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@ -12,7 +12,6 @@ PI = np.pi |
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N_PTS = 400 |
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class TriPlot_TimeAxe(Axes): |
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"""Classe d'axe temporel""" |
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@ -308,8 +307,17 @@ class TriPlot_3DAxe(Axes3D): |
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self.theta |
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) |
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def projX(self, event=None): |
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self.view_init(89.99, -90.01, 'y') |
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self.get_figure().canvas.draw() |
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def projY(self, event=None): |
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self.view_init(0, -90.01, 'y') |
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self.get_figure().canvas.draw() |
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def projZ(self, event=None): |
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self.view_init(0, 0, 'y') |
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self.get_figure().canvas.draw() |
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return |
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class TriPlot: |
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@ -334,7 +342,8 @@ class TriPlot: |
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self.fig, [0.5, 0.1, 0.4, 0.4]) |
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self.axe3D = TriPlot_3DAxe(self.v_max, self.phi, |
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self.fig, [0.5, 0.6, 0.4, 0.4]) |
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self.axes = [self.vectaxe, self.timeaxe, self.axe3D] |
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# -- Curseurs de réglage |
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self.amp_slider = Slider( |
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ax=plt.axes([0.01, 0.1, 0.03, 0.8]), |
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label="Tension\nefficace", |
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@ -351,16 +360,35 @@ class TriPlot: |
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valinit=self.phi, |
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orientation="horizontal" |
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) |
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# -- Bouton de remise à zéro |
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self.reset_button = Button( |
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ax=plt.axes([0.95, 0.01, 0.03, 0.03]), |
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label='Reset', |
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hovercolor='0.975' |
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label='Reset' |
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) |
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# -- Cases de cocher pour les parametres de visibilité |
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self.parameters_check = CheckButtons( |
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ax=plt.axes([0.9, 0.8, 0.1, 0.2]), |
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labels=["Projection", "Valeur efficace"] |
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) |
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# -- Boutons de projection de l'axe 3D |
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self.projX_button = Button( |
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ax=plt.axes([0.9, 0.67, 0.1, 0.03]), |
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label='Axe réel' |
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) |
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self.projY_button = Button( |
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ax=plt.axes([0.9, 0.635, 0.1, 0.03]), |
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label='Axe imaginaire' |
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) |
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self.projZ_button = Button( |
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ax=plt.axes([0.9, 0.60, 0.1, 0.03]), |
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label='Plan complexe' |
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) |
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# Listes et dictionaires |
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self.axes = [self.vectaxe, self.timeaxe, self.axe3D] |
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self.sliders = [self.amp_slider, self.phi_slider] |
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self.parameters = {} |
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@ -371,54 +399,77 @@ class TriPlot: |
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return |
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def setup(self): |
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# Appels aux fonctions de configuration initiale de chaque axe |
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for axe in self.axes: |
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axe.setup() |
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# Configuration des widgets pour lancer un rafraichissement en cas de modification |
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for slider in self.sliders: |
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slider.on_changed(self.refresh) |
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self.reset_button.on_clicked(self.reset) |
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self.parameters_check.on_clicked(self.refresh) |
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self.reset_button.on_clicked(self.reset) |
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self.projX_button.on_clicked(self.axe3D.projX) |
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self.projY_button.on_clicked(self.axe3D.projY) |
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self.projZ_button.on_clicked(self.axe3D.projZ) |
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# Affichage du Copyright |
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self.fig.text(0.01, 0.98, "Gaël Pongnot, CC-BY-NC", size=8) |
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# Configuration de la fenêtre (Qt) |
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win = self.fig.canvas.window() |
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win.setMinimumSize(1200, 800) |
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win.showMaximized() |
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return |
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def refresh(self, val=None): |
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# Lecture des nouvelles valeurs |
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self.set_veff(self.amp_slider.val) |
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self.set_phi(self.phi_slider.val) |
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self.set_parameters(self.parameters_check.get_status()) |
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# Rafraichissement des axes |
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for axe in self.axes: |
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axe.refresh() |
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# Actualisation de l'affichage |
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self.fig.canvas.draw() |
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return |
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def reset(self, event=None): |
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# Remise à zéro des sliders -> déclenche un rafraichissement |
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for slider in self.sliders: |
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slider.reset() |
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return |
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def set_vmax(self, v_max): |
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# Modification des attributs liés à v_max |
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self.v_max = v_max |
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self.v_eff = v_max/np.sqrt(2) |
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self.v_ref = self.v_max*np.cos(self.phasor) |
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# Application du changement aux axes |
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for axe in self.axes: |
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axe.set_vmax(self.v_max) |
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return |
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def set_veff(self, v_eff): |
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# Transfert de la modification à set_vmax |
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self.set_vmax(np.sqrt(2)*v_eff) |
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return |
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def set_phi(self, phi): |
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# Modification des attributs liés à phi |
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self.phi = phi |
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# Application du changement aux axes |
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for axe in self.axes: |
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axe.set_phi(self.phi) |
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return |
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def set_parameters(self, p): |
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# Modification des attributs liés à p |
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self.parameters["projection"] = p[0] |
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self.parameters["v_eff"] = p[1] |
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# Application du changement aux axes |
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for axe in self.axes: |
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axe.set_parameters(self.parameters) |
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return |
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