plotms

plotms(vis='', caltable='', gridrows=1, gridcols=1, rowindex=0, colindex=0, plotindex=0, xaxis='', xdatacolumn='', xframe='', xinterp='', yaxis='', ydatacolumn='', yframe='', yinterp='', yaxislocation='', selectdata=True, field='', spw='', timerange='', uvrange='', antenna='', scan='', correlation='', polarization='', antpos='', array='', observation='', intent='', feed='', msselect='', averagedata=True, avgchannel='', avgtime='', avgscan=False, avgfield=False, avgbaseline=False, avgantenna=False, avgspw=False, scalar=False, transform=True, freqframe='', restfreq='', veldef='RADIO', phasecenter='', extendflag=False, extcorr=False, extchannel=False, iteraxis='', xselfscale=False, yselfscale=False, xsharedaxis=False, ysharedaxis=False, customsymbol='False', symbolshape='autoscaling', symbolsize='2', symbolcolor='0000ff', symbolfill='fill', symboloutline='False', coloraxis='', customflaggedsymbol='False', flaggedsymbolshape='circle', flaggedsymbolsize='2', flaggedsymbolcolor='ff0000', flaggedsymbolfill='fill', flaggedsymboloutline='False', xconnector='', timeconnector=False, plotrange='', title='', titlefont=0, xlabel='', xaxisfont=0, ylabel='', yaxisfont=0, showmajorgrid=False, majorwidth=1, majorstyle='', majorcolor='B0B0B0', showminorgrid=False, minorwidth=1, minorstyle='', minorcolor='D0D0D0', showlegend=False, legendposition='', plotfile='', expformat='', verbose=True, exprange='', highres=False, dpi=-1, width=-1, height=-1, overwrite=False, showgui=True, clearplots=True, callib='', headeritems='', showatm=False, showtsky=False, showimage=False, colorizeoverlay=False)[source]

A plotter/interactive flagger for visibility data.

[Description] [Examples] [Development] [Details]

Parameters
  • vis (string=’’) - Input MS or CalTable (blank for none)

  • caltable (string=’’) - Input CalTable (blank for none)

  • gridrows (int=1) - Number of subplot rows

  • gridcols (int=1) - Number of subplot columns

  • rowindex (int=0) - Row location of the plot (0-based)

  • colindex (int=0) - Column location of the plot (0-based)

  • plotindex (int=0) - Index to address a subplot (0-based)

  • xaxis (string=’’) - Plot x-axis (blank for default/current)

    xaxis = amp
    • xdatacolumn (string=’’) - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    xaxis = amplitude
    • xdatacolumn (string=’’) - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    xaxis = phase
    • xdatacolumn (string=’’) - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    xaxis = real
    • xdatacolumn (string=’’) - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    xaxis = imag
    • xdatacolumn (string=’’) - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    xaxis = imaginary
    • xdatacolumn (string=’’) - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    xaxis = ant-ra
    • xframe (string=’’) - Coordinate frame to use for x-axis

    • xinterp (string=’’) - Interpolation method for x-axis

    xaxis = ant-dec
    • xframe (string=’’) - Coordinate frame to use for x-axis

    • xinterp (string=’’) - Interpolation method for x-axis

  • yaxis (variant=’’) - Plot y-axis (blank for default/current)

    yaxis = amp
    • ydatacolumn (variant=’’) - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    yaxis = amplitude
    • ydatacolumn (variant=’’) - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    yaxis = phase
    • ydatacolumn (variant=’’) - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    yaxis = real
    • ydatacolumn (variant=’’) - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    yaxis = imag
    • ydatacolumn (variant=’’) - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    yaxis = imaginary
    • ydatacolumn (variant=’’) - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.

    yaxis = ant-ra
    • yframe (variant=’’) - Coordinate frame to use for y-axis

    • yinterp (variant=’’) - Interpolation method for y-axis

    yaxis = ant-dec
    • yframe (variant=’’) - Coordinate frame to use for y-axis

    • yinterp (variant=’’) - Interpolation method for y-axis

  • yaxislocation (variant=’’) - Location of the y-axis (blank for default: left)

  • selectdata (bool=True) - Enable data selection parameters

    selectdata = True
    • field (string=’’) - Field names or ids (blank for all)

    • spw (string=’’) - Spectral windows:channels (blank for all)

    • timerange (string=’’) - Time range (blank for all)

    • uvrange (string=’’) - UV range (blank for all)

    • antenna (string=’’) - Baseline/antenna names or ids (blank for all)

    • scan (string=’’) - Scan numbers (blank for all)

    • correlation (string=’’) - Correlations/polarizations (blank for all)

    • polarization (string=’’) - Polarizations (blank for all)

    • antpos (string=’’) - Antenna positions (blank for all)

    • array (string=’’) - (Sub)array numbers (blank for all)

    • observation (string=’’) - Observation IDs (blank for all)

    • intent (string=’’) - Observing intent (blank for all)

    • feed (string=’’) - Feed numbers (blank for all)

    • msselect (string=’’) - MSSelection TaQL string (blank for none)

  • averagedata (bool=True) - Enable data averaging parameters

    averagedata = True
    • avgchannel (string=’’) - Average over channel (blank = False, otherwise value in channels)

    • avgtime (string=’’) - Average over time (blank = False, otherwise value in seconds)

    • avgscan (bool=False) - Average over scans. Only valid with time averaging

    • avgfield (bool=False) - Average over fields. Only valid with time averaging

    • avgbaseline (bool=False) - Average over all baselines (mutually exclusive with avgantenna)

    • avgantenna (bool=False) - Average per antenna (mutually exclusive with avgbaseline)

    • avgspw (bool=False) - Average over all spectral windows

    • scalar (bool=False) - Scalar averaging (False=vector averaging)

  • transform (bool=True) - Enable data transformations

    transform = True
    • freqframe (string=’’) - The frame in which to render frequency and velocity axes

    • restfreq (string=’’) - Rest frequency to use for velocity conversions

    • veldef (string=’RADIO’) - The definition in which to render velocity

    • phasecenter (string=’’) - The direction coordinates of the desired center

  • extendflag (bool=False) - Extend flagging to other data points not plotted

    extendflag = True
    • extcorr (bool=False) - Extend flags based on correlation

    • extchannel (bool=False) - Extend flags based on channel

  • iteraxis (string=’’) - The axis over which to iterate

    iteraxis != ''
    • xselfscale (bool=False) - When True, iterated plots have a common x-axis range (scale).

    • yselfscale (bool=False) - When True, iterated plots have a common y-axis range (scale).

    • xsharedaxis (bool=False) - Iterated plots on a grid share a common external x-axis per column. Must also set xselfscale=True and gridrows>1.

    • ysharedaxis (bool=False) - Iterated plots on a grid share a common external y-axis per row. Must also set yselfscale=True and gridcols>1.

  • customsymbol (variant=’False’) - Enable custom symbol(s) for unflagged points

    customsymbol = True
    • symbolshape (variant=’autoscaling’) - Shape of plotted unflagged symbols

    • symbolsize (variant=’2’) - Size of plotted unflagged symbols

    • symbolcolor (variant=’0000ff’) - Color (name or hex code) of plotted unflagged symbols

    • symbolfill (variant=’fill’) - Fill type of plotted unflagged symbols

    • symboloutline (variant=’False’) - Outline plotted unflagged symbols

  • coloraxis (string=’’) - Selects data axis for colorizing

  • customflaggedsymbol (variant=’False’) - Enable custom symbol(s) for flagged points

    customflaggedsymbol = True
  • xconnector (string=’’) - Set connector for data points (blank=”none”; “line”,”step”)

    xconnector = line
    • timeconnector (bool=False) - Connect points by time rather than x-axis

    xconnector = step
    • timeconnector (bool=False) - Connect points by time rather than x-axis

  • plotrange (doubleVec=’’) - Plot axes ranges: [xmin,xmax,ymin,ymax]

  • title (string=’’) - Title at top of plot

  • titlefont (int=0) - Font size for plot title

  • xlabel (string=’’) - Text for horizontal x-axis. Blank for default.

  • xaxisfont (int=0) - Font size for x-axis label

  • ylabel (string=’’) - Text for vertical y-axis. Blank for default.

  • yaxisfont (int=0) - Font size for y-axis label

  • showmajorgrid (bool=False) - Show major grid lines

    showmajorgrid = True
    • majorwidth (int=1) - Line width in pixels of major grid lines

    • majorstyle (string=’’) - Major grid line style

    • majorcolor (string=’B0B0B0’) - Color (name or hex code) of major grid lines

  • showminorgrid (bool=False) - Show minor grid lines

    showminorgrid = True
    • minorwidth (int=1) - Line width in pixels of minor grid lines

    • minorstyle (string=’’) - Minor grid line style

    • minorcolor (string=’D0D0D0’) - Color (name or hex code) of minor grid lines

  • showlegend (bool=False) - Show a legend on the plot.

    showlegend = True
    • legendposition (string=’’) - Legend position, default upperRight.

  • plotfile (string=’’) - Name of plot file to save automatically

    plotfile != ''
    • expformat (string=’’) - Export format type. If not provided, plotfile extension will be used to determine type.

    • verbose (bool=True) - Include metadata in text export

    • exprange (string=’’) - Range of iteration plots to export, one plotfile per page. Multipage pdf exports are not supported.

    • highres (bool=False) - Use high resolution

    • dpi (int=-1) - DPI of exported plot

    • width (int=-1) - Width in pixels of exported plot

    • height (int=-1) - Height in pixels of exported plot

    • overwrite (bool=False) - Overwrite plot file if it already exists

  • showgui (bool=True) - Show GUI

    showgui = True
    • clearplots (bool=True) - Remove any existing plots so new ones can replace them.

    showgui = False
    • clearplots (bool=True) - Remove any existing plots so new ones can replace them.

  • callib (stringVec=’’) - Calibration library string or filename for on-the-fly calibration.

  • headeritems (string=’’) - Comma-separated list of pre-defined page header items.

  • showatm (bool=False) - Compute and overlay the atmospheric transmission curve

  • showtsky (bool=False) - Compute and overlay the sky temperature curve

  • showimage (bool=False) - Compute and overlay the image sideband curve

  • colorizeoverlay (bool=False) - Colorize the curve overlay using coloraxis

Description

Warning

There are Known Issues for plotms.

plotms is a task for plotting and interacting with visibility and calibration data. A variety of axes choices (including data column) along with selection and averaging options are provided. All of the provided parameters can also be set using the GUI once the application has been launched. Additional operations are available through the GUI such as marking a region then using the Locate tool to list information about the points in the plot, or using the Flag and Unflag tools to change the flags in the marked region. Flag extension parameters are also available for flagging operations in the plotter.

Support for calibration table plotting is included in plotms. Most basic plotms functions (plotting, selection, averaging, iteration, locate, summary, flagging) will work for most CalTables. Parameterized CalTables (delay, antpos, gaincurve, opacity, fringefit) will currently just plot the simple parameters contained in the table. Baseline-based A and M tables are supported; X tables are not yet supported. Transformations (velocity conversions, etc.) are currently unsupported for CalTables. In the plotms GUI, many options irrelevant for CalTables (some selection and axis choices) are not hidden when interacting with a calibration table, and such settings will be ignored (when benign) or cause an error message.

In CASA6, plotms has no return value but may throw an exception.

For a detailed explanation of the plotms GUI and its corresponding task parameters, see the documentation on using plotms under Data Examination and Editing.

Parameter Descriptions

The options for each parameter are explained in detail below. The parameter’s default value, if any, will be described.

Plotter settings

  • showgui

    • Whether to show or hide the GUI window

    • True (default): show the GUI window (False=hide).

    • The casaplotms process runs in the background whether the GUI is shown or not.

Input Dataset

  • vis

    • The directory name of the input MeasurementSet or CalTable. The path is needed if this directory is not in the current working directory.

    • “” (default) : launch casaplotms without plotting unless caltable is set.

    • If input file not found: plotms issues a warning and does not launch or, if already launched, does not update.

  • caltable

    • The directory name of the input CalTable. The path is needed if this directory is not in the current working directory.

    • “” (default) : launch casaplotms without plotting unless vis is set.

    • If input file not found: plotms issues a warning and does not launch or, if already launched, does not update.

Page and Subplot Settings

  • gridrows

    • Number of subplot rows in each page of plots. There is no maximum, but consider legibility for larger grids.

    • 1 (default): one plot per row

  • gridcols

    • Number of subplot columns in each page of plots There is no maximum, but consider legibility for larger grids.

    • 1 (default): one plot per column

  • rowindex

    • Row location of this subplot (0-based), used to indicate location of plot in grid. If iteraxis is enabled for the subplot, this indicates where to put the first plot.

    • 0 (default): locate the plot in the first row.

  • colindex

    • Column location of this subplot (0-based), used to indicate location of plot in grid. If iteraxis is enabled for the subplot, this indicates where to put the first plot.

    • 0 (default): locate the plot in the first column.

  • plotindex

    • Index of subplot (0-based). When there is more than one plot on a page (overplot or on a grid without iteration), each plot should increment the plotindex by 1 and set clearplots=False. If a plotindex is skipped, plotms will adjust the plotindex with a message to the user.

    • 0 (default): first (and possibly only) plot

  • clearplots

    • Make a new plot (remove existing plots) or overplot/add plot to grid.

    • True (default): make a new plot.

Iteration

iteraxis

  • axis over which to iterate plots, one per page or per grid location.

  • “” (default) : no iteration.

  • Options: ‘scan’, ‘field’, ‘spw’, ‘baseline’, ‘antenna’, ‘time’, ‘corr’. For cal tables, ‘poln’. For KAntPos Jones tables, ‘antpos’.

  • Each plot shows all of the points in the cache associated with the current iteration value. This means that when iterating over ‘antenna’ for a CalTable, the plot for the reference antenna shows all of the other antennas, since their baselines include the reference antenna.

  • Iteration changes the plot title, appending the iteraxis and the iteration value, e.g. “Amp vs. Time Spw: 9”.

  • Subparameters are enabled when iteraxis is set:

  • xselfscale, yselfscale

    • all axes in iterated plots will have the same scale (axis range and tick marks).

    • False (default) : scale the each plot individually.

  • xsharedaxis, ysharedaxis

    • iterated plots on a grid share a single x-axis (top or bottom of the grid) in each column, or a single y-axis (left or right of the grid) in each row. Must also set xselfscale=True, yselfscale=True.

    • False (default) : each plot has its own x-axis and y-axis.

    • xsharedaxis=True ignored with warning when gridrows=1.

    • ysharedaxis=True ignored with warning when gridcols=1.

Axes and Calibration

  • xaxis, yaxis

    • What to plot on the xaxis and yaxis

    • “” (default) : use the default axis for the dataset

    • Default xaxis

      • For MeasurementSets, the default xaxis is ‘time’.

      • For CalTables, the default xaxis depends on the cal table type. For most types, this is ‘time’, i.e. for G Jones and GSPLINE; ‘chan’ for B Jones and B TSYS; ‘freq’ for BPOLY; ‘ant1’ for D Jones, K Jones, and KAntPos.

    • Default yaxis

      • For MeasurementSets, the default yaxis is ‘amp’.

      • For CalTables, the default yaxis depends on the cal table type. For most types, this is ‘gainamp’. For K Jones (delay) and Fringe Jones (fringefit) tables the default is ‘delay’. For KAntPos Jones tables, the default is ‘antpos’. For GSPLINE tables, the default yaxis depends on the POLY_MODE column: if “AMP”or “A&P” the default is ‘gainamp’, if “PHAS” the default is ‘gainphase’.

    • yaxis can be a list, e.g. yaxis=[‘amp’,’phase’] to plot more than one yaxis for a dataset on the same plot. You may choose to set different axis locations for multiple yaxes (see yaxislocation).

    • Subparameters xdatacolumn and ydatacolumn are enabled when xaxis and yaxis are visibility axes, respectively.

  • Axis options, with synonyms in parentheses and ordered by type, are in the following subsections.

Metadata Axes

  • ‘scan’

    • scan number from the SCAN_NUMBER column, as shown in listobs.

    • When averaging over scans is enabled, the scan value for each bin is the first scan number in the averaged data, independent of unflagged/flagged data.

  • ‘field’

    • index from the FIELD_ID column which references a row in the FIELD subtable, as shown in listobs.

    • When averaging over fields is enabled, the field value for each bin is the first field id in the averaged data, independent of unflagged/flagged data.

  • ‘time’

    • timestamps from the TIME column, converted for display to time format HH:MM:SS.S (precision depends on the interval between tick marks).

    • When time averaging is enabled, the average of the timestamps in each bin is used for the time values.

  • ‘interval’ (‘timeint’, ‘timeinterval’, ‘time_interval’)

    • integration time values from the INTERVAL column, in seconds.

    • Not supported for CalTables.

  • ‘spw’

    • spectral window IDs, as shown in listobs.

    • For MeasurementSets, the data description ID is used to reference a row in the DATA_DESCRIPTION subtable, then the spw index value is retrieved from the row’s SPECTRAL_WINDOW column. This index references a row in the SPECTRAL_WINDOW subtable.

    • For CalTables, the index from the main table SPECTRAL_WINDOW column which references a row in the SPECTRAL_WINDOW subtable.

  • ‘chan’ (‘channel’)

    • index into the number of channels in the selected spws, ranging 0~nChan.

    • When channel averaging is enabled, the channel numbers are re-indexed starting at 0 to reflect the bin number, not the averaged channel number.

  • freq’ (‘frequency’)

    • the CHAN_FREQ column in the SPECTRAL_WINDOW subtable, in GHz. This is an array of frequencies, one per channel.

    • The frame can be set with the freqframe parameter.

    • When channel averaging is enabled, the average of the frequencies in each bin is used.

  • ‘vel’ (‘velocity’)

    • velocity in km/s, as defined by the freqframe, veldef, and restfreq parameters. Converted from frequencies (’freq’) using the measures (me) tool.

    • Not supported for CalTables.

    • When channel averaging is enabled, the average of the velocities in each bin is used.

  • ‘corr’ (‘correlation’)

    • correlation IDs (for MeasurementSets) or polarization IDs (for CalTables).

    • For MeasurementSets, the data description ID is used to reference a row in the DATA_DESCRIPTION subtable, then the polarization index value is retrieved from the row’s POLARIZATION_ID column. This index references a row in the POLARIZATION subtable and the values are obtained from the CORR_TYPE column. These IDs correspond to values RR (5), RL (6), LR (7), LL (8), XX (9), XY (10), YX (11), and YY (12).

    • For CalTables, ‘corr’ is the index into the number of polarizations in the first axis of the array in the CPARAM/FPARAM column. The CalTable’s PolBasis keyword may indicate whether the polarizations are linear (0=X, 1=Y) or circular (0=R, 1=L). If not, the index 0 or 1 is used. For antenna position (KAntPos Jones) tables, ‘corr’ refers to the x, y, and z position offsets in the first axis of the FPARAM column. See also: calibration axes ‘poln’ and ‘antpos’.

  • ‘ant1’ (‘antenna1’)

    • the ID of the first antenna in a baseline pair, as shown in listobs.

    • index from the ANTENNA1 column which references a row in the ANTENNA subtable.

  • ‘ant2’ (‘antenna2’)

    • the ID of the second antenna in a baseline pair, as shown in listobs.

    • index from the ANTENNA2 column which references a row in the ANTENNA subtable.

    • Some CalTables have antenna2 IDs of -1, indicating this column is irrelevant to the table.

  • ‘baseline’

    • unique number for all antenna baselines, computed as follows for a particular row (where ant1 is the antenna1 ID and ant2 is the antenna2 ID for that row): (nAnts+1)*ant1-(ant1*(ant1+1))/2+ant2

  • ‘row’

    • index into the number of rows, ranging 0~nRow.

    • For a selected table (see selectdata), these are not the same as the row numbers in the original MeasurementSet.

    • Not supported for CalTables.

  • ‘observation’

    • index from the OBSERVATION_ID column which references a row in the OBSERVATION subtable, which contains information about the observer, project, and telescope as shown in listobs.

    • Some CalTables have observation IDs of -1, indicating this column is irrelevant to the table. Often there is no OBSERVATION subtable.

  • ‘intent’

    • index from the STATE_ID column which references a row in the STATE subtable. This includes OBS_MODE information about the Scan Intent as shown in listobs.

    • Some MeasurementSets and CalTables have state IDs of -1, indicating this column is irrelevant to the table. Often there is no STATE subtable or it has zero rows.

  • ‘feed1’

    • the first feed number, most useful for single-dish data with multi-feed receivers.

    • index from the FEED1 column which references a row in the FEED subtable.

    • Not supported for CalTables.

  • ‘feed2’

    • the second feed number, most useful for single-dish data with multi-feed receivers.

    • index from the FEED2 column which references a row in the FEED subtable.

    • Not supported for CalTables.

Visibility and Flag Axes

  • ‘amp’ (‘amplitude’)

    • amplitude of the complex visibility cube from the MeasurementSet data column specified in the datacolumn parameter.

    • If only the FLOAT_DATA column exists, the float values are plotted and the axis is labeled “Amp:float”.

    • For residual data columns, vector (complex) subtraction or division occurs before the amplitude is computed. When averaging is enabled, the averaged data for each column is used for the subtraction or division, then the amplitude is taken.

    • For CalTables with complex parameters (CPARAM column), this axis is relabeled “Gain Amp”. For CalTables with float parameters (FPARAM column), the float values are plotted and the axis is relabeled appropriately, e.g. “Delay”, “SwPower”, “Tsys”, “Opac”, etc.

  • ‘phase’

    • phase of the complex visibility cube from the MeasurementSet data column specified in the datacolumn parameter, in degrees.

    • Not valid if only non-complex FLOAT_DATA column exists.

    • For residual data columns, vector (complex) subtraction or division occurs before the phase is computed. When averaging is enabled, the averaged data for each column is used for the subtraction or division, then the phase is taken.

    • For CalTables with complex parameters (CPARAM column), this axis is relabeled “Gain Phase”. Not valid for CalTables with non-complex float parameters (FPARAM column).

  • ‘real’

    • the real part of the complex visibility cube from the MeasurementSet data column specified in the datacolumn parameter.

    • If only the FLOAT_DATA column exists, the float values are plotted and the axis is labeled “Amp:float”.

    • For residual data columns, vector (complex) subtraction or division occurs before the real part is computed. When averaging is enabled, the averaged data for each column is used for the subtraction or division, then the real part is taken.

    • For CalTables with complex parameters (CPARAM column), this axis is relabeled ‘Gain Real’. Not valid for CalTables with non-complex float parameters (FPARAM column).

  • ‘imag’ (‘imaginary’)

    • the imaginary part of the complex visibility cube from the MeasurementSet data column specified in the datacolumn parameter.

    • Not valid if only non-complex FLOAT_DATA column exists.

    • For residual data columns, vector (complex) subtraction or division occurs before the imaginary part is computed. When averaging is enabled, the averaged data for each column is used for the subtraction or division, then the imaginary part is taken.

    • For CalTables with complex parameters (CPARAM column), this axis is re-labeled ‘Gain Imag’. Not valid for CalTables with non-complex float parameters (FPARAM column).

  • ‘wt’ (‘weight’)

    • values from the WEIGHT column, which reflects how much weight each corrected data sample (CORRECTED_DATA column) should receive when combined, e.g. in averaging. See also chapter on Data Weights.

    • Not supported for CalTables.

  • ‘wtamp’ (‘wt*amp’)

    • product of the weight from the WEIGHT column and the amplitude of the visibility cube from the requested data column. Not supported for CalTables.

  • ‘wtsp’ (‘weightspectrum’)

    • values from the WEIGHT_SPECTRUM column, which reflects per-channel frequency variations of the WEIGHT column. If this column does not exist, a warning is issued and WEIGHT is plotted instead. See also chapter on Data Weights.

    • Not supported for CalTables.

  • ‘sigma’

    • values from the SIGMA column, which reflects the rms noise of the DATA column. See also chapter on Data Weights.

    • Not supported for CalTables.

  • ‘sigmasp’ (‘sigmaspectrum’)

    • values from the SIGMA_SPECTRUM column, which reflects per-channel frequency variations of the SIGMA column. If this column does not exist, the values are derived. See also chapter on Data Weights.

    • Not supported for CalTables.

  • ‘flag’

    • boolean values from the FLAG column (0=unflagged, 1=flagged).

  • ‘flagrow’

    • boolean values from the FLAG_ROW column (0=no flags in row, 1=flags in row).

    • This can be inconsistent with FLAG, as it is not always updated as flags are changed.

Observational Geometry Axes

  • ‘uvdist’

    • uv distance (baseline separations), in meters. Calculated as sqrt(u*u+v*v), where u and v are values from the UVW column.

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘uvwave’ (’uvdistl’, ’uvdist_l’)

    • uv distance (baseline separations) as a function of frequency, in units of the observing wavelength λ (lambda).

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘u’

    • u in meters, from the UVW column.

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘v’

    • v in meters, from the UVW column.

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘w’

    • w in meters, from the UVW column.

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘uwave’

    • u in units of wavelength λ (lambda).

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘vwave’

    • v in units of wavelength λ (lambda).

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘wwave’

    • w in units of wavelength λ (lambda).

    • For CalTables, UVW is calculated from the Antenna subtable when it exists and antenna2 is defined.

  • ‘azimuth’

    • azimuth for the entire array, in degrees. Calculated from the FIELD table’s PHASE_DIR column and the observatory position, using the measures (me) tool.

    • Supported for CalTables where possible.

  • ‘elevation

    • elevation for the entire array, in degrees. Calculated from the FIELD table’s PHASE_DIR column and the observatory position, using the measures (me) tool.

    • Supported for CalTables where possible.

  • ‘hourang’ (‘hourangle’)

    • hour angle for the entire array, in units of hours. Calculated from the FIELD table’s PHASE_DIR column and the observatory position, using the measures (me) tool.

    • Supported for CalTables where possible.

  • ‘parang’ (‘parangle’, ‘parallacticangle’)

    • parallactic angle for the entire array, in degrees. Calculated from the FIELD table’s PHASE_DIR column and the observatory position, using the measures (me) tool .

    • Supported for CalTables where possible.

Antenna-based Axes

  • ‘antenna’ (‘ant’)

    • antenna IDs in range 0~nAnt, for plotting the antenna-based quantities below.

  • ‘ant-azimuth’

    • azimuth for each antenna, in degrees. Calculated from the FIELD table’s PHASE_DIR column and the positions in the ANTENNA table, using the measures (me) tool.

    • Not supported for CalTables.

  • ‘ant-elevation’

    • elevation for each antenna, in degrees. Calculated from the FIELD table’s PHASE_DIR column and the positions in the ANTENNA table, using the measures (me) tool.

    • Not supported for CalTables.

  • ‘ant-ra’

    • Only implemented for ALMA, ASTE, and NRO data.

    • longitude of the direction to which the first antenna of a baseline points at data-taking timestamps. Calculated by interpolating at data-taking timestamps POINTING table’s DIRECTION column, and converting the result to a user-specified reference frame. See xinterp, yinterp and xframe, yframe parameters below for supported interpolation methods and reference frames.

    • Not supported for CalTables.

    • Averaging not supported.

  • ‘ant-dec’

    • Only implemented for ALMA, ASTE, and NRO data.

    • latitude of the direction to which the first antenna of a baseline points at data-taking timestamps. Calculated by interpolating at data-taking timestamps POINTING table’s DIRECTION column, and converting the result to a user-specified reference frame. See xinterp, yinterp and xframe, yframe parameters below for supported interpolation methods and reference frames.

    • Not supported for CalTables.

    • Averaging not supported.

  • ‘ant-parang’ (‘ant-parangle’, ‘ant-parallacticangle’)

    • parallactic angle for each antenna, in degrees. Calculated from the FIELD table’s PHASE_DIR column and the positions in the ANTENNA table, using the measures (me) tool.

    • Not supported for CalTables.

Calibration Axes

  • ‘gainamp’ (‘gamp’)

    • Invalid for MeasurementSets.

    • amplitude of complex gain parameters (CPARAM column). For CalTables with float parameters (FPARAM column), the float values are plotted. For polynomial CalTables, including BPOLY and GSPLINE, the viscube values are calculated according to the POLY_MODE and their amplitudes are plotted.

    • When the default xaxis or yaxis parameter (“”) is used, the gainamp axis is relabeled with the axis appropriate for the table type. However, when the xaxis or yaxis is explicitly set to ‘gainamp’, the axis is labeled ”Gain Amplitude” although the float parameter values may actually be Tsys, opacity, etc.

  • ‘gainphase’ (‘ gphase’)

    • Invalid for MeasurementSets.

    • phase of complex gain parameters (CPARAM column). Invalid for CalTables with float parameters (FPARAM column). For polynomial CalTables, including BPOLY and GSPLINE, the viscube values are calculated according to the POLY_MODE and their phases are plotted.

  • ‘gainreal’ (‘greal’)

    • Invalid for MeasurementSets.

    • real part of complex gain parameters (CPARAM column). Invalid for CalTables with float parameters (FPARAM column). For polynomial CalTables, including BPOLY and GSPLINE, the viscube values are calculated according to the POLY_MODE and the real part is plotted.

  • ‘gainimag’ (‘gimag’)

    • Invalid for MeasurementSets.

    • imaginary part of complex gain parameters (CPARAM column). Invalid for CalTables with float parameters (FPARAM column). For polynomial CalTables, including BPOLY and GSPLINE, the viscube values are calculated according to the POLY_MODE and their phases are plotted.

  • ‘delay ’ (‘del’)

    • Invalid for MeasurementSets.

    • delay values of a delay or fringefit CalTable, from the FPARAM column. Invalid for other CalTable types.

  • ‘delayrate ’ (‘rate’)

    • Invalid for MeasurementSets.

    • delay rates of a fringefit CalTable, from the FPARAM column. Invalid for other CalTable types.

  • ‘dispdelay ’ (‘disp’)

    • Invalid for MeasurementSets.

    • dispersive delay values of a fringefit CalTable, from the FPARAM column. Invalid for other CalTable types.

  • ‘swpower’ (‘swp’, ‘switchedpower’, ‘spgain’)

    • Invalid for MeasurementSets.

    • switched power values for a VLA switched power CalTable, from the FPARAM column. Invalid for other CalTable types.

  • ‘tsys’

    • Invalid for MeasurementSets.

    • tsys of a Tsys CalTable, from the FPARAM column. Invalid for otherCalTable types.

  • ‘opacity’ (‘opac’)

    • Invalid for MeasurementSets.

    • opacity of an opacity CalTable, from the FPARAM column. Invalid for other CalTable types.

  • ‘snr’

    • Invalid for MeasurementSets.

    • signal-to-noise ratio of a CalTable, from the SNR column.

  • ‘tec’

    • Invalid for MeasurementSets.

    • total electron content of an ionosphere correction CalTable, from the FPARAM column. Invalid for other CalTable types.

  • ‘poln’ (‘polarization’)

    • polarization IDs for CalTables.

    • This is the index into the number of polarizations in the first axis of the array in the CPARAM/FPARAM column. If set, the CalTable’s PolBasis keyword indicates whether the polarizations are linear (0=X, 1=Y) or circular (0=R, 1=L). If PolBasis is not set, the index 0 or 1 is used.

  • ‘antpos’ (‘Antenna Position’)

    • antenna positions for KAntPos Jones CalTables.

    • The antenna positions are 0=X, 1=Y, 2=Z.

Ephemeris Axes

  • ‘radialvelocity’

    • radial velocity of an ephemeris field, in km/s. Valid only for MeasurementSets whose FIELD subtable has an ephemeris table.

    • Invalid for CalTables.

  • ‘distance’ (‘rho’)

    • distance (rho) of an ephemeris field, in km. Valid only for MeasurementSets whose FIELD subtable has an ephemeris table.

    • Invalid for CalTables.

Other Axis Settings

  • xdatacolumn, ydatacolumn

    • data column in the MeasurementSet from which to retrieve visibilities

    • “” (default) : ‘ data ’ (DATA column).

    • Subparameters of visibility axes only.

    • If a data column other than ‘ data’ is selected, the visibility axis in the plot title is appended with the data column name, e.g. “Amp:corrected vs. Time”.

    • For residual data columns:

      • Vector (complex) subtraction or division occurs before the axis operation (amplitude, phase, real, imaginary) is computed.

      • When the ‘corrected/model’ or ‘data/model’ data column is selected, some of the resulting values may be infinite or “not a number” due to division by zero. These values are ignored when plotting.

      • When averaging is enabled, each column’s data is averaged, then it is subtracted or divided, then the axis operation is computed.

      • Data residual columns ‘data-model’ and ‘data/model’ are invalid for singledish datasets. There are no float residual columns.

    • Options:

      • ‘data’

        • raw data. Use the DATA column in the MeasurementSet.

        • For singledish datasets, a warning is issued and FLOAT_DATA is plotted with “:float” appended to the visibility axis label.

      • ‘corrected’

        • calibrated data. Use the CORRECTED_DATA column in the MeasurementSet, or use on-the-fly calibration if callib parameter is set. Plotms will prefer OTF calibration over an existing CORRECTED_DATA column.

        • If no calibrated data can be used, a warning is issued and the raw data (DATA or FLOAT_DATA) is plotted instead.

      • ‘model’

        • model data. Use the MODEL_DATA column in the MeasurementSet.

        • For interferometry datasets, model data is created dynamically if it does not exist.

        • For singledish datasets with no model data, an error is issued and no plot is made.

      • ‘float’

        • non-complex data. Use the FLOAT_DATA column in the MeasurementSet. Primarily for single-dish data.

        • Fails if FLOAT_DATA does not exist.

      • ’corrected-model’ (’corrected-model_vector’, ’residual’)

        • subtract the model data from the corrected data before the amplitude, phase, etc. is calculated.

        • For interferometry datasets with no corrected data and cannot be generated with the callib parameter, a warning is issued and ‘data-model_vector’ is plotted.

        • For singledish datasets with no corrected data and/or no model data, an error is issued and no plot is made.

      • ’corrected-model_scalar’

        • subtract the model data from the corrected data after the amplitude, phase, etc. is calculated.

        • For interferometry datasets with no corrected data and cannot be generated with the callib parameter, a warning is issued and ‘data-model_scalar’ is plotted.

        • For singledish datasets with no corrected data and/or no model data, an error is issued and no plot is made.

      • ‘data-model’ (’data-model_vector’)

        • subtract the model data from the raw data before the amplitude, phase, etc. is calculated.

        • For interferometry datasets, model data is created dynamically if it does not exist.

        • Invalid for singledish datasets: no data or model columns. An error is issued and no plot is made.

      • ‘data-model’ (’data-model_scalar’)

        • subtract the model data from the raw data after the amplitude, phase, etc. is calculated.

        • For interferometry datasets, model data is created dynamically if it does not exist.

        • Invalid for singledish datasets: no data or model columns. An error is issued and no plot is made.

      • ‘corrected/model’ (‘corrected/model_vector’)

        • divide the corrected data by the model data before the amplitude, phase, etc. is calculated.

        • For interferometry datasets with corrected data, model data is created dynamically if it does not exist.

        • For interferometry datasets with no corrected data and cannot be generated with the callib parameter, a warning is issued and ‘data/model_vector’ is plotted.

        • For singledish datasets with no corrected data and/or no model data, an error is issued and no plot is made.

      • ‘corrected/model_scalar’

        • divide the corrected data by the model data after the amplitude, phase, etc. is calculated.

        • For interferometry datasets with corrected data, model data is created dynamically if it does not exist.

        • For interferometry datasets with no corrected data and cannot be generated with the callib parameter, a warning is issued and ‘data/model_scalar’ is plotted.

        • For singledish datasets with no corrected data and/or no model data, an error is issued and no plot is made.

      • ‘data/model’ (’data/model_vector’)

        • divide the raw data by the model data before the amplitude, phase, etc. is calculated..

        • For interferometry datasets, model data is created dynamically if it does not exist.

        • Invalid for singledish datasets: no data or model columns. An error is issued and no plot is made.

      • data/model_scalar

        • divide the raw data by the model data after the amplitude, phase, etc. is calculated..

        • For interferometry datasets, model data is created dynamically if it does not exist.

        • Invalid for singledish datasets: no data or model columns. An error is issued and no plot is made.

  • xinterp, yinterp

    • Sub-parameter of xaxis (resp. yaxis) when xaxis=’ant-ra’ or xaxis=’ant-dec’ (resp. yaxis=’ant-ra’ or yaxis=’ant-dec’)

    • Interpolation method to use for interpolating antennas’ pointing directions recorded in MeasurementSet’s POINTING table (DIRECTION and TIME columns) at data-taking timestamps (MAIN table, TIME column)

    • (default) : ‘ cubic spline ’

    • Options: ‘cubic spline’, ‘spline’, ‘nearest’

      • ‘spline’ is a synonym for ‘cubic spline’

  • xframe, yframe

    • Sub-parameter of xaxis (resp. yaxis) when xaxis=’ant-ra’ or xaxis=’ant-dec’ (resp. yaxis=’ant-ra’ or yaxis=’ant-dec’)

    • Convert antennas’ interpolated pointing directions to the supplied reference frame

    • “” (default) : ‘icrs’

    • Options: ‘icrs’, ‘j2000’,’b1950’,’galactic’,’azelgeo’

  • yaxislocation

    • whether to put the yaxis on the left or right.

    • “” (default) : left.

    • Options: ‘left’, ‘right’

    • Can be a string or list when yaxis is a list, e.g. (yaxis=[‘amp’, ‘phase’], yaxislocation=[‘left’, ‘right’]) will plot amp on the left yaxis and phase on the right yaxis.

    • xaxis location can be set in the GUI but there is no corresponding parameter.

  • plotrange

    • format is [xmin, xmax, ymin, ymax]; when min=max=0, autoscaling is used.

    • [] (default) : [0,0,0,0] to autoscale the x and y ranges.

    • You may autoscale one axis and not the other. For example, [0,0,0,10] will autoscale the xaxis but set the yaxis range to [0,10].

  • callib

    • calibration library string or filename to use for on-the-fly (OTF) calibration to produce calibrated data (the ‘ corrected ’ datacolumn).

    • “” (default): no calibration library

    • See Cal Library Syntax documentation. When this parameter is set, OTF calibration is enabled. Plotms will prefer OTF calibration over an existing CORRECTED_DATA column.

  • showatm, showtsky, showimage

    • overplot the atmospheric transmission curve or the sky temperature curve, with the yaxis on the right. The xaxis must be ‘chan’ or ‘ freq’, else the plot is made without the overlay.

    • False (default): no overlay.

    • Only one overlay may be chosen. If both are True, only the atmospheric curve is computed and plotted.

    • Overlays are computed with the atmosphere (atm) tool using pressure, humidity, temperature, and precipitable water vapor (pwv) computed from the MeasurementSet subtables:

      • The WEATHER subtable is used to compute mean weather values, else defaults are used. humidity: 20.0, temperature: 273.15, pressure: 563.0 (ALMA) or 786.0 (other).

      • The ALMA ASDM_CALWVR or ASDM_CALATMOSPHERE subtable is used to compute pwv, else defaults are used. 1.0 (ALMA), 5.0 (other).

    • When showimage=True, the image sideband curve is also plotted. This feature can only be used when showatm or showtsky is True. In addition, the MS (associated MS for a calibration table) cannot be split and must have an ASDM_RECEIVER table, or a warning is issued and the atm/tsky curve is plotted without the sideband curve.

  • colorizeoverlay

    • colorize the curve overlays when a curve (showatm or showtsky) is enabled and coloraxis is set.

    • False (default): use default solid color.

    • coloraxis will be applied to the curve overlays in a lighter tint of the color used in the plot.

Data Selection

  • parameter to enable data selection.

  • True (default) : data selection always enabled.

  • See MSSelection for syntax of subparameters below. All arguments are strings.

  • For all subparameters, “” (default) selects all (no selection).

  • Selection is done before averaging, calibration, plotting, etc.

  • Selection by uvrange, array, intent, and feed is invalid for CalTables, which do not have these columns.

  • field

    • select fields by name or ID.

  • spw

    • select spectral windows/channels.

  • timerange

    • select data based on time range.

  • uvrange

    • select data within uvrange (default meters), or include units: ‘0~1000klamba’.

    • Not supported for CalTables.

  • antenna

    • select baselines and auto/cross-correlations for MeasurementSet and baseline-based CalTable.

    • select antenna1 for antenna-based CalTable, including single-dish sky calibration table. Antenna-based CalTable with a reference antenna may use the ANT1&ANT2 syntax to select a reference antenna.

  • scan

    • select scan numbers.

  • correlation

    • select correlations for MeasurementSet including “RR”, “RL”, “LR”, “LL”, “XX”, “XY”, “YX”, and “YY”.

    • select standard Stokes parameters and polarization quantities, which will be computed if the MeasurementSet does not have the requested quantities. Options include “I”, “Q”, “U”, “V”, “Plinear”, “Ptotal”, “PFlinear”, “PFtotal”, and “Pangle”.

    • select polarizations for CalTable, including ratio plots. Options include “RL”, “R”, “L”, “XY”, “X”, “Y”, and “/”.

    • select antenna positions for KAntPos Jones CalTable. Options include “X”, “Y”, and “Z”.

  • polarization

    • select polarizations for CalTable, including ratio plots.

    • Options include “RL”, “R”, “L”, “XY”, “X”, “Y”, and “/”.

    • Ignored for MeasurementSets.

  • antpos

    • select antenna positions for KAntPos Jones CalTable.

    • Options include “X”, “Y”, “Z”, “XY”, “XZ”, “YZ”.

    • Ignored for MeasurementSets and other CalTable types.

  • array

    • select array ID.

    • Not supported for CalTables.

  • observation

    • select observation ID.

  • intent

    • select state ID or intent by name.

    • Not supported for CalTables.

  • feed

    • select feed IDs by number.

    • Note: as with antenna IDs, a single feed ID selection (e.g. feed=”1”) will only select where feed1 or feed2 is the selected ID but not both, unless “auto-correlation”-like syntax is used .

    • Not supported for CalTables.

  • msselect

    • select using TaQL expression.

Data Averaging

averagedata

  • parameter to enable data averaging.

  • True (default) : averaging always enabled.

  • For all subparameters, “” or False (default) does no averaging.

  • When averaging, plotms will prefer unflagged data. If an averaging bin contains any unflagged data at all, only the average of the unflagged will be shown. When flagging on a plot of averaged data, the flags will be applied to the unaveraged data in the MS.

  • When plotting weight axes with averaging enabled, the values are the weights applied to the averaged data, i.e. it is the sum not the average of the weight values.

  • Some axes are invalid or not implemented for some averaging modes. For example, you cannot plot weight axes when baseline, averaging, spw, or scalar averaging is enabled.

  • The result is a weighted average. When averaging corrected data, weight spectrum is used. When averaging raw data, sigma spectrum is used.

  • Normally, the data averaged together has the same scan number, field, baseline, and spw. Subparameters allow data to be averaged across these boundaries.

  • By default, data uses vector averaging, where the complex average is formed by averaging the complex values of the visibilities, then the amplitude or phase of the result is plotted. To compute the average of the amplitude or phase values instead, set scalar=True.

  • Averaging is supported for calibration tables except BPOLY and GSPLINE, which have an older table format.

  • avgchannel

    • Average data across the channel axis; value is number of channels to average together to form one output channel.

    • When plotting the ‘channel’ axis, output channel numbers are reindexed 0~nAvgChan, rather than using the average of the channel numbers in each bin, and the axis label is changed to “Average Channel”. When plotting the ‘frequency‘ or ‘velocity‘ axis, the average of the frequency or velocity values in each bin is used.

    • The plotms Locate tool indicates which channels were averaged together for a point in the plot, e.g. “Chan=<7~13>” which may be shown as channel 1 on the plot. The frequency of the point is labelled “Avg Freq” in the Locate output.

    • see mstransform description for channel averaging.

    • Combining channel averaging with channel selection is handled differently for MeasurementSets and calibration tables.

      • ‘MeasurementSet’

        • Each selected channel range is averaged separately.

        • When the avgchannel value is less than the number of channels selected in a range, the channels in each range are binned together and extra channels are dropped. For example, (spw=’0:10~20; 30~40’, avgchannel=’8’) will average channel bins [10~17] and [30~37] but drop channels [18~20] and [38~40]. Since each range is treated separately, the order of the channel ranges does not matter; (spw=’0:30~40; 10~20’, avgchannel=’8’) will have the same result.

        • When the avgchannel value is greater than the number of channels selected in a range, if a single range is selected, all selected channels are binned; if multiple ranges are selected and the binning fails for both ranges, an error is issued: “Channel selection does not allow to produce any output channel with the requested width.” For example, (spw=’0:10~20’, avgchannel=’15’) will average channels [10~20]. (spw=’0:10~20; 30~40’, avgchannel=’15’) will produce the error. (spw=’0:10~20; 30~50’, avgchannel=’15’) will average [30~44] only.

      • ‘Calibration Table’

        • Selected channel ranges are treated as contiguous to increase SNR.

        • When the avgchannel value is less than the number of channels selected, the channels are binned as if there were no gaps and extra channels are dropped. For example, (spw=’0:10~20; 30~40’, avgchannel=’8’) will average channel bins [10~17], [18~20, 30~34] to complete the bin, and drop [35~40]. The Locate tool will show the output channels as <10~17> and <18~34>. The order of the channel ranges does matter: (spw=’0:30~40; 10~20’, avgchannel=’8’) will bin [30~37], [38~40, 10~14] and drop [15~20]. The Locate tool will show the output channels as <30~37> and <38~14>.

        • When the avgchannel value is greater than the number of channels selected in a range, if a single range is selected, all selected channels are binned; if multiple ranges are selected, the channels are binned as if there were no gaps. For example, (spw=’0:10~20’, avgchannel=’15’) will average channels [10~20]. (spw=’0:10~20; 30~40’, avgchannel=’15’) will bin [10~20, 30~33] and drop [34~40]. The Locate tool will show the output channel as <10~33>. (spw=’0:10~20; 30~50’, avgchannel=’15’) will bin [10~20, 30~33], [34~48] and drop [49~50]. The Locate tool will show the output channels as <10~33> and <34~48>. Changing the selection order changes the averaging: (spw=’0:30~40; 10~20’, avgchannel=’15’) will bin [30~40, 10~13] and drop [14~20]. The Locate tool will show the output channel as <30~13>.

  • avgtime

    • Average data across the time axis; value string is number of seconds to average together.

    • “” (default): do not time-average data.

    • The “bins” of averaged data have the same scan number and field ID unless avgscan or avgfield are True.

    • The time value of each bin is the average of the timestamps in that bin.

  • avgscan

    • Ignore scan boundaries when time-averaging data; parameter ignored when avgtime is not set.

    • False (default): time-average data within individual scans.

    • The scan value of each bin is the first scan number in the bin, independent of unflagged/flagged data.

  • avgfield

    • Ignore field boundaries when time-averaging data; parameter ignored when avgtime is not set.

    • False (default): time-average data within individual fields.

    • The field value of each bin is the first field id in the bin, independent of unflagged/flagged data.

  • avgbaseline

    • Average data for all baselines together in each “chunk” (rows having the same scan number, field ID, spw, and correlation).

    • False (default): do not average data over baseline.

    • Exclusive with avgantenna.

  • avgantenna

    • Average data for each antenna separately in each “chunk” (rows having the same scan number, field ID, spw, and correlation).

    • False (default): do not average data per antenna.

    • Exclusive with avgbaseline.

  • avgspw

    • Average data over spectral window. For a given channel number, the channels in the spectral windows with that number are averaged together.

    • False (default): do not average data over spectral window.

  • scalar

    • Values like amplitude or phase of the individual complex values are calculated before averaging.

    • False (default) results in vector averaging: complex values are averaged, then the values for amp, phase, etc. are calculated.

    • Ignored when other averaging is not enabled.

Data Transformations

transform

  • parameter to enable transformations. Not implemented for CalTables.

  • False (default) disables subparameters below.

  • freqframe

    • the coordinate frame in which to render frequency and velocity axes.

    • “” (default) : use frame in which data were taken.

    • Options: “LSRK”, “LSRD”, “BARY”, “GEO”, “TOPO”, “GALACTO”, “LGROUP”, “CMB”

  • restfreq

    • the rest frequency to use in velocity conversions (MHz).

    • “” (default) : use spw central frequency and show relative velocity.

  • veldef

    • the velocity definition (Doppler ratio) to use in velocity conversions.

    • RADIO” (default)

    • Options: “RADIO”, “OPTICAL”, “TRUE” (Relativistic)

  • phasecenter

    • Direction coordinates of the desired phase center.

    • “” (default) : use phase center in MeasurementSet.

Interactive Flagging Extensions

extendflag

  • parameter to enable flag extensions according to subparameters.

  • False (default): do not extend flags.

  • extcorr

    • Extend flagging to unplotted correlations when extendflag=True, else ignored.

    • False (default) : do not extend flagging by correlation.

    • True : for example, if correlation RR is selected, plotted, and interactively flagged, correlations RL, LR, and LL will be flagged for the points in the marked region.

  • extchannel

    • Extend flagging to unplotted channels in the same spw when extendflag=True, else ignored.

    • False (default) : do not extend flagging by channel.

    • True : for example, if spw 0:0 (spw 0, channel 0) is selected, plotted, and interactively flagged, all channels in spw 0 will be flagged for the points in the marked region.

Display: Symbols

coloraxis

  • colorize the symbols based on the given axis. Points with the same value for that axis will be the same color.

  • “” (default) : do not colorize.

  • Options: “scan”, “field”, “spw”, “antenna1” (“ant1”), “antenna2” (“ant2”), “baseline”, “channel” (“chan”), “corr”, “time”, “observation”, “intent”. For cal tables, ‘poln’. For KAntPos Jones tables, ‘antpos’.

  • Overrides custom symbol settings below and xconnector colorization. Flagged points will be colorized according to the coloraxis.

  • For CalTables, colorization by “corr” usually refers to polarization, or you may select the “poln” coloraxis. For an antenna position (KAntPos Jones) table, the first axis contains the x, y, and z offsets so coloraxis=”corr” may be used to distinguish these values, or you may select the “antpos” coloraxis.

  • When showlegend=True, the colorized colors and values will be shown in the legend.

  • When colorizeoverlay=True and showatm=True or showtsky=True, the coloraxis will be applied to the curve overlays in a lighter tint of the color used in the plot.

customsymbol

  • parameter to enable custom symbol for unflagged data.

  • False (default) : disables subparameters below, symbols use default values (“blue” autoscaling).

  • symbolshape

    • set the shape of the symbol for points plotted.

    • “autoscaling” (default) changes the size according to the number of points; the shape is “pixel” for the highest range of points, “circle” otherwise.

    • Options: “autoscaling”, “circle”, “square”, “diamond”, “pixel”, “nosymbol” (do not show points)

  • symbolsize

    • set size in number of pixels.

  • symbolcolor

    • set color by RGB hex code or string color name e.g. ‘red’.

    • “0000ff” (default) is blue.

  • symbolfill

    • set fill pattern for symbol.

    • “fill” (default).

    • Options: “fill”, “mesh1”, “mesh2”, “mesh3”, “nofill”

  • symboloutline

    • outline the symbol.

    • False (default).

customflaggedsymbol

  • parameter to enable custom symbol for flagged data.

  • False (default) : disables subparameters below, shape is “nosymbol”.

  • True: show flagged points as red circles of size 2 (default), unless subparameters are set otherwise.

  • flaggedsymbolshape=”circle”, flaggedsymbolsize=2, flaggedsymbolcolor=”ff0000” (‘red’), flaggedsymbolfill=”fill”, flaggedsymboloutline=False

    • Subparameter defaults are shown. Their options are the same as for unflagged symbols, when customflaggedsymbol=True.

xconnector

  • parameter to enable connecting the data points by line or step along the xaxis; connected points will have the same metadata (including flag) with only the x-axis value changing. Points will be colorized based on their connection metadata. Unflagged points are not connected to flagged points, even when not displayed.

  • Supported for calibration tables only at present. When enabled for a MeasurementSet, a warning will be issued and the plot will complete without connection.

  • “none” (default), “line”, or “step”.

  • timeconnector

    • subparameter when xconnector is not “none”.

    • False (default). When True, connect the points which change by time only, irrespective of the x-axis value.

Display: Title, Axis Labels

  • title

    • Set title text.

    • “” (default) : yaxis vs. xaxis

    • Will append data column to visibility axis if not ‘data’.

    • Will prepend “Average” to axis, if axis is averaged.

    • Will append iteration axis and value to title, if iteraxis set.

  • titlefont

    • set the size of the title text.

    • 0 (default) : autosize the title according to the plot size, especially important when making a grid of plots.

  • xlabel, ylabel

    • set the xaxis or yaxis label.

    • “” (default) : label string for the axis plotted, e.g. use the label “Amp” for the axis ‘amp’.

  • xaxisfont, yaxisfont

    • set the axis label font size.

    • 0 (default) : autosize depending on the plot size.

Display: Plot Gridlines, Legend, Header

showmajorgrid

  • parameter to enable major gridlines (at labeled tick marks) and subparameters.

  • False (default): do not show major gridlines.

  • True: show solid black gridlines of width 1 unless subparameters are set otherwise.

  • Not to be confused with gridrows and gridcols, for making plots in a grid.

  • majorwidth

    • width of major gridlines, when major grid is enabled.

    • 0 (default) : automatically sets width to 1.

  • majorstyle

    • style of major gridlines, when major grid is enabled.

    • “solid” (default) when showmajorgrid=True.

    • Options: “solid”, “dash”, “dot”, “none”.

  • majorcolor

    • set color by RGB hex code or string color name, e.g. ‘blue’, when major grid is enabled.

    • “B0B0B0” (default): dark gray.

showminorgrid

  • parameter to enable minor gridlines (between labeled tick marks) and subparameters.

  • False (default): do not show show minor gridlines.

  • True: show solid light gray gridlines of width 1 unless subparameters are set otherwise.

  • minorwidth=1, minorstyle=”” (“solid”), minorcolor=”D0D0D0” (light gray)

    • Subparameter defaults are shown. Options are the same as for major gridlines, when showminorgrid=True.

showlegend

  • Show legend; useful when setting two y-axes or overplotting two plots on one canvas, with different colors for each yaxis/plot.

  • False (default) : do not show legend.

  • Legend is shown at upper right unless subparameter legendposition is set.

  • When coloraxis is set, the colorized colors and values will be shown in the legend.

legendposition

  • position of the legend, either inside the plot canvas (may cover part of the plot) or exterior to it.

  • None (default) when showlegend=False; set to ‘upperRight’ when showlegend=True.

  • Options: “upperRight”, “upperLeft”, “lowerRight”, “lowerLeft”, “exteriorRight”, “exteriorLeft”, “exteriorTop”, “exteriorBottom”

headeritems

  • Add plot header: comma-separated list of options in a string, e.g. headeritems=“filename, telescope”.

  • “” (default) : Do not show plot header.

  • Options: “filename”, “projid”, “telescope”, “observer”, “obsdate”, “obstime”, “targname”, “targdir”, “ycolumn”.

  • Items are always loaded into cache along with plotted axes, even if not requested, so that all of the disk I/O of the dataset is done at once.

  • Requested items will appear in the header even if no value is found for it in dataset.

  • The page header is only applicable to MeasurementSets. A header will be added to CalTable plots but with no values for requested items.

Plot Export

plotfile

  • filename for plot export. Enables subparameters to be set.

  • “” (default) : do not export the plot.

  • If no path is included in the filename, the plot will be exported to the current directory.

  • If the filename exists and overwrite=False (default), the plot and the export will fail with an error.

  • If the filename has no extension and expformat is set, the given filename will be used and the extension will not be added.

  • expformat

    • export format type.

    • “” (default) : use plotfile extension to determine type. If the plotfile has no extension, the export will fail.

    • Options: “jpg”, “png”, “pdf”, “ps”, “txt”

    • For ‘txt’ format, Locate information (x and y values plus metadata) for each point is exported to an ASCII text file. This can take some time and produce a large file when many points are plotted. Use averaging and selection to keep the file size manageable.

    • If the expformat does not match the plotfile extension (e.g. plotfile=’test.pdf’, expformat=’jpg’), both will take effect; a jpg file will be created with the name “test.pdf”. Not recommended!

  • verbose

    • include metadata in text export

    • True (default): When False, export only x and y values.

  • exprange

    • range of iteration plots to export, one plotfile per page. Multipage pdf exports are not supported. Ignored if iteraxis is not set.

    • “” (default) : current page only.

    • Options: “current”, “all”

  • highres

    • Export .jpg or .png plot in high resolution.

    • False (default) : screen resolution export not implemented. Plotms always exports a high resolution plot (high quality, no compression) for .png and .jpg formats.

  • dpi

    • set DPI (dots per inch) of exported plot.

    • -1 (default) : use Qt default settings.

  • width, height

    • set size of exported plot, in pixels (does not affect GUI plot).

    • -1 (default) : use default settings.

  • overwrite

    • overwrite existing plotfile.

    • False (default) : do not overwrite existing plotfile.

    • If False and plotfile exists, plotms will issue an error and fail to make the plot.

Examples

NOTE: These examples are not comprehensive, as plotms has a substantial list of parameters and allowed values! See the documentation on using plotms under Data Examination and Editing for details of the task parameters and how they correspond to settings in the GUI.

Default Plots (unflagged data only)

All that is really required is a dataset or cal table to plot. The first example will plot Amp vs. Time, the default axes for a MeasurementSet. The second plot will be Tsys vs. Channel, the default axes for the cal table type being plotted. By default, customflaggedsymbol=False and no flagged data is plotted. Since no averaging or selection is done, plotms will plot the entire dataset, which could take some time and substantial memory.

plotms(vis='test.ms')
plotms(vis='uid___A002_X99c183_X25b6.ms.tsys')

Change Default Axis and Datacolumn

Here we change the default datacolumn and axes. In the first example, yaxis=’amp’ is implied since it is the default.

plotms(vis='test.ms', ydatacolumn='corrected', xaxis='channel')
plotms(vis='test.ms', xaxis='elevation', yaxis='azimuth')

Plot Flagged Data

By setting customflaggedsymbol=True, plotms uses the default red circles for the flagged data. In the second example, a custom symbol is specified.

plotms(vis='test.ms', customflaggedsymbol=True)
plotms(vis='test.ms', customflaggedsymbol=True, flaggedsymbolshape='diamond', flaggedsymbolsize=5,
       flaggedsymbolcolor='00ff00', flaggedsymbolfill='mesh3')

Plot with Colorized Data

Note that the colorization overrides the default or custom color for all data, unflagged or flagged. In the following example, all data in the MS will be colorized according to its spectral window.

plotms(vis='test.ms', customflaggedsymbol=True, coloraxis='spw')

Plot with Data Selection

Note that all selections are strings, including numerical values. Refer to the documentation on Data Selection for an explanation of MeasurementSet selection. In the second example, the correlation parameter is used for polarization selection on a calibration table, and the result is plotted with the default axes Gain Amplitude vs. Time for this cal table type.

plotms(vis='test.ms', field='1', spw='0:3~10', antenna='1&2', scan='2~4', corr='XX,YY')
plotms(vis='bpphase.gcal', correlation='R')

Plot with Iteration

The first example plots one plot per page. The second example demonstrates iteration plots on a 2x2 grid. In the third example, all iteration plots are exported with the plotfile name appended with the iteration label and index, i.e. test_Scan2.jpg, test_Scan3_2.jpg, test_Scan4_3.jpg.

plotms(vis='test.ms', xaxis='freq', iteraxis='baseline')
plotms(vis='test.ms', xaxis='freq', iteraxis='baseline', gridrows=2, gridcols=2)
plotms(vis='test.ms', scan='2~4', iteraxis='scan', plotfile='test.jpg', exprange='all')

Plot with Averaging

In the first example, the avgtime value is in seconds. In the second example, the channel numbers plotted on the x-axis (‘chan’) will refer to the binned channels (0-based), not the averaged channel number for the bin. Use the Locate feature to find the channel range for each bin.

plotms(vis='test.ms', avgtime='1e8', avgscan=True)
plotms(vis='test.ms', xaxis='chan', avgchannel='128')

Using On-the-Fly Calibration

The calibration library to apply is contained in the file calibration.txt. By default, this sets Calibration to “On” in the GUI and applies the cal library; you can select “OFF” but keep the callib setting.

plotms(vis='ngc5921.ms', xaxis='frequency', yaxis='amp', ydatacolumn='corrected',
       field='N5921_2', antenna='*&*', callib='calibration.txt')

Overplot Two Datasets on One Plot

This is one example with two plotms calls. Be sure to increment plotindex and set clearplots to False on the second call. Here the second plot is set to a different color. A legend is included to indicate which points represent the Scan axis and which are Field points.

plotms(vis='test1.ms', yaxis='scan', showlegend=True, legendposition='lowerRight')
plotms(vis='test2.ms', yaxis='field', plotindex=1, clearplots=False, showlegend=True,
       legendposition='lowerRight', customsymbol=True, symbolcolor='00FF00')

Plot Two Datasets on One Page

Here we use a grid with 2 rows, 1 column, and specify the plot for each row. The first plotms call uses the defaults rowindex=0, colindex=0, plotindex=0, clearplots=True. In the second call we must increment the plotindex and rowindex (so it does not overplot the first plot), and set clearplots=False so that it keeps the first plot. We can also export this page with two plots.

plotms(vis='test1.ms', yaxis='field', gridrows=2, gridcols=1)
plotms(vis='test2.ms', yaxis='field', gridrows=2, gridcols=1, rowindex=1,
       plotindex=1, clearplots=False, plotfile='fields.jpg')

Saving your plot

The export format can be indicated in the plotfile name or by using the expformat parameter. Allowed extensions include jpg, png, pdf, ps, and txt. Exporting the plot as text produces Locate-style output.

Here the plot will be exported in PNG format, as indicated by the plotfile extension:

plotms(vis='test.ms', plotfile='test.png')

Example with expformat parameter. Note that the plotfile name is used as given and no extension is added:

plotms(vis='ngc5921.ms', plotfile='ngc5921', expformat='jpg')

When scripting the plotms calls, one may want to produce plotfiles without a GUI:

plotms(vis='test.ms', plotfile='test.jpg', showgui=False)

With iteration, one may wish to export only the first plot (default) or all plots using the exprange parameter. The iteration string will be appended to the filename before the extension.

plotms(vis='ngc5921.ms', iteraxis='baseline', plotfile='ngc5921.jpg', exprange='all')
Development

Plotms is a GUI plotter based on Qt and Qwt for making X-Y plots of measurement sets and calibration tables. It can be started as a task (plotms) or tool (pm) within CASA, or as a standalone app (casaplotms) from the shell prompt. All available options should be accessible from both the task/tool arguments and GUI text boxes, check boxes, etc.

C++ layers

The main C++ code body for plotms is in code/plotms. This directory contains several subdirectories:

  • app - standalone casaplotms executable, which launches the PlotMSApp controller.

  • PlotMS - highest level code for the main controller, DBus interface, constants and enums. Classes are also defined to save plotms parameters for averaging, calibration, export, flagging, iteration, plotting, selection, and transformations.

  • Client - factory and classes for GUI and scripted clients

  • Threads - includes BackgroundThreads and ThreadControllers for caching the data, drawing the plots, and exporting the plot files. Plotms uses threads for speed and as a means to return control to the user.

  • Data - classes to load the cache for measurement sets (using VIVB2) and calibration tables (using CTIter), as well as utility classes to estimate the required memory, average the data (soon to be moved to the VIVB2 layered architecture), and index the cached data for flagging and locating data.

  • Plots - classes to organize one or more plots and pages, as well as the display parameters for plotting.

  • Gui, GuiTabs, Actions - handles the GUI layout (tabs, buttons, etc.) and interactions with the user (signals and slots).

The plotms GUI is built on base classes specifically for using Qt in CASA (code/casaqt) and for a generic plotter (code/graphics/GenericPlotter) in case a different package is chosen to be used instead of Qt. Gotcha: some Qt functionality is unaccessible since the types are abstracted to the base classes in GenericPlotter. For basic non-comprehensive UML diagrams, see PlotmsDocs.

Python layer

Within CASA, plotms is set up like other tasks. Briefly, the parameters and allowed values are defined in gcwrap/tasks/plotms.xml, and the starting point to process the parameters and launch the casaplotms process (with or without the GUI) is gcwrap/python/scripts/task_plotms.py. It is important to keep the GUI and the task arguments in sync, so that all functionality is available in either case. Unfortunately, the result is a very long list of plotms parameters.

The python code has a SWIG interface to the C++ pm tool methods defined in gcwrap/tools/plotms/plotms_cmpt.cc. This component handles setting the arguments in the plotms code described above via DBus XML calls (see code/plotms/PlotMS/PlotMSDBusApp.cc), then starts the plotting with a call to update().

Once update() is called, control returns to the casa session and the log contains the message “End Task: plotms”. However, the cache thread and then the draw thread continue to make the plot, so additional plotms output appears in the log even after the task supposedly ended.

Plotms tests

Python regression tests for all of the plotms parameters and some bug fixes are in gcwrap/python/scripts/tests/test_plotms.py. There are test classes within this suite for: basic plots, averaging, axes options, calibration, calibration tables, display options, grid options, iteration, selection, transformations, and combinations of these (“multi”). The entire suite takes over 10 minutes to run, so it is useful to run a single test or subset of tests (for example, “runUnitTest.py test_plotms[‘test_averaging’]”).

Google tests, with suffix _GT, have been added in code/plotms/test/. These tests generally load the cache and check the values. Some legacy C++ tests are also in this directory, with prefix d. They can be compiled and run manually as “demo” tests and can be useful for creating the google tests.

Debugging

Whether you run a plotms command in a casa session or run casaplotms from the command line, a casaplotms process is started and continues to run until you exit the casa session (for plotms) or the plotms GUI (for casaplotms). This makes debugging with gdb/ddd very easy, as you can run plotms (with arguments which work or even no arguments, in order to start the process), attach the PID in the debugger, then set breakpoints and run plotms with the failing arguments.

In the unlikely event of a segmentation fault producing a core file, use gdb casaplotms core.XXXX and look at the backtrace. When debugging a tarball, the executable is (for example) casa-prerelease-5.0.0-112.el6/lib/casa/bin/casaplotms, not the path returned by ‘which casaplotms’, bin/casaplotms, which is a perl script.

Gotcha: When new third-party libraries are used in a CASA release (e.g. devtoolset-4 in release 5.0), including the compiler, the system gdb may be incompatible with your build. The result is a gdb seg fault when running gdb on a core file or setting a breakpoint in gdb with an attached casaplotms process. In this case, use the gdb executable in the third-party libraries (e.g. devtoolset-4/root/usr/bin/gdb), which was compiled with the same compiler.

Parameter Details

Detailed descriptions of each function parameter

vis (string='') - Input MS or CalTable (blank for none)
caltable (string='') - Input CalTable (blank for none)
gridrows (int=1) - Number of subplot rows
gridcols (int=1) - Number of subplot columns
rowindex (int=0) - Row location of the plot (0-based)
colindex (int=0) - Column location of the plot (0-based)
plotindex (int=0) - Index to address a subplot (0-based)
xaxis (string='') - Plot x-axis (blank for default/current)
xdatacolumn (string='') - Data column to use for x-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.
xframe (string='') - Coordinate frame to use for x-axis
xinterp (string='') - Interpolation method for x-axis
yaxis (variant='') - Plot y-axis (blank for default/current)
ydatacolumn (variant='') - Data column to use for y-axis (blank for default/current). Note that unspecified residuals are complex (vector) differences or ratios.
yframe (variant='') - Coordinate frame to use for y-axis
yinterp (variant='') - Interpolation method for y-axis
yaxislocation (variant='') - Location of the y-axis (blank for default: left)
selectdata (bool=True) - Enable data selection parameters
field (string='') - Field names or ids (blank for all)
spw (string='') - Spectral windows:channels (blank for all)
timerange (string='') - Time range (blank for all)
uvrange (string='') - UV range (blank for all)
antenna (string='') - Baseline/antenna names or ids (blank for all)
scan (string='') - Scan numbers (blank for all)
correlation (string='') - Correlations/polarizations (blank for all)
polarization (string='') - Polarizations (blank for all)
antpos (string='') - Antenna positions (blank for all)
array (string='') - (Sub)array numbers (blank for all)
observation (string='') - Observation IDs (blank for all)
intent (string='') - Observing intent (blank for all)
feed (string='') - Feed numbers (blank for all)
msselect (string='') - MSSelection TaQL string (blank for none)
averagedata (bool=True) - Enable data averaging parameters
avgchannel (string='') - Average over channel (blank = False, otherwise value in channels)
avgtime (string='') - Average over time (blank = False, otherwise value in seconds)
avgscan (bool=False) - Average over scans. Only valid with time averaging
avgfield (bool=False) - Average over fields. Only valid with time averaging
avgbaseline (bool=False) - Average over all baselines (mutually exclusive with avgantenna)
avgantenna (bool=False) - Average per antenna (mutually exclusive with avgbaseline)
avgspw (bool=False) - Average over all spectral windows
scalar (bool=False) - Scalar averaging (False=vector averaging)
transform (bool=True) - Enable data transformations
freqframe (string='') - The frame in which to render frequency and velocity axes
restfreq (string='') - Rest frequency to use for velocity conversions
veldef (string='RADIO') - The definition in which to render velocity
phasecenter (string='') - The direction coordinates of the desired center
extendflag (bool=False) - Extend flagging to other data points not plotted
extcorr (bool=False) - Extend flags based on correlation
extchannel (bool=False) - Extend flags based on channel
iteraxis (string='') - The axis over which to iterate
xselfscale (bool=False) - When True, iterated plots have a common x-axis range (scale).
yselfscale (bool=False) - When True, iterated plots have a common y-axis range (scale).
xsharedaxis (bool=False) - Iterated plots on a grid share a common external x-axis per column. Must also set xselfscale=True and gridrows>1.
ysharedaxis (bool=False) - Iterated plots on a grid share a common external y-axis per row. Must also set yselfscale=True and gridcols>1.
customsymbol (variant='False') - Enable custom symbol(s) for unflagged points
symbolshape (variant='autoscaling') - Shape of plotted unflagged symbols
symbolsize (variant='2') - Size of plotted unflagged symbols
symbolcolor (variant='0000ff') - Color (name or hex code) of plotted unflagged symbols
symbolfill (variant='fill') - Fill type of plotted unflagged symbols
symboloutline (variant='False') - Outline plotted unflagged symbols
coloraxis (string='') - Selects data axis for colorizing
customflaggedsymbol (variant='False') - Enable custom symbol(s) for flagged points
flaggedsymbolshape (variant='circle') - Shape of plotted flagged symbols
flaggedsymbolsize (variant='2') - Size of plotted flagged symbols
flaggedsymbolcolor (variant='ff0000') - Color (name or hex code) of plotted flagged symbols
flaggedsymbolfill (variant='fill') - Fill type of plotted flagged symbols
flaggedsymboloutline (variant='False') - Outline plotted flagged symbols
xconnector (string='') - Set connector for data points (blank=”none”; “line”,”step”)
timeconnector (bool=False) - Connect points by time rather than x-axis
plotrange (doubleVec='') - Plot axes ranges: [xmin,xmax,ymin,ymax]
title (string='') - Title at top of plot
titlefont (int=0) - Font size for plot title
xlabel (string='') - Text for horizontal x-axis. Blank for default.
xaxisfont (int=0) - Font size for x-axis label
ylabel (string='') - Text for vertical y-axis. Blank for default.
yaxisfont (int=0) - Font size for y-axis label
showmajorgrid (bool=False) - Show major grid lines
majorwidth (int=1) - Line width in pixels of major grid lines
majorstyle (string='') - Major grid line style
majorcolor (string='B0B0B0') - Color (name or hex code) of major grid lines
showminorgrid (bool=False) - Show minor grid lines
minorwidth (int=1) - Line width in pixels of minor grid lines
minorstyle (string='') - Minor grid line style
minorcolor (string='D0D0D0') - Color (name or hex code) of minor grid lines
showlegend (bool=False) - Show a legend on the plot.
legendposition (string='') - Legend position, default upperRight.
plotfile (string='') - Name of plot file to save automatically
expformat (string='') - Export format type. If not provided, plotfile extension will be used to determine type.
verbose (bool=True) - Include metadata in text export
exprange (string='') - Range of iteration plots to export, one plotfile per page. Multipage pdf exports are not supported.
highres (bool=False) - Use high resolution
dpi (int=-1) - DPI of exported plot
width (int=-1) - Width in pixels of exported plot
height (int=-1) - Height in pixels of exported plot
overwrite (bool=False) - Overwrite plot file if it already exists
showgui (bool=True) - Show GUI
clearplots (bool=True) - Remove any existing plots so new ones can replace them.
callib (stringVec='') - Calibration library string or filename for on-the-fly calibration.
headeritems (string='') - Comma-separated list of pre-defined page header items.
showatm (bool=False) - Compute and overlay the atmospheric transmission curve
showtsky (bool=False) - Compute and overlay the sky temperature curve
showimage (bool=False) - Compute and overlay the image sideband curve
colorizeoverlay (bool=False) - Colorize the curve overlay using coloraxis