Correctly compute both the number of steps and direction when
under/overflowing the current position by performing a relative move.
This makes a repeated PlanMove() _always_ perform the move correcly,
even when the upper-level code might require to handle the overflow
itself for measurement.
Add tests for this condition by exposing the internal CurBlockShift() to
the motion unit tests.
Do not assume any step can be merged while moving three axes at the same
time.
Use the worst case scenario involving indepedent parameters for each
axis.
This introduces a new #define UNITTEST_MOTION which is used to control
the testing scenario:
- Normal tests, we allow the stub to override the built-in definition.
- For motion tests, we stub the lower-level classes and test the
effective implementation
We also repeat the prototype of the function, which IMHO is more
readable and more flexible: we need to use inline for the real
definition, which would require even more macros otherwise.
Pulley doesn't result in an exact step count due to the fractional
count.result in an exact step count due to the fractional count.
Use Selector instead to test values exacly.
Still check Pulley and Idler, but allowing for a +/-1 step of rounding
error.
- Remove motion::dual_move_ramp from the Catch2 tests and reimplement
it as a minimal c++ program for the ramp validation.
- Add a skeleton python validator to check the ramp output
- Use test "fixtures" to ensure the rampgen is run (both as a test,
and to generate output) when the test_motion_ramp.py is requested.
Introduces:
- config::Unit: base class for physical quantities
- motion::AxisUnit: type-checked steps type
"config/unit.h" defines basic physical quantities, which are not
normally used elsewhere besides config.h.
"modules/axisunit.h" extends the modules::motion namespace with
Axis-aware units, with one type per axis per unit.
P_pos_t defines step positions for the pulley, I_pos_t for the idler,
etc. These are defined through the literar operators which are
similarly named and automatically convert a physical quantity to an
AxisUnit at compile time:
P_pos_t pulley_pos = 10.0_P_mm;
Besides type-checking, AxisUnit are otherwise identical to raw step
counts and are intended to be used along with the updated Motion API.
PlanMove/PlanMoveTo has been extended to support moves using these units
or physical quantities. Again, conversion is performed at compile time.
Yuri D'Elia
D.R.racer