projective_trans_image T_projective_trans_image ProjectiveTransImage ProjectiveTransImage projective_trans_image (Operator)
Name
projective_trans_image T_projective_trans_image ProjectiveTransImage ProjectiveTransImage projective_trans_image
— Apply a projective transformation to an image.
Signature
void ProjectiveTransImage (const HObject& Image , HObject* TransImage , const HTuple& HomMat2D , const HTuple& Interpolation , const HTuple& AdaptImageSize , const HTuple& TransformDomain )
HImage HImage ::ProjectiveTransImage (const HHomMat2D& HomMat2D , const HString& Interpolation , const HString& AdaptImageSize , const HString& TransformDomain ) const
HImage HImage ::ProjectiveTransImage (const HHomMat2D& HomMat2D , const char* Interpolation , const char* AdaptImageSize , const char* TransformDomain ) const
HImage HImage ::ProjectiveTransImage (const HHomMat2D& HomMat2D , const wchar_t* Interpolation , const wchar_t* AdaptImageSize , const wchar_t* TransformDomain ) const
(Windows only)
HImage HHomMat2D ::ProjectiveTransImage (const HImage& Image , const HString& Interpolation , const HString& AdaptImageSize , const HString& TransformDomain ) const
HImage HHomMat2D ::ProjectiveTransImage (const HImage& Image , const char* Interpolation , const char* AdaptImageSize , const char* TransformDomain ) const
HImage HHomMat2D ::ProjectiveTransImage (const HImage& Image , const wchar_t* Interpolation , const wchar_t* AdaptImageSize , const wchar_t* TransformDomain ) const
(Windows only)
static void HOperatorSet .ProjectiveTransImage (HObject image , out HObject transImage , HTuple homMat2D , HTuple interpolation , HTuple adaptImageSize , HTuple transformDomain )
HImage HImage .ProjectiveTransImage (HHomMat2D homMat2D , string interpolation , string adaptImageSize , string transformDomain )
HImage HHomMat2D .ProjectiveTransImage (HImage image , string interpolation , string adaptImageSize , string transformDomain )
Description
projective_trans_image projective_trans_image ProjectiveTransImage ProjectiveTransImage ProjectiveTransImage projective_trans_image
applies the projective transformation
(homography) determined by the homogeneous transformation matrix
HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
on the input image Image Image Image Image image image
and stores the
result into the output image TransImage TransImage TransImage TransImage transImage trans_image
.
If the parameter AdaptImageSize AdaptImageSize AdaptImageSize AdaptImageSize adaptImageSize adapt_image_size
is set to
'false' "false" "false" "false" "false" "false" , TransImage TransImage TransImage TransImage transImage trans_image
will have the same size as
Image Image Image Image image image
; if AdaptImageSize AdaptImageSize AdaptImageSize AdaptImageSize adaptImageSize adapt_image_size
is 'true' "true" "true" "true" "true" "true" , the
output image size will be automatically adapted so that all
non-negative points of the transformed image are visible.
The parameter Interpolation Interpolation Interpolation Interpolation interpolation interpolation
determines, which interpolation
method is used to determine the gray values of the output image.
For Interpolation Interpolation Interpolation Interpolation interpolation interpolation
= 'nearest_neighbor' "nearest_neighbor" "nearest_neighbor" "nearest_neighbor" "nearest_neighbor" "nearest_neighbor" , the gray
value is determined from the nearest pixel in the input image. This
mode is very fast, but also leads to the typical “jagged”
appearance for large enlargements of the image. For
Interpolation Interpolation Interpolation Interpolation interpolation interpolation
= 'bilinear' "bilinear" "bilinear" "bilinear" "bilinear" "bilinear" , the gray values are
interpolated bilinearly, leading to longer runtimes, but also to
significantly improved results.
The parameter TransformDomain TransformDomain TransformDomain TransformDomain transformDomain transform_domain
can be used to determine
whether the domain of Image Image Image Image image image
is also transformed. Since the
transformation of the domain costs runtime, this parameter should be
used to specify whether this is desired or not. If
TransformDomain TransformDomain TransformDomain TransformDomain transformDomain transform_domain
is set to 'false' "false" "false" "false" "false" "false" the domain of
the input image is ignored and the complete image is transformed.
The projective transformation matrix could for example be created
using the operator vector_to_proj_hom_mat2d vector_to_proj_hom_mat2d VectorToProjHomMat2d VectorToProjHomMat2d VectorToProjHomMat2d vector_to_proj_hom_mat2d
.
In a homography the points to be projected are represented by
homogeneous vectors of the form (x,y,w). A Euclidean point can be
derived as (x',y') =
.
Just like in affine_trans_image affine_trans_image AffineTransImage AffineTransImage AffineTransImage affine_trans_image
, x represents the row
coordinate while y represents the column coordinate in
projective_trans_image projective_trans_image ProjectiveTransImage ProjectiveTransImage ProjectiveTransImage projective_trans_image
. With this convention, affine
transformations are a special case of projective transformations in
which the last row of HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
is of the form (0,0,c).
For images of type 'byte' "byte" "byte" "byte" "byte" "byte" or 'uint2' "uint2" "uint2" "uint2" "uint2" "uint2" the system
parameter 'int_zooming' "int_zooming" "int_zooming" "int_zooming" "int_zooming" "int_zooming" selects between fast calculation in
floating point arithmetics ('int_zooming' "int_zooming" "int_zooming" "int_zooming" "int_zooming" "int_zooming" = 'true' "true" "true" "true" "true" "true" )
and highly accurate floating point arithmetics
('int_zooming' "int_zooming" "int_zooming" "int_zooming" "int_zooming" "int_zooming" = 'false' "false" "false" "false" "false" "false" ). Especially for
Interpolation Interpolation Interpolation Interpolation interpolation interpolation
= 'bilinear' "bilinear" "bilinear" "bilinear" "bilinear" "bilinear" , however, the faster
calculation can lead to minor gray value deviations since the
faster algorithm is less accurate and only has an accuracy around
times the size of the image. Therefore, when
applying large scales 'int_zooming' "int_zooming" "int_zooming" "int_zooming" "int_zooming" "int_zooming" = 'false' "false" "false" "false" "false" "false"
is recommended.
Attention
The used coordinate system is the same as in
affine_trans_pixel affine_trans_pixel AffineTransPixel AffineTransPixel AffineTransPixel affine_trans_pixel
. This means that in fact not
HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
is applied but a modified version. Therefore,
applying projective_trans_image projective_trans_image ProjectiveTransImage ProjectiveTransImage ProjectiveTransImage projective_trans_image
corresponds to the following
chain of transformations, which is applied to each point (Row_i,
Col_i) of the image (input and output
pixels as homogeneous vectors):
As an effect, you might get unexpected results when creating projective
transformations based on coordinates that are derived from the
image, e.g., by operators like area_center_gray area_center_gray AreaCenterGray AreaCenterGray AreaCenterGray area_center_gray
. For
example, if you use this operator to calculate the center of gravity
of a rotationally symmetric image and then rotate the image around
this point using hom_mat2d_rotate hom_mat2d_rotate HomMat2dRotate HomMat2dRotate HomMat2dRotate hom_mat2d_rotate
, the resulting image will
not lie on the original one. In such a case, you can compensate this
effect by applying the following translations to HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
before using it in projective_trans_image projective_trans_image ProjectiveTransImage ProjectiveTransImage ProjectiveTransImage projective_trans_image
:
hom_mat2d_translate(HomMat2D, 0.5, 0.5, HomMat2DTmp)
hom_mat2d_translate_local(HomMat2DTmp, -0.5, -0.5, HomMat2DAdapted)
projective_trans_image(Image, TransImage, HomMat2DAdapted,
'bilinear', 'false', 'false')
For an explanation of the different 2D coordinate systems
used in HALCON, see the introduction of chapter
Transformations / 2D Transformations .
projective_trans_image projective_trans_image ProjectiveTransImage ProjectiveTransImage ProjectiveTransImage projective_trans_image
can be executed on OpenCL devices if the input
image does not exceed the maximum size of image objects of the selected
device and the parameter TransformDomain TransformDomain TransformDomain TransformDomain transformDomain transform_domain
is set to
'false' "false" "false" "false" "false" "false" . The result can diverge slightly from that calculated on
the CPU.
Execution Information
Supports OpenCL compute devices.
Multithreading type: reentrant (runs in parallel with non-exclusive operators).
Multithreading scope: global (may be called from any thread).
Automatically parallelized on tuple level.
Automatically parallelized on channel level.
Automatically parallelized on internal data level.
Parameters
Image Image Image Image image image
(input_object) (multichannel-)image(-array) →
object HImage HObject HImage Hobject (byte* / uint2* / real*) *allowed for compute devices
Input image.
TransImage TransImage TransImage TransImage transImage trans_image
(output_object) (multichannel-)image(-array) →
object HImage HObject HImage Hobject * (byte / uint2 / real)
Output image.
HomMat2D HomMat2D HomMat2D HomMat2D homMat2D hom_mat_2d
(input_control) hom_mat2d →
HHomMat2D , HTuple Sequence[float] HTuple Htuple (real) (double ) (double ) (double )
Homogeneous projective transformation matrix.
Interpolation Interpolation Interpolation Interpolation interpolation interpolation
(input_control) string →
HTuple str HTuple Htuple (string) (string ) (HString ) (char* )
Interpolation method for the transformation.
Default value:
'bilinear'
"bilinear"
"bilinear"
"bilinear"
"bilinear"
"bilinear"
List of values: 'bilinear' "bilinear" "bilinear" "bilinear" "bilinear" "bilinear" , 'nearest_neighbor' "nearest_neighbor" "nearest_neighbor" "nearest_neighbor" "nearest_neighbor" "nearest_neighbor"
AdaptImageSize AdaptImageSize AdaptImageSize AdaptImageSize adaptImageSize adapt_image_size
(input_control) string →
HTuple str HTuple Htuple (string) (string ) (HString ) (char* )
Adapt the size of the output image automatically?
Default value:
'false'
"false"
"false"
"false"
"false"
"false"
List of values: 'false' "false" "false" "false" "false" "false" , 'true' "true" "true" "true" "true" "true"
TransformDomain TransformDomain TransformDomain TransformDomain transformDomain transform_domain
(input_control) string →
HTuple str HTuple Htuple (string) (string ) (HString ) (char* )
Should the domain of the input image also be
transformed?
Default value:
'false'
"false"
"false"
"false"
"false"
"false"
List of values: 'false' "false" "false" "false" "false" "false" , 'true' "true" "true" "true" "true" "true"
List of values (for compute devices): 'false' "false" "false" "false" "false" "false"
Possible Predecessors
vector_to_proj_hom_mat2d vector_to_proj_hom_mat2d VectorToProjHomMat2d VectorToProjHomMat2d VectorToProjHomMat2d vector_to_proj_hom_mat2d
,
hom_vector_to_proj_hom_mat2d hom_vector_to_proj_hom_mat2d HomVectorToProjHomMat2d HomVectorToProjHomMat2d HomVectorToProjHomMat2d hom_vector_to_proj_hom_mat2d
,
proj_match_points_ransac proj_match_points_ransac ProjMatchPointsRansac ProjMatchPointsRansac ProjMatchPointsRansac proj_match_points_ransac
,
proj_match_points_ransac_guided proj_match_points_ransac_guided ProjMatchPointsRansacGuided ProjMatchPointsRansacGuided ProjMatchPointsRansacGuided proj_match_points_ransac_guided
,
hom_mat3d_project hom_mat3d_project HomMat3dProject HomMat3dProject HomMat3dProject hom_mat3d_project
See also
projective_trans_image_size projective_trans_image_size ProjectiveTransImageSize ProjectiveTransImageSize ProjectiveTransImageSize projective_trans_image_size
,
projective_trans_contour_xld projective_trans_contour_xld ProjectiveTransContourXld ProjectiveTransContourXld ProjectiveTransContourXld projective_trans_contour_xld
,
projective_trans_region projective_trans_region ProjectiveTransRegion ProjectiveTransRegion ProjectiveTransRegion projective_trans_region
,
projective_trans_point_2d projective_trans_point_2d ProjectiveTransPoint2d ProjectiveTransPoint2d ProjectiveTransPoint2d projective_trans_point_2d
,
projective_trans_pixel projective_trans_pixel ProjectiveTransPixel ProjectiveTransPixel ProjectiveTransPixel projective_trans_pixel
Module
Foundation