def _set_lim_and_transforms(self): """Setup the key transforms for the axes.""" # Most of the transforms are set up correctly by LambertAxes LambertAxes._set_lim_and_transforms(self) # Transform for latitude ticks. These are typically unused, but just # in case we need them... yaxis_stretch = Affine2D().scale(4 * self.horizon, 1.0) yaxis_stretch = yaxis_stretch.translate(-self.horizon, 0.0) # These are identical to LambertAxes._set_lim_and_transforms, but we # need to update things to reflect the new "yaxis_stretch" yaxis_space = Affine2D().scale(1.0, 1.1) self._yaxis_transform = \ yaxis_stretch + \ self.transData yaxis_text_base = \ yaxis_stretch + \ self.transProjection + \ (yaxis_space + self.transAffine + self.transAxes) self._yaxis_text1_transform = \ yaxis_text_base + \ Affine2D().translate(-8.0, 0.0) self._yaxis_text2_transform = \ yaxis_text_base + \ Affine2D().translate(8.0, 0.0)
def _set_lim_and_transforms(self): """Setup the key transforms for the axes.""" # Most of the transforms are set up correctly by LambertAxes LambertAxes._set_lim_and_transforms(self) # Transform for latitude ticks. These are typically unused, but just # in case we need them... yaxis_stretch = Affine2D().scale(2 * self.horizon, 1.0) yaxis_stretch = yaxis_stretch.translate(-self.horizon, 0.0) # These are identical to LambertAxes._set_lim_and_transforms, but we # need to update things to reflect the new "yaxis_stretch" yaxis_space = Affine2D().scale(1.0, 1.1) self._yaxis_transform = \ yaxis_stretch + \ self.transData yaxis_text_base = \ yaxis_stretch + \ self.transProjection + \ (yaxis_space + \ self.transAffine + \ self.transAxes) self._yaxis_text1_transform = \ yaxis_text_base + \ Affine2D().translate(-8.0, 0.0) self._yaxis_text2_transform = \ yaxis_text_base + \ Affine2D().translate(8.0, 0.0)