diff options
Diffstat (limited to 'Tonokip_Firmware')
-rw-r--r-- | Tonokip_Firmware/Tonokip_Firmware.pde | 45 |
1 files changed, 19 insertions, 26 deletions
diff --git a/Tonokip_Firmware/Tonokip_Firmware.pde b/Tonokip_Firmware/Tonokip_Firmware.pde index 788db5f..0ac491d 100644 --- a/Tonokip_Firmware/Tonokip_Firmware.pde +++ b/Tonokip_Firmware/Tonokip_Firmware.pde @@ -971,18 +971,11 @@ void linear_move(unsigned long axis_steps_remaining[]) // make linear move with if(axis_steps_remaining[3]) { enable_e(); do_step(3); axis_steps_remaining[3]--; } //Define variables that are needed for the Bresenham algorithm. Please note that Z is not currently included in the Bresenham algorithm. - unsigned int delta_x = axis_steps_remaining[0]; - unsigned long x_interval_nanos; - unsigned int delta_y = axis_steps_remaining[1]; - unsigned long y_interval_nanos; - unsigned int delta_z = axis_steps_remaining[2]; - unsigned long z_interval_nanos; - boolean steep_y = delta_y > delta_x;// && delta_y > delta_e && delta_y > delta_z; - boolean steep_x = delta_x >= delta_y;// && delta_x > delta_e && delta_x > delta_z; - //boolean steep_z = delta_z > delta_x && delta_z > delta_y && delta_z > delta_e; - int error_x; - int error_y; - int error_z; + unsigned int delta[NUM_AXIS] = {axis_steps_remaining[0], axis_steps_remaining[1], axis_steps_remaining[2], axis_steps_remaining[3]}; //TODO: implement a "for" to support N axes + boolean steep_y = delta[1] > delta[0];// && delta[1] > delta[3] && delta[1] > delta[2]; + boolean steep_x = delta[0] >= delta[1];// && delta[0] > delta[3] && delta[0] > delta[2]; + //boolean steep_z = delta[2] > delta[0] && delta[2] > delta[1] && delta[2] > delta[3]; + int axis_error[NUM_AXIS]; #ifdef RAMP_ACCELERATION long max_speed_steps_per_second; long min_speed_steps_per_second; @@ -996,7 +989,7 @@ void linear_move(unsigned long axis_steps_remaining[]) // make linear move with //Do some Bresenham calculations depending on which axis will lead it. if(steep_y) { - error_x = delta_y / 2; + axis_error[0] = delta[1] / 2; interval = axis_interval[1]; #ifdef RAMP_ACCELERATION max_interval = max_y_interval; @@ -1010,14 +1003,14 @@ void linear_move(unsigned long axis_steps_remaining[]) // make linear move with #ifdef EXP_ACCELERATION if(e_steps_to_take > 0) virtual_full_velocity_steps = long_full_velocity_units * y_steps_per_unit /100; else virtual_full_velocity_steps = long_travel_move_full_velocity_units * y_steps_per_unit /100; - full_velocity_steps = min(virtual_full_velocity_steps, (delta_y - y_min_constant_speed_steps) / 2); + full_velocity_steps = min(virtual_full_velocity_steps, (delta[1] - y_min_constant_speed_steps) / 2); max_interval = max_y_interval; min_constant_speed_steps = y_min_constant_speed_steps; #endif - steps_remaining = delta_y; - steps_to_take = delta_y; + steps_remaining = delta[1]; + steps_to_take = delta[1]; } else if (steep_x) { - error_y = delta_x / 2; + axis_error[1] = delta[0] / 2; interval = axis_interval[0]; #ifdef RAMP_ACCELERATION max_interval = max_x_interval; @@ -1031,12 +1024,12 @@ void linear_move(unsigned long axis_steps_remaining[]) // make linear move with #ifdef EXP_ACCELERATION if(e_steps_to_take > 0) virtual_full_velocity_steps = long_full_velocity_units * x_steps_per_unit /100; else virtual_full_velocity_steps = long_travel_move_full_velocity_units * x_steps_per_unit /100; - full_velocity_steps = min(virtual_full_velocity_steps, (delta_x - x_min_constant_speed_steps) / 2); + full_velocity_steps = min(virtual_full_velocity_steps, (delta[0] - x_min_constant_speed_steps) / 2); max_interval = max_x_interval; min_constant_speed_steps = x_min_constant_speed_steps; #endif - steps_remaining = delta_x; - steps_to_take = delta_x; + steps_remaining = delta[0]; + steps_to_take = delta[0]; } unsigned long steps_done = 0; #ifdef RAMP_ACCELERATION @@ -1140,11 +1133,11 @@ void linear_move(unsigned long axis_steps_remaining[]) // make linear move with steps_done++; steps_remaining--; axis_steps_remaining[1]--; timediff -= interval; - error_x = error_x - delta_x; + axis_error[0] = axis_error[0] - delta[0]; do_step(1); - if(error_x < 0) { + if(axis_error[0] < 0) { do_step(0); axis_steps_remaining[0]--; - error_x = error_x + delta_y; + axis_error[0] = axis_error[0] + delta[1]; } #ifdef RAMP_ACCELERATION if (steps_remaining == plateau_steps || (steps_done >= steps_to_take / 2 && accelerating && !decelerating)) break; @@ -1162,11 +1155,11 @@ void linear_move(unsigned long axis_steps_remaining[]) // make linear move with steps_done++; steps_remaining--; axis_steps_remaining[0]--; timediff -= interval; - error_y = error_y - delta_y; + axis_error[1] = axis_error[1] - delta[1]; do_step(0); - if(error_y < 0) { + if(axis_error[1] < 0) { do_step(1); axis_steps_remaining[1]--; - error_y = error_y + delta_x; + axis_error[1] = axis_error[1] + delta[0]; } #ifdef RAMP_ACCELERATION if (steps_remaining == plateau_steps || (steps_done >= steps_to_take / 2 && accelerating && !decelerating)) break; |