def setShaderParameter(event=None): if CTK.t == []: return if CTK.__MAINTREE__ <= 0: CTK.TXT.insert('START', 'Fail on a temporary tree.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return shaderParameter2 = (WIDGETS['param2'].get()) / 50. shaderParameter1 = (WIDGETS['param1'].get()) / 50. VARS[4].set('Shader parameter 1 [%.2f].' % shaderParameter1) VARS[5].set('Shader parameter 2 [%.2f].' % shaderParameter2) nzs = CPlot.getSelectedZones() if nzs == []: CTK.TXT.insert('START', 'Selection is empty.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return CTK.saveTree() for nz in nzs: nob = CTK.Nb[nz] + 1 noz = CTK.Nz[nz] a = CPlot.addRender2Zone( CTK.t[2][nob][2][noz], shaderParameters=[shaderParameter1, shaderParameter2]) CTK.replace(CTK.t, nob, noz, a) CTK.TKTREE.updateApp() Panels.updateRenderPanel() CPlot.render()
def setAll(): if CTK.t == []: return if CTK.__MAINTREE__ <= 0: CTK.TXT.insert('START', 'Fail on a temporary tree.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return material = VARS[0].get() color = VARS[1].get() blending = WIDGETS['blending'].get() / 100. VARS[6].set('Blending [%.2f].' % blending) meshOverlay = VARS[3].get() shaderParameter2 = (WIDGETS['param2'].get()) / 50. shaderParameter1 = (WIDGETS['param1'].get()) / 50. nzs = CPlot.getSelectedZones() if nzs == []: CTK.TXT.insert('START', 'Selection is empty.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return CTK.saveTree() for nz in nzs: nob = CTK.Nb[nz] + 1 noz = CTK.Nz[nz] a = CPlot.addRender2Zone( CTK.t[2][nob][2][noz], material=material, color=color, blending=blending, shaderParameters=[shaderParameter1, shaderParameter2]) CTK.replace(CTK.t, nob, noz, a) CTK.TKTREE.updateApp() Panels.updateRenderPanel() CPlot.render()
def setMaterial(): if CTK.t == []: return if CTK.__MAINTREE__ <= 0: CTK.TXT.insert('START', 'Fail on a temporary tree.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return material = VARS[0].get() nzs = CPlot.getSelectedZones() if nzs == []: CTK.TXT.insert('START', 'Selection is empty.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return CTK.saveTree() for nz in nzs: nob = CTK.Nb[nz] + 1 noz = CTK.Nz[nz] a = CPlot.addRender2Zone(CTK.t[2][nob][2][noz], material=material) CTK.replace(CTK.t, nob, noz, a) CTK.TKTREE.updateApp() Panels.updateRenderPanel() CPlot.render()
def setBlending(event=None): if CTK.t == []: return if CTK.__MAINTREE__ <= 0: CTK.TXT.insert('START', 'Fail on a temporary tree.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return blending = WIDGETS['blending'].get() / 100. nzs = CPlot.getSelectedZones() if nzs == []: CTK.TXT.insert('START', 'Selection is empty.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return CTK.saveTree() for nz in nzs: nob = CTK.Nb[nz] + 1 noz = CTK.Nz[nz] a = CPlot.addRender2Zone(CTK.t[2][nob][2][noz], blending=blending) CTK.replace(CTK.t, nob, noz, a) CTK.TKTREE.updateApp() Panels.updateRenderPanel() CPlot.render()