affine_trans_contour_xldT_affine_trans_contour_xldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld (Operator)
Name
affine_trans_contour_xldT_affine_trans_contour_xldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
— Apply an arbitrary affine 2D transformation to XLD contours.
Signature
Description
affine_trans_contour_xldaffine_trans_contour_xldAffineTransContourXldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
applies an arbitrary affine 2D
transformation, i.e., scaling, rotation, translation, and slant (skewing), to
the XLD contours given in ContoursContoursContoursContourscontourscontours
and returns the transformed
contours in ContoursAffineTransContoursAffineTransContoursAffineTransContoursAffineTranscontoursAffineTranscontours_affine_trans
. The affine transformation is
described by the homogeneous transformation matrix given in
HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d
, which can be created using the operators
hom_mat2d_identityhom_mat2d_identityHomMat2dIdentityHomMat2dIdentityHomMat2dIdentityhom_mat2d_identity
, hom_mat2d_scalehom_mat2d_scaleHomMat2dScaleHomMat2dScaleHomMat2dScalehom_mat2d_scale
,
hom_mat2d_rotatehom_mat2d_rotateHomMat2dRotateHomMat2dRotateHomMat2dRotatehom_mat2d_rotate
, hom_mat2d_translatehom_mat2d_translateHomMat2dTranslateHomMat2dTranslateHomMat2dTranslatehom_mat2d_translate
, etc., or be the result
of operators like vector_angle_to_rigidvector_angle_to_rigidVectorAngleToRigidVectorAngleToRigidVectorAngleToRigidvector_angle_to_rigid
.
The components of the homogeneous transformation matrix are interpreted as
follows: The row coordinate of the image corresponds to x and
the column coordinate corresponds to y of the coordinate system in
which the transformation matrix was defined. This is necessary to obtain
a right-handed coordinate system for the image. In particular, this assures
that rotations are performed in the correct direction. Note that the
(x,y) order of the matrices quite naturally corresponds to the usual
(row,column) order for coordinates in the image.
Attention
affine_trans_contour_xldaffine_trans_contour_xldAffineTransContourXldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
does not use the HALCON standard
coordinate system (with the origin in the center of the upper left
pixel), but instead uses the same coordinate system as in
affine_trans_pixelaffine_trans_pixelAffineTransPixelAffineTransPixelAffineTransPixelaffine_trans_pixel
, i.e., the origin lies in the upper
left corner of the upper left pixel. Therefore,
applying affine_trans_contour_xldaffine_trans_contour_xldAffineTransContourXldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
corresponds to
a chain of transformations (see affine_trans_pixelaffine_trans_pixelAffineTransPixelAffineTransPixelAffineTransPixelaffine_trans_pixel
), which is applied
to each point of the contour (input and output pixels as homogeneous
vectors). As an effect, you might get unexpected results when creating affine
transformations based on coordinates that are derived from the
contour, e.g., by operators like
area_center_xldarea_center_xldAreaCenterXldAreaCenterXldAreaCenterXldarea_center_xld
. For example, if you use this operator to calculate
the center of gravity of a rotationally symmetric XLD contour and then rotate
the contour around this point using hom_mat2d_rotatehom_mat2d_rotateHomMat2dRotateHomMat2dRotateHomMat2dRotatehom_mat2d_rotate
, the resulting
contour will not lie on the original one. In such a case, you can compensate
this effect by applying the following translations to HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d
before using it in affine_trans_contour_xldaffine_trans_contour_xldAffineTransContourXldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
:
hom_mat2d_translate(HomMat2D, 0.5, 0.5, HomMat2DTmp)hom_mat2d_translate(HomMat2D, 0.5, 0.5, HomMat2DTmp)HomMat2dTranslate(HomMat2D, 0.5, 0.5, HomMat2DTmp)HomMat2dTranslate(HomMat2D, 0.5, 0.5, HomMat2DTmp)HomMat2dTranslate(HomMat2D, 0.5, 0.5, HomMat2DTmp)hom_mat2d_translate(HomMat2D, 0.5, 0.5, HomMat2DTmp)
|
hom_mat2d_translate_local(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)hom_mat2d_translate_local(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)HomMat2dTranslateLocal(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)HomMat2dTranslateLocal(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)HomMat2dTranslateLocal(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)hom_mat2d_translate_local(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)
|
affine_trans_contour_xld(Contours, ContoursAffineTrans, HomMat2DAdapted)affine_trans_contour_xld(Contours, ContoursAffineTrans, HomMat2DAdapted)AffineTransContourXld(Contours, ContoursAffineTrans, HomMat2DAdapted)AffineTransContourXld(Contours, ContoursAffineTrans, HomMat2DAdapted)AffineTransContourXld(Contours, ContoursAffineTrans, HomMat2DAdapted)affine_trans_contour_xld(Contours, ContoursAffineTrans, HomMat2DAdapted)
|
For an explanation of the different 2D coordinate systems
used in HALCON, see the introduction of chapter
Transformations / 2D Transformations.
Execution Information
- Multithreading type: reentrant (runs in parallel with non-exclusive operators).
- Multithreading scope: global (may be called from any thread).
- Automatically parallelized on tuple level.
Parameters
ContoursContoursContoursContourscontourscontours
(input_object) xld_cont(-array) →
objectHXLDContHObjectHXLDContHobject
Input XLD contours.
ContoursAffineTransContoursAffineTransContoursAffineTransContoursAffineTranscontoursAffineTranscontours_affine_trans
(output_object) xld_cont(-array) →
objectHXLDContHObjectHXLDContHobject *
Transformed XLD contours.
HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d
(input_control) hom_mat2d →
HHomMat2D, HTupleSequence[float]HTupleHtuple (real) (double) (double) (double)
Input transformation matrix.
Result
If the matrix HomMat2DHomMat2DHomMat2DHomMat2DhomMat2Dhom_mat_2d
represents an affine transformation
(i.e., not a projective transformation),
affine_trans_contour_xldaffine_trans_contour_xldAffineTransContourXldAffineTransContourXldAffineTransContourXldaffine_trans_contour_xld
returns 2 (H_MSG_TRUE). If the input is
empty the behavior can be set via
set_system(::'no_object_result',<Result>:)set_system("no_object_result",<Result>)SetSystem("no_object_result",<Result>)SetSystem("no_object_result",<Result>)SetSystem("no_object_result",<Result>)set_system("no_object_result",<Result>)
. If necessary,
an exception is raised.
Possible Predecessors
hom_mat2d_identityhom_mat2d_identityHomMat2dIdentityHomMat2dIdentityHomMat2dIdentityhom_mat2d_identity
,
hom_mat2d_translatehom_mat2d_translateHomMat2dTranslateHomMat2dTranslateHomMat2dTranslatehom_mat2d_translate
,
hom_mat2d_rotatehom_mat2d_rotateHomMat2dRotateHomMat2dRotateHomMat2dRotatehom_mat2d_rotate
,
hom_mat2d_scalehom_mat2d_scaleHomMat2dScaleHomMat2dScaleHomMat2dScalehom_mat2d_scale
,
hom_mat2d_reflecthom_mat2d_reflectHomMat2dReflectHomMat2dReflectHomMat2dReflecthom_mat2d_reflect
See also
affine_trans_imageaffine_trans_imageAffineTransImageAffineTransImageAffineTransImageaffine_trans_image
,
affine_trans_regionaffine_trans_regionAffineTransRegionAffineTransRegionAffineTransRegionaffine_trans_region
Module
Foundation