mirror of
https://github.com/DrBeef/JKXR.git
synced 2024-12-11 13:11:58 +00:00
4597b03873
Opens in Android Studio but haven't even tried to build it yet (it won't.. I know that much!)
647 lines
18 KiB
C++
647 lines
18 KiB
C++
/*
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===========================================================================
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Copyright (C) 2000 - 2013, Raven Software, Inc.
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Copyright (C) 2001 - 2013, Activision, Inc.
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Copyright (C) 2013 - 2015, OpenJK contributors
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This file is part of the OpenJK source code.
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OpenJK is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License version 2 as
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published by the Free Software Foundation.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, see <http://www.gnu.org/licenses/>.
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===========================================================================
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*/
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#if !defined(FX_UTIL_H_INC)
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#include "FxUtil.h"
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#endif
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#include "../../code/qcommon/sstring.h"
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typedef sstring_t fxString_t;
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#include "../game/genericparser2.h"
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#include "qcommon/safe/string.h"
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#include <algorithm>
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#ifndef FX_SCHEDULER_H_INC
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#define FX_SCHEDULER_H_INC
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#define FX_FILE_PATH "effects"
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#define FX_MAX_TRACE_DIST WORLD_SIZE
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#define FX_MAX_EFFECTS 150 // how many effects the system can store
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#define FX_MAX_EFFECT_COMPONENTS 24 // how many primitives an effect can hold, this should be plenty
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#define FX_MAX_PRIM_NAME 32
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//-----------------------------------------------
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// These are spawn flags for primitiveTemplates
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//-----------------------------------------------
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#define FX_ORG_ON_SPHERE 0x00001 // Pretty dang expensive, calculates a point on a sphere/ellipsoid
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#define FX_AXIS_FROM_SPHERE 0x00002 // Can be used in conjunction with org_on_sphere to cause particles to move out
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// from the center of the sphere
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#define FX_ORG_ON_CYLINDER 0x00004 // calculate point on cylinder/disk
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#define FX_ORG2_FROM_TRACE 0x00010
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#define FX_TRACE_IMPACT_FX 0x00020 // if trace impacts, we should play one of the specified impact fx files
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#define FX_ORG2_IS_OFFSET 0x00040 // template specified org2 should be the offset from a trace endpos or
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// passed in org2. You might use this to lend a random flair to the endpos.
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// Note: this is done pre-trace, so you may have to specify large numbers for this
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#define FX_CHEAP_ORG_CALC 0x00100 // Origin is calculated relative to passed in axis unless this is on.
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#define FX_CHEAP_ORG2_CALC 0x00200 // Origin2 is calculated relative to passed in axis unless this is on.
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#define FX_VEL_IS_ABSOLUTE 0x00400 // Velocity isn't relative to passed in axis with this flag on.
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#define FX_ACCEL_IS_ABSOLUTE 0x00800 // Acceleration isn't relative to passed in axis with this flag on.
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#define FX_RAND_ROT_AROUND_FWD 0x01000 // Randomly rotates up and right around forward vector
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#define FX_EVEN_DISTRIBUTION 0x02000 // When you have a delay, it normally picks a random time to play. When
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// this flag is on, it generates an even time distribution
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#define FX_RGB_COMPONENT_INTERP 0x04000 // Picks a color on the line defined by RGB min & max, default is to pick color in cube defined by min & max
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#define FX_AFFECTED_BY_WIND 0x10000 // we take into account our wind vector when we spawn in
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#define FX_SND_LESS_ATTENUATION 0x20000 // attenuate sounds less
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//-----------------------------------------------------------------
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//
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// CMediaHandles
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//
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// Primitive templates might want to use a list of sounds, shaders
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// or models to get a bit more variation in their effects.
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//
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//-----------------------------------------------------------------
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class CMediaHandles
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{
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private:
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std::vector<int> mMediaList;
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public:
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void AddHandle( int item ) { mMediaList.push_back( item ); }
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int GetHandle() { if (mMediaList.size()==0) {return 0;}
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else {return mMediaList[irand(0,(int)mMediaList.size()-1)];} }
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void operator=(const CMediaHandles &that );
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};
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//-----------------------------------------------------------------
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//
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// CFxRange
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//
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// Primitive templates typically use this class to define each of
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// its members. This is done to make it easier to create effects
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// with a desired range of characteristics.
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//
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//-----------------------------------------------------------------
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class CFxRange
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{
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private:
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float mMin;
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float mMax;
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public:
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CFxRange() {mMin=0; mMax=0;}
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inline void SetRange(float min,float max) {mMin=min; mMax=max;}
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inline void SetMin(float min) {mMin=min;}
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inline void SetMax(float max) {mMax=max;}
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inline float GetMax() const {return mMax;}
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inline float GetMin() const {return mMin;}
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inline float GetVal(float percent) const {return (mMin + (mMax - mMin) * percent);}
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inline float GetVal() const {if(mMin == mMax){return mMin;}
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return flrand(mMin, mMax);}
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inline int GetRoundedVal() const {if(mMin == mMax){return mMin;}
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return (int)(flrand(mMin, mMax) + 0.5f);}
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inline void ForceRange(float min,float max) {if(mMin < min){mMin=min;} if(mMin > max){mMin=max;}
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if(mMax < min){mMax=min;} if(mMax > max){mMax=max;}}
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inline void Sort() {if(mMin > mMax){float temp = mMin; mMin=mMax;mMax=temp;}}
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void operator=(const CFxRange &that) {mMin=that.mMin; mMax=that.mMax;}
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bool operator==(const CFxRange &rhs) const { return ((mMin == rhs.mMin) &&
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(mMax == rhs.mMax)); }
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};
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//----------------------------
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// Supported primitive types
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//----------------------------
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enum EPrimType
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{
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None = 0,
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Particle, // sprite
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Line,
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Tail, // comet-like tail thing
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Cylinder,
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Emitter, // emits effects as it moves, can also attach a chunk
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Sound,
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Decal, // projected onto architecture
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OrientedParticle,
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Electricity,
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FxRunner,
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Light,
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CameraShake,
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ScreenFlash
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};
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//-----------------------------------------------------------------
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//
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// CPrimitiveTemplate
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//
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// The primitive template is used to spawn 1 or more fx primitives
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// with the range of characteristics defined by the template.
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//
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// As such, I just made this one huge shared class knowing that
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// there won't be many of them in memory at once, and we won't
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// be dynamically creating and deleting them mid-game. Also,
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// note that not every primitive type will use all of these fields.
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//
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//-----------------------------------------------------------------
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class CPrimitiveTemplate
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{
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public:
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// These kinds of things should not even be allowed to be accessed publicly
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bool mCopy;
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int mRefCount; // For a copy of a primitive...when we figure out how many items we want to spawn,
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// we'll store that here and then decrement us for each we actually spawn. When we
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// hit zero, we are no longer used and so we can just free ourselves
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char mName[FX_MAX_PRIM_NAME];
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EPrimType mType;
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CFxRange mSpawnDelay;
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CFxRange mSpawnCount;
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CFxRange mLife;
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int mCullRange;
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CMediaHandles mMediaHandles;
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CMediaHandles mImpactFxHandles;
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CMediaHandles mDeathFxHandles;
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CMediaHandles mEmitterFxHandles;
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CMediaHandles mPlayFxHandles;
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int mFlags; // These need to get passed on to the primitive
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int mSpawnFlags; // These are only used to control spawning, but never get passed to prims.
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vec3_t mMin;
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vec3_t mMax;
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CFxRange mOrigin1X;
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CFxRange mOrigin1Y;
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CFxRange mOrigin1Z;
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CFxRange mOrigin2X;
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CFxRange mOrigin2Y;
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CFxRange mOrigin2Z;
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CFxRange mRadius; // spawn on sphere/ellipse/disk stuff.
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CFxRange mHeight;
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CFxRange mRotation;
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CFxRange mRotationDelta;
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CFxRange mAngle1;
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CFxRange mAngle2;
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CFxRange mAngle3;
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CFxRange mAngle1Delta;
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CFxRange mAngle2Delta;
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CFxRange mAngle3Delta;
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CFxRange mVelX;
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CFxRange mVelY;
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CFxRange mVelZ;
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CFxRange mAccelX;
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CFxRange mAccelY;
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CFxRange mAccelZ;
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CFxRange mGravity;
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CFxRange mDensity;
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CFxRange mVariance;
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CFxRange mRedStart;
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CFxRange mGreenStart;
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CFxRange mBlueStart;
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CFxRange mRedEnd;
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CFxRange mGreenEnd;
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CFxRange mBlueEnd;
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CFxRange mRGBParm;
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CFxRange mAlphaStart;
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CFxRange mAlphaEnd;
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CFxRange mAlphaParm;
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CFxRange mSizeStart;
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CFxRange mSizeEnd;
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CFxRange mSizeParm;
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CFxRange mSize2Start;
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CFxRange mSize2End;
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CFxRange mSize2Parm;
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CFxRange mLengthStart;
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CFxRange mLengthEnd;
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CFxRange mLengthParm;
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CFxRange mTexCoordS;
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CFxRange mTexCoordT;
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CFxRange mElasticity;
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private:
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// Lower level parsing utilities
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bool ParseVector( const gsl::cstring_view& val, vec3_t min, vec3_t max );
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bool ParseFloat( const gsl::cstring_view& val, float& min, float& max );
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bool ParseGroupFlags( const gsl::cstring_view& val, int& flags );
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// Base key processing
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// Note that these all have their own parse functions in case it becomes important to do certain kinds
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// of validation specific to that type.
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bool ParseMin( const gsl::cstring_view& val );
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bool ParseMax( const gsl::cstring_view& val );
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bool ParseDelay( const gsl::cstring_view& val );
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bool ParseCount( const gsl::cstring_view& val );
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bool ParseLife( const gsl::cstring_view& val );
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bool ParseElasticity( const gsl::cstring_view& val );
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bool ParseFlags( const gsl::cstring_view& val );
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bool ParseSpawnFlags( const gsl::cstring_view& val );
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bool ParseOrigin1( const gsl::cstring_view& val );
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bool ParseOrigin2( const gsl::cstring_view& val );
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bool ParseRadius( const gsl::cstring_view& val );
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bool ParseHeight( const gsl::cstring_view& val );
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bool ParseRotation( const gsl::cstring_view& val );
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bool ParseRotationDelta( const gsl::cstring_view& val );
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bool ParseAngle( const gsl::cstring_view& val );
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bool ParseAngleDelta( const gsl::cstring_view& val );
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bool ParseVelocity( const gsl::cstring_view& val );
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bool ParseAcceleration( const gsl::cstring_view& val );
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bool ParseGravity( const gsl::cstring_view& val );
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bool ParseDensity( const gsl::cstring_view& val );
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bool ParseVariance( const gsl::cstring_view& val );
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/// Case insensitive map from cstring_view to Value
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template< typename Value >
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using StringViewIMap = std::map< gsl::cstring_view, Value, Q::CStringViewILess >;
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using ParseMethod = bool ( CPrimitiveTemplate::* )( const gsl::cstring_view& );
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// Group type processing
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bool ParseGroup( const CGPGroup& grp, const StringViewIMap< ParseMethod >& parseMethods, gsl::czstring name );
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bool ParseRGB( const CGPGroup& grp );
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bool ParseAlpha( const CGPGroup& grp );
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bool ParseSize( const CGPGroup& grp );
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bool ParseSize2( const CGPGroup& grp );
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bool ParseLength( const CGPGroup& grp );
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bool ParseModels( const CGPProperty& grp );
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bool ParseShaders( const CGPProperty& grp );
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bool ParseSounds( const CGPProperty& grp );
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bool ParseImpactFxStrings( const CGPProperty& grp );
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bool ParseDeathFxStrings( const CGPProperty& grp );
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bool ParseEmitterFxStrings( const CGPProperty& grp );
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bool ParsePlayFxStrings( const CGPProperty& grp );
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// Group keys
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bool ParseRGBStart( const gsl::cstring_view& val );
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bool ParseRGBEnd( const gsl::cstring_view& val );
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bool ParseRGBParm( const gsl::cstring_view& val );
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bool ParseRGBFlags( const gsl::cstring_view& val );
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bool ParseAlphaStart( const gsl::cstring_view& val );
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bool ParseAlphaEnd( const gsl::cstring_view& val );
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bool ParseAlphaParm( const gsl::cstring_view& val );
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bool ParseAlphaFlags( const gsl::cstring_view& val );
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bool ParseSizeStart( const gsl::cstring_view& val );
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bool ParseSizeEnd( const gsl::cstring_view& val );
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bool ParseSizeParm( const gsl::cstring_view& val );
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bool ParseSizeFlags( const gsl::cstring_view& val );
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bool ParseSize2Start( const gsl::cstring_view& val );
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bool ParseSize2End( const gsl::cstring_view& val );
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bool ParseSize2Parm( const gsl::cstring_view& val );
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bool ParseSize2Flags( const gsl::cstring_view& val );
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bool ParseLengthStart( const gsl::cstring_view& val );
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bool ParseLengthEnd( const gsl::cstring_view& val );
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bool ParseLengthParm( const gsl::cstring_view& val );
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bool ParseLengthFlags( const gsl::cstring_view& val );
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public:
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CPrimitiveTemplate();
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CPrimitiveTemplate( const CPrimitiveTemplate& rhs );
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~CPrimitiveTemplate() {};
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bool ParsePrimitive( const CGPGroup& grp );
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void operator=(const CPrimitiveTemplate &that);
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};
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// forward declaration
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struct SEffectTemplate;
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// Effects are built of one or more primitives
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struct SEffectTemplate
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{
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bool mInUse;
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bool mCopy;
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char mEffectName[MAX_QPATH]; // is this extraneous??
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int mPrimitiveCount;
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CPrimitiveTemplate *mPrimitives[FX_MAX_EFFECT_COMPONENTS];
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bool operator == (const char * name) const
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{
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return !Q_stricmp( mEffectName, name );
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}
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void operator=(const SEffectTemplate &that);
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};
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template<typename T, int N>
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class PoolAllocator
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{
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public:
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PoolAllocator()
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: pool (new T[N])
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, freeAndAllocated (new int[N])
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, numFree (N)
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, highWatermark (0)
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{
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for ( int i = 0; i < N; i++ )
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{
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freeAndAllocated[i] = i;
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}
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}
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T *Alloc()
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{
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if ( numFree == 0 )
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{
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return NULL;
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}
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T *ptr = new (&pool[freeAndAllocated[0]]) T;
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std::rotate (freeAndAllocated, freeAndAllocated + 1, freeAndAllocated + N);
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numFree--;
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highWatermark = Q_max(highWatermark, N - numFree);
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return ptr;
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}
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void TransferTo ( PoolAllocator<T, N>& allocator )
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{
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allocator.freeAndAllocated = freeAndAllocated;
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allocator.highWatermark = highWatermark;
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allocator.numFree = numFree;
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allocator.pool = pool;
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highWatermark = 0;
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numFree = N;
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freeAndAllocated = NULL;
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pool = NULL;
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}
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bool OwnsPtr ( const T *ptr ) const
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{
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return ptr >= pool && ptr < (pool + N);
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}
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void Free ( T *ptr )
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{
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for ( int i = numFree; i < N; i++ )
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{
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T *p = &pool[freeAndAllocated[i]];
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if ( p == ptr )
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{
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if ( i > numFree )
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{
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std::rotate (freeAndAllocated + numFree, freeAndAllocated + i, freeAndAllocated + i + 1);
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}
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p->~T();
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numFree++;
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break;
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}
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}
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}
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int GetHighWatermark() const { return highWatermark; }
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~PoolAllocator()
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{
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for ( int i = numFree; i < N; i++ )
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{
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T *p = &pool[freeAndAllocated[i]];
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p->~T();
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}
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delete [] freeAndAllocated;
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delete [] pool;
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}
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private:
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PoolAllocator ( const PoolAllocator<T, N>& );
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PoolAllocator& operator = ( const PoolAllocator<T, N>& );
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T *pool;
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// The first 'numFree' elements are the indexes of the free slots.
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// The remaining elements are the indexes of the allocated slots.
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int *freeAndAllocated;
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int numFree;
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int highWatermark;
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};
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template<typename T, int N>
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class PagedPoolAllocator
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{
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public:
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PagedPoolAllocator ()
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: numPages (1)
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, pages (new PoolAllocator<T, N>[1]())
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{
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}
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T *Alloc ()
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{
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T *ptr = NULL;
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for ( int i = 0; i < numPages && ptr == NULL; i++ )
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{
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ptr = pages[i].Alloc ();
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}
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if ( ptr == NULL )
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{
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PoolAllocator<T, N> *newPages = new PoolAllocator<T, N>[numPages + 1] ();
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for ( int i = 0; i < numPages; i++ )
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{
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pages[i].TransferTo (newPages[i]);
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}
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delete[] pages;
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pages = newPages;
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ptr = pages[numPages].Alloc ();
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if ( ptr == NULL )
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{
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return NULL;
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}
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numPages++;
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}
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return ptr;
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}
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void Free ( T *ptr )
|
|
{
|
|
for ( int i = 0; i < numPages; i++ )
|
|
{
|
|
if ( pages[i].OwnsPtr (ptr) )
|
|
{
|
|
pages[i].Free (ptr);
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
|
|
int GetHighWatermark () const
|
|
{
|
|
int total = 0;
|
|
for ( int i = 0; i < numPages; i++ )
|
|
{
|
|
total += pages[i].GetHighWatermark ();
|
|
}
|
|
|
|
return total;
|
|
}
|
|
|
|
~PagedPoolAllocator ()
|
|
{
|
|
delete[] pages;
|
|
}
|
|
|
|
private:
|
|
int numPages;
|
|
PoolAllocator<T, N> *pages;
|
|
};
|
|
|
|
//-----------------------------------------------------------------
|
|
//
|
|
// CFxScheduler
|
|
//
|
|
// The scheduler not only handles requests to play an effect, it
|
|
// tracks the request throughout its life if necessary, creating
|
|
// any of the delayed components as needed.
|
|
//
|
|
//-----------------------------------------------------------------
|
|
class CFxScheduler
|
|
{
|
|
private:
|
|
|
|
// We hold a scheduled effect here
|
|
struct SScheduledEffect
|
|
{
|
|
CPrimitiveTemplate *mpTemplate; // primitive template
|
|
int mStartTime;
|
|
int mModelNum; // uset to determine which ghoul2 model we want to bolt this effect to
|
|
int mBoltNum; // used to determine which bolt on the ghoul2 model we should be attaching this effect to
|
|
int mEntNum; // used to determine which entity this ghoul model is attached to.
|
|
int mClientID; // FIXME: redundant??
|
|
vec3_t mOrigin;
|
|
vec3_t mAxis[3];
|
|
};
|
|
|
|
// this makes looking up the index based on the string name much easier
|
|
typedef std::map<fxString_t, int> TEffectID;
|
|
|
|
typedef std::list<SScheduledEffect*> TScheduledEffect;
|
|
|
|
// Effects
|
|
SEffectTemplate mEffectTemplates[FX_MAX_EFFECTS];
|
|
TEffectID mEffectIDs; // if you only have the unique effect name, you'll have to use this to get the ID.
|
|
|
|
// List of scheduled effects that will need to be created at the correct time.
|
|
TScheduledEffect mFxSchedule;
|
|
|
|
PagedPoolAllocator<SScheduledEffect, 1024> mScheduledEffectsPool;
|
|
|
|
// Private function prototypes
|
|
SEffectTemplate *GetNewEffectTemplate( int *id, const char *file );
|
|
|
|
void AddPrimitiveToEffect( SEffectTemplate *fx, CPrimitiveTemplate *prim );
|
|
int ParseEffect( const char *file, const CGPGroup& base );
|
|
|
|
void CreateEffect( CPrimitiveTemplate *fx, const vec3_t origin, vec3_t axis[3], int lateTime );
|
|
void CreateEffect( CPrimitiveTemplate *fx, int clientID, int lateTime );
|
|
|
|
public:
|
|
|
|
CFxScheduler();
|
|
|
|
int RegisterEffect( const char *file, bool bHasCorrectPath = false ); // handles pre-caching
|
|
|
|
|
|
// Nasty overloaded madness
|
|
void PlayEffect( int id, vec3_t org ); // uses a default up axis
|
|
void PlayEffect( int id, vec3_t org, vec3_t fwd ); // builds arbitrary perp. right vector, does a cross product to define up
|
|
void PlayEffect( int id, vec3_t origin, vec3_t axis[3], const int boltInfo=-1, const int entNum=-1 );
|
|
void PlayEffect( const char *file, vec3_t org ); // uses a default up axis
|
|
void PlayEffect( const char *file, vec3_t org, vec3_t fwd ); // builds arbitrary perp. right vector, does a cross product to define up
|
|
void PlayEffect( const char *file, vec3_t origin,
|
|
vec3_t axis[3], const int boltInfo, const int entNum );
|
|
|
|
void PlayEffect( const char *file, int clientID );
|
|
|
|
void AddScheduledEffects( void ); // call once per CGame frame
|
|
|
|
int NumScheduledFx() { return (int)mFxSchedule.size(); }
|
|
void Clean(bool bRemoveTemplates = true, int idToPreserve = 0); // clean out the system
|
|
|
|
// FX Override functions
|
|
SEffectTemplate *GetEffectCopy( int fxHandle, int *newHandle );
|
|
SEffectTemplate *GetEffectCopy( const char *file, int *newHandle );
|
|
|
|
CPrimitiveTemplate *GetPrimitiveCopy( SEffectTemplate *effectCopy, const char *componentName );
|
|
};
|
|
|
|
//-------------------
|
|
// The one and only
|
|
//-------------------
|
|
extern CFxScheduler theFxScheduler;
|
|
|
|
|
|
#endif // FX_SCHEDULER_H_INC
|