# -*- coding: utf-8 -*- """ Copyright (c) 2015, Jairus Martin. Distributed under the terms of the MIT License. The full license is in the file COPYING.txt, distributed with this software. Created on Aug 31, 2015 """ import types import pyqtgraph as pg from atom.api import Bool, ForwardInstance, Instance, Int, Typed from enaml.application import timed_call from enaml.qt.q_resource_helpers import get_cached_qcolor from enaml.qt.qt_control import QtControl from pyqtgraph.widgets.GraphicsLayoutWidget import GraphicsLayoutWidget from enamlx.widgets.plot_area import ProxyPlotArea def gl_view_widget(): from pyqtgraph.opengl import GLViewWidget return GLViewWidget class QtPlotArea(QtControl, ProxyPlotArea): """PyQtGraph Plot Widget""" __weakref__ = None widget = Typed(GraphicsLayoutWidget) def create_widget(self): self.widget = GraphicsLayoutWidget(self.parent_widget()) def init_layout(self): for child in self.children(): self.child_added(child) def child_added(self, child): # TODO support layouts if isinstance(child, AbstractQtPlotItem): d = child.declaration kwargs = dict(row=d.row, col=d.column) if d.row or d.column else {} self.widget.addItem(child.widget, **kwargs) def child_removed(self, child): if isinstance(child, AbstractQtPlotItem): self.widget.removeItem(child.widget) class AbstractQtPlotItem(QtControl): #: So we can receive signals __weakref__ = None #: Plot item or parent plot item if nested widget = Instance(pg.PlotItem) #: Actual plot plot = Instance(pg.GraphicsObject) #: Root or nested graph is_root = Bool() #: View box viewbox = Instance(pg.ViewBox) #: Axis item axis = Instance(pg.AxisItem) _pending_refreshes = Int(0) def create_widget(self): if isinstance(self.parent(), AbstractQtPlotItem): self.widget = self.parent_widget() self.is_root = False else: self.is_root = True self.widget = pg.PlotItem() def init_widget(self): # super(AbstractQtPlotItem, self).init_widget() d = self.declaration if self.is_root: if d.grid: self.set_grid(d.grid) if d.title: self.set_title(d.title) if d.label_left: self.set_label_left(d.label_left) if d.label_right: self.set_label_right(d.label_right) if d.label_top: self.set_label_top(d.label_top) if d.label_bottom: self.set_label_bottom(d.label_bottom) if d.show_legend: self.set_show_legend(d.show_legend) if d.multi_axis: self.set_multi_axis(d.multi_axis) self.set_antialias(d.antialias) self.set_aspect_locked(d.aspect_locked) if d.background: self.set_background(d.background) if d.axis_left_ticks: self.set_axis_left_ticks(d.axis_left_ticks) if d.axis_bottom_ticks: self.set_axis_bottom_ticks(d.axis_bottom_ticks) self._refresh_plot() self.set_auto_range(d.auto_range) self.init_signals() def init_signals(self): self.widget.sigRangeChanged.connect(self.on_range_changed) self.widget.vb.sigResized.connect(self.on_resized) def _format_data(self): raise NotImplementedError def _format_style(self): data = {} d = self.declaration if d.line_pen: data["pen"] = d.line_pen if d.shadow_pen: data["shadowPen"] = d.shadow_pen if d.fill_level: data["fillLevel"] = d.fill_level if d.fill_brush: data["fillBrush"] = d.fill_brush if d.step_mode: data["stepMode"] = d.step_mode # if d.background: # data['background'] = d.background if d.symbol: data["symbol"] = d.symbol if d.symbol_pen: data["symbolPen"] = d.symbol_pen if d.symbol_brush: data["symbolBrush"] = d.symbol_brush if d.symbol_size: data["symbolSize"] = d.symbol_size if d.antialias: data["antialias"] = d.antialias return data def _refresh_plot(self): """Defer drawing until all changes are done so we don't draw during initialization or when many values change at once. """ self._pending_refreshes += 1 refresh_time = self.declaration.refresh_time timed_call(refresh_time, self._redraw_plot) def _redraw_plot(self): self._pending_refreshes -= 1 if self._pending_refreshes != 0: return # Another change occurred if self.plot: self.plot.clear() if self.viewbox: self.viewbox.close() d = self.declaration data = self._format_data() style = self._format_style() if not self.is_root and d.parent.multi_axis: self._refresh_multi_axis() self.plot = self.viewbox.addItem(pg.PlotDataItem(*data, **style)) else: self.plot = self.widget.plot(*data, **style) def _refresh_multi_axis(self): """If linked axis' are used, setup and link them""" d = self.declaration #: Create a separate viewbox self.viewbox = pg.ViewBox() #: If this is the first nested plot, use the parent right axis _plots = [ c for c in self.parent().children() if isinstance(c, AbstractQtPlotItem) ] i = _plots.index(self) if i == 0: self.axis = self.widget.getAxis("right") self.widget.showAxis("right") else: self.axis = pg.AxisItem("right") self.axis.setZValue(-10000) #: Add new axis to scene self.widget.layout.addItem(self.axis, 2, i + 2) #: Link x axis to the parent axis self.viewbox.setXLink(self.widget.vb) #: Link y axis to the view self.axis.linkToView(self.viewbox) #: Set axis label self.axis.setLabel(d.label_right) #: Add Viewbox to parent scene self.parent().parent_widget().scene().addItem(self.viewbox) def set_row(self, row): self._refresh_plot() def set_column(self, column): self._refresh_plot() def set_aspect_locked(self, locked): return # self.widget.setAspectLocked(locked) def set_background(self, background): color = get_cached_qcolor(background) if background else None if isinstance(self.parent(), AbstractQtPlotItem): self.parent().parent_widget().setBackground(color) else: self.parent_widget().setBackground(color) def set_line_pen(self, pen): self.widget.setPen(pen) def set_shadow_pen(self, pen): self.widget.setShadowPen(pen) def set_axis_left_ticks(self, callback): self.set_axis_ticks("left", callback) def set_axis_bottom_ticks(self, callback): self.set_axis_ticks("bottom", callback) def set_axis_ticks(self, axis_name, callback): axis = self.widget.getAxis(axis_name) # Save ref if not hasattr(axis, "_tickStrings"): axis._tickStrings = axis.tickStrings axis.tickStrings = ( types.MethodType(callback, axis, axis.__class__) if callback else axis._tickStrings ) def set_grid(self, grid): self.widget.showGrid(grid[0], grid[1], self.declaration.grid_alpha) def set_grid_alpha(self, alpha): self.set_grid(self.declaration.grid) def set_show_legend(self, show): if show: if not self.widget.legend: self.widget.addLegend() else: self.widget.legend.hide() def set_title(self, title): self.widget.setTitle(title) def set_label_top(self, text): self.widget.setLabels("top", text) def set_label_left(self, text): self.widget.setLabel("left", text) def set_label_right(self, text): if not self.is_root and self.declaration.parent.multi_axis: return # don't override multi axis label self.widget.setLabel("right", text) def set_label_bottom(self, text): self.widget.setLabel("bottom", text) def set_auto_downsampling(self, enabled): self.widget.setDownsampling(auto=enabled) def set_antialias(self, enabled): self._refresh_plot() def set_auto_range(self, auto_range): d = self.declaration if not isinstance(auto_range, tuple): auto_range = (auto_range, auto_range) self.declaration.auto_range = auto_range if not auto_range[0]: self.set_range_x(d.range_x) if not auto_range[1]: self.set_range_y(d.range_y) # # Setters that require a full refresh # def set_symbol(self, arg): self._refresh_plot() def set_symbol_size(self, arg): self._refresh_plot() def set_symbol_brush(self, arg): self._refresh_plot() def set_fill_brush(self, arg): self._refresh_plot() def set_fill_level(self, arg): self._refresh_plot() def set_multi_axis(self, arg): self._refresh_plot() def set_log_mode(self, arg): self._refresh_plot() def set_clip_to_view(self, arg): self._refresh_plot() def set_step_mode(self, arg): self._refresh_plot() def set_range_x(self, val): """Set visible range of x data. Note: Padding must be 0 or it will create an infinite loop """ d = self.declaration if d.auto_range[0]: return self.widget.setXRange(*val, padding=0) def set_range_y(self, val): """Set visible range of y data. Note: Padding must be 0 or it will create an infinite loop """ d = self.declaration if d.auto_range[1]: return self.widget.setYRange(*val, padding=0) # # Widget events # def on_range_changed(self, vb, rect): d = self.declaration d.range_x = rect[0] d.range_y = rect[1] def on_scale_changed(self, view_scale): pass def on_resized(self): """Update linked views""" d = self.declaration if not self.is_root and d.parent.multi_axis: if self.viewbox: self.viewbox.setGeometry(self.widget.vb.sceneBoundingRect()) self.viewbox.linkedViewChanged(self.widget.vb, self.viewbox.XAxis) # # # # Child events # # # # def child_added(self, child): # # TODO support layouts # if isinstance(child,AbstractQtPlotItem): # self.addItem(child.widget) # # def child_removed(self, child): # if isinstance(child,AbstractQtPlotItem): # self.removeItem(child.widget) class QtPlotItem2D(AbstractQtPlotItem): def set_x(self, x): # Only refresh when they are equal # because one can be set at a time if len(self.declaration.y) == len(x): self._refresh_plot() def set_y(self, y): # Only refresh when they are equal # because one can be set at a time if len(self.declaration.x) == len(y): self._refresh_plot() def _format_data(self): data = [self.declaration.y] if self.declaration.x is not None: data.insert(0, self.declaration.x) return data class QtPlotItemDict(QtPlotItem2D): def set_data(self, data): self._refresh_plot() def _format_data(self): return self.declaration.data class QtPlotItemList(QtPlotItemDict): pass class QtPlotItemArray(QtPlotItem2D): pass class QtPlotItem3D(QtPlotItem2D): """Use forward instance to not cause import issues if not installed.""" widget = ForwardInstance(gl_view_widget) def create_widget(self): from pyqtgraph.opengl import GLViewWidget if isinstance(self.parent(), AbstractQtPlotItem): self.widget = self.parent_widget() else: self.widget = GLViewWidget(parent=self.parent_widget()) self.widget.opts["distance"] = 40 self.widget.raise_() def init_signals(self): pass def _create_grid(self): from pyqtgraph.opengl import GLGridItem gx = GLGridItem() gx.rotate(90, 0, 1, 0) gx.translate(-10, 0, 0) self.widget.addItem(gx) gy = GLGridItem() gy.rotate(90, 1, 0, 0) gy.translate(0, -10, 0) self.widget.addItem(gy) gz = GLGridItem() gz.translate(0, 0, -10) self.widget.addItem(gz) def set_z(self, z): self._refresh_plot() def _refresh_plot(self): import numpy as np # import pyqtgraph as pg from pyqtgraph import opengl as gl self._create_grid() pts = np.vstack( [self.declaration.x, self.declaration.y, self.declaration.z] ).transpose() plt = gl.GLLinePlotItem( pos=pts ) # , color=pg.glColor((i,n*1.3)), width=(i+1)/10., antialias=True) self.widget.addItem(plt) def set_grid(self, grid): pass class QtPlotItemArray3D(QtPlotItem3D): def _refresh_plot(self): import numpy as np import pyqtgraph as pg from pyqtgraph import opengl as gl self._create_grid() n = 51 x = self.declaration.x y = self.declaration.y for i in range(n): yi = np.array([y[i]] * 100) d = (x**2 + yi**2) ** 0.5 z = 10 * np.cos(d) / (d + 1) pts = np.vstack([x, yi, z]).transpose() plt = gl.GLLinePlotItem( pos=pts, color=pg.glColor((i, n * 1.3)), width=(i + 1) / 10.0, antialias=True, ) self.widget.addItem(plt) # def set_data(self,data): # self.widget.plotItem.clear() # if self._views: # for view in self._views: # view.clear() # # views = [] # i = 0 # if self.declaration.multi_axis: # for i,plot in enumerate(data): # if i>3: # break # if 'pen' not in plot: # plot['pen'] = self._colors[i] # if i>0: # view = ViewBox() # views.append(view) # self.widget.plotItem.scene().addItem(view) # if i==1: # axis = self.widget.plotItem.getAxis('right') # elif i>1: # axis = AxisItem('right') # axis.setZValue(-10000) # self.widget.plotItem.layout.addItem(axis,2,3) # axis.linkToView(view) # view.setXLink(self.widget.plotItem) # view.addItem(PlotCurveItem(**plot)) # else: #view.setYLink(self.widget.plotItem) # self.widget.plot(**plot) # if i>0: # def syncViews(): # for v in views: # v.setGeometry(self.widget.plotItem.vb.sceneBoundingRect()) # v.linkedViewChanged(self.widget.plotItem.vb,v.XAxis) # syncViews() # self.widget.plotItem.vb.sigResized.connect(syncViews) # self._views = views