#ifndef _MODEL_H_ #define _MODEL_H_ #include #include #include #include #include #include "Texture.h" #include "Mat4.h" namespace New3D { struct ClipVertex { float pos[4]; }; struct ClipPoly { ClipVertex list[12]; // what's the max number we can hit for a triangle + 4 planes? int count = 0; }; struct Vertex // half vertex { float pos[4]; float normal[3]; float texcoords[2]; float fixedShade; }; struct FVertex : Vertex // full vertex including face attributes { float faceNormal[3]; UINT8 faceColour[4]; FVertex& operator=(const Vertex& vertex) { memcpy(this, &vertex, sizeof(Vertex)); return *this; } }; struct R3DPoly { Vertex v[4]; // just easier to have them as an array float faceNormal[3]; // we need this to help work out poly winding, i assume the h/w uses this instead of calculating normals itself UINT8 faceColour[4]; // per face colour int number = 4; }; struct Poly // our polys are always 3 triangles, unlike the real h/w { Poly() {}; // default Poly(bool firstTriangle, const R3DPoly& r3dPoly) { if (firstTriangle) { p1 = r3dPoly.v[0]; p2 = r3dPoly.v[1]; p3 = r3dPoly.v[2]; } else { p1 = r3dPoly.v[0]; p2 = r3dPoly.v[2]; p3 = r3dPoly.v[3]; } // copy face attributes for (int i = 0; i < 4; i++) { p1.faceColour[i] = r3dPoly.faceColour[i]; p2.faceColour[i] = r3dPoly.faceColour[i]; p3.faceColour[i] = r3dPoly.faceColour[i]; } for (int i = 0; i < 3; i++) { p1.faceNormal[i] = r3dPoly.faceNormal[i]; p2.faceNormal[i] = r3dPoly.faceNormal[i]; p3.faceNormal[i] = r3dPoly.faceNormal[i]; } } FVertex p1; FVertex p2; FVertex p3; }; struct Mesh { //helper funcs bool Render(bool alpha) { if (alpha) { if (!textureAlpha && !polyAlpha) { return false; } } else { if (polyAlpha) { return false; } } return true; } // texture int format, x, y, width, height = 0; bool mirrorU = false; bool mirrorV = false; bool inverted = false; // microtexture bool microTexture = false; int microTextureID = 0; float microTextureScale = 0; // attributes bool doubleSided = false; bool textured = false; bool polyAlpha = false; // specified in the rgba colour bool textureAlpha = false; // use alpha in texture bool alphaTest = false; // discard fragment based on alpha (ogl does this with fixed function) bool clockWise = true; // we need to check if the matrix will change the winding bool layered = false; // stencil poly bool highPriority = false; // rendered over the top // lighting bool fixedShading = false; bool lighting = false; bool specular = false; float shininess = 0; float specularValue = 0; // fog float fogIntensity = 1.0f; // opengl resources int vboOffset = 0; // this will be calculated later int triangleCount = 0; }; struct SortingMesh : public Mesh // This struct temporarily holds the model data, before it gets copied to the main buffer { std::vector polys; }; struct Model { std::shared_ptr> meshes; // this reason why this is a shared ptr to an array, is that multiple models might use the same meshes //which memory are we in bool dynamic = true; // texture offsets for model int textureOffsetX = 0; int textureOffsetY = 0; int page = 0; //matrices float modelMat[16]; //model scale step 1.5+ float scale = 1.0f; }; struct Viewport { int vpX; // these are the original hardware values int vpY; int vpWidth; int vpHeight; float angle_left; float angle_right; float angle_top; float angle_bottom; Mat4 projectionMatrix; // projection matrix, we will calc this later when we have scene near/far vals float lightingParams[6]; // lighting parameters (see RenderViewport() and vertex shader) bool sunClamp; // unknown how this is set bool intensityClamp; // unknown how this is set float spotEllipse[4]; // spotlight ellipse (see RenderViewport()) float spotRange[2]; // Z range float spotColor[3]; // color float fogParams[7]; // fog parameters (...) float scrollFog; // a transparency value that determines if fog is blended over the bottom 2D layer int losPosX, losPosY; // line of sight position int x, y; // viewport coordinates (scaled and in OpenGL format) int width, height; // viewport dimensions (scaled for display surface size) int priority; // priority int select; // viewport select? int number; // viewport number float spotFogColor[3]; // spotlight color on fog float scrollAtt; int hardwareStep; // not really a viewport param but will do here }; enum class Clip { INSIDE, OUTSIDE, INTERCEPT, NOT_SET }; class NodeAttributes { public: NodeAttributes(); bool Push(); bool Pop(); bool StackLimit(); void Reset(); int currentTexOffsetX; int currentTexOffsetY; int currentPage; Clip currentClipStatus; float currentModelScale; private: struct NodeAttribs { int texOffsetX; int texOffsetY; int page; Clip clip; float modelScale; }; std::vector m_vecAttribs; }; struct Node { Viewport viewport; std::vector models; }; } // New3D #endif