iw4x-client/src/Game/Structs.hpp

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#define PROTOCOL 0x92
// This allows us to compile our structures in IDA, for easier reversing :3
#ifdef __cplusplus
namespace Game
{
#endif
typedef float vec_t;
typedef vec_t vec2_t[2];
typedef vec_t vec3_t[3];
typedef vec_t vec4_t[4];
typedef enum
{
ASSET_TYPE_PHYSPRESET = 0,
ASSET_TYPE_PHYS_COLLMAP = 1,
ASSET_TYPE_XANIM = 2,
ASSET_TYPE_XMODELSURFS = 3,
ASSET_TYPE_XMODEL = 4,
ASSET_TYPE_MATERIAL = 5,
ASSET_TYPE_PIXELSHADER = 6,
ASSET_TYPE_VERTEXSHADER = 7,
ASSET_TYPE_VERTEXDECL = 8,
ASSET_TYPE_TECHSET = 9,
ASSET_TYPE_IMAGE = 10,
ASSET_TYPE_SOUND = 11,
ASSET_TYPE_SNDCURVE = 12,
ASSET_TYPE_LOADED_SOUND = 13,
ASSET_TYPE_COL_MAP_SP = 14,
ASSET_TYPE_COL_MAP_MP = 15,
ASSET_TYPE_COM_MAP = 16,
ASSET_TYPE_GAME_MAP_SP = 17,
ASSET_TYPE_GAME_MAP_MP = 18,
ASSET_TYPE_MAP_ENTS = 19,
ASSET_TYPE_FX_MAP = 20,
ASSET_TYPE_GFX_MAP = 21,
ASSET_TYPE_LIGHTDEF = 22,
ASSET_TYPE_UI_MAP = 23,
ASSET_TYPE_FONT = 24,
ASSET_TYPE_MENUFILE = 25,
ASSET_TYPE_MENU = 26,
ASSET_TYPE_LOCALIZE = 27,
ASSET_TYPE_WEAPON = 28,
ASSET_TYPE_SNDDRIVERGLOBALS = 29,
ASSET_TYPE_FX = 30,
ASSET_TYPE_IMPACTFX = 31,
ASSET_TYPE_AITYPE = 32,
ASSET_TYPE_MPTYPE = 33,
ASSET_TYPE_CHARACTER = 34,
ASSET_TYPE_XMODELALIAS = 35,
ASSET_TYPE_RAWFILE = 36,
ASSET_TYPE_STRINGTABLE = 37,
ASSET_TYPE_LEADERBOARDDEF = 38,
ASSET_TYPE_STRUCTUREDDATADEF = 39,
ASSET_TYPE_TRACER = 40,
ASSET_TYPE_VEHICLE = 41,
ASSET_TYPE_ADDON_MAP_ENTS = 42,
ASSET_TYPE_COUNT,
ASSET_TYPE_INVALID = -1,
} XAssetType;
typedef enum
{
DVAR_FLAG_NONE = 0x0, //no flags
DVAR_FLAG_SAVED = 0x1, //saves in config_mp.cfg for clients
DVAR_FLAG_LATCHED = 0x2, //no changing apart from initial value (although it might apply on a map reload, I think)
DVAR_FLAG_CHEAT = 0x4, //cheat
DVAR_FLAG_REPLICATED = 0x8, //on change, this is sent to all clients (if you are host)
DVAR_FLAG_UNKNOWN10 = 0x10, //unknown
DVAR_FLAG_UNKNOWN20 = 0x20, //unknown
DVAR_FLAG_UNKNOWN40 = 0x40, //unknown
DVAR_FLAG_UNKNOWN80 = 0x80, //unknown
DVAR_FLAG_USERCREATED = 0x100, //a 'set' type command created it
DVAR_FLAG_USERINFO = 0x200, //userinfo?
DVAR_FLAG_SERVERINFO = 0x400, //in the getstatus oob
DVAR_FLAG_WRITEPROTECTED = 0x800, //write protected
DVAR_FLAG_UNKNOWN1000 = 0x1000, //unknown
DVAR_FLAG_READONLY = 0x2000, //read only (same as 0x800?)
DVAR_FLAG_UNKNOWN4000 = 0x4000, //unknown
DVAR_FLAG_UNKNOWN8000 = 0x8000, //unknown
DVAR_FLAG_UNKNOWN10000 = 0x10000, //unknown
DVAR_FLAG_DEDISAVED = 0x1000000, //unknown
DVAR_FLAG_NONEXISTENT = 0xFFFFFFFF //no such dvar
} dvar_flag;
typedef enum
{
DVAR_TYPE_BOOL = 0,
DVAR_TYPE_FLOAT = 1,
DVAR_TYPE_FLOAT_2 = 2,
DVAR_TYPE_FLOAT_3 = 3,
DVAR_TYPE_FLOAT_4 = 4,
DVAR_TYPE_INT = 5,
DVAR_TYPE_ENUM = 6,
DVAR_TYPE_STRING = 7,
DVAR_TYPE_COLOR = 8,
//DVAR_TYPE_INT64 = 9 only in Tx
} dvar_type;
// 67/72 bytes figured out
union dvar_value_t {
char* string;
int integer;
float value;
bool boolean;
float vec2[2];
float vec3[3];
float vec4[4];
unsigned char color[4]; //to get float: multiply by 0.003921568859368563 - BaberZz
//__int64 integer64; only in Tx
};
union dvar_maxmin_t {
int i;
float f;
};
typedef struct dvar_t
{
//startbyte:endbyte
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const char* name; //0:3
const char* description; //4:7
unsigned int flags; //8:11
char type; //12:12
bool modified; //13:15
dvar_value_t current; //16:31
dvar_value_t latched; //32:47
dvar_value_t _default; //48:64
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dvar_maxmin_t min; //65:67
dvar_maxmin_t max; //68:72 woooo
} dvar_t;
typedef struct cmd_function_s
{
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cmd_function_s *next;
const char *name;
const char *autoCompleteDir;
const char *autoCompleteExt;
void(__cdecl *function)();
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bool isKey; // Looks like this is true when the command is a key/button
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} cmd_function_t;
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#pragma pack(push, 4)
struct kbutton_t
{
int down[2];
unsigned int downtime;
unsigned int msec;
bool active;
bool wasPressed;
};
#pragma pack(pop)
struct SpeakerLevels
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{
int speaker;
int numLevels;
float levels[2];
};
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struct ChannelMap
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{
int entryCount; // how many entries are used
SpeakerLevels speakers[6];
};
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struct SpeakerMap
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{
bool isDefault;
const char *name;
ChannelMap channelMaps[2][2];
};
enum snd_alias_type_t : char
{
SAT_UNKNOWN = 0x0,
SAT_LOADED = 0x1,
SAT_STREAMED = 0x2
};
struct StreamedSound
{
const char *dir;
const char *name;
};
struct SndCurve
{
const char *filename;
unsigned __int16 knotCount;
vec2_t knots[16];
};
struct MssSound
{
char unknown1[8];
int size;
char unknown2[22];
char *data; // size = soundSize
};
struct LoadedSound
{
const char *name;
MssSound mssSound;
};
union SoundData
{
LoadedSound* loaded;
StreamedSound stream;
};
struct SoundFile // 0xC
{
snd_alias_type_t type;
bool exists;
SoundData data;
};
struct snd_alias_t
{
const char *name;
const char *subtitle;
const char *secondaryAliasName;
const char *chainAliasName;
const char *string4;
SoundFile *soundFile;
int sequence;
float volMin;
float volMax;
float pitchMin;
float pitchMax;
float distMin;
float distMax;
int flags;
float slavePercentage;
float probability;
float lfePercentage;
float centerPercentage;
int startDelay;
int pad;
SndCurve *volumeFalloffCurve;
float envelopMin;
float envelopMax;
float envelopPercentage;
SpeakerMap *speakerMap;
};
struct snd_alias_list_t
{
const char *name;
snd_alias_t *head;
int count;
};
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typedef struct
{
const char *name;
int allocFlags;
int freeFlags;
} XZoneInfo;
struct expression_s;
struct statement_s;
struct menuDef_t;
enum operationEnum;
enum IWI_COMPRESSION
{
IWI_INVALID = 0x0,
IWI_ARGB = 0x1,
IWI_RGB8 = 0x2,
IWI_DXT1 = 0xB,
IWI_DXT3 = 0xC,
IWI_DXT5 = 0xD,
};
struct GfxImageFileHeader
{
char tag[3];
char version;
int flags;
char format;
short dimensions[3];
int fileSizeForPicmip[4];
};
struct __declspec(align(4)) GfxImageLoadDef
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{
char levelCount;
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char flags;
__int16 dimensions[3];
int format;
int resourceSize;
char data[1];
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};
enum MapType : char
{
MAPTYPE_NONE = 0x0,
MAPTYPE_INVALID1 = 0x1,
MAPTYPE_INVALID2 = 0x2,
MAPTYPE_2D = 0x3,
MAPTYPE_3D = 0x4,
MAPTYPE_CUBE = 0x5,
MAPTYPE_COUNT = 0x6,
};
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struct GfxImage
{
union
{
GfxImageLoadDef* loadDef;
#ifdef __cplusplus
IDirect3DBaseTexture9 *basemap;
IDirect3DTexture9 *map;
IDirect3DVolumeTexture9 *volmap;
IDirect3DCubeTexture9 *cubemap;
#endif
};
MapType mapType;
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char semantic;
char category;
char flags;
int cardMemory;
int dataLen1;
int dataLen2;
short height;
short width;
short depth;
char loaded;
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char pad;
char* name;
};
struct water_t
{
float floatTime;
float *H0X; // Count = M * N
float *H0Y; // Count = M * N
//float *wTerm; // Count = M * N
int M;
int N;
float Lx;
float Lz;
float gravity;
float windvel;
float winddir[2];
float amplitude;
float codeConstant[4];
GfxImage *image;
};
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#define SEMANTIC_WATER_MAP 11
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union MaterialTextureDefInfo
{
GfxImage *image; // MaterialTextureDef->semantic != SEMANTIC_WATER_MAP
water_t *water; // MaterialTextureDef->semantic == SEMANTIC_WATER_MAP
};
struct MaterialTextureDef
{
unsigned int nameHash;
char nameStart;
char nameEnd;
char sampleState;
char semantic;
MaterialTextureDefInfo info;
};
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struct MaterialShaderArgument
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{
short type;
short dest;
short paramID;
short more;
};
struct MaterialVertexDeclaration
{
const char* name;
int unknown;
char pad[28];
/*IDirect3DVertexDeclaration9**/void* declarations[16];
};
struct GfxPixelShaderLoadDef
{
char *cachedPart;
char *physicalPart;
unsigned __int16 cachedPartSize;
unsigned __int16 physicalPartSize;
};
struct MaterialPixelShader
{
const char* name;
GfxPixelShaderLoadDef loadDef;
};
struct GfxVertexShaderLoadDef
{
char *cachedPart;
char *physicalPart;
unsigned __int16 cachedPartSize;
unsigned __int16 physicalPartSize;
};
struct MaterialVertexShader
{
const char* name;
GfxVertexShaderLoadDef loadDef;
};
struct MaterialPass
{
MaterialVertexDeclaration* vertexDecl;
MaterialVertexShader* vertexShader;
MaterialPixelShader* pixelShader;
char argCount1;
char argCount2;
char argCount3;
char unk;
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MaterialShaderArgument* argumentDef;
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};
struct MaterialTechnique
{
char* name;
short pad2;
short numPasses;
MaterialPass passes[1];
};
enum MaterialTechniqueType
{
TECHNIQUE_DEPTH_PREPASS = 0x0,
TECHNIQUE_BUILD_FLOAT_Z = 0x1,
TECHNIQUE_BUILD_SHADOWMAP_DEPTH = 0x2,
TECHNIQUE_BUILD_SHADOWMAP_COLOR = 0x3,
TECHNIQUE_UNLIT = 0x4,
TECHNIQUE_EMISSIVE = 0x5,
TECHNIQUE_EMISSIVE_DFOG = 0x6,
TECHNIQUE_EMISSIVE_SHADOW = 0x7,
TECHNIQUE_EMISSIVE_SHADOW_DFOG = 0x8,
TECHNIQUE_LIT_BEGIN = 0x9,
TECHNIQUE_LIT = 0x9,
TECHNIQUE_LIT_DFOG = 0xA,
TECHNIQUE_LIT_SUN = 0xB,
TECHNIQUE_LIT_SUN_DFOG = 0xC,
TECHNIQUE_LIT_SUN_SHADOW = 0xD,
TECHNIQUE_LIT_SUN_SHADOW_DFOG = 0xE,
TECHNIQUE_LIT_SPOT = 0xF,
TECHNIQUE_LIT_SPOT_DFOG = 0x10,
TECHNIQUE_LIT_SPOT_SHADOW = 0x11,
TECHNIQUE_LIT_SPOT_SHADOW_DFOG = 0x12,
TECHNIQUE_LIT_OMNI = 0x13,
TECHNIQUE_LIT_OMNI_DFOG = 0x14,
TECHNIQUE_LIT_OMNI_SHADOW = 0x15,
TECHNIQUE_LIT_OMNI_SHADOW_DFOG = 0x16,
TECHNIQUE_LIT_INSTANCED = 0x17,
TECHNIQUE_LIT_INSTANCED_DFOG = 0x18,
TECHNIQUE_LIT_INSTANCED_SUN = 0x19,
TECHNIQUE_LIT_INSTANCED_SUN_DFOG = 0x1A,
TECHNIQUE_LIT_INSTANCED_SUN_SHADOW = 0x1B,
TECHNIQUE_LIT_INSTANCED_SUN_SHADOW_DFOG = 0x1C,
TECHNIQUE_LIT_INSTANCED_SPOT = 0x1D,
TECHNIQUE_LIT_INSTANCED_SPOT_DFOG = 0x1E,
TECHNIQUE_LIT_INSTANCED_SPOT_SHADOW = 0x1F,
TECHNIQUE_LIT_INSTANCED_SPOT_SHADOW_DFOG = 0x20,
TECHNIQUE_LIT_INSTANCED_OMNI = 0x21,
TECHNIQUE_LIT_INSTANCED_OMNI_DFOG = 0x22,
TECHNIQUE_LIT_INSTANCED_OMNI_SHADOW = 0x23,
TECHNIQUE_LIT_INSTANCED_OMNI_SHADOW_DFOG = 0x24,
TECHNIQUE_LIT_END = 0x25,
TECHNIQUE_LIGHT_SPOT = 0x25,
TECHNIQUE_LIGHT_OMNI = 0x26,
TECHNIQUE_LIGHT_SPOT_SHADOW = 0x27,
TECHNIQUE_FAKELIGHT_NORMAL = 0x28,
TECHNIQUE_FAKELIGHT_VIEW = 0x29,
TECHNIQUE_SUNLIGHT_PREVIEW = 0x2A,
TECHNIQUE_CASE_TEXTURE = 0x2B,
TECHNIQUE_WIREFRAME_SOLID = 0x2C,
TECHNIQUE_WIREFRAME_SHADED = 0x2D,
TECHNIQUE_DEBUG_BUMPMAP = 0x2E,
TECHNIQUE_DEBUG_BUMPMAP_INSTANCED = 0x2F,
TECHNIQUE_COUNT = 0x30,
TECHNIQUE_TOTAL_COUNT = 0x31,
TECHNIQUE_NONE = 0x32,
};
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struct MaterialTechniqueSet
{
const char* name;
char pad[4];
MaterialTechniqueSet* remappedTechniques;
MaterialTechnique* techniques[48];
};
struct MaterialConstantDef
{
int nameHash;
char name[12];
vec4_t literal;
};
struct GfxDrawSurfFields
{
__int64 _bf0;
};
union GfxDrawSurf
{
GfxDrawSurfFields fields;
unsigned __int64 packed;
};
struct GfxStateBits
{
unsigned int loadBits[2];
};
#pragma pack(push, 4)
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struct Material
{
const char *name;
char gameFlags;
char sortKey;
char textureAtlasRowCount;
char textureAtlasColumnCount;
GfxDrawSurf drawSurf;
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int surfaceTypeBits;
unsigned __int16 hashIndex;
unsigned __int16 pad;
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char stateBitsEntry[48];
char textureCount;
char constantCount;
char stateBitsCount;
char stateFlags;
char cameraRegion;
MaterialTechniqueSet *techniqueSet;
MaterialTextureDef *textureTable;
MaterialConstantDef *constantTable;
GfxStateBits *stateBitTable;
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};
#pragma pack(pop)
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struct TracerDef
{
const char * name;
Material * material;
unsigned int drawInterval;
float speed;
float beamLength;
float beamWidth;
float screwRadius;
float screwDist;
float colors[5][4];
};
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struct keyname_t
{
const char *name;
int keynum;
};
struct ItemFloatExpressionEntry
{
int target;
const char *s1;
const char *s2;
};
// Taken from menudefinition.h
enum itemTextStyle
{
ITEM_TEXTSTYLE_NORMAL = 0, // normal text
ITEM_TEXTSTYLE_SHADOWED = 3, // drop shadow ( need a color for this )
ITEM_TEXTSTYLE_SHADOWEDMORE = 6, // drop shadow ( need a color for this )
ITEM_TEXTSTYLE_BORDERED = 7, // border (stroke)
ITEM_TEXTSTYLE_BORDEREDMORE = 8, // more border :P
ITEM_TEXTSTYLE_MONOSPACE = 128,
ITEM_TEXTSTYLE_MONOSPACESHADOWED = 132,
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};
#define ITEM_TYPE_TEXT 0 // simple text
#define ITEM_TYPE_BUTTON 1 // button, basically text with a border
#define ITEM_TYPE_RADIOBUTTON 2 // toggle button, may be grouped
#define ITEM_TYPE_CHECKBOX 3 // check box
#define ITEM_TYPE_EDITFIELD 4 // editable text, associated with a dvar
#define ITEM_TYPE_COMBO 5 // drop down list
#define ITEM_TYPE_LISTBOX 6 // scrollable list
#define ITEM_TYPE_MODEL 7 // model
#define ITEM_TYPE_OWNERDRAW 8 // owner draw, name specs what it is
#define ITEM_TYPE_NUMERICFIELD 9 // editable text, associated with a dvar
#define ITEM_TYPE_SLIDER 10 // mouse speed, volume, etc.
#define ITEM_TYPE_YESNO 11 // yes no dvar setting
#define ITEM_TYPE_MULTI 12 // multiple list setting, enumerated
#define ITEM_TYPE_DVARENUM 13 // multiple list setting, enumerated from a dvar
#define ITEM_TYPE_BIND 14 // bind
#define ITEM_TYPE_MENUMODEL 15 // special menu model
#define ITEM_TYPE_VALIDFILEFIELD 16 // text must be valid for use in a dos filename
#define ITEM_TYPE_DECIMALFIELD 17 // editable text, associated with a dvar, which allows decimal input
#define ITEM_TYPE_UPREDITFIELD 18 // editable text, associated with a dvar
#define ITEM_TYPE_GAME_MESSAGE_WINDOW 19 // game message window
#define ITEM_TYPE_NEWSTICKER 20 // horizontal scrollbox
#define ITEM_TYPE_TEXTSCROLL 21 // vertical scrollbox
#define ITEM_TYPE_EMAILFIELD 22
#define ITEM_TYPE_PASSWORDFIELD 23
struct MenuEventHandlerSet;
struct Statement_s;
struct UIFunctionList
{
int totalFunctions;
Statement_s **functions;
};
struct StaticDvar
{
/*dvar_t*/
void *dvar;
char *dvarName;
};
struct StaticDvarList
{
int numStaticDvars;
StaticDvar **staticDvars;
};
struct StringList
{
int totalStrings;
const char **strings;
};
struct ExpressionSupportingData
{
UIFunctionList uifunctions;
StaticDvarList staticDvarList;
StringList uiStrings;
};
enum expDataType : int
{
VAL_INT = 0x0,
VAL_FLOAT = 0x1,
VAL_STRING = 0x2,
VAL_FUNCTION = 0x3,
};
struct ExpressionString
{
const char *string;
};
union operandInternalDataUnion
{
int intVal;
float floatVal;
ExpressionString stringVal;
Statement_s *function;
};
struct Operand
{
expDataType dataType;
operandInternalDataUnion internals;
};
union entryInternalData
{
//operationEnum op;
Operand operand;
};
/* expressionEntry->type */
#define OPERATOR 0
#define OPERAND 1
struct expressionEntry // 0xC
{
int type;
entryInternalData data;
};
struct Statement_s // 0x18
{
int numEntries;
expressionEntry *entries;
ExpressionSupportingData *supportingData;
char unknown[0xC]; // ?
};
struct SetLocalVarData
{
const char *localVarName;
Statement_s *expression;
};
struct ConditionalScript
{
MenuEventHandlerSet *eventHandlerSet;
Statement_s *eventExpression; // loads this first
};
union EventData
{
const char *unconditionalScript;
ConditionalScript *conditionalScript;
MenuEventHandlerSet *elseScript;
SetLocalVarData *setLocalVarData;
};
enum EventType
{
EVENT_UNCONDITIONAL = 0x0,
EVENT_IF = 0x1,
EVENT_ELSE = 0x2,
EVENT_SET_LOCAL_VAR_BOOL = 0x3,
EVENT_SET_LOCAL_VAR_INT = 0x4,
EVENT_SET_LOCAL_VAR_FLOAT = 0x5,
EVENT_SET_LOCAL_VAR_STRING = 0x6,
EVENT_COUNT = 0x7,
};
struct MenuEventHandler
{
EventData eventData;
EventType eventType;
};
struct MenuEventHandlerSet
{
int eventHandlerCount;
MenuEventHandler **eventHandlers;
};
struct ItemKeyHandler
{
int key;
MenuEventHandlerSet *action;
ItemKeyHandler *next;
};
#pragma pack(push, 4)
struct rectDef_s
{
float x;
float y;
float w;
float h;
char horzAlign;
char vertAlign;
};
#pragma pack(pop)
/* windowDef_t->dynamicFlags */
// 0x1
#define WINDOWDYNAMIC_HASFOCUS 0x00000002
#define WINDOWDYNAMIC_VISIBLE 0x00000004
#define WINDOWDYNAMIC_FADEOUT 0x00000010
#define WINDOWDYNAMIC_FADEIN 0x00000020
// 0x40
// 0x80
#define WINDOWDYNAMIC_CLOSED 0x00000800
// 0x2000
#define WINDOWDYNAMIC_BACKCOLOR 0x00008000
#define WINDOWDYNAMIC_FORECOLOR 0x00010000
/* windowDef_t->staticFlags */
#define WINDOWSTATIC_DECORATION 0x00100000
#define WINDOWSTATIC_HORIZONTALSCROLL 0x00200000
#define WINDOWSTATIC_SCREENSPACE 0x00400000
#define WINDOWSTATIC_AUTOWRAPPED 0x00800000
#define WINDOWSTATIC_POPUP 0x01000000
#define WINDOWSTATIC_OUTOFBOUNDSCLICK 0x02000000
#define WINDOWSTATIC_LEGACYSPLITSCREENSCALE 0x04000000
#define WINDOWSTATIC_HIDDENDURINGFLASH 0x10000000
#define WINDOWSTATIC_HIDDENDURINGSCOPE 0x20000000
#define WINDOWSTATIC_HIDDENDURINGUI 0x40000000
#define WINDOWSTATIC_TEXTONLYFOCUS 0x80000000
struct windowDef_t // 0xA4
{
const char *name; // 0x00
rectDef_s rect;
rectDef_s rectClient;
char *group; // 0x2C
int style; // 0x30
int border; // 0x34
int ownerDraw; // 0x38
int ownerDrawFlags; // 0x3C
float borderSize; // 0x40
int staticFlags; // 0x44
int dynamicFlags; // 0x48
int nextTime; // 0x4C
float foreColor[4]; // 0x50
float backColor[4]; // 0x60
float borderColor[4];// 0x70
float outlineColor[4];// 0x80
float disableColor[4];// 0x90
Material *background; // 0xA0
};
enum ItemFloatExpressionTarget
{
ITEM_FLOATEXP_TGT_RECT_X = 0x0,
ITEM_FLOATEXP_TGT_RECT_Y = 0x1,
ITEM_FLOATEXP_TGT_RECT_W = 0x2,
ITEM_FLOATEXP_TGT_RECT_H = 0x3,
ITEM_FLOATEXP_TGT_FORECOLOR_R = 0x4,
ITEM_FLOATEXP_TGT_FORECOLOR_G = 0x5,
ITEM_FLOATEXP_TGT_FORECOLOR_B = 0x6,
ITEM_FLOATEXP_TGT_FORECOLOR_RGB = 0x7,
ITEM_FLOATEXP_TGT_FORECOLOR_A = 0x8,
ITEM_FLOATEXP_TGT_GLOWCOLOR_R = 0x9,
ITEM_FLOATEXP_TGT_GLOWCOLOR_G = 0xA,
ITEM_FLOATEXP_TGT_GLOWCOLOR_B = 0xB,
ITEM_FLOATEXP_TGT_GLOWCOLOR_RGB = 0xC,
ITEM_FLOATEXP_TGT_GLOWCOLOR_A = 0xD,
ITEM_FLOATEXP_TGT_BACKCOLOR_R = 0xE,
ITEM_FLOATEXP_TGT_BACKCOLOR_G = 0xF,
ITEM_FLOATEXP_TGT_BACKCOLOR_B = 0x10,
ITEM_FLOATEXP_TGT_BACKCOLOR_RGB = 0x11,
ITEM_FLOATEXP_TGT_BACKCOLOR_A = 0x12,
ITEM_FLOATEXP_TGT__COUNT = 0x13,
};
struct ItemFloatExpression
{
ItemFloatExpressionTarget target;
Statement_s *expression;
};
struct editFieldDef_s
{
float minVal;
float maxVal;
float defVal;
float range;
int maxChars;
int maxCharsGotoNext;
int maxPaintChars;
int paintOffset;
};
struct multiDef_s // 0x188
{
const char *dvarList[32];
const char *dvarStr[32];
float dvarValue[32];
int count;
int strDef;
};
struct columnInfo_s
{
int xpos;
int width;
int maxChars;
int alignment;
};
struct listBoxDef_s // 0x144
{
// somethings not right here
int startPos[2];
int endPos[2];
float elementWidth;
float elementHeight;
int elementStyle;
int numColumns;
columnInfo_s columnInfo[16];
MenuEventHandlerSet *doubleClick; // 0xC8
int notselectable;
int noscrollbars;
int usepaging;
float selectBorder[4];
Material *selectIcon;
};
struct newsTickerDef_s
{
int feedId;
int speed;
int spacing;
};
struct textScrollDef_s
{
int startTime;
};
union itemDefData_t
{
listBoxDef_s *listBox;
editFieldDef_s *editField;
newsTickerDef_s *ticker;
multiDef_s *multiDef;
const char *enumDvarName;
textScrollDef_s *scroll;
void *data;
};
struct itemDef_t
{
windowDef_t window;
rectDef_s textRect;
int type;
int dataType;
int alignment;
int fontEnum;
int textAlignMode;
float textAlignX;
float textAlignY;
float textScale;
int textStyle;
int gameMsgWindowIndex;
int gameMsgWindowMode;
const char *text;
int textSaveGameInfo;
int parent;
MenuEventHandlerSet *mouseEnterText;
MenuEventHandlerSet *mouseExitText;
MenuEventHandlerSet *mouseEnter;
MenuEventHandlerSet *mouseExit;
MenuEventHandlerSet *action;
MenuEventHandlerSet *accept;
MenuEventHandlerSet *onFocus;
MenuEventHandlerSet *leaveFocus;
const char *dvar;
const char *dvarTest;
ItemKeyHandler *onKey;
const char *enableDvar;
const char *localVar;
int dvarFlags;
const char *focusSound;
float special;
int cursorPos;
itemDefData_t typeData;
int imageTrack;
int floatExpressionCount;
ItemFloatExpression *floatExpressions;
Statement_s *visibleExp;
Statement_s *disabledExp;
Statement_s *textExp;
Statement_s *materialExp;
float glowColor[4];
bool decayActive;
int fxBirthTime;
int fxLetterTime;
int fxDecayStartTime;
int fxDecayDuration;
int lastSoundPlayedTime;
};
struct menuTransition // 0x18
{
int transitionType;
int startTime;
float startVal;
float endVal;
float time;
int endTriggerType;
};
struct menuDef_t
{
windowDef_t window;
int font;
int fullscreen;
int itemCount;
int fontIndex;
int cursorItems;
int fadeCycle;
float fadeClamp;
float fadeAmount;
float fadeInAmount;
float blurRadius;
MenuEventHandlerSet *onOpen;
MenuEventHandlerSet *onRequestClose;
MenuEventHandlerSet *onClose;
MenuEventHandlerSet *onEsc;
ItemKeyHandler *onKey;
Statement_s *visibleExp;
const char *allowedBinding;
const char *soundLoop;
int imageTrack;
float focusColor[4];
Statement_s *rectXExp;
Statement_s *rectYExp;
Statement_s *rectHExp;
Statement_s *rectWExp;
Statement_s *openSoundExp;
Statement_s *closeSoundExp;
itemDef_t **items;
char unknown[112];
ExpressionSupportingData *expressionData;
};
struct MenuList
{
char *name;
int menuCount;
menuDef_t **menus;
};
#define FS_SEEK_CUR 0
#define FS_SEEK_END 1
#define FS_SEEK_SET 2
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enum FsListBehavior_e
{
FS_LIST_PURE_ONLY = 0x0,
FS_LIST_ALL = 0x1,
};
typedef enum
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{
NA_BOT,
NA_BAD, // an address lookup failed
NA_LOOPBACK,
NA_BROADCAST,
NA_IP,
NA_IP6, // custom type
} netadrtype_t;
typedef enum
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{
NS_CLIENT,
NS_SERVER
} netsrc_t;
typedef union
{
unsigned char bytes[4];
DWORD full;
} netIP_t;
typedef struct
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{
netadrtype_t type;
netIP_t ip;
unsigned short port;
unsigned char ipx[8];
} netadr_t;
typedef struct
{
int overflowed;
int readOnly;
char *data;
char *splitData;
int maxsize;
int cursize;
int splitSize;
int readcount;
int bit;
int lastEntityRef;
} msg_t;
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enum playerFlag
{
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PLAYER_FLAG_NOCLIP = 1 << 0,
PLAYER_FLAG_UFO = 1 << 1,
PLAYER_FLAG_FROZEN = 1 << 2,
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};
typedef struct gclient_s
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{
unsigned char pad[12764];
unsigned int team;
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char pad2[436];
int flags;
char pad3[724];
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} gclient_t;
typedef struct gentity_s
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{
unsigned char pad[312]; // 0
float origin[3]; // 312
float angles[3]; // 324
char pad2[8];
gclient_t* client; // 344
unsigned char pad3[28];
short classname;
short pad4;
unsigned char pad5[248];
} gentity_t;
#pragma pack(push, 1)
typedef struct client_s
{
// 0
int state;
// 4
char pad[36];
// 40
netadr_t addr;
// 60
char pad1[1568];
// 1628
char connectInfoString[1024];
// 2652
char pad2[133192];
// 135844
char name[16];
// 135860
char pad3[12];
// 135872
int snapNum;
// 135876
int pad4;
// 135880
short ping;
// 135882
//char pad5[142390];
char pad5[133158];
// 269040
int isBot;
// 269044
char pad6[9228];
// 278272
unsigned __int64 steamid;
// 278280
char pad7[403592];
} client_t;
#pragma pack(pop)
// Q3TA precompiler code
//undef if binary numbers of the form 0b... or 0B... are not allowed
#define BINARYNUMBERS
//undef if not using the token.intvalue and token.floatvalue
#define NUMBERVALUE
//use dollar sign also as punctuation
#define DOLLAR
//maximum token length
#define MAX_TOKEN 1024
//punctuation
typedef struct punctuation_s
{
char *p; //punctuation character(s)
int n; //punctuation indication
struct punctuation_s *next; //next punctuation
} punctuation_t;
//token
typedef struct token_s
{
char string[MAX_TOKEN]; //available token
int type; //last read token type
int subtype; //last read token sub type
#ifdef NUMBERVALUE
unsigned long int intvalue; //integer value
long double floatvalue; //floating point value
#endif //NUMBERVALUE
char *whitespace_p; //start of white space before token
char *endwhitespace_p; //start of white space before token
int line; //line the token was on
int linescrossed; //lines crossed in white space
struct token_s *next; //next token in chain
} token_t;
//script file
typedef struct script_s
{
char filename[64]; //file name of the script
char *buffer; //buffer containing the script
char *script_p; //current pointer in the script
char *end_p; //pointer to the end of the script
char *lastscript_p; //script pointer before reading token
char *whitespace_p; //begin of the white space
char *endwhitespace_p; //end of the white space
int length; //length of the script in bytes
int line; //current line in script
int lastline; //line before reading token
int tokenavailable; //set by UnreadLastToken
int flags; //several script flags
punctuation_t *punctuations; //the punctuations used in the script
punctuation_t **punctuationtable;
token_t token; //available token
struct script_s *next; //next script in a chain
} script_t;
//macro definitions
typedef struct define_s
{
char *name; //define name
int flags; //define flags
int builtin; // > 0 if builtin define
int numparms; //number of define parameters
token_t *parms; //define parameters
token_t *tokens; //macro tokens (possibly containing parm tokens)
struct define_s *next; //next defined macro in a list
struct define_s *hashnext; //next define in the hash chain
} define_t;
//indents
//used for conditional compilation directives:
//#if, #else, #elif, #ifdef, #ifndef
typedef struct indent_s
{
int type; //indent type
int skip; //true if skipping current indent
script_t *script; //script the indent was in
struct indent_s *next; //next indent on the indent stack
} indent_t;
//source file
typedef struct source_s
{
char filename[64]; //file name of the script
char includepath[64]; //path to include files
punctuation_t *punctuations; //punctuations to use
script_t *scriptstack; //stack with scripts of the source
token_t *tokens; //tokens to read first
define_t *defines; //list with macro definitions
define_t **definehash; //hash chain with defines
indent_t *indentstack; //stack with indents
int skip; // > 0 if skipping conditional code
token_t token; //last read token
} source_t;
#define MAX_TOKENLENGTH 1024
typedef struct pc_token_s
{
int type;
int subtype;
int intvalue;
float floatvalue;
char string[MAX_TOKENLENGTH];
} pc_token_t;
//token types
#define TT_STRING 1 // string
#define TT_LITERAL 2 // literal
#define TT_NUMBER 3 // number
#define TT_NAME 4 // name
#define TT_PUNCTUATION 5 // punctuation
#define KEYWORDHASH_SIZE 512
typedef struct keywordHash_s
{
char *keyword;
bool(*func)(menuDef_t *item, int handle);
//struct keywordHash_s *next;
} keywordHash_t;
enum UILocalVarType
{
UILOCALVAR_INT = 0x0,
UILOCALVAR_FLOAT = 0x1,
UILOCALVAR_STRING = 0x2,
};
struct UILocalVar
{
UILocalVarType type;
const char *name;
union
{
int integer;
float value;
const char *string;
};
};
struct UILocalVarContext
{
UILocalVar table[256];
};
struct UiContext
{
// int localClientNum;
// float bias;
// int realTime;
// int frameTime;
// int cursorx;
// int cursory;
// int debug;
// int screenWidth;
// int screenHeight;
// float screenAspect;
// float FPS;
// float blurRadiusOut;
char pad[56];
menuDef_t *menus[512];
char pad2[512];
int menuCount;
// Unsure if below is correct
menuDef_t *menuStack[16];
int openMenuCount;
UILocalVarContext localVars;
};
struct LocalizeEntry
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{
const char* value;
const char* name;
};
struct Bounds
{
vec3_t midPoint;
vec3_t halfSize;
};
struct TriggerModel
{
int contents;
unsigned short hullCount;
unsigned short firstHull;
};
struct TriggerHull
{
Bounds bounds;
int contents;
unsigned short slabCount;
unsigned short firstSlab;
};
struct TriggerSlab
{
vec3_t dir;
float midPoint;
float halfSize;
};
struct MapTriggers
{
int modelCount;
TriggerModel* models; // sizeof 8
int hullCount;
TriggerHull* hulls; // sizeof 32
int slabCount;
TriggerSlab* slabs; // sizeof 20
};
struct Stage
{
char * stageName;
float offset[3];
int flags;
};
struct MapEnts
{
const char *name;
char *entityString;
int numEntityChars;
MapTriggers trigger;
Stage * stages;
char stageCount;
};
struct StringTableCell
{
const char *string;
int hash;
};
struct StringTable
{
const char *name;
int columnCount;
int rowCount;
StringTableCell *values;
};
struct RawFile
{
const char* name;
int sizeCompressed;
int sizeUnCompressed;
char * compressedData;
};
struct FontEntry
{
unsigned short character;
unsigned char padLeft;
unsigned char padTop;
unsigned char padRight;
unsigned char width;
unsigned char height;
unsigned char const0;
float uvLeft;
float uvTop;
float uvRight;
float uvBottom;
};
typedef struct Font_s
{
char* name;
int size;
int entries;
Material* image;
Material* glowImage;
FontEntry* characters;
} Font;
typedef enum
{
STRUCTURED_DATA_INT = 0,
STRUCTURED_DATA_BYTE = 1,
STRUCTURED_DATA_BOOL = 2,
STRUCTURED_DATA_STRING = 3,
STRUCTURED_DATA_ENUM = 4,
STRUCTURED_DATA_STRUCT = 5,
STRUCTURED_DATA_INDEXEDARR = 6,
STRUCTURED_DATA_ENUMARR = 7,
STRUCTURED_DATA_FLOAT = 8,
STRUCTURED_DATA_SHORT = 9
} StructuredDataType;
typedef struct
{
StructuredDataType type;
union
{
int index;
};
int offset;
} StructuredDataItem;
typedef struct
{
const char* name;
StructuredDataItem item;
} StructuredDataStructProperty;
typedef struct
{
int numProperties;
StructuredDataStructProperty* property;
int unknown1;
int unknown2;
} StructuredDataStruct;
typedef struct
{
int enumIndex;
StructuredDataItem item;
} StructuredDataEnumedArray;
typedef struct
{
const char* key;
int index;
} StructuredDataEnumEntry;
typedef struct
{
int numIndices;
int unknown;
StructuredDataEnumEntry* indices;
} StructuredDataEnum;
typedef struct
{
int numItems;
StructuredDataItem item;
} StructuredDataIndexedArray;
typedef struct
{
int version;
unsigned int hash;
int numEnums;
StructuredDataEnum* enums;
int numStructs;
StructuredDataStruct* structs;
int numIndexedArrays;
StructuredDataIndexedArray* indexedArrays;
int numEnumArrays;
StructuredDataEnumedArray* enumArrays;
StructuredDataItem rootItem;
} StructuredDataDef;
typedef struct
{
const char* name;
int count;
StructuredDataDef* data;
} StructuredDataDefSet;
typedef struct
{
StructuredDataDef* data;
StructuredDataItem* item;
int offset;
int error;
} structuredDataFindState_t;
struct XModelAngle
{
short x;
short y;
short z;
short base; // defines the 90-degree point for the shorts
};
struct XModelTagPos
{
float x;
float y;
float z;
};
struct XSurfaceCollisionTree
{
float trans[3];
float scale[3];
int numNode;
char* node; // el size 16
int numLeaf;
short* leaf;
};
struct XRigidVertList
{
unsigned short boneOffset;
unsigned short vertCount;
unsigned short triOffset;
unsigned short triCount;
XSurfaceCollisionTree* entry;
};
struct GfxPackedVertex
{
float x;
float y;
float z;
DWORD color;
WORD texCoords[2];
float normal[3];
};
struct Face
{
unsigned short v1;
unsigned short v2;
unsigned short v3;
};
struct XSurface
{
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char tileMode;
char deformed;
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unsigned short numVertices; // +2
unsigned short numPrimitives; // +4
unsigned char streamHandle; // something to do with buffers, +6
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unsigned __int16 baseTriIndex;
unsigned __int16 baseVertIndex;
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Face* indexBuffer; // +12
short blendNum1; // +16
short blendNum2; // +18
short blendNum3; // +20
short blendNum4; // +22
char* blendInfo; // +24
GfxPackedVertex* vertexBuffer; // +28
int numCT; // +32
XRigidVertList* ct; // +36
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int partBits[4];
char pad5[8]; // +40
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// pad5 matches XModelSurfaces pad
// total size, 64
};
struct XModelSurfs
{
const char* name;
XSurface* surfaces;
int numSurfaces;
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int partBits[4];
char pad[8];
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};
struct XModelLodInfo
{
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float dist;
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short numSurfs; // +4
short maxSurfs;// +6
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XModelSurfs* surfaces; // +8
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int partBits[4]; // +12
char pad3[8];
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XSurface* surfs;
char pad4[4];
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};
struct cplane_t
{
float normal[3];
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float dist;
char type;
char signbits;
char pad[2];
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};
struct cbrushside_t
{
cplane_t* side;
short texInfo;
short dispInfo;
};
struct cbrushWrapper_t
{
short count;
cbrushside_t* brushSide;
char * brushEdge;
char pad[24];
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};
#pragma pack(push, 4)
struct BrushWrapper
{
float mins[3];
float maxs[3];
cbrushWrapper_t brush;
int totalEdgeCount;
cplane_t *planes;
};
#pragma pack(pop)
struct PhysGeomInfo
{
BrushWrapper *brush;
int type;
float orientation[3][3];
float offset[3];
float halfLengths[3];
};
struct PhysMass
{
float centerOfMass[3];
float momentsOfInertia[3];
float productsOfInertia[3];
};
struct PhysCollmap
{
const char * name;
unsigned int count;
PhysGeomInfo *geoms;
char unknown[0x18];
PhysMass mass;
};
struct DObjAnimMat
{
float quat[4];
float trans[3];
float transWeight;
};
struct XModelCollSurf
{
void* tris; // +0, sizeof 48
int count; // +4
char pad[36]; // +8
}; // +44
struct PhysPreset
{
const char *name;
int type;
float mass;
float bounce;
float friction;
float bulletForceScale;
float explosiveForceScale;
const char *sndAliasPrefix;
float piecesSpreadFraction;
float piecesUpwardVelocity;
bool tempDefaultToCylinder;
};
struct XBoneInfo
{
float offset[3];
float bounds[3];
float radiusSquared;
};
struct XModel
{
const char* name; // +0
char numBones; // +4
char numRootBones; // +5
unsigned char numSurfaces; // +6
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char pad2; // +7
char pad3[28]; // +8
short* boneNames; // +36
char* parentList; // +40
XModelAngle* tagAngles; // +44, element size 8
XModelTagPos* tagPositions; // +48, element size 12
char* partClassification; // +52
DObjAnimMat* animMatrix; // +56, element size 32
Material** materials; // +60
XModelLodInfo lods[4]; // +64
char pad4;
char numLods;
short collLod;
XModelCollSurf* colSurf; // +244
int numColSurfs; // +248
int contents;
XBoneInfo* boneInfo; // bone count, +256, element size 28
char pad7[36];
PhysPreset* physPreset;
PhysCollmap* physCollmap;
}; // total size 304
struct CModelAllocData
{
void* mainArray;
void* vertexBuffer;
void* indexBuffer;
};
struct CModelSectionHeader
{
int size;
int offset;
int fixupStart;
int fixupCount;
void* buffer;
};
enum CModelSection
{
SECTION_MAIN = 0,
SECTION_INDEX = 1,
SECTION_VERTEX = 2,
SECTION_FIXUP = 3,
};
struct CModelHeader
{
int version;
unsigned int signature;
CModelSectionHeader sectionHeader[4];
};
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struct DSkelPartBits
{
int anim[4];
int control[4];
int skel[4];
};
struct DSkel
{
DSkelPartBits partBits;
int timeStamp;
DObjAnimMat *mat;
};
#pragma pack(push, 2)
struct DObj
{
/*XAnimTree_s*/void *tree;
unsigned __int16 duplicateParts;
unsigned __int16 entnum;
char duplicatePartsSize;
char numModels;
char numBones;
char pad;
unsigned int ignoreCollision;
volatile int locked;
DSkel skel;
float radius;
int hidePartBits[4];
char pad2[56];
XModel **models;
};
#pragma pack(pop)
union XAnimDynamicIndices
{
char _1[1];
unsigned __int16 _2[1];
};
union XAnimDynamicFrames
{
char(*_1)[3];
unsigned __int16(*_2)[3];
};
struct XAnimNotifyInfo
{
unsigned __int16 name;
float time;
};
union XAnimIndices
{
char* _1;
unsigned short *_2;
void* data;
};
struct XAnimPartTransFrames
{
float mins[3];
float size[3];
XAnimDynamicFrames frames;
XAnimDynamicIndices indices;
};
union XAnimPartTransData
{
XAnimPartTransFrames frames;
float frame0[3];
};
struct XAnimPartTrans
{
unsigned __int16 size;
char smallTrans;
XAnimPartTransData u;
};
struct XAnimDeltaPartQuatDataFrames2
{
__int16 *frames;
char indices[1];
};
union XAnimDeltaPartQuatData2
{
XAnimDeltaPartQuatDataFrames2 frames;
__int16 frame0[2];
};
struct XAnimDeltaPartQuat2
{
unsigned __int16 size;
XAnimDeltaPartQuatData2 u;
};
struct XAnimDeltaPartQuatDataFrames
{
__int16 *frames;
char indices[1];
};
union XAnimDeltaPartQuatData
{
XAnimDeltaPartQuatDataFrames frames;
__int16 frame0[4];
};
struct XAnimDeltaPartQuat
{
unsigned __int16 size;
XAnimDeltaPartQuatData u;
};
struct XAnimDeltaPart
{
XAnimPartTrans *trans;
XAnimDeltaPartQuat2 *quat2;
XAnimDeltaPartQuat *quat;
};
enum XAnimPartType
{
PART_TYPE_NO_QUAT = 0x0,
PART_TYPE_HALF_QUAT = 0x1,
PART_TYPE_FULL_QUAT = 0x2,
PART_TYPE_HALF_QUAT_NO_SIZE = 0x3,
PART_TYPE_FULL_QUAT_NO_SIZE = 0x4,
PART_TYPE_SMALL_TRANS = 0x5,
PART_TYPE_TRANS = 0x6,
PART_TYPE_TRANS_NO_SIZE = 0x7,
PART_TYPE_NO_TRANS = 0x8,
PART_TYPE_ALL = 0x9,
};
enum XAnimFlags
{
XANIM_LOOP_SYNC_TIME = 0x1,
XANIM_NONLOOP_SYNC_TIME = 0x2,
XANIM_SYNC_ROOT = 0x4,
XANIM_COMPLETE = 0x8,
XANIM_ADDITIVE = 0x10,
XANIM_CLIENT = 0x20,
XANIM_SEPARATE = 0x40,
XANIM_FORCELOAD = 0x80,
XANIM_PROPOGATE_FLAGS = 0x63,
};
struct XAnimParts
{
const char * name; // 0
unsigned short dataByteCount; // 4
unsigned short dataShortCount; // 6
unsigned short dataIntCount; // 8
unsigned short randomDataByteCount; // 10 - 0xA
unsigned short randomDataIntCount;// 12 - 0xC
unsigned short framecount; // 14 - 0xE
char bLoop; // 16
char boneCount[10]; // 17
char notetrackCount; // 27
bool pad1; // 28
bool bDelta; // 29
char assetType; // 30
char pad2; // 31
int randomDataShortCount; // 32 - 0x20
int indexcount; // 36 - 0x24
float framerate; // 40 - 0x28
float frequency; // 44 - 0x2C
short * tagnames; // 48 - 0x30
char *dataByte;// 52 - 0x34
short *dataShort; // 56 - 0x38
int *dataInt; // 60 - 0x3C
short *randomDataShort; // 64 - 0x40
char *randomDataByte; // 68 - 0x44
int *randomDataInt; // 72 - 0x48
XAnimIndices indices; // 76 - 0x4C
XAnimNotifyInfo* notetracks; // 80 - 0x50
XAnimDeltaPart * delta; // 84 - 0x54
// 88 - 0x58
};
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/* FxEffectDef::flags */
#define FX_ELEM_LOOPING 0x1
#define FX_ELEM_USE_RAND_COLOR 0x2
#define FX_ELEM_USE_RAND_ALPHA 0x4
#define FX_ELEM_USE_RAND_SIZE0 0x8
#define FX_ELEM_USE_RAND_SIZE1 0x10
#define FX_ELEM_USE_RAND_SCALE 0x20
#define FX_ELEM_USE_RAND_ROT_DELTA 0x40
#define FX_ELEM_MOD_COLOR_BY_ALPHA 0x80
#define FX_ELEM_USE_RAND_VEL0 0x100
#define FX_ELEM_USE_RAND_VEL1 0x200
#define FX_ELEM_USE_BACK_COMPAT_VEL 0x400
#define FX_ELEM_ABS_VEL0 0x800
#define FX_ELEM_ABS_VEL1 0x1000
#define FX_ELEM_PLAY_ON_TOUCH 0x2000
#define FX_ELEM_PLAY_ON_DEATH 0x4000
#define FX_ELEM_PLAY_ON_RUN 0x8000
#define FX_ELEM_BOUNDING_SPHERE 0x10000
#define FX_ELEM_USE_ITEM_CLIP 0x20000
#define FX_ELEM_DECAL_FADE_IN 0x40000
#define FX_ELEM_DISABLED 0x80000000
/* FxElemDef::flags */
#define FX_ELEM_SPAWN_RELATIVE_TO_EFFECT 0x2
#define FX_ELEM_SPAWN_FRUSTUM_CULL 0x4
#define FX_ELEM_RUNNER_USES_RAND_ROT 0x8
#define FX_ELEM_SPAWN_OFFSET_NONE 0x0
#define FX_ELEM_SPAWN_OFFSET_SPHERE 0x10
#define FX_ELEM_SPAWN_OFFSET_CYLINDER 0x20
#define FX_ELEM_SPAWN_OFFSET_MASK 0x30
#define FX_ELEM_RUN_RELATIVE_TO_WORLD 0x0
#define FX_ELEM_RUN_RELATIVE_TO_SPAWN 0x40
#define FX_ELEM_RUN_RELATIVE_TO_EFFECT 0x80
#define FX_ELEM_RUN_RELATIVE_TO_OFFSET 0xC0
#define FX_ELEM_RUN_MASK 0xC0
#define FX_ELEM_USE_COLLISION 0x100
#define FX_ELEM_DIE_ON_TOUCH 0x200
#define FX_ELEM_DRAW_PAST_FOG 0x400
#define FX_ELEM_DRAW_WITH_VIEWMODEL 0x800
#define FX_ELEM_BLOCK_SIGHT 0x1000
#define FX_ELEM_HAS_VELOCITY_GRAPH_LOCAL 0x1000000
#define FX_ELEM_HAS_VELOCITY_GRAPH_WORLD 0x2000000
#define FX_ELEM_HAS_GRAVITY 0x4000000
#define FX_ELEM_USE_MODEL_PHYSICS 0x8000000
#define FX_ELEM_NONUNIFORM_SCALE 0x10000000
#define FX_ELEM_CLOUD_SHAPE_CUBE 0x0
#define FX_ELEM_CLOUD_SHAPE_SPHERE_LARGE 0x20000000
#define FX_ELEM_CLOUD_SHAPE_SPHERE_MEDIUM 0x40000000
#define FX_ELEM_CLOUD_SHAPE_SPHERE_SMALL 0x60000000
#define FX_ELEM_CLOUD_MASK 0x60000000
#define FX_ELEM_DISABLE_FOUNTAIN_COLLISION 0x80000000
#define FX_ELEM_DRAW_IN_THERMAL_ONLY 0x2000
#define FX_ELEM_TRAIL_ORIENT_BY_VELOCITY 0x4000
#define FX_ELEM_EMIT_ORIENT_BY_ELEM 0x8000
/* FxElemAtlas::behavior */
#define FX_ATLAS_START_MASK 0x3
#define FX_ATLAS_START_FIXED 0x0
#define FX_ATLAS_START_RANDOM 0x1
#define FX_ATLAS_START_INDEXED 0x2
#define FX_ATLAS_PLAY_OVER_LIFE 0x4
#define FX_ATLAS_LOOP_ONLY_N_TIMES 0x8
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enum FxElemType : char
{
FX_ELEM_TYPE_SPRITE_BILLBOARD = 0x0,
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FX_ELEM_TYPE_SPRITE_ORIENTED = 0x1,
FX_ELEM_TYPE_TAIL = 0x2,
FX_ELEM_TYPE_TRAIL = 0x3,
FX_ELEM_TYPE_CLOUD = 0x4,
FX_ELEM_TYPE_SPARKCLOUD = 0x5,
FX_ELEM_TYPE_SPARKFOUNTAIN = 0x6,
FX_ELEM_TYPE_MODEL = 0x7,
FX_ELEM_TYPE_OMNI_LIGHT = 0x8,
FX_ELEM_TYPE_SPOT_LIGHT = 0x9,
FX_ELEM_TYPE_SOUND = 0xA,
FX_ELEM_TYPE_DECAL = 0xB,
FX_ELEM_TYPE_RUNNER = 0xC,
FX_ELEM_TYPE_COUNT = 0xD,
FX_ELEM_TYPE_LAST_SPRITE = 0x3,
FX_ELEM_TYPE_LAST_DRAWN = 0x9,
};
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struct FxElemVec3Range
{
float base[3];
float amplitude[3];
};
struct FxIntRange
{
int base;
int amplitude;
};
struct FxFloatRange
{
float base;
float amplitude;
};
struct FxSpawnDefLooping
{
int intervalMsec;
int count;
};
struct FxSpawnDefOneShot
{
FxIntRange count;
};
union FxSpawnDef
{
FxSpawnDefLooping looping;
FxSpawnDefOneShot oneShot;
};
struct FxEffectDef;
union FxEffectDefRef
{
FxEffectDef *handle;
const char *name;
};
union FxElemVisuals
{
const void *anonymous;
Material *material;
XModel *xmodel;
FxEffectDefRef *effectDef;
const char *soundName;
};
struct FxElemMarkVisuals
{
Material* data[2];
};
union FxElemDefVisuals
{
FxElemVisuals instance;
//If parent FxElemDef::elemType == 0x7, use xmodel
//If parent FxElemDef::elemType == 0xC, use effectDef
//If parent FxElemDef::elemType == 0xA, use soundName
//If parent FxElemDef::elemType != 0x9 || 0x8, use material
FxElemVisuals *array; //Total count = parent FxElemDef::visualCount
FxElemMarkVisuals *markArray; //Total count = parent FxElemDef::visualCount
};
struct FxTrailVertex
{
/*
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float pos[2];
float normal[2];
float texCoord[2];
*/
char pad[20];
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};
struct FxTrailDef
{
int scrollTimeMsec;
int repeatDist;
float splitArcDist;
int splitDist;
int splitTime;
int vertCount;
FxTrailVertex *verts;
int indCount;
unsigned __int16 *inds;
};
struct FxSparkFountain
{
float sparkFountainGravity;
float sparkFountainBounceFrac;
float sparkFountainBounceRand;
float sparkFountainSparkSpacing;
float sparkFountainSparkLength;
int sparkFountainSparkCount;
float sparkFountainLoopTime;
float sparkFountainVelMin;
float sparkFountainVelMax;
float sparkFountainVelConeAngle;
float sparkFountainRestSpeed;
float sparkFountainBoostTime;
float sparkFountainBoostFactor;
};
union FxElemExtendedDef
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{
char *unknownBytes;
FxSparkFountain *sparkFountain;
FxTrailDef *trailDef;
};
struct FxElemAtlas
{
char behavior;
char index;
char fps;
char loopCount;
char colIndexBits;
char rowIndexBits;
__int16 entryCount;
};
struct FxElemVelStateInFrame
{
FxElemVec3Range velocity;
FxElemVec3Range totalDelta;
};
struct FxElemVelStateSample
{
FxElemVelStateInFrame local;
FxElemVelStateInFrame world;
};
struct FxElemVisualState
{
char color[4];
float rotationDelta;
float rotationTotal;
float size[2];
float scale;
};
struct FxElemVisStateSample
{
FxElemVisualState base;
FxElemVisualState amplitude;
};
struct FxElemDef // 0xFC
{
int flags;
FxSpawnDef spawn;
FxFloatRange spawnRange;
FxFloatRange fadeInRange;
FxFloatRange fadeOutRange;
float spawnFrustumCullRadius;
FxIntRange spawnDelayMsec;
FxIntRange lifeSpanMsec;
FxFloatRange spawnOrigin[3];
FxFloatRange spawnOffsetRadius;
FxFloatRange spawnOffsetHeight;
FxFloatRange spawnAngles[3];
FxFloatRange angularVelocity[3];
FxFloatRange initialRotation;
FxFloatRange gravity;
FxFloatRange reflectionFactor;
FxElemAtlas atlas;
char elemType;
char visualCount;
char velIntervalCount;
char visStateIntervalCount;
FxElemVelStateSample *velSamples; // count = velIntervalCount
FxElemVisStateSample *visSamples; // count = visStateIntervalCount
FxElemDefVisuals visuals;
//If elemType is 0xB, then use markVisuals
//If elemType is not 0xB and visualCount == 1, then use visual
//If elemType is not 0xB and visualCount != 1, then use visualsArray
vec3_t collMins;
vec3_t collMaxs;
FxEffectDefRef *effectOnImpact;
FxEffectDefRef *effectOnDeath;
FxEffectDefRef *effectEmitted;
FxFloatRange emitDist;
FxFloatRange emitDistVariance;
FxElemExtendedDef extendedDef;
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//If elemType == 3, then use trailDef
//If elemType == 6, then use sparkFountain
//If elemType != 3 && elemType != 6 use unknownBytes (size = 1)
char sortOrder;
char lightingFrac;
char unused[2];
};
struct FxEffectDef
{
const char *name;
int flags;
int totalSize;
int msecLoopingLife;
int elemDefCountLooping;
int elemDefCountOneShot;
int elemDefCountEmission;
FxElemDef *elemDefs; //Count = elemDefCountOneShot + elemDefCountEmission + elemDefCountLooping
};
#define FX_ELEM_FIELD_COUNT 90
struct FxEditorElemAtlas
{
int behavior;
int index;
int fps;
int loopCount;
int indexRange;
int colIndexBits;
int rowIndexBits;
int entryCount;
};
struct FxCurve
{
int dimensionCount;
int keyCount;
float keys[1];
};
struct FxEditorTrailDef
{
FxTrailVertex verts[64];
int vertCount;
unsigned __int16 inds[128];
int indCount;
};
struct FxEditorElemDef
{
char name[48];
int editorFlags;
int flags;
FxFloatRange spawnRange;
FxFloatRange fadeInRange;
FxFloatRange fadeOutRange;
float spawnFrustumCullRadius;
FxSpawnDefLooping spawnLooping;
FxSpawnDefOneShot spawnOneShot;
FxIntRange spawnDelayMsec;
FxIntRange lifeSpanMsec;
FxFloatRange spawnOrigin[3];
FxFloatRange spawnOffsetRadius;
FxFloatRange spawnOffsetHeight;
FxFloatRange spawnAngles[3];
FxFloatRange angularVelocity[3];
FxFloatRange initialRotation;
FxFloatRange gravity;
FxFloatRange elasticity;
FxEditorElemAtlas atlas;
float velScale[2][3];
FxCurve *velShape[2][3][2];
float rotationScale;
FxCurve *rotationShape[2];
float sizeScale[2];
FxCurve *sizeShape[2][2];
float scaleScale;
FxCurve *scaleShape[2];
FxCurve *color[2];
FxCurve *alpha[2];
float lightingFrac;
float decalFadeInTime;
float collOffset[3];
float collRadius;
FxEffectDef *effectOnImpact;
FxEffectDef *effectOnDeath;
int sortOrder;
FxEffectDef *emission;
FxFloatRange emitDist;
FxFloatRange emitDistVariance;
char elemType;
__declspec(align(4)) int visualCount;
union
{
FxElemVisuals visuals[32];
FxElemMarkVisuals markVisuals[16];
} visuals;
int trailSplitDist;
int trailSplitArcDist;
int trailSplitTime;
int trailRepeatDist;
float trailScrollTime;
FxEditorTrailDef trailDef;
int sparkFountainGravity;
int sparkFountainBounceFrac;
int sparkFountainBounceRand;
int sparkFountainSparkSpacing;
int sparkFountainSparkLength;
int sparkFountainSparkCount;
int sparkFountainLoopTime;
int sparkFountainVelMin;
int sparkFountainVelMax;
int sparkFountainVelConeAngle;
int sparkFountainRestSpeed;
int sparkFountainBoostTime;
int sparkFountainBoostFactor;
};
struct FxEditorEffectDef
{
char name[64];
int elemCount;
FxEditorElemDef elems[32];
};
struct FxElemField
{
const char *keyName;
bool(__cdecl *handler)(const char**, FxEditorElemDef*);
};
struct cStaticModel_t
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{
XModel *xmodel;
float origin[3];
float invScaledAxis[3][3];
float absmin[3];
float absmax[3];
};
struct ClipMaterial
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{
char* name;
int unk;
int unk2;
};
struct cNode_t
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{
cplane_t* plane;
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short children[2];
};
struct cbrush_t
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{
int count;
cbrushside_t * brushSide;
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char * brushEdge;
char pad[24];
};
struct cLeaf_t
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{
unsigned __int16 firstCollAabbIndex;
unsigned __int16 collAabbCount;
int brushContents;
int terrainContents;
float mins[3];
float maxs[3];
int leafBrushNode;
};
struct cLeafBrushNodeLeaf_t
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{
unsigned __int16 *brushes;
};
struct cLeafBrushNode_t
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{
char axis;
__int16 leafBrushCount;
int contents;
cLeafBrushNodeLeaf_t data;
char pad[8];
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};
struct cmodel_t
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{
float mins[3];
float maxs[3];
float radius;
cLeaf_t leaf;
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};
enum DynEntityType
{
DYNENT_TYPE_INVALID = 0x0,
DYNENT_TYPE_CLUTTER = 0x1,
DYNENT_TYPE_DESTRUCT = 0x2,
DYNENT_TYPE_COUNT = 0x3,
};
struct GfxPlacement
{
float quat[4];
float origin[3];
};
struct DynEntityDef
{
DynEntityType type;
GfxPlacement pose;
XModel *xModel;
unsigned __int16 brushModel;
unsigned __int16 physicsBrushModel;
FxEffectDef *destroyFx;
PhysPreset *physPreset;
int health;
PhysMass mass;
int contents;
};
struct DynEntityPose
{
GfxPlacement pose;
float radius;
};
struct DynEntityClient
{
int physObjId;
unsigned __int16 flags;
unsigned __int16 lightingHandle;
int health;
};
struct DynEntityColl
{
unsigned __int16 sector;
unsigned __int16 nextEntInSector;
float linkMins[2];
float linkMaxs[2];
};
struct CollisionBorder
{
float distEq[3];
float zBase;
float zSlope;
float start;
float length;
};
struct CollisionPartition
{
char triCount;
char borderCount;
int firstTri;
CollisionBorder *borders;
};
union CollisionAabbTreeIndex
{
int firstChildIndex;
int partitionIndex;
};
struct CollisionAabbTree
{
float origin[3];
float halfSize[3];
unsigned __int16 materialIndex;
unsigned __int16 childCount;
CollisionAabbTreeIndex u;
};
struct SModelAabbNode
{
char pad[28];
};
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struct clipMap_t
{
const char* name;
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int isInUse; // +8
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int numCPlanes; // +8
cplane_t* cPlanes; // sizeof 20, +12
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int numStaticModels; // +16
cStaticModel_t* staticModelList; // sizeof 76, +20
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int numMaterials; // +24
ClipMaterial* materials; // sizeof 12 with a string (possibly name?), +28
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int numCBrushSides; // +32
cbrushside_t* cBrushSides; // sizeof 8, +36
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int numCBrushEdges; // +40
char* cBrushEdges; // +44
int numCNodes; // +48
cNode_t* cNodes; // sizeof 8, +52
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int numCLeaf; // +56
cLeaf_t* cLeaf; // +60
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int numCLeafBrushNodes; // +64
cLeafBrushNode_t* cLeafBrushNodes; // +68
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int numLeafBrushes; // +72
short* leafBrushes; // +76
int numLeafSurfaces; // +80
int* leafSurfaces; // +84
int numVerts; // +88
vec3_t* verts; // +92
int numTriIndices; // +96
short* triIndices; // +100
bool* triEdgeIsWalkable; // +104
int numCollisionBorders; // +108
CollisionBorder* collisionBorders;// sizeof 28, +112
int numCollisionPartitions; // +116
CollisionPartition* collisionPartitions; // sizeof 12, +120
int numCollisionAABBTrees; // +124
CollisionAabbTree* collisionAABBTrees;// sizeof 32, +128
int numCModels; // +132
cmodel_t* cModels; // sizeof 68, +136
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short numCBrushes; // +140
short pad2; // +142
cbrush_t * cBrushes; // sizeof 36, +144
Bounds* cBrushBounds; // same count as cBrushes, +148
int * cBrushContents; // same count as cBrushes, +152
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MapEnts * mapEnts; // +156
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unsigned short unkCount4; // +160
short pad; // +160
SModelAabbNode* unknown4; // +164
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unsigned __int16 dynEntCount[2];
DynEntityDef *dynEntDefList[2];
DynEntityPose *dynEntPoseList[2];
DynEntityClient *dynEntClientList[2];
DynEntityColl *dynEntCollList[2];
unsigned int checksum;
char unknown5[0x30];
}; // +256
struct G_GlassPiece
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{
char pad[12];
};
struct G_GlassName
{
char *nameStr;
__int16 name;
unsigned __int16 pieceCount;
unsigned __int16 *pieceIndices;
};
struct G_GlassData
{
G_GlassPiece *glassPieces;
unsigned int pieceCount;
unsigned __int16 damageToWeaken;
unsigned __int16 damageToDestroy;
unsigned int glassNameCount;
G_GlassName *glassNames;
char pad[108];
};
struct pathbasenode_t
{
float vOrigin[3];
unsigned int type;
};
struct pathnode_tree_nodes_t
{
int nodeCount;
unsigned __int16 *nodes;
};
struct pathnode_tree_t;
union pathnode_tree_info_t
{
pathnode_tree_t *child[2];
pathnode_tree_nodes_t s;
};
struct pathnode_tree_t
{
int axis;
float dist;
pathnode_tree_info_t u;
};
enum nodeType
{
NODE_BADNODE = 0x0,
NODE_PATHNODE = 0x1,
NODE_COVER_STAND = 0x2,
NODE_COVER_CROUCH = 0x3,
NODE_COVER_CROUCH_WINDOW = 0x4,
NODE_COVER_PRONE = 0x5,
NODE_COVER_RIGHT = 0x6,
NODE_COVER_LEFT = 0x7,
NODE_COVER_WIDE_RIGHT = 0x8,
NODE_COVER_WIDE_LEFT = 0x9,
NODE_CONCEALMENT_STAND = 0xA,
NODE_CONCEALMENT_CROUCH = 0xB,
NODE_CONCEALMENT_PRONE = 0xC,
NODE_REACQUIRE = 0xD,
NODE_BALCONY = 0xE,
NODE_SCRIPTED = 0xF,
NODE_NEGOTIATION_BEGIN = 0x10,
NODE_NEGOTIATION_END = 0x11,
NODE_TURRET = 0x12,
NODE_GUARD = 0x13,
NODE_NUMTYPES = 0x14,
NODE_DONTLINK = 0x14,
};
struct pathlink_s
{
float fDist;
unsigned __int16 nodeNum;
char disconnectCount;
char negotiationLink;
char ubBadPlaceCount[4];
};
struct pathnode_constant_t
{
nodeType type;
unsigned __int16 spawnflags;
unsigned __int16 targetname;
unsigned __int16 script_linkName;
unsigned __int16 script_noteworthy;
unsigned __int16 target;
unsigned __int16 animscript;
int animscriptfunc;
float vOrigin[3];
float fAngle;
float forward[2];
float fRadius;
float minUseDistSq;
__int16 wOverlapNode[2];
// __int16 wChainId;
// __int16 wChainDepth;
// __int16 wChainParent;
unsigned __int16 totalLinkCount;
pathlink_s *Links;
};
struct pathnode_dynamic_t
{
void *pOwner;
int iFreeTime;
int iValidTime[3];
int inPlayerLOSTime;
__int16 wLinkCount;
__int16 wOverlapCount;
__int16 turretEntNumber;
__int16 userCount;
};
struct pathnode_t;
struct pathnode_transient_t
{
int iSearchFrame;
pathnode_t *pNextOpen;
pathnode_t *pPrevOpen;
pathnode_t *pParent;
float fCost;
float fHeuristic;
float costFactor;
};
struct pathnode_t
{
pathnode_constant_t constant;
pathnode_dynamic_t dynamic;
pathnode_transient_t transient;
char pad[12];
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};
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struct PathData
{
unsigned int nodeCount;
pathnode_t *nodes;
pathbasenode_t *basenodes;
unsigned int chainNodeCount;
unsigned __int16 *chainNodeForNode;
unsigned __int16 *nodeForChainNode;
int visBytes;
char *pathVis;
int nodeTreeCount;
pathnode_tree_t *nodeTree;
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};
struct VehicleTrackObstacle
{
char pad[12];
};
struct VehicleTrackSector
{
char pad[52];
VehicleTrackObstacle* trackObstacles;
int trackObstacleCount;
};
struct VehicleTrackSegment
{
const char* name;
VehicleTrackSector* trackSectors;
int trackSectorCount;
VehicleTrackSegment** trackSegments1;
int trackSegmentCount1;
VehicleTrackSegment** trackSegments2;
int trackSegmentCount2;
int pad[4];
};
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struct VehicleTrack
{
VehicleTrackSegment* trackSegments;
int trackSegmentCount;
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};
struct GameWorldSp
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{
const char* name;
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PathData pathData;
VehicleTrack vehicleTrack;
G_GlassData* data;
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};
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struct GameWorldMp
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{
const char* name;
G_GlassData* data;
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};
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struct VehicleDef
{
const char* name;
char pad[408];
void* weaponDef;
char pad2[304];
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};
struct XModelDrawInfo
{
unsigned __int16 lod;
unsigned __int16 surfId;
};
struct GfxSceneDynModel
{
XModelDrawInfo info;
unsigned __int16 dynEntId;
};
struct BModelDrawInfo
{
unsigned __int16 surfId;
};
struct GfxSceneDynBrush
{
BModelDrawInfo info;
unsigned __int16 dynEntId;
};
struct GfxStreamingAabbTree
{
unsigned __int16 firstItem;
unsigned __int16 itemCount;
unsigned __int16 firstChild;
unsigned __int16 childCount;
float mins[3];
float maxs[3];
};
struct GfxWorldStreamInfo
{
int aabbTreeCount;
GfxStreamingAabbTree *aabbTrees;
int leafRefCount;
int *leafRefs;
};
union GfxColor
{
unsigned int packed;
char array[4];
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unsigned char uArray[4];
};
union PackedUnitVec
{
unsigned int packed;
};
struct GfxWorldVertex
{
float xyz[3];
float binormalSign;
GfxColor color;
float texCoord[2];
float lmapCoord[2];
PackedUnitVec normal;
PackedUnitVec tangent;
};
struct GfxWorldVertexData
{
GfxWorldVertex *vertices;
void/*IDirect3DVertexBuffer9*/* worldVb;
};
#pragma pack(push, 4)
struct GfxLightImage
{
GfxImage *image;
char samplerState;
};
#pragma pack(pop)
struct GfxLightDef
{
const char *name;
GfxLightImage attenuation;
int lmapLookupStart;
};
struct GfxLight
{
char type;
char canUseShadowMap;
char unused[2];
float color[3];
float dir[3];
float origin[3];
float radius;
float cosHalfFovOuter;
float cosHalfFovInner;
int exponent;
unsigned int spotShadowIndex;
GfxLightDef *def;
};
struct GfxReflectionProbe
{
float offset[3];
};
struct GfxWorldDpvsPlanes
{
int cellCount;
cplane_t *planes;
unsigned __int16 *nodes;
unsigned int *sceneEntCellBits; //Size = cellCount << 11
};
struct GfxAabbTree
{
float mins[3];
float maxs[3];
int pad;
unsigned __int16 childCount;
unsigned __int16 surfaceCount;
unsigned __int16 startSurfIndex;
unsigned __int16 smodelIndexCount;
unsigned __int16 *smodelIndexes;
int childrenOffset;
};
struct GfxCellTree
{
GfxAabbTree *aabbTree;
};
struct GfxCellTreeCount
{
int aabbTreeCount;
};
struct GfxLightGridEntry
{
unsigned __int16 colorsIndex;
char primaryLightIndex;
char needsTrace;
};
struct GfxLightGridColors
{
char rgb[56][3];
};
struct GfxStaticModelInst
{
float mins[3];
float maxs[3];
GfxColor groundLighting;
int pad[2];
};
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enum surfaceType_t
{
SF_TRIANGLES = 0x0,
SF_TRIANGLES_NO_SUN_SHADOW = 0x1,
SF_BEGIN_STATICMODEL = 0x2,
SF_STATICMODEL_RIGID = 0x2,
SF_STATICMODEL_INSTANCED = 0x3,
SF_STATICMODEL_RIGID_NO_SUN_SHADOW = 0x4,
SF_STATICMODEL_INSTANCED_NO_SUN_SHADOW = 0x5,
SF_END_STATICMODEL = 0x6,
SF_BMODEL = 0x6,
SF_BEGIN_XMODEL = 0x7,
SF_XMODEL_RIGID = 0x7,
SF_XMODEL_SKINNED = 0x8,
SF_END_XMODEL = 0x9,
SF_BEGIN_FX = 0x9,
SF_CODE = 0x9,
SF_GLASS = 0xA,
SF_MARK = 0xB,
SF_SPARK = 0xC,
SF_PARTICLE_CLOUD = 0xD,
SF_PARTICLE_SPARK_CLOUD = 0xE,
SF_END_FX = 0xF,
SF_NUM_SURFACE_TYPES = 0xF,
SF_FORCE_32_BITS = 0xFFFFFFFF,
};
struct srfTriangles_t
{
int vertexLayerData;
int firstVertex;
unsigned __int16 vertexCount;
unsigned __int16 triCount;
int baseIndex;
};
struct GfxSurface
{
srfTriangles_t tris;
Material *material;
char lightmapIndex;
char reflectionProbeIndex;
char primaryLightIndex;
char castsSunShadow;
};
struct GfxSurfaceBounds
{
Bounds bounds;
//char flags;
};
struct GfxStaticModelDrawInst;
struct GfxWorldDpvsStatic
{
unsigned int smodelCount;
unsigned int staticSurfaceCount;
unsigned int staticSurfaceCountNoDecal;
unsigned int litSurfsBegin;
unsigned int litSurfsEnd;
unsigned int decalSurfsBegin;
unsigned int decalSurfsEnd;
unsigned int emissiveSurfsBegin;
unsigned int emissiveSurfsEnd;
unsigned int smodelVisDataCount;
unsigned int surfaceVisDataCount;
int surfStuff;
int sunShadowCount;
char *smodelVisData[3];
char *surfaceVisData[3];
unsigned __int16 *sortedSurfIndex;
GfxStaticModelInst *smodelInsts;
GfxSurface *surfaces;
GfxSurfaceBounds *surfacesBounds;
GfxStaticModelDrawInst *smodelDrawInsts;
GfxDrawSurf *surfaceMaterials;
unsigned int *surfaceCastsSunShadow;
volatile int usageCount;
};
#pragma pack(push, 4)
struct GfxPackedPlacement
{
float origin[3];
PackedUnitVec axis[3];
float scale;
};
struct GfxStaticModelDrawInst
{
GfxPackedPlacement placement;
char pad[24];
XModel *model; // 52
float cullDist;
char reflectionProbeIndex;
char primaryLightIndex;
unsigned __int16 lightingHandle;
char flags;
char pad2[8];
};
struct GfxPortalWritable
{
char isQueued;
char isAncestor;
char recursionDepth;
char hullPointCount;
float(*hullPoints)[2];
};
struct DpvsPlane
{
float coeffs[4];
char side[3];
char pad;
};
struct GfxPortal
{
GfxPortalWritable writable;
DpvsPlane plane;
vec3_t* vertices;
char unknown[2];
char vertexCount;
float hullAxis[2][3];
};
struct GfxCell
{
float mins[3];
float maxs[3];
int portalCount;
GfxPortal *portals;
char reflectionProbeCount;
char *reflectionProbes;
};
struct GfxLightmapArray
{
GfxImage *primary;
GfxImage *secondary;
};
struct GfxLightGrid
{
bool hasLightRegions;
unsigned int sunPrimaryLightIndex;
unsigned __int16 mins[3];
unsigned __int16 maxs[3];
unsigned int rowAxis;
unsigned int colAxis;
unsigned __int16 *rowDataStart;
unsigned int rawRowDataSize;
char *rawRowData;
unsigned int entryCount;
GfxLightGridEntry *entries;
unsigned int colorCount;
GfxLightGridColors *colors;
};
struct GfxBrushModelWritable
{
float mins[3];
float maxs[3];
};
struct GfxBrushModel
{
GfxBrushModelWritable writable;
float bounds[2][3];
unsigned int surfaceCount;
unsigned int startSurfIndex;
int pad;
};
struct MaterialMemory
{
Material *material;
int memory;
};
struct sunflare_t
{
bool hasValidData;
Material *spriteMaterial;
Material *flareMaterial;
float spriteSize;
float flareMinSize;
float flareMinDot;
float flareMaxSize;
float flareMaxDot;
float flareMaxAlpha;
int flareFadeInTime;
int flareFadeOutTime;
float blindMinDot;
float blindMaxDot;
float blindMaxDarken;
int blindFadeInTime;
int blindFadeOutTime;
float glareMinDot;
float glareMaxDot;
float glareMaxLighten;
int glareFadeInTime;
int glareFadeOutTime;
float sunFxPosition[3];
};
struct GfxShadowGeometry
{
unsigned __int16 surfaceCount;
unsigned __int16 smodelCount;
unsigned __int16 *sortedSurfIndex;
unsigned __int16 *smodelIndex;
};
struct GfxLightRegionAxis
{
float dir[3];
float midPoint;
float halfSize;
};
struct GfxLightRegionHull
{
float kdopMidPoint[9];
float kdopHalfSize[9];
unsigned int axisCount;
GfxLightRegionAxis *axis;
};
struct GfxLightRegion
{
unsigned int hullCount;
GfxLightRegionHull *hulls;
};
struct GfxWorldDpvsDynamic
{
unsigned int dynEntClientWordCount[2];
unsigned int dynEntClientCount[2];
unsigned int *dynEntCellBits[2];
char *dynEntVisData[2][3];
};
struct SunLightParseParams
{
char name[64];
float ambientScale;
float ambientColor[3];
float diffuseFraction;
float sunLight;
float sunColor[3];
float diffuseColor[3];
bool diffuseColorHasBeenSet;
float angles[3];
};
struct GfxWorldVertexLayerData
{
char *data;
void/*IDirect3DVertexBuffer9*/* layerVb;
};
typedef unsigned int GfxRawTexture;
struct GfxWorldDraw
{
unsigned int reflectionProbeCount;
GfxImage * * reflectionImages;
GfxReflectionProbe *reflectionProbes;
GfxRawTexture * reflectionProbeTextures; //Count = refelctionProbeCount
int lightmapCount;
GfxLightmapArray *lightmaps;
GfxRawTexture * lightmapPrimaryTextures; //Count = lightmapCount
GfxRawTexture * lightmapSecondaryTextures; //Count = lightmapCount
GfxImage *skyImage;
GfxImage *outdoorImage;
unsigned int vertexCount;
GfxWorldVertexData vd;
unsigned int vertexLayerDataSize;
GfxWorldVertexLayerData vld;
int indexCount;
unsigned __int16 *indices;
};
struct GfxSky
{
int skySurfCount;
int * skyStartSurfs;
GfxImage * skyImage;
int skySamplerState;
};
struct GfxHeroOnlyLight
{
char pad[56];
};
struct GfxWorld
{
const char *name;
const char *baseName;
int planeCount;
int nodeCount;
unsigned int surfaceCount;
int skyCount;
GfxSky *skies;
unsigned int lastSunPrimaryLightIndex;
unsigned int primaryLightCount;
unsigned int sortKeyLitDecal;
unsigned int sortKeyEffectDecal;
unsigned int sortKeyEffectAuto;
unsigned int sortKeyDistortion;
GfxWorldDpvsPlanes dpvsPlanes;
GfxCellTreeCount *aabbTreeCounts;
GfxCellTree *aabbTrees;
GfxCell *cells;
GfxWorldDraw draw;
GfxLightGrid lightGrid;
int modelCount;
GfxBrushModel *models;
Bounds bounds;
unsigned int checksum;
int materialMemoryCount;
MaterialMemory *materialMemory;
sunflare_t sun;
float outdoorLookupMatrix[4][4];
GfxImage *outdoorImage;
unsigned int *cellCasterBits;
unsigned int *cellHasSunLitSurfsBits;
GfxSceneDynModel *sceneDynModel;
GfxSceneDynBrush *sceneDynBrush;
unsigned int *primaryLightEntityShadowVis;
unsigned int *primaryLightDynEntShadowVis[2];
char *nonSunPrimaryLightForModelDynEnt;
GfxShadowGeometry *shadowGeom;
GfxLightRegion *lightRegion;
GfxWorldDpvsStatic dpvs;
GfxWorldDpvsDynamic dpvsDyn;
unsigned int mapVtxChecksum;
unsigned int heroOnlyLightCount;
GfxHeroOnlyLight *heroOnlyLights;
char fogTypesAllowed;
};
#pragma pack(pop)
struct rgpStruct
{
int pad[2117];
GfxWorld* world;
};
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struct ComPrimaryLight
{
char type;
char canUseShadowMap;
char exponent;
char unused;
float color[3];
float dir[3];
float origin[3];
float radius;
float cosHalfFovOuter;
float cosHalfFovInner;
float cosHalfFovExpanded;
float rotationLimit;
float translationLimit;
char* name;
};
struct ComWorld
{
char *name;
int isInUse;
int lightCount;
ComPrimaryLight* lights;
};
#pragma pack(push, 4)
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struct FxGlassDef
{
float halfThickness;
float texVecs[2][2];
GfxColor color;
Material *material;
Material *materialShattered;
PhysPreset *physPreset;
};
#pragma pack(pop)
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struct FxSpatialFrame
{
float quat[4];
float origin[3];
};
union FxGlassPiecePlace
{
struct
{
FxSpatialFrame frame;
float radius;
};
unsigned int nextFree;
};
struct FxGlassPieceState
{
float texCoordOrigin[2];
unsigned int supportMask;
unsigned __int16 initIndex;
unsigned __int16 geoDataStart;
unsigned __int16 lightingIndex;
char defIndex;
char pad[3];
char vertCount;
char holeDataCount;
char crackDataCount;
char fanDataCount;
unsigned __int16 flags;
float areaX2;
};
struct FxGlassPieceDynamics
{
char pad[36];
};
struct FxGlassVertex
{
__int16 x;
__int16 y;
};
struct FxGlassHoleHeader
{
unsigned __int16 uniqueVertCount;
char touchVert;
char pad[1];
};
struct FxGlassCrackHeader
{
unsigned __int16 uniqueVertCount;
char beginVertIndex;
char endVertIndex;
};
union FxGlassGeometryData
{
FxGlassVertex vert;
FxGlassHoleHeader hole;
FxGlassCrackHeader crack;
char asBytes[4];
__int16 anonymous[2];
};
#pragma pack(push, 4)
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struct FxGlassInitPieceState //Note, on MW3 this is missing 4 bytes, just not sure whats missing yet
{
/*
FxSpatialFrame frame;
float radius;
float texCoordOrigin[2];
unsigned int supportMask;
float areaX2;
unsigned __int16 lightingIndex;
char defIndex;
char vertCount;
char fanDataCount;
*/
char pad[52];
};
#pragma pack(pop)
#pragma pack(push, 8)
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struct FxGlassSystem
{
int time;
int prevTime;
unsigned int defCount;
unsigned int pieceLimit;
unsigned int pieceWordCount;
unsigned int initPieceCount;
unsigned int cellCount;
unsigned int activePieceCount;
unsigned int firstFreePiece;
unsigned int geoDataLimit;
unsigned int geoDataCount;
unsigned int initGeoDataCount;
FxGlassDef *defs;
FxGlassPiecePlace *piecePlaces;
FxGlassPieceState *pieceStates;
FxGlassPieceDynamics *pieceDynamics;
FxGlassGeometryData *geoData;
unsigned int *isInUse;
unsigned int *cellBits;
char *visData;
float(*linkOrg)[3];
float *halfThickness;
unsigned __int16 *lightingHandles;
FxGlassInitPieceState *initPieceStates;
FxGlassGeometryData *initGeoData;
bool needToCompactData;
char initCount;
float effectChanceAccum;
int lastPieceDeletionTime;
};
#pragma pack(pop)
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struct FxWorld
{
const char * name;
FxGlassSystem glassSys;
};
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union XAssetHeader
{
void *data;
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MenuList *menuList;
menuDef_t *menu;
Material *material;
snd_alias_list_t* sound;
LocalizeEntry* localize;
StringTable* stringTable;
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MapEnts* mapEnts;
RawFile* rawfile;
GfxImage* image;
Font* font;
MaterialTechniqueSet* techniqueSet;
MaterialVertexDeclaration* vertexDecl;
MaterialVertexShader* vertexShader;
MaterialPixelShader* pixelShader;
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StructuredDataDefSet* structuredData;
XModel* model;
PhysPreset* physPreset;
PhysCollmap* physCollmap;
XModelSurfs* surfaces;
XAnimParts* parts;
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clipMap_t* clipMap;
FxEffectDef* fx;
GameWorldMp* gameWorldMp;
GameWorldSp* gameWorldSp;
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TracerDef* tracer;
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VehicleDef* vehicle;
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FxWorld* fxWorld;
GfxWorld* gfxWorld;
GfxLightDef* lightDef;
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SndCurve* sndCurve;
LoadedSound* loadSnd;
ComWorld* comWorld;
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};
struct XAsset
{
XAssetType type;
XAssetHeader header;
};
struct XBlock
{
char *data;
unsigned int size;
};
struct XAssetEntry
{
XAsset asset;
char zoneIndex;
bool inuse;
unsigned __int16 nextHash;
unsigned __int16 nextOverride;
unsigned __int16 usageFrame;
};
enum XFileLanguage : unsigned char
{
XLANG_NONE = 0x00,
XLANG_ENGLISH = 0x01,
XLANG_FRENCH = 0x02,
XLANG_GERMAN = 0x03,
XLANG_ITALIAN = 0x04,
XLANG_SPANISH = 0x05,
XLANG_BRITISH = 0x06,
XLANG_RUSSIAN = 0x07,
XLANG_POLISH = 0x08,
XLANG_KOREAN = 0x09,
XLANG_TAIWANESE = 0x0A,
XLANG_JAPANESE = 0x0B,
XLANG_CHINESE = 0x0C,
XLANG_THAI = 0x0D,
XLANG_LEET = 0x0E, // Wat?
XLANG_CZECH = 0x0F,
};
#pragma pack(push, 1)
struct XFileHeader
{
unsigned __int64 magic;
unsigned int version;
XFileLanguage language;
DWORD highDateTime;
DWORD lowDateTime;
};
#pragma pack(pop)
enum XFILE_BLOCK_TYPES
{
XFILE_BLOCK_TEMP = 0x0,
XFILE_BLOCK_PHYSICAL = 0x1,
XFILE_BLOCK_RUNTIME = 0x2,
XFILE_BLOCK_VIRTUAL = 0x3,
XFILE_BLOCK_LARGE = 0x4,
// Those are probably incorrect
XFILE_BLOCK_CALLBACK,
XFILE_BLOCK_VERTEX,
XFILE_BLOCK_INDEX,
MAX_XFILE_COUNT,
XFILE_BLOCK_INVALID = -1
};
struct XFile
{
unsigned int size;
unsigned int externalSize;
unsigned int blockSize[MAX_XFILE_COUNT];
};
struct ScriptStringList
{
int count;
const char **strings;
};
struct XAssetList
{
ScriptStringList stringList;
int assetCount;
XAsset *assets;
};
struct ZoneHeader
{
XFile xFile;
XAssetList assetList;
};
struct XNKID
{
char ab[8];
};
struct XNADDR
{
in_addr ina;
in_addr inaOnline;
unsigned __int16 wPortOnline;
char abEnet[6];
char abOnline[20];
};
struct XNKEY
{
char ab[16];
};
struct _XSESSION_INFO
{
XNKID sessionID;
XNADDR hostAddress;
XNKEY keyExchangeKey;
};
struct mapArena_t
{
char uiName[32];
char mapName[16];
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char description[32];
char mapimage[32];
char keys[32][16];
char values[32][64];
char pad[144];
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};
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struct newMapArena_t
{
char uiName[32];
char oldMapName[16];
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char description[32];
char mapimage[32];
char keys[32][16];
char values[32][64];
char other[144];
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char mapName[32];
};
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struct gameTypeName_t
{
char gameType[12];
char uiName[32];
};
typedef struct party_s
{
unsigned char pad1[544];
int privateSlots;
int publicSlots;
} party_t;
typedef struct PartyData_s
{
DWORD unk;
} PartyData_t;
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typedef struct fileInPack_s
{
DWORD idk;
char* name;
DWORD idk2;
} fileInPack_t;
typedef struct
{
char pakFilename[256]; // c:\quake3\baseq3\pak0.pk3
char pakBasename[256]; // pak0
char pakGamename[256]; // baseq3
void* handle; // handle to zip file
int checksum;
int pure_checksum; // checksum for pure
int idk; // ?
int numfiles; // number of files in pk3
int referenced; // referenced file flags
int hashSize; // hash table size (power of 2)
fileInPack_t* *hashTable; // hash table
fileInPack_t* buildBuffer;
} pack_t;
typedef struct {
char path[256]; // c:\quake3
char gamedir[256]; // baseq3
} directory_t;
typedef struct searchpath_s
{
searchpath_s* next;
pack_t* pack;
directory_t* dir;
} searchpath_t;
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struct SafeArea
{
int fontHeight;
int textHeight;
int textWidth;
float left;
float top;
float right;
float bottom;
};
#pragma pack(push, 4)
struct SpawnVar
{
bool spawnVarsValid;
int numSpawnVars;
char *spawnVars[64][2];
int numSpawnVarChars;
char spawnVarChars[2048];
};
#pragma pack(pop)
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// Probably incomplete or wrong!
#pragma pack(push, 4)
struct usercmd_s
{
int serverTime;
int buttons;
char weapon;
char offHandIndex;
int angles[3];
char forwardmove;
char rightmove;
float meleeChargeYaw;
char meleeChargeDist;
};
#pragma pack(pop)
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typedef char mapname_t[40];
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#ifdef __cplusplus
}
#endif