quad_gantry_level: Add additional comments on how leveling works
Signed-off-by: Kevin O'Connor <kevin@koconnor.net>
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@ -6,6 +6,22 @@
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import logging
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from . import probe, z_tilt
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# Leveling code for XY rails that are controlled by Z steppers as in:
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#
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# Z stepper1 ----> O O <---- Z stepper2
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# | * <-- probe1 probe2 --> * |
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# | |
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# | | <--- Y2 rail
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# Y1 rail -----> | |
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# | |
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# |=============================|
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# | ^ |
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# | | |
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# | X rail --/ |
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# | |
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# | * <-- probe0 probe3 --> * |
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# Z stepper0 ----> O O <---- Z stepper3
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class QuadGantryLevel:
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def __init__(self, config):
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self.printer = config.get_printer()
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@ -48,29 +64,36 @@ class QuadGantryLevel:
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" ".join(["%s: %.6f" % (z_id, z_positions[z_id])
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for z_id in range(len(z_positions))]))
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self.gcode.respond_info(points_message)
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p1 = [positions[0][0] + offsets[0],z_positions[0]]
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p2 = [positions[1][0] + offsets[0],z_positions[1]]
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p3 = [positions[2][0] + offsets[0],z_positions[2]]
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p4 = [positions[3][0] + offsets[0],z_positions[3]]
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f1 = self.linefit(p1,p4)
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f2 = self.linefit(p2,p3)
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logging.info("quad_gantry_level f1: %s, f2: %s" % (f1,f2))
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# Calculate slope along X axis between probe point 0 and 3
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ppx0 = [positions[0][0] + offsets[0], z_positions[0]]
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ppx3 = [positions[3][0] + offsets[0], z_positions[3]]
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slope_x_pp03 = self.linefit(ppx0, ppx3)
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# Calculate slope along X axis between probe point 1 and 2
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ppx1 = [positions[1][0] + offsets[0], z_positions[1]]
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ppx2 = [positions[2][0] + offsets[0], z_positions[2]]
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slope_x_pp12 = self.linefit(ppx1, ppx2)
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logging.info("quad_gantry_level f1: %s, f2: %s"
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% (slope_x_pp03, slope_x_pp12))
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# Calculate gantry slope along Y axis between stepper 0 and 1
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a1 = [positions[0][1] + offsets[1],
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self.plot(f1,self.gantry_corners[0][0])]
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self.plot(slope_x_pp03, self.gantry_corners[0][0])]
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a2 = [positions[1][1] + offsets[1],
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self.plot(f2,self.gantry_corners[0][0])]
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self.plot(slope_x_pp12, self.gantry_corners[0][0])]
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slope_y_s01 = self.linefit(a1, a2)
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# Calculate gantry slope along Y axis between stepper 2 and 3
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b1 = [positions[0][1] + offsets[1],
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self.plot(f1,self.gantry_corners[1][0])]
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self.plot(slope_x_pp03, self.gantry_corners[1][0])]
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b2 = [positions[1][1] + offsets[1],
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self.plot(f2,self.gantry_corners[1][0])]
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af = self.linefit(a1,a2)
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bf = self.linefit(b1,b2)
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logging.info("quad_gantry_level af: %s, bf: %s" % (af,bf))
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self.plot(slope_x_pp12, self.gantry_corners[1][0])]
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slope_y_s23 = self.linefit(b1, b2)
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logging.info("quad_gantry_level af: %s, bf: %s"
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% (slope_y_s01, slope_y_s23))
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# Calculate z height of each stepper
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z_height = [0,0,0,0]
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z_height[0] = self.plot(af,self.gantry_corners[0][1])
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z_height[1] = self.plot(af,self.gantry_corners[1][1])
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z_height[2] = self.plot(bf,self.gantry_corners[1][1])
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z_height[3] = self.plot(bf,self.gantry_corners[0][1])
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z_height[0] = self.plot(slope_y_s01, self.gantry_corners[0][1])
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z_height[1] = self.plot(slope_y_s01, self.gantry_corners[1][1])
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z_height[2] = self.plot(slope_y_s23, self.gantry_corners[1][1])
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z_height[3] = self.plot(slope_y_s23, self.gantry_corners[0][1])
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ainfo = zip(["z","z1","z2","z3"], z_height[0:4])
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apos = " ".join(["%s: %06f" % (x) for x in ainfo])
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