vkdoom_m/src/gl/models/gl_models.h
Christoph Oelckers 8b6e09ca09 - changed the license of the OpenGL renderer to LGPL v3.
This was done to clean up the license and to ensure that any commercial fork of the engine has to obey the far stricter requirements concerning source distribution. The old license was compatible with GPLv2 whereas combining GPLv2 and LGPLv3 force a license upgrade to GPLv3. The license of code that originates from ZDoomGL has not been changed.
2016-09-14 20:01:13 +02:00

425 lines
9.4 KiB
C++

//
//---------------------------------------------------------------------------
//
// Copyright(C) 2005-2016 Christoph Oelckers
// All rights reserved.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program. If not, see http://www.gnu.org/licenses/
//
//--------------------------------------------------------------------------
//
#ifndef __GL_MODELS_H_
#define __GL_MODELS_H_
#include "tarray.h"
#include "gl/utility/gl_geometric.h"
#include "gl/data/gl_vertexbuffer.h"
#include "p_pspr.h"
#include "r_data/voxels.h"
#define MAX_LODS 4
enum { VX, VZ, VY };
#define MD2_MAGIC 0x32504449
#define DMD_MAGIC 0x4D444D44
#define MD3_MAGIC 0x33504449
#define NUMVERTEXNORMALS 162
#define MD3_MAX_SURFACES 32
FTextureID LoadSkin(const char * path, const char * fn);
// [JM] Necessary forward declaration
typedef struct FSpriteModelFrame FSpriteModelFrame;
class FModel
{
public:
FModel()
{
mVBuf = NULL;
}
virtual ~FModel();
virtual bool Load(const char * fn, int lumpnum, const char * buffer, int length) = 0;
virtual int FindFrame(const char * name) = 0;
virtual void RenderFrame(FTexture * skin, int frame, int frame2, double inter, int translation=0) = 0;
virtual void BuildVertexBuffer() = 0;
virtual void AddSkins(BYTE *hitlist) = 0;
void DestroyVertexBuffer()
{
delete mVBuf;
mVBuf = NULL;
}
virtual float getAspectFactor() { return 1.f; }
const FSpriteModelFrame *curSpriteMDLFrame;
int curMDLIndex;
void PushSpriteMDLFrame(const FSpriteModelFrame *smf, int index) { curSpriteMDLFrame = smf; curMDLIndex = index; };
FModelVertexBuffer *mVBuf;
FString mFileName;
};
class FDMDModel : public FModel
{
protected:
struct FTriangle
{
unsigned short vertexIndices[3];
unsigned short textureIndices[3];
};
struct DMDHeader
{
int magic;
int version;
int flags;
};
struct DMDModelVertex
{
float xyz[3];
};
struct FTexCoord
{
short s, t;
};
struct FGLCommandVertex
{
float s, t;
int index;
};
struct DMDInfo
{
int skinWidth;
int skinHeight;
int frameSize;
int numSkins;
int numVertices;
int numTexCoords;
int numFrames;
int numLODs;
int offsetSkins;
int offsetTexCoords;
int offsetFrames;
int offsetLODs;
int offsetEnd;
};
struct ModelFrame
{
char name[16];
unsigned int vindex;
};
struct ModelFrameVertexData
{
DMDModelVertex *vertices;
DMDModelVertex *normals;
};
struct DMDLoDInfo
{
int numTriangles;
int numGlCommands;
int offsetTriangles;
int offsetGlCommands;
};
struct DMDLoD
{
FTriangle * triangles;
};
int mLumpNum;
DMDHeader header;
DMDInfo info;
FTextureID * skins;
ModelFrame * frames;
bool allowTexComp; // Allow texture compression with this.
// Temp data only needed for buffer construction
FTexCoord * texCoords;
ModelFrameVertexData *framevtx;
DMDLoDInfo lodInfo[MAX_LODS];
DMDLoD lods[MAX_LODS];
public:
FDMDModel()
{
mLumpNum = -1;
frames = NULL;
skins = NULL;
for (int i = 0; i < MAX_LODS; i++)
{
lods[i].triangles = NULL;
}
info.numLODs = 0;
texCoords = NULL;
framevtx = NULL;
}
virtual ~FDMDModel();
virtual bool Load(const char * fn, int lumpnum, const char * buffer, int length);
virtual int FindFrame(const char * name);
virtual void RenderFrame(FTexture * skin, int frame, int frame2, double inter, int translation=0);
virtual void LoadGeometry();
virtual void AddSkins(BYTE *hitlist);
void UnloadGeometry();
void BuildVertexBuffer();
};
// This uses the same internal representation as DMD
class FMD2Model : public FDMDModel
{
public:
FMD2Model() {}
virtual ~FMD2Model();
virtual bool Load(const char * fn, int lumpnum, const char * buffer, int length);
virtual void LoadGeometry();
};
class FMD3Model : public FModel
{
struct MD3Tag
{
// Currently I have no use for this
};
struct MD3TexCoord
{
float s,t;
};
struct MD3Vertex
{
float x,y,z;
float nx,ny,nz;
};
struct MD3Triangle
{
int VertIndex[3];
};
struct MD3Surface
{
int numVertices;
int numTriangles;
int numSkins;
FTextureID * skins;
MD3Triangle * tris;
MD3TexCoord * texcoords;
MD3Vertex * vertices;
unsigned int vindex; // contains numframes arrays of vertices
unsigned int iindex;
MD3Surface()
{
tris=NULL;
vertices=NULL;
texcoords=NULL;
vindex = iindex = UINT_MAX;
}
~MD3Surface()
{
if (skins) delete [] skins;
UnloadGeometry();
}
void UnloadGeometry()
{
if (tris) delete [] tris;
if (vertices) delete [] vertices;
if (texcoords) delete [] texcoords;
tris = NULL;
vertices = NULL;
texcoords = NULL;
}
};
struct MD3Frame
{
// The bounding box information is of no use in the Doom engine
// That will still be done with the actor's size information.
char Name[16];
float origin[3];
};
int numFrames;
int numTags;
int numSurfaces;
int mLumpNum;
MD3Frame * frames;
MD3Surface * surfaces;
public:
FMD3Model() { }
virtual ~FMD3Model();
virtual bool Load(const char * fn, int lumpnum, const char * buffer, int length);
virtual int FindFrame(const char * name);
virtual void RenderFrame(FTexture * skin, int frame, int frame2, double inter, int translation=0);
void LoadGeometry();
void BuildVertexBuffer();
virtual void AddSkins(BYTE *hitlist);
};
struct FVoxelVertexHash
{
// Returns the hash value for a key.
hash_t Hash(const FModelVertex &key)
{
int ix = xs_RoundToInt(key.x);
int iy = xs_RoundToInt(key.y);
int iz = xs_RoundToInt(key.z);
return (hash_t)(ix + (iy<<9) + (iz<<18));
}
// Compares two keys, returning zero if they are the same.
int Compare(const FModelVertex &left, const FModelVertex &right)
{
return left.x != right.x || left.y != right.y || left.z != right.z || left.u != right.u || left.v != right.v;
}
};
struct FIndexInit
{
void Init(unsigned int &value)
{
value = 0xffffffff;
}
};
typedef TMap<FModelVertex, unsigned int, FVoxelVertexHash, FIndexInit> FVoxelMap;
class FVoxelModel : public FModel
{
protected:
FVoxel *mVoxel;
bool mOwningVoxel; // if created through MODELDEF deleting this object must also delete the voxel object
FTextureID mPalette;
unsigned int mNumIndices;
TArray<FModelVertex> mVertices;
TArray<unsigned int> mIndices;
void MakeSlabPolys(int x, int y, kvxslab_t *voxptr, FVoxelMap &check);
void AddFace(int x1, int y1, int z1, int x2, int y2, int z2, int x3, int y3, int z3, int x4, int y4, int z4, BYTE color, FVoxelMap &check);
unsigned int AddVertex(FModelVertex &vert, FVoxelMap &check);
public:
FVoxelModel(FVoxel *voxel, bool owned);
~FVoxelModel();
bool Load(const char * fn, int lumpnum, const char * buffer, int length);
void Initialize();
virtual int FindFrame(const char * name);
virtual void RenderFrame(FTexture * skin, int frame, int frame2, double inter, int translation=0);
virtual void AddSkins(BYTE *hitlist);
FTextureID GetPaletteTexture() const { return mPalette; }
void BuildVertexBuffer();
float getAspectFactor();
};
#define MAX_MODELS_PER_FRAME 4
//
// [BB] Model rendering flags.
//
enum
{
// [BB] Color translations for the model skin are ignored. This is
// useful if the skin texture is not using the game palette.
MDL_IGNORETRANSLATION = 1,
MDL_PITCHFROMMOMENTUM = 2,
MDL_ROTATING = 4,
MDL_INTERPOLATEDOUBLEDFRAMES = 8,
MDL_NOINTERPOLATION = 16,
MDL_USEACTORPITCH = 32,
MDL_USEACTORROLL = 64,
MDL_BADROTATION = 128,
};
struct FSpriteModelFrame
{
int modelIDs[MAX_MODELS_PER_FRAME];
FTextureID skinIDs[MAX_MODELS_PER_FRAME];
FTextureID surfaceskinIDs[MAX_MODELS_PER_FRAME][MD3_MAX_SURFACES];
int modelframes[MAX_MODELS_PER_FRAME];
float xscale, yscale, zscale;
// [BB] Added zoffset, rotation parameters and flags.
// Added xoffset, yoffset
float xoffset, yoffset, zoffset;
float xrotate, yrotate, zrotate;
float rotationCenterX, rotationCenterY, rotationCenterZ;
float rotationSpeed;
unsigned int flags;
const PClass * type;
short sprite;
short frame;
FState * state; // for later!
int hashnext;
float angleoffset;
// added pithoffset, rolloffset.
float pitchoffset, rolloffset; // I don't want to bother with type transformations, so I made this variables float.
};
class GLSprite;
FSpriteModelFrame * gl_FindModelFrame(const PClass * ti, int sprite, int frame, bool dropped);
void gl_RenderModel(GLSprite * spr);
// [BB] HUD weapon model rendering functions.
void gl_RenderHUDModel(DPSprite *psp, float ofsx, float ofsy);
bool gl_IsHUDModelForPlayerAvailable (player_t * player);
class DeletingModelArray : public TArray<FModel *>
{
public:
~DeletingModelArray()
{
for (unsigned i = 0; i<Size(); i++)
{
delete (*this)[i];
}
}
};
extern DeletingModelArray Models;
#endif