// Author: Daniele Giardini - http://www.demigiant.com
// Created: 2018/07/13
#if true && (UNITY_4_6 || UNITY_5 || UNITY_2017_1_OR_NEWER) // MODULE_MARKER
using System;
using System.Globalization;
using UnityEngine;
using UnityEngine.UI;
using DG.Tweening.Core;
using DG.Tweening.Core.Enums;
using DG.Tweening.Plugins.Options;
#pragma warning disable 1591
namespace DG.Tweening
{
public static class DOTweenModuleUI
{
#region Shortcuts
#region CanvasGroup
/// Tweens a CanvasGroup's alpha color to the given value.
/// Also stores the canvasGroup as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOFade(this CanvasGroup target, float endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.alpha, x => target.alpha = x, endValue, duration);
t.SetTarget(target);
return t;
}
#endregion
#region Graphic
/// Tweens an Graphic's color to the given value.
/// Also stores the image as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOColor(this Graphic target, Color endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.color, x => target.color = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens an Graphic's alpha color to the given value.
/// Also stores the image as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOFade(this Graphic target, float endValue, float duration)
{
TweenerCore t = DOTween.ToAlpha(() => target.color, x => target.color = x, endValue, duration);
t.SetTarget(target);
return t;
}
#endregion
#region Image
/// Tweens an Image's color to the given value.
/// Also stores the image as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOColor(this Image target, Color endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.color, x => target.color = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens an Image's alpha color to the given value.
/// Also stores the image as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOFade(this Image target, float endValue, float duration)
{
TweenerCore t = DOTween.ToAlpha(() => target.color, x => target.color = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens an Image's fillAmount to the given value.
/// Also stores the image as the tween's target so it can be used for filtered operations
/// The end value to reach (0 to 1)The duration of the tween
public static TweenerCore DOFillAmount(this Image target, float endValue, float duration)
{
if (endValue > 1) endValue = 1;
else if (endValue < 0) endValue = 0;
TweenerCore t = DOTween.To(() => target.fillAmount, x => target.fillAmount = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens an Image's colors using the given gradient
/// (NOTE 1: only uses the colors of the gradient, not the alphas - NOTE 2: creates a Sequence, not a Tweener).
/// Also stores the image as the tween's target so it can be used for filtered operations
/// The gradient to useThe duration of the tween
public static Sequence DOGradientColor(this Image target, Gradient gradient, float duration)
{
Sequence s = DOTween.Sequence();
GradientColorKey[] colors = gradient.colorKeys;
int len = colors.Length;
for (int i = 0; i < len; ++i) {
GradientColorKey c = colors[i];
if (i == 0 && c.time <= 0) {
target.color = c.color;
continue;
}
float colorDuration = i == len - 1
? duration - s.Duration(false) // Verifies that total duration is correct
: duration * (i == 0 ? c.time : c.time - colors[i - 1].time);
s.Append(target.DOColor(c.color, colorDuration).SetEase(Ease.Linear));
}
s.SetTarget(target);
return s;
}
#endregion
#region LayoutElement
/// Tweens an LayoutElement's flexibleWidth/Height to the given value.
/// Also stores the LayoutElement as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOFlexibleSize(this LayoutElement target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => new Vector2(target.flexibleWidth, target.flexibleHeight), x => {
target.flexibleWidth = x.x;
target.flexibleHeight = x.y;
}, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Tweens an LayoutElement's minWidth/Height to the given value.
/// Also stores the LayoutElement as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOMinSize(this LayoutElement target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => new Vector2(target.minWidth, target.minHeight), x => {
target.minWidth = x.x;
target.minHeight = x.y;
}, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Tweens an LayoutElement's preferredWidth/Height to the given value.
/// Also stores the LayoutElement as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOPreferredSize(this LayoutElement target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => new Vector2(target.preferredWidth, target.preferredHeight), x => {
target.preferredWidth = x.x;
target.preferredHeight = x.y;
}, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
#endregion
#region Outline
/// Tweens a Outline's effectColor to the given value.
/// Also stores the Outline as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOColor(this Outline target, Color endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.effectColor, x => target.effectColor = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens a Outline's effectColor alpha to the given value.
/// Also stores the Outline as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOFade(this Outline target, float endValue, float duration)
{
TweenerCore t = DOTween.ToAlpha(() => target.effectColor, x => target.effectColor = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens a Outline's effectDistance to the given value.
/// Also stores the Outline as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOScale(this Outline target, Vector2 endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.effectDistance, x => target.effectDistance = x, endValue, duration);
t.SetTarget(target);
return t;
}
#endregion
#region RectTransform
/// Tweens a RectTransform's anchoredPosition to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPos(this RectTransform target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition, x => target.anchoredPosition = x, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchoredPosition X to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPosX(this RectTransform target, float endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition, x => target.anchoredPosition = x, new Vector2(endValue, 0), duration);
t.SetOptions(AxisConstraint.X, snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchoredPosition Y to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPosY(this RectTransform target, float endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition, x => target.anchoredPosition = x, new Vector2(0, endValue), duration);
t.SetOptions(AxisConstraint.Y, snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchoredPosition3D to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPos3D(this RectTransform target, Vector3 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition3D, x => target.anchoredPosition3D = x, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchoredPosition3D X to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPos3DX(this RectTransform target, float endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition3D, x => target.anchoredPosition3D = x, new Vector3(endValue, 0, 0), duration);
t.SetOptions(AxisConstraint.X, snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchoredPosition3D Y to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPos3DY(this RectTransform target, float endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition3D, x => target.anchoredPosition3D = x, new Vector3(0, endValue, 0), duration);
t.SetOptions(AxisConstraint.Y, snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchoredPosition3D Z to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorPos3DZ(this RectTransform target, float endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchoredPosition3D, x => target.anchoredPosition3D = x, new Vector3(0, 0, endValue), duration);
t.SetOptions(AxisConstraint.Z, snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchorMax to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorMax(this RectTransform target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchorMax, x => target.anchorMax = x, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's anchorMin to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOAnchorMin(this RectTransform target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.anchorMin, x => target.anchorMin = x, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Tweens a RectTransform's pivot to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOPivot(this RectTransform target, Vector2 endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.pivot, x => target.pivot = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens a RectTransform's pivot X to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOPivotX(this RectTransform target, float endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.pivot, x => target.pivot = x, new Vector2(endValue, 0), duration);
t.SetOptions(AxisConstraint.X).SetTarget(target);
return t;
}
/// Tweens a RectTransform's pivot Y to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOPivotY(this RectTransform target, float endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.pivot, x => target.pivot = x, new Vector2(0, endValue), duration);
t.SetOptions(AxisConstraint.Y).SetTarget(target);
return t;
}
/// Tweens a RectTransform's sizeDelta to the given value.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOSizeDelta(this RectTransform target, Vector2 endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.sizeDelta, x => target.sizeDelta = x, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
/// Punches a RectTransform's anchoredPosition towards the given direction and then back to the starting one
/// as if it was connected to the starting position via an elastic.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The direction and strength of the punch (added to the RectTransform's current position)
/// The duration of the tween
/// Indicates how much will the punch vibrate
/// Represents how much (0 to 1) the vector will go beyond the starting position when bouncing backwards.
/// 1 creates a full oscillation between the punch direction and the opposite direction,
/// while 0 oscillates only between the punch and the start position
/// If TRUE the tween will smoothly snap all values to integers
public static Tweener DOPunchAnchorPos(this RectTransform target, Vector2 punch, float duration, int vibrato = 10, float elasticity = 1, bool snapping = false)
{
return DOTween.Punch(() => target.anchoredPosition, x => target.anchoredPosition = x, punch, duration, vibrato, elasticity)
.SetTarget(target).SetOptions(snapping);
}
/// Shakes a RectTransform's anchoredPosition with the given values.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The duration of the tween
/// The shake strength
/// Indicates how much will the shake vibrate
/// Indicates how much the shake will be random (0 to 180 - values higher than 90 kind of suck, so beware).
/// Setting it to 0 will shake along a single direction.
/// If TRUE the tween will smoothly snap all values to integers
/// If TRUE the shake will automatically fadeOut smoothly within the tween's duration, otherwise it will not
public static Tweener DOShakeAnchorPos(this RectTransform target, float duration, float strength = 100, int vibrato = 10, float randomness = 90, bool snapping = false, bool fadeOut = true)
{
return DOTween.Shake(() => target.anchoredPosition, x => target.anchoredPosition = x, duration, strength, vibrato, randomness, true, fadeOut)
.SetTarget(target).SetSpecialStartupMode(SpecialStartupMode.SetShake).SetOptions(snapping);
}
/// Shakes a RectTransform's anchoredPosition with the given values.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The duration of the tween
/// The shake strength on each axis
/// Indicates how much will the shake vibrate
/// Indicates how much the shake will be random (0 to 180 - values higher than 90 kind of suck, so beware).
/// Setting it to 0 will shake along a single direction.
/// If TRUE the tween will smoothly snap all values to integers
/// If TRUE the shake will automatically fadeOut smoothly within the tween's duration, otherwise it will not
public static Tweener DOShakeAnchorPos(this RectTransform target, float duration, Vector2 strength, int vibrato = 10, float randomness = 90, bool snapping = false, bool fadeOut = true)
{
return DOTween.Shake(() => target.anchoredPosition, x => target.anchoredPosition = x, duration, strength, vibrato, randomness, fadeOut)
.SetTarget(target).SetSpecialStartupMode(SpecialStartupMode.SetShake).SetOptions(snapping);
}
#region Special
/// Tweens a RectTransform's anchoredPosition to the given value, while also applying a jump effect along the Y axis.
/// Returns a Sequence instead of a Tweener.
/// Also stores the RectTransform as the tween's target so it can be used for filtered operations
/// The end value to reach
/// Power of the jump (the max height of the jump is represented by this plus the final Y offset)
/// Total number of jumps
/// The duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static Sequence DOJumpAnchorPos(this RectTransform target, Vector2 endValue, float jumpPower, int numJumps, float duration, bool snapping = false)
{
if (numJumps < 1) numJumps = 1;
float startPosY = 0;
float offsetY = -1;
bool offsetYSet = false;
// Separate Y Tween so we can elaborate elapsedPercentage on that insted of on the Sequence
// (in case users add a delay or other elements to the Sequence)
Sequence s = DOTween.Sequence();
Tween yTween = DOTween.To(() => target.anchoredPosition, x => target.anchoredPosition = x, new Vector2(0, jumpPower), duration / (numJumps * 2))
.SetOptions(AxisConstraint.Y, snapping).SetEase(Ease.OutQuad).SetRelative()
.SetLoops(numJumps * 2, LoopType.Yoyo)
.OnStart(()=> startPosY = target.anchoredPosition.y);
s.Append(DOTween.To(() => target.anchoredPosition, x => target.anchoredPosition = x, new Vector2(endValue.x, 0), duration)
.SetOptions(AxisConstraint.X, snapping).SetEase(Ease.Linear)
).Join(yTween)
.SetTarget(target).SetEase(DOTween.defaultEaseType);
s.OnUpdate(() => {
if (!offsetYSet) {
offsetYSet = true;
offsetY = s.isRelative ? endValue.y : endValue.y - startPosY;
}
Vector2 pos = target.anchoredPosition;
pos.y += DOVirtual.EasedValue(0, offsetY, s.ElapsedDirectionalPercentage(), Ease.OutQuad);
target.anchoredPosition = pos;
});
return s;
}
#endregion
#endregion
#region ScrollRect
/// Tweens a ScrollRect's horizontal/verticalNormalizedPosition to the given value.
/// Also stores the ScrollRect as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static Tweener DONormalizedPos(this ScrollRect target, Vector2 endValue, float duration, bool snapping = false)
{
return DOTween.To(() => new Vector2(target.horizontalNormalizedPosition, target.verticalNormalizedPosition),
x => {
target.horizontalNormalizedPosition = x.x;
target.verticalNormalizedPosition = x.y;
}, endValue, duration)
.SetOptions(snapping).SetTarget(target);
}
/// Tweens a ScrollRect's horizontalNormalizedPosition to the given value.
/// Also stores the ScrollRect as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static Tweener DOHorizontalNormalizedPos(this ScrollRect target, float endValue, float duration, bool snapping = false)
{
return DOTween.To(() => target.horizontalNormalizedPosition, x => target.horizontalNormalizedPosition = x, endValue, duration)
.SetOptions(snapping).SetTarget(target);
}
/// Tweens a ScrollRect's verticalNormalizedPosition to the given value.
/// Also stores the ScrollRect as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static Tweener DOVerticalNormalizedPos(this ScrollRect target, float endValue, float duration, bool snapping = false)
{
return DOTween.To(() => target.verticalNormalizedPosition, x => target.verticalNormalizedPosition = x, endValue, duration)
.SetOptions(snapping).SetTarget(target);
}
#endregion
#region Slider
/// Tweens a Slider's value to the given value.
/// Also stores the Slider as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
/// If TRUE the tween will smoothly snap all values to integers
public static TweenerCore DOValue(this Slider target, float endValue, float duration, bool snapping = false)
{
TweenerCore t = DOTween.To(() => target.value, x => target.value = x, endValue, duration);
t.SetOptions(snapping).SetTarget(target);
return t;
}
#endregion
#region Text
/// Tweens a Text's color to the given value.
/// Also stores the Text as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOColor(this Text target, Color endValue, float duration)
{
TweenerCore t = DOTween.To(() => target.color, x => target.color = x, endValue, duration);
t.SetTarget(target);
return t;
}
///
/// Tweens a Text's text from one integer to another, with options for thousands separators
///
/// The value to start from
/// The end value to reach
/// The duration of the tween
/// If TRUE (default) also adds thousands separators
/// The to use (InvariantCulture if NULL)
public static TweenerCore DOCounter(
this Text target, int fromValue, int endValue, float duration, bool addThousandsSeparator = true, CultureInfo culture = null
){
int v = fromValue;
CultureInfo cInfo = !addThousandsSeparator ? null : culture ?? CultureInfo.InvariantCulture;
TweenerCore t = DOTween.To(() => v, x => {
v = x;
target.text = addThousandsSeparator
? v.ToString("N0", cInfo)
: v.ToString();
}, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens a Text's alpha color to the given value.
/// Also stores the Text as the tween's target so it can be used for filtered operations
/// The end value to reachThe duration of the tween
public static TweenerCore DOFade(this Text target, float endValue, float duration)
{
TweenerCore t = DOTween.ToAlpha(() => target.color, x => target.color = x, endValue, duration);
t.SetTarget(target);
return t;
}
/// Tweens a Text's text to the given value.
/// Also stores the Text as the tween's target so it can be used for filtered operations
/// The end string to tween toThe duration of the tween
/// If TRUE (default), rich text will be interpreted correctly while animated,
/// otherwise all tags will be considered as normal text
/// The type of scramble mode to use, if any
/// A string containing the characters to use for scrambling.
/// Use as many characters as possible (minimum 10) because DOTween uses a fast scramble mode which gives better results with more characters.
/// Leave it to NULL (default) to use default ones
public static TweenerCore DOText(this Text target, string endValue, float duration, bool richTextEnabled = true, ScrambleMode scrambleMode = ScrambleMode.None, string scrambleChars = null)
{
if (endValue == null) {
if (Debugger.logPriority > 0) Debugger.LogWarning("You can't pass a NULL string to DOText: an empty string will be used instead to avoid errors");
endValue = "";
}
TweenerCore t = DOTween.To(() => target.text, x => target.text = x, endValue, duration);
t.SetOptions(richTextEnabled, scrambleMode, scrambleChars)
.SetTarget(target);
return t;
}
#endregion
#region Blendables
#region Graphic
/// Tweens a Graphic's color to the given value,
/// in a way that allows other DOBlendableColor tweens to work together on the same target,
/// instead than fight each other as multiple DOColor would do.
/// Also stores the Graphic as the tween's target so it can be used for filtered operations
/// The value to tween toThe duration of the tween
public static Tweener DOBlendableColor(this Graphic target, Color endValue, float duration)
{
endValue = endValue - target.color;
Color to = new Color(0, 0, 0, 0);
return DOTween.To(() => to, x => {
Color diff = x - to;
to = x;
target.color += diff;
}, endValue, duration)
.Blendable().SetTarget(target);
}
#endregion
#region Image
/// Tweens a Image's color to the given value,
/// in a way that allows other DOBlendableColor tweens to work together on the same target,
/// instead than fight each other as multiple DOColor would do.
/// Also stores the Image as the tween's target so it can be used for filtered operations
/// The value to tween toThe duration of the tween
public static Tweener DOBlendableColor(this Image target, Color endValue, float duration)
{
endValue = endValue - target.color;
Color to = new Color(0, 0, 0, 0);
return DOTween.To(() => to, x => {
Color diff = x - to;
to = x;
target.color += diff;
}, endValue, duration)
.Blendable().SetTarget(target);
}
#endregion
#region Text
/// Tweens a Text's color BY the given value,
/// in a way that allows other DOBlendableColor tweens to work together on the same target,
/// instead than fight each other as multiple DOColor would do.
/// Also stores the Text as the tween's target so it can be used for filtered operations
/// The value to tween toThe duration of the tween
public static Tweener DOBlendableColor(this Text target, Color endValue, float duration)
{
endValue = endValue - target.color;
Color to = new Color(0, 0, 0, 0);
return DOTween.To(() => to, x => {
Color diff = x - to;
to = x;
target.color += diff;
}, endValue, duration)
.Blendable().SetTarget(target);
}
#endregion
#endregion
#endregion
// █████████████████████████████████████████████████████████████████████████████████████████████████████████████████████
// ███ INTERNAL CLASSES ████████████████████████████████████████████████████████████████████████████████████████████████
// █████████████████████████████████████████████████████████████████████████████████████████████████████████████████████
public static class Utils
{
///
/// Converts the anchoredPosition of the first RectTransform to the second RectTransform,
/// taking into consideration offset, anchors and pivot, and returns the new anchoredPosition
///
public static Vector2 SwitchToRectTransform(RectTransform from, RectTransform to)
{
Vector2 localPoint;
Vector2 fromPivotDerivedOffset = new Vector2(from.rect.width * 0.5f + from.rect.xMin, from.rect.height * 0.5f + from.rect.yMin);
Vector2 screenP = RectTransformUtility.WorldToScreenPoint(null, from.position);
screenP += fromPivotDerivedOffset;
RectTransformUtility.ScreenPointToLocalPointInRectangle(to, screenP, null, out localPoint);
Vector2 pivotDerivedOffset = new Vector2(to.rect.width * 0.5f + to.rect.xMin, to.rect.height * 0.5f + to.rect.yMin);
return to.anchoredPosition + localPoint - pivotDerivedOffset;
}
}
}
}
#endif