/** * @file partsyspacket.h * @brief Object for packing particle system initialization parameters * before sending them over the network * * $LicenseInfo:firstyear=2000&license=viewergpl$ * * Copyright (c) 2000-2008, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #ifndef LL_PARTSYSPACKET_H #define LL_PARTSYSPACKET_H #include "lluuid.h" // Particle system stuff const U64 PART_SYS_MAX_TIME_IN_USEC = 1000000; // 1 second, die not quite near instantaneously // this struct is for particle system initialization parameters // I'm breaking some rules here, but I need a storage structure to hold initialization data // for these things. Sorry guys, they're not simple enough (yet) to avoid this cleanly struct LLPartInitData { // please do not add functions to this class -- data only! //F32 k[18]; // first 9 --> x,y,z last 9 --> scale, alpha, rot //F32 kill_p[6]; // last one is for particles that die when they reach a spherical bounding radius //F32 kill_plane[3]; //F32 bounce_p[5]; F32 bounce_b; // recently changed // no need to store orientation and position here, as they're sent over seperately //F32 pos_ranges[6]; //F32 vel_ranges[6]; F32 scale_range[4]; F32 alpha_range[4]; F32 vel_offset[3]; //new - more understandable! F32 mDistBeginFadeout; // for fadeout LOD optimization F32 mDistEndFadeout; LLUUID mImageUuid; //U8 n; // number of particles U8 mFlags[8]; // for miscellaneous data --> its interpretation can change at my whim! U8 createMe; // do I need to be created? or has the work allready been done? //ActionFlag is now mFlags[PART_SYS_ACTION_BYTE] //Spawn point is initially object creation center F32 diffEqAlpha[3]; F32 diffEqScale[3]; U8 maxParticles; //How many particles exist at any time within the system? U8 initialParticles; //How many particles exist when the system is created? F32 killPlaneZ; //For simplicity assume the XY plane, so this sets an altitude at which to die F32 killPlaneNormal[3]; //Normal if not planar XY F32 bouncePlaneZ; //For simplicity assume the XY plane, so this sets an altitude at which to bounce F32 bouncePlaneNormal[3]; //Normal if not planar XY F32 spawnRange; //Range of emission points about the mSpawnPoint F32 spawnFrequency; //Required if the system is to spawn new particles. //This variable determines the time after a particle dies when it is respawned. F32 spawnFreqencyRange; //Determines the random range of time until a new particle is spawned. F32 spawnDirection[3]; //Direction vector giving the mean direction in which particles are spawned F32 spawnDirectionRange; //Direction limiting the angular range of emissions about the mean direction. 1.0f means everywhere, 0.0f means uni-directional F32 spawnVelocity; //The mean speed at which particles are emitted F32 spawnVelocityRange; //The range of speeds about the mean at which particles are emitted. F32 speedLimit; //Used to constrain particle maximum velocity F32 windWeight; //How much of an effect does wind have F32 currentGravity[3]; //Gravity direction used in update calculations F32 gravityWeight; //How much of an effect does gravity have F32 globalLifetime; //If particles re-spawn, a system can exist forever. //If (ActionFlags & PART_SYS_GLOBAL_DIE) is TRUE this variable is used to determine how long the system lasts. F32 individualLifetime; //How long does each particle last if nothing else happens to it F32 individualLifetimeRange; //Range of variation in individual lifetimes F32 alphaDecay; //By what factor does alpha decrease as the lifetime of a particle is approached. F32 scaleDecay; //By what factor does scale decrease as the lifetime of a particle is approached. F32 distanceDeath; //With the increased functionality, particle systems can expand to indefinite size //(e.g. wind can chaotically move particles into a wide spread). //To avoid particles exceeding normal object size constraints, //set the PART_SYS_DISTANCE_DEATH flag, and set a distance value here, representing a radius around the spawn point. F32 dampMotionFactor; //How much to damp motion F32 windDiffusionFactor[3]; //Change the size and alpha of particles as wind speed increases (scale gets bigger, alpha smaller) }; // constants for setting flag values // BYTES are in range 0-8, bits are in range 2^0 - 2^8 and can only be powers of two const int PART_SYS_NO_Z_BUFFER_BYTE = 0; // option to turn off z-buffer when rendering const int PART_SYS_NO_Z_BUFFER_BIT = 2; // particle systems -- // I advise against using this, as it looks bad in every case I've tried const int PART_SYS_SLOW_ANIM_BYTE = 0; // slow animation down by a factor of 10 const int PART_SYS_SLOW_ANIM_BIT = 1; // useful for tweaking anims during debugging const int PART_SYS_FOLLOW_VEL_BYTE = 0; // indicates whether to orient sprites towards const int PART_SYS_FOLLOW_VEL_BIT = 4; // their velocity vector -- default is FALSE const int PART_SYS_IS_LIGHT_BYTE = 0; // indicates whether a particular particle system const int PART_SYS_IS_LIGHT_BIT = 8; // is also a light object -- for andrew // should deprecate this once there is a general method for setting light properties of objects const int PART_SYS_SPAWN_COPY_BYTE = 0; // indicates whether to spawn baby particle systems on const int PART_SYS_SPAWN_COPY_BIT = 0x10; // particle death -- intended for smoke trails const int PART_SYS_COPY_VEL_BYTE = 0; // indicates whether baby particle systems inherit parents vel const int PART_SYS_COPY_VEL_BIT = 0x20; // (by default they don't) const int PART_SYS_INVISIBLE_BYTE = 0; // optional -- turn off display, just simulate const int PART_SYS_INVISIBLE_BIT = 0x40; // useful for smoke trails const int PART_SYS_ADAPT_TO_FRAMERATE_BYTE = 0; // drop sprites from render call proportionally const int PART_SYS_ADAPT_TO_FRAMERATE_BIT = 0x80; // to how far we are below 60 fps // 26 September 2001 - not even big enough to hold all changes, so should enlarge anyway //const U16 MAX_PART_SYS_PACKET_SIZE = 180; const U16 MAX_PART_SYS_PACKET_SIZE = 256; //const U8 PART_SYS_K_MASK = 0x01; const U8 PART_SYS_KILL_P_MASK = 0x02; const U8 PART_SYS_BOUNCE_P_MASK = 0x04; const U8 PART_SYS_BOUNCE_B_MASK = 0x08; //const U8 PART_SYS_POS_RANGES_MASK = 0x10; //const U8 PART_SYS_VEL_RANGES_MASK = 0x20; const U8 PART_SYS_VEL_OFFSET_MASK = 0x10; //re-use one of the original slots now commented out const U8 PART_SYS_ALPHA_SCALE_DIFF_MASK = 0x20; //re-use one of the original slots now commented out const U8 PART_SYS_SCALE_RANGE_MASK = 0x40; const U8 PART_SYS_M_IMAGE_UUID_MASK = 0x80; const U8 PART_SYS_BYTE_3_ALPHA_MASK = 0x01; // wrapped around, didn't we? const U8 PART_SYS_BYTE_SPAWN_MASK = 0x01; const U8 PART_SYS_BYTE_ENVIRONMENT_MASK = 0x02; const U8 PART_SYS_BYTE_LIFESPAN_MASK = 0x04; const U8 PART_SYS_BYTE_DECAY_DAMP_MASK = 0x08; const U8 PART_SYS_BYTE_WIND_DIFF_MASK = 0x10; // 26 September 2001 - new constants for mActionFlags const int PART_SYS_ACTION_BYTE = 1; const U8 PART_SYS_SPAWN = 0x01; const U8 PART_SYS_BOUNCE = 0x02; const U8 PART_SYS_AFFECTED_BY_WIND = 0x04; const U8 PART_SYS_AFFECTED_BY_GRAVITY = 0x08; const U8 PART_SYS_EVALUATE_WIND_PER_PARTICLE = 0x10; const U8 PART_SYS_DAMP_MOTION = 0x20; const U8 PART_SYS_WIND_DIFFUSION = 0x40; // 26 September 2001 - new constants for mKillFlags const int PART_SYS_KILL_BYTE = 2; const U8 PART_SYS_KILL_PLANE = 0x01; const U8 PART_SYS_GLOBAL_DIE = 0x02; const U8 PART_SYS_DISTANCE_DEATH = 0x04; const U8 PART_SYS_TIME_DEATH = 0x08; // global, because the sim-side also calls it in the LLPartInitDataFactory void gSetInitDataDefaults(LLPartInitData *setMe); class LLPartSysCompressedPacket { public: LLPartSysCompressedPacket(); ~LLPartSysCompressedPacket(); BOOL fromLLPartInitData(LLPartInitData *in, U32 &bytesUsed); BOOL toLLPartInitData(LLPartInitData *out, U32 *bytesUsed); BOOL fromUnsignedBytes(U8 *in, U32 bytesUsed); BOOL toUnsignedBytes(U8 *out); U32 bufferSize(); U8 *getBytePtr(); protected: U8 mData[MAX_PART_SYS_PACKET_SIZE]; U32 mNumBytes; LLPartInitData mDefaults; // this is intended to hold default LLPartInitData values // please do not modify it LLPartInitData mWorkingCopy; // uncompressed data I'm working with protected: // private functions (used only to break up code) void writeFlagByte(LLPartInitData *in); //U32 writeK(LLPartInitData *in, U32 startByte); U32 writeKill_p(LLPartInitData *in, U32 startByte); U32 writeBounce_p(LLPartInitData *in, U32 startByte); U32 writeBounce_b(LLPartInitData *in, U32 startByte); //U32 writePos_ranges(LLPartInitData *in, U32 startByte); //U32 writeVel_ranges(LLPartInitData *in, U32 startByte); U32 writeAlphaScaleDiffEqn_range(LLPartInitData *in, U32 startByte); U32 writeScale_range(LLPartInitData *in, U32 startByte); U32 writeAlpha_range(LLPartInitData *in, U32 startByte); U32 writeUUID(LLPartInitData *in, U32 startByte); U32 writeVelocityOffset(LLPartInitData *in, U32 startByte); U32 writeSpawn(LLPartInitData *in, U32 startByte); //all spawn data U32 writeEnvironment(LLPartInitData *in, U32 startByte); //wind and gravity U32 writeLifespan(LLPartInitData *in, U32 startByte); //lifespan data - individual and global U32 writeDecayDamp(LLPartInitData *in, U32 startByte); //alpha and scale, and motion damp U32 writeWindDiffusionFactor(LLPartInitData *in, U32 startByte); //U32 readK(LLPartInitData *in, U32 startByte); U32 readKill_p(LLPartInitData *in, U32 startByte); U32 readBounce_p(LLPartInitData *in, U32 startByte); U32 readBounce_b(LLPartInitData *in, U32 startByte); //U32 readPos_ranges(LLPartInitData *in, U32 startByte); //U32 readVel_ranges(LLPartInitData *in, U32 startByte); U32 readAlphaScaleDiffEqn_range(LLPartInitData *in, U32 startByte); U32 readScale_range(LLPartInitData *in, U32 startByte); U32 readAlpha_range(LLPartInitData *in, U32 startByte); U32 readUUID(LLPartInitData *in, U32 startByte); U32 readVelocityOffset(LLPartInitData *in, U32 startByte); U32 readSpawn(LLPartInitData *in, U32 startByte); //all spawn data U32 readEnvironment(LLPartInitData *in, U32 startByte); //wind and gravity U32 readLifespan(LLPartInitData *in, U32 startByte); //lifespan data - individual and global U32 readDecayDamp(LLPartInitData *in, U32 startByte); //alpha and scale, and motion damp U32 readWindDiffusionFactor(LLPartInitData *in, U32 startByte); }; #endif