Synopsis
Create one or more plot types.
Syntax
plot(*args, **kwargs)
Description
The plot function creates one or more plots, depending on the arguments it is sent: a plot type, followed by optional identifiers, and this can be repeated. If no data set identifier is given for a plot type, the default identifier - as returned by `get_default_id` - is used.
Examples
Example 1
Plot the data for the default data set. This is the same as `plot_data` .
>>> plot("data")Example 2
Plot the data for data set 2.
>>> plot("data", 2)Example 3
Plot the data and ARF for the default data set, in two seaparate plots.
>>> plot("data", "arf")Example 4
Plot the fit (data and model) for data sets 1 and 2, in two separate plots.
>>> plot("fit", 1, "fit", 2)Example 5
Plot the fit (data and model) for data sets "fit" and "jet", in two separate plots.
>>> plot("fit", "nucleus", "fit", "jet")Example 6
Draw the data and model plots both with a log-scale for the y axis:
>>> plot("data", "model", ylog=True)Example 7
Plot the background data components "up" and "down" for dataset 1:
>>> plot("bkg", 1, "up", "bkg", 1, "down")Example 8
Draw both data and model for the default dataset in black, but with partial opacity:
>>> plot("data", "model", color="black", alpha=0.5)Example 9
Draw the two plots in black but with different opacities:
>>> plot("data", "model", color="black", alpha=[1, 0.5])Example 10
Label each plot (the output depends on the backend and the plot options):
>>> plot("data", "model", label=["data", "model"])Example 11
Draw the two plots with different y-axis scalings:
>>> plot("data", 2, "model", 2, ylog=[False, True])Example 12
Change the layout to a single column of plots:
>>> plot("data", "data", 2, cols=1)Example 13
Use a two-column by three-row display (although in this case only one of the rows or cols arguments needed to be given):
>>> plot("data", "data", 2, "model", "model", 2,
... "resid", "resid", 2, rows=3, cols=2)Example 14
Create a display for three plots, vertically aligned, but only display plots in the first two:
>>> plot("data", "model", cols=1, rows=3)Example 15
Draw the data and residuals for the default dataset and then overplot those from dataset 2:
>>> plot("data", "resid", cols=1, color="black")
>>> plot("data", 2, "resid", 2, overplot=True, color="black", alpha=0.5)PARAMETERS
The parameters for this function are:
| Parameter | Definition |
|---|---|
| args | The plot names and identifiers. |
| rows | The number of rows and columns (if set). |
| cols | The number of rows and columns (if set). |
| kwargs | The plot arguments applied to each plot. |
Notes
The supported plot types depend on the data set type, and include the following list. There are also individual functions, with plot_ prepended to the plot type, such as `plot_data` . There are also several multiple-plot commands, such as `plot_fit_ratio` , `plot_fit_resid` , and `plot_fit_delchi` .
| Item | Definition |
|---|---|
| arf | The ARF for the data set (only for `DataPHA` data sets). |
| bkg | The background. |
| bkg_chisqr | The chi-squared statistic calculated for each bin when fitting the background. |
| bkg_delchi | The residuals for each bin, calculated as (data-model) divided by the error, for the background. |
| bkg_fit | The data (as points) and the convolved model (as a line), for the background data set. |
| bkg_model | The convolved background model. |
| bkg_ratio | The residuals for each bin, calculated as data/model, for the background data set. |
| bkg_resid | The residuals for each bin, calculated as (data-model), for the background data set. |
| bkg_source | The un-convolved background model. |
| chisqr | The chi-squared statistic calculated for each bin. |
| data | The data (which may be background subtracted). |
| delchi | The residuals for each bin, calculated as (data-model) divided by the error. |
| fit | The data (as points) and the convolved model (as a line). |
| kernel | The PSF kernel associated with the data set. |
| model | The convolved model. |
| model_component | Part of the full model expression (convolved). |
| model_components | Parts of the full model expression (convolved). |
| order | Plot the model for a selected response |
| psf | The unfiltered PSF kernel associated with the data set. |
| ratio | The residuals for each bin, calculated as data/model. |
| resid | The residuals for each bin, calculated as (data-model). |
| source | The un-convolved model. |
| source_component | Part of the full model expression (un-convolved). |
| source_components | Parts of the full model expression (un-convolved). |
The plots can be specialized for a particular data type, such as the `set_analysis` command controlling the units used for PHA data sets.
Given a plot name, such as "data", the remaining arguments up to the next plot name match those from the corresponding plot_xxx call (in this case plot_data), ignoring the replot, overplot, and clearwindow arguments. So the call
>>> plot("data", "bkg", 1, "up", ylog=True)can be thought of as combining the plots created by calling plot_data(ylog=True) and plot_bkg(1, "up", ylog=True).
The plot capabilities depend on what plotting backend, if any, is installed. If there is none available, a warning message will be displayed when `sherpa.ui` or `sherpa.astro.ui` is imported, and the `plot` set of commands will not create any plots. The choice of back end is made by changing the options.plot_pkg setting in the Sherpa configuration file.
The keyword arguments are sent to each plot (so care must be taken to ensure they are valid for all plots).
Changes in CIAO
Changed in CIAO 4.17
The keyword arguments can now be set per plot by using a sequence of values. The layout can be changed with the rows and cols arguments and the automatic calculation no longer forces two rows. Handling of the overplot flag has been improved.
Changed in CIAO 4.15
A number of labels, such as "bkgfit", are marked as deprecated and using them will cause a warning message to be displayed, indicating the new label to use.
Changed in CIAO 4.13
Keyword arguments, such as alpha and ylog, can be sent to each plot.
Bugs
See the bugs pages on the Sherpa website for an up-to-date listing of known bugs.
See Also
- contrib
- get_data_prof, get_data_prof_prefs, get_delchi_prof, get_delchi_prof_prefs, get_fit_prof, get_model_prof, get_model_prof_prefs, get_resid_prof, get_resid_prof_prefs, get_source_prof, get_source_prof_prefs, plot_chart_spectrum, plot_marx_spectrum, prof_data, prof_delchi, prof_fit, prof_fit_delchi, prof_fit_resid, prof_model, prof_resid, prof_source
- data
- get_arf_plot, get_bkg_chisqr_plot, get_bkg_delchi_plot, get_bkg_fit_plot, get_bkg_model_plot, get_bkg_plot, get_bkg_ratio_plot, get_bkg_resid_plot, get_bkg_source_plot
- modeling
- normal_sample, t_sample, uniform_sample
- plotting
- get_cdf_plot, get_energy_flux_hist, get_pdf_plot, get_photon_flux_hist, get_pvalue_plot, get_pvalue_results, get_split_plot, plot_arf, plot_bkg, plot_bkg_chisqr, plot_bkg_delchi, plot_bkg_fit, plot_bkg_fit_delchi, plot_bkg_fit_resid, plot_bkg_model, plot_bkg_ratio, plot_bkg_resid, plot_bkg_source, plot_cdf, plot_chisqr, plot_data, plot_delchi, plot_energy_flux, plot_fit, plot_fit_delchi, plot_fit_resid, plot_model, plot_model_component, plot_order, plot_pdf, plot_photon_flux, plot_pvalue, plot_ratio, plot_resid, plot_scatter, plot_source, plot_source_component, plot_trace, set_xlinear, set_xlog, set_ylinear, set_ylog
- psfs
- plot_kernel
- statistics
- get_chisqr_plot, get_delchi_plot
- visualization
- contour_resid