def make_plot(self, multiple=False): """ draws the plots """ # legend setup if self.LegendCB.isChecked(): legend = 'Replicate ' if self.alldata.is_single() else 'Set ' else: legend = '' self.multi_cach = multiple self.fig.clear() self.axes = self.fig.add_subplot(121) self.axes2 = self.fig.add_subplot(122) a_isvar = False if self.SetCB.currentIndex() == 1 else True if self.alldata.is_single(): # reaction plot reaction_plots.plot_singlegraph(self.data, self.axes, signal=self.PlotCB.currentIndex(), equation=self.equation, legend=legend) # residuals plot reaction_plots.plot_res(self.alldata, self.axes2, equation=self.equation, a_isvar=a_isvar) # plot for DS data else: ebars = True if self.ErrCB.currentIndex() == 1 else False # plot when finding fits if multiple: reaction_plots.plot_dsegraph(self.alldata, self.axes, signal=self.PlotCB.currentIndex(), equations=[eq.function for eq in self.set_equations], a_isvar=a_isvar, legend=legend, pick=self.EncCB.currentIndex() - 1, errors=ebars) reaction_plots.plot_res(self.alldata, self.axes2, equations=[eq.function for eq in self.set_equations], a_isvar=a_isvar, pick=self.EncCB.currentIndex() - 1) # plot when adusting values else: reaction_plots.plot_dsegraph(self.alldata, self.axes, signal=self.PlotCB.currentIndex(), equation=self.equation, a_isvar=a_isvar, legend=legend, pick=self.EncCB.currentIndex() - 1, errors=ebars) reaction_plots.plot_res(self.alldata, self.axes2, equation=self.equation, a_isvar=a_isvar, pick=self.EncCB.currentIndex() - 1) self.canvas.draw()
def plot_basicgraphs2(self): """ Plotting for two substrates examples! """ self.Graph1Sel.show() self.fig.clear() repfit1 = 1 if self.RepLin1.isChecked() else 2 if self.RepParab1.isChecked() else 0 repfit2 = 1 if self.RepLin2.isChecked() else 2 if self.RepParab2.isChecked() else 0 globfit1 = 1 if self.GlobLin1.isChecked() else 2 if self.GlobParab1.isChecked() else 0 globfit2 = 1 if self.GlobLin2.isChecked() else 2 if self.GlobParab2.isChecked() else 0 self.axes = self.fig.add_subplot(121) self.axes2 = self.fig.add_subplot(122) reaction_plots.plot_singlegraph( self.reaction_data.get_repres(True), self.axes, self.Graph1Sel.currentIndex(), legend="Set " if self.Leg1Box.isChecked() else "", rep_fit=repfit1, global_fit=globfit1, sname=self.reaction_data.nameA, extrapolation=self.Extrap1.value(), ) reaction_plots.plot_singlegraph( self.reaction_data.get_repres(False), self.axes2, self.Graph1Sel.currentIndex(), legend="Set " if self.Leg1Box.isChecked() else "", rep_fit=repfit2, global_fit=globfit2, sname=self.reaction_data.nameB, extrapolation=self.Extrap2.value(), ) # Draw the plots self.canvas.draw() self.canvas.show() self.mpl_toolbar.show()
def plot_basicgraphs(self): """ Plots the graphs to be displayed in main window. """ self.fig.clear() self.axes = self.fig.add_subplot(121) self.axes2 = self.fig.add_subplot(122) repfit1 = 1 if self.RepLin1.isChecked() else 2 if self.RepParab1.isChecked() else 0 repfit2 = 1 if self.RepLin2.isChecked() else 2 if self.RepParab2.isChecked() else 0 globfit1 = 1 if self.GlobLin1.isChecked() else 2 if self.GlobParab1.isChecked() else 0 globfit2 = 1 if self.GlobLin2.isChecked() else 2 if self.GlobParab2.isChecked() else 0 reaction_plots.plot_singlegraph( self.reaction_data, self.axes, self.Graph1Sel.currentIndex(), legend="Replicate " if self.Leg1Box.isChecked() else "", rep_fit=repfit1, global_fit=globfit1, extrapolation=self.Extrap1.value(), ) reaction_plots.plot_singlegraph( self.reaction_data, self.axes2, self.Graph2Sel.currentIndex(), legend="Replicate " if self.Leg2Box.isChecked() else "", rep_fit=repfit2, global_fit=globfit2, extrapolation=self.Extrap2.value(), ) # New options self.Graph1Sel.show() self.Graph2Sel.show() # Draw the plots self.canvas.draw() self.canvas.show() self.mpl_toolbar.show()
def draw_plots(self): """ Draw or re-draw plots """ self.fig.clear() if self.reac_data.is_single(): self.axes = self.fig.add_subplot(111) # Graph plot reaction_plots.plot_singlegraph(self.reac_data, self.axes, 0, pick=self.RepBox.currentIndex()) self.canvas.draw() self.canvas.show() else: self.axes = self.fig.add_subplot(121) self.axes2 = self.fig.add_subplot(122) picks = self.select_rep() reaction_plots.plot_singlegraph(self.reac_data.get_repres(True), self.axes, 0, pick=picks[0], alpha1=0.75) reaction_plots.plot_singlegraph(self.reac_data.get_repres(False), self.axes2, 0, pick=picks[1], alpha1=0.75) # enhance single point sub_group = True if self.VarBox.currentIndex() == 0 else False plot_obj = self.axes if sub_group else self.axes2 dat_set = self.SetBox.currentIndex() dat_rep = self.RepBox.currentIndex() # plot if possible try: plot_obj.plot(self.reac_data.AllVar[sub_group][dat_set][dat_rep], self.reac_data.AllRates[sub_group][dat_set][dat_rep], 'o', color='red') except IndexError: pass self.canvas.draw() self.canvas.show()