// LordHavoc: 256 dynamic lights
#define MAX_DLIGHTS 256
+// this is the maximum number of input packets that can be lost without a
+// misprediction
+#define CL_MAX_USERCMDS 16
+
// flags for rtlight rendering
#define LIGHTFLAG_NORMALMODE 1
#define LIGHTFLAG_REALTIMEMODE 2
struct model_s *model;
float endtime;
vec3_t start, end;
- // if this beam is owned by an entity, this is the beam start relative to
- // that entity's matrix for per frame start updates
- vec3_t relativestart;
- vec3_t relativeend;
- // indicates whether relativestart is valid
- int relativestartvalid;
}
beam_t;
// color of light
// (worldlight: saved to .rtlights file)
vec3_t color;
- // cubemap number to use on this light
- // (dlight only)
- int cubemapnum;
// cubemap name to use on this light
- // (worldlight only)
// (worldlight: saved to .rtlights file)
char cubemapname[64];
// make light flash while selected
// brightness (not really radius anymore)
// (worldlight: saved to .rtlights file)
vec_t radius;
- // drop radius this much each second
+ // drop intensity this much each second
// (dlight only)
vec_t decay;
+ // intensity value which is dropped over time
+ // (dlight only)
+ vec_t intensity;
+ // initial values for intensity to modify
+ // (dlight only)
+ vec_t initialradius;
+ vec3_t initialcolor;
// light style which controls intensity of this light
// (worldlight: saved to .rtlights file)
int style;
// (worldlight only)
struct dlight_s *next;
// embedded rtlight struct for renderer
- // (renderer only)
+ // (worldlight only)
rtlight_t rtlight;
}
dlight_t;
typedef struct entity_render_s
{
// location
- vec3_t origin;
+ //vec3_t origin;
// orientation
- vec3_t angles;
+ //vec3_t angles;
// transform matrix for model to world
matrix4x4_t matrix;
// transform matrix for world to model
// calculated by the renderer (but not persistent)
- // if visframe == r_framecount, it is visible
- int visframe;
// calculated during R_AddModelEntities
vec3_t mins, maxs;
// 4 frame numbers (-1 if not used) and their blending scalers (0-1), if interpolation is not desired, use frame instead
typedef struct entity_persistent_s
{
- int linkframe;
-
vec3_t trail_origin;
// particle trail
typedef struct entity_s
{
- qboolean csqc;
// baseline state (default values)
entity_state_t state_baseline;
// previous state (interpolating from this)
double time;
double receivetime;
+ int msec; // for qw moves
int buttons;
int impulse;
int sequence;
typedef enum capturevideoformat_e
{
- CAPTUREVIDEOFORMAT_TARGA,
- CAPTUREVIDEOFORMAT_JPEG,
- CAPTUREVIDEOFORMAT_RAWRGB,
- CAPTUREVIDEOFORMAT_RAWYV12
+ CAPTUREVIDEOFORMAT_AVI_I420
}
capturevideoformat_t;
+typedef struct capturevideostate_s
+{
+ double starttime;
+ double framerate;
+ // for AVI saving some values have to be written after capture ends
+ fs_offset_t videofile_totalframes_offset1;
+ fs_offset_t videofile_totalframes_offset2;
+ fs_offset_t videofile_totalsampleframes_offset;
+ qfile_t *videofile;
+ qboolean active;
+ qboolean realtime;
+ qboolean error;
+ capturevideoformat_t format;
+ int soundrate;
+ int frame;
+ int soundsampleframe; // for AVI saving
+ unsigned char *buffer;
+ sizebuf_t riffbuffer;
+ unsigned char riffbufferdata[128];
+ // note: riffindex buffer has an allocated ->data member, not static like most!
+ sizebuf_t riffindexbuffer;
+ int riffstacklevel;
+ fs_offset_t riffstackstartoffset[4];
+ short rgbtoyuvscaletable[3][3][256];
+ unsigned char yuvnormalizetable[3][256];
+ char basename[64];
+}
+capturevideostate_t;
+
+#define CL_MAX_DOWNLOADACKS 4
+
+typedef struct cl_downloadack_s
+{
+ int start, size;
+}
+cl_downloadack_t;
+
//
// the client_static_t structure is persistent through an arbitrary number
// of server connections
int td_startframe;
// realtime at second frame of timedemo (LordHavoc: changed to double)
double td_starttime;
- // LordHavoc: for measuring maxfps
- double td_minframetime;
- // LordHavoc: for measuring minfps
- double td_maxframetime;
+ double td_onesecondnexttime;
+ double td_onesecondframes;
+ double td_onesecondminframes;
+ double td_onesecondmaxframes;
+ double td_onesecondavgframes;
+ int td_onesecondavgcount;
// LordHavoc: pausedemo
qboolean demopaused;
// network connection
netconn_t *netcon;
+ // download information
+ // (note: qw_download variables are also used)
+ cl_downloadack_t dp_downloadack[CL_MAX_DOWNLOADACKS];
+
+ // input sequence numbers are not reset on level change, only connect
+ int movesequence;
+ int servermovesequence;
+
// quakeworld stuff below
// value of "qport" cvar at time of connection
int qw_qport;
+ // copied from cls.netcon->qw. variables every time they change, or set by demos (which have no cls.netcon)
+ int qw_incoming_sequence;
+ int qw_outgoing_sequence;
// current file download buffer (only saved when file is completed)
char qw_downloadname[MAX_QPATH];
int qw_downloadnumber;
int qw_downloadpercent;
qw_downloadtype_t qw_downloadtype;
+ // transfer rate display
+ double qw_downloadspeedtime;
+ int qw_downloadspeedcount;
+ int qw_downloadspeedrate;
// current file upload buffer (for uploading screenshots to server)
unsigned char *qw_uploaddata;
char userinfo[MAX_USERINFO_STRING];
// video capture stuff
- qboolean capturevideo_active;
- capturevideoformat_t capturevideo_format;
- double capturevideo_starttime;
- double capturevideo_framerate;
- int capturevideo_soundrate;
- int capturevideo_frame;
- unsigned char *capturevideo_buffer;
- qfile_t *capturevideo_videofile;
- qfile_t *capturevideo_soundfile;
- short capturevideo_rgbtoyuvscaletable[3][3][256];
- unsigned char capturevideo_yuvnormalizetable[3][256];
+ capturevideostate_t capturevideo;
}
client_static_t;
qboolean drawcrosshair;
}csqc_vidvars_t;
-typedef struct qw_usercmd_s
-{
- vec3_t angles;
- short forwardmove, sidemove, upmove;
- unsigned char padding1[2];
- unsigned char msec;
- unsigned char buttons;
- unsigned char impulse;
- unsigned char padding2;
-}
-qw_usercmd_t;
-
typedef enum
{
PARTICLE_BILLBOARD = 0,
float airfriction; // how much air friction affects this object (objects with a low mass/size ratio tend to get more air friction)
float liquidfriction; // how much liquid friction affects this object (objects with a low mass/size ratio tend to get more liquid friction)
unsigned char color[4];
- unsigned short owner; // decal stuck to this entity
+ unsigned int owner; // decal stuck to this entity
model_t *ownermodel; // model the decal is stuck to (used to make sure the entity is still alive)
vec3_t relativeorigin; // decal at this location in entity's coordinate space
vec3_t relativedirection; // decal oriented this way relative to entity's coordinate space
}
particle_t;
+typedef enum cl_parsingtextmode_e
+{
+ CL_PARSETEXTMODE_NONE,
+ CL_PARSETEXTMODE_PING,
+ CL_PARSETEXTMODE_STATUS,
+ CL_PARSETEXTMODE_STATUS_PLAYERID,
+ CL_PARSETEXTMODE_STATUS_PLAYERIP
+}
+cl_parsingtextmode_t;
+
//
// the client_state_t structure is wiped completely at every
// server signon
// true if playing in a local game and no one else is connected
int islocalgame;
- // when connecting to the server throw out the first couple move messages
- // so the player doesn't accidentally do something the first frame
- int movemessages;
-
// send a clc_nop periodically until connected
float sendnoptime;
- // current input to send to the server
+ // current input being accumulated by mouse/joystick/etc input
usercmd_t cmd;
+ // latest moves sent to the server that have not been confirmed yet
+ usercmd_t movecmd[CL_MAX_USERCMDS];
// information for local display
// health, etc
float weapontime;
// use pain anim frame if cl.time < this
float faceanimtime;
+ // for stair smoothing
+ float stairsmoothz;
+ double stairsmoothtime;
// color shifts for damage, powerups
cshift_t cshifts[NUM_CSHIFTS];
// client movement simulation
// these fields are only updated by CL_ClientMovement (called by CL_SendMove after parsing each network packet)
- qboolean movement;
+ // set by CL_ClientMovement_Replay functions
+ qboolean movement_predicted;
// this is set true by svc_time parsing and causes a new movement to be
// queued for prediction purposes
qboolean movement_needupdate;
- // indicates the queue has been updated and should be replayed
- qboolean movement_replay;
// timestamps of latest two predicted moves for interpolation
- double movement_time[2];
+ double movement_time[4];
// simulated data (this is valid even if cl.movement is false)
vec3_t movement_origin;
vec3_t movement_oldorigin;
vec3_t movement_velocity;
// queue of proposed moves
int movement_numqueue;
- client_movementqueue_t movement_queue[64];
- int movesequence;
- int servermovesequence;
+ client_movementqueue_t movement_queue[256];
+ // whether the replay should allow a jump at the first sequence
+ qboolean movement_replay_canjump;
// pitch drifting vars
float idealpitch;
// clients view of time, time should be between mtime[0] and mtime[1] to
// generate a lerp point for other data, oldtime is the previous frame's
// value of time, frametime is the difference between time and oldtime
+ // note: cl.time may be beyond cl.mtime[0] if packet loss is occuring, it
+ // is only forcefully limited when a packet is received
double time, oldtime;
// how long it has been since the previous client frame in real time
// (not game time, for that use cl.time - cl.oldtime)
// [cl.maxclients]
scoreboard_t *scores;
+ // keep track of svc_print parsing state (analyzes ping reports and status reports)
+ cl_parsingtextmode_t parsingtextmode;
+ int parsingtextplayerindex;
+ // set by scoreboard code when sending ping command, this causes the next ping results to be hidden
+ // (which could eat the wrong ping report if the player issues one
+ // manually, but they would still see a ping report, just a later one
+ // caused by the scoreboard code rather than the one they intentionally
+ // issued)
+ int parsingtextexpectingpingforscores;
+
// entity database stuff
// latest received entity frame numbers
#define LATESTFRAMENUMS 3
vec3_t playercrouchmaxs;
int max_entities;
- int max_csqcentities;
int max_static_entities;
int max_temp_entities;
int max_effects;
int max_particles;
entity_t *entities;
- entity_t *csqcentities; //[515]: csqc
unsigned char *entities_active;
- unsigned char *csqcentities_active; //[515]: csqc
entity_t *static_entities;
entity_t *temp_entities;
cl_effect_t *effects;
particle_t *particles;
int num_entities;
- int num_csqcentities; //[515]: csqc
int num_static_entities;
int num_temp_entities;
int num_brushmodel_entities;
int free_particle;
+ // cl_serverextension_download feature
+ int loadmodel_current;
+ int downloadmodel_current;
+ int loadmodel_total;
+ int loadsound_current;
+ int downloadsound_current;
+ int loadsound_total;
+ qboolean downloadcsqc;
+ qboolean loadfinished;
+
// quakeworld stuff
// local copy of the server infostring
// updated from serverinfo
int qw_teamplay;
- // indicates whether the player is spectating
- qboolean qw_spectator;
+ // unused: indicates whether the player is spectating
+ // use cl.scores[cl.playerentity].qw_spectator instead
+ //qboolean qw_spectator;
// movement parameters for client prediction
float qw_movevars_gravity;
int qw_validsequence;
- qw_usercmd_t qw_moves[QW_UPDATE_BACKUP];
-
int qw_deltasequence[QW_UPDATE_BACKUP];
+
+ // csqc stuff:
+
+ // collision culling data
+ world_t world;
}
client_state_t;
extern cvar_t cl_autofire;
-extern cvar_t csqc_progname; //[515]: csqc crc check and right csprogs name according to progs.dat
-extern cvar_t csqc_progcrc;
-
extern cvar_t cl_shownet;
extern cvar_t cl_nolerp;
+extern cvar_t cl_nettimesyncmode;
extern cvar_t cl_pitchdriftspeed;
extern cvar_t lookspring;
extern client_state_t cl;
-extern void CL_AllocDlight (entity_render_t *ent, matrix4x4_t *matrix, float radius, float red, float green, float blue, float decay, float lifetime, int cubemapnum, int style, int shadowenable, vec_t corona, vec_t coronasizescale, vec_t ambientscale, vec_t diffusescale, vec_t specularscale, int flags);
+extern void CL_AllocLightFlash (entity_render_t *ent, matrix4x4_t *matrix, float radius, float red, float green, float blue, float decay, float lifetime, int cubemapnum, int style, int shadowenable, vec_t corona, vec_t coronasizescale, vec_t ambientscale, vec_t diffusescale, vec_t specularscale, int flags);
//=============================================================================
void CL_Disconnect (void);
void CL_Disconnect_f (void);
-void CL_BoundingBoxForEntity(entity_render_t *ent);
-
-extern cvar_t cl_beams_polygons;
-extern cvar_t cl_beams_relative;
-extern cvar_t cl_beams_lightatend;
+void CL_UpdateRenderEntity(entity_render_t *ent);
+void CL_UpdateEntities(void);
//
// cl_input
void CL_MoveLerpEntityStates(entity_t *ent);
void CL_LerpUpdate(entity_t *e);
void CL_ParseTEnt (void);
+void CL_NewBeam (int ent, vec3_t start, vec3_t end, model_t *m, int lightning);
void CL_RelinkBeams (void);
+void CL_Beam_CalculatePositions (const beam_t *b, vec3_t start, vec3_t end);
void CL_ClearTempEntities (void);
entity_t *CL_NewTempEntity (void);
int CL_ReadFromServer (void);
void CL_WriteToServer (void);
-void CL_Move (void);
+void CL_Input (void);
extern qboolean cl_ignoremousemove;
EFFECT_TE_SUPERSPIKEQUAD,
EFFECT_TE_WIZSPIKE,
EFFECT_TE_KNIGHTSPIKE,
- EFFECT_TE_VORESPIKE,
EFFECT_TE_EXPLOSION,
EFFECT_TE_EXPLOSIONQUAD,
EFFECT_TE_TAREXPLOSION,
int CL_ParticleEffectIndexForName(const char *name);
const char *CL_ParticleEffectNameForIndex(int i);
void CL_ParticleEffect(int effectindex, float pcount, const vec3_t originmins, const vec3_t originmaxs, const vec3_t velocitymins, const vec3_t velocitymaxs, entity_t *ent, int palettecolor);
+void CL_ParticleTrail(int effectindex, float pcount, const vec3_t originmins, const vec3_t originmaxs, const vec3_t velocitymins, const vec3_t velocitymaxs, entity_t *ent, int palettecolor, qboolean spawndlight, qboolean spawnparticles);
void CL_ParseParticleEffect (void);
void CL_ParticleCube (const vec3_t mins, const vec3_t maxs, const vec3_t dir, int count, int colorbase, vec_t gravity, vec_t randomvel);
void CL_ParticleRain (const vec3_t mins, const vec3_t maxs, const vec3_t dir, int count, int colorbase, int type);
void R_MoveExplosions(void);
void R_NewExplosion(const vec3_t org);
+void Debug_PolygonBegin(const char *picname, int flags, qboolean draw2d, float linewidth);
+void Debug_PolygonVertex(float x, float y, float z, float s, float t, float r, float g, float b, float a);
+void Debug_PolygonEnd(void);
+
#include "cl_screen.h"
+extern qboolean sb_showscores;
+
#define NUMCROSSHAIRS 32
extern cachepic_t *r_crosshairs[NUMCROSSHAIRS+1];
-typedef struct refdef_s
+#define FOGTABLEWIDTH 1024
+extern int fogtableindex;
+#define VERTEXFOGTABLE(dist) (fogtableindex = (int)((dist) * r_refdef.fogtabledistmultiplier), r_refdef.fogtable[bound(0, fogtableindex, FOGTABLEWIDTH - 1)])
+
+typedef struct r_refdef_stats_s
{
- // area to render in
- int x, y, width, height;
- float frustum_x, frustum_y;
+ int entities;
+ int entities_surfaces;
+ int entities_triangles;
+ int world_leafs;
+ int world_portals;
+ int particles;
+ int meshes;
+ int meshes_elements;
+ int lights;
+ int lights_clears;
+ int lights_scissored;
+ int lights_lighttriangles;
+ int lights_shadowtriangles;
+ int lights_dynamicshadowtriangles;
+ int bloom;
+ int bloom_copypixels;
+ int bloom_drawpixels;
+}
+r_refdef_stats_t;
+
+typedef struct r_refdef_s
+{
+ // these fields define the basic rendering information for the world
+ // but not the view, which could change multiple times in one rendered
+ // frame (for example when rendering textures for certain effects)
// these are set for water warping before
// frustum_x/frustum_y are calculated
float frustumscale_x, frustumscale_y;
- // view transform
- matrix4x4_t viewentitymatrix;
-
- // which color components to allow (for anaglyph glasses)
- int colormask[4];
+ // minimum visible distance (pixels closer than this disappear)
+ double nearclip;
+ // maximum visible distance (pixels further than this disappear in 16bpp modes,
+ // in 32bpp an infinite-farclip matrix is used instead)
+ double farclip;
// fullscreen color blend
float viewblend[4];
int maxentities;
// renderable dynamic lights
- dlight_t *lights[MAX_DLIGHTS];
+ rtlight_t lights[MAX_DLIGHTS];
int numlights;
// 8.8bit fixed point intensities for light styles
// controls intensity of dynamic lights and lightmap layers
unsigned short lightstylevalue[256]; // 8.8 fraction of base light value
+ vec3_t fogcolor;
+ vec_t fogrange;
+ vec_t fograngerecip;
+ vec_t fogtabledistmultiplier;
+ float fogtable[FOGTABLEWIDTH];
+ float fog_density;
+ float fog_red;
+ float fog_green;
+ float fog_blue;
+ qboolean fogenabled;
+ qboolean oldgl_fogenable;
+
qboolean draw2dstage;
+
+ // true during envmap command capture
+ qboolean envmap;
+
+ // brightness of world lightmaps and related lighting
+ // (often reduced when world rtlights are enabled)
+ float lightmapintensity;
+ // whether to draw world lights realtime, dlights realtime, and their shadows
+ qboolean rtworld;
+ qboolean rtworldshadows;
+ qboolean rtdlight;
+ qboolean rtdlightshadows;
+ float polygonfactor;
+ float polygonoffset;
+ float shadowpolygonfactor;
+ float shadowpolygonoffset;
+
+ // rendering stats for r_speeds display
+ // (these are incremented in many places)
+ r_refdef_stats_t stats;
+}
+r_refdef_t;
+
+typedef struct r_view_s
+{
+ // view information (changes multiple times per frame)
+ // if any of these variables change then r_viewcache must be regenerated
+ // by calling R_View_Update
+ // (which also updates viewport, scissor, colormask)
+
+ // it is safe and expected to copy this into a structure on the stack and
+ // call the renderer recursively, then restore from the stack afterward
+ // (as long as R_View_Update is called)
+
+ // eye position information
+ matrix4x4_t matrix;
+ vec3_t origin;
+ vec3_t forward;
+ vec3_t left;
+ vec3_t right;
+ vec3_t up;
+ mplane_t frustum[5];
+ float frustum_x, frustum_y;
+
+ // screen area to render in
+ int x;
+ int y;
+ int z;
+ int width;
+ int height;
+ int depth;
+
+ // which color components to allow (for anaglyph glasses)
+ int colormask[4];
+
+ // global RGB color multiplier for rendering, this is required by HDR
+ float colorscale;
+}
+r_view_t;
+
+typedef struct r_viewcache_s
+{
+ // these properties are generated by R_View_Update()
+
+ // which entities are currently visible for this viewpoint
+ // (the used range is 0...r_refdef.numentities)
+ unsigned char entityvisible[MAX_EDICTS];
+ // flag arrays used for visibility checking on world model
+ // (all other entities have no per-surface/per-leaf visibility checks)
+ // TODO: dynamic resize according to r_refdef.worldmodel->brush.num_clusters
+ unsigned char world_pvsbits[(32768+7)>>3];
+ // TODO: dynamic resize according to r_refdef.worldmodel->brush.num_leafs
+ unsigned char world_leafvisible[32768];
+ // TODO: dynamic resize according to r_refdef.worldmodel->num_surfaces
+ unsigned char world_surfacevisible[262144];
+ // if true, the view is currently in a leaf without pvs data
+ qboolean world_novis;
}
-refdef_t;
+r_viewcache_t;
-extern refdef_t r_refdef;
+extern r_refdef_t r_refdef;
+extern r_view_t r_view;
+extern r_viewcache_t r_viewcache;
#endif