1 year ago · d5cf0b3348
--- a/Marlin/src/module/planner.cpp
+++ b/Marlin/src/module/planner.cpp
@@ -793,19 +793,21 @@ void Planner::calculate_trapezoid_for_block(block_t * const block, const_float_t
 
				
				     uint32_t cruise_rate = block->nominal_rate;
			
 
				
				   #endif
			
 
				
				 
			
 
				
				-  const int32_t accel = block->acceleration_steps_per_s2;
			
 
				
				-
			
 
				
				   // Steps for acceleration, plateau and deceleration
			
 
				
				   int32_t plateau_steps = block->step_event_count;
			
 
				
				   uint32_t accelerate_steps = 0,
			
 
				
				            decelerate_steps = 0;
			
 
				
				 
			
 
				
				+  const int32_t accel = block->acceleration_steps_per_s2;
			
 
				
				+  float inverse_accel = 0.0f;
			
 
				
				   if (accel != 0) {
			
 
				
				-    // Steps required for acceleration, deceleration to/from nominal rate
			
 
				
				-    const float nominal_rate_sq = sq(float(block->nominal_rate));
			
 
				
				-    float accelerate_steps_float = (nominal_rate_sq - sq(float(initial_rate))) * (0.5f / accel);
			
 
				
				+    const float inverse_accel = 1.0f / accel,
			
 
				
				+                half_inverse_accel = 0.5f * inverse_accel,
			
 
				
				+                nominal_rate_sq = sq(float(block->nominal_rate)),
			
 
				
				+                // Steps required for acceleration, deceleration to/from nominal rate
			
 
				
				+                decelerate_steps_float = half_inverse_accel * (nominal_rate_sq - sq(float(final_rate)));
			
 
				
				+          float accelerate_steps_float = half_inverse_accel * (nominal_rate_sq - sq(float(initial_rate)));
			
 
				
				     accelerate_steps = CEIL(accelerate_steps_float);
			
 
				
				-    const float decelerate_steps_float = (nominal_rate_sq - sq(float(final_rate))) * (0.5f / accel);
			
 
				
				     decelerate_steps = FLOOR(decelerate_steps_float);
			
 
				
				 
			
 
				
				     // Steps between acceleration and deceleration, if any
			
@@ -828,9 +830,10 @@ void Planner::calculate_trapezoid_for_block(block_t * const block, const_float_t
 
				
				   }
			
 
				
				 
			
 
				
				   #if ENABLED(S_CURVE_ACCELERATION)
			
 
				
				+    const float rate_factor = inverse_accel * (STEPPER_TIMER_RATE);
			
 
				
				     // Jerk controlled speed requires to express speed versus time, NOT steps
			
 
				
				-    uint32_t acceleration_time = (float(cruise_rate - initial_rate) / accel) * (STEPPER_TIMER_RATE),
			
 
				
				-             deceleration_time = (float(cruise_rate - final_rate) / accel) * (STEPPER_TIMER_RATE),
			
 
				
				+    uint32_t acceleration_time = rate_factor * float(cruise_rate - initial_rate),
			
 
				
				+             deceleration_time = rate_factor * float(cruise_rate - final_rate),
			
 
				
				     // And to offload calculations from the ISR, we also calculate the inverse of those times here
			
 
				
				              acceleration_time_inverse = get_period_inverse(acceleration_time),
			
 
				
				              deceleration_time_inverse = get_period_inverse(deceleration_time);