Exemple #1
0
    private static bool RadialCut(Vector2[] xy, Vector2[] uv, float fill, bool invert, int corner)
    {
        if (fill < 0.001f)
        {
            return(false);
        }
        if ((corner & 1) == 1)
        {
            invert = !invert;
        }
        if (!invert && fill > 0.999f)
        {
            return(true);
        }
        float num = Mathf.Clamp01(fill);

        if (invert)
        {
            num = 1f - num;
        }
        num *= 1.57079637f;
        float cos = Mathf.Cos(num);
        float sin = Mathf.Sin(num);

        UIBasicSprite.RadialCut(xy, cos, sin, invert, corner);
        UIBasicSprite.RadialCut(uv, cos, sin, invert, corner);
        return(true);
    }
Exemple #2
0
    private static Boolean RadialCut(Vector2[] xy, Vector2[] uv, Single fill, Boolean invert, Int32 corner)
    {
        if (fill < 0.001f)
        {
            return(false);
        }
        if ((corner & 1) == 1)
        {
            invert = !invert;
        }
        if (!invert && fill > 0.999f)
        {
            return(true);
        }
        Single num = Mathf.Clamp01(fill);

        if (invert)
        {
            num = 1f - num;
        }
        num *= 1.57079637f;
        Single cos = Mathf.Cos(num);
        Single sin = Mathf.Sin(num);

        UIBasicSprite.RadialCut(xy, cos, sin, invert, corner);
        UIBasicSprite.RadialCut(uv, cos, sin, invert, corner);
        return(true);
    }
Exemple #3
0
    private void FilledFill(BetterList <Vector3> verts, BetterList <Vector2> uvs, BetterList <Color32> cols)
    {
        if (this.mFillAmount < 0.001f)
        {
            return;
        }
        Vector4 drawingDimensions = this.drawingDimensions;
        Vector4 drawingUVs        = this.drawingUVs;
        Color32 drawingColor      = this.drawingColor;

        if (this.mFillDirection == UIBasicSprite.FillDirection.Horizontal || this.mFillDirection == UIBasicSprite.FillDirection.Vertical)
        {
            if (this.mFillDirection == UIBasicSprite.FillDirection.Horizontal)
            {
                float num = (drawingUVs.z - drawingUVs.x) * this.mFillAmount;
                if (this.mInvert)
                {
                    drawingDimensions.x = drawingDimensions.z - (drawingDimensions.z - drawingDimensions.x) * this.mFillAmount;
                    drawingUVs.x        = drawingUVs.z - num;
                }
                else
                {
                    drawingDimensions.z = drawingDimensions.x + (drawingDimensions.z - drawingDimensions.x) * this.mFillAmount;
                    drawingUVs.z        = drawingUVs.x + num;
                }
            }
            else if (this.mFillDirection == UIBasicSprite.FillDirection.Vertical)
            {
                float num2 = (drawingUVs.w - drawingUVs.y) * this.mFillAmount;
                if (this.mInvert)
                {
                    drawingDimensions.y = drawingDimensions.w - (drawingDimensions.w - drawingDimensions.y) * this.mFillAmount;
                    drawingUVs.y        = drawingUVs.w - num2;
                }
                else
                {
                    drawingDimensions.w = drawingDimensions.y + (drawingDimensions.w - drawingDimensions.y) * this.mFillAmount;
                    drawingUVs.w        = drawingUVs.y + num2;
                }
            }
        }
        UIBasicSprite.mTempPos[0] = new Vector2(drawingDimensions.x, drawingDimensions.y);
        UIBasicSprite.mTempPos[1] = new Vector2(drawingDimensions.x, drawingDimensions.w);
        UIBasicSprite.mTempPos[2] = new Vector2(drawingDimensions.z, drawingDimensions.w);
        UIBasicSprite.mTempPos[3] = new Vector2(drawingDimensions.z, drawingDimensions.y);
        UIBasicSprite.mTempUVs[0] = new Vector2(drawingUVs.x, drawingUVs.y);
        UIBasicSprite.mTempUVs[1] = new Vector2(drawingUVs.x, drawingUVs.w);
        UIBasicSprite.mTempUVs[2] = new Vector2(drawingUVs.z, drawingUVs.w);
        UIBasicSprite.mTempUVs[3] = new Vector2(drawingUVs.z, drawingUVs.y);
        if (this.mFillAmount < 1f)
        {
            if (this.mFillDirection == UIBasicSprite.FillDirection.Radial90)
            {
                if (UIBasicSprite.RadialCut(UIBasicSprite.mTempPos, UIBasicSprite.mTempUVs, this.mFillAmount, this.mInvert, 0))
                {
                    for (int i = 0; i < 4; i++)
                    {
                        verts.Add(UIBasicSprite.mTempPos[i]);
                        uvs.Add(UIBasicSprite.mTempUVs[i]);
                        cols.Add(drawingColor);
                    }
                }
                return;
            }
            if (this.mFillDirection == UIBasicSprite.FillDirection.Radial180)
            {
                for (int j = 0; j < 2; j++)
                {
                    float t  = 0f;
                    float t2 = 1f;
                    float t3;
                    float t4;
                    if (j == 0)
                    {
                        t3 = 0f;
                        t4 = 0.5f;
                    }
                    else
                    {
                        t3 = 0.5f;
                        t4 = 1f;
                    }
                    UIBasicSprite.mTempPos[0].x = Mathf.Lerp(drawingDimensions.x, drawingDimensions.z, t3);
                    UIBasicSprite.mTempPos[1].x = UIBasicSprite.mTempPos[0].x;
                    UIBasicSprite.mTempPos[2].x = Mathf.Lerp(drawingDimensions.x, drawingDimensions.z, t4);
                    UIBasicSprite.mTempPos[3].x = UIBasicSprite.mTempPos[2].x;
                    UIBasicSprite.mTempPos[0].y = Mathf.Lerp(drawingDimensions.y, drawingDimensions.w, t);
                    UIBasicSprite.mTempPos[1].y = Mathf.Lerp(drawingDimensions.y, drawingDimensions.w, t2);
                    UIBasicSprite.mTempPos[2].y = UIBasicSprite.mTempPos[1].y;
                    UIBasicSprite.mTempPos[3].y = UIBasicSprite.mTempPos[0].y;
                    UIBasicSprite.mTempUVs[0].x = Mathf.Lerp(drawingUVs.x, drawingUVs.z, t3);
                    UIBasicSprite.mTempUVs[1].x = UIBasicSprite.mTempUVs[0].x;
                    UIBasicSprite.mTempUVs[2].x = Mathf.Lerp(drawingUVs.x, drawingUVs.z, t4);
                    UIBasicSprite.mTempUVs[3].x = UIBasicSprite.mTempUVs[2].x;
                    UIBasicSprite.mTempUVs[0].y = Mathf.Lerp(drawingUVs.y, drawingUVs.w, t);
                    UIBasicSprite.mTempUVs[1].y = Mathf.Lerp(drawingUVs.y, drawingUVs.w, t2);
                    UIBasicSprite.mTempUVs[2].y = UIBasicSprite.mTempUVs[1].y;
                    UIBasicSprite.mTempUVs[3].y = UIBasicSprite.mTempUVs[0].y;
                    float value = this.mInvert ? (this.mFillAmount * 2f - (float)(1 - j)) : (this.fillAmount * 2f - (float)j);
                    if (UIBasicSprite.RadialCut(UIBasicSprite.mTempPos, UIBasicSprite.mTempUVs, Mathf.Clamp01(value), !this.mInvert, NGUIMath.RepeatIndex(j + 3, 4)))
                    {
                        for (int k = 0; k < 4; k++)
                        {
                            verts.Add(UIBasicSprite.mTempPos[k]);
                            uvs.Add(UIBasicSprite.mTempUVs[k]);
                            cols.Add(drawingColor);
                        }
                    }
                }
                return;
            }
            if (this.mFillDirection == UIBasicSprite.FillDirection.Radial360)
            {
                for (int l = 0; l < 4; l++)
                {
                    float t5;
                    float t6;
                    if (l < 2)
                    {
                        t5 = 0f;
                        t6 = 0.5f;
                    }
                    else
                    {
                        t5 = 0.5f;
                        t6 = 1f;
                    }
                    float t7;
                    float t8;
                    if (l == 0 || l == 3)
                    {
                        t7 = 0f;
                        t8 = 0.5f;
                    }
                    else
                    {
                        t7 = 0.5f;
                        t8 = 1f;
                    }
                    UIBasicSprite.mTempPos[0].x = Mathf.Lerp(drawingDimensions.x, drawingDimensions.z, t5);
                    UIBasicSprite.mTempPos[1].x = UIBasicSprite.mTempPos[0].x;
                    UIBasicSprite.mTempPos[2].x = Mathf.Lerp(drawingDimensions.x, drawingDimensions.z, t6);
                    UIBasicSprite.mTempPos[3].x = UIBasicSprite.mTempPos[2].x;
                    UIBasicSprite.mTempPos[0].y = Mathf.Lerp(drawingDimensions.y, drawingDimensions.w, t7);
                    UIBasicSprite.mTempPos[1].y = Mathf.Lerp(drawingDimensions.y, drawingDimensions.w, t8);
                    UIBasicSprite.mTempPos[2].y = UIBasicSprite.mTempPos[1].y;
                    UIBasicSprite.mTempPos[3].y = UIBasicSprite.mTempPos[0].y;
                    UIBasicSprite.mTempUVs[0].x = Mathf.Lerp(drawingUVs.x, drawingUVs.z, t5);
                    UIBasicSprite.mTempUVs[1].x = UIBasicSprite.mTempUVs[0].x;
                    UIBasicSprite.mTempUVs[2].x = Mathf.Lerp(drawingUVs.x, drawingUVs.z, t6);
                    UIBasicSprite.mTempUVs[3].x = UIBasicSprite.mTempUVs[2].x;
                    UIBasicSprite.mTempUVs[0].y = Mathf.Lerp(drawingUVs.y, drawingUVs.w, t7);
                    UIBasicSprite.mTempUVs[1].y = Mathf.Lerp(drawingUVs.y, drawingUVs.w, t8);
                    UIBasicSprite.mTempUVs[2].y = UIBasicSprite.mTempUVs[1].y;
                    UIBasicSprite.mTempUVs[3].y = UIBasicSprite.mTempUVs[0].y;
                    float value2 = (!this.mInvert) ? (this.mFillAmount * 4f - (float)(3 - NGUIMath.RepeatIndex(l + 2, 4))) : (this.mFillAmount * 4f - (float)NGUIMath.RepeatIndex(l + 2, 4));
                    if (UIBasicSprite.RadialCut(UIBasicSprite.mTempPos, UIBasicSprite.mTempUVs, Mathf.Clamp01(value2), this.mInvert, NGUIMath.RepeatIndex(l + 2, 4)))
                    {
                        for (int m = 0; m < 4; m++)
                        {
                            verts.Add(UIBasicSprite.mTempPos[m]);
                            uvs.Add(UIBasicSprite.mTempUVs[m]);
                            cols.Add(drawingColor);
                        }
                    }
                }
                return;
            }
        }
        for (int n = 0; n < 4; n++)
        {
            verts.Add(UIBasicSprite.mTempPos[n]);
            uvs.Add(UIBasicSprite.mTempUVs[n]);
            cols.Add(drawingColor);
        }
    }
Exemple #4
0
 // Token: 0x060004D6 RID: 1238 RVA: 0x0002DFA4 File Offset: 0x0002C1A4
 protected void FilledFill(List <Vector3> verts, List <Vector2> uvs, List <Color> cols, ref Vector4 v, ref Vector4 u, ref Color c)
 {
     if (this.mFillAmount < 0.001f)
     {
         return;
     }
     if (this.mFillDirection == UIBasicSprite.FillDirection.Horizontal || this.mFillDirection == UIBasicSprite.FillDirection.Vertical)
     {
         if (this.mFillDirection == UIBasicSprite.FillDirection.Horizontal)
         {
             float num = (u.z - u.x) * this.mFillAmount;
             if (this.mInvert)
             {
                 v.x = v.z - (v.z - v.x) * this.mFillAmount;
                 u.x = u.z - num;
             }
             else
             {
                 v.z = v.x + (v.z - v.x) * this.mFillAmount;
                 u.z = u.x + num;
             }
         }
         else if (this.mFillDirection == UIBasicSprite.FillDirection.Vertical)
         {
             float num2 = (u.w - u.y) * this.mFillAmount;
             if (this.mInvert)
             {
                 v.y = v.w - (v.w - v.y) * this.mFillAmount;
                 u.y = u.w - num2;
             }
             else
             {
                 v.w = v.y + (v.w - v.y) * this.mFillAmount;
                 u.w = u.y + num2;
             }
         }
     }
     UIBasicSprite.mTempPos[0] = new Vector2(v.x, v.y);
     UIBasicSprite.mTempPos[1] = new Vector2(v.x, v.w);
     UIBasicSprite.mTempPos[2] = new Vector2(v.z, v.w);
     UIBasicSprite.mTempPos[3] = new Vector2(v.z, v.y);
     UIBasicSprite.mTempUVs[0] = new Vector2(u.x, u.y);
     UIBasicSprite.mTempUVs[1] = new Vector2(u.x, u.w);
     UIBasicSprite.mTempUVs[2] = new Vector2(u.z, u.w);
     UIBasicSprite.mTempUVs[3] = new Vector2(u.z, u.y);
     if (this.mFillAmount < 1f)
     {
         if (this.mFillDirection == UIBasicSprite.FillDirection.Radial90)
         {
             if (UIBasicSprite.RadialCut(UIBasicSprite.mTempPos, UIBasicSprite.mTempUVs, this.mFillAmount, this.mInvert, 0))
             {
                 for (int i = 0; i < 4; i++)
                 {
                     verts.Add(UIBasicSprite.mTempPos[i]);
                     uvs.Add(UIBasicSprite.mTempUVs[i]);
                     cols.Add(c);
                 }
             }
             return;
         }
         if (this.mFillDirection == UIBasicSprite.FillDirection.Radial180)
         {
             for (int j = 0; j < 2; j++)
             {
                 float t  = 0f;
                 float t2 = 1f;
                 float t3;
                 float t4;
                 if (j == 0)
                 {
                     t3 = 0f;
                     t4 = 0.5f;
                 }
                 else
                 {
                     t3 = 0.5f;
                     t4 = 1f;
                 }
                 UIBasicSprite.mTempPos[0].x = Mathf.Lerp(v.x, v.z, t3);
                 UIBasicSprite.mTempPos[1].x = UIBasicSprite.mTempPos[0].x;
                 UIBasicSprite.mTempPos[2].x = Mathf.Lerp(v.x, v.z, t4);
                 UIBasicSprite.mTempPos[3].x = UIBasicSprite.mTempPos[2].x;
                 UIBasicSprite.mTempPos[0].y = Mathf.Lerp(v.y, v.w, t);
                 UIBasicSprite.mTempPos[1].y = Mathf.Lerp(v.y, v.w, t2);
                 UIBasicSprite.mTempPos[2].y = UIBasicSprite.mTempPos[1].y;
                 UIBasicSprite.mTempPos[3].y = UIBasicSprite.mTempPos[0].y;
                 UIBasicSprite.mTempUVs[0].x = Mathf.Lerp(u.x, u.z, t3);
                 UIBasicSprite.mTempUVs[1].x = UIBasicSprite.mTempUVs[0].x;
                 UIBasicSprite.mTempUVs[2].x = Mathf.Lerp(u.x, u.z, t4);
                 UIBasicSprite.mTempUVs[3].x = UIBasicSprite.mTempUVs[2].x;
                 UIBasicSprite.mTempUVs[0].y = Mathf.Lerp(u.y, u.w, t);
                 UIBasicSprite.mTempUVs[1].y = Mathf.Lerp(u.y, u.w, t2);
                 UIBasicSprite.mTempUVs[2].y = UIBasicSprite.mTempUVs[1].y;
                 UIBasicSprite.mTempUVs[3].y = UIBasicSprite.mTempUVs[0].y;
                 float value = (!this.mInvert) ? (this.fillAmount * 2f - (float)j) : (this.mFillAmount * 2f - (float)(1 - j));
                 if (UIBasicSprite.RadialCut(UIBasicSprite.mTempPos, UIBasicSprite.mTempUVs, Mathf.Clamp01(value), !this.mInvert, NGUIMath.RepeatIndex(j + 3, 4)))
                 {
                     for (int k = 0; k < 4; k++)
                     {
                         verts.Add(UIBasicSprite.mTempPos[k]);
                         uvs.Add(UIBasicSprite.mTempUVs[k]);
                         cols.Add(c);
                     }
                 }
             }
             return;
         }
         if (this.mFillDirection == UIBasicSprite.FillDirection.Radial360)
         {
             for (int l = 0; l < 4; l++)
             {
                 float t5;
                 float t6;
                 if (l < 2)
                 {
                     t5 = 0f;
                     t6 = 0.5f;
                 }
                 else
                 {
                     t5 = 0.5f;
                     t6 = 1f;
                 }
                 float t7;
                 float t8;
                 if (l == 0 || l == 3)
                 {
                     t7 = 0f;
                     t8 = 0.5f;
                 }
                 else
                 {
                     t7 = 0.5f;
                     t8 = 1f;
                 }
                 UIBasicSprite.mTempPos[0].x = Mathf.Lerp(v.x, v.z, t5);
                 UIBasicSprite.mTempPos[1].x = UIBasicSprite.mTempPos[0].x;
                 UIBasicSprite.mTempPos[2].x = Mathf.Lerp(v.x, v.z, t6);
                 UIBasicSprite.mTempPos[3].x = UIBasicSprite.mTempPos[2].x;
                 UIBasicSprite.mTempPos[0].y = Mathf.Lerp(v.y, v.w, t7);
                 UIBasicSprite.mTempPos[1].y = Mathf.Lerp(v.y, v.w, t8);
                 UIBasicSprite.mTempPos[2].y = UIBasicSprite.mTempPos[1].y;
                 UIBasicSprite.mTempPos[3].y = UIBasicSprite.mTempPos[0].y;
                 UIBasicSprite.mTempUVs[0].x = Mathf.Lerp(u.x, u.z, t5);
                 UIBasicSprite.mTempUVs[1].x = UIBasicSprite.mTempUVs[0].x;
                 UIBasicSprite.mTempUVs[2].x = Mathf.Lerp(u.x, u.z, t6);
                 UIBasicSprite.mTempUVs[3].x = UIBasicSprite.mTempUVs[2].x;
                 UIBasicSprite.mTempUVs[0].y = Mathf.Lerp(u.y, u.w, t7);
                 UIBasicSprite.mTempUVs[1].y = Mathf.Lerp(u.y, u.w, t8);
                 UIBasicSprite.mTempUVs[2].y = UIBasicSprite.mTempUVs[1].y;
                 UIBasicSprite.mTempUVs[3].y = UIBasicSprite.mTempUVs[0].y;
                 float value2 = this.mInvert ? (this.mFillAmount * 4f - (float)NGUIMath.RepeatIndex(l + 2, 4)) : (this.mFillAmount * 4f - (float)(3 - NGUIMath.RepeatIndex(l + 2, 4)));
                 if (UIBasicSprite.RadialCut(UIBasicSprite.mTempPos, UIBasicSprite.mTempUVs, Mathf.Clamp01(value2), this.mInvert, NGUIMath.RepeatIndex(l + 2, 4)))
                 {
                     for (int m = 0; m < 4; m++)
                     {
                         verts.Add(UIBasicSprite.mTempPos[m]);
                         uvs.Add(UIBasicSprite.mTempUVs[m]);
                         cols.Add(c);
                     }
                 }
             }
             return;
         }
     }
     for (int n = 0; n < 4; n++)
     {
         verts.Add(UIBasicSprite.mTempPos[n]);
         uvs.Add(UIBasicSprite.mTempUVs[n]);
         cols.Add(c);
     }
 }