/// <summary>Bind the shader, 'ic' indicates the shader instance has changed and 'ec' indicates the extension has changed.</summary><param name="state"/><param name="ic"/><param name="ec"/><param name="ext"/>
protected override void BeginImpl(Xen.Graphics.ShaderSystem.ShaderSystemBase state, bool ic, bool ec, Xen.Graphics.ShaderSystem.ShaderExtension ext)
{
// if the device changed, call Warm()
if ((state.DeviceUniqueIndex != InstancingSprite.gd))
{
this.WarmShader(state);
ic = true;
}
// Force updating if the instance has changed
this.vreg_change = (this.vreg_change | ic);
// Set the value for attribute 'viewProj'
this.vreg_change = (this.vreg_change | state.SetViewProjectionMatrix(ref this.vreg[0], ref this.vreg[1], ref this.vreg[2], ref this.vreg[3], ref this.sc0));
// Assign pixel shader textures and samplers
if ((ic | this.ptc))
{
state.SetPixelShaderSamplers(this.ptx, this.pts);
this.ptc = false;
}
if ((this.vreg_change == true))
{
InstancingSprite.fx.vs_c.SetValue(this.vreg);
this.vreg_change = false;
ic = true;
}
// Finally, bind the effect
if ((ic | ec))
{
state.SetEffect(this, ref InstancingSprite.fx, ext);
}
}
/// <summary>Bind the shader, 'ic' indicates the shader instance has changed and 'ec' indicates the extension has changed.</summary><param name="state"/><param name="ic"/><param name="ec"/><param name="ext"/>
protected override void BeginImpl(Xen.Graphics.ShaderSystem.ShaderSystemBase state, bool ic, bool ec, Xen.Graphics.ShaderSystem.ShaderExtension ext)
{
// if the device changed, call Warm()
if ((state.DeviceUniqueIndex != RgbmDecode.gd))
{
this.WarmShader(state);
ic = true;
}
// Force updating if the instance has changed
this.vreg_change = (this.vreg_change | ic);
this.preg_change = (this.preg_change | ic);
this.vbreg_change = (this.vbreg_change | ic);
this.vireg_change = (this.vireg_change | ic);
// Set the value for attribute 'worldViewProj'
this.vreg_change = (this.vreg_change | state.SetWorldViewProjectionMatrix(ref this.vreg[0], ref this.vreg[1], ref this.vreg[2], ref this.vreg[3], ref this.sc0));
// Set the value for global 'BloomScaleThreshold'
this.preg_change = (this.preg_change | state.SetGlobalVector2(ref this.preg[1], RgbmDecode.gid0, ref this.gc0));
// Set the value for global 'LensExposure'
this.preg_change = (this.preg_change | state.SetGlobalSingle(ref this.preg[2], RgbmDecode.gid1, ref this.gc1));
// Set the value for global 'RgbmImageRenderScale'
this.preg_change = (this.preg_change | state.SetGlobalVector2(ref this.preg[0], RgbmDecode.gid2, ref this.gc2));
// Assign pixel shader textures and samplers
if ((ic | this.ptc))
{
state.SetPixelShaderSamplers(this.ptx, this.pts);
this.ptc = false;
}
if ((this.vreg_change == true))
{
RgbmDecode.fx.vs_c.SetValue(this.vreg);
this.vreg_change = false;
ic = true;
}
if ((this.preg_change == true))
{
RgbmDecode.fx.ps_c.SetValue(this.preg);
this.preg_change = false;
ic = true;
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Blending))
{
ic = (ic | state.SetBlendMatricesDirect(RgbmDecode.fx.vsb_c, ref this.sc1));
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Instancing))
{
this.vireg_change = (this.vireg_change | state.SetViewProjectionMatrix(ref this.vireg[0], ref this.vireg[1], ref this.vireg[2], ref this.vireg[3], ref this.sc2));
if ((this.vireg_change == true))
{
RgbmDecode.fx.vsi_c.SetValue(this.vireg);
this.vireg_change = false;
ic = true;
}
}
// Finally, bind the effect
if ((ic | ec))
{
state.SetEffect(this, ref RgbmDecode.fx, ext);
}
}
/// <summary>Bind the shader, 'ic' indicates the shader instance has changed and 'ec' indicates the extension has changed.</summary><param name="state"/><param name="ic"/><param name="ec"/><param name="ext"/>
protected override void BeginImpl(Xen.Graphics.ShaderSystem.ShaderSystemBase state, bool ic, bool ec, Xen.Graphics.ShaderSystem.ShaderExtension ext)
{
// if the device changed, call Warm()
if ((state.DeviceUniqueIndex != ShadowShader.gd))
{
this.WarmShader(state);
ic = true;
}
// Force updating if the instance has changed
this.vreg_change = (this.vreg_change | ic);
this.vbreg_change = (this.vbreg_change | ic);
this.vireg_change = (this.vireg_change | ic);
// Set the value for attribute 'worldMatrix'
this.vreg_change = (this.vreg_change | state.SetWorldMatrix(ref this.vreg[8], ref this.vreg[9], ref this.vreg[10], ref this.vreg[11], ref this.sc0));
// Set the value for attribute 'worldViewProjection'
this.vreg_change = (this.vreg_change | state.SetWorldViewProjectionMatrix(ref this.vreg[0], ref this.vreg[1], ref this.vreg[2], ref this.vreg[3], ref this.sc1));
// Assign pixel shader textures and samplers
if ((ic | this.ptc))
{
state.SetPixelShaderSamplers(this.ptx, this.pts);
this.ptc = false;
}
if ((this.vreg_change == true))
{
ShadowShader.fx.vs_c.SetValue(this.vreg);
this.vreg_change = false;
ic = true;
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Blending))
{
ic = (ic | state.SetBlendMatricesDirect(ShadowShader.fx.vsb_c, ref this.sc2));
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Instancing))
{
this.vireg_change = (this.vireg_change | state.SetViewProjectionMatrix(ref this.vireg[0], ref this.vireg[1], ref this.vireg[2], ref this.vireg[3], ref this.sc3));
if ((this.vireg_change == true))
{
ShadowShader.fx.vsi_c.SetValue(this.vireg);
this.vireg_change = false;
ic = true;
}
}
// Finally, bind the effect
if ((ic | ec))
{
state.SetEffect(this, ref ShadowShader.fx, ext);
}
}
/// <summary>Bind the shader, 'ic' indicates the shader instance has changed and 'ec' indicates the extension has changed.</summary><param name="state"/><param name="ic"/><param name="ec"/><param name="ext"/>
protected override void BeginImpl(Xen.Graphics.ShaderSystem.ShaderSystemBase state, bool ic, bool ec, Xen.Graphics.ShaderSystem.ShaderExtension ext)
{
// if the device changed, call Warm()
if ((state.DeviceUniqueIndex != DrawVelocityBillboardParticles_GpuTex3D.gd))
{
this.WarmShader(state);
ic = true;
}
// Force updating if the instance has changed
this.vreg_change = (this.vreg_change | ic);
// Set the value for attribute 'viewPoint'
this.vreg_change = (this.vreg_change | state.SetViewPointVector3(ref this.vreg[7], ref this.sc0));
Microsoft.Xna.Framework.Vector4 unused = new Microsoft.Xna.Framework.Vector4();
// Set the value for attribute 'worldMatrix'
this.vreg_change = (this.vreg_change | state.SetWorldMatrix(ref this.vreg[4], ref this.vreg[5], ref this.vreg[6], ref unused, ref this.sc1));
// Set the value for attribute 'worldViewProj'
this.vreg_change = (this.vreg_change | state.SetWorldViewProjectionMatrix(ref this.vreg[0], ref this.vreg[1], ref this.vreg[2], ref this.vreg[3], ref this.sc2));
// Assign pixel shader textures and samplers
if ((ic | this.ptc))
{
state.SetPixelShaderSamplers(this.ptx, this.pts);
this.ptc = false;
}
// Assign pixel shader textures and samplers
if ((ic | this.vtc))
{
state.SetVertexShaderSamplers(this.vtx, this.vts);
this.vtc = false;
}
if ((this.vreg_change == true))
{
DrawVelocityBillboardParticles_GpuTex3D.fx.vs_c.SetValue(this.vreg);
this.vreg_change = false;
ic = true;
}
// Finally, bind the effect
if ((ic | ec))
{
state.SetEffect(this, ref DrawVelocityBillboardParticles_GpuTex3D.fx, ext);
}
}
/// <summary>Bind the shader, 'ic' indicates the shader instance has changed and 'ec' indicates the extension has changed.</summary><param name="state"/><param name="ic"/><param name="ec"/><param name="ext"/>
protected override void BeginImpl(Xen.Graphics.ShaderSystem.ShaderSystemBase state, bool ic, bool ec, Xen.Graphics.ShaderSystem.ShaderExtension ext)
{
// if the device changed, call Warm()
if ((state.DeviceUniqueIndex != DepthOutRgTextureAlphaClip.gd))
{
this.WarmShader(state);
ic = true;
}
// Force updating if the instance has changed
this.vreg_change = (this.vreg_change | ic);
this.preg_change = (this.preg_change | ic);
this.vbreg_change = (this.vbreg_change | ic);
this.vireg_change = (this.vireg_change | ic);
// Set the value for attribute 'cameraNearFar'
this.vreg_change = (this.vreg_change | state.SetCameraNearFarVector2(ref this.vreg[9], ref this.sc0));
// Set the value for attribute 'viewDirection'
this.vreg_change = (this.vreg_change | state.SetViewDirectionVector3(ref this.vreg[7], ref this.sc1));
// Set the value for attribute 'viewPoint'
this.vreg_change = (this.vreg_change | state.SetViewPointVector3(ref this.vreg[8], ref this.sc2));
Microsoft.Xna.Framework.Vector4 unused = new Microsoft.Xna.Framework.Vector4();
// Set the value for attribute 'worldMatrix'
this.vreg_change = (this.vreg_change | state.SetWorldMatrix(ref this.vreg[4], ref this.vreg[5], ref this.vreg[6], ref unused, ref this.sc3));
// Set the value for attribute 'worldViewProj'
this.vreg_change = (this.vreg_change | state.SetWorldViewProjectionMatrix(ref this.vreg[0], ref this.vreg[1], ref this.vreg[2], ref this.vreg[3], ref this.sc4));
// Assign pixel shader textures and samplers
if ((ic | this.ptc))
{
state.SetPixelShaderSamplers(this.ptx, this.pts);
this.ptc = false;
}
if ((this.vreg_change == true))
{
DepthOutRgTextureAlphaClip.fx.vs_c.SetValue(this.vreg);
this.vreg_change = false;
ic = true;
}
if ((this.preg_change == true))
{
DepthOutRgTextureAlphaClip.fx.ps_c.SetValue(this.preg);
this.preg_change = false;
ic = true;
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Blending))
{
ic = (ic | state.SetBlendMatricesDirect(DepthOutRgTextureAlphaClip.fx.vsb_c, ref this.sc5));
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Instancing))
{
this.vireg_change = (this.vireg_change | state.SetViewProjectionMatrix(ref this.vireg[0], ref this.vireg[1], ref this.vireg[2], ref this.vireg[3], ref this.sc6));
if ((this.vireg_change == true))
{
DepthOutRgTextureAlphaClip.fx.vsi_c.SetValue(this.vireg);
this.vireg_change = false;
ic = true;
}
}
// Finally, bind the effect
if ((ic | ec))
{
state.SetEffect(this, ref DepthOutRgTextureAlphaClip.fx, ext);
}
}
/// <summary>Bind the shader, 'ic' indicates the shader instance has changed and 'ec' indicates the extension has changed.</summary><param name="state"/><param name="ic"/><param name="ec"/><param name="ext"/>
protected override void BeginImpl(Xen.Graphics.ShaderSystem.ShaderSystemBase state, bool ic, bool ec, Xen.Graphics.ShaderSystem.ShaderExtension ext)
{
// if the device changed, call Warm()
if ((state.DeviceUniqueIndex != Character.gd))
{
this.WarmShader(state);
ic = true;
}
// Force updating if the instance has changed
this.vreg_change = (this.vreg_change | ic);
this.preg_change = (this.preg_change | ic);
this.vbreg_change = (this.vbreg_change | ic);
this.vireg_change = (this.vireg_change | ic);
// Set the value for attribute 'viewPoint'
this.vreg_change = (this.vreg_change | state.SetViewPointVector4(ref this.vreg[12], ref this.sc0));
// Set the value for attribute 'world'
this.vreg_change = (this.vreg_change | state.SetWorldMatrix(ref this.vreg[8], ref this.vreg[9], ref this.vreg[10], ref this.vreg[11], ref this.sc1));
// Set the value for attribute 'worldViewProj'
this.vreg_change = (this.vreg_change | state.SetWorldViewProjectionMatrix(ref this.vreg[4], ref this.vreg[5], ref this.vreg[6], ref this.vreg[7], ref this.sc2));
// Set the value for global 'ShadowMapProjection'
this.vreg_change = (this.vreg_change | state.SetGlobalMatrix4(ref this.vreg[0], ref this.vreg[1], ref this.vreg[2], ref this.vreg[3], Character.gid0, ref this.gc0));
// Set the value for global 'AmbientDiffuseSpecularScale'
this.preg_change = (this.preg_change | state.SetGlobalVector3(ref this.preg[15], Character.gid1, ref this.gc1));
// Set the value for global 'EnvironmentSH'
this.preg_change = (this.preg_change | state.SetGlobalVector4(this.preg, 0, 9, Character.gid2, ref this.gc2));
// Set the value for global 'RgbmImageRenderScale'
this.preg_change = (this.preg_change | state.SetGlobalVector2(ref this.preg[9], Character.gid3, ref this.gc3));
// Set the value for global 'ShadowMapSize'
this.preg_change = (this.preg_change | state.SetGlobalVector2(ref this.preg[10], Character.gid4, ref this.gc4));
// Set the value for global 'SkinLightScatter'
this.preg_change = (this.preg_change | state.SetGlobalVector3(ref this.preg[11], Character.gid5, ref this.gc5));
// Set the value for global 'SunDirection'
this.preg_change = (this.preg_change | state.SetGlobalVector3(ref this.preg[13], Character.gid6, ref this.gc6));
// Set the value for global 'SunRgbIntensity'
this.preg_change = (this.preg_change | state.SetGlobalVector4(ref this.preg[12], Character.gid7, ref this.gc7));
// Set the value for global 'SunSpecularPowerIntensity'
this.preg_change = (this.preg_change | state.SetGlobalVector2(ref this.preg[14], Character.gid8, ref this.gc8));
// Set the value for global 'UseAlbedoOcclusionShadow'
this.preg_change = (this.preg_change | state.SetGlobalVector3(ref this.preg[16], Character.gid9, ref this.gc9));
// Assign global textures
this.CubeRgbmTexture = state.GetGlobalTextureCube(Character.tid0);
this.ShadowTexture = state.GetGlobalTexture2D(Character.tid1);
// Assign pixel shader textures and samplers
if ((ic | this.ptc))
{
state.SetPixelShaderSamplers(this.ptx, this.pts);
this.ptc = false;
}
if ((this.vreg_change == true))
{
Character.fx.vs_c.SetValue(this.vreg);
this.vreg_change = false;
ic = true;
}
if ((this.preg_change == true))
{
Character.fx.ps_c.SetValue(this.preg);
this.preg_change = false;
ic = true;
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Blending))
{
ic = (ic | state.SetBlendMatricesDirect(Character.fx.vsb_c, ref this.sc3));
}
if ((ext == Xen.Graphics.ShaderSystem.ShaderExtension.Instancing))
{
this.vireg_change = (this.vireg_change | state.SetViewProjectionMatrix(ref this.vireg[0], ref this.vireg[1], ref this.vireg[2], ref this.vireg[3], ref this.sc4));
if ((this.vireg_change == true))
{
Character.fx.vsi_c.SetValue(this.vireg);
this.vireg_change = false;
ic = true;
}
}
// Finally, bind the effect
if ((ic | ec))
{
state.SetEffect(this, ref Character.fx, ext);
}
}