# Copyright (c) 2021 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. import os.path from UM.View.View import View from UM.Scene.Iterator.DepthFirstIterator import DepthFirstIterator from UM.Scene.Selection import Selection from UM.Resources import Resources from PyQt5.QtGui import QOpenGLContext, QDesktopServices, QImage from PyQt5.QtCore import QSize, QUrl import numpy as np import time from UM.Application import Application from UM.Logger import Logger from UM.Message import Message from UM.Math.Color import Color from UM.PluginRegistry import PluginRegistry from UM.Platform import Platform from UM.Event import Event from UM.View.RenderBatch import RenderBatch from UM.View.GL.OpenGL import OpenGL from UM.i18n import i18nCatalog from cura.Settings.ExtruderManager import ExtruderManager from cura import XRayPass import math catalog = i18nCatalog("cura") class SolidView(View): """Standard view for mesh models.""" _show_xray_warning_preference = "view/show_xray_warning" def __init__(self): super().__init__() application = Application.getInstance() application.getPreferences().addPreference("view/show_overhang", True) application.globalContainerStackChanged.connect(self._onGlobalContainerChanged) self._enabled_shader = None self._disabled_shader = None self._non_printing_shader = None self._support_mesh_shader = None self._xray_shader = None self._xray_pass = None self._xray_composite_shader = None self._composite_pass = None self._extruders_model = None self._theme = None self._support_angle = self._retrieveSupportAngle() self._lowest_printable_height = self._retrieveLowestPrintHeight() self._global_stack = None self._old_composite_shader = None self._old_layer_bindings = None self._next_xray_checking_time = time.time() self._xray_checking_update_time = 30.0 # seconds self._xray_warning_cooldown = 60 * 10 # reshow Model error message every 10 minutes self._xray_warning_message = Message( catalog.i18nc("@info:status", "The highlighted areas indicate either missing or extraneous surfaces. Fix your model and open it again into Cura."), lifetime = 60 * 5, # leave message for 5 minutes title = catalog.i18nc("@info:title", "Model Errors"), option_text = catalog.i18nc("@info:option_text", "Do not show this message again"), option_state = False, message_type=Message.MessageType.WARNING ) self._xray_warning_message.optionToggled.connect(self._onDontAskMeAgain) application.getPreferences().addPreference(self._show_xray_warning_preference, True) self._xray_warning_message.addAction("manifold", catalog.i18nc("@action:button", "Learn more"), "[no_icon]", "[no_description]", button_style = Message.ActionButtonStyle.LINK, button_align = Message.ActionButtonAlignment.ALIGN_LEFT) self._xray_warning_message.actionTriggered.connect(self._onNonManifoldLearnMoreClicked) application.engineCreatedSignal.connect(self._onGlobalContainerChanged) def _onDontAskMeAgain(self, checked: bool) -> None: Application.getInstance().getPreferences().setValue(self._show_xray_warning_preference, not checked) def _onNonManifoldLearnMoreClicked(self, action, message) -> None: QDesktopServices.openUrl(QUrl("https://support.ultimaker.com/hc/en-us/articles/360014055959")) def _onGlobalContainerChanged(self) -> None: if self._global_stack: try: self._global_stack.propertyChanged.disconnect(self._onPropertyChanged) except TypeError: pass for extruder_stack in ExtruderManager.getInstance().getActiveExtruderStacks(): extruder_stack.propertyChanged.disconnect(self._onPropertyChanged) self._global_stack = Application.getInstance().getGlobalContainerStack() if self._global_stack: self._global_stack.propertyChanged.connect(self._onPropertyChanged) for extruder_stack in ExtruderManager.getInstance().getActiveExtruderStacks(): extruder_stack.propertyChanged.connect(self._onPropertyChanged) # Force re-evaluation: self._support_angle = self._retrieveSupportAngle() self._lowest_printable_height = self._retrieveLowestPrintHeight() def _onPropertyChanged(self, key: str, property_name: str) -> None: if property_name != "value": return # As the rendering is called a *lot* we really, dont want to re-evaluate the property every time. So we store em! if key == "support_angle": self._support_angle = self._retrieveSupportAngle() elif key == "layer_height_0" or key == "slicing_tolerance": self._lowest_printable_height = self._retrieveLowestPrintHeight() def _retrieveSupportAngle(self) -> float: global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack: support_extruder_nr = int(global_container_stack.getExtruderPositionValueWithDefault("support_extruder_nr")) try: support_angle_stack = global_container_stack.extruderList[support_extruder_nr] except IndexError: pass else: angle = support_angle_stack.getProperty("support_angle", "value") if angle is not None: return angle return 90.0 def _retrieveLowestPrintHeight(self) -> float: min_height = 0.0 for extruder in Application.getInstance().getExtruderManager().getActiveExtruderStacks(): init_layer_height = extruder.getProperty("layer_height_0", "value") tolerance_setting = extruder.getProperty("slicing_tolerance", "value") if tolerance_setting == "middle": init_layer_height /= 2.0 min_height = max(min_height, init_layer_height) return min_height def _checkSetup(self): if not self._extruders_model: self._extruders_model = Application.getInstance().getExtrudersModel() if not self._theme: self._theme = Application.getInstance().getTheme() if not self._enabled_shader: self._enabled_shader = OpenGL.getInstance().createShaderProgram(Resources.getPath(Resources.Shaders, "overhang.shader")) self._enabled_shader.setUniformValue("u_overhangColor", Color(*self._theme.getColor("model_overhang").getRgb())) self._enabled_shader.setUniformValue("u_renderError", 0.0) if not self._disabled_shader: self._disabled_shader = OpenGL.getInstance().createShaderProgram(Resources.getPath(Resources.Shaders, "striped.shader")) self._disabled_shader.setUniformValue("u_diffuseColor1", Color(*self._theme.getColor("model_unslicable").getRgb())) self._disabled_shader.setUniformValue("u_diffuseColor2", Color(*self._theme.getColor("model_unslicable_alt").getRgb())) self._disabled_shader.setUniformValue("u_width", 50.0) if not self._non_printing_shader: self._non_printing_shader = OpenGL.getInstance().createShaderProgram(Resources.getPath(Resources.Shaders, "transparent_object.shader")) self._non_printing_shader.setUniformValue("u_diffuseColor", Color(*self._theme.getColor("model_non_printing").getRgb())) self._non_printing_shader.setUniformValue("u_opacity", 0.6) if not self._support_mesh_shader: self._support_mesh_shader = OpenGL.getInstance().createShaderProgram(Resources.getPath(Resources.Shaders, "striped.shader")) self._support_mesh_shader.setUniformValue("u_vertical_stripes", True) self._support_mesh_shader.setUniformValue("u_width", 5.0) if not Application.getInstance().getPreferences().getValue(self._show_xray_warning_preference): self._xray_shader = None self._xray_composite_shader = None if self._composite_pass and 'xray' in self._composite_pass.getLayerBindings(): self._composite_pass.setLayerBindings(self._old_layer_bindings) self._composite_pass.setCompositeShader(self._old_composite_shader) self._old_layer_bindings = None self._old_composite_shader = None self._enabled_shader.setUniformValue("u_renderError", 0.0) # We don't want any error markers!. self._xray_warning_message.hide() else: if not self._xray_shader: self._xray_shader = OpenGL.getInstance().createShaderProgram(Resources.getPath(Resources.Shaders, "xray.shader")) if not self._xray_composite_shader: self._xray_composite_shader = OpenGL.getInstance().createShaderProgram(Resources.getPath(Resources.Shaders, "xray_composite.shader")) theme = Application.getInstance().getTheme() self._xray_composite_shader.setUniformValue("u_background_color", Color(*theme.getColor("viewport_background").getRgb())) self._xray_composite_shader.setUniformValue("u_outline_color", Color(*theme.getColor("model_selection_outline").getRgb())) self._xray_composite_shader.setUniformValue("u_flat_error_color_mix", 0.) # Don't show flat error color in solid-view. renderer = self.getRenderer() if not self._composite_pass or not 'xray' in self._composite_pass.getLayerBindings(): # Currently the RenderPass constructor requires a size > 0 # This should be fixed in RenderPass's constructor. self._xray_pass = XRayPass.XRayPass(1, 1) self._enabled_shader.setUniformValue("u_renderError", 1.0) # We don't want any error markers!. renderer.addRenderPass(self._xray_pass) if not self._composite_pass: self._composite_pass = self.getRenderer().getRenderPass("composite") self._old_layer_bindings = self._composite_pass.getLayerBindings() self._composite_pass.setLayerBindings(["default", "selection", "xray"]) self._old_composite_shader = self._composite_pass.getCompositeShader() self._composite_pass.setCompositeShader(self._xray_composite_shader) def beginRendering(self): scene = self.getController().getScene() renderer = self.getRenderer() self._checkSetup() global_container_stack = Application.getInstance().getGlobalContainerStack() if global_container_stack: if Application.getInstance().getPreferences().getValue("view/show_overhang"): # Make sure the overhang angle is valid before passing it to the shader if self._support_angle >= 0 and self._support_angle <= 90: self._enabled_shader.setUniformValue("u_overhangAngle", math.cos(math.radians(90 - self._support_angle))) else: self._enabled_shader.setUniformValue("u_overhangAngle", math.cos(math.radians(0))) #Overhang angle of 0 causes no area at all to be marked as overhang. else: self._enabled_shader.setUniformValue("u_overhangAngle", math.cos(math.radians(0))) self._enabled_shader.setUniformValue("u_lowestPrintableHeight", self._lowest_printable_height) disabled_batch = renderer.createRenderBatch(shader = self._disabled_shader) normal_object_batch = renderer.createRenderBatch(shader = self._enabled_shader) renderer.addRenderBatch(disabled_batch) renderer.addRenderBatch(normal_object_batch) for node in DepthFirstIterator(scene.getRoot()): if node.render(renderer): continue if node.getMeshData() and node.isVisible(): uniforms = {} shade_factor = 1.0 per_mesh_stack = node.callDecoration("getStack") extruder_index = node.callDecoration("getActiveExtruderPosition") if extruder_index is None: extruder_index = "0" extruder_index = int(extruder_index) try: material_color = self._extruders_model.getItem(extruder_index)["color"] except KeyError: material_color = self._extruders_model.defaultColors[0] if extruder_index != ExtruderManager.getInstance().activeExtruderIndex: # Shade objects that are printed with the non-active extruder 25% darker shade_factor = 0.6 try: # Colors are passed as rgb hex strings (eg "#ffffff"), and the shader needs # an rgba list of floats (eg [1.0, 1.0, 1.0, 1.0]) uniforms["diffuse_color"] = [ shade_factor * int(material_color[1:3], 16) / 255, shade_factor * int(material_color[3:5], 16) / 255, shade_factor * int(material_color[5:7], 16) / 255, 1.0 ] # Color the currently selected face-id. (Disable for now.) #face = Selection.getHoverFace() uniforms["hover_face"] = -1 #if not face or node != face[0] else face[1] except ValueError: pass if node.callDecoration("isNonPrintingMesh"): if per_mesh_stack and (node.callDecoration("isInfillMesh") or node.callDecoration("isCuttingMesh")): renderer.queueNode(node, shader = self._non_printing_shader, uniforms = uniforms, transparent = True) else: renderer.queueNode(node, shader = self._non_printing_shader, transparent = True) elif getattr(node, "_outside_buildarea", False): disabled_batch.addItem(node.getWorldTransformation(copy = False), node.getMeshData(), normal_transformation = node.getCachedNormalMatrix()) elif per_mesh_stack and node.callDecoration("isSupportMesh"): # Render support meshes with a vertical stripe that is darker shade_factor = 0.6 uniforms["diffuse_color_2"] = [ uniforms["diffuse_color"][0] * shade_factor, uniforms["diffuse_color"][1] * shade_factor, uniforms["diffuse_color"][2] * shade_factor, 1.0 ] renderer.queueNode(node, shader = self._support_mesh_shader, uniforms = uniforms) else: normal_object_batch.addItem(node.getWorldTransformation(copy=False), node.getMeshData(), uniforms=uniforms, normal_transformation = node.getCachedNormalMatrix()) if node.callDecoration("isGroup") and Selection.isSelected(node): renderer.queueNode(scene.getRoot(), mesh = node.getBoundingBoxMesh(), mode = RenderBatch.RenderMode.LineLoop) def endRendering(self): # check whether the xray overlay is showing badness if time.time() > self._next_xray_checking_time\ and Application.getInstance().getPreferences().getValue(self._show_xray_warning_preference): self._next_xray_checking_time = time.time() + self._xray_checking_update_time xray_img = self._xray_pass.getOutput() xray_img = xray_img.convertToFormat(QImage.Format_RGB888) # We can't just read the image since the pixels are aligned to internal memory positions. # xray_img.byteCount() != xray_img.width() * xray_img.height() * 3 # The byte count is a little higher sometimes. We need to check the data per line, but fast using Numpy. # See https://stackoverflow.com/questions/5810970/get-raw-data-from-qimage for a description of the problem. # We can't use that solution though, since it doesn't perform well in Python. class QImageArrayView: """ Class that ducktypes to be a Numpy ndarray. """ def __init__(self, qimage): bits_pointer = qimage.bits() if bits_pointer is None: # If this happens before there is a window. self.__array_interface__ = { "shape": (0, 0), "typestr": "|u4", "data": (0, False), "strides": (1, 3), "version": 3 } else: self.__array_interface__ = { "shape": (qimage.height(), qimage.width()), "typestr": "|u4", # Use 4 bytes per pixel rather than 3, since Numpy doesn't support 3. "data": (int(bits_pointer), False), "strides": (qimage.bytesPerLine(), 3), # This does the magic: For each line, skip the correct number of bytes. Bytes per pixel is always 3 due to QImage.Format.Format_RGB888. "version": 3 } array = np.asarray(QImageArrayView(xray_img)).view(np.dtype({ "r": (np.uint8, 0, "red"), "g": (np.uint8, 1, "green"), "b": (np.uint8, 2, "blue"), "a": (np.uint8, 3, "alpha") # Never filled since QImage was reformatted to RGB888. }), np.recarray) if np.any(np.mod(array.r, 2)): self._next_xray_checking_time = time.time() + self._xray_warning_cooldown self._xray_warning_message.show() Logger.log("i", "X-Ray overlay found non-manifold pixels.") def event(self, event): if event.type == Event.ViewDeactivateEvent: if self._composite_pass and 'xray' in self._composite_pass.getLayerBindings(): self.getRenderer().removeRenderPass(self._xray_pass) self._composite_pass.setLayerBindings(self._old_layer_bindings) self._composite_pass.setCompositeShader(self._old_composite_shader) self._xray_warning_message.hide()