Version: 2023.2
言語: 日本語

MinMaxGradient

struct in UnityEngine

マニュアルに切り替える

説明

Min-Max Gradient のスクリプトインターフェース

This contains two Gradients, and returns a Color based on ParticleSystem.MinMaxGradient.mode. Depending on the mode, this may return the value randomized. Gradients are edited via the ParticleSystem Inspector once a ParticleSystemGradientMode requiring them has been selected. Some modes do not require gradients, only colors. Additional resources: ParticleSystem.

using UnityEngine;

// This example shows setting a constant color value. public class ConstantColorExample : MonoBehaviour { ParticleSystem myParticleSystem; ParticleSystem.ColorOverLifetimeModule colorModule;

void Start() { // Get the system and the color module. myParticleSystem = GetComponent<ParticleSystem>(); colorModule = myParticleSystem.colorOverLifetime;

GetValue(); SetValue(); }

void GetValue() { print("The constant color is " + colorModule.color.color); }

void SetValue() { colorModule.color = Color.red; } }
using UnityEngine;

// This example shows using 2 colors to drive the color over lifetime. public class TwoConstantColorsExample : MonoBehaviour { ParticleSystem myParticleSystem; ParticleSystem.ColorOverLifetimeModule colorModule;

void Start() { // Get the system and the color module. myParticleSystem = GetComponent<ParticleSystem>(); colorModule = myParticleSystem.colorOverLifetime;

GetValue(); SetValue(); }

void GetValue() { print(string.Format("The constant values are: min {0} max {1}.", colorModule.color.colorMin, colorModule.color.colorMax)); }

void SetValue() { colorModule.color = new ParticleSystem.MinMaxGradient(Color.green, Color.red); } }
using UnityEngine;

// This example shows using a gradient to drive the color over lifetime. public class GradientColorExample : MonoBehaviour { ParticleSystem myParticleSystem; ParticleSystem.ColorOverLifetimeModule colorModule; Gradient ourGradient;

void Start() { // Get the system and the color module. myParticleSystem = GetComponent<ParticleSystem>(); colorModule = myParticleSystem.colorOverLifetime;

// A simple 2 color gradient with a fixed alpha of 1.0f. float alpha = 1.0f; ourGradient = new Gradient(); ourGradient.SetKeys( new GradientColorKey[] { new GradientColorKey(Color.green, 0.0f), new GradientColorKey(Color.red, 1.0f) }, new GradientAlphaKey[] { new GradientAlphaKey(alpha, 0.0f), new GradientAlphaKey(alpha, 1.0f) } );

// Apply the gradient. colorModule.color = ourGradient;

// In 5 seconds we will modify the gradient. Invoke("ModifyGradient", 5.0f); }

void ModifyGradient() { // Reduce the alpha float alpha = 0.5f; ourGradient.SetKeys( new GradientColorKey[] { new GradientColorKey(Color.green, 0.0f), new GradientColorKey(Color.red, 1.0f) }, new GradientAlphaKey[] { new GradientAlphaKey(alpha, 0.0f), new GradientAlphaKey(alpha, 1.0f) } );

// Apply the changed gradient. colorModule.color = ourGradient; } }
using UnityEngine;

// This example shows using 2 gradients to drive the color over lifetime. public class TwoGradientColorExample : MonoBehaviour { ParticleSystem myParticleSystem; ParticleSystem.ColorOverLifetimeModule colorModule;

Gradient ourGradientMin; Gradient ourGradientMax;

void Start() { // Get the system and the emission module. myParticleSystem = GetComponent<ParticleSystem>(); colorModule = myParticleSystem.colorOverLifetime;

// A simple 2 color gradient with a fixed alpha of 1.0f. float alpha1 = 1.0f; ourGradientMin = new Gradient(); ourGradientMin.SetKeys( new GradientColorKey[] { new GradientColorKey(Color.green, 0.0f), new GradientColorKey(Color.red, 1.0f) }, new GradientAlphaKey[] { new GradientAlphaKey(alpha1, 0.0f), new GradientAlphaKey(alpha1, 1.0f) } );

// A simple 2 color gradient with a fixed alpha of 0.0f. float alpha2 = 0.0f; ourGradientMax = new Gradient(); ourGradientMax.SetKeys( new GradientColorKey[] { new GradientColorKey(Color.green, 0.0f), new GradientColorKey(Color.red, 1.0f) }, new GradientAlphaKey[] { new GradientAlphaKey(alpha2, 0.0f), new GradientAlphaKey(alpha2, 1.0f) } );

// Apply the gradients. colorModule.color = new ParticleSystem.MinMaxGradient(ourGradientMin, ourGradientMax);

// In 5 seconds we will modify the gradient. Invoke("ModifyGradient", 5.0f); }

void ModifyGradient() { // Reduce the alpha float alpha = 0.5f; ourGradientMin.SetKeys( new GradientColorKey[] { new GradientColorKey(Color.green, 0.0f), new GradientColorKey(Color.red, 1.0f) }, new GradientAlphaKey[] { new GradientAlphaKey(alpha, 0.0f), new GradientAlphaKey(alpha, 1.0f) } );

// Apply the changed gradients. colorModule.color = new ParticleSystem.MinMaxGradient(ourGradientMin, ourGradientMax); } }
using UnityEngine;

// This example shows how to retrieve existing color and alpha keys from a MinMaxGradient public class ReadGradientExample : MonoBehaviour { void Start() { // Get the system and the color module. var myParticleSystem = GetComponent<ParticleSystem>(); var colorModule = myParticleSystem.colorOverLifetime;

// Get the gradient (assuming the MinMaxGradient is in Gradient mode) Gradient gradient = colorModule.color.gradient;

// Get the keys GradientColorKey[] colorKeys = gradient.colorKeys; GradientAlphaKey[] alphaKeys = gradient.alphaKeys; } }

変数

color一定の色を設定します。
colorMax上限を決める色を設定します。
colorMin下限を決める色を設定します。
gradientグラデーションを設定します。
gradientMax上限のグラデーションを設定します。
gradientMin下限のグラデーションを設定します。
modeSet the mode that the Min-Max Gradient uses to evaluate colors.

コンストラクタ

ParticleSystem.MinMaxGradientグラデーション全体で使用される一定の色

Public 関数

Evaluateグラデーションのモードに基づいて、色を計算するよう手動でグラデーションに問い合わせします。