SMusatov
/
Cura
mirror of https://github.com/Ultimaker/Cura.git


			
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							# Copyright (c) 2018 Ultimaker B.V.
# Cura is released under the terms of the LGPLv3 or higher.
import numpy

from PyQt5 import QtCore
from PyQt5.QtGui import QImage

from cura.PreviewPass import PreviewPass

from UM.Application import Application
from UM.Math.Matrix import Matrix
from UM.Math.Vector import Vector
from UM.Scene.Camera import Camera
from UM.Scene.Iterator.DepthFirstIterator import DepthFirstIterator


class Snapshot:
    @staticmethod
    def getImageBoundaries(image: QImage):
        # Look at the resulting image to get a good crop.
        # Get the pixels as byte array
        pixel_array = image.bits().asarray(image.byteCount())
        width, height = image.width(), image.height()
        # Convert to numpy array, assume it's 32 bit (it should always be)
        pixels = numpy.frombuffer(pixel_array, dtype=numpy.uint8).reshape([height, width, 4])
        # Find indices of non zero pixels
        nonzero_pixels = numpy.nonzero(pixels)
        min_y, min_x, min_a_ = numpy.amin(nonzero_pixels, axis=1)
        max_y, max_x, max_a_ = numpy.amax(nonzero_pixels, axis=1)

        return min_x, max_x, min_y, max_y

    ##  Return a QImage of the scene
    #   Uses PreviewPass that leaves out some elements
    #   Aspect ratio assumes a square
    @staticmethod
    def snapshot(width = 300, height = 300):
        scene = Application.getInstance().getController().getScene()
        active_camera = scene.getActiveCamera()
        render_width, render_height = active_camera.getWindowSize()
        render_width = int(render_width)
        render_height = int(render_height)
        preview_pass = PreviewPass(render_width, render_height)

        root = scene.getRoot()
        camera = Camera("snapshot", root)

        # determine zoom and look at
        bbox = None
        for node in DepthFirstIterator(root):
            if node.callDecoration("isSliceable") and node.getMeshData() and node.isVisible() and not node.callDecoration("isNonThumbnailVisibleMesh"):
                if bbox is None:
                    bbox = node.getBoundingBox()
                else:
                    bbox = bbox + node.getBoundingBox()

        # If there is no bounding box, it means that there is no model in the buildplate
        if bbox is None:
            return None

        look_at = bbox.center
        # guessed size so the objects are hopefully big
        size = max(bbox.width, bbox.height, bbox.depth * 0.5)

        # Looking from this direction (x, y, z) in OGL coordinates
        looking_from_offset = Vector(-1, 1, 2)
        if size > 0:
            # determine the watch distance depending on the size
            looking_from_offset = looking_from_offset * size * 1.3
        camera.setPosition(look_at + looking_from_offset)
        camera.lookAt(look_at)

        satisfied = False
        size = None
        fovy = 30

        while not satisfied:
            if size is not None:
                satisfied = True  # always be satisfied after second try
            projection_matrix = Matrix()
            # Somehow the aspect ratio is also influenced in reverse by the screen width/height
            # So you have to set it to render_width/render_height to get 1
            projection_matrix.setPerspective(fovy, render_width / render_height, 1, 500)
            camera.setProjectionMatrix(projection_matrix)
            preview_pass.setCamera(camera)
            preview_pass.render()
            pixel_output = preview_pass.getOutput()

            min_x, max_x, min_y, max_y = Snapshot.getImageBoundaries(pixel_output)

            size = max((max_x - min_x) / render_width, (max_y - min_y) / render_height)
            if size > 0.5 or satisfied:
                satisfied = True
            else:
                # make it big and allow for some empty space around
                fovy *= 0.5  # strangely enough this messes up the aspect ratio: fovy *= size * 1.1

        # make it a square
        if max_x - min_x >= max_y - min_y:
            # make y bigger
            min_y, max_y = int((max_y + min_y) / 2 - (max_x - min_x) / 2), int((max_y + min_y) / 2 + (max_x - min_x) / 2)
        else:
            # make x bigger
            min_x, max_x = int((max_x + min_x) / 2 - (max_y - min_y) / 2), int((max_x + min_x) / 2 + (max_y - min_y) / 2)
        cropped_image = pixel_output.copy(min_x, min_y, max_x - min_x, max_y - min_y)

        # Scale it to the correct size
        scaled_image = cropped_image.scaled(
            width, height,
            aspectRatioMode = QtCore.Qt.IgnoreAspectRatio,
            transformMode = QtCore.Qt.SmoothTransformation)

        return scaled_image