Misc# Path# class Path(pts: List)[source]# Bases: object __init__(pts: List)[source]# coord(l)[source]# calculate the coordinate at the position l direction(l)[source]# rotz_theta(l)[source]# bbox()[source]# Color# class Color(SCIENCE_RED_LIGHT: str = '#febfbe', SCIENCE_RED_DARK: str = '#fa331a', SCIENCE_BLUE_LIGHT: str = '#bdd3ec', SCIENCE_BLUE_DARK: str = '#2556ae')[source]# Bases: object SCIENCE_RED_LIGHT: str = '#febfbe'# SCIENCE_RED_DARK: str = '#fa331a'# SCIENCE_BLUE_LIGHT: str = '#bdd3ec'# SCIENCE_BLUE_DARK: str = '#2556ae'# __init__(SCIENCE_RED_LIGHT: str = '#febfbe', SCIENCE_RED_DARK: str = '#fa331a', SCIENCE_BLUE_LIGHT: str = '#bdd3ec', SCIENCE_BLUE_DARK: str = '#2556ae') → None# run_code_block(filepath, marker, globals=None)[source]# to_mathematical_str(s)[source]# get_attr_str(obj, attr_name, default=None)[source]# base_merge_bboxs(bboxs)[source]# wavelength_to_rgb(wavelength_m, gamma=0.8)[source]# Converts wavelength (nm) to an RGB tuple (range 0.0 to 1.0). Based on Dan Bruton’s algorithm, extended for False Color Infrared.
