gtkradiant/include/qertypes.h
mattn e4b1c1a55c * fixed a lot of compiler warnings (mostly const char * stuff and use of uninitialized data)
* add support for translating radiant (just marked three strings, more to come)


git-svn-id: svn://svn.icculus.org/gtkradiant/GtkRadiant/trunk@264 8a3a26a2-13c4-0310-b231-cf6edde360e5
2008-06-26 07:52:02 +00:00

913 lines
22 KiB
C++

/*
Copyright (C) 1999-2007 id Software, Inc. and contributors.
For a list of contributors, see the accompanying CONTRIBUTORS file.
This file is part of GtkRadiant.
GtkRadiant is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
GtkRadiant is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with GtkRadiant; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/
// qertypes.h
//
// common types
// merged from brush.h, etc. for plugin support
//
#ifndef _QERTYPES_H_
#define _QERTYPES_H_
#ifdef _WIN32
#include <wtypes.h>
#endif
#include <GL/gl.h>
#include "str.h"
#ifdef _WIN32
#define PATH_MAX 260
#endif
// HACK glib-2.0
#define NAME_MAX 255
typedef bool qboolean;
#define MAXPOINTS 16
// merged from qedefs.h ------
#define MAX_EDGES 512
#define MAX_POINTS 1024
#define COLOR_TEXTUREBACK 0
#define COLOR_GRIDBACK 1
#define COLOR_GRIDMINOR 2
#define COLOR_GRIDMAJOR 3
#define COLOR_CAMERABACK 4
#define COLOR_ENTITY 5
#define COLOR_GRIDBLOCK 6
#define COLOR_GRIDTEXT 7
#define COLOR_BRUSHES 8
#define COLOR_SELBRUSHES 9
#define COLOR_CLIPPER 10
#define COLOR_VIEWNAME 11
#define COLOR_SELBRUSHES3D 12
#define COLOR_GRIDMINOR_ALT 13
#define COLOR_GRIDMAJOR_ALT 14
#define COLOR_LAST 15
// ----------------------------
typedef float vec_t;
typedef vec_t vec3_t[3];
// turn this on/off to use a static texdef or a memory one
// THIS MUST BE CONSISTENT throughout a whole build of Radiant / modules / plugins
// DO_TEXDEF_ALLOC is more memory efficient, but I suspect it to be wacky on win32 / C runtime etc.
#define DO_TEXDEF_ALLOC 1
#if DO_TEXDEF_ALLOC
class texdef_t
{
private:
char *name;
public:
texdef_t()
{
name = new char[1];
name[0] = '\0';
shift[0] = 0.0f;
shift[1] = 0.0f;
rotate = 0.0f;
scale[0] = 1.0f;
scale[1] = 1.0f;
contents = 0;
flags = 0;
value = 0;
}
texdef_t(const texdef_t& other)
{
name = NULL;
SetName(other.name);
shift[0] = other.shift[0];
shift[1] = other.shift[1];
rotate = other.rotate;
scale[0] = other.scale[0];
scale[1] = other.scale[1];
contents = other.contents;
flags = other.flags;
value = other.value;
}
~texdef_t()
{
if (name)
{
delete []name;
name = (char*)NULL;
}
}
void SetName(const char *p)
{
if (name)
{
delete []name;
name = NULL;
}
if (p)
{
name = strcpy(new char[strlen(p)+1], p);
}
else
{
name = new char[1];
name[0] = '\0';
}
}
const char * GetName() const
{
return name;
}
// NOTE TTimo when loading prefs as binary, we load a bogus value in texdef..
void DropName()
{
name = NULL;
SetName(NULL);
}
texdef_t& operator =(const texdef_t& rhs)
{
if (&rhs != this)
{
SetName(rhs.name);
shift[0] = rhs.shift[0];
shift[1] = rhs.shift[1];
rotate = rhs.rotate;
scale[0] = rhs.scale[0];
scale[1] = rhs.scale[1];
contents = rhs.contents;
flags = rhs.flags;
value = rhs.value;
}
return *this;
}
float shift[2];
float rotate;
float scale[2];
int contents;
int flags;
int value;
};
#else
// max length of a vfs texture path
#define QPATH 64
class texdef_t
{
private:
char name[QPATH];
public:
texdef_t() { name[0] = '\0'; }
~texdef_t() { }
void SetName(const char *p)
{
strncpy(name, p, QPATH);
}
const char * GetName() const
{
return name;
}
// NOTE TTimo when loading prefs as binary, we load a bogus value in texdef..
void DropName()
{
name[0] = '\0';
}
texdef_t& operator =(const texdef_t& rhs)
{
if (&rhs != this)
{
SetName(rhs.name);
shift[0] = rhs.shift[0];
shift[1] = rhs.shift[1];
rotate = rhs.rotate;
scale[0] = rhs.scale[0];
scale[1] = rhs.scale[1];
contents = rhs.contents;
flags = rhs.flags;
value = rhs.value;
}
return *this;
}
float shift[2];
float rotate;
float scale[2];
int contents;
int flags;
int value;
};
#endif
// forward declare
class IShader;
// Timo
// new brush primitive texdef
typedef struct brushprimit_texdef_s
{
vec_t coords[2][3];
} brushprimit_texdef_t;
// this structure is used in Radiant to reflect the state of the texture window
// it gives information on current shader and various flags
class texturewin_t
{
public:
texturewin_t()
{
}
~texturewin_t()
{
}
int width, height;
int originy;
// add brushprimit_texdef_t for brush primitive coordinates storage
brushprimit_texdef_t brushprimit_texdef;
int m_nTotalHeight;
// surface plugin, must be casted to a IPluginTexdef*
void* pTexdef;
texdef_t texdef;
// shader
// NOTE: never NULL, initialized in Texture_Init
// NOTE: the reference name of the shader is texdef.name (see QERApp_ReloadShaders for an example)
IShader *pShader;
};
#define QER_TRANS 0x00000001
#define QER_NOCARVE 0x00000002
#define QER_NODRAW 0x00000004
#define QER_NONSOLID 0x00000008
#define QER_WATER 0x00000010
#define QER_LAVA 0x00000020
#define QER_FOG 0x00000040
#define QER_ALPHAFUNC 0x00000080
#define QER_CULL 0x00000100
// describes a GL texture that Radiant uses to represent a shader
// NOTE: all qtexture_t are stored in a main list at g_qeglobals.d_qtextures
// shaders have reference couting, but qtexture_t don't (they're way too deep into Radiant)
typedef struct qtexture_s
{
struct qtexture_s *next;
// name of the texture file (the physical image file we are using)
// NOTE: used for lookup, must be unique .. vfs path of the texture, lowercase, NO FILE EXTENSION
// ex textures/gothic_wall/iron
// NOTE: the "textures/" prefix might seem unnecessary .. but it's better to stick to the vfs name
char name[64];
int width, height;
GLuint texture_number; // gl bind number (the qtexture_t are usually loaded and binded by the shaders module)
vec3_t color; // for flat shade mode
qboolean inuse; // true = is present on the level (for the texture browser interface)
} qtexture_t;
// NOTE: don't trust this definition!
// you should read float points[..][5]
// see NewWinding definition
// WARNING: don't touch anything to this struct unless you looked into winding.cpp and WINDING_SIZE(pt)
#define MAX_POINTS_ON_WINDING 64
typedef struct
{
int numpoints;
int maxpoints;
float points[8][5]; // variable sized
} winding_t;
typedef struct
{
vec3_t normal;
double dist;
int type;
} plane_t;
// pShader is a shortcut to the shader
// it's only up-to-date after a Brush_Build call
// to initialize the pShader, use QERApp_Shader_ForName(texdef.name)
typedef struct face_s
{
struct face_s *next;
struct face_s *prev;
struct face_s *original; //used for vertex movement
vec3_t planepts[3];
texdef_t texdef;
plane_t plane;
// Nurail: Face Undo
int undoId;
int redoId;
winding_t *face_winding;
vec3_t d_color;
vec_t d_shade;
// calls through here have indirections (pure virtual)
// it would be good if the rendering loop would avoid scanning there (for the GL binding number for example)
IShader *pShader;
//++timo FIXME: remove!
qtexture_t *d_texture;
// Timo new brush primit texdef
brushprimit_texdef_t brushprimit_texdef;
// cast this one to an IPluginTexdef if you are using it
// NOTE: casting can be done with a GETPLUGINTEXDEF defined in isurfaceplugin.h
// TODO: if the __ISURFACEPLUGIN_H_ header is used, use a union { void *pData; IPluginTexdef *pPluginTexdef } kind of thing ?
void *pData;
} face_t;
typedef struct {
vec3_t xyz;
float sideST[2];
float capST[2];
} curveVertex_t;
typedef struct {
curveVertex_t v[2];
} sideVertex_t;
#define MIN_PATCH_WIDTH 3
#define MIN_PATCH_HEIGHT 3
#define MAX_PATCH_WIDTH 16
#define MAX_PATCH_HEIGHT 16
// patch type info
// type in lower 16 bits, flags in upper
// endcaps directly follow this patch in the list
// types
#define PATCH_GENERIC 0x00000000 // generic flat patch
#define PATCH_CYLINDER 0x00000001 // cylinder
#define PATCH_BEVEL 0x00000002 // bevel
#define PATCH_ENDCAP 0x00000004 // endcap
#define PATCH_HEMISPHERE 0x00000008 // hemisphere
#define PATCH_CONE 0x00000010 // cone
#define PATCH_TRIANGLE 0x00000020 // simple tri, assumes 3x3 patch
// behaviour styles
#define PATCH_CAP 0x00001000 // flat patch applied as a cap
#define PATCH_SEAM 0x00002000 // flat patch applied as a seam
#define PATCH_THICK 0x00004000 // patch applied as a thick portion
// styles
#define PATCH_BEZIER 0x00000000 // default bezier
#define PATCH_BSPLINE 0x10000000 // bspline
#define PATCH_TYPEMASK 0x00000fff //
#define PATCH_BTYPEMASK 0x0000f000 //
#define PATCH_STYLEMASK 0xffff0000 //
typedef struct {
vec3_t xyz;
float st[2];
float lightmap[2];
vec3_t normal;
} drawVert_t;
// spog - used for patch LOD trees
struct BTNode_t
{
BTNode_t *left, *right;
drawVert_t info;
drawVert_t vMid;
};
struct BTreeList_t
{
BTreeList_t *next;
BTNode_t *pBT;
drawVert_t vLeft, vRight;
};
struct BTListList_t
{
BTListList_t *next;
BTreeList_t *list;
};
// used in brush primitive AND entities
typedef struct epair_s
{
struct epair_s *next;
char *key;
char *value;
} epair_t;
struct brush_s;
typedef struct brush_s brush_t;
typedef struct {
int width, height; // in control points, not patches
int contents, flags, value, type;
qtexture_t *d_texture;
IShader *pShader;
drawVert_t ctrl[MAX_PATCH_WIDTH][MAX_PATCH_HEIGHT];
brush_t *pSymbiot;
qboolean bSelected;
qboolean bOverlay;
qboolean bDirty;
int nListID;
epair_t *epairs;
// cast this one to an IPluginTexdef if you are using it
// NOTE: casting can be done with a GETPLUGINTEXDEF defined in isurfaceplugin.h
// TODO: if the __ISURFACEPLUGIN_H_ header is used, use a union { void *pData; IPluginTexdef *pPluginTexdef } kind of thing ?
void *pData;
// spog - curve LOD binary trees and lists
BTNode_t *rowLOD[((MAX_PATCH_WIDTH-1)/2) * MAX_PATCH_HEIGHT]; // = ((MAX_PATCH_WIDTH-1)/2) * MAX_PATCH_HEIGHT
BTNode_t *colLOD[((MAX_PATCH_HEIGHT-1)/2) * MAX_PATCH_WIDTH]; // = ((MAX_PATCH_HEIGHT-1)/2) * MAX_PATCH_WIDTH
bool rowDirty[((MAX_PATCH_WIDTH-1)-1)/2];
bool colDirty[((MAX_PATCH_HEIGHT-1)-1)/2];
bool LODUpdated;
void *drawLists; // pointer to std::list
} patchMesh_t;
typedef struct brush_s
{
struct brush_s *prev, *next; // links in active/selected
struct brush_s *oprev, *onext; // links in entity
struct entity_s *owner;
vec3_t mins, maxs;
face_t *brush_faces;
qboolean bModelFailed;
//
// curve brush extensions
// all are derived from brush_faces
qboolean patchBrush;
qboolean hiddenBrush;
//int nPatchID;
patchMesh_t *pPatch;
struct entity_s *pUndoOwner;
int undoId; //undo ID
int redoId; //redo ID
int ownerId; //entityId of the owner entity for undo
// TTimo: this is not legal, we are not supposed to put UI toolkit dependant stuff in the interfaces
// NOTE: the grouping stuff never worked, there is embryonary code everywhere though
int numberId;
void* itemOwner; // GtkCTreeNode* ?
// brush primitive only
epair_t *epairs;
// brush filtered toggle
bool bFiltered;
bool bCamCulled;
bool bBrushDef;
} brush_t;
#define MAX_FLAGS 16
typedef struct vertmodel_t
{
float v[3];
float st[2];
float normal[3];
} vertmodel;
typedef struct triindex_t
{
int indexes[3];
} triindex;
// TTimo: NOTE: we don't have dedicated stuff to copy/allocate/delete this structure like we do for entity_t and brush_t
// could be necessary, I'm adding GString *strSkin that needs to be copied around
// TTimo 04/01/2001 removing the GString* for toolkit-independent interfaces .. cast it ..
typedef struct entitymodel_t
{
struct entitymodel_t *pNext;
int nTriCount;
//trimodel *pTriList;
//md3Triangle_t *pTriList;
triindex *pTriList;
vertmodel *pVertList;
int numVerts;
int nTextureBind;
void *strSkin; // toolkit-independent .. cast to a GString*
int nSkinWidth;
int nSkinHeight;
int nModelPosition;
} entitymodel;
// eclass show flags
#define ECLASS_LIGHT 0x00000001
#define ECLASS_ANGLE 0x00000002
#define ECLASS_PATH 0x00000004
#define ECLASS_MISCMODEL 0x00000008
#ifdef USEPLUGINENTITIES
#define ECLASS_PLUGINENTITY 0x00000010
#endif // USEPLUGINENTITIES
typedef struct eclass_s
{
struct eclass_s *next;
char *name;
qboolean fixedsize;
qboolean unknown; // wasn't found in source
vec3_t mins, maxs;
vec3_t color;
texdef_t texdef;
char *comments;
char flagnames[MAX_FLAGS][32];
entitymodel *model;
char *modelpath;
//++timo NOTE: I don't know what this is used for exactly. But don't trust it for the real skin paths on models (screws up with long/short path names)
//++hydra NOTE: this, hopefully, will be used to use specific shaders on the bounding boxes of the eclass instead of a color.
char *skinpath;
int nFrame;
unsigned int nShowFlags;
void* hPlug;
} eclass_t;
extern eclass_t *eclass;
/*
** window bits
*/
#define W_CAMERA 0x0001
#define W_XY 0x0002
#define W_XY_OVERLAY 0x0004
#define W_Z 0x0008
#define W_TEXTURE 0x0010
#define W_Z_OVERLAY 0x0020
#define W_CONSOLE 0x0040
#define W_ENTITY 0x0080
#define W_CAMERA_IFON 0x0100
#define W_XZ 0x0200 //--| only used for patch vertex manip stuff
#define W_YZ 0x0400 //--|
#define W_GROUP 0x0800
#define W_MEDIA 0x1000
#define W_ALL 0xFFFFFFFF
// used in some Drawing routines
enum VIEWTYPE {YZ, XZ, XY};
const char g_AxisName[3] = { 'X', 'Y', 'Z' };
// dynamically allocated string
class string_t
{
public:
inline string_t()
{
copy("");
}
inline string_t(const string_t& other)
{
copy(other.m_string);
}
inline string_t(const char* string)
{
copy(string);
}
inline ~string_t()
{
destroy();
}
inline const string_t& operator=(const string_t& other)
{
destroy();
copy(other.m_string);
return *this;
}
inline const string_t& operator=(const char* string)
{
destroy();
copy(string);
return *this;
}
inline bool operator<(const string_t& other) const
{
return compare(other) < 0;
}
inline bool operator>(const string_t& other) const
{
return compare(other) > 0;
}
inline bool operator==(const string_t& other) const
{
return compare(other) == 0;
}
inline bool operator!=(const string_t& other) const
{
return compare(other) != 0;
}
inline const char* c_str() const
{
return m_string;
}
private:
inline void copy(const char* string)
{
m_string = new char[strlen(string)+1];
strcpy(m_string, string);
}
inline void destroy()
{
delete[] m_string;
}
inline int compare(const string_t& other) const
{
return strcmp(m_string, other.m_string);
}
char* m_string;
};
class filetype_t
{
public:
filetype_t()
: name(""), pattern("")
{}
filetype_t(const char* _name, const char* _pattern)
: name(_name), pattern(_pattern)
{}
const char* name;
const char* pattern;
};
/*
** Outline bits
*/
#define OUTLINE_ZBUF 0x01 // zbuffered outline
#define OUTLINE_BSEL 0x02 // selection overlay
#ifdef USEPLUGINENTITIES
// forward declare this one
class IPluginEntity;
#endif // USEPLUGINENTITIES
// MODEL
class IRender;
class ISelect;
class IEdit;
// NOTE TTimo about ~entity_interfaces_t
// using constructors / destructors on C structs is bad practice
struct entity_interfaces_t
{
IRender *pRender;
ISelect *pSelect;
IEdit *pEdit;
};
// MODEL END
typedef struct entity_s
{
struct entity_s *prev, *next;
/*!
\todo can use a brushes list, or the blind data below
for now, blind data should be interpreted as CPtrArray*, only use in the IMAP API
*/
brush_t brushes; // head/tail of list
void *pData;
int undoId, redoId, entityId; // used for undo/redo
vec3_t origin;
eclass_t *eclass;
epair_t *epairs;
entity_interfaces_t model;
#ifdef USEPLUGINENTITIES
IPluginEntity *pPlugEnt;
#endif // USEPLUGINENTITIES
// http://zerowing.idsoftware.com/bugzilla/show_bug.cgi?id=252
// this is cam code addition?
vec3_t color;
// Arnout: HACK-ish and change for 1.3 (in 1.3 we have a blind data pointer according to TTimo)
float fLightEnvelope1[3];
float fLightEnvelope2[2];
} entity_t;
typedef struct
{
int p1, p2;
face_t *f1, *f2;
} pedge_t;
// window system independent camera view code
// NOTE TTimo taken from xy.h
typedef struct
{
int width, height;
qboolean timing;
vec3_t origin; // at center of window
float scale;
float topclip, bottomclip;
qboolean d_dirty;
} xy_t;
// spog - struct used for nodes in filters list
struct bfilter_t //c++ style
{
bfilter_t *next;
int attribute; // 1=brush->face->pShader->getName()
// 2=brush->pPatch->pShader->getFlags()
// 3=brush->owner->eclass->name
// 4=brush->owner->eclass->nShowFlags
// 5=brush->face->texdef.flags (q2)
// 6=brush->face->texdef.contents (q2)
int mask;
const char *string;
bool active;
};
// djbob: no longer any need to add only to end, versioning removed, it is no longer saved as binary
// IMPORTANT: whenever you update this struct, you need to add the relevant load/save code
// preferences.cpp LoadPref / SavePref
typedef struct
{
int iTexMenu; // nearest, linear, etc
float fGamma; // gamma for textures
vec3_t colors[COLOR_LAST];
int exclude;
int include;
texdef_t m_SIIncrement; // increments for the surface inspector
texdef_t m_PIIncrement; // increments for the patch inspector
vec3_t AxisColors[3]; // colors used for X, Y Z axis
// these are in the View > Show menu with Show coordinates
qboolean show_names;
qboolean show_coordinates;
qboolean show_angles;
qboolean show_outline;
qboolean show_axis;
qboolean bNoSelectedOutlines;
bfilter_t *filters; // FIXME spog - might be better in another location?
int iSelectedOutlinesStyle;
} SavedInfo_t;
typedef enum
{
sel_brush,
sel_brush_on,
sel_brush_off,
// sel_sticky_brush,
// sel_face,
sel_vertex,
sel_edge,
sel_singlevertex,
sel_curvepoint,
sel_area,
sel_areatall,
sel_facets_on,
sel_facets_off,
} select_t;
// most of the QE globals are stored in this structure
typedef struct
{
qboolean d_showgrid;
float d_gridsize;
qboolean d_bSmallGrid; // we use this flag to hack our way into editing of <1 grids
int d_num_entities;
entity_t *d_project_entity;
// defines the boundaries of the current work area
// is used to guess brushes and drop points third coordinate when creating from 2D view
vec3_t d_work_min,d_work_max;
// not stored in registry, default is off
qboolean d_show_work;
vec3_t d_points[MAX_POINTS];
int d_numpoints;
pedge_t d_edges[MAX_EDGES];
int d_numedges;
int d_num_move_points;
float *d_move_points[4096];
qtexture_t *d_qtextures;
// used to speedup access, specially in QERApp_Try_Texture_ForName
// must always be kept up-to-date with d_qtextures*
//++timo FIXME at some point in the future it would even be better to remove d_qtextures and use this instead
GHashTable *d_qtexmap;
texturewin_t d_texturewin;
int d_pointfile_display_list;
xy_t d_xyOld;
SavedInfo_t d_savedinfo;
int d_workcount;
// connect entities uses the last two brushes selected
int d_select_count;
brush_t *d_select_order[2];
vec3_t d_select_translate; // for dragging w/o making new display lists
select_t d_select_mode;
int d_parsed_brushes;
qboolean show_blocks;
int blockSize;
// NOTE TTimo
// a lot of this data should be in a property bag and available to the other modules through an API
// this is generated from game configuration and the project settings, and should be still be part of it
// tells if we are internally using brush primitive (texture coordinates and map format)
// this is a shortcut for IntForKey( g_qeglobals.d_project_entity, "brush_primit" )
// NOTE: must keep the two ones in sync
bool m_bBrushPrimitMode;
/*!
win32: engine full path.
unix: user home full path + engine dir.
*/
Str m_strHomeGame;
/*!
cache for m_strHomeGame + mod subdirectory.
*/
Str m_strHomeMaps;
// used while importing brush data from file or memory buffer
// tells if conversion between map format and internal preferences ( m_bBrushPrimitMode ) is needed
qboolean bNeedConvert;
qboolean bOldBrushes;
qboolean bPrimitBrushes;
vec3_t d_vAreaTL;
vec3_t d_vAreaBR;
// tells if we are using .INI files for prefs instead of registry
qboolean use_ini;
// even in .INI mode we use the registry for all void* prefs
char use_ini_registry[64];
// disabled all INI / registry read write .. used when shutting down after registry cleanup
qboolean disable_ini;
// tells we are using a BSP frontend plugin
qboolean bBSPFrontendPlugin;
// handle to the console log file
// we use low level I/O to get rid of buffering and have everything on file if we crash
int hLogFile;
qboolean bTextureCompressionSupported; // is texture compression supported by hardware?
GLint texture_components;
// temporary values that should be initialised only once at run-time
// there are too many uneccessary calls to Sys_QGL_ExtensionSupported
// NOTE TTimo: those are unused atm (set right, but not used)
// http://zerowing.idsoftware.com/bugzilla/show_bug.cgi?id=623
bool m_bOpenGLCompressionSupported;
bool m_bS3CompressionSupported;
// set to true after OpenGL has been initialized and extensions have been tested
bool m_bOpenGLReady;
} QEGlobals_t;
#endif // _QERTYPES_H_