holopy3/Assets/Plugins/RootMotion/Editor/FinalIK/AimPoserInspector.cs

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2020-12-10 14:25:12 +00:00
using UnityEngine;
using UnityEditor;
using System.Collections;
using RootMotion;
namespace RootMotion.FinalIK {
/// <summary>
/// Custom inspector for the Aim Poser for visualizing pose range
/// </summary>
[CustomEditor(typeof(AimPoser))]
public class AimPoserInspector : Editor {
[System.Serializable]
public struct ColorDirection {
public Vector3 direction;
public Vector3 color;
public float dot;
public ColorDirection(Vector3 direction, Vector3 color) {
this.direction = direction.normalized;
this.color = color;
this.dot = 0;
}
}
private AimPoser script { get { return target as AimPoser; }}
private ColorDirection[] colorDirections;
private static Vector3[] poly = new Vector3[36];
void OnSceneGUI() {
for (int i = 0; i < script.poses.Length; i++) {
script.poses[i].yaw = Mathf.Clamp(script.poses[i].yaw, 0, 180);
script.poses[i].pitch = Mathf.Clamp(script.poses[i].pitch, 0, 180);
}
if (colorDirections == null) {
colorDirections = new ColorDirection[6] {
new ColorDirection(Vector3.right, Vector3.right),
new ColorDirection(Vector3.up, Vector3.up),
new ColorDirection(Vector3.forward, Vector3.forward),
new ColorDirection(Vector3.left, new Vector3(0f, 1f, 1f)),
new ColorDirection(Vector3.down, new Vector3(1f, 0f, 1f)),
new ColorDirection(Vector3.back, new Vector3(1f, 1f, 0f))
};
}
for (int i = 0; i < script.poses.Length; i++) {
if (script.poses[i].visualize) {
DrawPose(script.poses[i], script.transform.position, script.transform.rotation, GetDirectionColor(script.poses[i].direction));
}
}
}
private Color GetDirectionColor(Vector3 localDirection) {
localDirection = localDirection.normalized;
// Calculating dot products for all AxisDirections
for (int i = 0; i < colorDirections.Length; i++) {
colorDirections[i].dot = Mathf.Clamp(Vector3.Dot(colorDirections[i].direction, localDirection), 0f, 1f);
}
// Summing up the arm bend axis
Vector3 sum = Vector3.zero;
for (int i = 0; i < colorDirections.Length; i++) {
sum = Vector3.Lerp(sum, colorDirections[i].color, colorDirections[i].dot * colorDirections[i].dot);
}
return new Color(sum.x, sum.y, sum.z);
}
private static void DrawPose(AimPoser.Pose pose, Vector3 position, Quaternion rotation, Color color) {
if (pose.pitch <= 0f || pose.yaw <= 0f) return;
if (pose.direction == Vector3.zero) return;
Handles.color = color;
GUI.color = color;
Vector3 up = rotation * Vector3.up;
Vector3 normalizedPoseDirection = pose.direction.normalized;
Vector3 direction = rotation * normalizedPoseDirection;
// Direction and label
Handles.DrawLine(position, position + direction);
Inspector.ConeCap(0, position + direction, Quaternion.LookRotation(direction), 0.05f);
Handles.Label(position + direction.normalized * 1.1f, pose.name);
if (pose.yaw >= 180f && pose.pitch >= 180f) {
Handles.color = Color.white;
GUI.color = Color.white;
return;
}
Quaternion halfYaw = Quaternion.AngleAxis(pose.yaw, up);
float directionPitch = Vector3.Angle(up, direction);
Vector3 crossRight = halfYaw * Vector3.Cross(up, direction);
Vector3 crossLeft = Quaternion.Inverse(halfYaw) * Vector3.Cross(up, direction);
bool isVertical = normalizedPoseDirection == Vector3.up || normalizedPoseDirection == Vector3.down;
if (isVertical) {
crossRight = halfYaw * Vector3.right;
crossLeft = Quaternion.Inverse(halfYaw) * Vector3.right;
}
float minPitch = Mathf.Clamp(directionPitch - pose.pitch, 0f, 180f);
float maxPitch = Mathf.Clamp(directionPitch + pose.pitch, 0f, 180f);
Quaternion upToCornerUpperRight = Quaternion.AngleAxis(minPitch, crossRight);
Quaternion upToCornerLowerRight = Quaternion.AngleAxis(maxPitch, crossRight);
Quaternion upToCornerUpperLeft = Quaternion.AngleAxis(minPitch, crossLeft);
Quaternion upToCornerLowerLeft = Quaternion.AngleAxis(maxPitch, crossLeft);
Vector3 toCornerUpperRight = upToCornerUpperRight * up;
Vector3 toCornerLowerRight = upToCornerLowerRight * up;
Vector3 toCornerUpperLeft = upToCornerUpperLeft * up;
Vector3 toCornerLowerLeft = upToCornerLowerLeft * up;
if (pose.yaw < 180f) {
Handles.DrawLine(position, position + toCornerUpperRight);
Handles.DrawLine(position, position + toCornerUpperLeft);
Handles.DrawLine(position, position + toCornerLowerRight);
Handles.DrawLine(position, position + toCornerLowerLeft);
}
Vector3 d = direction;
if (isVertical) d = Vector3.forward;
if (pose.pitch < 180f) {
DrawPolyLineOnSphere(position, toCornerUpperLeft, toCornerUpperRight, d, Vector3.up, color);
DrawPolyLineOnSphere(position, toCornerLowerLeft, toCornerLowerRight, d, Vector3.up, color);
}
if (pose.yaw < 180f) {
DrawPolyLineOnSphere(position, toCornerUpperLeft, toCornerLowerLeft, Quaternion.Inverse(halfYaw) * d, crossLeft, color);
DrawPolyLineOnSphere(position, toCornerUpperRight, toCornerLowerRight, halfYaw * d, crossRight, color);
}
Handles.color = Color.white;
GUI.color = Color.white;
}
private static void DrawPolyLineOnSphere(Vector3 center, Vector3 d1, Vector3 d2, Vector3 direction, Vector3 axis, Color color) {
Handles.color = color;
Vector3 normal = axis;
Vector3 d1Ortho = d1;
Vector3.OrthoNormalize(ref normal, ref d1Ortho);
normal = axis;
Vector3 d2Ortho = d2;
Vector3.OrthoNormalize(ref normal, ref d2Ortho);
normal = axis;
Vector3 directionOrtho = direction;
Vector3.OrthoNormalize(ref normal, ref directionOrtho);
float angle = Vector3.Angle(d1Ortho, d2Ortho);
float dot = Vector3.Dot(directionOrtho, d1Ortho);
if (dot < 0) {
angle = 180 + (180 - angle);
}
int segments = Mathf.Clamp(Mathf.RoundToInt(angle / 36f) * 5, 3, 36);
float segmentF = angle / (float)(segments - 1);
for (int i = 0; i < segments; i++) {
poly[i] = center + Quaternion.AngleAxis(i * segmentF, axis) * d1;
}
Handles.color = new Color(color.r, color.g, color.b, color.a * 0.1f);
for (int i = 0; i < segments; i++) {
Handles.DrawLine(center, poly[i]);
}
Handles.color = color;
for (int i = 0; i < segments - 1; i++) {
Handles.DrawLine(poly[i], poly[i + 1]);
}
}
}
}