>>> curve
<Curve 20071120a_i27_t33.100>
>>> for c in curve.command_stack:
-... print c # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE, +REPORT_UDIFF
+... print(c) # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE, +REPORT_UDIFF
<CommandMessage zero surface contact point {block: retract}>
<CommandMessage flat filter peaks {block: retract, min points: 1}>
<CommandMessage zero surface contact point {block: retract, ignore after last peak info name: flat filter peaks}>
<CommandMessage flat peaks to polymer peaks {block: retract}>
<CommandMessage polymer fit peaks {block: retract}>
>>> for c in curve.data[-1].info['columns']:
-... print c # doctest: +REPORT_UDIFF
+... print(c) # doctest: +REPORT_UDIFF
z piezo (m)
deflection (m)
surface distance (m)
>>> curve
<Curve 20071120a_i27_t33.101>
>>> for c in curve.command_stack:
-... print c # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE, +REPORT_UDIFF
+... print(c) # doctest: +ELLIPSIS, +NORMALIZE_WHITESPACE, +REPORT_UDIFF
<CommandMessage zero surface contact point {block: retract}>
<CommandMessage flat filter peaks {block: retract, min points: 1}>
<CommandMessage zero surface contact point {block: retract, ignore after last peak info name: flat filter peaks}>
<CommandMessage flat peaks to polymer peaks {block: retract}>
<CommandMessage polymer fit peaks {block: retract}>
>>> for c in curve.data[-1].info['columns']:
-... print c # doctest: +REPORT_UDIFF
+... print(c) # doctest: +REPORT_UDIFF
z piezo (m)
deflection (m)
surface distance (m)