import numpy as np import pytest import pyqtgraph as pg from pyqtgraph.Qt import QtCore, QtTest from pyqtgraph.tests import assertImageApproved, mouseMove, mouseDrag, mouseClick, TransposedImageItem app = pg.mkQApp() def test_getArrayRegion(transpose=False): pr = pg.PolyLineROI([[0, 0], [27, 0], [0, 28]], closed=True) pr.setPos(1, 1) rois = [ (pg.ROI([1, 1], [27, 28], pen='y'), 'baseroi'), (pg.RectROI([1, 1], [27, 28], pen='y'), 'rectroi'), (pg.EllipseROI([1, 1], [27, 28], pen='y'), 'ellipseroi'), (pr, 'polylineroi'), ] for roi, name in rois: # For some ROIs, resize should not be used. testResize = not isinstance(roi, pg.PolyLineROI) origMode = pg.getConfigOption('imageAxisOrder') try: if transpose: pg.setConfigOptions(imageAxisOrder='row-major') check_getArrayRegion(roi, 'roi/'+name, testResize, transpose=True) else: pg.setConfigOptions(imageAxisOrder='col-major') check_getArrayRegion(roi, 'roi/'+name, testResize) finally: pg.setConfigOptions(imageAxisOrder=origMode) def test_getArrayRegion_axisorder(): test_getArrayRegion(transpose=True) def check_getArrayRegion(roi, name, testResize=True, transpose=False): initState = roi.getState() #win = pg.GraphicsLayoutWidget() win = pg.GraphicsView() win.show() win.resize(200, 400) # Don't use Qt's layouts for testing--these generate unpredictable results. #vb1 = win.addViewBox() #win.nextRow() #vb2 = win.addViewBox() # Instead, place the viewboxes manually vb1 = pg.ViewBox() win.scene().addItem(vb1) vb1.setPos(6, 6) vb1.resize(188, 191) vb2 = pg.ViewBox() win.scene().addItem(vb2) vb2.setPos(6, 203) vb2.resize(188, 191) img1 = pg.ImageItem(border='w') img2 = pg.ImageItem(border='w') vb1.addItem(img1) vb2.addItem(img2) np.random.seed(0) data = np.random.normal(size=(7, 30, 31, 5)) data[0, :, :, :] += 10 data[:, 1, :, :] += 10 data[:, :, 2, :] += 10 data[:, :, :, 3] += 10 if transpose: data = data.transpose(0, 2, 1, 3) img1.setImage(data[0, ..., 0]) vb1.setAspectLocked() vb1.enableAutoRange(True, True) roi.setZValue(10) vb1.addItem(roi) if isinstance(roi, pg.RectROI): if transpose: assert roi.getAffineSliceParams(data, img1, axes=(1, 2)) == ([28.0, 27.0], ((1.0, 0.0), (0.0, 1.0)), (1.0, 1.0)) else: assert roi.getAffineSliceParams(data, img1, axes=(1, 2)) == ([27.0, 28.0], ((1.0, 0.0), (0.0, 1.0)), (1.0, 1.0)) rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) #assert np.all((rgn == data[:, 1:-2, 1:-2, :]) | (rgn == 0)) img2.setImage(rgn[0, ..., 0]) vb2.setAspectLocked() vb2.enableAutoRange(True, True) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion', 'Simple ROI region selection.') with pytest.raises(TypeError): roi.setPos(0, False) roi.setPos([0.5, 1.5]) rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) img2.setImage(rgn[0, ..., 0]) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion_halfpx', 'Simple ROI region selection, 0.5 pixel shift.') roi.setAngle(45) roi.setPos([3, 0]) rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) img2.setImage(rgn[0, ..., 0]) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion_rotate', 'Simple ROI region selection, rotation.') if testResize: roi.setSize([60, 60]) rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) img2.setImage(rgn[0, ..., 0]) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion_resize', 'Simple ROI region selection, resized.') img1.scale(1, -1) img1.setPos(0, img1.height()) img1.rotate(20) rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) img2.setImage(rgn[0, ..., 0]) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion_img_trans', 'Simple ROI region selection, image transformed.') vb1.invertY() rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) img2.setImage(rgn[0, ..., 0]) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion_inverty', 'Simple ROI region selection, view inverted.') roi.setState(initState) img1.resetTransform() img1.setPos(0, 0) img1.scale(1, 0.5) rgn = roi.getArrayRegion(data, img1, axes=(1, 2)) img2.setImage(rgn[0, ..., 0]) app.processEvents() assertImageApproved(win, name+'/roi_getarrayregion_anisotropic', 'Simple ROI region selection, image scaled anisotropically.') # allow the roi to be re-used roi.scene().removeItem(roi) def test_PolyLineROI(): rois = [ (pg.PolyLineROI([[0, 0], [10, 0], [0, 15]], closed=True, pen=0.3), 'closed'), (pg.PolyLineROI([[0, 0], [10, 0], [0, 15]], closed=False, pen=0.3), 'open') ] #plt = pg.plot() plt = pg.GraphicsView() plt.show() plt.resize(200, 200) vb = pg.ViewBox() plt.scene().addItem(vb) vb.resize(200, 200) #plt.plotItem = pg.PlotItem() #plt.scene().addItem(plt.plotItem) #plt.plotItem.resize(200, 200) plt.scene().minDragTime = 0 # let us simulate mouse drags very quickly. # seemingly arbitrary requirements; might need longer wait time for some platforms.. QtTest.QTest.qWaitForWindowShown(plt) QtTest.QTest.qWait(100) for r, name in rois: vb.clear() vb.addItem(r) vb.autoRange() app.processEvents() assertImageApproved(plt, 'roi/polylineroi/'+name+'_init', 'Init %s polyline.' % name) initState = r.getState() assert len(r.getState()['points']) == 3 # hover over center center = r.mapToScene(pg.Point(3, 3)) mouseMove(plt, center) assertImageApproved(plt, 'roi/polylineroi/'+name+'_hover_roi', 'Hover mouse over center of ROI.') # drag ROI mouseDrag(plt, center, center + pg.Point(10, -10), QtCore.Qt.LeftButton) assertImageApproved(plt, 'roi/polylineroi/'+name+'_drag_roi', 'Drag mouse over center of ROI.') # hover over handle pt = r.mapToScene(pg.Point(r.getState()['points'][2])) mouseMove(plt, pt) assertImageApproved(plt, 'roi/polylineroi/'+name+'_hover_handle', 'Hover mouse over handle.') # drag handle mouseDrag(plt, pt, pt + pg.Point(5, 20), QtCore.Qt.LeftButton) assertImageApproved(plt, 'roi/polylineroi/'+name+'_drag_handle', 'Drag mouse over handle.') # hover over segment pt = r.mapToScene((pg.Point(r.getState()['points'][2]) + pg.Point(r.getState()['points'][1])) * 0.5) mouseMove(plt, pt+pg.Point(0, 2)) assertImageApproved(plt, 'roi/polylineroi/'+name+'_hover_segment', 'Hover mouse over diagonal segment.') # click segment mouseClick(plt, pt, QtCore.Qt.LeftButton) assertImageApproved(plt, 'roi/polylineroi/'+name+'_click_segment', 'Click mouse over segment.') r.clearPoints() assertImageApproved(plt, 'roi/polylineroi/'+name+'_clear', 'All points cleared.') assert len(r.getState()['points']) == 0 r.setPoints(initState['points']) assertImageApproved(plt, 'roi/polylineroi/'+name+'_setpoints', 'Reset points to initial state.') assert len(r.getState()['points']) == 3 r.setState(initState) assertImageApproved(plt, 'roi/polylineroi/'+name+'_setstate', 'Reset ROI to initial state.') assert len(r.getState()['points']) == 3