Evision v0.1.17

View Source Evision.CalibrateRobertson (Evision v0.1.17)

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Types

t()

Type that represents an Evision.CalibrateRobertson struct.

Functions

clear(self)

Clears the algorithm state

empty(self)

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

getDefaultName(self)

getDefaultName

getMaxIter(self)

getMaxIter

getRadiance(self)

getRadiance

getThreshold(self)

getThreshold

process(self, src, times)

Recovers inverse camera response.

process(self, src, times, opts)

Recovers inverse camera response.

read(self, fn_)

Reads algorithm parameters from a file storage

save(self, filename)

save

setMaxIter(self, max_iter)

setMaxIter

setThreshold(self, threshold)

setThreshold

write(self, fs)

simplified API for language bindings

write(self, fs, opts)

simplified API for language bindings

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t()

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

Type that represents an Evision.CalibrateRobertson struct.

  • ref. reference()

    The underlying erlang resource variable.

Link to this section Functions

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clear(self)

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

Clears the algorithm state

Positional Arguments
  • self: Evision.CalibrateRobertson.t()

Python prototype (for reference only):

clear() -> None
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empty(self)

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@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.CalibrateRobertson.t()
Return
  • retval: bool

Python prototype (for reference only):

empty() -> retval
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getDefaultName(self)

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

getDefaultName

Positional Arguments
  • self: Evision.CalibrateRobertson.t()
Return

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
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getMaxIter(self)

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

getMaxIter

Positional Arguments
  • self: Evision.CalibrateRobertson.t()
Return
  • retval: int

Python prototype (for reference only):

getMaxIter() -> retval
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getRadiance(self)

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

getRadiance

Positional Arguments
  • self: Evision.CalibrateRobertson.t()
Return

Python prototype (for reference only):

getRadiance() -> retval
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getThreshold(self)

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

getThreshold

Positional Arguments
  • self: Evision.CalibrateRobertson.t()
Return
  • retval: float

Python prototype (for reference only):

getThreshold() -> retval
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process(self, src, times)

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

Recovers inverse camera response.

Positional Arguments

  • self: Evision.CalibrateRobertson.t()

  • src: [Evision.Mat].

    vector of input images

  • times: Evision.Mat.

    vector of exposure time values for each image

Return

  • dst: Evision.Mat.

    256x1 matrix with inverse camera response function

Python prototype (for reference only):

process(src, times[, dst]) -> dst
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process(self, src, times, opts)

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

Recovers inverse camera response.

Positional Arguments

  • self: Evision.CalibrateRobertson.t()

  • src: [Evision.Mat].

    vector of input images

  • times: Evision.Mat.

    vector of exposure time values for each image

Return

  • dst: Evision.Mat.

    256x1 matrix with inverse camera response function

Python prototype (for reference only):

process(src, times[, dst]) -> dst
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read(self, fn_)

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

Reads algorithm parameters from a file storage

Positional Arguments

Python prototype (for reference only):

read(fn_) -> None
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save(self, filename)

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

save

Positional Arguments
  • self: Evision.CalibrateRobertson.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
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setMaxIter(self, max_iter)

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@spec setMaxIter(t(), integer()) :: :ok | {:error, String.t()}

setMaxIter

Positional Arguments
  • self: Evision.CalibrateRobertson.t()
  • max_iter: int

Python prototype (for reference only):

setMaxIter(max_iter) -> None
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setThreshold(self, threshold)

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@spec setThreshold(t(), number()) :: :ok | {:error, String.t()}

setThreshold

Positional Arguments
  • self: Evision.CalibrateRobertson.t()
  • threshold: float

Python prototype (for reference only):

setThreshold(threshold) -> None
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write(self, fs)

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

simplified API for language bindings

Positional Arguments
Keyword Arguments

Has overloading in C++

Python prototype (for reference only):

write(fs[, name]) -> None
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write(self, fs, opts)

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@spec write(t(), Evision.FileStorage.t(), [{atom(), term()}, ...] | nil) ::
  :ok | {:error, String.t()}

simplified API for language bindings

Positional Arguments
Keyword Arguments

Has overloading in C++

Python prototype (for reference only):

write(fs[, name]) -> None