Merge pull request #312 from scottrcarlson/dev
Fixed homing_dir_mask functionality in the re-written homing_cycle.
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commit
8550d2c3f9
2
config.h
2
config.h
@ -53,7 +53,7 @@
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// are reached. You will need to ensure that you have appropriate pull-down resistors on the
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// limit switch input pins, or that your hardware drives the pins low when they are open (non-
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// triggered).
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// #define LIMIT_SWITCHES_ACTIVE_HIGH
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#define LIMIT_SWITCHES_ACTIVE_HIGH
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// If homing is enabled, homing init lock sets Grbl into an alarm state upon power up. This forces
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// the user to perform the homing cycle (or override the locks) before doing anything else. This is
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30
limits.c
30
limits.c
@ -87,7 +87,7 @@ ISR(LIMIT_INT_vect)
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// algorithm is written here. This also lets users hack and tune this code freely for
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// their own particular needs without affecting the rest of Grbl.
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// NOTE: Only the abort runtime command can interrupt this process.
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static void homing_cycle(uint8_t cycle_mask, bool pos_dir, bool invert_pin, float homing_rate)
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static void homing_cycle(uint8_t cycle_mask, bool approach, bool invert_pin, float homing_rate)
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{
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if (sys.execute & EXEC_RESET) { return; }
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uint8_t limit_state;
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@ -101,9 +101,31 @@ static void homing_cycle(uint8_t cycle_mask, bool pos_dir, bool invert_pin, floa
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if (target[X_AXIS] < settings.max_travel[Y_AXIS]) { target[X_AXIS] = settings.max_travel[Y_AXIS]; }
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if (target[X_AXIS] < settings.max_travel[Z_AXIS]) { target[X_AXIS] = settings.max_travel[Z_AXIS]; }
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target[X_AXIS] *= 2.0;
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if (pos_dir) { target[X_AXIS] = -target[X_AXIS]; }
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target[Y_AXIS] = target[X_AXIS];
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target[Z_AXIS] = target[X_AXIS];
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uint8_t pos_dir = settings.homing_dir_mask;
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if (pos_dir >= 128) {
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pos_dir = pos_dir - 128;
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target[Z_AXIS] = target[X_AXIS];
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}
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else { target[Z_AXIS] = -target[X_AXIS]; }
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if (!approach) { target[Z_AXIS] = target[Z_AXIS] * -1; }
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if (pos_dir >= 64) {
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pos_dir = pos_dir - 64;
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target[Y_AXIS] = target[X_AXIS];
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}
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else { target[Y_AXIS] = -target[X_AXIS]; }
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if (!approach) { target[Y_AXIS] = target[Y_AXIS] * -1; }
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if (pos_dir >= 32) {
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pos_dir = pos_dir -32;
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target[X_AXIS] = target[X_AXIS];
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}
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else { target[X_AXIS] = -target[X_AXIS]; }
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if (!approach) { target[X_AXIS] = target[X_AXIS] * -1; }
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//if (pos_dir) { target[X_AXIS] = -target[X_AXIS]; }
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//target[Y_AXIS] = target[X_AXIS];
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//target[Z_AXIS] = target[X_AXIS];
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homing_rate *= 1.7320; // [sqrt(N_AXIS)] Adjust so individual axes all move at homing rate.
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// Setup homing axis locks based on cycle mask.
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