Several issues addressed in this PR:
- CutFilament tuning + error recovery
- introduce register 0x1d (cut filament selector iRun current level)
- optimize setting iRun and iHold currents in the FW
- CutFilament unit test fixed
This PR is a different solution to what @gudnimg found in PR#233 / PFW-1404.
The benefit of this approach is the fact, that the button press event is generated when the button is pressed and not after it has been released.
The downside is obvious:
CPUFLASH: +28B
RAM: +1B
The previous commits by @leptun were correct but there has been one call to Disable axis (and TMC) hidden in `InitMovement`.
Therefore `InitMovement` has been split into 2 separate functions - one is there to allow the original full axis reinit, but the other `InitMovementNoReinitAxis` now only prepares a move without reiniting the TMC driver.
This approach seems to have the benefit of fixing the Idler creep over time.
The disadvantage is the fact, that setting StallGuard threshold is no longer called. We may need to add a special piece of code to handle/apply SGTHRS change at runtime like before.
- rename stall*guard to StallGuard (match name with the vendor)
- separate TMC2130 module from EEPROM (they do not need to know about each other at all)
- separate SGTHRS settings from motion - moved to globals like all other "global" parameters
- improved EEPROM storage for SGTHRS
This is to solve a potential problem while feeding to printer's drive gears - while disengaging the Idler, the Pulley was still rotating to avoid grinding the filament (printer is pulling it).
Other filaments could have moved a bit when the Idler's bearings ran over them while the Pulley was still rotating slowly -> the filament could have been moved into the Selector's path causing trouble (especially when not used in the print).
Therefore, the Idler disengages partially now - moves into an intermediate position between the slots.
Then, the Pulley is completely stopped and after that the Idler does a full disengage like before.
Sets the UI module into a mode when the printer is in charge of processing the buttons (from all sources).
That means the MMU will detect its buttons but it will not react upon them.
This mode is important for error recovery when the printer needs to do some stuff before the MMU (like preheating the nozzle).
It looks we have some kind of leak when filament sensor state is not completely coherent with FINDA state.
This is yet to be discovered and fixed with some unit tests.
Using U_mm inside a compilation unit will force the compiler to generate
a runtime copy of the function, and we don't want that.
But there seems also to be an optimization problem with gcc <= 7.x where
even when declaring an inline function constexpr, if called enough
times, the compiler will choose _not_ to evaluate the function at
compile time and thus avoid our compile-time float->integer
conversions...
For this reason, split the body of the function in two parts: the actual
function that uses AxisUnits at runtime for calling motion.PlanMove, and
a wrapper that forces the conversion. By marking this function as
always_inline, the body is correctly evaluated at compile time at each
call site.
It turned out FINDA needs running timer to perform BlockingInit() correctly.
Therefore setup() was split into setup() (no IRQ) and setup2() (IRQ enabled).
Then, finally, the check for FINDA state became reliable upon start of the FW.
The acceleration_rate should really by a premultiplication by 1<<24 so
that the division in Step() (while calculating the acc_step_rate) can be
computed again with a right shift.
This was incorrectly changed to F_CPU, which was close enough but would
cause the acceleration to be always slighly slower than expected.
Fix the ratio, but keep the multiplication in fixed-point to avoid a
float conversion.
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.
D.R.racer
Guðni Már Gilbert
Alex Voinea
vintagepc
Yuri D'Elia