View Source Evision.CUDA.CornernessCriteria (Evision v0.2.7)

Summary

Types

t()

Type that represents an CUDA.CornernessCriteria struct.

Functions

clear(named_args)

Clears the algorithm state

compute(named_args)

compute(self, src)

Variant 1:

Computes the cornerness criteria at each image pixel.

compute(self, src, opts)

Variant 1:

Computes the cornerness criteria at each image pixel.

empty(named_args)

Returns true if the Algorithm is empty (e.g. in the very beginning or after unsuccessful read

getDefaultName(named_args)

getDefaultName

read(named_args)

read(self, func)

Reads algorithm parameters from a file storage

save(named_args)

save(self, filename)

save

write(named_args)

write(self, fs)

Stores algorithm parameters in a file storage

write(self, fs, name)

write

Types

t()

@type t() :: %Evision.CUDA.CornernessCriteria{ref: reference()}

Type that represents an CUDA.CornernessCriteria struct.

ref. reference()
The underlying erlang resource variable.

Functions

clear(named_args)

@spec clear(Keyword.t()) :: any() | {:error, String.t()}

@spec clear(t()) :: t() | {:error, String.t()}

Clears the algorithm state

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()

Python prototype (for reference only):

clear() -> None

compute(named_args)

@spec compute(Keyword.t()) :: any() | {:error, String.t()}

compute(self, src)

@spec compute(t(), Evision.Mat.maybe_mat_in()) ::
  Evision.Mat.t() | {:error, String.t()}

@spec compute(t(), Evision.CUDA.GpuMat.t()) ::
  Evision.CUDA.GpuMat.t() | {:error, String.t()}

Variant 1:

Computes the cornerness criteria at each image pixel.

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
src: Evision.Mat.
Source image.

Keyword Arguments

stream: Evision.CUDA.Stream.t().
Stream for the asynchronous version.

Return

dst: Evision.Mat.t().
Destination image containing cornerness values. It will have the same size as src and CV_32FC1 type.

Python prototype (for reference only):

compute(src[, dst[, stream]]) -> dst

Variant 2:

Computes the cornerness criteria at each image pixel.

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
src: Evision.CUDA.GpuMat.t().
Source image.

Keyword Arguments

stream: Evision.CUDA.Stream.t().
Stream for the asynchronous version.

Return

dst: Evision.CUDA.GpuMat.t().
Destination image containing cornerness values. It will have the same size as src and CV_32FC1 type.

Python prototype (for reference only):

compute(src[, dst[, stream]]) -> dst

compute(self, src, opts)

@spec compute(t(), Evision.Mat.maybe_mat_in(), [{:stream, term()}] | nil) ::
  Evision.Mat.t() | {:error, String.t()}

@spec compute(t(), Evision.CUDA.GpuMat.t(), [{:stream, term()}] | nil) ::
  Evision.CUDA.GpuMat.t() | {:error, String.t()}

Variant 1:

Computes the cornerness criteria at each image pixel.

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
src: Evision.Mat.
Source image.

Keyword Arguments

stream: Evision.CUDA.Stream.t().
Stream for the asynchronous version.

Return

dst: Evision.Mat.t().
Destination image containing cornerness values. It will have the same size as src and CV_32FC1 type.

Python prototype (for reference only):

compute(src[, dst[, stream]]) -> dst

Variant 2:

Computes the cornerness criteria at each image pixel.

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
src: Evision.CUDA.GpuMat.t().
Source image.

Keyword Arguments

stream: Evision.CUDA.Stream.t().
Stream for the asynchronous version.

Return

dst: Evision.CUDA.GpuMat.t().
Destination image containing cornerness values. It will have the same size as src and CV_32FC1 type.

Python prototype (for reference only):

compute(src[, dst[, stream]]) -> dst

empty(named_args)

@spec empty(Keyword.t()) :: any() | {:error, String.t()}

@spec empty(t()) :: boolean() | {:error, String.t()}

Returns true if the Algorithm is empty (e.g. in the very beginning or after unsuccessful read

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()

Return

retval: bool

Python prototype (for reference only):

empty() -> retval

getDefaultName(named_args)

@spec getDefaultName(Keyword.t()) :: any() | {:error, String.t()}

@spec getDefaultName(t()) :: binary() | {:error, String.t()}

getDefaultName

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()

Return

retval: String

Returns the algorithm string identifier. This string is used as top level xml/yml node tag when the object is saved to a file or string.

Python prototype (for reference only):

getDefaultName() -> retval

read(named_args)

@spec read(Keyword.t()) :: any() | {:error, String.t()}

read(self, func)

@spec read(t(), Evision.FileNode.t()) :: t() | {:error, String.t()}

Reads algorithm parameters from a file storage

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
func: Evision.FileNode

Python prototype (for reference only):

read(fn) -> None

save(named_args)

@spec save(Keyword.t()) :: any() | {:error, String.t()}

save(self, filename)

@spec save(t(), binary()) :: t() | {:error, String.t()}

save

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
filename: String

Saves the algorithm to a file. In order to make this method work, the derived class must implement Algorithm::write(FileStorage& fs).

Python prototype (for reference only):

save(filename) -> None

write(named_args)

@spec write(Keyword.t()) :: any() | {:error, String.t()}

write(self, fs)

@spec write(t(), Evision.FileStorage.t()) :: t() | {:error, String.t()}

Stores algorithm parameters in a file storage

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
fs: Evision.FileStorage

Python prototype (for reference only):

write(fs) -> None

write(self, fs, name)

@spec write(t(), Evision.FileStorage.t(), binary()) :: t() | {:error, String.t()}

write

Positional Arguments

self: Evision.CUDA.CornernessCriteria.t()
fs: Evision.FileStorage
name: String

Has overloading in C++

Python prototype (for reference only):

write(fs, name) -> None