diff options
Diffstat (limited to 'ast/ast_tester/timj.native')
-rw-r--r-- | ast/ast_tester/timj.native | 217 |
1 files changed, 0 insertions, 217 deletions
diff --git a/ast/ast_tester/timj.native b/ast/ast_tester/timj.native deleted file mode 100644 index fb54315..0000000 --- a/ast/ast_tester/timj.native +++ /dev/null @@ -1,217 +0,0 @@ - -COMMENT AST ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ AST -COMMENT AST WCS information in AST format AST -COMMENT AST See http://www.starlink.ac.uk/ast/ AST -COMMENT AST Beginning of AST data for FrameSet object AST -COMMENT AST ................................................................ AST -BEGAST_A= 'FrameSet' / Set of inter-related coordinate systems -NFRAME_A= 4 / Number of Frames in FrameSet -CURRNT_A= 4 / Index of current Frame -NNODE_A = 5 / Number of nodes in FrameSet -NOD1_A = 3 / Frame 1 is associated with node 3 -NOD2_A = 4 / Frame 2 is associated with node 4 -NOD3_A = 5 / Frame 3 is associated with node 5 -NOD4_A = 2 / Frame 4 is associated with node 2 -LNK2_A = 1 / Node 2 is derived from node 1 -LNK3_A = 1 / Node 3 is derived from node 1 -LNK4_A = 1 / Node 4 is derived from node 1 -LNK5_A = 1 / Node 5 is derived from node 1 -FRM1_A = ' ' / Frame number 1 -BEGAST_B= 'Frame ' / Coordinate system description -TITLE_A = 'Data grid indices; first pixel at (1&' / Title of coordinate system -CONTINUE ',1) ' -NAXES_A = 2 / Number of coordinate axes -DOMAIN_A= 'GRID ' / Coordinate system domain -AX1_A = ' ' / Axis number 1 -BEGAST_C= 'Axis ' / Coordinate axis -LABEL_A = 'Data grid index 1' / Axis Label -SYMBOL_A= 'g1 ' / Axis symbol -UNIT_A = 'pixel ' / Axis units -FORMAT_A= '%3.1f ' / Format specifier -ENDAST_A= 'Axis ' / End of object definition -AX2_A = ' ' / Axis number 2 -BEGAST_D= 'Axis ' / Coordinate axis -LABEL_B = 'Data grid index 2' / Axis Label -SYMBOL_B= 'g2 ' / Axis symbol -UNIT_B = 'pixel ' / Axis units -FORMAT_B= '%3.1f ' / Format specifier -ENDAST_B= 'Axis ' / End of object definition -ENDAST_C= 'Frame ' / End of object definition -FRM2_A = ' ' / Frame number 2 -BEGAST_E= 'Frame ' / Coordinate system description -TITLE_B = 'Pixel coordinates; first pixel at (-&' / Title of coordinate system -CONTINUE '128.5,-127.5)' -NAXES_B = 2 / Number of coordinate axes -DOMAIN_B= 'PIXEL ' / Coordinate system domain -AX1_B = ' ' / Axis number 1 -BEGAST_F= 'Axis ' / Coordinate axis -LABEL_C = 'Pixel coordinate 1' / Axis Label -SYMBOL_C= 'p1 ' / Axis symbol -UNIT_C = 'pixel ' / Axis units -FORMAT_C= '%3.1f ' / Format specifier -ENDAST_D= 'Axis ' / End of object definition -AX2_B = ' ' / Axis number 2 -BEGAST_G= 'Axis ' / Coordinate axis -LABEL_D = 'Pixel coordinate 2' / Axis Label -SYMBOL_D= 'p2 ' / Axis symbol -UNIT_D = 'pixel ' / Axis units -FORMAT_D= '%3.1f ' / Format specifier -ENDAST_E= 'Axis ' / End of object definition -ENDAST_F= 'Frame ' / End of object definition -FRM3_A = ' ' / Frame number 3 -BEGAST_H= 'Frame ' / Coordinate system description -TITLE_C = 'Axis coordinates; first pixel at (38&' / Title of coordinate system -CONTINUE '4,-381) ' -NAXES_C = 2 / Number of coordinate axes -DOMAIN_C= 'AXIS ' / Coordinate system domain -AX1_C = ' ' / Axis number 1 -BEGAST_I= 'Axis ' / Coordinate axis -LABEL_E = 'R.A. offset' / Axis Label -SYMBOL_E= 'a1 ' / Axis symbol -UNIT_E = 'arcsec ' / Axis units (arc-second) -ENDAST_G= 'Axis ' / End of object definition -AX2_C = ' ' / Axis number 2 -BEGAST_J= 'Axis ' / Coordinate axis -LABEL_F = 'Declination offset' / Axis Label -SYMBOL_F= 'a2 ' / Axis symbol -UNIT_F = 'arcsec ' / Axis units (arc-second) -ENDAST_H= 'Axis ' / End of object definition -ENDAST_I= 'Frame ' / End of object definition -FRM4_A = ' ' / Frame number 4 -BEGAST_K= 'SkyFrame' / Description of celestial coordinate system -NAXES_D = 2 / Number of coordinate axes -EPOCH_A = 2002.3822 / Julian epoch of observation -SYSTEM_A= 'FK5 ' / Coordinate system type -AX1_D = ' ' / Axis number 1 -BEGAST_L= 'SkyAxis ' / Celestial coordinate axis -ENDAST_J= 'SkyAxis ' / End of object definition -AX2_D = ' ' / Axis number 2 -BEGAST_M= 'SkyAxis ' / Celestial coordinate axis -ENDAST_K= 'SkyAxis ' / End of object definition -ISA_A = 'Frame ' / Coordinate system description -PROJ_A = 'gnomonic' / Description of sky projection -EQNOX_A = 2000.0 / Julian epoch of mean equinox -ENDAST_L= 'SkyFrame' / End of object definition -MAP2_A = ' ' / Mapping between nodes 1 and 2 -BEGAST_N= 'CmpMap ' / Compound Mapping -NIN_A = 2 / Number of input coordinates -ISA_B = 'Mapping ' / Mapping between coordinate systems -MAPA_A = ' ' / First component Mapping -BEGAST_O= 'WinMap ' / Map one window on to another -NIN_B = 2 / Number of input coordinates -INVERT_A= 0 / Mapping not inverted -ISA_C = 'Mapping ' / Mapping between coordinate systems -SFT1_A = -129.0 / Shift for axis 1 -SFT2_A = -128.0 / Shift for axis 2 -ENDAST_M= 'WinMap ' / End of object definition -MAPB_A = ' ' / Second component Mapping -BEGAST_P= 'CmpMap ' / Compound Mapping -NIN_C = 2 / Number of input coordinates -ISA_D = 'Mapping ' / Mapping between coordinate systems -MAPA_B = ' ' / First component Mapping -BEGAST_Q= 'MatrixMap' / Matrix transformation -NIN_D = 2 / Number of input coordinates -INVERT_B= 0 / Mapping not inverted -ISA_E = 'Mapping ' / Mapping between coordinate systems -M0_A = -1.454441E-5 / Forward matrix value -M1_A = 1.454441E-5 / Forward matrix value -FORM_A = 'Diagonal' / Matrix storage form -ENDAST_N= 'MatrixMap' / End of object definition -MAPB_B = ' ' / Second component Mapping -BEGAST_R= 'CmpMap ' / Compound Mapping -NIN_E = 2 / Number of input coordinates -ISA_F = 'Mapping ' / Mapping between coordinate systems -INVA_A = 1 / First Mapping used in inverse direction -MAPA_C = ' ' / First component Mapping -BEGAST_S= 'WcsMap ' / FITS-WCS sky projection -NIN_F = 2 / Number of input coordinates -INVERT_C= 1 / Mapping inverted -ISA_G = 'Mapping ' / Mapping between coordinate systems -TYPE_A = 'TAN ' / Gnomonic projection -ENDAST_O= 'WcsMap ' / End of object definition -MAPB_C = ' ' / Second component Mapping -BEGAST_T= 'CmpMap ' / Compound Mapping -NIN_G = 2 / Number of input coordinates -ISA_H = 'Mapping ' / Mapping between coordinate systems -INVA_B = 1 / First Mapping used in inverse direction -MAPA_D = ' ' / First component Mapping -BEGAST_U= 'SphMap ' / Cartesian to Spherical mapping -NIN_H = 3 / Number of input coordinates -NOUT_A = 2 / Number of output coordinates -INVERT_D= 0 / Mapping not inverted -ISA_I = 'Mapping ' / Mapping between coordinate systems -UNTRD_A = 1 / All input vectors have unit length -ENDAST_P= 'SphMap ' / End of object definition -MAPB_D = ' ' / Second component Mapping -BEGAST_V= 'CmpMap ' / Compound Mapping -NIN_I = 3 / Number of input coordinates -NOUT_B = 2 / Number of output coordinates -ISA_J = 'Mapping ' / Mapping between coordinate systems -MAPA_E = ' ' / First component Mapping -BEGAST_W= 'MatrixMap' / Matrix transformation -NIN_J = 3 / Number of input coordinates -INVERT_E= 0 / Mapping not inverted -ISA_K = 'Mapping ' / Mapping between coordinate systems -M0_B = 0.42556998 / Forward matrix value -M1_B = 0.77373887 / Forward matrix value -M2_A = 0.46927429 / Forward matrix value -M3_A = -0.51977523 / Forward matrix value -M4_A = 0.63350467 / Forward matrix value -M5_A = -0.57315403 / Forward matrix value -M6_A = -0.740759 / Forward matrix value -M7_A = 0.0 / Forward matrix value -M8_A = 0.67177087 / Forward matrix value -FORM_B = 'Full ' / Matrix storage form -ENDAST_Q= 'MatrixMap' / End of object definition -MAPB_E = ' ' / Second component Mapping -BEGAST_X= 'CmpMap ' / Compound Mapping -NIN_K = 3 / Number of input coordinates -NOUT_C = 2 / Number of output coordinates -ISA_L = 'Mapping ' / Mapping between coordinate systems -MAPA_F = ' ' / First component Mapping -BEGAST_Y= 'SphMap ' / Cartesian to Spherical mapping -NIN_L = 3 / Number of input coordinates -NOUT_D = 2 / Number of output coordinates -INVERT_F= 0 / Mapping not inverted -ISA_M = 'Mapping ' / Mapping between coordinate systems -UNTRD_B = 1 / All input vectors have unit length -ENDAST_R= 'SphMap ' / End of object definition -MAPB_F = ' ' / Second component Mapping -BEGAST_Z= 'SlaMap ' / Conversion between sky coordinate systems -NIN_M = 2 / Number of input coordinates -ISA_N = 'Mapping ' / Mapping between coordinate systems -NSLA_A = 1 / Number of conversion steps -SLA1_A = 'FK45Z ' / FK4 to FK5 J2000.0 (no PM or parallax) -SLA1A_A = 2002.3835 / Besselian epoch of FK4 coordinates -ENDAST_S= 'SlaMap ' / End of object definition -ENDAST_T= 'CmpMap ' / End of object definition -ENDAST_U= 'CmpMap ' / End of object definition -ENDAST_V= 'CmpMap ' / End of object definition -ENDAST_W= 'CmpMap ' / End of object definition -ENDAST_X= 'CmpMap ' / End of object definition -ENDAST_Y= 'CmpMap ' / End of object definition -MAP3_A = ' ' / Mapping between nodes 1 and 3 -BEGASTA_= 'UnitMap ' / Unit (null) Mapping -NIN_N = 2 / Number of input coordinates -ISA_O = 'Mapping ' / Mapping between coordinate systems -ENDAST_Z= 'UnitMap ' / End of object definition -MAP4_A = ' ' / Mapping between nodes 1 and 4 -BEGASTAA= 'WinMap ' / Map one window on to another -NIN_O = 2 / Number of input coordinates -ISA_P = 'Mapping ' / Mapping between coordinate systems -SFT1_B = -129.5 / Shift for axis 1 -SFT2_B = -128.5 / Shift for axis 2 -ENDASTA_= 'WinMap ' / End of object definition -MAP5_A = ' ' / Mapping between nodes 1 and 5 -BEGASTAB= 'WinMap ' / Map one window on to another -NIN_P = 2 / Number of input coordinates -ISA_Q = 'Mapping ' / Mapping between coordinate systems -SFT1_C = 387.0 / Shift for axis 1 -SCL1_A = -3.0 / Scale factor for axis 1 -SFT2_C = -384.0 / Shift for axis 2 -SCL2_A = 3.0 / Scale factor for axis 2 -ENDASTAA= 'WinMap ' / End of object definition -ENDASTAB= 'FrameSet' / End of object definition -COMMENT AST ................................................................ AST -COMMENT AST End of AST data for FrameSet object AST -COMMENT AST ---------------------------------------------------------------- AST |