Exemplos de dImage_wrt_2dVerts em Python

Exemplo n.º 1

Arquivo: renderer.py Projeto: lichengqi0805/opendr-1

    def compute_dr_wrt(self, wrt):

        if wrt is not self.camera and wrt is not self.v:
            return None

        visibility = self.visibility_image
        visible = np.nonzero(visibility.ravel() != 4294967295)[0]
        barycentric = self.barycentric_image
        if wrt is self.camera:
            shape = visibility.shape
            depth = self.depth_image

            if self.overdraw:
                result1 = common.dImage_wrt_2dVerts_bnd(
                    depth, visible, visibility, barycentric,
                    self.frustum['width'], self.frustum['height'],
                    self.v.r.size / 3, self.f,
                    self.boundaryid_image != 4294967295)
            else:
                result1 = common.dImage_wrt_2dVerts(depth, visible, visibility,
                                                    barycentric,
                                                    self.frustum['width'],
                                                    self.frustum['height'],
                                                    self.v.r.size / 3, self.f)

            # result1 = common.dImage_wrt_2dVerts(depth, visible, visibility, barycentric, self.frustum['width'], self.frustum['height'], self.v.r.size/3, self.f)

            return result1

        elif wrt is self.v:

            IS = np.tile(col(visible), (1, 9)).ravel()
            JS = col(self.f[visibility.ravel()[visible]].ravel())
            JS = np.hstack((JS * 3, JS * 3 + 1, JS * 3 + 2)).ravel()

            # FIXME: there should be a faster way to get the camera axis.
            # But it should be carefully tested with distortion present!
            pts = np.array([[self.camera.c.r[0], self.camera.c.r[1], 2],
                            [self.camera.c.r[0], self.camera.c.r[1], 1]])
            pts = self.camera.unproject_points(pts)
            cam_axis = pts[0, :] - pts[1, :]

            if True:  # use barycentric coordinates (correct way)
                w = visibility.shape[1]
                pxs = np.asarray(visible % w, np.int32)
                pys = np.asarray(np.floor(np.floor(visible) / w), np.int32)
                bc0 = col(barycentric[pys, pxs, 0])
                bc1 = col(barycentric[pys, pxs, 1])
                bc2 = col(barycentric[pys, pxs, 2])
                bc = np.hstack(
                    (bc0, bc0, bc0, bc1, bc1, bc1, bc2, bc2, bc2)).ravel()
            else:  # each vert contributes equally (an approximation)
                bc = 1. / 3.

            data = np.tile(row(cam_axis), (IS.size / 3, 1)).ravel() * bc
            result2 = sp.csc_matrix(
                (data, (IS, JS)),
                shape=(self.frustum['height'] * self.frustum['width'],
                       self.v.r.size))
            return result2

Exemplo n.º 2

Arquivo: renderer.py Projeto: lichengqi0805/opendr-1

    def compute_dr_wrt(self, wrt):
        if wrt is not self.camera:
            return None

        visibility = self.boundaryid_image
        shape = visibility.shape

        visible = np.nonzero(visibility.ravel() != 4294967295)[0]
        num_visible = len(visible)

        barycentric = self.barycentric_image

        return common.dImage_wrt_2dVerts(self.color_image, visible, visibility,
                                         barycentric, self.frustum['width'],
                                         self.frustum['height'],
                                         self.v.r.size / 3, self.vpe)

Exemplo n.º 3

Arquivo: renderer.py Projeto: lichengqi0805/opendr-1

    def compute_dr_wrt(self, wrt):
        if wrt is not self.camera and wrt is not self.vc and wrt is not self.bgcolor:
            return None

        visibility = self.visibility_image

        shape = visibility.shape
        color = self.color_image

        visible = np.nonzero(visibility.ravel() != 4294967295)[0]
        num_visible = len(visible)

        barycentric = self.barycentric_image

        if wrt is self.camera:
            if self.overdraw:
                return common.dImage_wrt_2dVerts_bnd(
                    color, visible, visibility, barycentric,
                    self.frustum['width'], self.frustum['height'],
                    self.v.r.size / 3, self.f,
                    self.boundaryid_image != 4294967295)
            else:
                return common.dImage_wrt_2dVerts(color, visible, visibility,
                                                 barycentric,
                                                 self.frustum['width'],
                                                 self.frustum['height'],
                                                 self.v.r.size / 3, self.f)

        elif wrt is self.vc:
            return common.dr_wrt_vc(visible,
                                    visibility,
                                    self.f,
                                    barycentric,
                                    self.frustum,
                                    self.vc.size,
                                    num_channels=self.num_channels)

        elif wrt is self.bgcolor:
            return common.dr_wrt_bgcolor(visibility,
                                         self.frustum,
                                         num_channels=self.num_channels)