LSSTApplications  19.0.0-14-gb0260a2+72efe9b372,20.0.0+7927753e06,20.0.0+8829bf0056,20.0.0+995114c5d2,20.0.0+b6f4b2abd1,20.0.0+bddc4f4cbe,20.0.0-1-g253301a+8829bf0056,20.0.0-1-g2b7511a+0d71a2d77f,20.0.0-1-g5b95a8c+7461dd0434,20.0.0-12-g321c96ea+23efe4bbff,20.0.0-16-gfab17e72e+fdf35455f6,20.0.0-2-g0070d88+ba3ffc8f0b,20.0.0-2-g4dae9ad+ee58a624b3,20.0.0-2-g61b8584+5d3db074ba,20.0.0-2-gb780d76+d529cf1a41,20.0.0-2-ged6426c+226a441f5f,20.0.0-2-gf072044+8829bf0056,20.0.0-2-gf1f7952+ee58a624b3,20.0.0-20-geae50cf+e37fec0aee,20.0.0-25-g3dcad98+544a109665,20.0.0-25-g5eafb0f+ee58a624b3,20.0.0-27-g64178ef+f1f297b00a,20.0.0-3-g4cc78c6+e0676b0dc8,20.0.0-3-g8f21e14+4fd2c12c9a,20.0.0-3-gbd60e8c+187b78b4b8,20.0.0-3-gbecbe05+48431fa087,20.0.0-38-ge4adf513+a12e1f8e37,20.0.0-4-g97dc21a+544a109665,20.0.0-4-gb4befbc+087873070b,20.0.0-4-gf910f65+5d3db074ba,20.0.0-5-gdfe0fee+199202a608,20.0.0-5-gfbfe500+d529cf1a41,20.0.0-6-g64f541c+d529cf1a41,20.0.0-6-g9a5b7a1+a1cd37312e,20.0.0-68-ga3f3dda+5fca18c6a4,20.0.0-9-g4aef684+e18322736b,w.2020.45
LSSTDataManagementBasePackage
calculateSipWcsHeader.py
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1 from lsst.geom import Extent2I, Box2D
2 from lsst.afw.geom import SipApproximation, getPixelToIntermediateWorldCoords
3 from lsst.afw.geom.wcsUtils import makeTanSipMetadata
4 
5 __all__ = ("calculateSipWcsHeader",)
6 
7 
8 def calculateSipWcsHeader(wcs, order, bbox, spacing, header=None):
9  """Generate a SIP WCS header approximating a given ``SkyWcs``
10 
11  Parameters
12  ----------
13  wcs : `lsst.afw.geom.SkyWcs`
14  World Coordinate System to approximate as SIP.
15  order : `int`
16  SIP order (equal to the maximum sum of the polynomial exponents).
17  bbox : `lsst.geom.Box2I`
18  Bounding box over which to approximate the ``wcs``.
19  spacing : `float`
20  Spacing between sample points.
21  header : `lsst.daf.base.PropertyList`, optional
22  Header to which to add SIP WCS keywords.
23 
24  Returns
25  -------
26  header : `lsst.daf.base.PropertyList`
27  Header including SIP WCS keywords.
28 
29  Examples
30  --------
31  >>> header = calculateSipWcsHeader(exposure.getWcs(), 3, exposure.getBBox(), 20)
32  >>> sipWcs = SkyWcs(header)
33  """
34  transform = getPixelToIntermediateWorldCoords(wcs)
35  crpix = wcs.getPixelOrigin()
36  cdMatrix = wcs.getCdMatrix()
37  crval = wcs.getSkyOrigin()
38  gridNum = Extent2I(int(bbox.getWidth()/spacing + 0.5), int(bbox.getHeight()/spacing + 0.5))
39 
40  sip = SipApproximation(transform, crpix, cdMatrix, Box2D(bbox), gridNum, order)
41 
42  md = makeTanSipMetadata(sip.getPixelOrigin(), crval, sip.getCdMatrix(), sip.getA(), sip.getB(),
43  sip.getAP(), sip.getBP())
44 
45  if header is not None:
46  header.combine(md)
47  else:
48  header = md
49 
50  return header
lsst::afw::geom.wcsUtils
Definition: __init__.py:1
lsst::afw::geom::SipApproximation
A fitter and results class for approximating a general Transform in a form compatible with FITS WCS p...
Definition: SipApproximation.h:94
lsst::afw::geom.calculateSipWcsHeader.calculateSipWcsHeader
def calculateSipWcsHeader(wcs, order, bbox, spacing, header=None)
Definition: calculateSipWcsHeader.py:8
lsst::afw::geom::getPixelToIntermediateWorldCoords
std::shared_ptr< TransformPoint2ToPoint2 > getPixelToIntermediateWorldCoords(SkyWcs const &wcs, bool simplify=true)
Return a transform from pixel coordinates to intermediate world coordinates.
Definition: SkyWcs.cc:564
lsst::geom
Definition: AffineTransform.h:36
lsst::geom::Extent2I
Extent< int, 2 > Extent2I
Definition: Extent.h:397
lsst::afw::geom::makeTanSipMetadata
std::shared_ptr< daf::base::PropertyList > makeTanSipMetadata(lsst::geom::Point2D const &crpix, lsst::geom::SpherePoint const &crval, Eigen::Matrix2d const &cdMatrix, Eigen::MatrixXd const &sipA, Eigen::MatrixXd const &sipB)
Make metadata for a TAN-SIP WCS without inverse matrices.
Definition: wcsUtils.cc:197
lsst::geom::Box2D
A floating-point coordinate rectangle geometry.
Definition: Box.h:413
lsst::afw::geom
Definition: frameSetUtils.h:40
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