Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsA Mapping # Mapping between coordinate systems InvA = 1 # First Mapping used in inverse direction MapA = # First component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin MatrixMap # Matrix transformation Nin = 2 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems M0 = 0.1 # Forward matrix value M1 = 1 # Forward matrix value Form = "Diagonal" # Matrix storage form End MatrixMap MapB = # Second component Mapping Begin WinMap # Map one window on to another Nin = 2 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems Sft1 = -0.0500000000000114 # Shift for axis 1 End WinMap End CmpMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsSimp = 1 # Mapping has been simplified IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin WinMap # Map one window on to another Nin = 2 # Number of input coordinates IsA Mapping # Mapping between coordinate systems Sft1 = -3129 # Shift for axis 1 Sft2 = -8 # Shift for axis 2 End WinMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin PermMap # Coordinate permutation Nin = 2 # Number of input coordinates Nout = 3 # Number of output coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems Out1 = 1 # Output coordinate 1 = input coordinate 1 Out2 = -1 # Output coordinate 2 = constant no. 1 Out3 = 2 # Output coordinate 3 = input coordinate 2 In1 = 1 # Input coordinate 1 = output coordinate 1 In2 = 3 # Input coordinate 2 = output coordinate 3 Nconst = 1 # Number of constants Con1 = 232.84 # Constant number 1 End PermMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin MatrixMap # Matrix transformation Nin = 3 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems M0 = 0.812968257918776 # Forward matrix value M1 = 0.582308004080753 # Forward matrix value M2 = 0 # Forward matrix value M3 = -0.582308004080753 # Forward matrix value M4 = 0.812968257918776 # Forward matrix value M5 = 0 # Forward matrix value M6 = 0 # Forward matrix value M7 = 0 # Forward matrix value M8 = 1 # Forward matrix value Form = "Full" # Matrix storage form End MatrixMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin WinMap # Map one window on to another Nin = 3 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems Sft1 = -1236.82078999603 # Shift for axis 1 Scl1 = 0.999999999977888 # Scale factor for axis 1 Sft2 = 586.515648677204 # Shift for axis 2 Scl2 = 0.999999999985306 # Scale factor for axis 2 Sft3 = 330420868230.796 # Shift for axis 3 Scl3 = 551361.368168752 # Scale factor for axis 3 End WinMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin CmpMap # Compound Mapping Nin = 3 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems Series = 0 # Component Mappings applied in parallel MapA = # First component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsSimp = 1 # Mapping has been simplified Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin MatrixMap # Matrix transformation Nin = 2 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems M0 = -3.28230370472069e-05 # Forward matrix value M1 = -1.68687502681513e-05 # Forward matrix value M2 = -1.68687502681513e-05 # Forward matrix value M3 = 3.28230370472069e-05 # Forward matrix value Form = "Full" # Matrix storage form End MatrixMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsSimp = 1 # Mapping has been simplified Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems InvA = 1 # First Mapping used in inverse direction MapA = # First component Mapping Begin WcsMap # FITS-WCS sky projection Nin = 2 # Number of input coordinates Invert = 1 # Mapping inverted IsA Mapping # Mapping between coordinate systems Type = "TAN" # Gnomonic projection End WcsMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 2 # Number of input coordinates IsA Mapping # Mapping between coordinate systems InvA = 1 # First Mapping used in inverse direction MapA = # First component Mapping Begin SphMap # Cartesian to Spherical mapping Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates Invert = 1 # Mapping inverted IsA Mapping # Mapping between coordinate systems UntRd = 1 # All input vectors have unit length PlrLg = 0 # Polar longitude (rad.s) End SphMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin MatrixMap # Matrix transformation Nin = 3 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems M0 = 0.0160398354926887 # Forward matrix value M1 = 0.967192049208341 # Forward matrix value M2 = 0.253539471533602 # Forward matrix value M3 = -0.0610660311421554 # Forward matrix value M4 = 0.254046334254542 # Forward matrix value M5 = -0.96526234770262 # Forward matrix value M6 = -0.998004841430097 # Forward matrix value M7 = 0 # Forward matrix value M8 = 0.0631374412063651 # Forward matrix value Form = "Full" # Matrix storage form End MatrixMap MapB = # Second component Mapping Begin SphMap # Cartesian to Spherical mapping Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems UntRd = 1 # All input vectors have unit length PlrLg = 4.96925054084174 # Polar longitude (rad.s) End SphMap End CmpMap End CmpMap End CmpMap End CmpMap MapB = # Second component Mapping Begin SlaMap # Conversion between sky coordinate systems Nin = 2 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems Nsla = 1 # Number of conversion steps Sla1 = "EQGAL" # J2000.0 equatorial (FK5) to galactic (IAU 1958) End SlaMap End CmpMap MapB = # Second component Mapping Begin CmpMap # Compound Mapping Nin = 1 # Number of input coordinates IsSimp = 1 # Mapping has been simplified Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems MapA = # First component Mapping Begin SpecMap # Conversion between spectral coordinate systems Nin = 1 # Number of input coordinates Invert = 0 # Mapping not inverted IsA Mapping # Mapping between coordinate systems Nspec = 2 # Number of conversion steps Spec1 = "FRTOVL" # Convert frequency to rel. velocity Spec1a = 330587960100 # Rest frequency (Hz) Spec2 = "VLTOVR" # Convert relativistic to radio velocity End SpecMap MapB = # Second component Mapping Begin ZoomMap # Zoom about the origin Nin = 1 # Number of input coordinates IsA Mapping # Mapping between coordinate systems Zoom = 0.001 # Zoom factor End ZoomMap End CmpMap End CmpMap MapB = # Second component Mapping Begin PermMap # Coordinate permutation Nin = 3 # Number of input coordinates Nout = 2 # Number of output coordinates IsA Mapping # Mapping between coordinate systems Out1 = 1 # Output coordinate 1 = input coordinate 1 Out2 = 3 # Output coordinate 2 = input coordinate 3 In1 = 1 # Input coordinate 1 = output coordinate 1 In2 = -1 # Input coordinate 2 = constant no. 1 In3 = 2 # Input coordinate 3 = output coordinate 2 Nconst = 1 # Number of constants Con1 = -0.000391559614368643 # Constant number 1 End PermMap End CmpMap End CmpMap End CmpMap End CmpMap End CmpMap End CmpMap