made default resolution adaptive sensiticity because makes more sense, removed other things since no difference and dunno

leenkx/Sources/leenkx/logicnode/MouseLookNode.hx

@@ -7,44 +7,24 @@ import kha.System;
 import kha.FastFloat;
 
 class MouseLookNode extends LogicNode {
-	// Note: This implementation works in degrees internally and converts to radians only when applying rotations
-	// Sub-pixel interpolation is always enabled for optimal precision
-	// Features: Resolution-adaptive scaling and precise low-sensitivity support
+	public var property0: String;
+	public var property1: Bool;
+	public var property2: Bool;
+	public var property3: Bool;
+	public var property4: Bool;
+	public var property5: Bool;
+	public var property7: Bool;
 
-	public var property0: String; // Front axis
-	public var property1: Bool; // Center Mouse
-	public var property2: Bool; // Invert X
-	public var property3: Bool; // Invert Y  
-	public var property4: Bool; // Cap Left/Right
-	public var property5: Bool; // Cap Up/Down
+	var smoothX: Float = 0.0;
+	var smoothY: Float = 0.0;
+	var maxHorizontal: Float = Math.PI;
+	var maxVertical: Float = Math.PI / 2;
+	var currentHorizontal: Float = 0.0;
+	var currentVertical: Float = 0.0;
+	var baseResolutionWidth: Float = 1920.0;
 	
-	// New strategy toggles
-	public var property6: Bool; // Resolution-Adaptive Scaling
-
-	// Smoothing variables
-	var smoothX: FastFloat = 0.0;
-	var smoothY: FastFloat = 0.0;
-	
-	// Capping limits (in degrees)
-	var maxHorizontal: FastFloat = 180.0; // 180 degrees
-	var maxVertical: FastFloat = 90.0; // 90 degrees
-	
-	// Current accumulated rotations for capping
-	var currentHorizontal: FastFloat = 0.0;
-	var currentVertical: FastFloat = 0.0;
-	
-	// Sub-pixel interpolation accumulators
-	var accumulatedHorizontalRotation: FastFloat = 0.0;
-	var accumulatedVerticalRotation: FastFloat = 0.0;
-	var minimumRotationThreshold: FastFloat = 0.01; // degrees (was 0.0001 radians)
-	
-	// Frame rate independence removed - not applicable to mouse input
-	
-	// Resolution adaptive scaling
-	var baseResolutionWidth: FastFloat = 1920.0;
-	var baseResolutionHeight: FastFloat = 1080.0;
-	
-
+	static inline var BASE_SCALE: Float = 1500.0;
+	static var RADIAN_SCALING_FACTOR: Float = Math.PI * 50.0 / 180.0;
 
 	public function new(tree: LogicTree) {
 		super(tree);
@@ -63,114 +43,64 @@ class MouseLookNode extends LogicNode {
 
 		var mouse = Input.getMouse();
 		
-		// Handle mouse centering/locking
 		if (property1) {
 			if (mouse.started() && !mouse.locked) {
 				mouse.lock();
 			}
 		}
 
-		// Only process if mouse is active
 		if (!mouse.locked && !mouse.down()) {
 			runOutput(0);
 			return;
 		}
 
-		// Get mouse movement deltas
-		var deltaX: FastFloat = mouse.movementX;
-		var deltaY: FastFloat = mouse.movementY;
+		var deltaX: Float = mouse.movementX;
+		var deltaY: Float = mouse.movementY;
 
-		// Note: Sensitivity will be applied later to preserve precision for small movements
-
-		// Apply inversion
 		if (property2) deltaX = -deltaX;
 		if (property3) deltaY = -deltaY;
 
-		// Strategy 1: Resolution-Adaptive Scaling
-		var resolutionMultiplier: FastFloat = 1.0;
-		if (property6) {
-			var currentWidth = System.windowWidth();
-			var currentHeight = System.windowHeight();
-			resolutionMultiplier = (currentWidth / baseResolutionWidth) * (currentHeight / baseResolutionHeight);
-			resolutionMultiplier = Math.sqrt(resolutionMultiplier); // Take square root to avoid over-scaling
-		}
+		// Always apply resolution-adaptive scaling
+		var resolutionMultiplier: Float = System.windowWidth() / baseResolutionWidth;
 
-		// Frame Rate Independence disabled for mouse input - mouse deltas are inherently frame-rate independent
-
-		// Apply smoothing
 		if (smoothing > 0.0) {
-			var smoothFactor = 1.0 - Math.min(smoothing, 0.99); // Prevent complete smoothing
-			smoothX = smoothX * smoothing + deltaX * smoothFactor;
-			smoothY = smoothY * smoothing + deltaY * smoothFactor;
+			var smoothingFactor: Float = Math.min(smoothing, 0.99);
+			smoothX = smoothX * smoothingFactor + deltaX * (1.0 - smoothingFactor);
+			smoothY = smoothY * smoothingFactor + deltaY * (1.0 - smoothingFactor);
 			deltaX = smoothX;
 			deltaY = smoothY;
 		}
 
-		// Determine rotation axes based on front axis setting
 		var horizontalAxis = new Vec4();
 		var verticalAxis = new Vec4();
 		
 		switch (property0) {
-			case "X": // X is front
-				horizontalAxis.set(0, 0, 1); // Z axis for horizontal (yaw)
-				verticalAxis.set(0, 1, 0);   // Y axis for vertical (pitch)
-			case "Y": // Y is front (default)
+			case "X":
+				horizontalAxis.set(0, 0, 1);
+				verticalAxis.set(0, 1, 0);
+			case "Y":
 				#if lnx_yaxisup
-				horizontalAxis.set(0, 0, 1); // Z axis for horizontal (yaw)
-				verticalAxis.set(1, 0, 0);   // X axis for vertical (pitch)
+				horizontalAxis.set(0, 0, 1);
+				verticalAxis.set(1, 0, 0);
 				#else
-				horizontalAxis.set(0, 0, 1); // Z axis for horizontal (yaw)  
-				verticalAxis.set(1, 0, 0);   // X axis for vertical (pitch)
+				horizontalAxis.set(0, 0, 1);
+				verticalAxis.set(1, 0, 0);
 				#end
-			case "Z": // Z is front
-				horizontalAxis.set(0, 1, 0); // Y axis for horizontal (yaw)
-				verticalAxis.set(1, 0, 0);   // X axis for vertical (pitch)
+			case "Z":
+				horizontalAxis.set(0, 1, 0);
+				verticalAxis.set(1, 0, 0);
 		}
 
-		// Base scaling
-		var baseScale: FastFloat = 1500.0;
-		var finalScale = baseScale;
+		// Always apply resolution-adaptive scaling
+		var finalScale: Float = BASE_SCALE * resolutionMultiplier;
 
-		// Apply resolution scaling
-		if (property6) {
-			finalScale *= resolutionMultiplier;
-		}
-
-
-
-		// Apply sensitivity scaling after all enhancement strategies to preserve precision
 		deltaX *= sensitivity;
 		deltaY *= sensitivity;
 
-		// Calculate rotation amounts (in degrees)
-		var horizontalRotation: FastFloat = (-deltaX / finalScale) * 180.0 / Math.PI;
-		var verticalRotation: FastFloat = (-deltaY / finalScale) * 180.0 / Math.PI;
+		var horizontalRotation: Float = (-deltaX / finalScale) * RADIAN_SCALING_FACTOR;
+		var verticalRotation: Float = (-deltaY / finalScale) * RADIAN_SCALING_FACTOR;
 
-		// Note: Frame rate independence removed for mouse input as mouse deltas
-		// are already frame-rate independent by nature. Mouse input represents
-		// instantaneous user intent, not time-based movement.
-
-		// Strategy 2: Sub-Pixel Interpolation (always enabled)
-		accumulatedHorizontalRotation += horizontalRotation;
-		accumulatedVerticalRotation += verticalRotation;
-		
-		// Only apply rotation if accumulated amount exceeds threshold
-		if (Math.abs(accumulatedHorizontalRotation) >= minimumRotationThreshold) {
-			horizontalRotation = accumulatedHorizontalRotation;
-			accumulatedHorizontalRotation = 0.0;
-		} else {
-			horizontalRotation = 0.0;
-		}
-		
-		if (Math.abs(accumulatedVerticalRotation) >= minimumRotationThreshold) {
-			verticalRotation = accumulatedVerticalRotation;
-			accumulatedVerticalRotation = 0.0;
-		} else {
-			verticalRotation = 0.0;
-		}
-
-		// Apply capping constraints
-		if (property4) { // Cap Left/Right
+		if (property4) {
 			currentHorizontal += horizontalRotation;
 			if (currentHorizontal > maxHorizontal) {
 				horizontalRotation -= (currentHorizontal - maxHorizontal);
@@ -181,7 +111,7 @@ class MouseLookNode extends LogicNode {
 			}
 		}
 
-		if (property5) { // Cap Up/Down
+		if (property5) {
 			currentVertical += verticalRotation;
 			if (currentVertical > maxVertical) {
 				verticalRotation -= (currentVertical - maxVertical);
@@ -192,39 +122,36 @@ class MouseLookNode extends LogicNode {
 			}
 		}
 
-		// Apply horizontal rotation to body (yaw)
-		if (Math.abs(horizontalRotation) > 0.01) { // 0.01 degrees threshold
-			bodyObject.transform.rotate(horizontalAxis, horizontalRotation * Math.PI / 180.0); // Convert degrees to radians
+		if (horizontalRotation != 0.0) {
+			bodyObject.transform.rotate(horizontalAxis, horizontalRotation);
 			
-			// Sync physics if needed
 			#if lnx_physics
 			var rigidBody = bodyObject.getTrait(leenkx.trait.physics.RigidBody);
 			if (rigidBody != null) rigidBody.syncTransform();
 			#end
 		}
 
-		// Apply vertical rotation to head (pitch) if head object is provided
-		if (headObject != null && Math.abs(verticalRotation) > 0.01) { // 0.01 degrees threshold
-			// For head rotation, use the head's local coordinate system
-			var headVerticalAxis = headObject.transform.world.right();
-			headObject.transform.rotate(headVerticalAxis, verticalRotation * Math.PI / 180.0); // Convert degrees to radians
+		if (headObject != null && verticalRotation != 0.0) {
+			if (property7) {
+				// Local space rotation (recommended for FPS)
+				headObject.transform.rotate(verticalAxis, verticalRotation);
+			} else {
+				// World space rotation
+				var headVerticalAxis = headObject.transform.world.right();
+				headObject.transform.rotate(headVerticalAxis, verticalRotation);
+			}
 			
-			// Sync physics if needed
 			#if lnx_physics
 			var headRigidBody = headObject.getTrait(leenkx.trait.physics.RigidBody);
 			if (headRigidBody != null) headRigidBody.syncTransform();
 			#end
-		} else if (headObject == null) {
-			// If no head object, apply vertical rotation to body as well
-			if (Math.abs(verticalRotation) > 0.01) { // 0.01 degrees threshold
-				bodyObject.transform.rotate(verticalAxis, verticalRotation * Math.PI / 180.0); // Convert degrees to radians
-				
-				// Sync physics if needed
-				#if lnx_physics
-				var rigidBody = bodyObject.getTrait(leenkx.trait.physics.RigidBody);
-				if (rigidBody != null) rigidBody.syncTransform();
-				#end
-			}
+		} else if (headObject == null && verticalRotation != 0.0) {
+			bodyObject.transform.rotate(verticalAxis, verticalRotation);
+			
+			#if lnx_physics
+			var rigidBody = bodyObject.getTrait(leenkx.trait.physics.RigidBody);
+			if (rigidBody != null) rigidBody.syncTransform();
+			#end
 		}
 
 		runOutput(0);

leenkx/blender/lnx/logicnode/input/LN_mouse_look.py

@@ -5,8 +5,7 @@ class MouseLookNode(LnxLogicTreeNode):
     """Controls object rotation based on mouse movement for FPS-style camera control.
     
     Features:
-    - Sub-pixel interpolation (always enabled) for optimal precision and smooth low-sensitivity movement
-    - Resolution-adaptive scaling for consistent feel across different screen resolutions
+    - Built-in resolution-adaptive scaling for consistent feel across different screen resolutions
     """
     bl_idname = 'LNMouseLookNode'
     bl_label = 'Mouse Look'
@@ -55,12 +54,12 @@ class MouseLookNode(LnxLogicTreeNode):
         name='Cap Up / Down',
         description='Limit vertical rotation',
         default=True)
-
-    # Strategy toggles
-    property6: HaxeBoolProperty(
-        'property6',
-        name='Resolution Adaptive',
-        description='Scale sensitivity based on screen resolution',
+    
+    # Head rotation space toggle
+    property7: HaxeBoolProperty(
+        'property7',
+        name='Head Local Space',
+        description='Enable it if the Head is child of the Body to avoid weird rotation',
         default=False)
     
 
@@ -72,7 +71,7 @@ class MouseLookNode(LnxLogicTreeNode):
         self.add_input('LnxNodeSocketObject', 'Body')
         self.add_input('LnxNodeSocketObject', 'Head')
         self.add_input('LnxFloatSocket', 'Sensitivity', default_value=0.5)
-        self.add_input('LnxFloatSocket', 'Smoothing', default_value=0.0)
+        self.add_input('LnxFactorSocket', 'Smoothing', default_value=0.0)
 
         self.add_output('LnxNodeSocketAction', 'Out')
 
@@ -92,10 +91,6 @@ class MouseLookNode(LnxLogicTreeNode):
         col.prop(self, 'property4', text='Cap Left / Right')
         col.prop(self, 'property5', text='Cap Up / Down')
         
-        # Separator
-        layout.separator()
-        
-        # Enhancement strategies section
+        # Head behavior section
         col = layout.column(align=True)
-        col.label(text="Enhancement Strategies:")
-        col.prop(self, 'property6', text='Resolution Adaptive') 
+        col.prop(self, 'property7', text='Head Local Space')