Merge branch 'applets'

2016-02-08 14:55:53 +01:00 · 2016-02-08 14:55:53 +01:00 · dc955d46c9
parent b7de92e96c 1d92c0874e
commit dc955d46c9
14 changed files with 741 additions and 499 deletions
--- a/artiq/applets/big_number.py
+++ b/artiq/applets/big_number.py
@ -11,7 +11,7 @@ class NumberWidget(QtWidgets.QLCDNumber):
        self.setDigitCount(args.digit_count)
        self.dataset_name = args.dataset
-    def data_changed(self, data, mod):
+    def data_changed(self, data, mods):
        try:
            n = float(data[self.dataset_name][1])
        except (KeyError, ValueError, TypeError):
--- a/artiq/applets/plot_hist.py
+++ b/artiq/applets/plot_hist.py
@ -0,0 +1,39 @@
 #!/usr/bin/env python3.5
 import numpy as np
 import pyqtgraph
 from artiq.applets.simple import SimpleApplet
 class HistogramPlot(pyqtgraph.PlotWidget):
    def __init__(self, args):
        pyqtgraph.PlotWidget.__init__(self)
        self.args = args
    def data_changed(self, data, mods):
        try:
            y = data[self.args.y][1]
            if self.args.x is None:
                x = None
            else:
                x = data[self.args.x][1]
        except KeyError:
            return
        if x is None:
            x = list(range(len(y)+1))
        if len(y) and len(x) == len(y) + 1:
            self.clear()
            self.plot(x, y, stepMode=True, fillLevel=0,
                      brush=(0, 0, 255, 150))
 def main():
    applet = SimpleApplet(HistogramPlot)
    applet.add_dataset("y", "Y values")
    applet.add_dataset("x", "Bin boundaries", required=False)
    applet.run()
 if __name__ == "__main__":
    main()
--- a/artiq/applets/plot_xy.py
+++ b/artiq/applets/plot_xy.py
@ -0,0 +1,59 @@
 #!/usr/bin/env python3.5
 import numpy as np
 import pyqtgraph
 from artiq.applets.simple import SimpleApplet
 class XYPlot(pyqtgraph.PlotWidget):
    def __init__(self, args):
        pyqtgraph.PlotWidget.__init__(self)
        self.args = args
    def data_changed(self, data, mods):
        try:
            y = data[self.args.y][1]
        except KeyError:
            return
        x = data.get(self.args.x, (False, None))[1]
        if x is None:
            x = list(range(len(y)))
        error = data.get(self.args.error, (False, None))[1]
        fit = data.get(self.args.fit, (False, None))[1]
        if not len(y) or len(y) != len(x):
            return
        if error is not None and hasattr(error, "__len__"):
            if not len(error):
                error = None
            elif len(error) != len(y):
                return
        if fit is not None:
            if not len(fit):
                fit = None
            elif len(fit) != len(y):
                return
        self.clear()
        self.plot(x, y, pen=None, symbol="x")
        if error is not None:
            # See https://github.com/pyqtgraph/pyqtgraph/issues/211
            if hasattr(error, "__len__") and not isinstance(error, np.ndarray):
                error = np.array(error)
            errbars = pg.ErrorBarItem(x=np.array(x), y=np.array(y), height=error)
            self.addItem(errbars)
        if fit is not None:
            self.plot(x, fit)
 def main():
    applet = SimpleApplet(XYPlot)
    applet.add_dataset("y", "Y values")
    applet.add_dataset("x", "X values", required=False)
    applet.add_dataset("error", "Error bars for each X value", required=False)
    applet.add_dataset("fit", "Fit values for each X value", required=False)
    applet.run()
 if __name__ == "__main__":
    main()
--- a/artiq/applets/plot_xy_hist.py
+++ b/artiq/applets/plot_xy_hist.py
@ -1,69 +1,136 @@
 #!/usr/bin/env python3.5
 from pyqtgraph.Qt import QtGui, QtCore
 import pyqtgraph as pg
 import numpy as np
 from quamash import QtWidgets
 import pyqtgraph
-class XYHistPlot:
+from artiq.applets.simple import SimpleApplet
    def __init__(self):
        self.graphics_window = pg.GraphicsWindow(title="XY/Histogram")
        self.graphics_window.resize(1000,600)
        self.graphics_window.setWindowTitle("XY/Histogram")
-        self.xy_plot = self.graphics_window.addPlot()
+
 def _compute_ys(histogram_bins, histograms_counts):
        bin_centers = np.empty(len(histogram_bins)-1)
        for i in range(len(bin_centers)):
            bin_centers[i] = (histogram_bins[i] + histogram_bins[i+1])/2
        ys = np.empty(histograms_counts.shape[0])
        for n, counts in enumerate(histograms_counts):
            ys[n] = sum(bin_centers*counts)/sum(counts)
        return ys
 # pyqtgraph.GraphicsWindow fails to behave like a regular Qt widget
 # and breaks embedding. Do not use as top widget.
 class XYHistPlot(QtWidgets.QSplitter):
    def __init__(self, args):
        QtWidgets.QSplitter.__init__(self)
        self.resize(1000,600)
        self.setWindowTitle("XY/Histogram")
        self.xy_plot = pyqtgraph.PlotWidget()
        self.insertWidget(0, self.xy_plot)
        self.xy_plot_data = None
        self.arrow = None
        self.selected_index = None
-        self.hist_plot = self.graphics_window.addPlot()
+        self.hist_plot = pyqtgraph.PlotWidget()
        self.insertWidget(1, self.hist_plot)
        self.hist_plot_data = None
-    def set_data(self, xs, histograms_bins, histograms_counts):
+        self.args = args
        ys = np.empty_like(xs)
        ys.fill(np.nan)
        for n, (bins, counts) in enumerate(zip(histograms_bins,
                                               histograms_counts)):
            bin_centers = np.empty(len(bins)-1)
            for i in range(len(bin_centers)):
                bin_centers[i] = (bins[i] + bins[i+1])/2
            ys[n] = sum(bin_centers*counts)/sum(bin_centers)
    def _set_full_data(self, xs, histogram_bins, histograms_counts):
        self.xy_plot.clear()
        self.hist_plot.clear()
        self.xy_plot_data = None
        self.hist_plot_data = None
        self.arrow = None
        self.selected_index = None
        self.histogram_bins = histogram_bins
        ys = _compute_ys(self.histogram_bins, histograms_counts)
        self.xy_plot_data = self.xy_plot.plot(x=xs, y=ys,
                                              pen=None,
                                              symbol="x", symbolSize=20)
-        self.xy_plot_data.sigPointsClicked.connect(self.point_clicked)
+        self.xy_plot_data.sigPointsClicked.connect(self._point_clicked)
-        for point, bins, counts in zip(self.xy_plot_data.scatter.points(),
+        for index, (point, counts) in (
-                                       histograms_bins, histograms_counts):
+                enumerate(zip(self.xy_plot_data.scatter.points(),
-            point.histogram_bins = bins
+                              histograms_counts))):
            point.histogram_index = index
            point.histogram_counts = counts
        self.hist_plot_data = self.hist_plot.plot(
-                            stepMode=True, fillLevel=0,
+            stepMode=True, fillLevel=0,
-                            brush=(0, 0, 255, 150))
+            brush=(0, 0, 255, 150))
-    def point_clicked(self, data_item, spot_items):
+    def _set_partial_data(self, xs, histograms_counts):
        ys = _compute_ys(self.histogram_bins, histograms_counts)
        self.xy_plot_data.setData(x=xs, y=ys,
                                  pen=None,
                                  symbol="x", symbolSize=20)
        for index, (point, counts) in (
                enumerate(zip(self.xy_plot_data.scatter.points(),
                              histograms_counts))):
            point.histogram_index = index
            point.histogram_counts = counts
    def _point_clicked(self, data_item, spot_items):
        spot_item = spot_items[0]
        position = spot_item.pos()
        if self.arrow is None:
-            self.arrow = pg.ArrowItem(angle=-120, tipAngle=30, baseAngle=20,
+            self.arrow = pyqtgraph.ArrowItem(
-                                      headLen=40, tailLen=40, tailWidth=8,
+                angle=-120, tipAngle=30, baseAngle=20, headLen=40,
-                                      pen=None, brush="y")
+                tailLen=40, tailWidth=8, pen=None, brush="y")
            self.arrow.setPos(position)
            # NB: temporary glitch if addItem is done before setPos
            self.xy_plot.addItem(self.arrow)
        else:
            self.arrow.setPos(position)
-        self.hist_plot_data.setData(x=spot_item.histogram_bins,
+        self.selected_index = spot_item.histogram_index
        self.hist_plot_data.setData(x=self.histogram_bins,
                                    y=spot_item.histogram_counts)
    def _can_use_partial(self, mods):
        if self.hist_plot_data is None:
            return False
        for mod in mods:
            if mod["action"] != "setitem":
                return False
            if mod["path"] == [self.args.xs, 1]:
                if mod["key"] == self.selected_index:
                    return False
            elif mod["path"][:2] == [self.args.histograms_counts, 1]:
                if len(mod["path"]) > 2:
                    index = mod["path"][2]
                else:
                    index = mod["key"]
                if index == self.selected_index:
                    return False
            else:
                return False
        return True
    def data_changed(self, data, mods):
        try:
            xs = data[self.args.xs][1]
            histogram_bins = data[self.args.histogram_bins][1]
            histograms_counts = data[self.args.histograms_counts][1]
        except KeyError:
            return
        if self._can_use_partial(mods):
            self._set_partial_data(xs, histograms_counts)
        else:
            self._set_full_data(xs, histogram_bins, histograms_counts)
 def main():
-    app = QtGui.QApplication([])
+    applet = SimpleApplet(XYHistPlot)
-    plot = XYHistPlot()
+    applet.add_dataset("xs", "1D array of point abscissas")
-    plot.set_data(np.array([1, 2, 3, 4, 1]),
+    applet.add_dataset("histogram_bins",
-                  np.array([[1, 2, 3], [1, 2, 3], [1, 2, 3], [40, 70, 100], [4, 7, 10, 20]]),
+                       "1D array of histogram bin boundaries")
-                  np.array([[1, 1], [2, 3], [10, 20], [3, 1], [100, 67, 102]]))
+    applet.add_dataset("histograms_counts",
-    app.exec_()
+                       "2D array of histogram counts, for each point")
    applet.run()
-if __name__ == '__main__':
+if __name__ == "__main__":
    main()
--- a/artiq/applets/simple.py
+++ b/artiq/applets/simple.py
@ -1,33 +1,55 @@
 import argparse
 import asyncio
-from quamash import QEventLoop, QtWidgets, QtCore
+from quamash import QEventLoop, QtWidgets, QtGui, QtCore
 from artiq.protocols.sync_struct import Subscriber
 from artiq.protocols.pc_rpc import Client
 class SimpleApplet:
-    def __init__(self, main_widget_class, cmd_description=None):
+    def __init__(self, main_widget_class, cmd_description=None,
                 default_update_delay=0.0):
        self.main_widget_class = main_widget_class
        self.argparser = argparse.ArgumentParser(description=cmd_description)
        self.argparser.add_argument("--update-delay", type=float,
            default=default_update_delay,
            help="time to wait after a mod (buffering other mods) "
                  "before updating (default: %(default).2f)")
        group = self.argparser.add_argument_group("data server")
        group.add_argument(
-            "--server", default="::1",
+            "--server-notify", default="::1",
-            help="hostname or IP to connect to")
+            help="hostname or IP to connect to for dataset notifications")
        group.add_argument(
-            "--port", default=3250, type=int,
+            "--port-notify", default=3250, type=int,
-            help="TCP port to connect to")
+            help="TCP port to connect to for dataset notifications")
        group = self.argparser.add_argument_group("GUI server")
        group.add_argument(
            "--server-gui", default="::1",
            help="hostname or IP to connect to for GUI control")
        group.add_argument(
            "--port-gui", default=6501, type=int,
            help="TCP port to connect to for GUI control")
        group.add_argument("--embed", default=None, type=int,
            help="embed main widget into existing window")
        self._arggroup_datasets = self.argparser.add_argument_group("datasets")
        self.dataset_args = set()
-    def add_dataset(self, name, help=None):
+    def add_dataset(self, name, help=None, required=True):
-        if help is None:
+        kwargs = dict()
-            self._arggroup_datasets.add_argument(name)
+        if help is not None:
            kwargs["help"] = help
        if required:
            self._arggroup_datasets.add_argument(name, **kwargs)
        else:
-            self._arggroup_datasets.add_argument(name, help=help)
+            self._arggroup_datasets.add_argument("--" + name, **kwargs)
        self.dataset_args.add(name)
    def args_init(self):
        self.args = self.argparser.parse_args()
        self.datasets = {getattr(self.args, arg.replace("-", "_"))
                         for arg in self.dataset_args}
    def quamash_init(self):
        app = QtWidgets.QApplication([])
@ -36,20 +58,61 @@ class SimpleApplet:
    def create_main_widget(self):
        self.main_widget = self.main_widget_class(self.args)
        # Qt window embedding is ridiculously buggy, and empirical testing
        # has shown that the following procedure must be followed exactly:
        # 1. applet creates widget
        # 2. applet creates native window without showing it, and get its ID
        # 3. applet sends the ID to host, host embeds the widget
        # 4. applet shows the widget
        # Doing embedding the other way around (using QWindow.setParent in the
        # applet) breaks resizing; furthermore the host needs to know our
        # window ID to request graceful termination by closing the window.
        if self.args.embed is not None:
            win_id = int(self.main_widget.winId())
            remote = Client(self.args.server_gui, self.args.port_gui, "applets")
            try:
                remote.embed(self.args.embed, win_id)
            finally:
                remote.close_rpc()
        self.main_widget.show()
    def sub_init(self, data):
        self.data = data
        return data
    def filter_mod(self, mod):
        if mod["action"] == "init":
            return True
        if mod["path"]:
            return mod["path"][0] in self.datasets
        elif mod["action"] in {"setitem", "delitem"}:
            return mod["key"] in self.datasets
        else:
            return False
    def flush_mod_buffer(self):
        self.main_widget.data_changed(self.data, self.mod_buffer)
        del self.mod_buffer
    def sub_mod(self, mod):
-        self.main_widget.data_changed(self.data, mod)
+        if not self.filter_mod(mod):
            return
        if self.args.update_delay:
            if hasattr(self, "mod_buffer"):
                self.mod_buffer.append(mod)
            else:
                self.mod_buffer = [mod]
                asyncio.get_event_loop().call_later(self.args.update_delay,
                                                    self.flush_mod_buffer)
        else:
            self.main_widget.data_changed(self.data, [mod])
    def create_subscriber(self):
        self.subscriber = Subscriber("datasets",
                                     self.sub_init, self.sub_mod)
        self.loop.run_until_complete(self.subscriber.connect(
-            self.args.server, self.args.port))
+            self.args.server_notify, self.args.port_notify))
    def run(self):
        self.args_init()
--- a/artiq/frontend/artiq_gui.py
+++ b/artiq/frontend/artiq_gui.py
@ -12,10 +12,10 @@ from pyqtgraph import dockarea
 from artiq import __artiq_dir__ as artiq_dir
 from artiq.tools import *
-from artiq.protocols.pc_rpc import AsyncioClient
+from artiq.protocols.pc_rpc import AsyncioClient, Server
 from artiq.gui.models import ModelSubscriber
 from artiq.gui import (state, experiments, shortcuts, explorer,
-                       moninj, datasets, schedule, log, console)
+                       moninj, datasets, applets, schedule, log, console)
 def get_argparser():
@ -110,7 +110,10 @@ def main():
                                       rpc_clients["experiment_db"])
    d_datasets = datasets.DatasetsDock(win, dock_area, sub_clients["datasets"])
-    smgr.register(d_datasets)
+
    appletmgr = applets.AppletManager(dock_area)
    atexit_register_coroutine(appletmgr.stop)
    smgr.register(appletmgr)
    if os.name != "nt":
        d_ttl_dds = moninj.MonInj()
@ -130,9 +133,11 @@ def main():
    if os.name != "nt":
        dock_area.addDock(d_ttl_dds.dds_dock, "top")
        dock_area.addDock(d_ttl_dds.ttl_dock, "above", d_ttl_dds.dds_dock)
-        dock_area.addDock(d_datasets, "above", d_ttl_dds.ttl_dock)
+        dock_area.addDock(appletmgr.main_dock, "above", d_ttl_dds.ttl_dock)
        dock_area.addDock(d_datasets, "above", appletmgr.main_dock)
    else:
-        dock_area.addDock(d_datasets, "top")
+        dock_area.addDock(appletmgr.main_dock, "top")
        dock_area.addDock(d_datasets, "above", appletmgr.main_dock)
    dock_area.addDock(d_shortcuts, "above", d_datasets)
    dock_area.addDock(d_explorer, "above", d_shortcuts)
    dock_area.addDock(d_console, "bottom")
@ -148,6 +153,11 @@ def main():
    if d_log0 is not None:
        dock_area.addDock(d_log0, "right", d_explorer)
    # start RPC server
    rpc_server = Server({"applets": appletmgr.rpc})
    loop.run_until_complete(rpc_server.start("::1", 6501))
    atexit_register_coroutine(rpc_server.stop)
    # run
    win.show()
    loop.run_until_complete(win.exit_request.wait())
--- a/artiq/gui/applets.py
+++ b/artiq/gui/applets.py
@ -0,0 +1,289 @@
 import logging
 import asyncio
 import sys
 import shlex
 from functools import partial
 from quamash import QtCore, QtGui, QtWidgets
 from pyqtgraph import dockarea
 logger = logging.getLogger(__name__)
 class AppletDock(dockarea.Dock):
    def __init__(self, token, name, command):
        dockarea.Dock.__init__(self, "applet" + str(token),
                               label="Applet: " + name,
                               closable=True)
        self.setMinimumSize(QtCore.QSize(500, 400))
        self.token = token
        self.applet_name = name
        self.command = command
    def rename(self, name):
        self.applet_name = name
        self.label.setText("Applet: " + name)
    async def start(self):
        command = self.command.format(python=sys.executable,
                                      embed_token=self.token)
        logger.debug("starting command %s for %s", command, self.applet_name)
        try:
            self.process = await asyncio.create_subprocess_exec(
                                *shlex.split(command))
        except:
            logger.warning("Applet %s failed to start", self.applet_name,
                           exc_info=True)
    def capture(self, win_id):
        logger.debug("capturing window 0x%x for %s", win_id, self.applet_name)
        self.captured_window = QtGui.QWindow.fromWinId(win_id)
        self.captured_widget = QtWidgets.QWidget.createWindowContainer(
            self.captured_window)
        self.addWidget(self.captured_widget)
    async def terminate(self):
        if hasattr(self, "captured_window"):
            self.captured_window.close()
            self.captured_widget.deleteLater()
            del self.captured_window
            del self.captured_widget
        if hasattr(self, "process"):
            try:
                await asyncio.wait_for(self.process.wait(), 2.0)
            except:
                logger.warning("Applet %s failed to exit, killing",
                               self.applet_name)
                try:
                    self.process.kill()
                except ProcessLookupError:
                    pass
                await self.process.wait()
            del self.process
    async def restart(self):
        await self.terminate()
        await self.start()
 _templates = [
    ("Big number", "{python} -m artiq.applets.big_number "
                   "--embed {embed_token} NUMBER_DATASET"),
    ("Histogram", "{python} -m artiq.applets.plot_hist "
                  "--embed {embed_token} COUNTS_DATASET "
                  "--x BIN_BOUNDARIES_DATASET"),
    ("XY", "{python} -m artiq.applets.plot_xy "
           "--embed {embed_token} Y_DATASET --x X_DATASET "
           "--error ERROR_DATASET --fit FIT_DATASET"),
    ("XY + Histogram", "{python} -m artiq.applets.plot_xy_hist "
                       "--embed {embed_token} X_DATASET "
                       "HIST_BIN_BOUNDARIES_DATASET "
                       "HISTS_COUNTS_DATASET"),
 ]
 class AppletsDock(dockarea.Dock):
    def __init__(self, manager):
        self.manager = manager
        self.token_to_checkbox = dict()
        dockarea.Dock.__init__(self, "Applets")
        self.setMinimumSize(QtCore.QSize(850, 450))
        self.table = QtWidgets.QTableWidget(0, 3)
        self.table.setHorizontalHeaderLabels(["Enable", "Name", "Command"])
        self.table.setSelectionBehavior(QtGui.QAbstractItemView.SelectRows)
        self.table.setSelectionMode(QtGui.QAbstractItemView.SingleSelection)
        self.table.horizontalHeader().setStretchLastSection(True)
        self.table.horizontalHeader().setResizeMode(
            QtGui.QHeaderView.ResizeToContents)
        self.table.verticalHeader().setResizeMode(
            QtGui.QHeaderView.ResizeToContents)
        self.table.verticalHeader().hide()
        self.table.setTextElideMode(QtCore.Qt.ElideNone)
        self.addWidget(self.table)
        self.table.setContextMenuPolicy(QtCore.Qt.ActionsContextMenu)
        new_action = QtGui.QAction("New applet", self.table)
        new_action.triggered.connect(self.new)
        self.table.addAction(new_action)
        templates_menu = QtGui.QMenu()
        for name, template in _templates:
            action = QtGui.QAction(name, self.table)
            action.triggered.connect(partial(self.new_template, template))
            templates_menu.addAction(action)
        restart_action = QtGui.QAction("New applet from template", self.table)
        restart_action.setMenu(templates_menu)
        self.table.addAction(restart_action)
        restart_action = QtGui.QAction("Restart selected applet", self.table)
        restart_action.setShortcut("CTRL+R")
        restart_action.setShortcutContext(QtCore.Qt.WidgetShortcut)
        restart_action.triggered.connect(self.restart)
        self.table.addAction(restart_action)
        delete_action = QtGui.QAction("Delete selected applet", self.table)
        delete_action.setShortcut("DELETE")
        delete_action.setShortcutContext(QtCore.Qt.WidgetShortcut)
        delete_action.triggered.connect(self.delete)
        self.table.addAction(delete_action)
        self.table.cellChanged.connect(self.cell_changed)
    def cell_changed(self, row, column):
        if column == 0:
            item = self.table.item(row, column)
            if item.checkState() == QtCore.Qt.Checked:
                command = self.table.item(row, 2)
                if command:
                    command = command.text()
                    name = self.table.item(row, 1)
                    if name is None:
                        name = ""
                    else:
                        name = name.text()
                    token = self.manager.create(name, command)
                    item.applet_token = token
                    self.token_to_checkbox[token] = item
            else:
                token = getattr(item, "applet_token", None)
                if token is not None:
                    # cell_changed is emitted at row creation
                    self.manager.delete(token)
        elif column == 1 or column == 2:
            new_value = self.table.item(row, column).text()
            token = getattr(self.table.item(row, 0), "applet_token", None)
            if token is not None:
                if column == 1:
                    self.manager.rename(token, new_value)
                else:
                    self.manager.set_command(token, new_value)
    def disable_token(self, token):
        checkbox_item = self.token_to_checkbox[token]
        checkbox_item.applet_token = None
        del self.token_to_checkbox[token]
        checkbox_item.setCheckState(QtCore.Qt.Unchecked)
    def new(self):
        row = self.table.rowCount()
        self.table.insertRow(row)
        checkbox = QtWidgets.QTableWidgetItem()
        checkbox.setFlags(QtCore.Qt.ItemIsSelectable |
                          QtCore.Qt.ItemIsUserCheckable |
                          QtCore.Qt.ItemIsEnabled)
        checkbox.setCheckState(QtCore.Qt.Unchecked)
        self.table.setItem(row, 0, checkbox)
        self.table.setItem(row, 1, QtWidgets.QTableWidgetItem())
        self.table.setItem(row, 2, QtWidgets.QTableWidgetItem())
        return row
    def new_template(self, template):
        row = self.new()
        self.table.item(row, 2).setText(template)
    def restart(self):
        selection = self.table.selectedRanges()
        if selection:
            row = selection[0].topRow()
            token = getattr(self.table.item(row, 0), "applet_token", None)
            if token is not None:
                asyncio.ensure_future(self.manager.restart(token))
    def delete(self):
        selection = self.table.selectedRanges()
        if selection:
            row = selection[0].topRow()
            token = getattr(self.table.item(row, 0), "applet_token", None)
            if token is not None:
                self.manager.delete(token)
            self.table.removeRow(row)
    def save_state(self):
        state = []
        for row in range(self.table.rowCount()):
            enabled = self.table.item(row, 0).checkState() == QtCore.Qt.Checked
            name = self.table.item(row, 1).text()
            command = self.table.item(row, 2).text()
            state.append((enabled, name, command))
        return state
    def restore_state(self, state):
        for enabled, name, command in state:
            row = self.new()
            item = QtWidgets.QTableWidgetItem()
            item.setText(name)
            self.table.setItem(row, 1, item)
            item = QtWidgets.QTableWidgetItem()
            item.setText(command)
            self.table.setItem(row, 2, item)
            if enabled:
                self.table.item(row, 0).setCheckState(QtCore.Qt.Checked)
 class AppletManagerRPC:
    def __init__(self, parent):
        self.parent = parent
    def embed(self, token, win_id):
        self.parent.embed(token, win_id)
 class AppletManager:
    def __init__(self, dock_area):
        self.dock_area = dock_area
        self.main_dock = AppletsDock(self)
        self.rpc = AppletManagerRPC(self)
        self.applet_docks = dict()
        self.workaround_pyqtgraph_bug = False
    def embed(self, token, win_id):
        if token not in self.applet_docks:
            logger.warning("Ignored incorrect embed token %d for winid 0x%x",
                            token, win_id)
            return
        self.applet_docks[token].capture(win_id)
    def create(self, name, command):
        token = next(iter(set(range(len(self.applet_docks) + 1))
                          - self.applet_docks.keys()))
        dock = AppletDock(token, name, command)
        self.applet_docks[token] = dock
        # If a dock is floated and then dock state is restored, pyqtgraph
        # leaves a "phantom" window open.
        if self.workaround_pyqtgraph_bug:
            self.dock_area.addDock(dock)
        else:
            self.dock_area.floatDock(dock)
        asyncio.ensure_future(dock.start())
        dock.sigClosed.connect(partial(self.on_dock_closed, token))
        return token
    def on_dock_closed(self, token):
        asyncio.ensure_future(self.applet_docks[token].terminate())
        self.main_dock.disable_token(token)
        del self.applet_docks[token]
    def delete(self, token):
        # This in turns calls on_dock_closed and main_dock.disable_token
        self.applet_docks[token].close()
    def rename(self, token, name):
        self.applet_docks[token].rename(name)
    def set_command(self, token, command):
        self.applet_docks[token].command = command
    async def restart(self, token):
        await self.applet_docks[token].restart()
    async def stop(self):
        for dock in self.applet_docks.values():
            await dock.terminate()
    def save_state(self):
        return self.main_dock.save_state()
    def restore_state(self, state):
        self.workaround_pyqtgraph_bug = True
        self.main_dock.restore_state(state)
        self.workaround_pyqtgraph_bug = False
--- a/artiq/gui/datasets.py
+++ b/artiq/gui/datasets.py
@ -9,12 +9,6 @@ from pyqtgraph import LayoutWidget
 from artiq.tools import short_format
 from artiq.gui.models import DictSyncTreeSepModel
 from artiq.gui.displays import *
 try:
    QSortFilterProxyModel = QtCore.QSortFilterProxyModel
 except AttributeError:
    QSortFilterProxyModel = QtGui.QSortFilterProxyModel
 logger = logging.getLogger(__name__)
@ -35,12 +29,6 @@ class Model(DictSyncTreeSepModel):
           raise ValueError
 def _get_display_type_name(display_cls):
    for name, (_, cls) in display_types.items():
        if cls is display_cls:
            return name
 class DatasetsDock(dockarea.Dock):
    def __init__(self, dialog_parent, dock_area, datasets_sub):
        dockarea.Dock.__init__(self, "Datasets")
@ -62,19 +50,6 @@ class DatasetsDock(dockarea.Dock):
        self.table_model = Model(dict())
        datasets_sub.add_setmodel_callback(self.set_model)
        datasets_sub.notify_cbs.append(self.on_mod)
        add_display_box = QtGui.QGroupBox("Add display")
        grid.addWidget(add_display_box, 1, 1)
        display_grid = QtGui.QGridLayout()
        add_display_box.setLayout(display_grid)
        for n, name in enumerate(display_types.keys()):
            btn = QtGui.QPushButton(name)
            display_grid.addWidget(btn, n, 0)
            btn.clicked.connect(partial(self.create_dialog, name))
        self.displays = dict()
    def _search_datasets(self):
        if hasattr(self, "table_model_filter"):
@ -83,74 +58,6 @@ class DatasetsDock(dockarea.Dock):
    def set_model(self, model):
        self.table_model = model
-        self.table_model_filter = QSortFilterProxyModel()
+        self.table_model_filter = QtCore.QSortFilterProxyModel()
        self.table_model_filter.setSourceModel(self.table_model)
        self.table.setModel(self.table_model_filter)
    def update_display_data(self, dsp):
        filtered_data = {k: self.table_model.backing_store[k][1]
                         for k in dsp.data_sources()
                         if k in self.table_model.backing_store}
        dsp.update_data(filtered_data)
    def on_mod(self, mod):
        if mod["action"] == "init":
            for display in self.displays.values():
                display.update_data(self.table_model.backing_store)
            return
        if mod["path"]:
            source = mod["path"][0]
        elif mod["action"] == "setitem":
            source = mod["key"]
        else:
            return
        for display in self.displays.values():
            if source in display.data_sources():
                self.update_display_data(display)
    def create_dialog(self, ty):
        dlg_class = display_types[ty][0]
        dlg = dlg_class(self.dialog_parent, None, dict(),
            sorted(self.table_model.backing_store.keys()),
            partial(self.create_display, ty, None))
        dlg.open()
    def create_display(self, ty, prev_name, name, settings):
        if prev_name is not None and prev_name in self.displays:
            raise NotImplementedError
        dsp_class = display_types[ty][1]
        dsp = dsp_class(name, settings)
        self.displays[name] = dsp
        self.update_display_data(dsp)
        def on_close():
            del self.displays[name]
        dsp.sigClosed.connect(on_close)
        self.dock_area.floatDock(dsp)
        return dsp
    def save_state(self):
        r = dict()
        for name, display in self.displays.items():
            r[name] = {
                "ty": _get_display_type_name(type(display)),
                "settings": display.settings,
                "state": display.save_state()
            }
        return r
    def restore_state(self, state):
        for name, desc in state.items():
            try:
                dsp = self.create_display(desc["ty"], None, name,
                                          desc["settings"])
            except:
                logger.warning("Failed to create display '%s'", name,
                               exc_info=True)
            try:
                dsp.restore_state(desc["state"])
            except:
                logger.warning("Failed to restore display state of '%s'",
                               name, exc_info=True)
--- a/artiq/gui/displays.py
+++ b/artiq/gui/displays.py
@ -1,217 +0,0 @@
 from collections import OrderedDict
 import numpy as np
 from quamash import QtGui
 import pyqtgraph as pg
 from pyqtgraph import dockarea
 class _BaseSettings(QtGui.QDialog):
    def __init__(self, parent, window_title, prev_name, create_cb):
        QtGui.QDialog.__init__(self, parent=parent)
        self.setWindowTitle(window_title)
        self.grid = QtGui.QGridLayout()
        self.setLayout(self.grid)
        self.grid.addWidget(QtGui.QLabel("Name:"), 0, 0)
        self.name = QtGui.QLineEdit()
        self.grid.addWidget(self.name, 0, 1)
        if prev_name is not None:
            self.name.setText(prev_name)
        def on_accept():
            create_cb(self.name.text(), self.get_input())
        self.accepted.connect(on_accept)
    def add_buttons(self):
        buttons = QtGui.QDialogButtonBox(
            QtGui.QDialogButtonBox.Ok | QtGui.QDialogButtonBox.Cancel)
        self.grid.addWidget(buttons, self.grid.rowCount(), 0, 1, 2)
        buttons.accepted.connect(self.accept)
        buttons.rejected.connect(self.reject)
    def accept(self):
        if self.name.text() and self.validate_input():
            QtGui.QDialog.accept(self)
    def validate_input(self):
        raise NotImplementedError
    def get_input(self):
        raise NotImplementedError
 class _SimpleSettings(_BaseSettings):
    def __init__(self, parent, prev_name, prev_settings,
                 result_list, create_cb):
        _BaseSettings.__init__(self, parent, self._window_title,
                               prev_name, create_cb)
        self.result_widgets = dict()
        for row, (has_none, key) in enumerate(self._result_keys):
            self.grid.addWidget(QtGui.QLabel(key.capitalize() + ":"))
            w = QtGui.QComboBox()
            self.grid.addWidget(w, row + 1, 1)
            if has_none:
                w.addItem("<None>")
            w.addItems(result_list)
            w.setEditable(True)
            if key in prev_settings:
                w.setEditText(prev_settings[key])
            self.result_widgets[key] = w
        self.add_buttons()
    def validate_input(self):
        return all(w.currentText() for w in self.result_widgets.values())
    def get_input(self):
        return {k: v.currentText() for k, v in self.result_widgets.items()}
 class NumberDisplaySettings(_SimpleSettings):
    _window_title = "Number display"
    _result_keys = [(False, "result")]
 class NumberDisplay(dockarea.Dock):
    def __init__(self, name, settings):
        dockarea.Dock.__init__(self, "Display: " + name, closable=True)
        self.settings = settings
        self.number = QtGui.QLCDNumber()
        self.number.setDigitCount(10)
        self.addWidget(self.number)
    def data_sources(self):
        return {self.settings["result"]}
    def update_data(self, data):
        result = self.settings["result"]
        try:
            n = float(data[result])
        except:
            n = "---"
        self.number.display(n)
    def save_state(self):
        return None
    def restore_state(self, state):
        pass
 class XYDisplaySettings(_SimpleSettings):
    _window_title = "XY plot"
    _result_keys = [(False, "y"), (True, "x"), (True, "error"), (True, "fit")]
 class XYDisplay(dockarea.Dock):
    def __init__(self, name, settings):
        dockarea.Dock.__init__(self, "XY: " + name, closable=True)
        self.settings = settings
        self.plot = pg.PlotWidget()
        self.addWidget(self.plot)
    def data_sources(self):
        s = {self.settings["y"]}
        for k in "x", "error", "fit":
            if self.settings[k] != "<None>":
                s.add(self.settings[k])
        return s
    def update_data(self, data):
        result_y = self.settings["y"]
        result_x = self.settings["x"]
        result_error = self.settings["error"]
        result_fit = self.settings["fit"]
        try:
            y = data[result_y]
        except KeyError:
            return
        x = data.get(result_x, None)
        if x is None:
            x = list(range(len(y)))
        error = data.get(result_error, None)
        fit = data.get(result_fit, None)
        if not len(y) or len(y) != len(x):
            return
        if error is not None and hasattr(error, "__len__"):
            if not len(error):
                error = None
            elif len(error) != len(y):
                return
        if fit is not None:
            if not len(fit):
                fit = None
            elif len(fit) != len(y):
                return
        self.plot.clear()
        self.plot.plot(x, y, pen=None, symbol="x")
        if error is not None:
            # See https://github.com/pyqtgraph/pyqtgraph/issues/211
            if hasattr(error, "__len__") and not isinstance(error, np.ndarray):
                error = np.array(error)
            errbars = pg.ErrorBarItem(x=np.array(x), y=np.array(y), height=error)
            self.plot.addItem(errbars)
        if fit is not None:
            self.plot.plot(x, fit)
    def save_state(self):
        return self.plot.saveState()
    def restore_state(self, state):
        self.plot.restoreState(state)
 class HistogramDisplaySettings(_SimpleSettings):
    _window_title = "Histogram"
    _result_keys = [(False, "y"), (True, "x")]
 class HistogramDisplay(dockarea.Dock):
    def __init__(self, name, settings):
        dockarea.Dock.__init__(self, "Histogram: " + name, closable=True)
        self.settings = settings
        self.plot = pg.PlotWidget()
        self.addWidget(self.plot)
    def data_sources(self):
        s = {self.settings["y"]}
        if self.settings["x"] != "<None>":
            s.add(self.settings["x"])
        return s
    def update_data(self, data):
        result_y = self.settings["y"]
        result_x = self.settings["x"]
        try:
            y = data[result_y]
            if result_x == "<None>":
                x = None
            else:
                x = data[result_x]
        except KeyError:
            return
        if x is None:
            x = list(range(len(y)+1))
        if len(y) and len(x) == len(y) + 1:
            self.plot.clear()
            self.plot.plot(x, y, stepMode=True, fillLevel=0,
                           brush=(0, 0, 255, 150))
    def save_state(self):
        return self.plot.saveState()
    def restore_state(self, state):
        self.plot.restoreState(state)
 display_types = OrderedDict([
    ("Number", (NumberDisplaySettings, NumberDisplay)),
    ("XY", (XYDisplaySettings, XYDisplay)),
    ("Histogram", (HistogramDisplaySettings, HistogramDisplay))
 ])
--- a/artiq/gui/entries.py
+++ b/artiq/gui/entries.py
@ -10,6 +10,100 @@ from artiq.gui.tools import disable_scroll_wheel
 logger = logging.getLogger(__name__)
 class _StringEntry(QtGui.QLineEdit):
    def __init__(self, argument):
        QtGui.QLineEdit.__init__(self)
        self.setText(argument["state"])
        def update(text):
            argument["state"] = text
        self.textEdited.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        return procdesc.get("default", "")
 class _BooleanEntry(QtGui.QCheckBox):
    def __init__(self, argument):
        QtGui.QCheckBox.__init__(self)
        self.setChecked(argument["state"])
        def update(checked):
            argument["state"] = bool(checked)
        self.stateChanged.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        return procdesc.get("default", False)
 class _EnumerationEntry(QtGui.QComboBox):
    def __init__(self, argument):
        QtGui.QComboBox.__init__(self)
        disable_scroll_wheel(self)
        choices = argument["desc"]["choices"]
        self.addItems(choices)
        idx = choices.index(argument["state"])
        self.setCurrentIndex(idx)
        def update(index):
            argument["state"] = choices[index]
        self.currentIndexChanged.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        if "default" in procdesc:
            return procdesc["default"]
        else:
            return procdesc["choices"][0]
 class _NumberEntry(QtGui.QDoubleSpinBox):
    def __init__(self, argument):
        QtGui.QDoubleSpinBox.__init__(self)
        disable_scroll_wheel(self)
        procdesc = argument["desc"]
        scale = procdesc["scale"]
        self.setDecimals(procdesc["ndecimals"])
        self.setSingleStep(procdesc["step"]/scale)
        if procdesc["min"] is not None:
            self.setMinimum(procdesc["min"]/scale)
        else:
            self.setMinimum(float("-inf"))
        if procdesc["max"] is not None:
            self.setMaximum(procdesc["max"]/scale)
        else:
            self.setMaximum(float("inf"))
        if procdesc["unit"]:
            self.setSuffix(" " + procdesc["unit"])
        self.setValue(argument["state"]/scale)
        def update(value):
            argument["state"] = value*scale
        self.valueChanged.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        if "default" in procdesc:
            return procdesc["default"]
        else:
            return 0.0
 class _NoScan(LayoutWidget):
    def __init__(self, procdesc, state):
        LayoutWidget.__init__(self)
@ -38,7 +132,7 @@ class _NoScan(LayoutWidget):
        self.value.valueChanged.connect(update)
-class _Range(LayoutWidget):
+class _RangeScan(LayoutWidget):
    def __init__(self, procdesc, state):
        LayoutWidget.__init__(self)
@ -90,7 +184,8 @@ class _Range(LayoutWidget):
        self.max.valueChanged.connect(update_max)
        self.npoints.valueChanged.connect(update_npoints)
-class _Explicit(LayoutWidget):
+
 class _ExplicitScan(LayoutWidget):
    def __init__(self, state):
        LayoutWidget.__init__(self)
@ -109,7 +204,7 @@ class _Explicit(LayoutWidget):
        self.value.textEdited.connect(update)
-class ScanController(LayoutWidget):
+class _ScanEntry(LayoutWidget):
    def __init__(self, argument):
        LayoutWidget.__init__(self)
        self.argument = argument
@ -121,9 +216,9 @@ class ScanController(LayoutWidget):
        state = argument["state"]
        self.widgets = OrderedDict()
        self.widgets["NoScan"] = _NoScan(procdesc, state["NoScan"])
-        self.widgets["LinearScan"] = _Range(procdesc, state["LinearScan"])
+        self.widgets["LinearScan"] = _RangeScan(procdesc, state["LinearScan"])
-        self.widgets["RandomScan"] = _Range(procdesc, state["RandomScan"])
+        self.widgets["RandomScan"] = _RangeScan(procdesc, state["RandomScan"])
-        self.widgets["ExplicitScan"] = _Explicit(state["ExplicitScan"])
+        self.widgets["ExplicitScan"] = _ExplicitScan(state["ExplicitScan"])
        for widget in self.widgets.values():
            self.stack.addWidget(widget)
@ -181,3 +276,13 @@ class ScanController(LayoutWidget):
                self.stack.setCurrentWidget(self.widgets[ty])
                self.argument["state"]["selected"] = ty
                break
 argty_to_entry = {
    "PYONValue": _StringEntry,
    "BooleanValue": _BooleanEntry,
    "EnumerationValue": _EnumerationEntry,
    "NumberValue": _NumberEntry,
    "StringValue": _StringEntry,
    "Scannable": _ScanEntry
 }
--- a/artiq/gui/experiments.py
+++ b/artiq/gui/experiments.py
@ -7,117 +7,13 @@ from quamash import QtGui, QtCore
 from pyqtgraph import dockarea, LayoutWidget
-from artiq.gui.tools import log_level_to_name, disable_scroll_wheel
+from artiq.gui.tools import log_level_to_name
-from artiq.gui.scan import ScanController
+from artiq.gui.entries import argty_to_entry
 logger = logging.getLogger(__name__)
 class _StringEntry(QtGui.QLineEdit):
    def __init__(self, argument):
        QtGui.QLineEdit.__init__(self)
        self.setText(argument["state"])
        def update(text):
            argument["state"] = text
        self.textEdited.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        return procdesc.get("default", "")
 class _BooleanEntry(QtGui.QCheckBox):
    def __init__(self, argument):
        QtGui.QCheckBox.__init__(self)
        self.setChecked(argument["state"])
        def update(checked):
            argument["state"] = bool(checked)
        self.stateChanged.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        return procdesc.get("default", False)
 class _EnumerationEntry(QtGui.QComboBox):
    def __init__(self, argument):
        QtGui.QComboBox.__init__(self)
        disable_scroll_wheel(self)
        choices = argument["desc"]["choices"]
        self.addItems(choices)
        idx = choices.index(argument["state"])
        self.setCurrentIndex(idx)
        def update(index):
            argument["state"] = choices[index]
        self.currentIndexChanged.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        if "default" in procdesc:
            return procdesc["default"]
        else:
            return procdesc["choices"][0]
 class _NumberEntry(QtGui.QDoubleSpinBox):
    def __init__(self, argument):
        QtGui.QDoubleSpinBox.__init__(self)
        disable_scroll_wheel(self)
        procdesc = argument["desc"]
        scale = procdesc["scale"]
        self.setDecimals(procdesc["ndecimals"])
        self.setSingleStep(procdesc["step"]/scale)
        if procdesc["min"] is not None:
            self.setMinimum(procdesc["min"]/scale)
        else:
            self.setMinimum(float("-inf"))
        if procdesc["max"] is not None:
            self.setMaximum(procdesc["max"]/scale)
        else:
            self.setMaximum(float("inf"))
        if procdesc["unit"]:
            self.setSuffix(" " + procdesc["unit"])
        self.setValue(argument["state"]/scale)
        def update(value):
            argument["state"] = value*scale
        self.valueChanged.connect(update)
    @staticmethod
    def state_to_value(state):
        return state
    @staticmethod
    def default_state(procdesc):
        if "default" in procdesc:
            return procdesc["default"]
        else:
            return 0.0
 _argty_to_entry = {
    "PYONValue": _StringEntry,
    "BooleanValue": _BooleanEntry,
    "EnumerationValue": _EnumerationEntry,
    "NumberValue": _NumberEntry,
    "StringValue": _StringEntry,
    "Scannable": ScanController
 }
 # Experiment URLs come in two forms:
 # 1. repo:<experiment name>
 #    (file name and class name to be retrieved from explist)
@ -153,7 +49,7 @@ class _ArgumentEditor(QtGui.QTreeWidget):
            self.addTopLevelItem(QtGui.QTreeWidgetItem(["No arguments"]))
        for name, argument in arguments.items():
-            entry = _argty_to_entry[argument["desc"]["ty"]](argument)
+            entry = argty_to_entry[argument["desc"]["ty"]](argument)
            widget_item = QtGui.QTreeWidgetItem([name])
            self._arg_to_entry_widgetitem[name] = entry, widget_item
@ -211,14 +107,14 @@ class _ArgumentEditor(QtGui.QTreeWidget):
        argument = self.manager.get_submission_arguments(self.expurl)[name]
        procdesc = arginfo[name][0]
-        state = _argty_to_entry[procdesc["ty"]].default_state(procdesc)
+        state = argty_to_entry[procdesc["ty"]].default_state(procdesc)
        argument["desc"] = procdesc
        argument["state"] = state
        old_entry, widget_item = self._arg_to_entry_widgetitem[name]
        old_entry.deleteLater()
-        entry = _argty_to_entry[procdesc["ty"]](argument)
+        entry = argty_to_entry[procdesc["ty"]](argument)
        self._arg_to_entry_widgetitem[name] = entry, widget_item
        self.setItemWidget(widget_item, 1, entry)
@ -466,7 +362,7 @@ class ExperimentManager:
    def initialize_submission_arguments(self, expurl, arginfo):
        arguments = OrderedDict()
        for name, (procdesc, group) in arginfo.items():
-            state = _argty_to_entry[procdesc["ty"]].default_state(procdesc)
+            state = argty_to_entry[procdesc["ty"]].default_state(procdesc)
            arguments[name] = {
                "desc": procdesc,
                "group": group,
@ -512,7 +408,7 @@ class ExperimentManager:
        argument_values = dict()
        for name, argument in arguments.items():
-            entry_cls = _argty_to_entry[argument["desc"]["ty"]]
+            entry_cls = argty_to_entry[argument["desc"]["ty"]]
            argument_values[name] = entry_cls.state_to_value(argument["state"])
        expid = {
--- a/artiq/gui/log.py
+++ b/artiq/gui/log.py
@ -9,11 +9,6 @@ from pyqtgraph import dockarea, LayoutWidget
 from artiq.gui.tools import log_level_to_name
 try:
    QSortFilterProxyModel = QtCore.QSortFilterProxyModel
 except AttributeError:
    QSortFilterProxyModel = QtGui.QSortFilterProxyModel
 def _make_wrappable(row, width=30):
    level, source, time, msg = row
@ -34,8 +29,7 @@ class Model(QtCore.QAbstractTableModel):
        timer.timeout.connect(self.timer_tick)
        timer.start(100)
-        self.fixed_font = QtGui.QFont()
+        self.fixed_font = QtGui.QFontDatabase.systemFont(QtGui.QFontDatabase.FixedFont)
        self.fixed_font.setFamily("Monospace")
        self.white = QtGui.QBrush(QtGui.QColor(255, 255, 255))
        self.black = QtGui.QBrush(QtGui.QColor(0, 0, 0))
@ -114,9 +108,9 @@ class Model(QtCore.QAbstractTableModel):
                    time.strftime("%m/%d %H:%M:%S", time.localtime(v[2])))
-class _LogFilterProxyModel(QSortFilterProxyModel):
+class _LogFilterProxyModel(QtCore.QSortFilterProxyModel):
    def __init__(self, min_level, freetext):
-        QSortFilterProxyModel.__init__(self)
+        QtCore.QSortFilterProxyModel.__init__(self)
        self.min_level = min_level
        self.freetext = freetext
--- a/artiq/gui/shortcuts.py
+++ b/artiq/gui/shortcuts.py
@ -1,13 +1,8 @@
 import logging
 from functools import partial
-from quamash import QtGui, QtCore
+from quamash import QtGui, QtCore, QtWidgets
 from pyqtgraph import dockarea
 try:
    from quamash import QtWidgets
    QShortcut = QtWidgets.QShortcut
 except:
    QShortcut = QtGui.QShortcut
 logger = logging.getLogger(__name__)
@ -66,7 +61,7 @@ class ShortcutsDock(dockarea.Dock):
                "open": open,
                "submit": submit
            }
-            shortcut = QShortcut("F" + str(i+1), main_window)
+            shortcut = QtWidgets.QShortcut("F" + str(i+1), main_window)
            shortcut.setContext(QtCore.Qt.ApplicationShortcut)
            shortcut.activated.connect(partial(self._activated, i))
--- a/examples/master/repository/histograms.py
+++ b/examples/master/repository/histograms.py
@ -0,0 +1,35 @@
 from time import sleep
 import numpy as np
 from artiq import *
 class Histograms(EnvExperiment):
    """Histograms demo"""
    def build(self):
        pass
    def run(self):
        nbins = 50
        npoints = 20
        bin_boundaries = np.linspace(-10, 30, nbins + 1)
        self.set_dataset("hd_bins", bin_boundaries,
                         broadcast=True, save=False)
        xs = np.empty(npoints)
        xs.fill(np.nan)
        xs = self.set_dataset("hd_xs", xs,
                              broadcast=True, save=False)
        counts = np.empty((npoints, nbins))
        counts = self.set_dataset("hd_counts", counts, 
                              broadcast=True, save=False)
        for i in range(npoints):
            histogram, _ = np.histogram(np.random.normal(i, size=1000),
                                        bin_boundaries)
            counts[i] = histogram
            xs[i] = i % 8
            sleep(0.3)