Package | Description |
---|---|
org.bytedeco.opencv.global | |
org.bytedeco.opencv.opencv_core | |
org.bytedeco.opencv.opencv_dnn | |
org.bytedeco.opencv.opencv_videostab |
Modifier and Type | Method and Description |
---|---|
static Range |
opencv_core.add(int delta,
Range r1) |
static Range |
opencv_core.add(Range r1,
int delta) |
static Range |
opencv_core.and(Range r1,
Range r2) |
static Range |
opencv_core.andPut(Range r1,
Range r2) |
static Range |
opencv_dnn.clamp(Range r,
int axisSize) |
static Range |
opencv_core.subtract(Range r1,
int delta) |
Modifier and Type | Method and Description |
---|---|
static Range |
opencv_core.add(int delta,
Range r1) |
static Range |
opencv_core.add(Range r1,
int delta) |
static Range |
opencv_core.and(Range r1,
Range r2) |
static Range |
opencv_core.andPut(Range r1,
Range r2) |
static Range |
opencv_dnn.clamp(Range r,
int axisSize) |
static CvSlice |
opencv_core.cvSlice(Range r) |
static boolean |
opencv_core.equals(Range r1,
Range r2)
\brief measure dissimilarity between two sample sets
computes the complement of the Jaccard Index as described in
|
static boolean |
opencv_core.not(Range r) |
static boolean |
opencv_core.notEquals(Range r1,
Range r2) |
static void |
opencv_core.parallel_for_(Range range,
opencv_core.Functor functor) |
static void |
opencv_core.parallel_for_(Range range,
opencv_core.Functor functor,
double nstripes) |
static void |
opencv_core.parallel_for_(Range range,
ParallelLoopBody body) |
static void |
opencv_core.parallel_for_(Range range,
ParallelLoopBody body,
double nstripes)
\brief Parallel data processor
|
static void |
opencv_core.read(FileNode node,
Range value,
Range default_value) |
static Range |
opencv_core.subtract(Range r1,
int delta) |
static void |
opencv_core.write(FileStorage fs,
BytePointer name,
Range r) |
static void |
opencv_core.write(FileStorage fs,
Range r) |
static void |
opencv_core.write(FileStorage fs,
String name,
Range r) |
Modifier and Type | Method and Description |
---|---|
static Range |
Range.all() |
Range |
Range.end(int setter) |
Range |
Range.position(long position) |
Range |
Range.start(int setter) |
Modifier and Type | Method and Description |
---|---|
void |
ParallelLoopBodyLambdaWrapper.apply(Range range) |
Mat |
Mat.apply(Range ranges)
\overload
|
void |
ParallelLoopBody.apply(Range range) |
UMat |
UMat.apply(Range ranges) |
Mat |
Mat.apply(Range rowRange,
Range colRange)
\brief Extracts a rectangular submatrix.
|
UMat |
UMat.apply(Range rowRange,
Range colRange)
extracts a rectangular sub-matrix
|
MatExpr |
MatExpr.apply(Range rowRange,
Range colRange) |
GpuMat |
GpuMat.apply(Range rowRange,
Range colRange)
extracts a rectangular sub-GpuMat (this is a generalized form of row, rowRange etc.)
|
Mat |
Mat.colRange(Range r)
\overload
|
UMat |
UMat.colRange(Range r) |
GpuMat |
GpuMat.colRange(Range r) |
void |
MatOp.roi(MatExpr expr,
Range rowRange,
Range colRange,
MatExpr res) |
Mat |
Mat.rowRange(Range r)
\overload
|
UMat |
UMat.rowRange(Range r) |
GpuMat |
GpuMat.rowRange(Range r) |
Constructor and Description |
---|
GpuMat(GpuMat m,
Range rowRange,
Range colRange)
creates a GpuMat header for a part of the bigger matrix
|
Mat(Mat m,
Range rowRange) |
Mat(Mat m,
Range rowRange,
Range colRange)
\overload
|
UMat(UMat m,
Range rowRange) |
UMat(UMat m,
Range rowRange,
Range colRange)
creates a matrix header for a part of the bigger matrix
|
Modifier and Type | Class and Description |
---|---|
class |
_Range |
Modifier and Type | Method and Description |
---|---|
Range[][] |
RangeVectorVector.get() |
Range |
RangeVectorVector.get(long i,
long j) |
Range |
ReshapeLayer.newShapeRange() |
Modifier and Type | Method and Description |
---|---|
ReshapeLayer |
ReshapeLayer.newShapeRange(Range setter) |
RangeVectorVector |
RangeVectorVector.put(long i,
long j,
Range value) |
RangeVectorVector |
RangeVectorVector.put(Range[]... array) |
Constructor and Description |
---|
_Range(Range r) |
RangeVectorVector(Range[]... array) |
Modifier and Type | Method and Description |
---|---|
void |
WeightingDeblurer.deblur(int idx,
Mat frame,
Range range) |
void |
DeblurerBase.deblur(int idx,
Mat frame,
Range range) |
void |
NullDeblurer.deblur(int arg0,
Mat arg1,
Range arg2) |
Mat |
GaussianMotionFilter.stabilize(int idx,
MatVector motions,
Range range) |
Mat |
MotionFilterBase.stabilize(int idx,
MatVector motions,
Range range) |
void |
IMotionStabilizer.stabilize(int size,
MatVector motions,
Range range,
Mat stabilizationMotions)
assumes that [0, size-1) is in or equals to [range.first, range.second)
|
void |
MotionStabilizationPipeline.stabilize(int size,
MatVector motions,
Range range,
Mat stabilizationMotions) |
void |
MotionFilterBase.stabilize(int size,
MatVector motions,
Range range,
Mat stabilizationMotions) |
void |
LpMotionStabilizer.stabilize(int size,
MatVector motions,
Range range,
Mat stabilizationMotions) |
Copyright © 2020. All rights reserved.