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Switch-Toolbox/File_Format_Library/FileFormats/Layout/BxlytToGL.cs

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C#
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Drawing;
using System.Threading.Tasks;
using OpenTK.Graphics.OpenGL;
using Toolbox.Library;
using Toolbox.Library.IO;
using OpenTK;
using LayoutBXLYT.Cafe;
namespace LayoutBXLYT
{
public class BxlytToGL
{
public static int ConvertTextureWrap(WrapMode wrapMode)
{
switch (wrapMode)
{
case WrapMode.Clamp: return (int)TextureWrapMode.ClampToEdge;
case WrapMode.Mirror: return (int)TextureWrapMode.MirroredRepeat;
case WrapMode.Repeat: return (int)TextureWrapMode.Repeat;
default: return (int)TextureWrapMode.Clamp;
}
}
public static int ConvertMagFilterMode(FilterMode filterMode)
{
switch (filterMode)
{
case FilterMode.Linear: return (int)TextureMagFilter.Linear;
case FilterMode.Near: return (int)TextureMagFilter.Nearest;
default: return (int)TextureMagFilter.Linear;
}
}
public static int ConvertMinFilterMode(FilterMode filterMode)
{
switch (filterMode)
{
case FilterMode.Linear: return (int)TextureMinFilter.Linear;
case FilterMode.Near: return (int)TextureMinFilter.Nearest;
default: return (int)TextureMinFilter.Linear;
}
}
public static void DrawPictureBox(BasePane pane, byte effectiveAlpha, Dictionary<string, STGenericTexture> Textures)
{
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if (!Runtime.LayoutEditor.DisplayPicturePane)
return;
Vector2[] TexCoords = new Vector2[] {
new Vector2(1,1),
new Vector2(0,1),
new Vector2(0,0),
new Vector2(1,0)
};
if (pane is Cafe.BFLYT.PIC1)
{
var pic1Pane = pane as Cafe.BFLYT.PIC1;
Color[] Colors = new Color[] {
pic1Pane.ColorBottomRight.Color,
pic1Pane.ColorBottomLeft.Color,
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pic1Pane.ColorTopLeft.Color,
pic1Pane.ColorTopRight.Color,
};
var mat = pic1Pane.Material;
if (mat.Shader == null)
{
mat.Shader = new BflytShader(mat);
mat.Shader.Compile();
}
mat.Shader.Enable();
((BflytShader)mat.Shader).SetMaterials(Textures);
if (pic1Pane.TexCoords.Length > 0)
{
TexCoords = new Vector2[] {
pic1Pane.TexCoords[0].BottomLeft.ToTKVector2(),
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pic1Pane.TexCoords[0].BottomRight.ToTKVector2(),
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pic1Pane.TexCoords[0].TopRight.ToTKVector2(),
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pic1Pane.TexCoords[0].TopLeft.ToTKVector2(),
};
}
DrawRectangle(pane, pane.Rectangle, TexCoords, Colors, false, effectiveAlpha);
mat.Shader.Disable();
GL.BindTexture(TextureTarget.Texture2D, 0);
GL.PopAttrib();
}
else if (pane is BCLYT.PIC1)
{
var pic1Pane = pane as BCLYT.PIC1;
Color[] Colors = new Color[] {
pic1Pane.ColorBottomLeft.Color,
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pic1Pane.ColorBottomRight.Color,
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pic1Pane.ColorTopRight.Color,
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pic1Pane.ColorTopLeft.Color,
};
var mat = pic1Pane.Material;
if (mat.Shader == null)
{
mat.Shader = new BclytShader(mat);
mat.Shader.Compile();
}
mat.Shader.Enable();
((BclytShader)mat.Shader).SetMaterials(Textures);
if (pic1Pane.TexCoords.Length > 0)
{
TexCoords = new Vector2[] {
pic1Pane.TexCoords[0].BottomLeft.ToTKVector2(),
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pic1Pane.TexCoords[0].BottomRight.ToTKVector2(),
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pic1Pane.TexCoords[0].TopRight.ToTKVector2(),
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pic1Pane.TexCoords[0].TopLeft.ToTKVector2(),
};
}
DrawRectangle(pane, pane.Rectangle, TexCoords, Colors, false, effectiveAlpha);
mat.Shader.Disable();
GL.BindTexture(TextureTarget.Texture2D, 0);
GL.PopAttrib();
}
else if (pane is BRLYT.PIC1)
{
var pic1Pane = pane as BRLYT.PIC1;
Color[] Colors = new Color[] {
pic1Pane.ColorBottomLeft.Color,
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pic1Pane.ColorBottomRight.Color,
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pic1Pane.ColorTopRight.Color,
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pic1Pane.ColorTopLeft.Color,
};
var mat = pic1Pane.Material;
if (mat.Shader == null)
{
mat.Shader = new BrlytShader(mat);
mat.Shader.Compile();
}
mat.Shader.Enable();
((BrlytShader)mat.Shader).SetMaterials(Textures);
if (pic1Pane.TexCoords.Length > 0)
{
TexCoords = new Vector2[] {
pic1Pane.TexCoords[0].BottomLeft.ToTKVector2(),
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pic1Pane.TexCoords[0].BottomRight.ToTKVector2(),
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pic1Pane.TexCoords[0].TopRight.ToTKVector2(),
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pic1Pane.TexCoords[0].TopLeft.ToTKVector2(),
};
}
DrawRectangle(pane, pane.Rectangle, TexCoords, Colors, false, effectiveAlpha);
mat.Shader.Disable();
GL.BindTexture(TextureTarget.Texture2D, 0);
GL.PopAttrib();
}
}
public static void DrawBoundryPane(BasePane pane, byte effectiveAlpha, List<BasePane> SelectedPanes)
{
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if (!Runtime.LayoutEditor.DisplayBoundryPane || Runtime.LayoutEditor.IsGamePreview)
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return;
Vector2[] TexCoords = new Vector2[] {
new Vector2(1,1),
new Vector2(0,1),
new Vector2(0,0),
new Vector2(1,0)
};
Color color = Color.DarkGreen;
if (SelectedPanes.Contains(pane))
color = Color.Red;
color = Color.FromArgb(70, color);
Color[] Colors = new Color[] {
color,
color,
color,
color,
};
BxlytToGL.DrawRectangle(pane, pane.Rectangle, TexCoords, Colors, false, effectiveAlpha);
}
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public static void DrawAlignmentPane(BasePane pane, byte effectiveAlpha, List<BasePane> SelectedPanes)
{
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if (!Runtime.LayoutEditor.DisplayAlignmentPane || Runtime.LayoutEditor.IsGamePreview)
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return;
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Vector2[] TexCoords = new Vector2[] {
new Vector2(1,1),
new Vector2(0,1),
new Vector2(0,0),
new Vector2(1,0)
};
Color color = Color.Orange;
if (SelectedPanes.Contains(pane))
color = Color.Red;
color = Color.FromArgb(70, color);
Color[] Colors = new Color[] {
color,
color,
color,
color,
};
BxlytToGL.DrawRectangle(pane, pane.Rectangle, TexCoords, Colors, false, effectiveAlpha);
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}
public static void DrawScissorPane(BasePane pane, byte effectiveAlpha, List<BasePane> SelectedPanes)
{
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if (!Runtime.LayoutEditor.DisplayScissorPane || Runtime.LayoutEditor.IsGamePreview)
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return;
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Vector2[] TexCoords = new Vector2[] {
new Vector2(1,1),
new Vector2(0,1),
new Vector2(0,0),
new Vector2(1,0)
};
Color color = Color.Yellow;
if (SelectedPanes.Contains(pane))
color = Color.Red;
color = Color.FromArgb(70, color);
Color[] Colors = new Color[] {
color,
color,
color,
color,
};
BxlytToGL.DrawRectangle(pane, pane.Rectangle, TexCoords, Colors, false, effectiveAlpha);
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}
//Huge thanks to layout studio for the window pane rendering code
//https://github.com/Treeki/LayoutStudio/blob/master/layoutgl/widget.cpp
//Note i still need to fix UV coordinates being flips and transformed!
public static void DrawWindowPane(BasePane pane, byte effectiveAlpha, Dictionary<string, STGenericTexture> Textures)
{
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if (!Runtime.LayoutEditor.DisplayWindowPane)
return;
var window = (IWindowPane)pane;
float dX = DrawnVertexX(pane.Width, pane.originX);
float dY = DrawnVertexY(pane.Height, pane.originY);
float frameLeft = 0;
float frameRight = 0;
float frameTop = 0;
float frameBottom = 0;
switch (window.FrameCount)
{
case 1:
float oneW, oneH;
GetTextureSize(window.WindowFrames[0].Material, Textures, out oneW, out oneH);
frameLeft = frameRight = oneW;
frameTop = frameBottom = oneH;
break;
case 4:
case 8:
GetTextureSize(window.WindowFrames[0].Material, Textures, out frameLeft, out frameTop);
GetTextureSize(window.WindowFrames[3].Material, Textures, out frameRight, out frameBottom);
break;
}
if (frameLeft == 0) frameLeft = window.FrameElementLeft;
if (frameRight == 0) frameRight = window.FrameElementRight;
if (frameTop == 0) frameTop = window.FrameElementTop;
if (frameBottom == 0) frameBottom = window.FrameElementBottm;
Vector2[] texCoords = new Vector2[] {
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(0, 1),
};
if (window.Content.TexCoords.Count > 0)
{
texCoords = new Vector2[] {
window.Content.TexCoords[0].BottomLeft.ToTKVector2(),
window.Content.TexCoords[0].BottomRight.ToTKVector2(),
window.Content.TexCoords[0].TopRight.ToTKVector2(),
window.Content.TexCoords[0].TopLeft.ToTKVector2(),
};
}
//Setup vertex colors
Color[] colors = new Color[] {
window.Content.ColorBottomLeft.Color,
window.Content.ColorBottomRight.Color,
window.Content.ColorTopRight.Color,
window.Content.ColorTopLeft.Color,
};
float contentWidth = ((window.StretchLeft + (pane.Width - frameLeft)) - frameRight) + window.StretchRight;
float contentHeight = ((window.StretchTop + (pane.Height - frameTop)) - frameBottom) + window.StretchBottm;
//Apply pane alpha
for (int i = 0; i < colors.Length; i++)
{
uint setalpha = (uint)((colors[i].A * effectiveAlpha) / 255);
colors[i] = Color.FromArgb((int)setalpha, colors[i]);
}
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if (!window.NotDrawnContent && window.WindowKind != WindowKind.HorizontalNoContent)
{
SetupShaders(window.Content.Material, Textures);
DrawQuad(dX + frameLeft - window.StretchLeft,
dY - frameTop + window.StretchTop,
contentWidth,
contentHeight,
texCoords, colors);
}
//After the content is draw, check this
//If it's disabled, frames do not use vertex color
if (!window.UseVertexColorForAll)
{
colors = new Color[] {
Color.White, Color.White,
Color.White, Color.White,
};
}
//Apply pane alpha
for (int i = 0; i < colors.Length; i++)
{
uint setalpha = (uint)((colors[i].A * effectiveAlpha) / 255);
colors[i] = Color.FromArgb((int)setalpha, colors[i]);
}
switch (window.FrameCount)
{
case 1: //1 frame. 1 texture for corners (around) or sides (horizontal)
{
var windowFrame = window.WindowFrames[0];
SetupShaders(windowFrame.Material, Textures);
//2 sides, no corners
if (window.WindowKind == WindowKind.Horizontal)
{
texCoords = new Vector2[]
{
new Vector2(1, 0),
new Vector2(0, 0),
new Vector2(0, 1),
new Vector2(1, 1),
};
DrawQuad(dX + frameRight + contentWidth, dY, frameRight, pane.Height, texCoords, colors);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY, frameLeft, pane.Height, texCoords, colors);
}
else if (window.WindowKind == WindowKind.HorizontalNoContent)
{
texCoords = new Vector2[]
{
new Vector2((pane.Width - frameRight) / frameRight, 0),
new Vector2(0, 0),
new Vector2(0, 1),
new Vector2((pane.Width - frameRight) / frameRight, 1),
};
DrawQuad(dX + frameLeft, dY, pane.Width - frameLeft, pane.Height, texCoords, colors);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY, pane.Width - frameLeft, pane.Height, texCoords, colors);
}
else if (window.WindowKind == WindowKind.Around)
{
// top left
float pieceWidth = pane.Width - frameRight;
float pieceHeight = frameTop;
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY, pieceWidth, pieceHeight, texCoords, colors);
// top right
pieceWidth = frameRight;
pieceHeight = pane.Height - frameBottom;
texCoords = new Vector2[]
{
new Vector2(1, 0),
new Vector2(0, 0),
new Vector2(0,(pane.Height - frameTop) / frameTop),
new Vector2(1,(pane.Height - frameTop) / frameTop),
};
DrawQuad(dX + pane.Width - frameRight, dY, pieceWidth, pieceHeight, texCoords, colors);
// bottom left
pieceWidth = frameLeft;
pieceHeight = pane.Height - frameTop;
texCoords = new Vector2[]
{
new Vector2(0,(pane.Height - frameBottom) / frameBottom),
new Vector2(1,(pane.Height - frameBottom) / frameBottom),
new Vector2(1, 0),
new Vector2(0, 0),
};
DrawQuad(dX, dY - frameTop, pieceWidth, pieceHeight, texCoords, colors);
// bottom right
pieceWidth = pane.Width - frameLeft;
pieceHeight = frameBottom;
texCoords = new Vector2[]
{
new Vector2((pane.Width - frameLeft) / frameLeft, 1),
new Vector2(0, 1),
new Vector2(0, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 0),
};
DrawQuad(dX + frameLeft, dY - pane.Height + frameBottom, pieceWidth, pieceHeight, texCoords, colors);
}
}
break;
//4 or more will always be around types
case 4: //4 each corner
{
var matTL = window.WindowFrames[0].Material;
var matTR = window.WindowFrames[1].Material;
var matBL = window.WindowFrames[2].Material;
var matBR = window.WindowFrames[3].Material;
if (matTL.TextureMaps.Length > 0)
{
SetupShaders(matTL, Textures);
matTL.Shader.SetInt("flipTexture", (int)window.WindowFrames[0].TextureFlip);
float pieceWidth = pane.Width - frameRight;
float pieceHeight = frameTop;
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY, pieceWidth, pieceHeight, texCoords, colors);
}
if (matTR.TextureMaps.Length > 0)
{
SetupShaders(matTR, Textures);
matTR.Shader.SetInt("flipTexture", (int)window.WindowFrames[1].TextureFlip);
float pieceWidth = frameRight;
float pieceHeight = pane.Height - frameBottom;
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1,(pane.Height - frameTop) / frameTop),
new Vector2(0,(pane.Height - frameTop) / frameTop),
};
DrawQuad(dX + pane.Width - frameRight, dY, pieceWidth, pieceHeight, texCoords, colors);
}
if (matBL.TextureMaps.Length > 0)
{
SetupShaders(matBL, Textures);
matBL.Shader.SetInt("flipTexture", (int)window.WindowFrames[2].TextureFlip);
float pieceWidth = frameLeft;
float pieceHeight = pane.Height - frameTop;
texCoords = new Vector2[]
{
new Vector2(0,1 - ((pane.Height - frameTop) / frameTop)),
new Vector2(1,1 - ((pane.Height - frameTop) / frameTop)),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY - frameTop, pieceWidth, pieceHeight, texCoords, colors);
}
if (matBR.TextureMaps.Length > 0)
{
SetupShaders(matBR, Textures);
matBR.Shader.SetInt("flipTexture", (int)window.WindowFrames[3].TextureFlip);
float pieceWidth = pane.Width - frameLeft;
float pieceHeight = frameBottom;
texCoords = new Vector2[]
{
new Vector2(1 - ((pane.Width - frameLeft) / frameLeft), 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(1 - ((pane.Width - frameLeft) / frameLeft), 1),
};
DrawQuad(dX + frameLeft, dY - pane.Height + frameBottom, pieceWidth, pieceHeight, texCoords, colors);
}
}
break;
case 8: //4 per corner, 4 per side
{
var matTL = window.WindowFrames[0].Material;
var matTR = window.WindowFrames[1].Material;
var matBL = window.WindowFrames[2].Material;
var matBR = window.WindowFrames[3].Material;
var matT = window.WindowFrames[4].Material;
var matB = window.WindowFrames[5].Material;
var matL = window.WindowFrames[6].Material;
var matR = window.WindowFrames[7].Material;
if (matTL.TextureMaps.Length > 0)
{
SetupShaders(matTL, Textures);
matTL.Shader.SetInt("flipTexture", (int)window.WindowFrames[0].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY, frameLeft, frameTop, texCoords, colors);
}
if (matTR.TextureMaps.Length > 0)
{
SetupShaders(matTR, Textures);
matTR.Shader.SetInt("flipTexture", (int)window.WindowFrames[1].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX + pane.Width - frameRight, dY, frameRight, frameTop, texCoords, colors);
}
if (matBL.TextureMaps.Length > 0)
{
SetupShaders(matBL, Textures);
matBL.Shader.SetInt("flipTexture", (int)window.WindowFrames[2].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY - pane.Height + frameTop, frameLeft, frameBottom, texCoords, colors);
}
if (matBR.TextureMaps.Length > 0)
{
SetupShaders(matBR, Textures);
matBR.Shader.SetInt("flipTexture", (int)window.WindowFrames[3].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX + pane.Width - frameLeft, dY - pane.Height + frameBottom, frameRight, frameBottom, texCoords, colors);
}
if (matT.TextureMaps.Length > 0)
{
SetupShaders(matT, Textures);
matT.Shader.SetInt("flipTexture", (int)window.WindowFrames[4].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 0),
new Vector2((pane.Width - frameLeft) / frameLeft, 1),
new Vector2(0, 1),
};
DrawQuad(dX + frameLeft, dY, contentWidth, frameTop, texCoords, colors);
}
if (matB.TextureMaps.Length > 0)
{
SetupShaders(matB, Textures);
matB.Shader.SetInt("flipTexture", (int)window.WindowFrames[5].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(1-((pane.Width - frameLeft) / frameLeft), 0),
new Vector2(1, 0),
new Vector2(1, 1),
new Vector2(1-((pane.Width - frameLeft) / frameLeft), 1),
};
DrawQuad(dX + frameRight, dY - (pane.Height - frameBottom), contentWidth, frameTop, texCoords, colors);
}
if (matL.TextureMaps.Length > 0)
{
SetupShaders(matL, Textures);
matL.Shader.SetInt("flipTexture", (int)window.WindowFrames[6].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0,1-((pane.Height - frameTop) / frameTop)),
new Vector2(1,1-((pane.Height - frameTop) / frameTop)),
new Vector2(1, 1),
new Vector2(0, 1),
};
DrawQuad(dX, dY - frameTop, frameLeft, contentHeight, texCoords, colors);
}
if (matR.TextureMaps.Length > 0)
{
SetupShaders(matR, Textures);
matR.Shader.SetInt("flipTexture", (int)window.WindowFrames[7].TextureFlip);
texCoords = new Vector2[]
{
new Vector2(0, 0),
new Vector2(1, 0),
new Vector2(1,(pane.Height - frameBottom) / frameBottom),
new Vector2(0,(pane.Height - frameBottom) / frameBottom),
};
DrawQuad(dX + (pane.Width - frameRight), dY - frameTop, frameRight, contentHeight, texCoords, colors);
}
}
break;
}
}
private static void GetTextureSize(BxlytMaterial pane, Dictionary<string, STGenericTexture> Textures, out float width, out float height)
{
width = 0;
height = 0;
if (pane.TextureMaps.Length > 0)
{
if (Textures.ContainsKey(pane.TextureMaps[0].Name))
{
var tex = Textures[pane.TextureMaps[0].Name];
width = tex.Width;
height = tex.Height;
}
}
}
private static float DrawnVertexX(float width, OriginX originX)
{
switch (originX)
{
case OriginX.Center: return -width / 2.0f;
case OriginX.Right: return -width;
default: return 0.0f;
}
}
private static float DrawnVertexY(float height, OriginY originX)
{
switch (originX)
{
case OriginY.Center: return height / 2.0f;
case OriginY.Bottom: return height;
default: return 0.0f;
}
}
private static void DrawQuad(float x, float y, float w, float h, Vector2[] texCoords, Color[] colors)
{
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if (!Runtime.LayoutEditor.IsGamePreview)
{
GL.Disable(EnableCap.AlphaTest);
GL.Disable(EnableCap.Blend);
GL.LineWidth(0.5f);
GL.Begin(PrimitiveType.LineLoop);
GL.Color4(Color.Green);
GL.Vertex2(x, y);
GL.Vertex2(x + w, y);
GL.Vertex2(x + w, y - h);
GL.Vertex2(x, y - h);
GL.End();
GL.LineWidth(1f);
GL.Enable(EnableCap.AlphaTest);
GL.Enable(EnableCap.Blend);
}
GL.Begin(PrimitiveType.Quads);
GL.Color4(colors[0]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[0].X, texCoords[0].Y);
GL.Vertex2(x, y);
GL.Color4(colors[1]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[1].X, texCoords[1].Y);
GL.Vertex2(x + w, y);
GL.Color4(colors[2]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[2].X, texCoords[2].Y);
GL.Vertex2(x + w, y - h);
GL.Color4(colors[3]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[3].X, texCoords[3].Y);
GL.Vertex2(x, y - h);
GL.End();
}
enum FrameType
{
LeftTop,
Left,
LeftBottom,
Top,
Bottom,
RightTop,
Right,
RightBottom,
}
private static Vector2 GetFramePosition(uint paneWidth, uint paneHeight, IWindowPane window, FrameType type)
{
Vector2 pos = new Vector2();
switch (type)
{
case FrameType.LeftTop:
break;
}
return pos;
}
private static void SetupShaders(BxlytMaterial mat, Dictionary<string, STGenericTexture> textures)
{
if (mat.Shader == null)
{
if (mat is Cafe.BFLYT.Material)
{
mat.Shader = new BflytShader((Cafe.BFLYT.Material)mat);
mat.Shader.Compile();
}
}
mat.Shader.Enable();
if (mat is Cafe.BFLYT.Material)
((BflytShader)mat.Shader).SetMaterials(textures);
}
private static void RenderWindowContent(BasePane pane, uint sizeX, uint sizeY, BxlytWindowContent content,
byte effectiveAlpha, Dictionary<string, STGenericTexture> Textures)
{
var mat = content.Material;
var rect = pane.CreateRectangle(sizeX, sizeY);
SetupShaders(mat, Textures);
Vector2[] texCoords = new Vector2[] {
new Vector2(1,1),
new Vector2(0,1),
new Vector2(0,0),
new Vector2(1,0)
};
Color[] colors = new Color[] {
content.ColorBottomLeft.Color,
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content.ColorBottomRight.Color,
content.ColorTopRight.Color,
content.ColorTopLeft.Color,
};
if (content.TexCoords.Count > 0)
{
texCoords = new Vector2[] {
content.TexCoords[0].BottomLeft.ToTKVector2(),
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content.TexCoords[0].BottomRight.ToTKVector2(),
content.TexCoords[0].TopRight.ToTKVector2(),
content.TexCoords[0].TopLeft.ToTKVector2(),
};
}
GL.Begin(PrimitiveType.Quads);
GL.Color4(colors[0]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[0].X, texCoords[0].Y);
GL.Vertex2(rect.LeftPoint, rect.BottomPoint);
GL.Color4(colors[1]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[1].X, texCoords[1].Y);
GL.Vertex2(rect.RightPoint, rect.BottomPoint);
GL.Color4(colors[2]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[2].X, texCoords[2].Y);
GL.Vertex2(rect.RightPoint, rect.TopPoint);
GL.Color4(colors[3]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[3].X, texCoords[3].Y);
GL.Vertex2(rect.LeftPoint, rect.TopPoint);
GL.End();
}
public static bool BindGLTexture(BxlytTextureRef tex, STGenericTexture texture)
{
if (texture.RenderableTex == null || !texture.RenderableTex.GLInitialized)
texture.LoadOpenGLTexture();
//If the texture is still not initialized then return
if (!texture.RenderableTex.GLInitialized)
return false;
GL.BindTexture(TextureTarget.Texture2D, texture.RenderableTex.TexID);
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureSwizzleR, ConvertChannel(texture.RedChannel));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureSwizzleG, ConvertChannel(texture.GreenChannel));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureSwizzleB, ConvertChannel(texture.BlueChannel));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureSwizzleA, ConvertChannel(texture.AlphaChannel));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapS, ConvertTextureWrap(tex.WrapModeU));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureWrapT, ConvertTextureWrap(tex.WrapModeV));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureMagFilter, ConvertMagFilterMode(tex.MaxFilterMode));
GL.TexParameter(TextureTarget.Texture2D, TextureParameterName.TextureMinFilter, ConvertMinFilterMode(tex.MinFilterMode));
return true;
}
private static int ConvertChannel(STChannelType type)
{
switch (type)
{
case STChannelType.Red: return (int)TextureSwizzle.Red;
case STChannelType.Green: return (int)TextureSwizzle.Green;
case STChannelType.Blue: return (int)TextureSwizzle.Blue;
case STChannelType.Alpha: return (int)TextureSwizzle.Alpha;
case STChannelType.Zero: return (int)TextureSwizzle.Zero;
case STChannelType.One: return (int)TextureSwizzle.One;
default: return 0;
}
}
private static BlendingFactor ConvertBlendFactor(BlendMode.GX2BlendFactor blendFactor)
{
switch (blendFactor)
{
case BlendMode.GX2BlendFactor.DestAlpha: return BlendingFactor.DstAlpha;
case BlendMode.GX2BlendFactor.DestColor: return BlendingFactor.DstColor;
case BlendMode.GX2BlendFactor.DestInvAlpha: return BlendingFactor.OneMinusDstAlpha;
case BlendMode.GX2BlendFactor.DestInvColor: return BlendingFactor.OneMinusDstColor;
case BlendMode.GX2BlendFactor.Factor0: return BlendingFactor.Zero;
case BlendMode.GX2BlendFactor.Factor1: return BlendingFactor.One;
case BlendMode.GX2BlendFactor.SourceAlpha: return BlendingFactor.SrcAlpha;
case BlendMode.GX2BlendFactor.SourceColor: return BlendingFactor.SrcColor;
case BlendMode.GX2BlendFactor.SourceInvAlpha: return BlendingFactor.OneMinusSrcAlpha;
case BlendMode.GX2BlendFactor.SourceInvColor: return BlendingFactor.OneMinusSrcColor;
default: return BlendingFactor.Zero;
}
}
private static LogicOp ConvertLogicOperation(BlendMode.GX2LogicOp blendOp)
{
switch (blendOp)
{
case BlendMode.GX2LogicOp.And: return LogicOp.And;
case BlendMode.GX2LogicOp.Clear: return LogicOp.Clear;
case BlendMode.GX2LogicOp.Copy: return LogicOp.Copy;
case BlendMode.GX2LogicOp.Equiv: return LogicOp.Equiv;
case BlendMode.GX2LogicOp.Inv: return LogicOp.Invert;
case BlendMode.GX2LogicOp.Nand: return LogicOp.Nand;
case BlendMode.GX2LogicOp.NoOp: return LogicOp.Noop;
case BlendMode.GX2LogicOp.Nor: return LogicOp.Nor;
case BlendMode.GX2LogicOp.Or: return LogicOp.Or;
case BlendMode.GX2LogicOp.RevAnd: return LogicOp.AndReverse;
case BlendMode.GX2LogicOp.RevOr: return LogicOp.OrReverse;
case BlendMode.GX2LogicOp.Set: return LogicOp.Set;
case BlendMode.GX2LogicOp.Xor: return LogicOp.Xor;
case BlendMode.GX2LogicOp.Disable:
GL.Disable(EnableCap.ColorLogicOp);
return LogicOp.Noop;
default: return LogicOp.Noop;
}
}
private static BlendEquationMode ConvertBlendOperation(BlendMode.GX2BlendOp blendOp)
{
switch (blendOp)
{
case BlendMode.GX2BlendOp.Add: return BlendEquationMode.FuncAdd;
case BlendMode.GX2BlendOp.ReverseSubtract: return BlendEquationMode.FuncReverseSubtract;
case BlendMode.GX2BlendOp.SelectMax: return BlendEquationMode.Max;
case BlendMode.GX2BlendOp.SelectMin: return BlendEquationMode.Min;
case BlendMode.GX2BlendOp.Subtract: return BlendEquationMode.FuncSubtract;
case BlendMode.GX2BlendOp.Disable:
GL.Disable(EnableCap.Blend);
return BlendEquationMode.FuncAdd;
default: return BlendEquationMode.FuncAdd;
}
}
enum TextureSwizzle
{
Zero = All.Zero,
One = All.One,
Red = All.Red,
Green = All.Green,
Blue = All.Blue,
Alpha = All.Alpha,
}
public static void DrawRectangle(BasePane pane, CustomRectangle rect, Vector2[] texCoords,
Color[] colors, bool useLines = true, byte alpha = 255)
{
for (int i = 0; i < colors.Length; i++)
{
uint setalpha = (uint)((colors[i].A * alpha) / 255);
colors[i] = Color.FromArgb((int)setalpha, colors[i]);
}
if (LayoutEditor.UseLegacyGL)
{
if (useLines)
{
GL.Begin(PrimitiveType.LineLoop);
GL.Color4(colors[0]);
GL.Vertex2(rect.LeftPoint, rect.BottomPoint);
GL.Vertex2(rect.RightPoint, rect.BottomPoint);
GL.Vertex2(rect.RightPoint, rect.TopPoint);
GL.Vertex2(rect.LeftPoint, rect.TopPoint);
GL.End();
}
else
{
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if (!Runtime.LayoutEditor.IsGamePreview)
{
GL.Disable(EnableCap.Blend);
GL.Disable(EnableCap.AlphaTest);
GL.PolygonMode(MaterialFace.Front, PolygonMode.Line);
GL.Enable(EnableCap.LineSmooth);
GL.LineWidth(1f);
GL.PolygonOffset(1f, 1f);
GL.Begin(PrimitiveType.Quads);
GL.Color4(Color.Green);
GL.Vertex2(rect.LeftPoint, rect.BottomPoint);
GL.Vertex2(rect.RightPoint, rect.BottomPoint);
GL.Vertex2(rect.RightPoint, rect.TopPoint);
GL.Vertex2(rect.LeftPoint, rect.TopPoint);
GL.End();
GL.PolygonMode(MaterialFace.FrontAndBack, PolygonMode.Fill);
GL.PolygonOffset(0f, 0f);
GL.Enable(EnableCap.Blend);
GL.Enable(EnableCap.AlphaTest);
}
GL.Begin(PrimitiveType.Quads);
GL.Color4(colors[0]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[0].X, texCoords[0].Y);
GL.Vertex2(rect.LeftPoint, rect.BottomPoint);
GL.Color4(colors[1]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[1].X, texCoords[1].Y);
GL.Vertex2(rect.RightPoint, rect.BottomPoint);
GL.Color4(colors[2]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[2].X, texCoords[2].Y);
GL.Vertex2(rect.RightPoint, rect.TopPoint);
GL.Color4(colors[3]);
GL.MultiTexCoord2(TextureUnit.Texture0, texCoords[3].X, texCoords[3].Y);
GL.Vertex2(rect.LeftPoint, rect.TopPoint);
GL.End();
}
}
else
{
if (pane.renderablePane == null)
pane.renderablePane = new RenderablePane();
Vector3[] vertices = new Vector3[4];
vertices[0] = new Vector3(rect.LeftPoint, rect.BottomPoint, 0);
vertices[1] = new Vector3(rect.RightPoint, rect.BottomPoint, 0);
vertices[2] = new Vector3(rect.RightPoint, rect.TopPoint, 0);
vertices[3] = new Vector3(rect.LeftPoint, rect.TopPoint, 0);
Vector4[] vertexColors = new Vector4[4];
pane.renderablePane.Render(vertices, vertexColors, texCoords);
}
}
}
}