1 files changed, 410 insertions, 0 deletions
diff --git a/src/others/irrlicht-1.8.1/source/Irrlicht/CD3D9ParallaxMapRenderer.cpp b/src/others/irrlicht-1.8.1/source/Irrlicht/CD3D9ParallaxMapRenderer.cpp
new file mode 100644
index 0000000..954a552
--- /dev/null
+++ b/src/others/irrlicht-1.8.1/source/Irrlicht/CD3D9ParallaxMapRenderer.cpp
@@ -0,0 +1,410 @@
+// Copyright (C) 2002-2012 Nikolaus Gebhardt
+// This file is part of the "Irrlicht Engine".
+// For conditions of distribution and use, see copyright notice in irrlicht.h
+#include "IrrCompileConfig.h"
+#ifdef _IRR_COMPILE_WITH_DIRECT3D_9_
+#include "CD3D9ParallaxMapRenderer.h"
+#include "IMaterialRendererServices.h"
+#include "IVideoDriver.h"
+#include "os.h"
+#include "SLight.h"
+//#define SHADER_EXTERNAL_DEBUG
+#ifdef SHADER_EXTERNAL_DEBUG
+#include "CReadFile.h"
+#endif
+namespace irr
+{
+namespace video
+{
+        // 1.1/1.4 Shaders with two lights and vertex based attenuation
+        // Irrlicht Engine D3D9 render path normal map vertex shader
+        const char D3D9_PARALLAX_MAP_VSH[] =
+                ";Irrlicht Engine 0.10 D3D9 render path parallax mapping vertex shader\n"\
+                "; c0-3: Transposed world matrix \n"\
+                "; c4: Eye position \n"\
+                "; c8-11: Transposed worldViewProj matrix (Projection * View * World) \n"\
+                "; c12: Light01 position \n"\
+                "; c13: x,y,z: Light01 color; .w: 1/LightRadius� \n"\
+                "; c14: Light02 position \n"\
+                "; c15: x,y,z: Light02 color; .w: 1/LightRadius� \n"\
+                "vs.1.1\n"\
+                "dcl_position  v0              ; position \n"\
+                "dcl_normal    v1              ; normal \n"\
+                "dcl_color     v2              ; color \n"\
+                "dcl_texcoord0 v3              ; texture coord \n"\
+                "dcl_texcoord1 v4              ; tangent \n"\
+                "dcl_texcoord2 v5              ; binormal \n"\
+                "\n"\
+                "def c95, 0.5, 0.5, 0.5, 0.5   ; used for moving light vector to ps \n"\
+                "def c96, -1, 1, 1, 1   ; somewhere I've got a bug. flipping the vectors with this fixes it. \n"\
+                "\n"\
+                "m4x4 oPos, v0, c8             ; transform position to clip space with worldViewProj matrix\n"\
+                "\n"\
+                "m3x3 r5, v4, c0               ; transform tangent U\n"\
+                "m3x3 r7, v1, c0               ; transform normal W\n"\
+                "m3x3 r6, v5, c0               ; transform binormal V\n"\
+                "\n"\
+                "m4x4 r4, v0, c0               ; vertex into world position\n"\
+                "add r2, c12, -r4              ; vtxpos - light1 pos\n"\
+                "add r3, c14, -r4              ; vtxpos - light2 pos\n"\
+                "add r1, -c4,  r4              ; eye - vtxpos \n"\
+                "\n"\
+                "dp3 r8.x, r5, r2              ; transform the light1 vector with U, V, W\n"\
+                "dp3 r8.y, r6, r2   \n"\
+                "dp3 r8.z, r7, r2   \n"\
+                "dp3 r9.x, r5, r3              ; transform the light2 vector with U, V, W\n"\
+                "dp3 r9.y, r6, r3   \n"\
+                "dp3 r9.z, r7, r3   \n"\
+                "dp3 r10.x, r5, r1             ; transform the eye vector with U, V, W\n"\
+                "dp3 r10.y, r6, r1   \n"\
+                "dp3 r10.z, r7, r1   \n"\
+                "\n"\
+                "dp3 r8.w, r8, r8              ; normalize light vector 1 (r8)\n"\
+                "rsq r8.w, r8.w    \n"\
+                "mul r8, r8, r8.w  \n"\
+                ";mul r8, r8, c96 \n"\
+                "dp3 r9.w, r9, r9              ; normalize light vector 2 (r9)\n"\
+                "rsq r9.w, r9.w    \n"\
+                "mul r9, r9, r9.w  \n"\
+                ";mul r9, r9, c96 \n"\
+                "dp3 r10.w, r10, r10           ; normalize eye vector (r10)\n"\
+                "rsq r10.w, r10.w    \n"\
+                "mul r10, r10, r10.w  \n"\
+                "mul r10, r10, c96 \n"\
+                "\n"\
+                "\n"\
+                "mad oT2.xyz, r8.xyz, c95, c95 ; move light vector 1 from -1..1 into 0..1 \n"\
+                "mad oT3.xyz, r9.xyz, c95, c95 ; move light vector 2 from -1..1 into 0..1 \n"\
+                "mad oT4.xyz, r10.xyz, c95, c95 ; move eye vector from -1..1 into 0..1 \n"\
+                "\n"\
+                " ; calculate attenuation of light 1 \n"\
+                "dp3 r2.x, r2.xyz, r2.xyz      ; r2.x = r2.x� + r2.y� + r2.z� \n"\
+                "mul r2.x, r2.x, c13.w         ; r2.x * attenutation \n"\
+                "rsq r2, r2.x                  ; r2.xyzw = 1/sqrt(r2.x * attenutation)\n"\
+                "mul oD0, r2, c13              ; resulting light color = lightcolor * attenuation \n"\
+                "\n"\
+                " ; calculate attenuation of light 2 \n"\
+                "dp3 r3.x, r3.xyz, r3.xyz      ; r3.x = r3.x� + r3.y� + r3.z� \n"\
+                "mul r3.x, r3.x, c15.w         ; r2.x * attenutation \n"\
+                "rsq r3, r3.x                  ; r2.xyzw = 1/sqrt(r2.x * attenutation)\n"\
+                "mul oD1, r3, c15              ; resulting light color = lightcolor * attenuation \n"\
+                "\n"\
+                "mov oT0.xy, v3.xy             ; move out texture coordinates 1\n"\
+                "mov oT1.xy, v3.xy             ; move out texture coordinates 2\n"\
+                "mov oD0.a, v2.a               ; move out original alpha value \n"\
+                "\n";
+        // Irrlicht Engine D3D9 render path normal map pixel shader version 1.4
+        const char D3D9_PARALLAX_MAP_PSH[] =
+                ";Irrlicht Engine 0.10 D3D9 render path parallax mapping pixel shader \n"\
+                ";Input:  \n"\
+                ";t0: color map texture coord  \n"\
+                ";t1: normal map texture coords  \n"\
+                ";t2: light 1 vector in tangent space \n"\
+                ";t4: eye vector in tangent space  \n"\
+                ";v0: light 1 color  \n"\
+                ";t3: light 2 vector in tangent space  \n"\
+                ";v1: light 2 color  \n"\
+                ";v0.a: vertex alpha value   \n"\
+                " \n"\
+                "ps.1.4  \n"\
+                " \n"\
+                ";def  c6, 0.02f, 0.02f, 0.02f, 0.0f ; scale factor, now set in callback \n"\
+                "def  c5, 0.5f, 0.5f, 0.5f, 0.0f ; for specular division \n"\
+                " \n"\
+                "texld  r1, t1              ; sample (normal.x, normal.y, normal.z, height) \n"\
+                "texcrd r4.xyz, t4          ; fetch eye vector  \n"\
+                "texcrd r0.xyz, t0          ; color map         \n"\
+                " \n"\
+                "; original parallax mapping: \n"\
+                ";mul r3, r1_bx2.wwww, c6;   ; r3 = (height, height, height) * scale \n"\
+                ";mad r2.xyz, r3, r4_bx2, r0  ; newTexCoord = height * eye + oldTexCoord  \n"\
+                " \n"\
+                "; modified parallax mapping to reduce swimming effect: \n"\
+                "mul r3, r1_bx2.wwww, r1_bx2.zzzz ;  (nh,nh,nh,nh) = (h,h,h,h) * (n.z,n.z,n.z,n.z,) \n"\
+                "mul r3, r3, c6;   ; r3 = (nh, nh, nh) * scale \n"\
+                "mad r2.xyz, r3, r4_bx2, r0  ; newTexCoord = height * eye + oldTexCoord  \n"\
+                " \n"\
+                "phase \n"\
+                " \n"\
+                "texld r0, r2               ; load diffuse texture with new tex coord \n"\
+                "texld r1, r2               ; sample normal map \n"\
+                "texcrd r2.xyz, t2          ; fetch light vector 1 \n"\
+                "texcrd r3.xyz, t3          ; fetch light vector 2 \n"\
+                " \n"\
+                "dp3_sat r5, r1_bx2, r2_bx2 ; normal dot light 1 (_bx2 because moved into 0..1) \n"\
+                "mul r5, r5, v0             ; luminance1 * light color 1 \n"\
+                " \n"\
+                "dp3_sat r3, r1_bx2, r3_bx2 ; normal dot light 2 (_bx2 because moved into 0..1) \n"\
+                "mad r3, r3, v1, r5         ; (luminance2 * light color 2) + luminance1 \n"\
+                " \n"\
+                "mul r0.xyz, r0, r3          ; total luminance * base color \n"\
+                "+mov r0.a, v0.a             ; write original alpha value \n"\
+                "\n";
+        // Irrlicht Engine D3D9 render path normal map pixel shader version 2.0
+        const char D3D9_PARALLAX_MAP_PSH_20[] =
+                ";Irrlicht Engine D3D9 render path parallax mapping pixel shader \n"\
+                ";Input:  \n"\
+                " \n"\
+                ";t0: color map texture coord  \n"\
+                ";t1: normal map texture coords  \n"\
+                ";t2: light 1 vector in tangent space  \n"\
+                ";t4: eye vector in tangent space  \n"\
+                ";v0: light 1 color  \n"\
+                ";t3: light 2 vector in tangent space  \n"\
+                ";v1: light 2 color  \n"\
+                ";v0.a: vertex alpha value   \n"\
+                " \n"\
+                "ps.2.0 \n"\
+                " \n"\
+                "dcl_2d s0 ; Declare the s0 register to be the sampler for stage 0 \n"\
+                "dcl t0.xy ; Declare t0 to have 2D texture coordinates from stage 0 \n"\
+                "dcl t1.xy ; Declare t0 to have 2D texture coordinates from stage 0 \n"\
+                "dcl_2d s1 ; Declare the s1 register to be the sampler for stage 1 \n"\
+                " \n"\
+                "dcl t2.xyz ; \n"\
+                "dcl t3.xyz ; \n"\
+                "dcl t4.xyz ; \n"\
+                "dcl v0.xyzw; \n"\
+                "dcl v1.xyzw; \n"\
+                " \n"\
+                "def  c0, -1.0f, -1.0f, -1.0f, -1.0f ; for _bx2 emulation \n"\
+                "def  c1, 2.0f, 2.0f, 2.0f, 2.0f ; for _bx2 emulation  \n"\
+                "mov r11, c1; \n"\
+                " \n"\
+                "texld  r1, t1, s1     ; sample (normal.x, normal.y, normal.z, height) \n"\
+                "mov r4.xyz, t4          ; fetch eye vector  \n"\
+                "mov r0.xy, t0          ; color map  \n"\
+                " \n"\
+                "; original parallax mapping: \n"\
+                "; emulate ps1x _bx2, so substract 0.5f and multiply by 2 \n"\
+                "mad r1.xyz, r1, r11, c0; \n"\
+                " \n"\
+                "mul r3, r1.wwww, c6;   ; r3 = (height, height, height) * scale \n"\
+                " \n"\
+                "; emulate ps1x _bx2, so substract 0.5f and multiply by 2 \n"\
+                "mad r4.xyz, r4, r11, c0; \n"\
+                " \n"\
+                "mad r2.xy, r3, r4, r0  ; newTexCoord = height * eye + oldTexCoord  \n"\
+                " \n"\
+                "; modified parallax mapping to avoid swimming: \n"\
+                ";mul r3, r1_bx2.wwww, r1_bx2.zzzz ;  r3 = (h,h,h,h) * (n.z, n.z, n.z, n.z,) \n"\
+                ";mul r3, r3, c6;   ; r3 = (nh, nh, nh) * scale \n"\
+                ";mad r2.xyz, r3, r4_bx2, r0  ; newTexCoord = height * eye + oldTexCoord  \n"\
+                " \n"\
+                "texld r0, r2, s0           ; load diffuse texture with new tex coord \n"\
+                "texld r1, r2, s1           ; sample normal map \n"\
+                "mov r2.xyz, t2          ; fetch light vector 1 \n"\
+                "mov r3.xyz, t3          ; fetch light vector 2 \n"\
+                " \n"\
+                "; emulate ps1x _bx2, so substract 0.5f and multiply by 2 \n"\
+                "mad r1.xyz, r1, r11, c0; \n"\
+                "mad r2.xyz, r2, r11, c0; \n"\
+                "mad r3.xyz, r3, r11, c0; \n"\
+                " \n"\
+                "dp3_sat r2, r1, r2 ; normal dot light 1 (_bx2 because moved into 0..1) \n"\
+                "mul r2, r2, v0     ; luminance1 * light color 1 \n"\
+                " \n"\
+                "dp3_sat r3, r1, r3 ; normal dot light 2 (_bx2 because moved into 0..1) \n"\
+                "mad r3, r3, v1, r2         ; (luminance2 * light color 2) + luminance1 \n"\
+                " \n"\
+                "mul r0.xyz, r0, r3          ; total luminance * base color \n"\
+                "mov r0.a, v0.a             ; write original alpha value \n"\
+                "mov oC0, r0; \n"\
+                "\n";
+        CD3D9ParallaxMapRenderer::CD3D9ParallaxMapRenderer(
+                IDirect3DDevice9* d3ddev, video::IVideoDriver* driver,
+                s32& outMaterialTypeNr, IMaterialRenderer* baseMaterial)
+                : CD3D9ShaderMaterialRenderer(d3ddev, driver, 0, baseMaterial),
+                CurrentScale(0.0f)
+        {
+        
+                #ifdef _DEBUG
+                setDebugName("CD3D9ParallaxMapRenderer");
+                #endif
+        
+                // set this as callback. We could have done this in
+                // the initialization list, but some compilers don't like it.
+                CallBack = this;
+                // basicly, this thing simply compiles these hardcoded shaders if the
+                // hardware is able to do them, otherwise it maps to the base material
+                if (!driver->queryFeature(video::EVDF_PIXEL_SHADER_1_4) ||
+                        !driver->queryFeature(video::EVDF_VERTEX_SHADER_1_1))
+                {
+                        // this hardware is not able to do shaders. Fall back to
+                        // base material.
+                        outMaterialTypeNr = driver->addMaterialRenderer(this);
+                        return;
+                }
+                // check if already compiled parallax map shaders are there.
+                video::IMaterialRenderer* renderer = driver->getMaterialRenderer(EMT_PARALLAX_MAP_SOLID);
+                if (renderer)
+                {
+                        // use the already compiled shaders
+                        video::CD3D9ParallaxMapRenderer* nmr = (video::CD3D9ParallaxMapRenderer*)renderer;
+                        VertexShader = nmr->VertexShader;
+                        if (VertexShader)
+                                VertexShader->AddRef();
+                        PixelShader = nmr->PixelShader;
+                        if (PixelShader)
+                                PixelShader->AddRef();
+                        outMaterialTypeNr = driver->addMaterialRenderer(this);
+                }
+                else
+                {
+                        #ifdef SHADER_EXTERNAL_DEBUG
+                                // quickly load shader from external file
+                                io::CReadFile* file = new io::CReadFile("parallax.psh");
+                                s32 sz = file->getSize();
+                                char* s = new char[sz+1];
+                                file->read(s, sz);
+                                s[sz] = 0;
+                                init(outMaterialTypeNr, D3D9_PARALLAX_MAP_VSH, s);
+                                delete [] s;
+                                file->drop();
+                        #else
+                                // compile shaders on our own
+                                init(outMaterialTypeNr, D3D9_PARALLAX_MAP_VSH, D3D9_PARALLAX_MAP_PSH);
+                        #endif // SHADER_EXTERNAL_DEBUG
+                }
+                // something failed, use base material
+                if (-1==outMaterialTypeNr)
+                        driver->addMaterialRenderer(this);
+        }
+        CD3D9ParallaxMapRenderer::~CD3D9ParallaxMapRenderer()
+        {
+                if (CallBack == this)
+                        CallBack = 0;
+        }
+        bool CD3D9ParallaxMapRenderer::OnRender(IMaterialRendererServices* service, E_VERTEX_TYPE vtxtype)
+        {
+                if (vtxtype != video::EVT_TANGENTS)
+                {
+                        os::Printer::log("Error: Parallax map renderer only supports vertices of type EVT_TANGENTS", ELL_ERROR);
+                        return false;
+                }
+                return CD3D9ShaderMaterialRenderer::OnRender(service, vtxtype);
+        }
+        void CD3D9ParallaxMapRenderer::OnSetMaterial(const video::SMaterial& material,
+                const video::SMaterial& lastMaterial,
+                bool resetAllRenderstates, video::IMaterialRendererServices* services)
+        {
+                CD3D9ShaderMaterialRenderer::OnSetMaterial(material, lastMaterial,
+                        resetAllRenderstates, services);
+                CurrentScale = material.MaterialTypeParam;
+        }
+        //! Returns the render capability of the material.
+        s32 CD3D9ParallaxMapRenderer::getRenderCapability() const
+        {
+                if (Driver->queryFeature(video::EVDF_PIXEL_SHADER_1_4) &&
+                        Driver->queryFeature(video::EVDF_VERTEX_SHADER_1_1))
+                        return 0;
+                return 1;
+        }
+        //! Called by the engine when the vertex and/or pixel shader constants
+        //! for an material renderer should be set.
+        void CD3D9ParallaxMapRenderer::OnSetConstants(IMaterialRendererServices* services, s32 userData)
+        {
+                video::IVideoDriver* driver = services->getVideoDriver();
+                // set transposed world matrix
+                services->setVertexShaderConstant(driver->getTransform(video::ETS_WORLD).getTransposed().pointer(), 0, 4);
+                // set eye position
+                // The  viewpoint is at (0., 0., 0.) in eye space.
+                // Turning this into a vector [0 0 0 1] and multiply it by
+                // the inverse of the view matrix, the resulting vector is the
+                // object space location of the camera.
+                f32 floats[4] = {0,0,0,1};
+                core::matrix4 minv = driver->getTransform(video::ETS_VIEW);
+                minv.makeInverse();
+                minv.multiplyWith1x4Matrix(floats);
+                services->setVertexShaderConstant(floats, 4, 1);
+                // set transposed worldViewProj matrix
+                core::matrix4 worldViewProj;
+                worldViewProj = driver->getTransform(video::ETS_PROJECTION);
+                worldViewProj *= driver->getTransform(video::ETS_VIEW);
+                worldViewProj *= driver->getTransform(video::ETS_WORLD);
+                services->setVertexShaderConstant(worldViewProj.getTransposed().pointer(), 8, 4);
+                // here we've got to fetch the fixed function lights from the
+                // driver and set them as constants
+                const u32 cnt = driver->getDynamicLightCount();
+                for (u32 i=0; i<2; ++i)
+                {
+                        SLight light;
+                        if (i<cnt)
+                                light = driver->getDynamicLight(i);
+                        else
+                        {
+                                light.DiffuseColor.set(0,0,0); // make light dark
+                                light.Radius = 1.0f;
+                        }
+                        light.DiffuseColor.a = 1.0f/(light.Radius*light.Radius); // set attenuation
+                        services->setVertexShaderConstant(reinterpret_cast<const f32*>(&light.Position), 12+(i*2), 1);
+                        services->setVertexShaderConstant(reinterpret_cast<const f32*>(&light.DiffuseColor), 13+(i*2), 1);
+                }
+                // this is not really necessary in d3d9 (used a def instruction), but to be sure:
+                f32 c95[] = {0.5f, 0.5f, 0.5f, 0.5f};
+                services->setVertexShaderConstant(c95, 95, 1);
+                f32 c96[] = {-1, 1, 1, 1};
+                services->setVertexShaderConstant(c96, 96, 1);
+                // set scale factor
+                f32 factor = 0.02f; // default value
+                if (CurrentScale != 0)
+                        factor = CurrentScale;
+                f32 c6[] = {factor, factor, factor, 0};
+                services->setPixelShaderConstant(c6, 6, 1);
+        }
+} // end namespace video
+} // end namespace irr
+#endif // _IRR_COMPILE_WITH_DIRECT3D_9_

diff --git a/src/others/irrlicht-1.8.1/source/Irrlicht/CD3D9ParallaxMapRenderer.cpp b/src/others/irrlicht-1.8.1/source/Irrlicht/CD3D9ParallaxMapRenderer.cpp new file mode 100644 index 0000000..954a552 --- /dev/null +++ b/src/others/irrlicht-1.8.1/source/Irrlicht/CD3D9ParallaxMapRenderer.cpp
@@ -0,0 +1,410 @@
	1	// Copyright (C) 2002-2012 Nikolaus Gebhardt
	2	// This file is part of the "Irrlicht Engine".
	3	// For conditions of distribution and use, see copyright notice in irrlicht.h
	4
	5	#include "IrrCompileConfig.h"
	6	#ifdef _IRR_COMPILE_WITH_DIRECT3D_9_
	7
	8	#include "CD3D9ParallaxMapRenderer.h"
	9	#include "IMaterialRendererServices.h"
	10	#include "IVideoDriver.h"
	11	#include "os.h"
	12	#include "SLight.h"
	13
	14	//#define SHADER_EXTERNAL_DEBUG
	15
	16	#ifdef SHADER_EXTERNAL_DEBUG
	17	#include "CReadFile.h"
	18	#endif
	19
	20	namespace irr
	21	{
	22	namespace video
	23	{
	24	// 1.1/1.4 Shaders with two lights and vertex based attenuation
	25
	26	// Irrlicht Engine D3D9 render path normal map vertex shader
	27	const char D3D9_PARALLAX_MAP_VSH[] =
	28	";Irrlicht Engine 0.10 D3D9 render path parallax mapping vertex shader\n"\
	29	"; c0-3: Transposed world matrix \n"\
	30	"; c4: Eye position \n"\
	31	"; c8-11: Transposed worldViewProj matrix (Projection * View * World) \n"\
	32	"; c12: Light01 position \n"\
	33	"; c13: x,y,z: Light01 color; .w: 1/LightRadius� \n"\
	34	"; c14: Light02 position \n"\
	35	"; c15: x,y,z: Light02 color; .w: 1/LightRadius� \n"\
	36	"vs.1.1\n"\
	37	"dcl_position v0 ; position \n"\
	38	"dcl_normal v1 ; normal \n"\
	39	"dcl_color v2 ; color \n"\
	40	"dcl_texcoord0 v3 ; texture coord \n"\
	41	"dcl_texcoord1 v4 ; tangent \n"\
	42	"dcl_texcoord2 v5 ; binormal \n"\
	43	"\n"\
	44	"def c95, 0.5, 0.5, 0.5, 0.5 ; used for moving light vector to ps \n"\
	45	"def c96, -1, 1, 1, 1 ; somewhere I've got a bug. flipping the vectors with this fixes it. \n"\
	46	"\n"\
	47	"m4x4 oPos, v0, c8 ; transform position to clip space with worldViewProj matrix\n"\
	48	"\n"\
	49	"m3x3 r5, v4, c0 ; transform tangent U\n"\
	50	"m3x3 r7, v1, c0 ; transform normal W\n"\
	51	"m3x3 r6, v5, c0 ; transform binormal V\n"\
	52	"\n"\
	53	"m4x4 r4, v0, c0 ; vertex into world position\n"\
	54	"add r2, c12, -r4 ; vtxpos - light1 pos\n"\
	55	"add r3, c14, -r4 ; vtxpos - light2 pos\n"\
	56	"add r1, -c4, r4 ; eye - vtxpos \n"\
	57	"\n"\
	58	"dp3 r8.x, r5, r2 ; transform the light1 vector with U, V, W\n"\
	59	"dp3 r8.y, r6, r2 \n"\
	60	"dp3 r8.z, r7, r2 \n"\
	61	"dp3 r9.x, r5, r3 ; transform the light2 vector with U, V, W\n"\
	62	"dp3 r9.y, r6, r3 \n"\
	63	"dp3 r9.z, r7, r3 \n"\
	64	"dp3 r10.x, r5, r1 ; transform the eye vector with U, V, W\n"\
	65	"dp3 r10.y, r6, r1 \n"\
	66	"dp3 r10.z, r7, r1 \n"\
	67	"\n"\
	68	"dp3 r8.w, r8, r8 ; normalize light vector 1 (r8)\n"\
	69	"rsq r8.w, r8.w \n"\
	70	"mul r8, r8, r8.w \n"\
	71	";mul r8, r8, c96 \n"\
	72	"dp3 r9.w, r9, r9 ; normalize light vector 2 (r9)\n"\
	73	"rsq r9.w, r9.w \n"\
	74	"mul r9, r9, r9.w \n"\
	75	";mul r9, r9, c96 \n"\
	76	"dp3 r10.w, r10, r10 ; normalize eye vector (r10)\n"\
	77	"rsq r10.w, r10.w \n"\
	78	"mul r10, r10, r10.w \n"\
	79	"mul r10, r10, c96 \n"\
	80	"\n"\
	81	"\n"\
	82	"mad oT2.xyz, r8.xyz, c95, c95 ; move light vector 1 from -1..1 into 0..1 \n"\
	83	"mad oT3.xyz, r9.xyz, c95, c95 ; move light vector 2 from -1..1 into 0..1 \n"\
	84	"mad oT4.xyz, r10.xyz, c95, c95 ; move eye vector from -1..1 into 0..1 \n"\
	85	"\n"\
	86	" ; calculate attenuation of light 1 \n"\
	87	"dp3 r2.x, r2.xyz, r2.xyz ; r2.x = r2.x� + r2.y� + r2.z� \n"\
	88	"mul r2.x, r2.x, c13.w ; r2.x * attenutation \n"\
	89	"rsq r2, r2.x ; r2.xyzw = 1/sqrt(r2.x * attenutation)\n"\
	90	"mul oD0, r2, c13 ; resulting light color = lightcolor * attenuation \n"\
	91	"\n"\
	92	" ; calculate attenuation of light 2 \n"\
	93	"dp3 r3.x, r3.xyz, r3.xyz ; r3.x = r3.x� + r3.y� + r3.z� \n"\
	94	"mul r3.x, r3.x, c15.w ; r2.x * attenutation \n"\
	95	"rsq r3, r3.x ; r2.xyzw = 1/sqrt(r2.x * attenutation)\n"\
	96	"mul oD1, r3, c15 ; resulting light color = lightcolor * attenuation \n"\
	97	"\n"\
	98	"mov oT0.xy, v3.xy ; move out texture coordinates 1\n"\
	99	"mov oT1.xy, v3.xy ; move out texture coordinates 2\n"\
	100	"mov oD0.a, v2.a ; move out original alpha value \n"\
	101	"\n";
	102
	103
	104	// Irrlicht Engine D3D9 render path normal map pixel shader version 1.4
	105	const char D3D9_PARALLAX_MAP_PSH[] =
	106	";Irrlicht Engine 0.10 D3D9 render path parallax mapping pixel shader \n"\
	107	";Input: \n"\
	108	";t0: color map texture coord \n"\
	109	";t1: normal map texture coords \n"\
	110	";t2: light 1 vector in tangent space \n"\
	111	";t4: eye vector in tangent space \n"\
	112	";v0: light 1 color \n"\
	113	";t3: light 2 vector in tangent space \n"\
	114	";v1: light 2 color \n"\
	115	";v0.a: vertex alpha value \n"\
	116	" \n"\
	117	"ps.1.4 \n"\
	118	" \n"\
	119	";def c6, 0.02f, 0.02f, 0.02f, 0.0f ; scale factor, now set in callback \n"\
	120	"def c5, 0.5f, 0.5f, 0.5f, 0.0f ; for specular division \n"\
	121	" \n"\
	122	"texld r1, t1 ; sample (normal.x, normal.y, normal.z, height) \n"\
	123	"texcrd r4.xyz, t4 ; fetch eye vector \n"\
	124	"texcrd r0.xyz, t0 ; color map \n"\
	125	" \n"\
	126	"; original parallax mapping: \n"\
	127	";mul r3, r1_bx2.wwww, c6; ; r3 = (height, height, height) * scale \n"\
	128	";mad r2.xyz, r3, r4_bx2, r0 ; newTexCoord = height * eye + oldTexCoord \n"\
	129	" \n"\
	130	"; modified parallax mapping to reduce swimming effect: \n"\
	131	"mul r3, r1_bx2.wwww, r1_bx2.zzzz ; (nh,nh,nh,nh) = (h,h,h,h) * (n.z,n.z,n.z,n.z,) \n"\
	132	"mul r3, r3, c6; ; r3 = (nh, nh, nh) * scale \n"\
	133	"mad r2.xyz, r3, r4_bx2, r0 ; newTexCoord = height * eye + oldTexCoord \n"\
	134	" \n"\
	135	"phase \n"\
	136	" \n"\
	137	"texld r0, r2 ; load diffuse texture with new tex coord \n"\
	138	"texld r1, r2 ; sample normal map \n"\
	139	"texcrd r2.xyz, t2 ; fetch light vector 1 \n"\
	140	"texcrd r3.xyz, t3 ; fetch light vector 2 \n"\
	141	" \n"\
	142	"dp3_sat r5, r1_bx2, r2_bx2 ; normal dot light 1 (_bx2 because moved into 0..1) \n"\
	143	"mul r5, r5, v0 ; luminance1 * light color 1 \n"\
	144	" \n"\
	145	"dp3_sat r3, r1_bx2, r3_bx2 ; normal dot light 2 (_bx2 because moved into 0..1) \n"\
	146	"mad r3, r3, v1, r5 ; (luminance2 * light color 2) + luminance1 \n"\
	147	" \n"\
	148	"mul r0.xyz, r0, r3 ; total luminance * base color \n"\
	149	"+mov r0.a, v0.a ; write original alpha value \n"\
	150	"\n";
	151
	152	// Irrlicht Engine D3D9 render path normal map pixel shader version 2.0
	153	const char D3D9_PARALLAX_MAP_PSH_20[] =
	154	";Irrlicht Engine D3D9 render path parallax mapping pixel shader \n"\
	155	";Input: \n"\
	156	" \n"\
	157	";t0: color map texture coord \n"\
	158	";t1: normal map texture coords \n"\
	159	";t2: light 1 vector in tangent space \n"\
	160	";t4: eye vector in tangent space \n"\
	161	";v0: light 1 color \n"\
	162	";t3: light 2 vector in tangent space \n"\
	163	";v1: light 2 color \n"\
	164	";v0.a: vertex alpha value \n"\
	165	" \n"\
	166	"ps.2.0 \n"\
	167	" \n"\
	168	"dcl_2d s0 ; Declare the s0 register to be the sampler for stage 0 \n"\
	169	"dcl t0.xy ; Declare t0 to have 2D texture coordinates from stage 0 \n"\
	170	"dcl t1.xy ; Declare t0 to have 2D texture coordinates from stage 0 \n"\
	171	"dcl_2d s1 ; Declare the s1 register to be the sampler for stage 1 \n"\
	172	" \n"\
	173	"dcl t2.xyz ; \n"\
	174	"dcl t3.xyz ; \n"\
	175	"dcl t4.xyz ; \n"\
	176	"dcl v0.xyzw; \n"\
	177	"dcl v1.xyzw; \n"\
	178	" \n"\
	179	"def c0, -1.0f, -1.0f, -1.0f, -1.0f ; for _bx2 emulation \n"\
	180	"def c1, 2.0f, 2.0f, 2.0f, 2.0f ; for _bx2 emulation \n"\
	181	"mov r11, c1; \n"\
	182	" \n"\
	183	"texld r1, t1, s1 ; sample (normal.x, normal.y, normal.z, height) \n"\
	184	"mov r4.xyz, t4 ; fetch eye vector \n"\
	185	"mov r0.xy, t0 ; color map \n"\
	186	" \n"\
	187	"; original parallax mapping: \n"\
	188	"; emulate ps1x _bx2, so substract 0.5f and multiply by 2 \n"\
	189	"mad r1.xyz, r1, r11, c0; \n"\
	190	" \n"\
	191	"mul r3, r1.wwww, c6; ; r3 = (height, height, height) * scale \n"\
	192	" \n"\
	193	"; emulate ps1x _bx2, so substract 0.5f and multiply by 2 \n"\
	194	"mad r4.xyz, r4, r11, c0; \n"\
	195	" \n"\
	196	"mad r2.xy, r3, r4, r0 ; newTexCoord = height * eye + oldTexCoord \n"\
	197	" \n"\
	198	"; modified parallax mapping to avoid swimming: \n"\
	199	";mul r3, r1_bx2.wwww, r1_bx2.zzzz ; r3 = (h,h,h,h) * (n.z, n.z, n.z, n.z,) \n"\
	200	";mul r3, r3, c6; ; r3 = (nh, nh, nh) * scale \n"\
	201	";mad r2.xyz, r3, r4_bx2, r0 ; newTexCoord = height * eye + oldTexCoord \n"\
	202	" \n"\
	203	"texld r0, r2, s0 ; load diffuse texture with new tex coord \n"\
	204	"texld r1, r2, s1 ; sample normal map \n"\
	205	"mov r2.xyz, t2 ; fetch light vector 1 \n"\
	206	"mov r3.xyz, t3 ; fetch light vector 2 \n"\
	207	" \n"\
	208	"; emulate ps1x _bx2, so substract 0.5f and multiply by 2 \n"\
	209	"mad r1.xyz, r1, r11, c0; \n"\
	210	"mad r2.xyz, r2, r11, c0; \n"\
	211	"mad r3.xyz, r3, r11, c0; \n"\
	212	" \n"\
	213	"dp3_sat r2, r1, r2 ; normal dot light 1 (_bx2 because moved into 0..1) \n"\
	214	"mul r2, r2, v0 ; luminance1 * light color 1 \n"\
	215	" \n"\
	216	"dp3_sat r3, r1, r3 ; normal dot light 2 (_bx2 because moved into 0..1) \n"\
	217	"mad r3, r3, v1, r2 ; (luminance2 * light color 2) + luminance1 \n"\
	218	" \n"\
	219	"mul r0.xyz, r0, r3 ; total luminance * base color \n"\
	220	"mov r0.a, v0.a ; write original alpha value \n"\
	221	"mov oC0, r0; \n"\
	222	"\n";
	223
	224	CD3D9ParallaxMapRenderer::CD3D9ParallaxMapRenderer(
	225	IDirect3DDevice9* d3ddev, video::IVideoDriver* driver,
	226	s32& outMaterialTypeNr, IMaterialRenderer* baseMaterial)
	227	: CD3D9ShaderMaterialRenderer(d3ddev, driver, 0, baseMaterial),
	228	CurrentScale(0.0f)
	229	{
	230
	231	#ifdef _DEBUG
	232	setDebugName("CD3D9ParallaxMapRenderer");
	233	#endif
	234
	235	// set this as callback. We could have done this in
	236	// the initialization list, but some compilers don't like it.
	237
	238	CallBack = this;
	239
	240	// basicly, this thing simply compiles these hardcoded shaders if the
	241	// hardware is able to do them, otherwise it maps to the base material
	242
	243	if (!driver->queryFeature(video::EVDF_PIXEL_SHADER_1_4) \|\|
	244	!driver->queryFeature(video::EVDF_VERTEX_SHADER_1_1))
	245	{
	246	// this hardware is not able to do shaders. Fall back to
	247	// base material.
	248	outMaterialTypeNr = driver->addMaterialRenderer(this);
	249	return;
	250	}
	251
	252	// check if already compiled parallax map shaders are there.
	253
	254	video::IMaterialRenderer* renderer = driver->getMaterialRenderer(EMT_PARALLAX_MAP_SOLID);
	255	if (renderer)
	256	{
	257	// use the already compiled shaders
	258	video::CD3D9ParallaxMapRenderer* nmr = (video::CD3D9ParallaxMapRenderer*)renderer;
	259	VertexShader = nmr->VertexShader;
	260	if (VertexShader)
	261	VertexShader->AddRef();
	262
	263	PixelShader = nmr->PixelShader;
	264	if (PixelShader)
	265	PixelShader->AddRef();
	266
	267	outMaterialTypeNr = driver->addMaterialRenderer(this);
	268	}
	269	else
	270	{
	271	#ifdef SHADER_EXTERNAL_DEBUG
	272
	273	// quickly load shader from external file
	274	io::CReadFile* file = new io::CReadFile("parallax.psh");
	275	s32 sz = file->getSize();
	276	char* s = new char[sz+1];
	277	file->read(s, sz);
	278	s[sz] = 0;
	279
	280	init(outMaterialTypeNr, D3D9_PARALLAX_MAP_VSH, s);
	281
	282	delete [] s;
	283	file->drop();
	284
	285	#else
	286
	287	// compile shaders on our own
	288	init(outMaterialTypeNr, D3D9_PARALLAX_MAP_VSH, D3D9_PARALLAX_MAP_PSH);
	289
	290	#endif // SHADER_EXTERNAL_DEBUG
	291	}
	292	// something failed, use base material
	293	if (-1==outMaterialTypeNr)
	294	driver->addMaterialRenderer(this);
	295	}
	296
	297
	298	CD3D9ParallaxMapRenderer::~CD3D9ParallaxMapRenderer()
	299	{
	300	if (CallBack == this)
	301	CallBack = 0;
	302	}
	303
	304	bool CD3D9ParallaxMapRenderer::OnRender(IMaterialRendererServices* service, E_VERTEX_TYPE vtxtype)
	305	{
	306	if (vtxtype != video::EVT_TANGENTS)
	307	{
	308	os::Printer::log("Error: Parallax map renderer only supports vertices of type EVT_TANGENTS", ELL_ERROR);
	309	return false;
	310	}
	311
	312	return CD3D9ShaderMaterialRenderer::OnRender(service, vtxtype);
	313	}
	314
	315
	316	void CD3D9ParallaxMapRenderer::OnSetMaterial(const video::SMaterial& material,
	317	const video::SMaterial& lastMaterial,
	318	bool resetAllRenderstates, video::IMaterialRendererServices* services)
	319	{
	320	CD3D9ShaderMaterialRenderer::OnSetMaterial(material, lastMaterial,
	321	resetAllRenderstates, services);
	322
	323	CurrentScale = material.MaterialTypeParam;
	324	}
	325
	326
	327	//! Returns the render capability of the material.
	328	s32 CD3D9ParallaxMapRenderer::getRenderCapability() const
	329	{
	330	if (Driver->queryFeature(video::EVDF_PIXEL_SHADER_1_4) &&
	331	Driver->queryFeature(video::EVDF_VERTEX_SHADER_1_1))
	332	return 0;
	333
	334	return 1;
	335	}
	336
	337
	338	//! Called by the engine when the vertex and/or pixel shader constants
	339	//! for an material renderer should be set.
	340	void CD3D9ParallaxMapRenderer::OnSetConstants(IMaterialRendererServices* services, s32 userData)
	341	{
	342	video::IVideoDriver* driver = services->getVideoDriver();
	343
	344	// set transposed world matrix
	345	services->setVertexShaderConstant(driver->getTransform(video::ETS_WORLD).getTransposed().pointer(), 0, 4);
	346
	347	// set eye position
	348
	349	// The viewpoint is at (0., 0., 0.) in eye space.
	350	// Turning this into a vector [0 0 0 1] and multiply it by
	351	// the inverse of the view matrix, the resulting vector is the
	352	// object space location of the camera.
	353
	354	f32 floats[4] = {0,0,0,1};
	355	core::matrix4 minv = driver->getTransform(video::ETS_VIEW);
	356	minv.makeInverse();
	357	minv.multiplyWith1x4Matrix(floats);
	358	services->setVertexShaderConstant(floats, 4, 1);
	359
	360	// set transposed worldViewProj matrix
	361	core::matrix4 worldViewProj;
	362	worldViewProj = driver->getTransform(video::ETS_PROJECTION);
	363	worldViewProj *= driver->getTransform(video::ETS_VIEW);
	364	worldViewProj *= driver->getTransform(video::ETS_WORLD);
	365	services->setVertexShaderConstant(worldViewProj.getTransposed().pointer(), 8, 4);
	366
	367	// here we've got to fetch the fixed function lights from the
	368	// driver and set them as constants
	369
	370	const u32 cnt = driver->getDynamicLightCount();
	371
	372	for (u32 i=0; i<2; ++i)
	373	{
	374	SLight light;
	375
	376	if (i<cnt)
	377	light = driver->getDynamicLight(i);
	378	else
	379	{
	380	light.DiffuseColor.set(0,0,0); // make light dark
	381	light.Radius = 1.0f;
	382	}
	383
	384	light.DiffuseColor.a = 1.0f/(light.Radius*light.Radius); // set attenuation
	385
	386	services->setVertexShaderConstant(reinterpret_cast<const f32>(&light.Position), 12+(i2), 1);
	387	services->setVertexShaderConstant(reinterpret_cast<const f32>(&light.DiffuseColor), 13+(i2), 1);
	388	}
	389
	390	// this is not really necessary in d3d9 (used a def instruction), but to be sure:
	391	f32 c95[] = {0.5f, 0.5f, 0.5f, 0.5f};
	392	services->setVertexShaderConstant(c95, 95, 1);
	393	f32 c96[] = {-1, 1, 1, 1};
	394	services->setVertexShaderConstant(c96, 96, 1);
	395
	396	// set scale factor
	397	f32 factor = 0.02f; // default value
	398	if (CurrentScale != 0)
	399	factor = CurrentScale;
	400
	401	f32 c6[] = {factor, factor, factor, 0};
	402	services->setPixelShaderConstant(c6, 6, 1);
	403	}
	404
	405
	406	} // end namespace video
	407	} // end namespace irr
	408
	409	#endif // _IRR_COMPILE_WITH_DIRECT3D_9_
	410