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docs: remove BECFigure from docs, fix wrong api for docs of plotting widgets
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@ -7,7 +7,7 @@
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The Waveform Widget is used to display 1D detector signals. The widget is directly integrated with the `BEC` framework and can display real-time data from detectors loaded in the current `BEC` session as well as custom data from users.
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## Key Features:
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- **Flexible Integration**: The widget can be integrated into both [`BECFigure`](user.widgets.bec_figure) and [`BECDockArea`](user.widgets.bec_dock_area), or used as an individual component in your application through `BECDesigner`.
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- **Flexible Integration**: The widget can be integrated into [`BECDockArea`](user.widgets.bec_dock_area), or used as an individual component in your application through `BECDesigner`.
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- **Data Visualization**: Real-time plotting of positioner versus detector values from the BEC session, as well as static plotting of custom data.
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- **Real-time Data Processing**: Add real-time Data Processing Pipeline (DAP) to the real-time acquisition.
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- **Data Export**: Export data to CSV, H5, and other formats.
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@ -19,47 +19,27 @@ The Waveform Widget is used to display 1D detector signals. The widget is direct
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````{tab} Examples - CLI
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`WaveformWidget` can be embedded in both [`BECFigure`](user.widgets.bec_figure) and [`BECDockArea`](user.widgets.bec_dock_area), or used as an individual component in your application through `BECDesigner`. However, the command-line API is the same for all cases.
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`WaveformWidget` can be embedded in [`BECDockArea`](user.widgets.bec_dock_area), or used as an individual component in your application through `BECDesigner`. However, the command-line API is the same for all cases.
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## Example 1 - Adding Waveform Widget to BECFigure
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## Example 1 - Adding Waveform Widget as a dock with BECDockArea
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In this example, we will demonstrate how to add two different `WaveformWidgets` into a single [`BECFigure`](user.widgets.bec_figure) widget.
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```python
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# Add new dock with BECFigure widget
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fig = gui.add_dock().add_widget('BECFigure')
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# Add two WaveformWidgets to the BECFigure
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plt1 = fig.plot(x_name='samx', y_name='bpm4i')
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plt2 = fig.plot(x_name='samx', y_name='bpm3i')
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```
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## Example 2 - Adding Waveform Widget as a dock with BECDockArea
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Adding `WaveformWidget` into a [`BECDockArea`](user.widgets.bec_dock_area) is similar to adding any other widget. The widget has the same API as the one in BECFigure; however, as an independent widget outside BECFigure, it has its own toolbar, allowing users to configure the widget without needing CLI commands.
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Adding `Waveform` into a [`BECDockArea`](user.widgets.bec_dock_area) is similar to adding any other widget.
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```python
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# Add new WaveformWidgets to the BECDockArea
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plt1 = gui.add_dock().add_widget('BECWaveformWidget')
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plt2 = gui.add_dock().add_widget('BECWaveformWidget')
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dock_area = gui.new('my_new_dock_area') # Create a new dock area
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plt1 = dock_area.new().new('Waveform')
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plt2 = gui.my_new_dock_area.new().new(gui.available_widgets.Waveform) # as an alternative example via dynamic name space
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# Add signals to the WaveformWidget
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plt1.plot(x_name='samx', y_name='bpm4i')
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plt2.plot(x_name='samx', y_name='bpm3i')
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```
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## Example 3 - Adding Waveform Widget with curves
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```python
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# adds a new dock, a new BECFigure and a BECWaveForm to the dock
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plt = gui.add_dock().add_widget('BECFigure').plot(x_name='samx', y_name='bpm4i')
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# add a second curve to the same plot
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plt.plot(x_name='samx', y_name='bpm3i')
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# set axis labels
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plt.set_title("Gauss plots vs. samx")
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plt.set_x_label("Motor X")
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plt.set_y_label("Gauss Signal (A.U.")
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plt1.set_title("Gauss plots vs. samx")
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plt1.set_x_label("Motor X")
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plt1.set_y_label("Gauss Signal (A.U.")
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```
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```{note}
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@ -73,27 +53,25 @@ dev.bpm4i.sim.select_sim_model("GaussianModel")
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# bpm3i uses StepModel and samx as a reference; default settings
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dev.bpm3i.sim.select_sim_model("StepModel")
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```
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## Example 4 - Adding Data Processing Pipeline Curve with LMFit Models
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## Example 2- Adding Data Processing Pipeline Curve with LMFit Models
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In addition to the scan curve, you can also add a second curve that fits the signal using a specified model from [LMFit](https://lmfit.github.io/lmfit-py/builtin_models.html). The following code snippet demonstrates how to create a 1D waveform curve with an attached DAP process, or how to add a DAP process to an existing curve using the BEC CLI. Please note that for this example, both devices were set as Gaussian signals. You can also add a region of interest (roi) to the plot which will respected by all running DAP processes.
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```python
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# Add a new dock, a new BECFigure, and a BECWaveForm to the dock with a GaussianModel DAP
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plt = gui.add_dock().add_widget('BECFigure').plot(x_name='samx', y_name='bpm4i', dap="GaussianModel")
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# Add a new dock_area, dock and Waveform and plot bpm4i vs samx with a GaussianModel DAP
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plt = gui.new().new().new('Waveform')
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plt.plot(x_name='samx', y_name='bpm4i', dap="GaussianModel")
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# Add a second curve to the same plot without DAP
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plt.plot(x_name='samx', y_name='bpm3a')
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# Add DAP to the second curve
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plt.add_dap(x_name='samx', y_name='bpm3a', dap="GaussianModel")
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plt.add_dap_curve(device_label='bpm3a-bpm3a', dap_name='GaussianModel')
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# Add roi to the plot, this limits the DAP fit to the selected region x_min=-1, x_max=1
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# Add ROI to the plot, this limits the DAP fit to the selected region x_min=-1, x_max=1
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# The fit will automatically update
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plt.select_roi(region=(-1, 1))
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# To remove the DAP from the curve, you can use the toggle button in the toolbar or the following command
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plt.toggle_roi(False)
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```
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To get the parameters of the fit, you need to retrieve the curve objects and call the `dap_params` property.
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@ -119,21 +97,29 @@ print(dap_bpm3a.dap_params)
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## Example 5 - 2D Waveform Scatter Plot
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## Example 3 - 2D ScatterWaveform plot
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The 2D scatter plot widget is designed for more complex data visualization. It employs a false color map to represent a third dimension (z-axis), making it an ideal tool for visualizing multidimensional data sets.
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```python
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# adds a new dock, a new BECFigure and a BECWaveForm to the dock
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# Add a new dock_area, a new dock and a BECWaveForm to the dock
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plt = gui.new().new().new(gui.available_widgets.ScatterWaveform)
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plt.plot(x_name='samx', y_name='samy', z_name='bpm4i')
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plt = gui.add_dock().add_widget('BECFigure').add_plot(x_name='samx', y_name='samy', z_name='bpm4i')
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```
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```{note}
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The ScatterWaveform widget only plots the data points if both x and y axis motors are moving. Or more generally, if all signals are of readout type *monitored*.
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```
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````
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````{tab} API
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```{eval-rst}
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.. include:: /api_reference/_autosummary/bec_widgets.cli.client.BECWaveform.rst
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.. include:: /api_reference/_autosummary/bec_widgets.cli.client.Waveform.rst
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```
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````
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