diff --git a/piker/ui/_chart.py b/piker/ui/_chart.py index 2820a0f1..1db354bf 100644 --- a/piker/ui/_chart.py +++ b/piker/ui/_chart.py @@ -60,7 +60,7 @@ from ._style import ( hcolor, CHART_MARGINS, _xaxis_at, - _min_points_to_show, + # _min_points_to_show, ) from ..data.feed import ( Feed, @@ -810,6 +810,8 @@ class LinkedSplits(QWidget): self.chart.sidepane.setMinimumWidth(sp_w) +# TODO: we should really drop using this type and instead just +# write our own wrapper around `PlotItem`.. class ChartPlotWidget(pg.PlotWidget): ''' ``GraphicsView`` subtype containing a single ``PlotItem``. @@ -921,7 +923,7 @@ class ChartPlotWidget(pg.PlotWidget): # show background grid self.showGrid(x=False, y=True, alpha=0.3) - self.cv.enable_auto_yrange() + # self.cv.enable_auto_yrange() self.pi_overlay: PlotItemOverlay = PlotItemOverlay(self.plotItem) @@ -951,41 +953,10 @@ class ChartPlotWidget(pg.PlotWidget): def focus(self) -> None: self.view.setFocus() - def _set_xlimits( - self, - xfirst: int, - xlast: int - ) -> None: - """Set view limits (what's shown in the main chart "pane") - based on max/min x/y coords. - """ - self.setLimits( - xMin=xfirst, - xMax=xlast, - minXRange=_min_points_to_show, - ) - def view_range(self) -> tuple[int, int]: vr = self.viewRect() return int(vr.left()), int(vr.right()) - def bars_range(self) -> tuple[int, int, int, int]: - ''' - Return a range tuple for the bars present in view. - - ''' - main_flow = self._vizs[self.name] - ifirst, l, lbar, rbar, r, ilast = main_flow.datums_range() - return l, lbar, rbar, r - - def curve_width_pxs( - self, - ) -> float: - _, lbar, rbar, _ = self.bars_range() - return self.view.mapViewToDevice( - QLineF(lbar, 0, rbar, 0) - ).length() - def pre_l1_xs(self) -> tuple[float, float]: ''' Return the view x-coord for the value just before @@ -1038,59 +1009,88 @@ class ChartPlotWidget(pg.PlotWidget): Set the view box to the "default" startup view of the scene. ''' - flow = self._vizs.get(self.name) - if not flow: + viz = self.get_viz(self.name) + if not viz: log.warning(f'`Viz` for {self.name} not loaded yet?') return - arr = flow.shm.array - index = arr['index'] - # times = arr['time'] + ( + _, + l, + datum_start, + datum_stop, + r, + _, + ) = viz.datums_range() - # these will be epoch time floats - xfirst, xlast = index[0], index[-1] - l, lbar, rbar, r = self.bars_range() + array = viz.shm.array + index_field = viz.index_field - view = self.view + if index_field == 'time': + vr = viz.plot.viewRect() + ( + abs_slc, + read_slc, + mask, + + ) = viz.flume.slice_from_time( + array, + start_t=vr.left(), + stop_t=vr.right(), + ) + iv_arr = array[mask] + index = iv_arr['index'] + + else: + index = array['index'] + + # these must be array-index-ints (hence the slice from time + # above). + x_start, x_stop = index[0], index[-1] + view: ChartView = viz.plot.vb if ( - rbar < 0 - or l < xfirst + datum_stop < 0 + or l < x_start or l < 0 - or (rbar - lbar) < 6 + or (datum_stop - datum_start) < 6 ): - # TODO: set fixed bars count on screen that approx includes as - # many bars as possible before a downsample line is shown. - begin = xlast - bars_from_y + begin = x_stop - bars_from_y view.setXRange( min=begin, - max=xlast, + max=x_stop, padding=0, ) # re-get range - l, lbar, rbar, r = self.bars_range() + l, datum_start, datum_stop, r = viz.bars_range() # we get the L1 spread label "length" in view coords # terms now that we've scaled either by user control # or to the default set of bars as per the immediate block # above. + debug_msg = ( + f'x_stop: {x_stop}\n' + ) + if not y_offset: marker_pos, l1_len = self.pre_l1_xs() - end = xlast + l1_len + 1 + end = x_stop + l1_len + 1 + + debug_msg += ( + f'marker pos: {marker_pos}\n' + f'l1 len: {l1_len}\n' + ) + else: - end = xlast + y_offset + 1 + end = x_stop + y_offset + 1 begin = end - (r - l) - # for debugging - # print( - # # f'bars range: {brange}\n' - # f'xlast: {xlast}\n' - # f'marker pos: {marker_pos}\n' - # f'l1 len: {l1_len}\n' - # f'begin: {begin}\n' - # f'end: {end}\n' - # ) + debug_msg += ( + f'end: {end}\n' + f'begin: {begin}\n' + ) + print(debug_msg) # remove any custom user yrange setttings if self._static_yrange == 'axis': @@ -1254,17 +1254,17 @@ class ChartPlotWidget(pg.PlotWidget): **graphics_kwargs, ) - flow = self._vizs[data_key] = Viz( + viz = self._vizs[data_key] = Viz( data_key, pi, shm, flume, is_ohlc=is_ohlc, - # register curve graphics with this flow + # register curve graphics with this viz graphics=graphics, ) - assert isinstance(flow.shm, ShmArray) + assert isinstance(viz.shm, ShmArray) # TODO: this probably needs its own method? if overlay: @@ -1321,7 +1321,7 @@ class ChartPlotWidget(pg.PlotWidget): # understand. pi.addItem(graphics) - return flow + return viz def draw_ohlc( self, @@ -1364,35 +1364,6 @@ class ChartPlotWidget(pg.PlotWidget): **kwargs, ) - # def _label_h(self, yhigh: float, ylow: float) -> float: - # # compute contents label "height" in view terms - # # to avoid having data "contents" overlap with them - # if self._labels: - # label = self._labels[self.name][0] - - # rect = label.itemRect() - # tl, br = rect.topLeft(), rect.bottomRight() - # vb = self.plotItem.vb - - # try: - # # on startup labels might not yet be rendered - # top, bottom = (vb.mapToView(tl).y(), vb.mapToView(br).y()) - - # # XXX: magic hack, how do we compute exactly? - # label_h = (top - bottom) * 0.42 - - # except np.linalg.LinAlgError: - # label_h = 0 - # else: - # label_h = 0 - - # # print(f'label height {self.name}: {label_h}') - - # if label_h > yhigh - ylow: - # label_h = 0 - - # print(f"bounds (ylow, yhigh): {(ylow, yhigh)}") - # TODO: pretty sure we can just call the cursor # directly not? i don't wee why we need special "signal proxies" # for this lul.. @@ -1429,23 +1400,22 @@ class ChartPlotWidget(pg.PlotWidget): # TODO: here we should instead look up the ``Viz.shm.array`` # and read directly from shm to avoid copying to memory first # and then reading it again here. - flow_key = name or self.name - viz = self._vizs.get(flow_key) - if ( - viz is None - ): - log.error(f"viz {flow_key} doesn't exist in chart {self.name} !?") + viz_key = name or self.name + viz = self._vizs.get(viz_key) + if viz is None: + log.error(f"viz {viz_key} doesn't exist in chart {self.name} !?") key = res = 0, 0 else: ( - first, + _, l, lbar, rbar, r, - last, + _, ) = bars_range or viz.datums_range() + profiler(f'{self.name} got bars range') key = round(lbar), round(rbar) @@ -1455,7 +1425,7 @@ class ChartPlotWidget(pg.PlotWidget): res is None ): log.warning( - f"{flow_key} no mxmn for bars_range => {key} !?" + f"{viz_key} no mxmn for bars_range => {key} !?" ) res = 0, 0 if not self._on_screen: @@ -1463,11 +1433,11 @@ class ChartPlotWidget(pg.PlotWidget): self._on_screen = True profiler(f'yrange mxmn: {key} -> {res}') - # print(f'{flow_key} yrange mxmn: {key} -> {res}') + # print(f'{viz_key} yrange mxmn: {key} -> {res}') return res def get_viz( self, key: str, ) -> Viz: - return self._vizs[key] + return self._vizs.get(key)