LSST Applications 27.0.0,g0265f82a02+469cd937ee,g02d81e74bb+21ad69e7e1,g1470d8bcf6+cbe83ee85a,g2079a07aa2+e67c6346a6,g212a7c68fe+04a9158687,g2305ad1205+94392ce272,g295015adf3+81dd352a9d,g2bbee38e9b+469cd937ee,g337abbeb29+469cd937ee,g3939d97d7f+72a9f7b576,g487adcacf7+71499e7cba,g50ff169b8f+5929b3527e,g52b1c1532d+a6fc98d2e7,g591dd9f2cf+df404f777f,g5a732f18d5+be83d3ecdb,g64a986408d+21ad69e7e1,g858d7b2824+21ad69e7e1,g8a8a8dda67+a6fc98d2e7,g99cad8db69+f62e5b0af5,g9ddcbc5298+d4bad12328,ga1e77700b3+9c366c4306,ga8c6da7877+71e4819109,gb0e22166c9+25ba2f69a1,gb6a65358fc+469cd937ee,gbb8dafda3b+69d3c0e320,gc07e1c2157+a98bf949bb,gc120e1dc64+615ec43309,gc28159a63d+469cd937ee,gcf0d15dbbd+72a9f7b576,gdaeeff99f8+a38ce5ea23,ge6526c86ff+3a7c1ac5f1,ge79ae78c31+469cd937ee,gee10cc3b42+a6fc98d2e7,gf1cff7945b+21ad69e7e1,gfbcc870c63+9a11dc8c8f
LSST Data Management Base Package
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Functions
lsst.afw.geom._calculateSipWcsHeader Namespace Reference

Functions

 calculateSipWcsHeader (wcs, order, bbox, spacing, header=None)
 

Function Documentation

◆ calculateSipWcsHeader()

lsst.afw.geom._calculateSipWcsHeader.calculateSipWcsHeader ( wcs,
order,
bbox,
spacing,
header = None ) 
Generate a SIP WCS header approximating a given ``SkyWcs``

Parameters
----------
wcs : `lsst.afw.geom.SkyWcs`
    World Coordinate System to approximate as SIP.
order : `int`
    SIP order (equal to the maximum sum of the polynomial exponents).
bbox : `lsst.geom.Box2I`
    Bounding box over which to approximate the ``wcs``.
spacing : `float`
    Spacing between sample points.
header : `lsst.daf.base.PropertyList`, optional
    Header to which to add SIP WCS keywords.

Returns
-------
header : `lsst.daf.base.PropertyList`
    Header including SIP WCS keywords.

Examples
--------
>>> header = calculateSipWcsHeader(exposure.getWcs(), 3, exposure.getBBox(), 20)
>>> sipWcs = SkyWcs(header)

Definition at line 30 of file _calculateSipWcsHeader.py.

30def calculateSipWcsHeader(wcs, order, bbox, spacing, header=None):
31 """Generate a SIP WCS header approximating a given ``SkyWcs``
32
33 Parameters
34 ----------
35 wcs : `lsst.afw.geom.SkyWcs`
36 World Coordinate System to approximate as SIP.
37 order : `int`
38 SIP order (equal to the maximum sum of the polynomial exponents).
39 bbox : `lsst.geom.Box2I`
40 Bounding box over which to approximate the ``wcs``.
41 spacing : `float`
42 Spacing between sample points.
43 header : `lsst.daf.base.PropertyList`, optional
44 Header to which to add SIP WCS keywords.
45
46 Returns
47 -------
48 header : `lsst.daf.base.PropertyList`
49 Header including SIP WCS keywords.
50
51 Examples
52 --------
53 >>> header = calculateSipWcsHeader(exposure.getWcs(), 3, exposure.getBBox(), 20)
54 >>> sipWcs = SkyWcs(header)
55 """
56 transform = getPixelToIntermediateWorldCoords(wcs)
57 crpix = wcs.getPixelOrigin()
58 cdMatrix = wcs.getCdMatrix()
59 crval = wcs.getSkyOrigin()
60 gridNum = Extent2I(int(bbox.getWidth()/spacing + 0.5), int(bbox.getHeight()/spacing + 0.5))
61
62 sip = SipApproximation(transform, crpix, cdMatrix, Box2D(bbox), gridNum, order)
63
64 md = makeTanSipMetadata(sip.getPixelOrigin(), crval, sip.getCdMatrix(), sip.getA(), sip.getB(),
65 sip.getAP(), sip.getBP())
66
67 if header is not None:
68 header.combine(md)
69 else:
70 header = md
71
72 return header
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