Exemplo n.º 1
0
    def estimate_surface_area(self):
        """
        Estimate the surface area by summing the areas of a trianglation
        of the nodules surface in 3d. Returned units are mm^2.
        """
        mask = self.get_boolean_mask()
        mask = np.pad(mask, [(1,1), (1,1), (1,1)], 'constant') # Cap the ends.
        dist = dtrans(mask) - dtrans(~mask)

        rxy  = self.scan.pixel_spacing
        rz   = self.scan.slice_thickness
        verts, faces, _, _ = marching_cubes(dist, 0, spacing=(rxy, rxy, rz))
        return mesh_surface_area(verts, faces)
Exemplo n.º 2
0
    def visualize_in_3d(self, edgecolor='0.2', cmap='viridis'):
        """
        Visualize in 3d a triangulation of the nodule's surface.

        edgecolor: string color or rgb 3-tuple
            Sets edgecolors of triangulation.

        cmap: matplotlib colormap string.
            Sets the facecolors of the triangulation.
            See `matplotlib.cm.cmap_d.keys()` for all available.

        Example:
            >>> ann = pl.query(pl.Annotation).first()
            >>> ann.visualize_in_3d(edgecolor='green', cmap='autumn')
        """
        if cmap not in plt.cm.cmap_d.keys():
            raise ValueError("Invalid `cmap`. See `plt.cm.cmap_d.keys()`.")

        mask = self.get_boolean_mask()
        mask = np.pad(mask, [(1, 1), (1, 1), (1, 1)],
                      'constant')  # Cap the ends.
        dist = dtrans(mask) - dtrans(~mask)

        rxy = self.scan.pixel_spacing
        rz = self.scan.slice_thickness
        verts, faces, _, _ = marching_cubes(dist, 0, spacing=(rxy, rxy, rz))
        maxes = np.ceil(verts.max(axis=0))

        fig = plt.figure()
        ax = fig.add_subplot(111, projection='3d')

        t = np.linspace(0, 1, faces.shape[0])
        mesh = Poly3DCollection(verts[faces],
                                edgecolor=edgecolor,
                                facecolors=plt.cm.cmap_d[cmap](t))
        ax.add_collection3d(mesh)

        ax.set_xlim(0, maxes[0])
        ax.set_xlabel('length (mm)')

        ax.set_ylim(0, maxes[1])
        ax.set_ylabel('length (mm)')

        ax.set_zlim(0, maxes[2])
        ax.set_zlabel('length (mm)')

        plt.tight_layout()
        plt.show()
Exemplo n.º 3
0
    def visualize_in_3d(self, edgecolor='0.2', cmap='viridis',
                        backend='matplotlib'):
        """
        Visualize in 3d a triangulation of the nodule's surface.

        edgecolor: string color or rgb 3-tuple
            Sets edgecolors of triangulation.
            Ignored if backend != matplotlib.

        cmap: matplotlib colormap string.
            Sets the facecolors of the triangulation.
            See `matplotlib.cm.cmap_d.keys()` for all available.
            Ignored if backend != matplotlib.

        backend: string
            The backend for visualization. Default is matplotlib.
            Execute `from pylidc.Annotation import viz3dbackends` to
            see available backends.

        Example:
            >>> ann = pl.query(pl.Annotation).first()
            >>> ann.visualize_in_3d(edgecolor='green', cmap='autumn')
            >>> ann.visualize_in_3d(backend='mayavi') # If mayavi available.
        """
        if backend not in viz3dbackends:
            raise ValueError("backend should be in %s." % viz3dbackends)

        if backend == 'matplotlib':
            if cmap not in plt.cm.cmap_d.keys():
                raise ValueError("Invalid `cmap`. See `plt.cm.cmap_d.keys()`.")

        mask = self.get_boolean_mask()
        mask = np.pad(mask, [(1,1), (1,1), (1,1)], 'constant') # Cap the ends.

        # The zero set of the distance transform
        # makes for a little nicer surface.
        dist = dtrans(mask) - dtrans(~mask)

        rxy  = self.scan.pixel_spacing
        rz   = self.scan.slice_thickness

        if backend == 'matplotlib':
            verts, faces, _, _= marching_cubes(dist, 0, spacing=(rxy, rxy, rz))
            maxes = np.ceil(verts.max(axis=0))

            fig = plt.figure()
            ax = fig.add_subplot(111, projection='3d')

            t = np.linspace(0, 1, faces.shape[0])
            mesh = Poly3DCollection(verts[faces], 
                                    edgecolor=edgecolor,
                                    facecolors=plt.cm.cmap_d[cmap](t))
            ax.add_collection3d(mesh)

            ax.set_xlim(0, maxes[0])
            ax.set_xlabel('length (mm)')

            ax.set_ylim(0, maxes[1])
            ax.set_ylabel('length (mm)')

            ax.set_zlim(0, maxes[2])
            ax.set_zlabel('length (mm)')

            plt.tight_layout()
            plt.show()
        elif backend == 'mayavi':
            try:
                from mayavi import mlab
                sf = mlab.pipeline.scalar_field(dist)
                sf.spacing = [rxy, rxy, rz]
                mlab.pipeline.iso_surface(sf, contours=[0.0])
                mlab.show()
            except ImportError:
                print("Mayavi could not be imported. Is it installed?")