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199 lines
8.4 KiB
C#
199 lines
8.4 KiB
C#
using System.Collections;
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using System.Collections.Generic;
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using UnityEngine;
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namespace MoreMountains.Tools
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{
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/// <summary>
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/// This class is used to describe spawn properties, to be used by the MMSpawnAround class.
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/// It's meant to be exposed and used by classes that are designed to spawn objects, typically loot systems
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/// </summary>
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[System.Serializable]
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public class MMSpawnAroundProperties
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{
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/// the possible shapes objects can be spawned within
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public enum MMSpawnAroundShapes { Sphere, Cube }
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/// the shape within which objects should spawn
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[Header("Shape")]
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[Tooltip("the shape within which objects should spawn")]
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public MMSpawnAroundShapes Shape = MMSpawnAroundShapes.Sphere;
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[Header("Position")]
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/// a Vector3 that specifies the normal to the plane you want to spawn objects on (if you want to spawn objects on the x/z plane, the normal to that plane would be the y axis (0,1,0)
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[Tooltip("a Vector3 that specifies the normal to the plane you want to spawn objects on (if you want to spawn objects on the x/z plane, the normal to that plane would be the y axis (0,1,0)")]
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public Vector3 NormalToSpawnPlane = Vector3.up;
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/// the minimum distance to the origin of the spawn at which objects can be spawned
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[Tooltip("the minimum distance to the origin of the spawn at which objects can be spawned")]
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[MMEnumCondition("Shape", (int)MMSpawnAroundShapes.Sphere)]
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public float MinimumSphereRadius = 1f;
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/// the maximum distance to the origin of the spawn at which objects can be spawned
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[Tooltip("the maximum distance to the origin of the spawn at which objects can be spawned")]
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[MMEnumCondition("Shape", (int)MMSpawnAroundShapes.Sphere)]
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public float MaximumSphereRadius = 2f;
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/// the minimum size of the cube's base
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[Tooltip("the minimum size of the cube's base")]
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[MMEnumCondition("Shape", (int)MMSpawnAroundShapes.Cube)]
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public Vector3 MinimumCubeBaseSize = Vector3.one;
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/// the maximum size of the cube's base
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[Tooltip("the maximum size of the cube's base")]
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[MMEnumCondition("Shape", (int)MMSpawnAroundShapes.Cube)]
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public Vector3 MaximumCubeBaseSize = new Vector3(2f, 2f, 2f);
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[Header("NormalAxisOffset")]
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/// the minimum offset to apply on the normal axis
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[Tooltip("the minimum offset to apply on the normal axis")]
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public float MinimumNormalAxisOffset = 0f;
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/// the maximum offset to apply on the normal axis
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[Tooltip("the maximum offset to apply on the normal axis")]
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public float MaximumNormalAxisOffset = 0f;
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[Header("NormalAxisOffsetCurve")]
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/// whether or not to use a curve to offset the object's spawn position along the spawn plane
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[Tooltip("whether or not to use a curve to offset the object's spawn position along the spawn plane")]
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public bool UseNormalAxisOffsetCurve = false;
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/// a curve used to define how distance to the origin should be altered (potentially above min/max distance)
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[Tooltip("a curve used to define how distance to the origin should be altered (potentially above min/max distance)")]
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[MMCondition("UseNormalAxisOffsetCurve",true)]
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public AnimationCurve NormalOffsetCurve = new AnimationCurve(new Keyframe(0, 1f), new Keyframe(1, 1f));
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/// the value to which the curve's zero should be remapped to
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[Tooltip("the value to which the curve's zero should be remapped to")]
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[MMCondition("UseNormalAxisOffsetCurve",true)]
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public float NormalOffsetCurveRemapZero = 0f;
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/// the value to which the curve's one should be remapped to
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[Tooltip("the value to which the curve's one should be remapped to")]
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[MMCondition("UseNormalAxisOffsetCurve",true)]
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public float NormalOffsetCurveRemapOne = 1f;
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/// whether or not to invert the curve (horizontally)
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[Tooltip("whether or not to invert the curve (horizontally)")]
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[MMCondition("UseNormalAxisOffsetCurve",true)]
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public bool InvertNormalOffsetCurve = false;
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[Header("Rotation")]
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/// the minimum random rotation to apply (in degrees)
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[Tooltip("the minimum random rotation to apply (in degrees)")]
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public Vector3 MinimumRotation = Vector3.zero;
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/// the maximum random rotation to apply (in degrees)
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[Tooltip("the maximum random rotation to apply (in degrees)")]
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public Vector3 MaximumRotation = Vector3.zero;
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[Header("Scale")]
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/// the minimum random scale to apply
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[Tooltip("the minimum random scale to apply")]
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public Vector3 MinimumScale = Vector3.one;
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/// the maximum random scale to apply
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[Tooltip("the maximum random scale to apply")]
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public Vector3 MaximumScale = Vector3.one;
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}
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/// <summary>
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/// This static class is a spawn helper, useful to randomize position, rotation and scale when you need to
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/// instantiate objects
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/// </summary>
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public static class MMSpawnAround
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{
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public static void ApplySpawnAroundProperties(GameObject instantiatedObj, MMSpawnAroundProperties props, Vector3 origin)
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{
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// we randomize the position
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instantiatedObj.transform.position = SpawnAroundPosition(props, origin);
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// we randomize the rotation
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instantiatedObj.transform.rotation = SpawnAroundRotation(props);
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// we randomize the scale
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instantiatedObj.transform.localScale = SpawnAroundScale(props);
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}
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/// <summary>
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/// Returns the position at which the object should spawn
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/// </summary>
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/// <param name="props"></param>
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/// <param name="origin"></param>
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/// <returns></returns>
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public static Vector3 SpawnAroundPosition(MMSpawnAroundProperties props, Vector3 origin)
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{
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// we get the position of the object based on the defined plane and distance
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Vector3 newPosition;
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if (props.Shape == MMSpawnAroundProperties.MMSpawnAroundShapes.Sphere)
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{
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float distance = Random.Range(props.MinimumSphereRadius, props.MaximumSphereRadius);
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newPosition = Vector3.Cross(Random.insideUnitSphere, props.NormalToSpawnPlane);
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newPosition.Normalize();
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newPosition *= distance;
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}
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else
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{
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float randomX = Random.Range(props.MinimumCubeBaseSize.x, props.MaximumCubeBaseSize.x);
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newPosition.x = Random.Range(-randomX, randomX) / 2f;
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float randomY = Random.Range(props.MinimumCubeBaseSize.y, props.MaximumCubeBaseSize.y);
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newPosition.y = Random.Range(-randomY, randomY) / 2f;
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float randomZ = Random.Range(props.MinimumCubeBaseSize.z, props.MaximumCubeBaseSize.z);
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newPosition.z = Random.Range(-randomZ, randomZ) / 2f;
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newPosition = Vector3.Cross(newPosition, props.NormalToSpawnPlane);
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}
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float randomOffset = Random.Range(props.MinimumNormalAxisOffset, props.MaximumNormalAxisOffset);
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// we correct the position based on the NormalOffsetCurve
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if (props.UseNormalAxisOffsetCurve)
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{
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float normalizedOffset = 0f;
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if (randomOffset != 0)
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{
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if (props.InvertNormalOffsetCurve)
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{
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normalizedOffset = MMMaths.Remap(randomOffset, props.MinimumNormalAxisOffset, props.MaximumNormalAxisOffset, 1f, 0f);
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}
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else
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{
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normalizedOffset = MMMaths.Remap(randomOffset, props.MinimumNormalAxisOffset, props.MaximumNormalAxisOffset, 0f, 1f);
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}
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}
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float offset = props.NormalOffsetCurve.Evaluate(normalizedOffset);
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offset = MMMaths.Remap(offset, 0f, 1f, props.NormalOffsetCurveRemapZero, props.NormalOffsetCurveRemapOne);
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newPosition *= offset;
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}
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// we apply the normal offset
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newPosition += props.NormalToSpawnPlane.normalized * randomOffset;
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// relative position
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newPosition += origin;
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return newPosition;
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}
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/// <summary>
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/// Returns the scale at which the object should spawn
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/// </summary>
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/// <param name="props"></param>
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/// <returns></returns>
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public static Vector3 SpawnAroundScale(MMSpawnAroundProperties props)
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{
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return MMMaths.RandomVector3(props.MinimumScale, props.MaximumScale);
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}
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/// <summary>
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/// Returns the rotation at which the object should spawn
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/// </summary>
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/// <param name="props"></param>
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/// <returns></returns>
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public static Quaternion SpawnAroundRotation(MMSpawnAroundProperties props)
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{
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return Quaternion.Euler(MMMaths.RandomVector3(props.MinimumRotation, props.MaximumRotation));
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}
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/// <summary>
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/// Draws gizmos to show the shape of the spawn area
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/// </summary>
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/// <param name="props"></param>
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/// <param name="origin"></param>
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/// <param name="quantity"></param>
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/// <param name="size"></param>
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public static void DrawGizmos(MMSpawnAroundProperties props, Vector3 origin, int quantity, float size, Color gizmosColor)
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{
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Gizmos.color = gizmosColor;
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for (int i = 0; i < quantity; i++)
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{
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Gizmos.DrawCube(SpawnAroundPosition(props, origin), SpawnAroundScale(props) * size);
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}
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}
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}
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} |