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@ -55,10 +55,20 @@ class app:
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self.params[i][key] = value
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self.params[i][key] = value
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self.parse_params(self.params[i])
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self.parse_params(self.params[i])
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if self.args.stl_file:
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if self.args.stl_file and len(self.args.stl_file) == 3:
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self.stl_file = self.args.stl_file[0]
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self.height_line = float(self.args.stl_file[1])
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self.height_base = float(self.args.stl_file[2])
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self.mode = "2d"
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elif self.args.stl_file and len(self.args.stl_file) == 2:
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self.stl_file = self.args.stl_file[0]
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self.stl_file = self.args.stl_file[0]
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self.depth_total = float(self.args.stl_file[1])
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self.height_line = float(self.args.stl_file[1])
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self.depth_line = float(self.args.stl_file[2])
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self.mode = "3d"
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else:
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print("No STL file given, saving image only")
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exit(1)
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self.input_file = self.args.input_file
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self.input_file = self.args.input_file
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self.output_file = self.args.output_file
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self.output_file = self.args.output_file
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@ -78,7 +88,6 @@ class app:
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self.width = self.img.shape[1]
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self.width = self.img.shape[1]
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self.height = self.img.shape[0]
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self.height = self.img.shape[0]
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self.print_size(self.img.shape)
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self.print_size(self.img.shape)
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print(self.dpi)
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fig = plt.figure(figsize=(self.width/self.dpi, self.height/self.dpi),
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fig = plt.figure(figsize=(self.width/self.dpi, self.height/self.dpi),
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frameon=False, dpi=self.dpi)
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frameon=False, dpi=self.dpi)
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@ -94,7 +103,7 @@ class app:
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self.save_image(fig, ax)
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self.save_image(fig, ax)
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plt.close()
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plt.close()
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if self.args.stl_file:
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if self.args.stl_file:
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self.make_lithophane()
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self.make_model()
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def parse_params(self, params):
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def parse_params(self, params):
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''' Parse parameters of filters.
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''' Parse parameters of filters.
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@ -137,22 +146,20 @@ class app:
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parser = ap.ArgumentParser(prog='main.py',
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parser = ap.ArgumentParser(prog='main.py',
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description='Program for processing a 2D image into 3D fingerprint.',
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description='Program for processing a 2D image into 3D fingerprint.',
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usage='%(prog)s [-h] [-m | --mirror | --no-mirror] input_file output_file dpi \
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usage='%(prog)s [-h] [-m | --mirror | --no-mirror] input_file output_file dpi \
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([-c config_file preset | --config config_file preset] | [filters ...]) [-s stl_file | --stl_file stl_file depth_total depth_line]')
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([-c config_file preset | --config config_file preset] | [filters ...]) \
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[-s stl_file | --stl_file stl_file depth_total depth_line]')
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# positional arguments
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# positional arguments
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parser.add_argument("input_file", type=str,
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parser.add_argument("input_file", type=str, help="location with input file")
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help="location with input file")
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parser.add_argument("output_file", type=str, help="output file location")
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parser.add_argument("output_file", type=str,
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help="output file location")
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parser.add_argument("dpi", type=int, help="scanner dpi")
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parser.add_argument("dpi", type=int, help="scanner dpi")
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# boolean switch argument
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# boolean switch argument
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parser.add_argument('-m', "--mirror", help="mirror input image",
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parser.add_argument('-m', "--mirror", help="mirror input image", type=bool, action=ap.BooleanOptionalAction)
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type=bool, action=ap.BooleanOptionalAction)
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# another boolean switch argument, this time with value, name of the new file
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# another boolean switch argument, this time with value, name of the new file and dimensions
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parser.add_argument('-s', '--stl_file', type=str, nargs=3,
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parser.add_argument('-s', '--stl_file', type=str, nargs='*',
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help="make stl model from processed image", required=False)
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help="make planar model from processed image", required=False)
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# file with configuration containing presets, new preset name
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# file with configuration containing presets, new preset name
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# pair argument - give both or none
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# pair argument - give both or none
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@ -195,10 +202,6 @@ class app:
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filter = self.filter_factory(filter_name)
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filter = self.filter_factory(filter_name)
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filter.apply(self, self.params[i+1])
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filter.apply(self, self.params[i+1])
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def print_size(self, size):
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print("Height: " + str(size[0]), file=sys.stderr)
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print("Width: " + str(size[1]), file=sys.stderr)
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def save_image(self, fig, ax):
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def save_image(self, fig, ax):
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''' Save processed image.
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''' Save processed image.
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Colormap set to grayscale to avoid color mismatch.
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Colormap set to grayscale to avoid color mismatch.
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@ -208,24 +211,34 @@ class app:
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ax.imshow(self.img, cmap="gray")
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ax.imshow(self.img, cmap="gray")
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fig.savefig(fname=self.output_file, dpi='figure')
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fig.savefig(fname=self.output_file, dpi='figure')
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def make_lithophane(self):
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def print_size(self, size):
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print("Image of height: " + str(size[0]) +
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" px and width: " + str(size[1]) + " px", file=sys.stderr)
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def make_model(self):
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'''After processing image, make a lithophane from it.
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'''After processing image, make a lithophane from it.
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'''
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'''
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print("Making meshgrid", file=sys.stderr)
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print("Making heighthmap", file=sys.stderr)
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self.make_meshgrid()
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self.prepare_heightmap()
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if self.mode == "2d":
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print("Converting to stl format", file=sys.stderr)
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print("Converting to stl format", file=sys.stderr)
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self.make_stl_planar()
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self.make_stl_planar()
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#print("Mapping to 3D finger", file=sys.stderr)
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#self.map_image_to_3d()
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plt.show()
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plt.show()
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print(f"Saving lithophane to ", self.stl_file, file=sys.stderr)
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print(f"Saving lithophane to ", self.stl_file, file=sys.stderr)
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self.save_stl()
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self.save_stl_2d()
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elif self.mode == "3d":
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self.map_image_to_3d()
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plt.show()
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self.save_stl_3d()
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else:
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print("Mode not supported", file=sys.stderr)
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exit(1)
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def make_meshgrid(self):
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def prepare_heightmap(self):
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''' Create numpy meshgrid.
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''' Create numpy meshgrid.
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Modify image values to get more usable depth values.
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Modify image values to get usable depth values.
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Add zero padding to image to make sides of the plate.
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'''
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'''
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if self.img.dtype == np.float32 or self.img.dtype == np.float64:
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if self.img.dtype == np.float32 or self.img.dtype == np.float64:
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@ -233,29 +246,43 @@ class app:
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self.img = self.img * 255
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self.img = self.img * 255
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self.img = self.img.astype(np.uint8)
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self.img = self.img.astype(np.uint8)
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print("Total depth:", self.depth_total, "mm, line depth/height:", self.depth_line, "mm")
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if self.mode == "2d":
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depth_base = self.depth_total - self.depth_line
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if self.height_base <= 0:
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print("Depth of plate height must be positive", file=sys.stderr)
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exit(1)
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if self.height_line + self.height_base <= 0:
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print("Line depth must be less than plate thickness", file=sys.stderr)
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exit(1)
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print("Base height:", self.height_base,
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"mm, lines depth/height:", self.height_line, "mm")
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# Make depth map from image
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# Transform image values to get a heightmap
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if self.depth_line < 0:
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if self.height_line < 0:
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self.img = (depth_base + (1 - self.img/255) * self.depth_line)
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self.img = (self.height_base + (1 - self.img/255)
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* self.height_line)
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else:
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else:
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self.img = (depth_base + (1 - self.img/255) * self.depth_line)
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self.img = (self.height_base + (1 - self.img/255)
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* self.height_line)
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# Create meshgrid for 3D model
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if self.mode == "3d":
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# This sets the scale of stl model and number of subdivisions / triangles
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#TODO add some checks and print info
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x = np.linspace(0, self.width * 25.4 / self.dpi, self.width)
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pass
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y = np.linspace(0, self.height * 25.4 / self.dpi, self.height)
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self.meshgrid = np.meshgrid(x, y)
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def add_faces(self, faces, c):
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# Function to add faces to the list
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faces.append([c, c + 1, c + 2])
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faces.append([c + 1, c + 3, c + 2])
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return c + 4
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def make_stl_planar(self):
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def make_stl_planar(self):
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''' Create mesh from image.
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''' Create mesh from meshgrid.
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Create vertices from meshgrid, add depth values from image.
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Create vertices from meshgrid, add depth values from image.
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Create faces from vertices. Add veectors to the model.
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Create faces from vertices. Add vectors and faces to the model.
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|
|
From wikipedia.org/wiki/STL_(file_format):
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|
|
From wikipedia.org/wiki/STL_(file_format):
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|
|
ascii stl format consists of repeating struictures:
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|
|
ascii stl format consists of repeating structures:
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facet normal ni nj nk # normal vector
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facet normal ni nj nk # normal vector
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outer loop
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outer loop
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|
@ -264,11 +291,16 @@ class app:
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vertex v3x v3y v3z # vertex 3
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vertex v3x v3y v3z # vertex 3
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endloop
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endloop
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endfacet
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endfacet
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'''
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|
'''
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# This sets the size of stl model and number of subdivisions / triangles
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x = np.linspace(0, self.width * 25.4 / self.dpi, self.width)
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y = np.linspace(0, self.height * 25.4 / self.dpi, self.height)
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self.meshgrid_2d = np.meshgrid(x, y)
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|
|
# Add the image matrix to the 2D meshgrid and create 1D array of 3D points
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|
|
# Add the image matrix to the 2D meshgrid and create 1D array of 3D points
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|
|
vertex_arr = np.vstack(list(map(np.ravel, self.meshgrid))).T
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|
|
vertex_arr = np.vstack(list(map(np.ravel, self.meshgrid_2d))).T
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|
|
z = (self.img / 10).reshape(-1, 1)
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|
|
z = (self.img / 10).reshape(-1, 1)
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|
|
vertex_arr = np.concatenate((vertex_arr, z), axis=1)
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|
|
vertex_arr = np.concatenate((vertex_arr, z), axis=1)
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|
@ -279,12 +311,6 @@ class app:
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|
|
vertices = []
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|
|
vertices = []
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|
|
faces = []
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|
|
faces = []
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|
|
|
|
|
|
|
|
# Function to add faces to the list
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|
|
|
|
|
|
|
def add_faces(c):
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|
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|
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|
|
|
faces.append([c, c + 1, c + 2])
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|
|
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|
|
faces.append([c + 1, c + 3, c + 2])
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|
|
return c + 4
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|
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|
|
|
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|
|
|
|
|
|
# Iterate over all vertices, create faces
|
|
|
|
# Iterate over all vertices, create faces
|
|
|
|
for i in range(self.height - 1):
|
|
|
|
for i in range(self.height - 1):
|
|
|
|
for j in range(self.width - 1):
|
|
|
|
for j in range(self.width - 1):
|
|
|
@ -294,7 +320,7 @@ class app:
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|
|
|
vertices.append([vertex_arr[i+1][j]])
|
|
|
|
vertices.append([vertex_arr[i+1][j]])
|
|
|
|
vertices.append([vertex_arr[i+1][j+1]])
|
|
|
|
vertices.append([vertex_arr[i+1][j+1]])
|
|
|
|
|
|
|
|
|
|
|
|
count = add_faces(count)
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|
|
|
count = self.add_faces(faces, count)
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|
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|
|
|
|
|
|
|
|
|
# Add faces for the backside of the lithophane
|
|
|
|
# Add faces for the backside of the lithophane
|
|
|
|
null_arr = np.copy(vertex_arr)
|
|
|
|
null_arr = np.copy(vertex_arr)
|
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@ -311,7 +337,7 @@ class app:
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vertices.append([null_arr[i][j+1]])
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vertices.append([null_arr[i][j+1]])
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vertices.append([null_arr[i+1][j+1]])
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vertices.append([null_arr[i+1][j+1]])
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count = add_faces(count)
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count = self.add_faces(faces, count)
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# Horizontal side faces
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# Horizontal side faces
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for j in range(self.height - 1):
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for j in range(self.height - 1):
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@ -320,7 +346,7 @@ class app:
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vertices.append([null_arr[j][0]])
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vertices.append([null_arr[j][0]])
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vertices.append([null_arr[j+1][0]])
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vertices.append([null_arr[j+1][0]])
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count = add_faces(count)
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count = self.add_faces(faces, count)
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max = self.width - 1
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max = self.width - 1
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@ -329,7 +355,7 @@ class app:
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vertices.append([null_arr[j+1][max]])
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vertices.append([null_arr[j+1][max]])
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vertices.append([null_arr[j][max]])
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vertices.append([null_arr[j][max]])
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count = add_faces(count)
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count = self.add_faces(faces, count)
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# Vertical side faces
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# Vertical side faces
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for j in range(self.width - 1):
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for j in range(self.width - 1):
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@ -338,7 +364,7 @@ class app:
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vertices.append([null_arr[0][j+1]])
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vertices.append([null_arr[0][j+1]])
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vertices.append([null_arr[0][j]])
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vertices.append([null_arr[0][j]])
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count = add_faces(count)
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count = self.add_faces(faces, count)
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max = self.height - 1
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max = self.height - 1
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@ -347,38 +373,62 @@ class app:
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vertices.append([null_arr[max][j]])
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vertices.append([null_arr[max][j]])
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vertices.append([null_arr[max][j+1]])
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vertices.append([null_arr[max][j+1]])
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count = add_faces(count)
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count = self.add_faces(faces, count)
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# Convert to numpy arrays
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# Convert to numpy arrays
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faces = np.array(faces)
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faces = np.array(faces)
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vertices = np.array(vertices)
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vertices = np.array(vertices)
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# Create the mesh - vertices.shape (no_faces, 3, 3)
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# Create the mesh - vertices.shape (no_faces, 3, 3)
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self.stl_mesh = mesh.Mesh(np.zeros(faces.shape[0], dtype=mesh.Mesh.dtype))
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self.stl_mesh_2d = mesh.Mesh(np.zeros(faces.shape[0], dtype=mesh.Mesh.dtype))
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for i, face in enumerate(faces):
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for i, face in enumerate(faces):
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for j in range(3):
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for j in range(3):
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self.stl_mesh.vectors[i][j] = vertices[face[j], :]
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self.stl_mesh_2d.vectors[i][j] = vertices[face[j], :]
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def save_stl(self):
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def save_stl_2d(self):
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''' Save final mesh to stl file.
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''' Save final mesh to stl file.
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'''
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'''
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self.stl_mesh.save(self.stl_file)
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self.stl_mesh_2d.save(self.stl_file)
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def map_image_to_3d(self):
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def map_image_to_3d(self):
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''' Map fingerprint to finger model.
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''' Map fingerprint to finger model.
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'''
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'''
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x = np.linspace(0, 25.4, self.dpi)
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x = np.linspace(0, self.width * 25.4 / self.dpi, self.width)
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y = np.linspace(0, 25.4, self.dpi)
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y = np.linspace(0, self.height * 25.4 / self.dpi, self.height)
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z1 = np.linspace(0, 10, self.dpi)
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z2 = np.linspace(10, 0, self.dpi)
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z1 = np.logspace(0, 10, int(np.ceil(self.width / 2)), base=0.7)
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z = np.concatenate((z1, z2))
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z2 = np.logspace(10, 0, int(np.floor(self.width / 2)), base=0.7)
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tmp = np.meshgrid(x, y)
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ztemp = 5*np.concatenate((z1, z2))
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self.mesh_finger = np.meshgrid(tmp,z)
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print(len(self.mesh_finger))
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z = np.array([])
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#self.finger_base = mesh.Mesh(
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for i in range(self.height):
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#np.zeros(, dtype=mesh.Mesh.dtype))
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z = np.concatenate((z, ztemp * pow(np.log(i+2), -1)))
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z = z.reshape(-1, 1)
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self.meshgrid_3d = np.meshgrid(x, y)
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vertex_arr = np.vstack(list(map(np.ravel, self.meshgrid_3d))).T
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vertex_arr = np.concatenate((vertex_arr, z), axis=1)
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vertex_arr = vertex_arr.reshape(self.height, self.width, 3)
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count = 0
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vertices = []
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faces = []
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# Iterate over all vertices, create faces
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for i in range(self.height - 1):
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for j in range(self.width - 1):
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vertices.append([vertex_arr[i][j]])
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vertices.append([vertex_arr[i][j+1]])
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vertices.append([vertex_arr[i+1][j]])
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vertices.append([vertex_arr[i+1][j+1]])
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count = self.add_faces(faces, count)
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#self.finger_base = mesh.Mesh(np.zeros(, dtype=mesh.Mesh.dtype))
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# linear projection
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# linear projection
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# extrude lines in 1 direction
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# extrude lines in 1 direction
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@ -387,5 +437,20 @@ class app:
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# normal projection
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# normal projection
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# extrude lines in the direction of normals of given finger model
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# extrude lines in the direction of normals of given finger model
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# Convert to numpy arrays
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faces = np.array(faces)
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vertices = np.array(vertices)
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# Create the mesh - vertices.shape (no_faces, 3, 3)
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self.mesh_finger = mesh.Mesh(np.zeros(faces.shape[0], dtype=mesh.Mesh.dtype))
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for i, face in enumerate(faces):
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for j in range(3):
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self.mesh_finger.vectors[i][j] = vertices[face[j], :]
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def save_stl_3d(self):
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''' Save final mesh to stl file.
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'''
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self.mesh_finger.save(self.stl_file)
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image = app()
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image = app()
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