jkxr/Projects/Android/jni/OpenJK/codeJK2/game/ghoul2_shared.h

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/*
===========================================================================
Copyright (C) 2000 - 2013, Raven Software, Inc.
Copyright (C) 2001 - 2013, Activision, Inc.
Copyright (C) 2013 - 2015, OpenJK contributors
This file is part of the OpenJK source code.
OpenJK is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License version 2 as
published by the Free Software Foundation.
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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, see <http://www.gnu.org/licenses/>.
===========================================================================
*/
// FIXME Not used.
#if 0
#pragma once
#if !defined(GHOUL2_SHARED_H_INC)
#define GHOUL2_SHARED_H_INC
/*
Ghoul2 Insert Start
*/
#pragma warning (push, 3) //go back down to 3 for the stl include
#pragma warning (disable:4503) // decorated name length xceeded, name was truncated
#include <vector>
#include <map>
#pragma warning (pop)
#pragma warning (disable:4503) // decorated name length xceeded, name was truncated
/*
Ghoul2 Insert End
*/
#define G2T_SV_TIME (0)
#define G2T_CG_TIME (1)
#define NUM_G2T_TIME (2)
void G2API_SetTime(int currentTime,int clock);
int G2API_GetTime(int argTime); // this may or may not return arg depending on ghoul2_time cvar
//===================================================================
//
// G H O U L I I D E F I N E S
//
// we save the whole surfaceInfo_t struct
struct surfaceInfo_t
{
int offFlags; // what the flags are for this model
int surface; // index into array held inside the model definition of pointers to the actual surface data loaded in - used by both client and game
float genBarycentricJ; // point 0 barycentric coors
float genBarycentricI; // point 1 barycentric coors - point 2 is 1 - point0 - point1
int genPolySurfaceIndex; // used to point back to the original surface and poly if this is a generated surface
int genLod; // used to determine original lod of original surface and poly hit location
surfaceInfo_t():
offFlags(0),
surface(0),
genBarycentricJ(0),
genBarycentricI(0),
genPolySurfaceIndex(0),
genLod(0)
{}
};
#define BONE_ANGLES_PREMULT 0x0001
#define BONE_ANGLES_POSTMULT 0x0002
#define BONE_ANGLES_REPLACE 0x0004
#define BONE_ANGLES_TOTAL ( BONE_ANGLES_PREMULT | BONE_ANGLES_POSTMULT | BONE_ANGLES_REPLACE )
#define BONE_ANIM_OVERRIDE 0x0008
#define BONE_ANIM_OVERRIDE_LOOP 0x0010 // Causes Last Frame To Lerp to First Frame And Start Over
#define BONE_ANIM_OVERRIDE_FREEZE (0x0040 + BONE_ANIM_OVERRIDE) // Causes Last Frame To Freeze And Not Loop To Beginning
#define BONE_ANIM_BLEND 0x0080 // Blends to and from previously played frame on same bone for given time
#define BONE_ANIM_NO_LERP 0x1000
#define BONE_ANIM_TOTAL (BONE_ANIM_NO_LERP| BONE_ANIM_OVERRIDE | BONE_ANIM_OVERRIDE_LOOP | BONE_ANIM_OVERRIDE_FREEZE | BONE_ANIM_BLEND )
#define BONE_INDEX_INVALID -1
/*#define MDXABONEDEF // used in the mdxformat.h file to stop redefinitions of the bone struct.
typedef struct {
float matrix[3][4];
} mdxaBone_t;
*/
#include "../../code/renderer/mdx_format.h"
// we save the whole structure here.
struct boneInfo_t
{
int boneNumber; // what bone are we overriding?
mdxaBone_t matrix; // details of bone angle overrides - some are pre-done on the server, some in ghoul2
int flags; // flags for override
int startFrame; // start frame for animation
int endFrame; // end frame for animation NOTE anim actually ends on endFrame+1
int startTime; // time we started this animation
int pauseTime; // time we paused this animation - 0 if not paused
float animSpeed; // speed at which this anim runs. 1.0f means full speed of animation incoming - ie if anim is 20hrtz, we run at 20hrts. If 5hrts, we run at 5 hrts
float blendFrame; // frame PLUS LERP value to blend from
int blendLerpFrame; // frame to lerp the blend frame with.
int blendTime; // Duration time for blending - used to calc amount each frame of new anim is blended with last frame of the last anim
int blendStart; // Time when blending starts - not necessarily the same as startTime since we might start half way through an anim
int boneBlendTime; // time for duration of bone angle blend with normal animation
int boneBlendStart; // time bone angle blend with normal animation began
mdxaBone_t newMatrix; // This is the lerped matrix that Ghoul2 uses on the client side - does not go across the network
boneInfo_t():
boneNumber(-1),
flags(0),
startFrame(0),
endFrame(0),
startTime(0),
pauseTime(0),
animSpeed(0),
blendFrame(0),
blendLerpFrame(0),
blendTime(0),
blendStart(0),
boneBlendTime(0),
boneBlendStart(0)
{
matrix.matrix[0][0] = matrix.matrix[0][1] = matrix.matrix[0][2] = matrix.matrix[0][3] =
matrix.matrix[1][0] = matrix.matrix[1][1] = matrix.matrix[1][2] = matrix.matrix[1][3] =
matrix.matrix[2][0] = matrix.matrix[2][1] = matrix.matrix[2][2] = matrix.matrix[2][3] = 0.0f;
}
};
//we save from top to boltUsed here. Don't bother saving the position, it gets rebuilt every frame anyway
struct boltInfo_t{
int boneNumber; // bone number bolt attaches to
int surfaceNumber; // surface number bolt attaches to
int surfaceType; // if we attach to a surface, this tells us if it is an original surface or a generated one - doesn't go across the network
int boltUsed; // nor does this
boltInfo_t():
boneNumber(-1),
surfaceNumber(-1),
surfaceType(0),
boltUsed(0)
{}
};
#define MAX_GHOUL_COUNT_BITS 8 // bits required to send across the MAX_G2_MODELS inside of the networking - this is the only restriction on ghoul models possible per entity
typedef vector <surfaceInfo_t> surfaceInfo_v;
typedef vector <boneInfo_t> boneInfo_v;
typedef vector <boltInfo_t> boltInfo_v;
typedef vector <mdxaBone_t> mdxaBone_v;
// defines for stuff to go into the mflags
#define GHOUL2_NOCOLLIDE 0x001
#define GHOUL2_NORENDER 0x002
#define GHOUL2_NOMODEL 0x004
#define GHOUL2_NEWORIGIN 0x008
// NOTE order in here matters. We save out from mModelindex to mFlags, but not the STL vectors that are at the top or the bottom.
class CBoneCache;
struct model_s;
//struct mdxaHeader_t;
class CGhoul2Info
{
public:
surfaceInfo_v mSlist;
boltInfo_v mBltlist;
boneInfo_v mBlist;
// save from here
#define BSAVE_START_FIELD mModelindex // this is the start point for loadsave, keep it up to date it you change anything
int mModelindex;
#ifndef __NO_JKA
int animModelIndexOffset;
#endif
qhandle_t mCustomShader;
qhandle_t mCustomSkin;
int mModelBoltLink;
int mSurfaceRoot;
int mLodBias;
int mNewOrigin; // this contains the bolt index of the new origin for this model
#ifdef _G2_GORE
int mGoreSetTag;
#endif
qhandle_t mModel; // this and the next entries do NOT go across the network. They are for gameside access ONLY
char mFileName[MAX_QPATH];
int mAnimFrameDefault;
int mSkelFrameNum;
int mMeshFrameNum;
int mFlags; // used for determining whether to do full collision detection against this object
// to here
#define BSAVE_END_FIELD mTransformedVertsArray // this is the end point for loadsave, keep it up to date it you change anything
int *mTransformedVertsArray; // used to create an array of pointers to transformed verts per surface for collision detection
CBoneCache *mBoneCache;
int mSkin;
// these occasionally are not valid (like after a vid_restart)
// call the questionably efficient G2_SetupModelPointers(this) to insure validity
bool mValid; // all the below are proper and valid
const model_s *currentModel;
int currentModelSize;
const model_s *animModel;
int currentAnimModelSize;
const mdxaHeader_t *aHeader;
CGhoul2Info():
mModelindex(-1),
mCustomShader(0),
mCustomSkin(0),
mModelBoltLink(0),
mModel(0),
mSurfaceRoot(0),
mAnimFrameDefault(0),
mSkelFrameNum(-1),
mMeshFrameNum(-1),
mFlags(0),
mTransformedVertsArray(0),
mLodBias(0),
mSkin(0),
mNewOrigin(-1),
#ifdef _G2_GORE
mGoreSetTag(0),
#endif
mBoneCache(0),
currentModel(0),
currentModelSize(0),
animModel(0),
#ifndef __NO_JKA
animModelIndexOffset(0),
#endif
currentAnimModelSize(0),
aHeader(0),
mValid(false)
{
mFileName[0] = 0;
}
};
class CGhoul2Info_v;
class IGhoul2InfoArray
{
public:
virtual int New()=0;
virtual void Delete(int handle)=0;
virtual bool IsValid(int handle) const=0;
virtual vector<CGhoul2Info> &Get(int handle)=0;
virtual const vector<CGhoul2Info> &Get(int handle) const=0;
};
IGhoul2InfoArray &TheGhoul2InfoArray();
IGhoul2InfoArray &TheGameGhoul2InfoArray();
class CGhoul2Info_v
{
int mItem;
IGhoul2InfoArray &InfoArray() const
{
#ifdef _JK2EXE
return TheGhoul2InfoArray();
#else
return TheGameGhoul2InfoArray();
#endif
}
void Alloc()
{
assert(!mItem); //already alloced
mItem=InfoArray().New();
assert(!Array().size());
}
void Free()
{
if (mItem)
{
assert(InfoArray().IsValid(mItem));
InfoArray().Delete(mItem);
mItem=0;
}
}
vector<CGhoul2Info> &Array()
{
assert(InfoArray().IsValid(mItem));
return InfoArray().Get(mItem);
}
const vector<CGhoul2Info> &Array() const
{
assert(InfoArray().IsValid(mItem));
return InfoArray().Get(mItem);
}
public:
CGhoul2Info_v()
{
mItem=0;
}
~CGhoul2Info_v()
{
Free(); //this had better be taken care of via the clean ghoul2 models call
}
void operator=(const CGhoul2Info_v &other)
{
mItem=other.mItem;
}
void DeepCopy(const CGhoul2Info_v &other)
{
Free();
if (other.mItem)
{
Alloc();
Array()=other.Array();
int i;
for (i=0;i<size();i++)
{
Array()[i].mBoneCache=0;
Array()[i].mTransformedVertsArray=0;
Array()[i].mSkelFrameNum=0;
Array()[i].mMeshFrameNum=0;
}
}
}
CGhoul2Info &operator[](int idx)
{
assert(mItem);
assert(idx>=0&&idx<size());
return Array()[idx];
}
const CGhoul2Info &operator[](int idx) const
{
assert(mItem);
assert(idx>=0&&idx<size());
return Array()[idx];
}
void resize(int num)
{
assert(num>=0);
if (num)
{
if (!mItem)
{
Alloc();
}
}
if (mItem||num)
{
Array().resize(num);
}
}
void clear()
{
Free();
}
void push_back(const CGhoul2Info &model)
{
if (!mItem)
{
Alloc();
}
Array().push_back(model);
}
int size() const
{
if (!IsValid())
{
return 0;
}
return Array().size();
}
bool IsValid() const
{
return InfoArray().IsValid(mItem);
}
void kill()
{
// this scary method zeros the infovector handle without actually freeing it
// it is used for some places where a copy is made, but we don't want to go through the trouble
// of making a deep copy
mItem=0;
}
};
// collision detection stuff
#define G2_FRONTFACE 1
#define G2_BACKFACE 0
class CCollisionRecord
{
public:
float mDistance;
int mEntityNum;
int mModelIndex;
int mPolyIndex;
int mSurfaceIndex;
vec3_t mCollisionPosition;
vec3_t mCollisionNormal;
int mFlags;
int mMaterial;
int mLocation;
float mBarycentricI; // two barycentic coodinates for the hit point
float mBarycentricJ; // K = 1-I-J
CCollisionRecord():
mEntityNum(-1),
mDistance(100000)
{}
};
// calling defines for the trace function
enum EG2_Collision
{
G2_NOCOLLIDE,
G2_COLLIDE,
G2_RETURNONHIT
};
//====================================================================
#endif // GHOUL2_SHARED_H_INC
#endif // 0