public static void onActivateBasicLM()
{
Torque3D.PostEffect HDRPostFx = Sim.FindObjectByName <Torque3D.PostEffect>("HDRPostFx");
// If HDR is enabled... enable the special format token.
if (!Globals.GetString("platform").Equals("macos") && HDRPostFx.isEnabled())
{
Core.RenderManager.AL_FormatToken.enable();
}
// Create render pass for projected shadow.
BL_ProjectedShadowRPM = new RenderPassManager("BL_ProjectedShadowRPM");
BL_ProjectedShadowRPM.registerObject();
// Create the mesh bin and add it to the manager.
RenderMeshMgr meshBin = new RenderMeshMgr();
meshBin.registerObject();
BL_ProjectedShadowRPM.addManager(meshBin);
SimGroup RootGroup = Sim.FindObjectByName <SimGroup>("RootGroup");
// Add both to the root group so that it doesn't
// end up in the MissionCleanup instant group.
RootGroup.add(BL_ProjectedShadowRPM);
RootGroup.add(meshBin);
}
public static void Init()
{
// This post effect is used to copy data from the non-MSAA back-buffer to the
// device back buffer (which could be MSAA). It must be declared here so that
// it is initialized when 'AL_FormatToken' is initialzed.
GFXStateBlockData AL_FormatTokenState = new GFXStateBlockData("AL_FormatTokenState",
PostEffect.PFX_DefaultStateBlock)
{
SamplersDefined = true,
SamplerStates = { [0] = GfxData.CommonMaterialData.SamplerClampPoint }
};
AL_FormatTokenState.registerSingleton();
AL_FormatCopy = new Torque3D.PostEffect("AL_FormatCopy")
{
// This PostEffect is used by 'AL_FormatToken' directly. It is never added to
// the PostEffectManager. Do not call enable() on it.
IsEnabled = false,
AllowReflectPass = true,
Shader = "PFX_PassthruShader",
StateBlock = AL_FormatTokenState,
Texture = { [0] = "$inTex" },
Target = "$backbuffer"
};
AL_FormatCopy.registerObject();
}
public static void Init()
{
ShaderData ShadowFilterShaderV = new ShaderData("BL_ShadowFilterShaderV")
{
DXVertexShaderFile = "data/shaders/common/lighting/basic/shadowFilterV.hlsl",
DXPixelShaderFile = "data/shaders/common/lighting/basic/shadowFilterP.hlsl",
OGLVertexShaderFile = "data/shaders/common/lighting/basic/gl/shadowFilterV.glsl",
OGLPixelShaderFile = "data/shaders/common/lighting/basic/gl/shadowFilterP.glsl",
SamplerNames = { [0] = "$diffuseMap" },
Defines = "BLUR_DIR=float2(1.0,0.0)",
PixVersion = 2.0f
};
ShadowFilterShaderV.registerSingleton();
new ShaderData("BL_ShadowFilterShaderH", ShadowFilterShaderV)
{
Defines = "BLUR_DIR=float2(0.0,1.0)"
}.registerSingleton();
GFXStateBlockData BL_ShadowFilterSB = new GFXStateBlockData("BL_ShadowFilterSB", Core.PostEffect.PFX_DefaultStateBlock)
{
ColorWriteDefined = true,
ColorWriteRed = false,
ColorWriteGreen = false,
ColorWriteBlue = false,
BlendDefined = true,
BlendEnable = true
};
BL_ShadowFilterSB.registerSingleton();
// NOTE: This is ONLY used in Basic Lighting, and
// only directly by the ProjectedShadow. It is not
// meant to be manually enabled like other PostEffects.
Torque3D.PostEffect BL_ShadowFilterPostFx = new Torque3D.PostEffect("BL_ShadowFilterPostFx")
{
// Blur vertically
Shader = "BL_ShadowFilterShaderV",
StateBlock = PostEffect.PFX_DefaultStateBlock,
TargetClear = PFXTargetClear.PFXTargetClear_OnDraw,
TargetClearColor = new ColorF(0.0f, 0.0f, 0.0f, 0.0f),
Texture = { [0] = "$inTex" },
Target = "$outTex"
};
Torque3D.PostEffect blurEffect = new Torque3D.PostEffect
{
Shader = "BL_ShadowFilterShaderH",
StateBlock = PostEffect.PFX_DefaultStateBlock,
Texture = { [0] = "$inTex" },
Target = "$outTex"
};
blurEffect.registerObject();
BL_ShadowFilterPostFx.add(blurEffect);
BL_ShadowFilterPostFx.registerObject();
}
public static void Init()
{
new ShaderData("ClearGBufferShader")
{
DXVertexShaderFile = "data/shaders/common/postFx/postFxV.hlsl",
DXPixelShaderFile = "data/shaders/common/lighting/advanced/deferredClearGBufferP.hlsl",
OGLVertexShaderFile = "data/shaders/common/postFx/gl/postFxV.glsl",
OGLPixelShaderFile = "data/shaders/common/lighting/advanced/gl/deferredClearGBufferP.glsl",
PixVersion = 2.0f
}.registerSingleton();
new ShaderData("DeferredColorShader")
{
DXVertexShaderFile = "data/shaders/common/postFx/postFxV.hlsl",
DXPixelShaderFile = "data/shaders/common/lighting/advanced/deferredColorShaderP.hlsl",
OGLVertexShaderFile = "data/shaders/common/postFx/gl/postFxV.glsl",
OGLPixelShaderFile = "data/shaders/common/lighting/advanced/gl/deferredColorShaderP.glsl",
PixVersion = 2.0f
}.registerSingleton();
// Primary Deferred Shader
GFXStateBlockData AL_DeferredShadingState = new GFXStateBlockData("AL_DeferredShadingState", "PFX_DefaultStateBlock")
{
CullMode = GFXCullMode.GFXCullNone,
BlendDefined = true,
BlendEnable = true,
BlendSrc = GFXBlend.GFXBlendSrcAlpha,
BlendDest = GFXBlend.GFXBlendInvSrcAlpha,
SamplersDefined = true,
SamplerStates =
{
[0] = CommonMaterialData.SamplerWrapLinear,
[1] = CommonMaterialData.SamplerWrapLinear,
[2] = CommonMaterialData.SamplerWrapLinear,
[3] = CommonMaterialData.SamplerWrapLinear
}
};
AL_DeferredShadingState.registerSingleton();
new ShaderData("AL_DeferredShader")
{
DXVertexShaderFile = "data/shaders/common/postFx/postFxV.hlsl",
DXPixelShaderFile = "data/shaders/common/lighting/advanced/deferredShadingP.hlsl",
OGLVertexShaderFile = "data/shaders/common/postFx/gl/postFxV.glsl",
OGLPixelShaderFile = "data/shaders/common/lighting/advanced/gl/deferredShadingP.glsl",
SamplerNames =
{
[0] = "colorBufferTex",
[1] = "lightPrePassTex",
[2] = "matInfoTex",
[3] = "prepassTex"
},
PixVersion = 2.0f
}.registerSingleton();
AL_DeferredShading = new Torque3D.PostEffect("AL_DeferredShading")
{
RenderTime = PFXRenderTime.PFXAfterBin,
RenderBin = "SkyBin",
Shader = "AL_DeferredShader",
StateBlock = AL_DeferredShadingState,
Texture =
{
[0] = "#color",
[1] = "#lightinfo",
[2] = "#matinfo",
[3] = "#prepass"
},
Target = "$backBuffer",
RenderPriority = 10000,
AllowReflectPass = true
};
AL_DeferredShading.registerSingleton();
// Debug shaders
new ShaderData("AL_ColorBufferShader")
{
DXVertexShaderFile = "data/shaders/common/postFx/postFxV.hlsl",
DXPixelShaderFile = "data/shaders/common/lighting/advanced/dbgColorBufferP.hlsl",
OGLVertexShaderFile = "data/shaders/common/postFx/gl/postFxV.glsl",
OGLPixelShaderFile = "data/shaders/common/lighting/advanced/gl/dbgColorBufferP.glsl",
SamplerNames = { [0] = "colorBufferTex" },
PixVersion = 2.0f
}.registerSingleton();
AL_ColorBufferVisualize = new Torque3D.PostEffect("AL_ColorBufferVisualize")
{
Shader = "AL_ColorBufferShader",
StateBlock = LightViz.AL_DefaultVisualizeState,
Texture = { [0] = "#color" },
Target = "$backBuffer",
RenderPriority = 9999
};
AL_ColorBufferVisualize.registerSingleton();
// Debug shaders
new ShaderData("AL_SpecMapShader")
{
DXVertexShaderFile = "data/shaders/common/postFx/postFxV.hlsl",
DXPixelShaderFile = "data/shaders/common/lighting/advanced/dbgSpecMapVisualizeP.hlsl",
OGLVertexShaderFile = "data/shaders/common/postFx/gl/postFxV.glsl",
OGLPixelShaderFile = "data/shaders/common/lighting/advanced/gl/dbgSpecMapVisualizeP.glsl",
SamplerNames = { [0] = "matinfoTex" },
PixVersion = 2.0f
}.registerSingleton();
AL_SpecMapVisualize = new Torque3D.PostEffect("AL_SpecMapVisualize")
{
Shader = "AL_SpecMapShader",
StateBlock = LightViz.AL_DefaultVisualizeState,
Texture = { [0] = "#matinfo" },
Target = "$backBuffer",
RenderPriority = 9999
};
AL_SpecMapVisualize.registerSingleton();
}
public static void configureCanvas()
{
// Setup a good default if we don't have one already.
if (string.IsNullOrWhiteSpace(Globals.GetString("pref::Video::Resolution")))
{
Globals.SetString("pref::Video::Resolution", "800 600");
}
if (string.IsNullOrWhiteSpace(Globals.GetString("pref::Video::FullScreen")))
{
Globals.SetBool("pref::Video::FullScreen", false);
}
if (string.IsNullOrWhiteSpace(Globals.GetString("pref::Video::BitDepth")))
{
Globals.SetInt("pref::Video::BitDepth", 32);
}
if (string.IsNullOrWhiteSpace(Globals.GetString("pref::Video::RefreshRate")))
{
Globals.SetInt("pref::Video::RefreshRate", 60);
}
if (string.IsNullOrWhiteSpace(Globals.GetString("pref::Video::AA")))
{
Globals.SetInt("pref::Video::AA", 4);
}
string[] res = Globals.GetString("pref::Video::Resolution").Split(' ');
uint resX = uint.Parse(res[0]);
uint resY = uint.Parse(res[1]);
bool fs = Globals.GetBool("pref::Video::FullScreen");
string _bpp = Globals.GetString("pref::Video::BitDepth");
uint bpp;
uint.TryParse(_bpp, out bpp);
int rate = Globals.GetInt("pref::Video::RefreshRate");
int aa = Globals.GetInt("pref::Video::AA");
if (!string.IsNullOrEmpty("cliFullscreen"))
{
fs = Globals.GetBool("cliFullscreen");
Globals.SetString("cliFullscreen", "");
}
Global.echo("--------------");
Global.echo($"Attempting to set resolution to \"{resX} {resY} {fs} {bpp} {rate} {aa}\"");
Point3F deskRes = Global.getDesktopResolution();
// We shouldn't be getting this any more but just in case...
if (_bpp == "Default")
{
bpp = (uint)deskRes.Z;
}
GuiCanvas canvas = Sim.FindObjectByName <GuiCanvas>("Canvas");
// Make sure we are running at a valid resolution
if (!fs)
{
// Windowed mode has to use the same bit depth as the desktop
bpp = (uint)deskRes.Z;
// Windowed mode also has to run at a smaller resolution than the desktop
if ((resX >= deskRes.X) || (resY >= deskRes.Y))
{
Global.warn(
"Warning: The requested windowed resolution is equal to or larger than the current desktop resolution. Attempting to find a better resolution");
int resCount = canvas.getModeCount();
for (int i = (resCount - 1); i >= 0; i--)
{
string testRes = canvas.getMode(i);
string[] testResSplit = testRes.Split(' ');
uint testResX = uint.Parse(testResSplit[0]);
uint testResY = uint.Parse(testResSplit[1]);
uint testBPP = uint.Parse(testResSplit[2]);
if (testBPP != bpp)
{
continue;
}
if ((testResX < deskRes.X) && (testResY < deskRes.Y))
{
// This will work as our new resolution
resX = testResX;
resY = testResY;
Global.warn($"Warning: Switching to \"{resX} {resY} {bpp}\"");
break;
}
}
}
}
Globals.SetString("pref::Video::Resolution", resX + " " + resY);
Globals.SetBool("pref::Video::FullScreen", fs);
Globals.SetInt("pref::Video::BitDepth", (int)bpp);
Globals.SetInt("pref::Video::RefreshRate", rate);
Globals.SetInt("pref::Video::AA", aa);
string fsLabel = "No";
if (fs)
{
fsLabel = "Yes";
}
Global.echo("Accepted Mode: \n" +
$"--Resolution : {resX} {resY}\n" +
$"--Full Screen : {fsLabel} \n" +
$"--Bits Per Pixel : {bpp} \n" +
$"--Refresh Rate : {rate} \n" +
$"--FSAA Level : {aa} \n" +
"--------------");
// Actually set the new video mode
canvas.setVideoMode(resX, resY, fs, bpp, (uint)rate, (uint)aa);
/*todo Global.commandToServer(Global.addTaggedString("setClientAspectRatio"), resX, resY);*/
// FXAA piggybacks on the FSAA setting in $pref::Video::mode.
if (Global.isObject("FXAA_PostEffect"))
{
Torque3D.PostEffect FXAA_PostEffect = Sim.FindObjectByName <Torque3D.PostEffect>("FXAA_PostEffect");
FXAA_PostEffect.IsEnabled = (aa > 0);
}
}
