Developer Reference

  • 2020
  • 10/21/2020
  • Public Content
Contents

WarpAffineLinear

Performs warp affine transformation of an image using the linear interpolation method.

Syntax

IppStatus ippiWarpAffineLinear_<mod>(const Ipp<datatype>*
pSrc
, int
srcStep
, Ipp<datatype>*
pDst
, int
dstStep
, IppiPoint
dstRoiOffset
, IppiSize
dstRoiSize
, const IppiWarpSpec*
pSpec
, Ipp8u*
pBuffer
);
Supported values for
mod
:
8u_C1R
16u_C1R
16s_C1R
32f_C1R
64f_C1R
8u_C3R
16u_C3R
16s_C3R
32f_C3R
64f_C3R
8u_C4R
16u_C4R
16s_C4R
32f_C4R
64f_C4R
Include Files
ippi.h
Flavors with the
_L
suffix:
ippi_l.h
Domain Dependencies
Headers:
ippcore.h
,
ippvm.h
,
ipps.h
Libraries:
ippcore.lib
,
ippvm.lib
,
ipps.lib
Parameters
pSrc
Pointer to the source image.
srcStep
Distance, in bytes, between the starting points of consecutive lines in the source image buffer.
pDst
Pointer to the destination image ROI.
dstStep
Distance, in bytes, between the starting points of consecutive lines in the destination image buffer.
dstRoiOffset
Offset of the destination image ROI with respect to the destination image origin.
dstRoiSize
Size of the destination image ROI, in pixels.
pSpec
Pointer to the specification structure for the warp operation.
pBuffer
Pointer to the work buffer.
Description
This function transforms the source image pixel coordinates (
x
,
y
) according to the following formulas:
x
' =
c
00
*
x
+
c
01
*
y
+
c
02
y
' =
c
10
*
x
+
c
11
*
y
+
c
12
where
  • x
    ' and
    y
    ' are the pixel coordinates in the transformed image
  • c
    ij
    are the affine transform coefficients passed to the
    coeffs
    array during initialization
The affine warping is a general linear transform that incorporates such elementary transformations as scaling, rotation, translation, stretching, and shearing. It always transforms parallel lines into parallel lines and preserves equal distances between points on a line.
The
WarpAffineLinear
function operates with ROI. The transformed part of the image is resampled with the linear interpolation method and stored in the destination image ROI. You need to define the destination image ROI origin by the following parameters: the offset of the destination ROI with respect to the destination image origin and the destination image ROI size. The parameter
pSrc
must point to the source image origin. The parameter
pDst
must point to the processed destination image ROI.
If you initialize the specification structure using the
ippiWarpQuadLinearInit
function, the operations take place only inside the specified source quadrangle
srcQuad
that is set in
ippiWarpQuadLinearInit
.
To specify the algorithm for borders processing, set the
borderType
and
pBorderValue
parameters when initializing the
IppiWarpSpec
structure. The data type of
pBorderValue
is automatically converted from
Ipp64f
to the data type of the processed images. The function supports the following algorithms for borders processing:
  • If the border type is equal to
    ippBorderRepl
    , the source image outer pixels are replicated from the edge pixels.
  • If the border type is equal to
    ippBorderConst
    , the outer pixels are set to the constant value specified in
    pBorderValue
    .
  • If the border type is equal to
    ippBorderTransp
    or
    ippBorderInMem
    , destination image pixels mapped to the outer source image pixels are not changed.
Before using the
ippiWarpAffineLinear
function, you need to initialize the
IppiWarpSpec
structure using the
ippiWarpAffineLinearInit
function and compute the size of the external buffer
pBuffer
using the WarpGetBufferSize function.
To compute the affine transform parameters, use the GetAffineQuad, GetAffineBound, and GetAffineTransform functions.
For an example on how to use this function, refer to the WarpQuadNearestInit function description.
Return Values
ippStsNoErr
Indicates no error.
ippStsNullPtrErr
Indicates an error when one of the specified pointers is
NULL
.
ippStsNoOperation
Indicates a warning when width or height of the destination image is equal to zero.
ippStsBorderErr
Indicates an error if border type has an illegal value.
ippStsContextMatchErr
Indicates an error when context data is invalid.
ippStsNotSupportedModeErr
Indicates an error when the requested mode is not supported.
ippStsSizeErr
Indicates an error when width or height of the source or destination image ROI is negative.
ippStsStepErr
Indicates an error when the step value is not a multiple of data type.
ippStsOutOfRangeErr
Indicates an error when the destination image offset point is outside the destination image origin.
ippStsSizeWrn
Indicates a warning when the destination image ROI size is more than the destination image origin size.
ippStsWrongIntersectQuad
Indicates a warning that no operation is performed if the destination ROI has no intersection with the transformed source image origin.

Product and Performance Information

1

Intel's compilers may or may not optimize to the same degree for non-Intel microprocessors for optimizations that are not unique to Intel microprocessors. These optimizations include SSE2, SSE3, and SSSE3 instruction sets and other optimizations. Intel does not guarantee the availability, functionality, or effectiveness of any optimization on microprocessors not manufactured by Intel. Microprocessor-dependent optimizations in this product are intended for use with Intel microprocessors. Certain optimizations not specific to Intel microarchitecture are reserved for Intel microprocessors. Please refer to the applicable product User and Reference Guides for more information regarding the specific instruction sets covered by this notice.

Notice revision #20110804