//
// This file is auto-generated. Please don't modify it!
//
package org.opencv.dnn;
import org.opencv.core.Mat;
import org.opencv.core.MatOfRect;
import org.opencv.core.Rect;
import org.opencv.core.Scalar;
import org.opencv.core.Size;
// C++: class Image2BlobParams
/**
* Processing params of image to blob.
*
* It includes all possible image processing operations and corresponding parameters.
*
* SEE: blobFromImageWithParams
*
* <b>Note:</b>
* The order and usage of {@code scalefactor} and {@code mean} are (input - mean) * scalefactor.
* The order and usage of {@code scalefactor}, {@code size}, {@code mean}, {@code swapRB}, and {@code ddepth} are consistent
* with the function of REF: blobFromImage.
*/
public class Image2BlobParams {
protected final long nativeObj;
protected Image2BlobParams(long addr) { nativeObj = addr; }
public long getNativeObjAddr() { return nativeObj; }
// internal usage only
public static Image2BlobParams __fromPtr__(long addr) { return new Image2BlobParams(addr); }
//
// C++: cv::dnn::Image2BlobParams::Image2BlobParams()
//
public Image2BlobParams() {
nativeObj = Image2BlobParams_0();
}
//
// C++: cv::dnn::Image2BlobParams::Image2BlobParams(Scalar scalefactor, Size size = Size(), Scalar mean = Scalar(), bool swapRB = false, int ddepth = CV_32F, DataLayout datalayout = DNN_LAYOUT_NCHW, ImagePaddingMode mode = DNN_PMODE_NULL, Scalar borderValue = 0.0)
//
public Image2BlobParams(Scalar scalefactor, Size size, Scalar mean, boolean swapRB, int ddepth, Scalar borderValue) {
nativeObj = Image2BlobParams_1(scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3], size.width, size.height, mean.val[0], mean.val[1], mean.val[2], mean.val[3], swapRB, ddepth, borderValue.val[0], borderValue.val[1], borderValue.val[2], borderValue.val[3]);
}
public Image2BlobParams(Scalar scalefactor, Size size, Scalar mean, boolean swapRB, int ddepth) {
nativeObj = Image2BlobParams_2(scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3], size.width, size.height, mean.val[0], mean.val[1], mean.val[2], mean.val[3], swapRB, ddepth);
}
public Image2BlobParams(Scalar scalefactor, Size size, Scalar mean, boolean swapRB) {
nativeObj = Image2BlobParams_5(scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3], size.width, size.height, mean.val[0], mean.val[1], mean.val[2], mean.val[3], swapRB);
}
public Image2BlobParams(Scalar scalefactor, Size size, Scalar mean) {
nativeObj = Image2BlobParams_6(scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3], size.width, size.height, mean.val[0], mean.val[1], mean.val[2], mean.val[3]);
}
public Image2BlobParams(Scalar scalefactor, Size size) {
nativeObj = Image2BlobParams_7(scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3], size.width, size.height);
}
public Image2BlobParams(Scalar scalefactor) {
nativeObj = Image2BlobParams_8(scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3]);
}
//
// C++: Rect cv::dnn::Image2BlobParams::blobRectToImageRect(Rect rBlob, Size size)
//
/**
* Get rectangle coordinates in original image system from rectangle in blob coordinates.
* @param rBlob rect in blob coordinates.
* @param size original input image size.
* @return rectangle in original image coordinates.
*/
public Rect blobRectToImageRect(Rect rBlob, Size size) {
return new Rect(blobRectToImageRect_0(nativeObj, rBlob.x, rBlob.y, rBlob.width, rBlob.height, size.width, size.height));
}
//
// C++: void cv::dnn::Image2BlobParams::blobRectsToImageRects(vector_Rect rBlob, vector_Rect& rImg, Size size)
//
/**
* Get rectangle coordinates in original image system from rectangle in blob coordinates.
* @param rBlob rect in blob coordinates.
* @param rImg result rect in image coordinates.
* @param size original input image size.
*/
public void blobRectsToImageRects(MatOfRect rBlob, MatOfRect rImg, Size size) {
Mat rBlob_mat = rBlob;
Mat rImg_mat = rImg;
blobRectsToImageRects_0(nativeObj, rBlob_mat.nativeObj, rImg_mat.nativeObj, size.width, size.height);
}
//
// C++: Scalar Image2BlobParams::scalefactor
//
public Scalar get_scalefactor() {
return new Scalar(get_scalefactor_0(nativeObj));
}
//
// C++: void Image2BlobParams::scalefactor
//
public void set_scalefactor(Scalar scalefactor) {
set_scalefactor_0(nativeObj, scalefactor.val[0], scalefactor.val[1], scalefactor.val[2], scalefactor.val[3]);
}
//
// C++: Size Image2BlobParams::size
//
public Size get_size() {
return new Size(get_size_0(nativeObj));
}
//
// C++: void Image2BlobParams::size
//
public void set_size(Size size) {
set_size_0(nativeObj, size.width, size.height);
}
//
// C++: Scalar Image2BlobParams::mean
//
public Scalar get_mean() {
return new Scalar(get_mean_0(nativeObj));
}
//
// C++: void Image2BlobParams::mean
//
public void set_mean(Scalar mean) {
set_mean_0(nativeObj, mean.val[0], mean.val[1], mean.val[2], mean.val[3]);
}
//
// C++: bool Image2BlobParams::swapRB
//
public boolean get_swapRB() {
return get_swapRB_0(nativeObj);
}
//
// C++: void Image2BlobParams::swapRB
//
public void set_swapRB(boolean swapRB) {
set_swapRB_0(nativeObj, swapRB);
}
//
// C++: int Image2BlobParams::ddepth
//
public int get_ddepth() {
return get_ddepth_0(nativeObj);
}
//
// C++: void Image2BlobParams::ddepth
//
public void set_ddepth(int ddepth) {
set_ddepth_0(nativeObj, ddepth);
}
//
// C++: DataLayout Image2BlobParams::datalayout
//
// Return type 'DataLayout' is not supported, skipping the function
//
// C++: void Image2BlobParams::datalayout
//
// Unknown type 'DataLayout' (I), skipping the function
//
// C++: ImagePaddingMode Image2BlobParams::paddingmode
//
// Return type 'ImagePaddingMode' is not supported, skipping the function
//
// C++: void Image2BlobParams::paddingmode
//
// Unknown type 'ImagePaddingMode' (I), skipping the function
//
// C++: Scalar Image2BlobParams::borderValue
//
public Scalar get_borderValue() {
return new Scalar(get_borderValue_0(nativeObj));
}
//
// C++: void Image2BlobParams::borderValue
//
public void set_borderValue(Scalar borderValue) {
set_borderValue_0(nativeObj, borderValue.val[0], borderValue.val[1], borderValue.val[2], borderValue.val[3]);
}
@Override
protected void finalize() throws Throwable {
delete(nativeObj);
}
// C++: cv::dnn::Image2BlobParams::Image2BlobParams()
private static native long Image2BlobParams_0();
// C++: cv::dnn::Image2BlobParams::Image2BlobParams(Scalar scalefactor, Size size = Size(), Scalar mean = Scalar(), bool swapRB = false, int ddepth = CV_32F, DataLayout datalayout = DNN_LAYOUT_NCHW, ImagePaddingMode mode = DNN_PMODE_NULL, Scalar borderValue = 0.0)
private static native long Image2BlobParams_1(double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3, double size_width, double size_height, double mean_val0, double mean_val1, double mean_val2, double mean_val3, boolean swapRB, int ddepth, double borderValue_val0, double borderValue_val1, double borderValue_val2, double borderValue_val3);
private static native long Image2BlobParams_2(double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3, double size_width, double size_height, double mean_val0, double mean_val1, double mean_val2, double mean_val3, boolean swapRB, int ddepth);
private static native long Image2BlobParams_5(double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3, double size_width, double size_height, double mean_val0, double mean_val1, double mean_val2, double mean_val3, boolean swapRB);
private static native long Image2BlobParams_6(double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3, double size_width, double size_height, double mean_val0, double mean_val1, double mean_val2, double mean_val3);
private static native long Image2BlobParams_7(double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3, double size_width, double size_height);
private static native long Image2BlobParams_8(double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3);
// C++: Rect cv::dnn::Image2BlobParams::blobRectToImageRect(Rect rBlob, Size size)
private static native double[] blobRectToImageRect_0(long nativeObj, int rBlob_x, int rBlob_y, int rBlob_width, int rBlob_height, double size_width, double size_height);
// C++: void cv::dnn::Image2BlobParams::blobRectsToImageRects(vector_Rect rBlob, vector_Rect& rImg, Size size)
private static native void blobRectsToImageRects_0(long nativeObj, long rBlob_mat_nativeObj, long rImg_mat_nativeObj, double size_width, double size_height);
// C++: Scalar Image2BlobParams::scalefactor
private static native double[] get_scalefactor_0(long nativeObj);
// C++: void Image2BlobParams::scalefactor
private static native void set_scalefactor_0(long nativeObj, double scalefactor_val0, double scalefactor_val1, double scalefactor_val2, double scalefactor_val3);
// C++: Size Image2BlobParams::size
private static native double[] get_size_0(long nativeObj);
// C++: void Image2BlobParams::size
private static native void set_size_0(long nativeObj, double size_width, double size_height);
// C++: Scalar Image2BlobParams::mean
private static native double[] get_mean_0(long nativeObj);
// C++: void Image2BlobParams::mean
private static native void set_mean_0(long nativeObj, double mean_val0, double mean_val1, double mean_val2, double mean_val3);
// C++: bool Image2BlobParams::swapRB
private static native boolean get_swapRB_0(long nativeObj);
// C++: void Image2BlobParams::swapRB
private static native void set_swapRB_0(long nativeObj, boolean swapRB);
// C++: int Image2BlobParams::ddepth
private static native int get_ddepth_0(long nativeObj);
// C++: void Image2BlobParams::ddepth
private static native void set_ddepth_0(long nativeObj, int ddepth);
// C++: Scalar Image2BlobParams::borderValue
private static native double[] get_borderValue_0(long nativeObj);
// C++: void Image2BlobParams::borderValue
private static native void set_borderValue_0(long nativeObj, double borderValue_val0, double borderValue_val1, double borderValue_val2, double borderValue_val3);
// native support for java finalize()
private static native void delete(long nativeObj);
}
