/***
*
*	Copyright (c) 1998, Valve LLC. All rights reserved.
*	
*	This product contains software technology licensed from Id 
*	Software, Inc. ("Id Technology").  Id Technology (c) 1996 Id Software, Inc. 
*	All Rights Reserved.
*
****/

#include "cmdlib.h"
#include "mathlib.h"
#include "bsplib.h"
#include "scriplib.h"

//=============================================================================

int			nummodels;
dmodel_t	dmodels[MAX_MAP_MODELS];
int			dmodels_checksum;

int			visdatasize;
byte		dvisdata[MAX_MAP_VISIBILITY];
int			dvisdata_checksum;

int			lightdatasize;
byte		dlightdata[MAX_MAP_LIGHTING];
int			dlightdata_checksum;

int			texdatasize;
byte		dtexdata[MAX_MAP_MIPTEX]; // (dmiptexlump_t)
int			dtexdata_checksum;

int			entdatasize;
char		dentdata[MAX_MAP_ENTSTRING];
int			dentdata_checksum;

int			numleafs;
dleaf_t		dleafs[MAX_MAP_LEAFS];
int			dleafs_checksum;

int			numplanes;
dplane_t	dplanes[MAX_MAP_PLANES];
int			dplanes_checksum;

int			numvertexes;
dvertex_t	dvertexes[MAX_MAP_VERTS];
int			dvertexes_checksum;

int			numnodes;
dnode_t		dnodes[MAX_MAP_NODES];
int			dnodes_checksum;

int			numtexinfo;
texinfo_t	texinfo[MAX_MAP_TEXINFO];
int			texinfo_checksum;

int			numfaces;
dface_t		dfaces[MAX_MAP_FACES];
int			dfaces_checksum;

int			numclipnodes;
dclipnode_t	dclipnodes[MAX_MAP_CLIPNODES];
int			dclipnodes_checksum;

int			numedges;
dedge_t		dedges[MAX_MAP_EDGES];
int			dedges_checksum;

int			nummarksurfaces;
unsigned short		dmarksurfaces[MAX_MAP_MARKSURFACES];
int			dmarksurfaces_checksum;

int			numsurfedges;
int			dsurfedges[MAX_MAP_SURFEDGES];
int			dsurfedges_checksum;

int			num_entities;
entity_t	entities[MAX_MAP_ENTITIES];

/*
===============
FastChecksum
===============
*/

int FastChecksum(void *buffer, int bytes)
{
	int	checksum = 0;

	while( bytes-- )  
		checksum = _rotl(checksum, 4) ^ *((char *)buffer)++;

	return checksum;
}

/*
===============
CompressVis
===============
*/
int CompressVis (byte *vis, byte *dest)
{
	int		j;
	int		rep;
	int		visrow;
	byte	*dest_p;
	
	dest_p = dest;
	visrow = (numleafs + 7)>>3;
	
	for (j=0 ; j<visrow ; j++)
	{
		*dest_p++ = vis[j];
		if (vis[j])
			continue;

		rep = 1;
		for ( j++; j<visrow ; j++)
			if (vis[j] || rep == 255)
				break;
			else
				rep++;
		*dest_p++ = rep;
		j--;
	}
	
	return dest_p - dest;
}


/*
===================
DecompressVis
===================
*/
void DecompressVis (byte *in, byte *decompressed)
{
	int		c;
	byte	*out;
	int		row;

	row = (numleafs+7)>>3;	
	out = decompressed;

	do
	{
		if (*in)
		{
			*out++ = *in++;
			continue;
		}
	
		c = in[1];
		in += 2;
		while (c)
		{
			*out++ = 0;
			c--;
		}
	} while (out - decompressed < row);
}

//=============================================================================

/*
=============
SwapBSPFile

Byte swaps all data in a bsp file.
=============
*/
void SwapBSPFile (qboolean todisk)
{
	int				i, j, c;
	dmodel_t		*d;
	dmiptexlump_t	*mtl;

	
// models	
	for (i=0 ; i<nummodels ; i++)
	{
		d = &dmodels[i];

		for (j=0 ; j<MAX_MAP_HULLS ; j++)
			d->headnode[j] = LittleLong (d->headnode[j]);

		d->visleafs = LittleLong (d->visleafs);
		d->firstface = LittleLong (d->firstface);
		d->numfaces = LittleLong (d->numfaces);
		
		for (j=0 ; j<3 ; j++)
		{
			d->mins[j] = LittleFloat(d->mins[j]);
			d->maxs[j] = LittleFloat(d->maxs[j]);
			d->origin[j] = LittleFloat(d->origin[j]);
		}
	}

//
// vertexes
//
	for (i=0 ; i<numvertexes ; i++)
	{
		for (j=0 ; j<3 ; j++)
			dvertexes[i].point[j] = LittleFloat (dvertexes[i].point[j]);
	}
		
//
// planes
//	
	for (i=0 ; i<numplanes ; i++)
	{
		for (j=0 ; j<3 ; j++)
			dplanes[i].normal[j] = LittleFloat (dplanes[i].normal[j]);
		dplanes[i].dist = LittleFloat (dplanes[i].dist);
		dplanes[i].type = LittleLong (dplanes[i].type);
	}
	
//
// texinfos
//	
	for (i=0 ; i<numtexinfo ; i++)
	{
		for (j=0 ; j<8 ; j++)
			texinfo[i].vecs[0][j] = LittleFloat (texinfo[i].vecs[0][j]);
		texinfo[i].miptex = LittleLong (texinfo[i].miptex);
		texinfo[i].flags = LittleLong (texinfo[i].flags);
	}
	
//
// faces
//
	for (i=0 ; i<numfaces ; i++)
	{
		dfaces[i].texinfo = LittleShort (dfaces[i].texinfo);
		dfaces[i].planenum = LittleShort (dfaces[i].planenum);
		dfaces[i].side = LittleShort (dfaces[i].side);
		dfaces[i].lightofs = LittleLong (dfaces[i].lightofs);
		dfaces[i].firstedge = LittleLong (dfaces[i].firstedge);
		dfaces[i].numedges = LittleShort (dfaces[i].numedges);
	}

//
// nodes
//
	for (i=0 ; i<numnodes ; i++)
	{
		dnodes[i].planenum = LittleLong (dnodes[i].planenum);
		for (j=0 ; j<3 ; j++)
		{
			dnodes[i].mins[j] = LittleShort (dnodes[i].mins[j]);
			dnodes[i].maxs[j] = LittleShort (dnodes[i].maxs[j]);
		}
		dnodes[i].children[0] = LittleShort (dnodes[i].children[0]);
		dnodes[i].children[1] = LittleShort (dnodes[i].children[1]);
		dnodes[i].firstface = LittleShort (dnodes[i].firstface);
		dnodes[i].numfaces = LittleShort (dnodes[i].numfaces);
	}

//
// leafs
//
	for (i=0 ; i<numleafs ; i++)
	{
		dleafs[i].contents = LittleLong (dleafs[i].contents);
		for (j=0 ; j<3 ; j++)
		{
			dleafs[i].mins[j] = LittleShort (dleafs[i].mins[j]);
			dleafs[i].maxs[j] = LittleShort (dleafs[i].maxs[j]);
		}

		dleafs[i].firstmarksurface = LittleShort (dleafs[i].firstmarksurface);
		dleafs[i].nummarksurfaces = LittleShort (dleafs[i].nummarksurfaces);
		dleafs[i].visofs = LittleLong (dleafs[i].visofs);
	}

//
// clipnodes
//
	for (i=0 ; i<numclipnodes ; i++)
	{
		dclipnodes[i].planenum = LittleLong (dclipnodes[i].planenum);
		dclipnodes[i].children[0] = LittleShort (dclipnodes[i].children[0]);
		dclipnodes[i].children[1] = LittleShort (dclipnodes[i].children[1]);
	}

//
// miptex
//
	if (texdatasize)
	{
		mtl = (dmiptexlump_t *)dtexdata;
		if (todisk)
			c = mtl->nummiptex;
		else
			c = LittleLong(mtl->nummiptex);
		mtl->nummiptex = LittleLong (mtl->nummiptex);
		for (i=0 ; i<c ; i++)
			mtl->dataofs[i] = LittleLong(mtl->dataofs[i]);
	}
	
//
// marksurfaces
//
	for (i=0 ; i<nummarksurfaces ; i++)
		dmarksurfaces[i] = LittleShort (dmarksurfaces[i]);

//
// surfedges
//
	for (i=0 ; i<numsurfedges ; i++)
		dsurfedges[i] = LittleLong (dsurfedges[i]);

//
// edges
//
	for (i=0 ; i<numedges ; i++)
	{
		dedges[i].v[0] = LittleShort (dedges[i].v[0]);
		dedges[i].v[1] = LittleShort (dedges[i].v[1]);
	}
}


dheader_t	*header;

int CopyLump (int lump, void *dest, int size)
{
	int		length, ofs;

	length = header->lumps[lump].filelen;
	ofs = header->lumps[lump].fileofs;
	
	if (length % size)
		Error ("LoadBSPFile: odd lump size");
	
	memcpy (dest, (byte *)header + ofs, length);

	return length / size;
}

/*
=============
LoadBSPFile
=============
*/
void	LoadBSPFile (char *filename)
{
	int			i;
	
//
// load the file header
//
	LoadFile (filename, (void **)&header);

// swap the header
	for (i=0 ; i< sizeof(dheader_t)/4 ; i++)
		((int *)header)[i] = LittleLong ( ((int *)header)[i]);

	if (header->version != BSPVERSION)
		Error ("%s is version %i, not %i", filename, header->version, BSPVERSION);

	nummodels = CopyLump (LUMP_MODELS, dmodels, sizeof(dmodel_t));
	numvertexes = CopyLump (LUMP_VERTEXES, dvertexes, sizeof(dvertex_t));
	numplanes = CopyLump (LUMP_PLANES, dplanes, sizeof(dplane_t));
	numleafs = CopyLump (LUMP_LEAFS, dleafs, sizeof(dleaf_t));
	numnodes = CopyLump (LUMP_NODES, dnodes, sizeof(dnode_t));
	numtexinfo = CopyLump (LUMP_TEXINFO, texinfo, sizeof(texinfo_t));
	numclipnodes = CopyLump (LUMP_CLIPNODES, dclipnodes, sizeof(dclipnode_t));
	numfaces = CopyLump (LUMP_FACES, dfaces, sizeof(dface_t));
	nummarksurfaces = CopyLump (LUMP_MARKSURFACES, dmarksurfaces, sizeof(dmarksurfaces[0]));
	numsurfedges = CopyLump (LUMP_SURFEDGES, dsurfedges, sizeof(dsurfedges[0]));
	numedges = CopyLump (LUMP_EDGES, dedges, sizeof(dedge_t));

	texdatasize = CopyLump (LUMP_TEXTURES, dtexdata, 1);
	visdatasize = CopyLump (LUMP_VISIBILITY, dvisdata, 1);
	lightdatasize = CopyLump (LUMP_LIGHTING, dlightdata, 1);
	entdatasize = CopyLump (LUMP_ENTITIES, dentdata, 1);

	free (header);		// everything has been copied out
		
//
// swap everything
//	
	SwapBSPFile (false);

	dmodels_checksum = FastChecksum( dmodels, nummodels*sizeof(dmodels[0]) );
    dvertexes_checksum = FastChecksum( dvertexes, numvertexes*sizeof(dvertexes[0]) );
	dplanes_checksum = FastChecksum( dplanes, numplanes*sizeof(dplanes[0]) );
	dleafs_checksum = FastChecksum( dleafs, numleafs*sizeof(dleafs[0]) );
	dnodes_checksum = FastChecksum( dnodes, numnodes*sizeof(dnodes[0]) );
	texinfo_checksum = FastChecksum( texinfo, numtexinfo*sizeof(texinfo[0]) );
	dclipnodes_checksum = FastChecksum( dclipnodes, numclipnodes*sizeof(dclipnodes[0]) );
	dfaces_checksum = FastChecksum( dfaces, numfaces*sizeof(dfaces[0]) );
	dmarksurfaces_checksum = FastChecksum( dmarksurfaces, nummarksurfaces*sizeof(dmarksurfaces[0]) );
	dsurfedges_checksum = FastChecksum( dsurfedges, numsurfedges*sizeof(dsurfedges[0]) );
	dedges_checksum = FastChecksum( dedges, numedges*sizeof(dedges[0]) );
	dtexdata_checksum = FastChecksum( dtexdata, numedges*sizeof(dtexdata[0]) );
	dvisdata_checksum = FastChecksum( dvisdata, visdatasize*sizeof(dvisdata[0]) );
	dlightdata_checksum = FastChecksum( dlightdata, lightdatasize*sizeof(dlightdata[0]) );
	dentdata_checksum = FastChecksum( dentdata, entdatasize*sizeof(dentdata[0]) );

}

//============================================================================

FILE		*wadfile;
dheader_t	outheader;

void AddLump (int lumpnum, void *data, int len)
{
	lump_t *lump;

	lump = &header->lumps[lumpnum];
	
	lump->fileofs = LittleLong( ftell(wadfile) );
	lump->filelen = LittleLong(len);
	SafeWrite (wadfile, data, (len+3)&~3);
}

/*
=============
WriteBSPFile

Swaps the bsp file in place, so it should not be referenced again
=============
*/
void	WriteBSPFile (char *filename)
{		
	header = &outheader;
	memset (header, 0, sizeof(dheader_t));
	
	SwapBSPFile (true);

	header->version = LittleLong (BSPVERSION);
	
	wadfile = SafeOpenWrite (filename);
	SafeWrite (wadfile, header, sizeof(dheader_t));	// overwritten later

	AddLump (LUMP_PLANES, dplanes, numplanes*sizeof(dplane_t));
	AddLump (LUMP_LEAFS, dleafs, numleafs*sizeof(dleaf_t));
	AddLump (LUMP_VERTEXES, dvertexes, numvertexes*sizeof(dvertex_t));
	AddLump (LUMP_NODES, dnodes, numnodes*sizeof(dnode_t));
	AddLump (LUMP_TEXINFO, texinfo, numtexinfo*sizeof(texinfo_t));
	AddLump (LUMP_FACES, dfaces, numfaces*sizeof(dface_t));
	AddLump (LUMP_CLIPNODES, dclipnodes, numclipnodes*sizeof(dclipnode_t));
	AddLump (LUMP_MARKSURFACES, dmarksurfaces, nummarksurfaces*sizeof(dmarksurfaces[0]));
	AddLump (LUMP_SURFEDGES, dsurfedges, numsurfedges*sizeof(dsurfedges[0]));
	AddLump (LUMP_EDGES, dedges, numedges*sizeof(dedge_t));
	AddLump (LUMP_MODELS, dmodels, nummodels*sizeof(dmodel_t));

	AddLump (LUMP_LIGHTING, dlightdata, lightdatasize);
	AddLump (LUMP_VISIBILITY, dvisdata, visdatasize);
	AddLump (LUMP_ENTITIES, dentdata, entdatasize);
	AddLump (LUMP_TEXTURES, dtexdata, texdatasize);
	
	fseek (wadfile, 0, SEEK_SET);
	SafeWrite (wadfile, header, sizeof(dheader_t));
	fclose (wadfile);	
}

//============================================================================

#define ENTRIES(a)		(sizeof(a)/sizeof(*(a)))
#define ENTRYSIZE(a)	(sizeof(*(a)))

ArrayUsage( char *szItem, int items, int maxitems, int itemsize )
{
	float	percentage = maxitems ? items * 100.0 / maxitems : 0.0;

    printf("%-12s  %7i/%-7i  %7i/%-7i  (%4.1f%%)", 
		   szItem, items, maxitems, items * itemsize, maxitems * itemsize, percentage );
	if ( percentage > 80.0 )
		printf( "VERY FULL!\n" );
	else if ( percentage > 95.0 )
		printf( "SIZE DANGER!\n" );
	else if ( percentage > 99.9 )
		printf( "SIZE OVERFLOW!!!\n" );
	else
		printf( "\n" );
	return items * itemsize;
}

GlobUsage( char *szItem, int itemstorage, int maxstorage )
{
	float	percentage = maxstorage ? itemstorage * 100.0 / maxstorage : 0.0;
    printf("%-12s     [variable]    %7i/%-7i  (%4.1f%%)", 
		   szItem, itemstorage, maxstorage, percentage );
	if ( percentage > 80.0 )
		printf( "VERY FULL!\n" );
	else if ( percentage > 95.0 )
		printf( "SIZE DANGER!\n" );
	else if ( percentage > 99.9 )
		printf( "SIZE OVERFLOW!!!\n" );
	else
		printf( "\n" );
	return itemstorage;
}

/*
=============
PrintBSPFileSizes

Dumps info about current file
=============
*/
void PrintBSPFileSizes (void)
{
	int	numtextures = texdatasize ? ((dmiptexlump_t*)dtexdata)->nummiptex : 0;
	int	totalmemory = 0;

	printf("\n");
	printf("Object names  Objects/Maxobjs  Memory / Maxmem  Fullness\n" );
	printf("------------  ---------------  ---------------  --------\n" );

	totalmemory += ArrayUsage( "models",		nummodels,		ENTRIES(dmodels),		ENTRYSIZE(dmodels) );
	totalmemory += ArrayUsage( "planes",		numplanes,		ENTRIES(dplanes),		ENTRYSIZE(dplanes) );
	totalmemory += ArrayUsage( "vertexes",		numvertexes,	ENTRIES(dvertexes),		ENTRYSIZE(dvertexes) );
	totalmemory += ArrayUsage( "nodes",			numnodes,		ENTRIES(dnodes),		ENTRYSIZE(dnodes) );
	totalmemory += ArrayUsage( "texinfos",		numtexinfo,		ENTRIES(texinfo),		ENTRYSIZE(texinfo) );
	totalmemory += ArrayUsage( "faces",			numfaces,		ENTRIES(dfaces),		ENTRYSIZE(dfaces) );
	totalmemory += ArrayUsage( "clipnodes",		numclipnodes,	ENTRIES(dclipnodes),	ENTRYSIZE(dclipnodes) );
	totalmemory += ArrayUsage( "leaves",		numleafs,		ENTRIES(dleafs),		ENTRYSIZE(dleafs) );
	totalmemory += ArrayUsage( "marksurfaces",	nummarksurfaces,ENTRIES(dmarksurfaces),	ENTRYSIZE(dmarksurfaces) );
	totalmemory += ArrayUsage( "surfedges",		numsurfedges,	ENTRIES(dsurfedges),	ENTRYSIZE(dsurfedges) );
	totalmemory += ArrayUsage( "edges",			numedges,		ENTRIES(dedges),		ENTRYSIZE(dedges) );

	totalmemory += GlobUsage( "texdata",		texdatasize,	sizeof(dtexdata) );
	totalmemory += GlobUsage( "lightdata",		lightdatasize,	sizeof(dlightdata) );
	totalmemory += GlobUsage( "visdata",		visdatasize,	sizeof(dvisdata) );
	totalmemory += GlobUsage( "entdata",		entdatasize,	sizeof(dentdata) );

	printf( "=== Total BSP file data space used: %d bytes ===\n", totalmemory );
}


/*
=================
ParseEpair
=================
*/
epair_t *ParseEpair (void)
{
	epair_t	*e;
	
	e = malloc (sizeof(epair_t));
	memset (e, 0, sizeof(epair_t));
	
	if (strlen(token) >= MAX_KEY-1)
		Error ("ParseEpar: token too long");
	e->key = copystring(token);
	GetToken (false);
	if (strlen(token) >= MAX_VALUE-1)
		Error ("ParseEpar: token too long");
	e->value = copystring(token);

	return e;
}


/*
================
ParseEntity
================
*/
qboolean	ParseEntity (void)
{
	epair_t		*e;
	entity_t	*mapent;

	if (!GetToken (true))
		return false;

	if (strcmp (token, "{") )
		Error ("ParseEntity: { not found");
	
	if (num_entities == MAX_MAP_ENTITIES)
		Error ("num_entities == MAX_MAP_ENTITIES");

	mapent = &entities[num_entities];
	num_entities++;

	do
	{
		if (!GetToken (true))
			Error ("ParseEntity: EOF without closing brace");
		if (!strcmp (token, "}") )
			break;
		e = ParseEpair ();
		e->next = mapent->epairs;
		mapent->epairs = e;
	} while (1);
	
	return true;
}

/*
================
ParseEntities

Parses the dentdata string into entities
================
*/
void ParseEntities (void)
{
	num_entities = 0;
	ParseFromMemory (dentdata, entdatasize);

	while (ParseEntity ())
	{
	}	
}


/*
================
UnparseEntities

Generates the dentdata string from all the entities
================
*/
void UnparseEntities (void)
{
	char	*buf, *end;
	epair_t	*ep;
	char	line[2048];
	int		i;
	
	buf = dentdata;
	end = buf;
	*end = 0;
	
	for (i=0 ; i<num_entities ; i++)
	{
		ep = entities[i].epairs;
		if (!ep)
			continue;	// ent got removed
		
		strcat (end,"{\n");
		end += 2;
				
		for (ep = entities[i].epairs ; ep ; ep=ep->next)
		{
			sprintf (line, "\"%s\" \"%s\"\n", ep->key, ep->value);
			strcat (end, line);
			end += strlen(line);
		}
		strcat (end,"}\n");
		end += 2;

		if (end > buf + MAX_MAP_ENTSTRING)
			Error ("Entity text too long");
	}
	entdatasize = end - buf + 1;
}



void 	SetKeyValue (entity_t *ent, char *key, char *value)
{
	epair_t	*ep;
	
	for (ep=ent->epairs ; ep ; ep=ep->next)
		if (!strcmp (ep->key, key) )
		{
			free (ep->value);
			ep->value = copystring(value);
			return;
		}
	ep = malloc (sizeof(*ep));
	ep->next = ent->epairs;
	ent->epairs = ep;
	ep->key = copystring(key);
	ep->value = copystring(value);
}

char 	*ValueForKey (entity_t *ent, char *key)
{
	epair_t	*ep;
	
	for (ep=ent->epairs ; ep ; ep=ep->next)
		if (!strcmp (ep->key, key) )
			return ep->value;
	return "";
}

vec_t	FloatForKey (entity_t *ent, char *key)
{
	char	*k;
	
	k = ValueForKey (ent, key);
	return atof(k);
}

void 	GetVectorForKey (entity_t *ent, char *key, vec3_t vec)
{
	char	*k;
	double	v1, v2, v3;

	k = ValueForKey (ent, key);
// scanf into doubles, then assign, so it is vec_t size independent
	v1 = v2 = v3 = 0;
	sscanf (k, "%lf %lf %lf", &v1, &v2, &v3);
	vec[0] = v1;
	vec[1] = v2;
	vec[2] = v3;
}