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@ -541,13 +541,19 @@ float junction_deviation = 0.1; |
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// these equations follow the form of the dA and dB equations on http://www.corexy.com/theory.html
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block->steps[A_AXIS] = labs(dx + dy); |
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block->steps[B_AXIS] = labs(dx - dy); |
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block->steps[Z_AXIS] = labs(dz); |
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#elif defined(COREXZ) |
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// corexz planning
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block->steps[A_AXIS] = labs(dx + dz); |
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block->steps[Y_AXIS] = labs(dy); |
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block->steps[C_AXIS] = labs(dx - dz); |
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#else |
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// default non-h-bot planning
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block->steps[X_AXIS] = labs(dx); |
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block->steps[Y_AXIS] = labs(dy); |
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block->steps[Z_AXIS] = labs(dz); |
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#endif |
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block->steps[Z_AXIS] = labs(dz); |
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block->steps[E_AXIS] = labs(de); |
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block->steps[E_AXIS] *= volumetric_multiplier[extruder]; |
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block->steps[E_AXIS] *= extruder_multiplier[extruder]; |
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@ -568,13 +574,20 @@ float junction_deviation = 0.1; |
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#ifdef COREXY |
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if (dx < 0) db |= BIT(X_HEAD); // Save the real Extruder (head) direction in X Axis
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if (dy < 0) db |= BIT(Y_HEAD); // ...and Y
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if (dz < 0) db |= BIT(Z_AXIS); |
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if (dx + dy < 0) db |= BIT(A_AXIS); // Motor A direction
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if (dx - dy < 0) db |= BIT(B_AXIS); // Motor B direction
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#elif defined(COREXZ) |
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if (dx < 0) db |= BIT(X_HEAD); // Save the real Extruder (head) direction in X Axis
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if (dy < 0) db |= BIT(Y_AXIS); |
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if (dz < 0) db |= BIT(Z_HEAD); // ...and Z
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if (dx + dz < 0) db |= BIT(A_AXIS); // Motor A direction
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if (dx - dz < 0) db |= BIT(C_AXIS); // Motor B direction
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#else |
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if (dx < 0) db |= BIT(X_AXIS); |
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if (dy < 0) db |= BIT(Y_AXIS); |
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#endif |
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if (dz < 0) db |= BIT(Z_AXIS); |
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#endif |
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if (de < 0) db |= BIT(E_AXIS); |
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block->direction_bits = db; |
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@ -586,14 +599,21 @@ float junction_deviation = 0.1; |
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enable_x(); |
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enable_y(); |
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} |
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#ifndef Z_LATE_ENABLE |
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if (block->steps[Z_AXIS]) enable_z(); |
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#endif |
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#elif defined(COREXZ) |
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if (block->steps[A_AXIS] || block->steps[C_AXIS]) { |
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enable_x(); |
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enable_z(); |
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} |
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#else |
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if (block->steps[X_AXIS]) enable_x(); |
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if (block->steps[Y_AXIS]) enable_y(); |
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#endif |
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#ifndef Z_LATE_ENABLE |
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if (block->steps[Z_AXIS]) enable_z(); |
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#endif |
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#endif |
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// Enable extruder(s)
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if (block->steps[E_AXIS]) { |
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@ -676,14 +696,22 @@ float junction_deviation = 0.1; |
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float delta_mm[6]; |
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delta_mm[X_HEAD] = dx / axis_steps_per_unit[A_AXIS]; |
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delta_mm[Y_HEAD] = dy / axis_steps_per_unit[B_AXIS]; |
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delta_mm[Z_AXIS] = dz / axis_steps_per_unit[Z_AXIS]; |
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delta_mm[A_AXIS] = (dx + dy) / axis_steps_per_unit[A_AXIS]; |
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delta_mm[B_AXIS] = (dx - dy) / axis_steps_per_unit[B_AXIS]; |
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#elif defined(COREXZ) |
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float delta_mm[6]; |
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delta_mm[X_HEAD] = dx / axis_steps_per_unit[A_AXIS]; |
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delta_mm[Y_AXIS] = dy / axis_steps_per_unit[Y_AXIS]; |
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delta_mm[Z_HEAD] = dz / axis_steps_per_unit[C_AXIS]; |
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delta_mm[A_AXIS] = (dx + dz) / axis_steps_per_unit[A_AXIS]; |
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delta_mm[C_AXIS] = (dx - dz) / axis_steps_per_unit[C_AXIS]; |
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#else |
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float delta_mm[4]; |
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delta_mm[X_AXIS] = dx / axis_steps_per_unit[X_AXIS]; |
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delta_mm[Y_AXIS] = dy / axis_steps_per_unit[Y_AXIS]; |
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#endif |
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delta_mm[Z_AXIS] = dz / axis_steps_per_unit[Z_AXIS]; |
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#endif |
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delta_mm[E_AXIS] = (de / axis_steps_per_unit[E_AXIS]) * volumetric_multiplier[extruder] * extruder_multiplier[extruder] / 100.0; |
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if (block->steps[X_AXIS] <= dropsegments && block->steps[Y_AXIS] <= dropsegments && block->steps[Z_AXIS] <= dropsegments) { |
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@ -692,11 +720,12 @@ float junction_deviation = 0.1; |
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else { |
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block->millimeters = sqrt( |
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#ifdef COREXY |
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square(delta_mm[X_HEAD]) + square(delta_mm[Y_HEAD]) |
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square(delta_mm[X_HEAD]) + square(delta_mm[Y_HEAD]) + square(delta_mm[Z_AXIS]) |
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#elif defined(COREXZ) |
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square(delta_mm[X_HEAD]) + square(delta_mm[Y_AXIS]) + square(delta_mm[Z_HEAD]) |
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#else |
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square(delta_mm[X_AXIS]) + square(delta_mm[Y_AXIS]) |
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square(delta_mm[X_AXIS]) + square(delta_mm[Y_AXIS]) + square(delta_mm[Z_AXIS]) |
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#endif |
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+ square(delta_mm[Z_AXIS]) |
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); |
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} |
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float inverse_millimeters = 1.0 / block->millimeters; // Inverse millimeters to remove multiple divides
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