jedioutcast/code/game/q_shared.h
2013-04-04 13:24:26 -05:00

1656 lines
44 KiB
C

#ifndef __Q_SHARED_H
#define __Q_SHARED_H
// q_shared.h -- included first by ALL program modules.
// A user mod should never modify this file
#ifdef _WIN32
#pragma warning(disable : 4018) // signed/unsigned mismatch
//#pragma warning(disable : 4032) //formal parameter 'number' has different type when promoted
//#pragma warning(disable : 4051) //type conversion; possible loss of data
//#pragma warning(disable : 4057) // slightly different base types
#pragma warning(disable : 4100) // unreferenced formal parameter
//#pragma warning(disable : 4115) //'type' : named type definition in parentheses
#pragma warning(disable : 4125) // decimal digit terminates octal escape sequence
#pragma warning(disable : 4127) // conditional expression is constant
//#pragma warning(disable : 4136) //conversion between different floating-point types
//#pragma warning(disable : 4201) //nonstandard extension used : nameless struct/union
//#pragma warning(disable : 4214) //nonstandard extension used : bit field types other than int
//#pragma warning(disable : 4220) // varargs matches remaining parameters
#pragma warning(disable : 4244) //'conversion' conversion from 'type1' to 'type2', possible loss of data
#pragma warning(disable : 4284) // return type not UDT
//#pragma warning(disable : 4305) // truncation from const double to float
#pragma warning(disable : 4310) // cast truncates constant value
#pragma warning(disable : 4514) //unreferenced inline/local function has been removed
#pragma warning(disable : 4710) // not inlined
#pragma warning(disable : 4711) // selected for automatic inline expansion
#pragma warning(disable : 4786) // identifier was truncated
#endif
#include <assert.h>
#include <math.h>
#include <stdio.h>
#include <stdarg.h>
#include <string.h>
#include <stdlib.h>
#include <time.h>
#include <ctype.h>
// this is the define for determining if we have an asm version of a C function
#if (defined _M_IX86 || defined __i386__) && !defined __sun__ && !defined __LCC__
#define id386 1
#else
#define id386 0
#endif
// for windows fastcall option
#define QDECL
//======================= WIN32 DEFINES =================================
#ifdef WIN32
#define MAC_STATIC
#undef QDECL
#define QDECL __cdecl
// buildstring will be incorporated into the version string
#ifdef NDEBUG
#ifdef _M_IX86
#define CPUSTRING "win-x86"
#elif defined _M_ALPHA
#define CPUSTRING "win-AXP"
#endif
#else
#ifdef _M_IX86
#define CPUSTRING "win-x86-debug"
#elif defined _M_ALPHA
#define CPUSTRING "win-AXP-debug"
#endif
#endif
#define PATH_SEP '\\'
#endif
//======================= MAC OS X SERVER DEFINES =====================
#if defined(__MACH__) && defined(__APPLE__)
#define MAC_STATIC
#ifdef __ppc__
#define CPUSTRING "MacOSXS-ppc"
#elif defined __i386__
#define CPUSTRING "MacOSXS-i386"
#else
#define CPUSTRING "MacOSXS-other"
#endif
#define PATH_SEP '/'
#define GAME_HARD_LINKED
#define CGAME_HARD_LINKED
#define UI_HARD_LINKED
#endif
//======================= MAC DEFINES =================================
#ifdef __MACOS__
#define MAC_STATIC static
#define CPUSTRING "MacOS-PPC"
#define PATH_SEP ':'
#define GAME_HARD_LINKED
#define CGAME_HARD_LINKED
#define UI_HARD_LINKED
void Sys_PumpEvents( void );
#endif
//======================= LINUX DEFINES =================================
// the mac compiler can't handle >32k of locals, so we
// just waste space and make big arrays static...
#ifdef __linux__
#define MAC_STATIC
#ifdef __i386__
#define CPUSTRING "linux-i386"
#elif defined __axp__
#define CPUSTRING "linux-alpha"
#else
#define CPUSTRING "linux-other"
#endif
#define PATH_SEP '/'
#endif
//=============================================================
typedef unsigned long ulong;
typedef unsigned short word;
typedef unsigned char byte;
typedef enum {qfalse, qtrue} qboolean;
#define qboolean int //don't want strict type checking on the qboolean
typedef int qhandle_t;
typedef int fxHandle_t;
typedef int sfxHandle_t;
typedef int fileHandle_t;
typedef int clipHandle_t;
#ifndef NULL
#define NULL ((void *)0)
#endif
#define MAX_QINT 0x7fffffff
#define MIN_QINT (-MAX_QINT-1)
// angle indexes
#define PITCH 0 // up / down
#define YAW 1 // left / right
#define ROLL 2 // fall over
// the game guarantees that no string from the network will ever
// exceed MAX_STRING_CHARS
#define MAX_STRING_CHARS 1024 // max length of a string passed to Cmd_TokenizeString
#define MAX_STRING_TOKENS 256 // max tokens resulting from Cmd_TokenizeString
#define MAX_TOKEN_CHARS 1024 // max length of an individual token
#define MAX_INFO_STRING 1024
#define MAX_INFO_KEY 1024
#define MAX_INFO_VALUE 1024
#define MAX_QPATH 64 // max length of a quake game pathname
#define MAX_OSPATH 128 // max length of a filesystem pathname
#define MAX_NAME_LENGTH 32 // max length of a client name
// paramters for command buffer stuffing
typedef enum {
EXEC_NOW, // don't return until completed, a VM should NEVER use this,
// because some commands might cause the VM to be unloaded...
EXEC_INSERT, // insert at current position, but don't run yet
EXEC_APPEND // add to end of the command buffer (normal case)
} cbufExec_t;
//
// these aren't needed by any of the VMs. put in another header?
//
#define MAX_MAP_AREA_BYTES 32 // bit vector of area visibility
// Light Style Constants
#define LS_STYLES_START 0
#define LS_NUM_STYLES 32
#define LS_SWITCH_START (LS_STYLES_START+LS_NUM_STYLES)
#define LS_NUM_SWITCH 32
#define MAX_LIGHT_STYLES 64
// print levels from renderer (FIXME: set up for game / cgame?)
typedef enum {
PRINT_ALL,
PRINT_DEVELOPER, // only print when "developer 1"
PRINT_WARNING,
PRINT_ERROR
} printParm_t;
// parameters to the main Error routine
typedef enum {
ERR_FATAL, // exit the entire game with a popup window
ERR_DROP, // print to console and disconnect from game
ERR_DISCONNECT, // don't kill server
ERR_NEED_CD // pop up the need-cd dialog
} errorParm_t;
// font rendering values used by ui and cgame
#define PROP_GAP_WIDTH 2
//#define PROP_GAP_WIDTH 3
#define PROP_SPACE_WIDTH 4
#define PROP_HEIGHT 16
#define PROP_TINY_SIZE_SCALE 1
#define PROP_SMALL_SIZE_SCALE 1
#define PROP_BIG_SIZE_SCALE 1
#define PROP_GIANT_SIZE_SCALE 2
#define PROP_TINY_HEIGHT 10
#define PROP_GAP_TINY_WIDTH 1
#define PROP_SPACE_TINY_WIDTH 3
#define PROP_BIG_HEIGHT 24
#define PROP_GAP_BIG_WIDTH 3
#define PROP_SPACE_BIG_WIDTH 6
#define BLINK_DIVISOR 600
#define PULSE_DIVISOR 75
#define UI_LEFT 0x00000000 // default
#define UI_CENTER 0x00000001
#define UI_RIGHT 0x00000002
#define UI_FORMATMASK 0x00000007
#define UI_SMALLFONT 0x00000010
#define UI_BIGFONT 0x00000020 // default
#define UI_GIANTFONT 0x00000040
#define UI_DROPSHADOW 0x00000800
#define UI_BLINK 0x00001000
#define UI_INVERSE 0x00002000
#define UI_PULSE 0x00004000
#define UI_UNDERLINE 0x00008000
#define UI_TINYFONT 0x00010000
// stuff for TA's ROQ cinematic code...
//
#define CIN_system 1
#define CIN_loop 2
#define CIN_hold 4
#define CIN_silent 8
#define CIN_shader 16
/*
==============================================================
MATHLIB
==============================================================
*/
typedef float vec_t;
typedef vec_t vec2_t[2];
typedef vec_t vec3_t[3];
typedef vec_t vec4_t[4];
typedef vec_t vec5_t[5];
typedef int fixed4_t;
typedef int fixed8_t;
typedef int fixed16_t;
#ifndef M_PI
#define M_PI 3.14159265358979323846 // matches value in gcc v2 math.h
#endif
#define NUMVERTEXNORMALS 162
extern vec3_t bytedirs[NUMVERTEXNORMALS];
// all drawing is done to a 640*480 virtual screen size
// and will be automatically scaled to the real resolution
#define SCREEN_WIDTH 640
#define SCREEN_HEIGHT 480
#define TINYCHAR_WIDTH (SMALLCHAR_WIDTH)
#define TINYCHAR_HEIGHT (SMALLCHAR_HEIGHT/2)
#define SMALLCHAR_WIDTH 8
#define SMALLCHAR_HEIGHT 16
#define BIGCHAR_WIDTH 16
#define BIGCHAR_HEIGHT 16
#define GIANTCHAR_WIDTH 32
#define GIANTCHAR_HEIGHT 48
typedef enum
{
CT_NONE,
CT_BLACK,
CT_RED,
CT_GREEN,
CT_BLUE,
CT_YELLOW,
CT_MAGENTA,
CT_CYAN,
CT_WHITE,
CT_LTGREY,
CT_MDGREY,
CT_DKGREY,
CT_DKGREY2,
CT_VLTORANGE,
CT_LTORANGE,
CT_DKORANGE,
CT_VDKORANGE,
CT_VLTBLUE1,
CT_LTBLUE1,
CT_DKBLUE1,
CT_VDKBLUE1,
CT_VLTBLUE2,
CT_LTBLUE2,
CT_DKBLUE2,
CT_VDKBLUE2,
CT_VLTBROWN1,
CT_LTBROWN1,
CT_DKBROWN1,
CT_VDKBROWN1,
CT_VLTGOLD1,
CT_LTGOLD1,
CT_DKGOLD1,
CT_VDKGOLD1,
CT_VLTPURPLE1,
CT_LTPURPLE1,
CT_DKPURPLE1,
CT_VDKPURPLE1,
CT_VLTPURPLE2,
CT_LTPURPLE2,
CT_DKPURPLE2,
CT_VDKPURPLE2,
CT_VLTPURPLE3,
CT_LTPURPLE3,
CT_DKPURPLE3,
CT_VDKPURPLE3,
CT_VLTRED1,
CT_LTRED1,
CT_DKRED1,
CT_VDKRED1,
CT_VDKRED,
CT_DKRED,
CT_VLTAQUA,
CT_LTAQUA,
CT_DKAQUA,
CT_VDKAQUA,
CT_LTPINK,
CT_DKPINK,
CT_LTCYAN,
CT_DKCYAN,
CT_LTBLUE3,
CT_BLUE3,
CT_DKBLUE3,
CT_HUD_GREEN,
CT_HUD_RED,
CT_ICON_BLUE,
CT_NO_AMMO_RED,
CT_HUD_ORANGE,
CT_MAX
} ct_table_t;
extern vec4_t colorTable[CT_MAX];
#define Q_COLOR_ESCAPE '^'
#define Q_IsColorString(p) ( p && *(p) == Q_COLOR_ESCAPE && *((p)+1) && *((p)+1) != Q_COLOR_ESCAPE )
#define COLOR_BLACK '0'
#define COLOR_RED '1'
#define COLOR_GREEN '2'
#define COLOR_YELLOW '3'
#define COLOR_BLUE '4'
#define COLOR_CYAN '5'
#define COLOR_MAGENTA '6'
#define COLOR_WHITE '7'
#define ColorIndex(c) ( ( (c) - '0' ) & 7 )
#define S_COLOR_BLACK "^0"
#define S_COLOR_RED "^1"
#define S_COLOR_GREEN "^2"
#define S_COLOR_YELLOW "^3"
#define S_COLOR_BLUE "^4"
#define S_COLOR_CYAN "^5"
#define S_COLOR_MAGENTA "^6"
#define S_COLOR_WHITE "^7"
extern vec4_t g_color_table[8];
#define MAKERGB( v, r, g, b ) v[0]=r;v[1]=g;v[2]=b
#define MAKERGBA( v, r, g, b, a ) v[0]=r;v[1]=g;v[2]=b;v[3]=a
// Player weapons effects
typedef enum
{
SABER_RED,
SABER_ORANGE,
SABER_YELLOW,
SABER_GREEN,
SABER_BLUE,
SABER_PURPLE
} saber_colors_t;
#define MAX_BATTERIES 2500
#define DEG2RAD( a ) ( ( (a) * M_PI ) / 180.0F )
#define RAD2DEG( a ) ( ( (a) * 180.0f ) / M_PI )
#define ENUM2STRING(arg) #arg,arg
struct cplane_s;
extern const vec3_t vec3_origin;
extern const vec3_t axisDefault[3];
#define nanmask (255<<23)
#define IS_NAN(x) (((*(int *)&x)&nanmask)==nanmask)
float Q_fabs( float f );
float Q_rsqrt( float f ); // reciprocal square root
#define SQRTFAST( x ) ( 1.0f / Q_rsqrt( x ) )
signed char ClampChar( int i );
signed short ClampShort( int i );
// this isn't a real cheap function to call!
int DirToByte( vec3_t dir );
void ByteToDir( int b, vec3_t dir );
#define _DotProduct(x,y) ((x)[0]*(y)[0]+(x)[1]*(y)[1]+(x)[2]*(y)[2])
#define _VectorSubtract(a,b,c) ((c)[0]=(a)[0]-(b)[0],(c)[1]=(a)[1]-(b)[1],(c)[2]=(a)[2]-(b)[2])
#define _VectorAdd(a,b,c) ((c)[0]=(a)[0]+(b)[0],(c)[1]=(a)[1]+(b)[1],(c)[2]=(a)[2]+(b)[2])
#define _VectorCopy(a,b) ((b)[0]=(a)[0],(b)[1]=(a)[1],(b)[2]=(a)[2])
#define _VectorScale(v, s, o) ((o)[0]=(v)[0]*(s),(o)[1]=(v)[1]*(s),(o)[2]=(v)[2]*(s))
#define _VectorMA(v, s, b, o) ((o)[0]=(v)[0]+(b)[0]*(s),(o)[1]=(v)[1]+(b)[1]*(s),(o)[2]=(v)[2]+(b)[2]*(s))
#ifdef __LCC__
#ifdef VectorCopy
#undef VectorCopy
// this is a little hack to get more efficient copies
typedef struct {
float v[3];
} vec3struct_t;
#define VectorCopy(a,b) *(vec3struct_t *)b=*(vec3struct_t *)a;
#endif
#endif
#define VectorClear(a) ((a)[0]=(a)[1]=(a)[2]=0)
#define VectorNegate(a,b) ((b)[0]=-(a)[0],(b)[1]=-(a)[1],(b)[2]=-(a)[2])
#define VectorSet(v, x, y, z) ((v)[0]=(x), (v)[1]=(y), (v)[2]=(z))
#define Vector4Copy(a,b) ((b)[0]=(a)[0],(b)[1]=(a)[1],(b)[2]=(a)[2],(b)[3]=(a)[3])
#define SnapVector(v) {v[0]=(int)v[0];v[1]=(int)v[1];v[2]=(int)v[2];}
// just in case you do't want to use the macros
inline void VectorMA( const vec3_t veca, float scale, const vec3_t vecb, vec3_t vecc) {
vecc[0] = veca[0] + scale*vecb[0];
vecc[1] = veca[1] + scale*vecb[1];
vecc[2] = veca[2] + scale*vecb[2];
}
inline vec_t DotProduct( const vec3_t v1, const vec3_t v2 ) {
return v1[0]*v2[0] + v1[1]*v2[1] + v1[2]*v2[2];
}
inline void CrossProduct( const vec3_t v1, const vec3_t v2, vec3_t cross ) {
cross[0] = v1[1]*v2[2] - v1[2]*v2[1];
cross[1] = v1[2]*v2[0] - v1[0]*v2[2];
cross[2] = v1[0]*v2[1] - v1[1]*v2[0];
}
inline void VectorSubtract( const vec3_t veca, const vec3_t vecb, vec3_t out ) {
out[0] = veca[0]-vecb[0];
out[1] = veca[1]-vecb[1];
out[2] = veca[2]-vecb[2];
}
inline void VectorAdd( const vec3_t veca, const vec3_t vecb, vec3_t out ) {
out[0] = veca[0]+vecb[0];
out[1] = veca[1]+vecb[1];
out[2] = veca[2]+vecb[2];
}
inline void VectorCopy( const vec3_t in, vec3_t out ) {
out[0] = in[0];
out[1] = in[1];
out[2] = in[2];
}
inline void VectorScale( const vec3_t in, vec_t scale, vec3_t out ) {
out[0] = in[0]*scale;
out[1] = in[1]*scale;
out[2] = in[2]*scale;
}
float DotProductNormalize( const vec3_t inVec1, const vec3_t inVec2 );
unsigned ColorBytes3 (float r, float g, float b);
unsigned ColorBytes4 (float r, float g, float b, float a);
float NormalizeColor( const vec3_t in, vec3_t out );
float RadiusFromBounds( const vec3_t mins, const vec3_t maxs );
void ClearBounds( vec3_t mins, vec3_t maxs );
inline void AddPointToBounds( const vec3_t v, vec3_t mins, vec3_t maxs ) {
if ( v[0] < mins[0] ) {
mins[0] = v[0];
}
if ( v[0] > maxs[0]) {
maxs[0] = v[0];
}
if ( v[1] < mins[1] ) {
mins[1] = v[1];
}
if ( v[1] > maxs[1]) {
maxs[1] = v[1];
}
if ( v[2] < mins[2] ) {
mins[2] = v[2];
}
if ( v[2] > maxs[2]) {
maxs[2] = v[2];
}
}
inline int VectorCompare( const vec3_t v1, const vec3_t v2 ) {
if (v1[0] != v2[0] || v1[1] != v2[1] || v1[2] != v2[2]) {
return 0;
}
return 1;
}
//NOTE: less precise
inline int VectorCompare2( const vec3_t v1, const vec3_t v2 ) {
if ( v1[0] > v2[0]+0.0001f || v1[0] < v2[0]-0.0001f
|| v1[1] > v2[1]+0.0001f || v1[1] < v2[1]-0.0001f
|| v1[2] > v2[2]+0.0001f || v1[2] < v2[2]-0.0001f ) {
return 0;
}
return 1;
}
inline vec_t VectorLength( const vec3_t v ) {
return (vec_t)sqrt (v[0]*v[0] + v[1]*v[1] + v[2]*v[2]);
}
inline vec_t VectorLengthSquared( const vec3_t v ) {
return (v[0]*v[0] + v[1]*v[1] + v[2]*v[2]);
}
inline vec_t Distance( const vec3_t p1, const vec3_t p2 ) {
vec3_t v;
VectorSubtract (p2, p1, v);
return VectorLength( v );
}
inline vec_t DistanceSquared( const vec3_t p1, const vec3_t p2 ) {
vec3_t v;
VectorSubtract (p2, p1, v);
return v[0]*v[0] + v[1]*v[1] + v[2]*v[2];
}
// fast vector normalize routine that does not check to make sure
// that length != 0, nor does it return length, uses rsqrt approximation
inline void VectorNormalizeFast( vec3_t v )
{
float ilength;
ilength = Q_rsqrt( DotProduct( v, v ) );
v[0] *= ilength;
v[1] *= ilength;
v[2] *= ilength;
}
inline void VectorInverse( vec3_t v ){
v[0] = -v[0];
v[1] = -v[1];
v[2] = -v[2];
}
inline void VectorRotate( vec3_t in, vec3_t matrix[3], vec3_t out )
{
out[0] = DotProduct( in, matrix[0] );
out[1] = DotProduct( in, matrix[1] );
out[2] = DotProduct( in, matrix[2] );
}
//if length is 0, v is untouched otherwise v is normalized
inline vec_t VectorNormalize( vec3_t v ) {
float length, ilength;
length = v[0]*v[0] + v[1]*v[1] + v[2]*v[2];
length = sqrt (length);
if ( length ) {
ilength = 1/length;
v[0] *= ilength;
v[1] *= ilength;
v[2] *= ilength;
}
return length;
}
//if length is 0, out is cleared, otherwise out is normalized
inline vec_t VectorNormalize2( const vec3_t v, vec3_t out) {
float length, ilength;
length = v[0]*v[0] + v[1]*v[1] + v[2]*v[2];
length = sqrt (length);
if (length)
{
ilength = 1/length;
out[0] = v[0]*ilength;
out[1] = v[1]*ilength;
out[2] = v[2]*ilength;
} else {
VectorClear( out );
}
return length;
}
int Q_log2(int val);
inline int Q_rand( int *seed ) {
*seed = (69069 * *seed + 1);
return *seed;
}
inline float Q_random( int *seed ) {
return ( Q_rand( seed ) & 0xffff ) / (float)0x10000;
}
inline float Q_crandom( int *seed ) {
return 2.0F * ( Q_random( seed ) - 0.5f );
}
// Returns a float min <= x < max (exclusive; will get max - 0.00001; but never max
inline float Q_flrand(float min, float max) {
return ((rand() * (max - min)) / 32768.0F) + min;
}
// Returns an integer min <= x <= max (ie inclusive)
inline int Q_irand(int min, int max) {
max++; //so it can round down
return ((rand() * (max - min)) >> 15) + min;
}
//returns a float between 0 and 1.0
inline float random() {
return (rand() / ((float)0x7fff));
}
//returns a float between -1 and 1.0
inline float crandom() {
return (2.0F * (random() - 0.5F));
}
float erandom( float mean );
void AngleVectors( const vec3_t angles, vec3_t forward, vec3_t right, vec3_t up);
/*
=================
AnglesToAxis
=================
*/
inline void AnglesToAxis( const vec3_t angles, vec3_t axis[3] ) {
vec3_t right;
// angle vectors returns "right" instead of "y axis"
AngleVectors( angles, axis[0], right, axis[2] );
VectorSubtract( vec3_origin, right, axis[1] );
}
inline void AxisClear( vec3_t axis[3] ) {
axis[0][0] = 1;
axis[0][1] = 0;
axis[0][2] = 0;
axis[1][0] = 0;
axis[1][1] = 1;
axis[1][2] = 0;
axis[2][0] = 0;
axis[2][1] = 0;
axis[2][2] = 1;
}
inline void AxisCopy( const vec3_t in[3], vec3_t out[3] ) {
VectorCopy( in[0], out[0] );
VectorCopy( in[1], out[1] );
VectorCopy( in[2], out[2] );
}
void vectoangles( const vec3_t value1, vec3_t angles);
vec_t DistanceHorizontal( const vec3_t p1, const vec3_t p2 );
vec_t DistanceHorizontalSquared( const vec3_t p1, const vec3_t p2 );
inline vec_t GetYawForDirection( const vec3_t p1, const vec3_t p2 ) {
vec3_t v, angles;
VectorSubtract( p2, p1, v );
vectoangles( v, angles );
return angles[YAW];
}
inline void GetAnglesForDirection( const vec3_t p1, const vec3_t p2, vec3_t out ) {
vec3_t v;
VectorSubtract( p2, p1, v );
vectoangles( v, out );
}
void SetPlaneSignbits( struct cplane_s *out );
int BoxOnPlaneSide (vec3_t emins, vec3_t emaxs, struct cplane_s *plane);
//float AngleMod(float a);
inline float LerpAngle (float from, float to, float frac) {
float a;
if ( to - from > 180 ) {
to -= 360;
}
if ( to - from < -180 ) {
to += 360;
}
a = from + frac * (to - from);
return a;
}
/*
=================
AngleSubtract
Always returns a value from -180 to 180
=================
*/
inline float AngleSubtract( float a1, float a2 ) {
float a;
a = a1 - a2;
while ( a > 180 ) {
a -= 360;
}
while ( a < -180 ) {
a += 360;
}
return a;
}
inline void AnglesSubtract( vec3_t v1, vec3_t v2, vec3_t v3 ) {
v3[0] = AngleSubtract( v1[0], v2[0] );
v3[1] = AngleSubtract( v1[1], v2[1] );
v3[2] = AngleSubtract( v1[2], v2[2] );
}
/*
=================
AngleNormalize360
returns angle normalized to the range [0 <= angle < 360]
=================
*/
inline float AngleNormalize360 ( float angle ) {
return (360.0 / 65536) * ((int)(angle * (65536 / 360.0)) & 65535);
}
/*
=================
AngleNormalize180
returns angle normalized to the range [-180 < angle <= 180]
=================
*/
inline float AngleNormalize180 ( float angle ) {
angle = AngleNormalize360( angle );
if ( angle > 180.0 ) {
angle -= 360.0;
}
return angle;
}
/*
=================
AngleDelta
returns the normalized delta from angle1 to angle2
=================
*/
inline float AngleDelta ( float angle1, float angle2 ) {
return AngleNormalize180( angle1 - angle2 );
}
qboolean PlaneFromPoints( vec4_t plane, const vec3_t a, const vec3_t b, const vec3_t c );
void ProjectPointOnPlane( vec3_t dst, const vec3_t p, const vec3_t normal );
void RotatePointAroundVector( vec3_t dst, const vec3_t dir, const vec3_t point, float degrees );
void RotateAroundDirection( vec3_t axis[3], float yaw );
void MakeNormalVectors( const vec3_t forward, vec3_t right, vec3_t up );
// perpendicular vector could be replaced by this
int PlaneTypeForNormal (vec3_t normal);
void MatrixMultiply(float in1[3][3], float in2[3][3], float out[3][3]);
void PerpendicularVector( vec3_t dst, const vec3_t src );
//=============================================
float Com_Clamp( float min, float max, float value );
char *COM_SkipPath( char *pathname );
void COM_StripExtension( const char *in, char *out );
void COM_DefaultExtension( char *path, int maxSize, const char *extension );
void COM_BeginParseSession( void );
int COM_GetCurrentParseLine( void );
char *COM_Parse( const char **data_p );
char *COM_ParseExt( const char **data_p, qboolean allowLineBreak );
int COM_Compress( char *data_p );
qboolean COM_ParseString( const char **data, const char **s );
qboolean COM_ParseInt( const char **data, int *i );
qboolean COM_ParseFloat( const char **data, float *f );
qboolean COM_ParseVec4( const char **buffer, vec4_t *c);
// data is an in/out parm, returns a parsed out token
void COM_MatchToken( char**buf_p, char *match );
void SkipBracedSection (const char **program);
void SkipRestOfLine ( const char **data );
void Parse1DMatrix (const char **buf_p, int x, float *m);
void Parse2DMatrix (const char **buf_p, int y, int x, float *m);
void Parse3DMatrix (const char **buf_p, int z, int y, int x, float *m);
void QDECL Com_sprintf (char *dest, int size, const char *fmt, ...);
// mode parm for FS_FOpenFile
typedef enum {
FS_READ,
FS_WRITE,
FS_APPEND,
FS_APPEND_SYNC
} fsMode_t;
typedef enum {
FS_SEEK_CUR,
FS_SEEK_END,
FS_SEEK_SET
} fsOrigin_t;
//=============================================
int Q_isprint( int c );
int Q_islower( int c );
int Q_isupper( int c );
int Q_isalpha( int c );
// portable case insensitive compare
//inline int Q_stricmp (const char *s1, const char *s2) {return Q_stricmpn (s1, s2, 99999);}
//int Q_strncmp (const char *s1, const char *s2, int n);
//int Q_stricmpn (const char *s1, const char *s2, int n);
//char *Q_strlwr( char *s1 );
//char *Q_strupr( char *s1 );
//char *Q_strrchr( const char* string, int c );
// NON-portable (but faster) versions
inline int Q_stricmp (const char *s1, const char *s2) { return stricmp(s1, s2); }
inline int Q_strncmp (const char *s1, const char *s2, int n) { return strncmp(s1, s2, n); }
inline int Q_stricmpn (const char *s1, const char *s2, int n) { return strnicmp(s1, s2, n); }
inline char *Q_strlwr( char *s1 ) { return strlwr(s1); }
inline char *Q_strupr( char *s1 ) { return strupr(s1); }
inline char *Q_strrchr( const char* str, int c ) { return strrchr(str, c); }
// buffer size safe library replacements
void Q_strncpyz( char *dest, const char *src, int destsize, qboolean bBarfIfTooLong=qfalse );
void Q_strcat( char *dest, int size, const char *src );
// strlen that discounts Quake color sequences
int Q_PrintStrlen( const char *string );
// removes color sequences from string
char *Q_CleanStr( char *string );
//=============================================
#ifdef _M_IX86
//
// optimised stuff for Intel, since most of our data is in that format anyway...
//
short BigShort(short l);
int BigLong (int l);
float BigFloat (float l);
#define LittleShort(l) l
#define LittleLong(l) l
#define LittleFloat(l) l
//
#else
//
// standard smart-swap code...
//
short BigShort(short l);
short LittleShort(short l);
int BigLong (int l);
int LittleLong (int l);
float BigFloat (float l);
float LittleFloat (float l);
//
#endif
void Swap_Init (void);
char * QDECL va(const char *format, ...);
//=============================================
//
// key / value info strings
//
char *Info_ValueForKey( const char *s, const char *key );
void Info_RemoveKey( char *s, const char *key );
void Info_SetValueForKey( char *s, const char *key, const char *value );
qboolean Info_Validate( const char *s );
void Info_NextPair( const char **s, char key[MAX_INFO_KEY], char value[MAX_INFO_VALUE] );
// this is only here so the functions in q_shared.c and bg_*.c can link
void QDECL Com_Error( int level, const char *error, ... );
void QDECL Com_Printf( const char *msg, ... );
/*
==========================================================
CVARS (console variables)
Many variables can be used for cheating purposes, so when
cheats is zero, force all unspecified variables to their
default values.
==========================================================
*/
#define CVAR_ARCHIVE 1 // set to cause it to be saved to vars.rc
// used for system variables, not for player
// specific configurations
#define CVAR_USERINFO 2 // sent to server on connect or change
#define CVAR_SERVERINFO 4 // sent in response to front end requests
#define CVAR_SYSTEMINFO 8 // these cvars will be duplicated on all clients
#define CVAR_INIT 16 // don't allow change from console at all,
// but can be set from the command line
#define CVAR_LATCH 32 // will only change when C code next does
// a Cvar_Get(), so it can't be changed
// without proper initialization. modified
// will be set, even though the value hasn't
// changed yet
#define CVAR_ROM 64 // display only, cannot be set by user at all
#define CVAR_USER_CREATED 128 // created by a set command
#define CVAR_TEMP 256 // can be set even when cheats are disabled, but is not archived
#define CVAR_CHEAT 512 // can not be changed if cheats are disabled
#define CVAR_NORESTART 1024 // do not clear when a cvar_restart is issued
// nothing outside the Cvar_*() functions should modify these fields!
typedef struct cvar_s {
char *name;
char *string;
char *resetString; // cvar_restart will reset to this value
char *latchedString; // for CVAR_LATCH vars
int flags;
qboolean modified; // set each time the cvar is changed
int modificationCount; // incremented each time the cvar is changed
float value; // atof( string )
int integer; // atoi( string )
struct cvar_s *next;
} cvar_t;
#define MAX_CVAR_VALUE_STRING 256
typedef int cvarHandle_t;
// the modules that run in the virtual machine can't access the cvar_t directly,
// so they must ask for structured updates
typedef struct {
cvarHandle_t handle;
int modificationCount;
float value;
int integer;
char string[MAX_CVAR_VALUE_STRING];
} vmCvar_t;
/*
==============================================================
COLLISION DETECTION
==============================================================
*/
#include "surfaceflags.h" // shared with the q3map utility
// plane types are used to speed some tests
// 0-2 are axial planes
#define PLANE_X 0
#define PLANE_Y 1
#define PLANE_Z 2
#define PLANE_NON_AXIAL 3
// plane_t structure
// !!! if this is changed, it must be changed in asm code too !!!
typedef struct cplane_s {
vec3_t normal;
float dist;
byte type; // for fast side tests: 0,1,2 = axial, 3 = nonaxial
byte signbits; // signx + (signy<<1) + (signz<<2), used as lookup during collision
byte pad[2];
} cplane_t;
/*
Ghoul2 Insert Start
*/
#if !defined(GHOUL2_SHARED_H_INC)
#include "..\game\ghoul2_shared.h" //for CGhoul2Info_v
#endif
/*
Ghoul2 Insert End
*/
#define MAX_G2_COLLISIONS 16
// a trace is returned when a box is swept through the world
typedef struct {
qboolean allsolid; // if true, plane is not valid
qboolean startsolid; // if true, the initial point was in a solid area
float fraction; // time completed, 1.0 = didn't hit anything
vec3_t endpos; // final position
cplane_t plane; // surface normal at impact, transformed to world space
int surfaceFlags; // surface hit
int contents; // contents on other side of surface hit
int entityNum; // entity the contacted sirface is a part of
/*
Ghoul2 Insert Start
*/
CCollisionRecord G2CollisionMap[MAX_G2_COLLISIONS]; // map that describes all of the parts of ghoul2 models that got hit
/*
Ghoul2 Insert End
*/
} trace_t;
// trace->entityNum can also be 0 to (MAX_GENTITIES-1)
// or ENTITYNUM_NONE, ENTITYNUM_WORLD
// markfragments are returned by CM_MarkFragments()
typedef struct {
int firstPoint;
int numPoints;
} markFragment_t;
typedef struct {
vec3_t origin;
vec3_t axis[3];
} orientation_t;
//=====================================================================
// in order from highest priority to lowest
// if none of the catchers are active, bound key strings will be executed
#define KEYCATCH_CONSOLE 1
#define KEYCATCH_UI 2
#define KEYCATCH_MESSAGE 4
// sound channels
// channel 0 never willingly overrides
// other channels will allways override a playing sound on that channel
#include "channels.h"
/*
========================================================================
ELEMENTS COMMUNICATED ACROSS THE NET
========================================================================
*/
#define ANGLE2SHORT(x) ((int)((x)*65536/360) & 65535)
#define SHORT2ANGLE(x) ((x)*(360.0/65536))
#define SNAPFLAG_RATE_DELAYED 1
#define SNAPFLAG_NOT_ACTIVE 2 // snapshot used during connection and for zombies
#define SNAPFLAG_SERVERCOUNT 4 // toggled every map_restart so transitions can be detected
//
// per-level limits
//
#define MAX_CLIENTS 1 // 128 // absolute limit
#define MAX_LOCATIONS 64
#define GENTITYNUM_BITS 10 // don't need to send any more
#define MAX_GENTITIES (1<<GENTITYNUM_BITS)
// entitynums are communicated with GENTITY_BITS, so any reserved
// values thatare going to be communcated over the net need to
// also be in this range
#define ENTITYNUM_NONE (MAX_GENTITIES-1)
#define ENTITYNUM_WORLD (MAX_GENTITIES-2)
#define ENTITYNUM_MAX_NORMAL (MAX_GENTITIES-2)
#define MAX_MODELS 256 // these are sent over the net as 8 bits
#define MAX_SOUNDS 256 // so they cannot be blindly increased
#define MAX_SUBMODELS 512 // nine bits
#define MAX_FX 128
#define MAX_WORLD_FX 4
/*
Ghoul2 Insert Start
*/
#define MAX_CHARSKINS 64 // character skins
/*
Ghoul2 Insert End
*/
#define MAX_CONFIGSTRINGS 1024
// these are the only configstrings that the system reserves, all the
// other ones are strictly for servergame to clientgame communication
#define CS_SERVERINFO 0 // an info string with all the serverinfo cvars
#define CS_SYSTEMINFO 1 // an info string for server system to client system configuration (timescale, etc)
#define RESERVED_CONFIGSTRINGS 2 // game can't modify below this, only the system can
//
// config strings are a general means of communicating variable length strings
// from the server to all connected clients.
//
// CS_SERVERINFO and CS_SYSTEMINFO are defined in q_shared.h
#define CS_MUSIC 2
#define CS_MESSAGE 3 // from the map worldspawn's message field
#define CS_ITEMS 4 // string of 0's and 1's that tell which items are present
#define CS_AMBIENT_SET 5 // ambient set information for the player
#define CS_MODELS 10
#define CS_SOUNDS (CS_MODELS+MAX_MODELS)
#define CS_PLAYERS (CS_SOUNDS+MAX_SOUNDS)
#define CS_LIGHT_STYLES (CS_PLAYERS+MAX_CLIENTS)
#define CS_EFFECTS (CS_LIGHT_STYLES + (MAX_LIGHT_STYLES*3))
/*
Ghoul2 Insert Start
*/
#define CS_CHARSKINS (CS_EFFECTS + MAX_FX)
/*
Ghoul2 Insert End
*/
#define CS_DYNAMIC_MUSIC_STATE (CS_CHARSKINS + MAX_CHARSKINS)
#define CS_WORLD_FX (CS_DYNAMIC_MUSIC_STATE + 1)
#define CS_MAX (CS_WORLD_FX + MAX_WORLD_FX)
#if (CS_MAX) > MAX_CONFIGSTRINGS
#error overflow: (CS_MAX) > MAX_CONFIGSTRINGS
#endif
#define MAX_GAMESTATE_CHARS 16000
typedef struct {
int stringOffsets[MAX_CONFIGSTRINGS];
char stringData[MAX_GAMESTATE_CHARS];
int dataCount;
} gameState_t;
typedef enum
{
FP_FIRST = 0,//marker
FP_HEAL = 0,//instant
FP_LEVITATION,//hold/duration
FP_SPEED,//duration
FP_PUSH,//hold/duration
FP_PULL,//hold/duration
FP_TELEPATHY,//instant
FP_GRIP,//hold/duration
FP_LIGHTNING,//hold/duration
FP_SABERTHROW,
FP_SABER_DEFENSE,
FP_SABER_OFFENSE,
NUM_FORCE_POWERS
} forcePowers_t;
//=========================================================
// bit field limits
#define MAX_STATS 16
// NOTE!!! be careful about altering this because although it's used to define an array size, the entry indexes come from
// the typedef'd enum "persEnum_t" in bg_public.h, and there's no compile-tie between the 2 -slc
//
#define MAX_PERSISTANT 16
#define MAX_POWERUPS 16
#define MAX_WEAPONS 32
#define MAX_AMMO 10
#define MAX_INVENTORY 15 // See INV_MAX
#define MAX_SECURITY_KEYS 5
#define MAX_SECURITY_KEY_MESSSAGE 24
#define MAX_PS_EVENTS 2 // this must be a power of 2 unless you change some &'s to %'s -ste
#define MAX_WORLD_COORD ( 64*1024 )
#define MIN_WORLD_COORD ( -64*1024 )
#define WORLD_SIZE ( MAX_WORLD_COORD - MIN_WORLD_COORD )
typedef enum
{
WHL_NONE,
WHL_ANKLES,
WHL_KNEES,
WHL_WAIST,
WHL_TORSO,
WHL_SHOULDERS,
WHL_HEAD,
WHL_UNDER
} waterHeightLevel_t;
// playerState_t is the information needed by both the client and server
// to predict player motion and actions
// nothing outside of pmove should modify these, or some degree of prediction error
// will occur
// you can't add anything to this without modifying the code in msg.c
// playerState_t is a full superset of entityState_t as it is used by players,
// so if a playerState_t is transmitted, the entityState_t can be fully derived
// from it.
// !!!!!!!!!! LOADSAVE-affecting structure !!!!!!!!!!
typedef struct playerState_s {
int commandTime; // cmd->serverTime of last executed command
int pm_type;
int bobCycle; // for view bobbing and footstep generation
int pm_flags; // ducked, jump_held, etc
int pm_time;
vec3_t origin;
vec3_t velocity;
int weaponTime;
int weaponChargeTime;
int rechargeTime; // for the phaser
int gravity;
int leanofs;
int friction;
int speed;
int delta_angles[3]; // add to command angles to get view direction
// changed by spawns, rotating objects, and teleporters
int groundEntityNum;// ENTITYNUM_NONE = in air
int legsAnim; //
int legsAnimTimer; // don't change low priority animations on legs until this runs out
int torsoAnim; //
int torsoAnimTimer; // don't change low priority animations on torso until this runs out
int movementDir; // a number 0 to 7 that represents the relative angle
// of movement to the view angle (axial and diagonals)
// when at rest, the value will remain unchanged
// used to twist the legs during strafing
int eFlags; // copied to entityState_t->eFlags
int eventSequence; // pmove generated events
int events[MAX_PS_EVENTS];
int eventParms[MAX_PS_EVENTS];
int externalEvent; // events set on player from another source
int externalEventParm;
int externalEventTime;
int clientNum; // ranges from 0 to MAX_CLIENTS-1
int weapon; // copied to entityState_t->weapon
int weaponstate;
int batteryCharge;
vec3_t viewangles; // for fixed views
float legsYaw; // actual legs forward facing
int viewheight;
// damage feedback
int damageEvent; // when it changes, latch the other parms
int damageYaw;
int damagePitch;
int damageCount;
int stats[MAX_STATS];
int persistant[MAX_PERSISTANT]; // stats that aren't cleared on death
int powerups[MAX_POWERUPS]; // level.time that the powerup runs out
int ammo[MAX_AMMO];
int inventory[MAX_INVENTORY]; // Count of each inventory item.
char security_key_message[MAX_SECURITY_KEYS][MAX_SECURITY_KEY_MESSSAGE]; // Security key types
vec3_t serverViewOrg;
qboolean saberInFlight;
qboolean saberActive;
int vehicleModel; // For overriding your playermodel with a drivable vehicle
int viewEntity; // For overriding player movement controls and vieworg
saber_colors_t saberColor;
float saberLength;
float saberLengthMax;
int forcePowersActive; //prediction needs to know this
// !!
// not communicated over the net at all
// !!
int useTime; //not sent
int lastShotTime;//last time you shot your weapon
int ping; // server to game info for scoreboard
int lastOnGround; //last time you were on the ground
int lastStationary; //last time you were on the ground
int weaponShotCount;
short saberMove;
short saberBounceMove;
short saberBlocking;
short saberBlocked;
short leanStopDebounceTime;
float saberLengthOld;
int saberEntityNum;
float saberEntityDist;
int saberThrowTime;
int saberEntityState;
int saberDamageDebounceTime;
int saberHitWallSoundDebounceTime;
int saberEventFlags;
int saberBlockingTime;
int saberAnimLevel;
int saberAttackChainCount;
int saberLockTime;
int saberLockEnemy;
char *saberModel;
int forcePowersKnown;
int forcePowerDuration[NUM_FORCE_POWERS]; //for effects that have a duration
int forcePowerDebounce[NUM_FORCE_POWERS]; //for effects that must have an interval
int forcePower;
int forcePowerMax;
int forcePowerRegenDebounceTime;
int forcePowerLevel[NUM_FORCE_POWERS]; //so we know the max forceJump power you have
float forceJumpZStart; //So when you land, you don't get hurt as much
float forceJumpCharge; //you're current forceJump charge-up level, increases the longer you hold the force jump button down
int forceGripEntityNum; //what entity I'm gripping
vec3_t forceGripOrg; //where the gripped ent should be lifted to
int forceHealCount; //how many points of force heal have been applied so far
int taunting; //replaced BUTTON_GESTURE
float jumpZStart; //So when you land, you don't get hurt as much
vec3_t moveDir;
float waterheight; //exactly what the z org of the water is (will be +4 above if under water, -4 below if not in water)
waterHeightLevel_t waterHeightLevel; //how high it really is
} playerState_t;
//====================================================================
//
// usercmd_t->button bits, many of which are generated by the client system,
// so they aren't game/cgame only definitions
//
#define BUTTON_ATTACK 1
#define BUTTON_FORCE_LIGHTNING 2 // displays talk balloon and disables actions
#define BUTTON_USE_FORCE 4
#define BUTTON_BLOCKING 8
#define BUTTON_WALKING 16 // walking can't just be infered from MOVE_RUN because a key pressed late in the frame will
// only generate a small move value for that frame walking will use different animations and
// won't generate footsteps
#define BUTTON_USE 32 // the ol' use key returns!
#define BUTTON_FORCEGRIP 64 //
#define BUTTON_ALT_ATTACK 128
#define BUTTON_ANY 256 // any key whatsoever
#define MOVE_RUN 120 // if forwardmove or rightmove are >= MOVE_RUN,
// then BUTTON_WALKING should be set
// usercmd_t is sent to the server each client frame
// !!!!!!!!!! LOADSAVE-affecting structure !!!!!!!!!!
typedef struct usercmd_s {
int serverTime;
int buttons;
byte weapon;
int angles[3];
signed char forwardmove, rightmove, upmove;
} usercmd_t;
//===================================================================
// if entityState->solid == SOLID_BMODEL, modelindex is an inline model number
#define SOLID_BMODEL 0xffffff
typedef enum {// !!!!!!!!!!! LOADSAVE-affecting struct !!!!!!!!!!
TR_STATIONARY,
TR_INTERPOLATE, // non-parametric, but interpolate between snapshots
TR_LINEAR,
TR_LINEAR_STOP,
TR_NONLINEAR_STOP,
TR_SINE, // value = base + sin( time / duration ) * delta
TR_GRAVITY
} trType_t;
typedef struct {// !!!!!!!!!!! LOADSAVE-affecting struct !!!!!!!!!!
trType_t trType;
int trTime;
int trDuration; // if non 0, trTime + trDuration = stop time
vec3_t trBase;
vec3_t trDelta; // velocity, etc
} trajectory_t;
// entityState_t is the information conveyed from the server
// in an update message about entities that the client will
// need to render in some way
// Different eTypes may use the information in different ways
// The messages are delta compressed, so it doesn't really matter if
// the structure size is fairly large
typedef struct entityState_s {// !!!!!!!!!!! LOADSAVE-affecting struct !!!!!!!!!!!!!
int number; // entity index
int eType; // entityType_t
int eFlags;
trajectory_t pos; // for calculating position
trajectory_t apos; // for calculating angles
int time;
int time2;
vec3_t origin;
vec3_t origin2;
vec3_t angles;
vec3_t angles2;
int otherEntityNum; // shotgun sources, etc
int otherEntityNum2;
int groundEntityNum; // -1 = in air
int constantLight; // r + (g<<8) + (b<<16) + (intensity<<24)
int loopSound; // constantly loop this sound
int modelindex;
int modelindex2;
int modelindex3;
int clientNum; // 0 to (MAX_CLIENTS - 1), for players and corpses
int frame;
int solid; // for client side prediction, gi.linkentity sets this properly
int event; // impulse events -- muzzle flashes, footsteps, etc
int eventParm;
// for players
int powerups; // bit flags
int weapon; // determines weapon and flash model, etc
int legsAnim; //
int legsAnimTimer; // don't change low priority animations on legs until this runs out
int torsoAnim; //
int torsoAnimTimer; // don't change low priority animations on torso until this runs out
int scale; //Scale players
qboolean saberInFlight;
qboolean saberActive;
int vehicleModel; // For overriding your playermodel with a drivable vehicle
/*
Ghoul2 Insert Start
*/
vec3_t modelScale; // used to scale models in any axis
int radius; // used for culling all the ghoul models attached to this ent NOTE - this is automatically scaled by Ghoul2 if/when you scale the model. This is a 100% size value
int boltInfo; // info used for bolting entities to Ghoul2 models - NOT used for bolting ghoul2 models to themselves, more for stuff like bolting effects to ghoul2 models
/*
Ghoul2 Insert End
*/
} entityState_t;
typedef enum {
CA_UNINITIALIZED,
CA_DISCONNECTED, // not talking to a server
CA_CONNECTING, // sending request packets to the server
CA_CHALLENGING, // sending challenge packets to the server
CA_CONNECTED, // netchan_t established, getting gamestate
CA_LOADING, // only during cgame initialization, never during main loop
CA_PRIMED, // got gamestate, waiting for first frame
CA_ACTIVE, // game views should be displayed
CA_CINEMATIC // playing a cinematic or a static pic, not connected to a server
} connstate_t;
/*
========================================================================
String ID Tables
========================================================================
*/
typedef struct stringID_table_s
{
char *name;
int id;
} stringID_table_t;
int GetIDForString ( const stringID_table_t *table, const char *string );
const char *GetStringForID( const stringID_table_t *table, int id );
// savegame screenshot size stuff...
//
#define SG_SCR_WIDTH 512 //256
#define SG_SCR_HEIGHT 512 //256
#define SG_SCR_DISPLAYHEIGHT (SG_SCR_HEIGHT * 3 / 4)
#define iSG_COMMENT_SIZE 64
#define sCVARNAME_PLAYERSAVE "playersave" // used for level-transition, accessed by game and server modules
/*
Ghoul2 Insert Start
*/
// For ghoul2 axis use
enum Eorientations
{
ORIGIN = 0,
POSITIVE_X,
POSITIVE_Z,
POSITIVE_Y,
NEGATIVE_X,
NEGATIVE_Z,
NEGATIVE_Y
};
/*
Ghoul2 Insert End
*/
#define MAX_PARSEFILES 16
typedef struct parseData_s
{
char fileName[MAX_QPATH]; // Name of current file being read in
int com_lines; // Number of lines read in
const char *bufferStart; // Start address of buffer holding data that was read in
const char *bufferCurrent; // Where data is currently being parsed from buffer
} parseData_t;
extern parseData_t parseData;
// cinematic states
typedef enum {
FMV_IDLE,
FMV_PLAY, // play
FMV_EOF, // all other conditions, i.e. stop/EOF/abort
FMV_ID_BLT,
FMV_ID_IDLE,
FMV_LOOPED,
FMV_ID_WAIT
} e_status;
// define the new memory tags for the zone, used by all modules now
//
#define TAGDEF(blah) TAG_ ## blah
typedef enum {
#include "../qcommon/tags.h"
} memtag_t;
// stuff to help out during development process, force reloading/uncacheing of certain filetypes...
//
typedef enum
{
eForceReload_NOTHING,
eForceReload_BSP,
eForceReload_MODELS,
eForceReload_ALL
} ForceReload_e;
#include "../game/genericparser2.h"
#endif // __Q_SHARED_H