Module Radio :: Class Radio

Class Radio

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The Radiosity object

This object wraps the current Scene's radiosity context in Blender.

Instance Methods
 
go()
Start the radiosity simulation.
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collectMeshes()
Convert selected visible meshes to patches for radiosity calculation.
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freeData()
Release all memory used by radiosity.
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addMesh()
Add the new mesh created by the radiosity simulation (see go) to Blender.
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replaceMeshes()
Replace the original input meshes with the one calculated by the radiosity simulation.
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limitSubdivide()
Subdivide patches (optional, it may improve results).
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filterFaces()
Force an extra smoothing.
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filterElems()
Filter elements to remove aliasing artifacts.
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subdividePatches()
Pre-subdivision: detect high-energy patches and subdivide them (optional, it may improve results).
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subdivideElems()
Pre-subdivision: detect high-energy elements (nodes) and subdivide them (optional, it may improve results).
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removeDoubles()
Join elements (nodes) which differ less than the defined element limit.
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int
getHemiRes()
Get hemicube size.
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setHemiRes(ival)
Set hemicube size.
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int
getMaxIter()
Get maximum number of radiosity rounds.
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setMaxIter(ival)
Set maximum number of radiosity rounds.
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int
getSubShPatch()
Get maximum number of times the environment is tested to detect patches.
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setSubShPatch(ival)
Set the maximum number of times the environment is tested to detect patches.
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int
getSubShElem()
Get the number of times the environment is tested to detect elements.
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setSubShElem(ival)
Set number of times the environment is tested to detect elements.
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int
getElemLimit()
Get the range for removing doubles.
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setElemLimit(ival)
Set the range for removing doubles.
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int
getMaxSubdivSh()
Get the maximum number of initial shoot patches evaluated.
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setMaxSubdivSh(ival)
Set the maximum number of initial shoot patches evaluated.
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int
getPatchMax()
Get the maximum size of a patch.
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setPatchMax(ival)
Set the maximum size of a patch.
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int
getPatchMin()
Get the minimum size of a patch.
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setPatchMin(ival)
Set the minimum size of a patch.
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int
getElemMax()
Get the maximum size of an element.
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setElemMax(ival)
Set the maximum size of an element.
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int
getElemMin()
Get the minimum size of an element.
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setElemMin(ival)
Set the minimum size of an element.
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int
getMaxElems()
Get the maximum number of elements.
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setMaxElems(ival)
Set the maximum number of elements.
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float
getConvergence()
Get lower thresholdo of unshot energy.
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setConvergence(fval)
Set lower threshold of unshot energy.
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float
getMult()
Get the energy value multiplier.
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setMult(fval)
Set the energy value multiplier.
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float
getGamma()
Get change in the contrast of energy values.
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setGamma(fval)
Set change in the contrast of energy values.
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int
getDrawType()
Get the draw type: Wire, Solid or Gouraud as an int value, see DrawTypes.
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setDrawType(dt)
Set the draw type.
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int
getMode()
Get mode as an int (or'ed bitflags), see Modes dictionary.
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setMode(mode1=None, mode2=None)
Set mode flags as strings: 'ShowLimits' and 'Z'.
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Method Details

go()

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Start the radiosity simulation. It is necessary to call collectMeshes first.

collectMeshes()

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Convert selected visible meshes to patches for radiosity calculation.

Note: Object.Object.select can be used to (un)select objects via bpython.

addMesh()

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Add the new mesh created by the radiosity simulation (see go) to Blender. The radiosity results are stored in this mesh's vertex colors.

Note: see replaceMeshes for a destructive alternative.

replaceMeshes()

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Replace the original input meshes with the one calculated by the radiosity simulation. The radiosity results are stored in this mesh's vertex colors.

Note: see addMesh for a non-destructive alternative.

filterFaces()

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Force an extra smoothing. This method can be called only after the simulation has been calculated (go).

filterElems()

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Filter elements to remove aliasing artifacts. This method can be called only after the simulation has been calculated (go).

removeDoubles()

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Join elements (nodes) which differ less than the defined element limit. This method can be called only after the simulation has been calculated (go).

getHemiRes()

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Get hemicube size.
Returns: int
the current hemicube size.

setHemiRes(ival)

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Set hemicube size. The range is [100, 1000].
Parameters:
  • ival (int) - the new size.

getMaxIter()

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Get maximum number of radiosity rounds.
Returns: int
the current maxiter value.

setMaxIter(ival)

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Set maximum number of radiosity rounds. The range is [0, 10000].
Parameters:
  • ival (int) - the maxiter new value.

getSubShPatch()

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Get maximum number of times the environment is tested to detect patches.
Returns: int
the current value.

setSubShPatch(ival)

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Set the maximum number of times the environment is tested to detect patches. The range is [0, 10].
Parameters:
  • ival (int) - the new value.

getSubShElem()

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Get the number of times the environment is tested to detect elements.
Returns: int
the current value.

setSubShElem(ival)

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Set number of times the environment is tested to detect elements. The range is [0, 10].
Parameters:
  • ival (int) - the new value.

getElemLimit()

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Get the range for removing doubles.
Returns: int
the current value.

setElemLimit(ival)

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Set the range for removing doubles. The range is [0, 50].
Parameters:
  • ival (int) - the new value.

getMaxSubdivSh()

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Get the maximum number of initial shoot patches evaluated.
Returns: int
the current value.

setMaxSubdivSh(ival)

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Set the maximum number of initial shoot patches evaluated. The range is [1, 250].
Parameters:
  • ival (int) - the new value.

getPatchMax()

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Get the maximum size of a patch.
Returns: int
the current value.

setPatchMax(ival)

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Set the maximum size of a patch. The range is [10, 1000].
Parameters:
  • ival (int) - the new value.

getPatchMin()

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Get the minimum size of a patch.
Returns: int
the current value.

setPatchMin(ival)

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Set the minimum size of a patch. The range is [10, 1000].
Parameters:
  • ival (int) - the new value.

getElemMax()

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Get the maximum size of an element.
Returns: int
the current value.

setElemMax(ival)

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Set the maximum size of an element. The range is [1, 100].
Parameters:
  • ival (int) - the new value.

getElemMin()

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Get the minimum size of an element. The range is [1, 100].
Returns: int
the current value.

setElemMin(ival)

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Set the minimum size of an element. The range is [1, 100].
Parameters:
  • ival (int) - the new value.

getMaxElems()

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Get the maximum number of elements.
Returns: int
the current value.

setMaxElems(ival)

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Set the maximum number of elements. The range is [1, 250000].
Parameters:
  • ival (int) - the new value.

getConvergence()

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Get lower thresholdo of unshot energy.
Returns: float
the current value.

setConvergence(fval)

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Set lower threshold of unshot energy. The range is [0.0, 1.0].
Parameters:
  • fval (float) - the new value.

getMult()

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Get the energy value multiplier.
Returns: float
the current value.

setMult(fval)

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Set the energy value multiplier. The range is [0.001, 250.0].
Parameters:
  • fval (float) - the new value.

getGamma()

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Get change in the contrast of energy values.
Returns: float
the current value.

setGamma(fval)

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Set change in the contrast of energy values. The range is [0.2, 10.0].
Parameters:
  • fval (float) - the new value.

getDrawType()

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Get the draw type: Wire, Solid or Gouraud as an int value, see DrawTypes.
Returns: int
the current draw type.

setDrawType(dt)

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Set the draw type.
Parameters:
  • dt (string or int) - either 'Wire', 'Solid' or 'Gouraud' or the equivalent entry in the DrawTypes dictionary.

getMode()

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Get mode as an int (or'ed bitflags), see Modes dictionary.
Returns: int
the current value.

setMode(mode1=None, mode2=None)

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Set mode flags as strings: 'ShowLimits' and 'Z'. To set one give it as only argument. Strings not passed in are unset, so setMode() unsets both.
Parameters:
  • mode1 (string) - optional mode string.
  • mode2 (string) - optional mode string.