+# Assuming the first output in this model should be the probability tensor
+# Extract the name of the output tensor representing the probabilities.
+# If there are multiple outputs, select the second one, otherwise, select the first.
+prob_output_name = onnx_model.graph.output[1].name if len(onnx_model.graph.output) > 1 else onnx_model.graph.output[0].name
+
+# Add a Gather node to extract only the probability of the positive class (index 1)
+# Create a tensor to specify the index to gather (index 1), which represents the positive class.
+indices = helper.make_tensor("indices", onnx.TensorProto.INT64, (1,), [1])  # Index 1 to gather positive class
+
+# Create a "Gather" node in the ONNX graph to extract the probability of the positive class.
+# - inputs: [prob_output_name, "indices"] specify the inputs to this node (probability tensor and index tensor).
+# - outputs: ["positive_class_prob"] specify the name of the output of this node.
+# - axis=1 indicates gathering along the columns (features) of the probability tensor.
+# A "Gather" node is used to extract specific elements from a tensor. Here, it extracts the probability for the positive class.
+gather_node = helper.make_node(
+    "Gather",
+    inputs=[prob_output_name, "indices"],
+    outputs=["positive_class_prob"],
+    axis=1  # Gather along columns (axis 1)
+)
+
+# Add the Gather node to the ONNX graph
+onnx_model.graph.node.append(gather_node)
+
+# Add the tensor initializer for indices (needed for the Gather node)
+# Initializers in ONNX are used to define constant tensors that are used in the computation.
+onnx_model.graph.initializer.append(indices)
+
+# Remove existing outputs and add only the new output for the positive class probability
+# Clear the existing output definitions to replace them with the new output.
+while len(onnx_model.graph.output) > 0:
+    onnx_model.graph.output.pop()
+
+# Define new output for the positive class probability
+# Create a new output tensor specification with the name "positive_class_prob".
+positive_class_output = helper.make_tensor_value_info("positive_class_prob", onnx.TensorProto.FLOAT, [None, 1])
+onnx_model.graph.output.append(positive_class_output)
+
+# Step 3: Save the modified ONNX model
+# Save the modified ONNX model to the specified output filename.
+# The resulting ONNX file can then be loaded and used in different environments that support ONNX, such as inference servers or other machine learning frameworks.
+with open(output_filename, "wb") as f:
+    f.write(onnx_model.SerializeToString())