Package org.opencv.dnn
Class Net
- java.lang.Object
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- org.opencv.dnn.Net
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public class Net extends java.lang.Object
This class allows to create and manipulate comprehensive artificial neural networks. Neural network is presented as directed acyclic graph (DAG), where vertices are Layer instances, and edges specify relationships between layers inputs and outputs. Each network layer has unique integer id and unique string name inside its network. LayerId can store either layer name or layer id. This class supports reference counting of its instances, i. e. copies point to the same instance.
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Field Summary
Fields Modifier and Type Field Description protected long
nativeObj
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Method Summary
All Methods Static Methods Instance Methods Concrete Methods Modifier and Type Method Description static Net
__fromPtr__(long addr)
void
connect(java.lang.String outPin, java.lang.String inpPin)
Connects output of the first layer to input of the second layer.java.lang.String
dump()
Dump net to Stringvoid
dumpToFile(java.lang.String path)
Dump net structure, hyperparameters, backend, target and fusion to dot fileboolean
empty()
Returns true if there are no layers in the network.void
enableFusion(boolean fusion)
Enables or disables layer fusion in the network.protected void
finalize()
Mat
forward()
Runs forward pass to compute output of layer with nameoutputName
.Mat
forward(java.lang.String outputName)
Runs forward pass to compute output of layer with nameoutputName
.void
forward(java.util.List<Mat> outputBlobs)
Runs forward pass to compute output of layer with nameoutputName
.void
forward(java.util.List<Mat> outputBlobs, java.lang.String outputName)
Runs forward pass to compute output of layer with nameoutputName
.void
forward(java.util.List<Mat> outputBlobs, java.util.List<java.lang.String> outBlobNames)
Runs forward pass to compute outputs of layers listed inoutBlobNames
.long
getFLOPS(int layerId, java.util.List<MatOfInt> netInputShapes)
long
getFLOPS(int layerId, MatOfInt netInputShape)
long
getFLOPS(java.util.List<MatOfInt> netInputShapes)
Computes FLOP for whole loaded model with specified input shapes.long
getFLOPS(MatOfInt netInputShape)
void
getInputDetails(MatOfFloat scales, MatOfInt zeropoints)
Returns input scale and zeropoint for a quantized Net.Layer
getLayer(DictValue layerId)
Returns pointer to layer with specified id or name which the network use.int
getLayerId(java.lang.String layer)
Converts string name of the layer to the integer identifier.java.util.List<java.lang.String>
getLayerNames()
int
getLayersCount(java.lang.String layerType)
Returns count of layers of specified type.void
getLayerTypes(java.util.List<java.lang.String> layersTypes)
Returns list of types for layer used in model.void
getMemoryConsumption(int layerId, java.util.List<MatOfInt> netInputShapes, long[] weights, long[] blobs)
void
getMemoryConsumption(int layerId, MatOfInt netInputShape, long[] weights, long[] blobs)
void
getMemoryConsumption(MatOfInt netInputShape, long[] weights, long[] blobs)
long
getNativeObjAddr()
void
getOutputDetails(MatOfFloat scales, MatOfInt zeropoints)
Returns output scale and zeropoint for a quantized Net.Mat
getParam(DictValue layer)
Returns parameter blob of the layer.Mat
getParam(DictValue layer, int numParam)
Returns parameter blob of the layer.long
getPerfProfile(MatOfDouble timings)
Returns overall time for inference and timings (in ticks) for layers.MatOfInt
getUnconnectedOutLayers()
Returns indexes of layers with unconnected outputs.java.util.List<java.lang.String>
getUnconnectedOutLayersNames()
Returns names of layers with unconnected outputs.Net
quantize(java.util.List<Mat> calibData, int inputsDtype, int outputsDtype)
Returns a quantized Net from a floating-point Net.static Net
readFromModelOptimizer(java.lang.String xml, java.lang.String bin)
Create a network from Intel's Model Optimizer intermediate representation (IR).static Net
readFromModelOptimizer(MatOfByte bufferModelConfig, MatOfByte bufferWeights)
Create a network from Intel's Model Optimizer in-memory buffers with intermediate representation (IR).void
setHalideScheduler(java.lang.String scheduler)
Compile Halide layers.void
setInput(Mat blob)
Sets the new input value for the networkvoid
setInput(Mat blob, java.lang.String name)
Sets the new input value for the networkvoid
setInput(Mat blob, java.lang.String name, double scalefactor)
Sets the new input value for the networkvoid
setInput(Mat blob, java.lang.String name, double scalefactor, Scalar mean)
Sets the new input value for the networkvoid
setInputShape(java.lang.String inputName, MatOfInt shape)
Specify shape of network input.void
setInputsNames(java.util.List<java.lang.String> inputBlobNames)
Sets outputs names of the network input pseudo layer.void
setParam(DictValue layer, int numParam, Mat blob)
Sets the new value for the learned param of the layer.void
setPreferableBackend(int backendId)
Ask network to use specific computation backend where it supported.void
setPreferableTarget(int targetId)
Ask network to make computations on specific target device.
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Method Detail
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getNativeObjAddr
public long getNativeObjAddr()
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__fromPtr__
public static Net __fromPtr__(long addr)
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readFromModelOptimizer
public static Net readFromModelOptimizer(java.lang.String xml, java.lang.String bin)
Create a network from Intel's Model Optimizer intermediate representation (IR).- Parameters:
xml
- XML configuration file with network's topology.bin
- Binary file with trained weights. Networks imported from Intel's Model Optimizer are launched in Intel's Inference Engine backend.- Returns:
- automatically generated
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readFromModelOptimizer
public static Net readFromModelOptimizer(MatOfByte bufferModelConfig, MatOfByte bufferWeights)
Create a network from Intel's Model Optimizer in-memory buffers with intermediate representation (IR).- Parameters:
bufferModelConfig
- buffer with model's configuration.bufferWeights
- buffer with model's trained weights.- Returns:
- Net object.
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empty
public boolean empty()
Returns true if there are no layers in the network.- Returns:
- automatically generated
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dump
public java.lang.String dump()
Dump net to String- Returns:
- String with structure, hyperparameters, backend, target and fusion Call method after setInput(). To see correct backend, target and fusion run after forward().
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dumpToFile
public void dumpToFile(java.lang.String path)
Dump net structure, hyperparameters, backend, target and fusion to dot file- Parameters:
path
- path to output file with .dot extension SEE: dump()
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getLayerId
public int getLayerId(java.lang.String layer)
Converts string name of the layer to the integer identifier.- Parameters:
layer
- automatically generated- Returns:
- id of the layer, or -1 if the layer wasn't found.
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getLayerNames
public java.util.List<java.lang.String> getLayerNames()
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getLayer
public Layer getLayer(DictValue layerId)
Returns pointer to layer with specified id or name which the network use.- Parameters:
layerId
- automatically generated- Returns:
- automatically generated
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connect
public void connect(java.lang.String outPin, java.lang.String inpPin)
Connects output of the first layer to input of the second layer.- Parameters:
outPin
- descriptor of the first layer output.inpPin
- descriptor of the second layer input. Descriptors have the following template <DFN><layer_name>[.input_number]</DFN>: - the first part of the template <DFN>layer_name</DFN> is string name of the added layer. If this part is empty then the network input pseudo layer will be used; - the second optional part of the template <DFN>input_number</DFN> is either number of the layer input, either label one. If this part is omitted then the first layer input will be used. SEE: setNetInputs(), Layer::inputNameToIndex(), Layer::outputNameToIndex()
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setInputsNames
public void setInputsNames(java.util.List<java.lang.String> inputBlobNames)
Sets outputs names of the network input pseudo layer. Each net always has special own the network input pseudo layer with id=0. This layer stores the user blobs only and don't make any computations. In fact, this layer provides the only way to pass user data into the network. As any other layer, this layer can label its outputs and this function provides an easy way to do this.- Parameters:
inputBlobNames
- automatically generated
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setInputShape
public void setInputShape(java.lang.String inputName, MatOfInt shape)
Specify shape of network input.- Parameters:
inputName
- automatically generatedshape
- automatically generated
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forward
public Mat forward(java.lang.String outputName)
Runs forward pass to compute output of layer with nameoutputName
.- Parameters:
outputName
- name for layer which output is needed to get- Returns:
- blob for first output of specified layer. By default runs forward pass for the whole network.
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forward
public Mat forward()
Runs forward pass to compute output of layer with nameoutputName
.- Returns:
- blob for first output of specified layer. By default runs forward pass for the whole network.
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forward
public void forward(java.util.List<Mat> outputBlobs, java.lang.String outputName)
Runs forward pass to compute output of layer with nameoutputName
.- Parameters:
outputBlobs
- contains all output blobs for specified layer.outputName
- name for layer which output is needed to get IfoutputName
is empty, runs forward pass for the whole network.
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forward
public void forward(java.util.List<Mat> outputBlobs)
Runs forward pass to compute output of layer with nameoutputName
.- Parameters:
outputBlobs
- contains all output blobs for specified layer. IfoutputName
is empty, runs forward pass for the whole network.
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forward
public void forward(java.util.List<Mat> outputBlobs, java.util.List<java.lang.String> outBlobNames)
Runs forward pass to compute outputs of layers listed inoutBlobNames
.- Parameters:
outputBlobs
- contains blobs for first outputs of specified layers.outBlobNames
- names for layers which outputs are needed to get
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quantize
public Net quantize(java.util.List<Mat> calibData, int inputsDtype, int outputsDtype)
Returns a quantized Net from a floating-point Net.- Parameters:
calibData
- Calibration data to compute the quantization parameters.inputsDtype
- Datatype of quantized net's inputs. Can be CV_32F or CV_8S.outputsDtype
- Datatype of quantized net's outputs. Can be CV_32F or CV_8S.- Returns:
- automatically generated
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getInputDetails
public void getInputDetails(MatOfFloat scales, MatOfInt zeropoints)
Returns input scale and zeropoint for a quantized Net.- Parameters:
scales
- output parameter for returning input scales.zeropoints
- output parameter for returning input zeropoints.
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getOutputDetails
public void getOutputDetails(MatOfFloat scales, MatOfInt zeropoints)
Returns output scale and zeropoint for a quantized Net.- Parameters:
scales
- output parameter for returning output scales.zeropoints
- output parameter for returning output zeropoints.
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setHalideScheduler
public void setHalideScheduler(java.lang.String scheduler)
Compile Halide layers.- Parameters:
scheduler
- Path to YAML file with scheduling directives. SEE: setPreferableBackend Schedule layers that support Halide backend. Then compile them for specific target. For layers that not represented in scheduling file or if no manual scheduling used at all, automatic scheduling will be applied.
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setPreferableBackend
public void setPreferableBackend(int backendId)
Ask network to use specific computation backend where it supported.- Parameters:
backendId
- backend identifier. SEE: Backend If OpenCV is compiled with Intel's Inference Engine library, DNN_BACKEND_DEFAULT means DNN_BACKEND_INFERENCE_ENGINE. Otherwise it equals to DNN_BACKEND_OPENCV.
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setPreferableTarget
public void setPreferableTarget(int targetId)
Ask network to make computations on specific target device.- Parameters:
targetId
- target identifier. SEE: Target List of supported combinations backend / target: | | DNN_BACKEND_OPENCV | DNN_BACKEND_INFERENCE_ENGINE | DNN_BACKEND_HALIDE | DNN_BACKEND_CUDA | |------------------------|--------------------|------------------------------|--------------------|-------------------| | DNN_TARGET_CPU | + | + | + | | | DNN_TARGET_OPENCL | + | + | + | | | DNN_TARGET_OPENCL_FP16 | + | + | | | | DNN_TARGET_MYRIAD | | + | | | | DNN_TARGET_FPGA | | + | | | | DNN_TARGET_CUDA | | | | + | | DNN_TARGET_CUDA_FP16 | | | | + | | DNN_TARGET_HDDL | | + | | |
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setInput
public void setInput(Mat blob, java.lang.String name, double scalefactor, Scalar mean)
Sets the new input value for the network- Parameters:
blob
- A new blob. Should have CV_32F or CV_8U depth.name
- A name of input layer.scalefactor
- An optional normalization scale.mean
- An optional mean subtraction values. SEE: connect(String, String) to know format of the descriptor. If scale or mean values are specified, a final input blob is computed as: \(input(n,c,h,w) = scalefactor \times (blob(n,c,h,w) - mean_c)\)
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setInput
public void setInput(Mat blob, java.lang.String name, double scalefactor)
Sets the new input value for the network- Parameters:
blob
- A new blob. Should have CV_32F or CV_8U depth.name
- A name of input layer.scalefactor
- An optional normalization scale. SEE: connect(String, String) to know format of the descriptor. If scale or mean values are specified, a final input blob is computed as: \(input(n,c,h,w) = scalefactor \times (blob(n,c,h,w) - mean_c)\)
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setInput
public void setInput(Mat blob, java.lang.String name)
Sets the new input value for the network- Parameters:
blob
- A new blob. Should have CV_32F or CV_8U depth.name
- A name of input layer. SEE: connect(String, String) to know format of the descriptor. If scale or mean values are specified, a final input blob is computed as: \(input(n,c,h,w) = scalefactor \times (blob(n,c,h,w) - mean_c)\)
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setInput
public void setInput(Mat blob)
Sets the new input value for the network- Parameters:
blob
- A new blob. Should have CV_32F or CV_8U depth. SEE: connect(String, String) to know format of the descriptor. If scale or mean values are specified, a final input blob is computed as: \(input(n,c,h,w) = scalefactor \times (blob(n,c,h,w) - mean_c)\)
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setParam
public void setParam(DictValue layer, int numParam, Mat blob)
Sets the new value for the learned param of the layer.- Parameters:
layer
- name or id of the layer.numParam
- index of the layer parameter in the Layer::blobs array.blob
- the new value. SEE: Layer::blobs Note: If shape of the new blob differs from the previous shape, then the following forward pass may fail.
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getParam
public Mat getParam(DictValue layer, int numParam)
Returns parameter blob of the layer.- Parameters:
layer
- name or id of the layer.numParam
- index of the layer parameter in the Layer::blobs array. SEE: Layer::blobs- Returns:
- automatically generated
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getParam
public Mat getParam(DictValue layer)
Returns parameter blob of the layer.- Parameters:
layer
- name or id of the layer. SEE: Layer::blobs- Returns:
- automatically generated
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getUnconnectedOutLayers
public MatOfInt getUnconnectedOutLayers()
Returns indexes of layers with unconnected outputs.- Returns:
- automatically generated
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getUnconnectedOutLayersNames
public java.util.List<java.lang.String> getUnconnectedOutLayersNames()
Returns names of layers with unconnected outputs.- Returns:
- automatically generated
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getFLOPS
public long getFLOPS(java.util.List<MatOfInt> netInputShapes)
Computes FLOP for whole loaded model with specified input shapes.- Parameters:
netInputShapes
- vector of shapes for all net inputs.- Returns:
- computed FLOP.
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getFLOPS
public long getFLOPS(MatOfInt netInputShape)
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getFLOPS
public long getFLOPS(int layerId, java.util.List<MatOfInt> netInputShapes)
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getFLOPS
public long getFLOPS(int layerId, MatOfInt netInputShape)
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getLayerTypes
public void getLayerTypes(java.util.List<java.lang.String> layersTypes)
Returns list of types for layer used in model.- Parameters:
layersTypes
- output parameter for returning types.
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getLayersCount
public int getLayersCount(java.lang.String layerType)
Returns count of layers of specified type.- Parameters:
layerType
- type.- Returns:
- count of layers
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getMemoryConsumption
public void getMemoryConsumption(MatOfInt netInputShape, long[] weights, long[] blobs)
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getMemoryConsumption
public void getMemoryConsumption(int layerId, java.util.List<MatOfInt> netInputShapes, long[] weights, long[] blobs)
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getMemoryConsumption
public void getMemoryConsumption(int layerId, MatOfInt netInputShape, long[] weights, long[] blobs)
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enableFusion
public void enableFusion(boolean fusion)
Enables or disables layer fusion in the network.- Parameters:
fusion
- true to enable the fusion, false to disable. The fusion is enabled by default.
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getPerfProfile
public long getPerfProfile(MatOfDouble timings)
Returns overall time for inference and timings (in ticks) for layers. Indexes in returned vector correspond to layers ids. Some layers can be fused with others, in this case zero ticks count will be return for that skipped layers. Supported by DNN_BACKEND_OPENCV on DNN_TARGET_CPU only.- Parameters:
timings
- vector for tick timings for all layers.- Returns:
- overall ticks for model inference.
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finalize
protected void finalize() throws java.lang.Throwable
- Overrides:
finalize
in classjava.lang.Object
- Throws:
java.lang.Throwable
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