2017-06-27 11:01:12 +00:00
// This object is shared by the editors of *all* Build games!
2014-07-28 06:44:37 +00:00
# include "compat.h"
# include "keys.h"
# include "build.h"
# include "cache1d.h"
2014-08-31 11:15:23 +00:00
# ifdef POLYMER
# include "polymer.h"
# endif
2014-07-28 06:44:37 +00:00
# include "editor.h"
# include "renderlayer.h"
# include "m32script.h"
# include "m32def.h"
# include "lz4.h"
# include "xxhash.h"
2017-06-27 11:01:12 +00:00
// XXX: This breaks editors for games other than Duke. The OSD needs a way to specify colors in abstract instead of concatenating palswap escape sequences.
2017-06-27 02:24:34 +00:00
# include "common_game.h"
2014-07-28 06:44:37 +00:00
//////////////////// Key stuff ////////////////////
# define eitherALT (keystatus[KEYSC_LALT] || keystatus[KEYSC_RALT])
# define eitherCTRL (keystatus[KEYSC_LCTRL] || keystatus[KEYSC_RCTRL])
# define eitherSHIFT (keystatus[KEYSC_LSHIFT] || keystatus[KEYSC_RSHIFT])
# define PRESSED_KEYSC(Key) (keystatus[KEYSC_##Key] && !(keystatus[KEYSC_##Key]=0))
////
// All these variables need verification that all relevant editor stubs are actually implementing them correctly.
char getmessage [ 162 ] , getmessageleng ;
int32_t getmessagetimeoff ; //, charsperline;
int32_t mousxplc , mousyplc ;
int32_t mouseaction ;
char * scripthist [ SCRIPTHISTSIZ ] ;
int32_t scripthistend ;
int32_t g_lazy_tileselector ;
int32_t fixmaponsave_sprites = 1 ;
int32_t showambiencesounds = 2 ;
int32_t autosave = 180 ;
int32_t autocorruptcheck ;
2015-08-08 07:04:14 +00:00
int32_t corruptcheck_noalreadyrefd , corruptcheck_heinum = 1 ;
2015-11-14 17:21:11 +00:00
int32_t corruptcheck_game_duke3d = 1 ; // TODO: at startup, make conditional on which game we are editing for?
2014-07-28 06:44:37 +00:00
int32_t corrupt_tryfix_alt ;
int32_t corruptlevel , numcorruptthings , corruptthings [ MAXCORRUPTTHINGS ] ;
////
# ifdef YAX_ENABLE
const char * yupdownwall [ 2 ] = { " upwall " , " downwall " } ;
const char * YUPDOWNWALL [ 2 ] = { " UPWALL " , " DOWNWALL " } ;
# endif
////
void drawgradient ( void )
{
2015-07-09 05:58:00 +00:00
int32_t i , col = editorcolors [ 25 ] ;
2018-04-12 21:02:51 +00:00
videoBeginDrawing ( ) ;
2014-07-28 06:44:37 +00:00
for ( i = ydim - STATUS2DSIZ + 16 ; i < ydim & & col > 0 ; i + + , col - - )
CLEARLINES2D ( i , 1 , ( col < < 24 ) | ( col < < 16 ) | ( col < < 8 ) | col ) ;
CLEARLINES2D ( i , ydim - i , 0 ) ;
2018-04-12 21:02:51 +00:00
videoEndDrawing ( ) ;
2014-07-28 06:44:37 +00:00
}
static void message_common1 ( const char * tmpstr )
{
Bstrncpyz ( getmessage , tmpstr , sizeof ( getmessage ) ) ;
getmessageleng = Bstrlen ( getmessage ) ;
getmessagetimeoff = totalclock + 120 * 2 + getmessageleng * ( 120 / 30 ) ;
// lastmessagetime = totalclock;
}
void message ( const char * fmt , . . . )
{
char tmpstr [ 256 ] ;
va_list va ;
va_start ( va , fmt ) ;
Bvsnprintf ( tmpstr , 256 , fmt , va ) ;
va_end ( va ) ;
message_common1 ( tmpstr ) ;
if ( ! mouseaction )
OSD_Printf ( " %s \n " , tmpstr ) ;
}
void silentmessage ( const char * fmt , . . . )
{
char tmpstr [ 256 ] ;
va_list va ;
va_start ( va , fmt ) ;
Bvsnprintf ( tmpstr , 256 , fmt , va ) ;
va_end ( va ) ;
message_common1 ( tmpstr ) ;
}
////////// tag labeling system //////////
typedef struct
{
hashtable_t hashtab ;
char * label [ 32768 ] ;
int32_t numlabels ;
} taglab_t ;
static taglab_t g_taglab ;
static void tstrtoupper ( char * s )
{
int32_t i ;
for ( i = 0 ; s [ i ] ; i + + )
s [ i ] = Btoupper ( s [ i ] ) ;
}
void taglab_init ( )
{
int32_t i ;
g_taglab . numlabels = 0 ;
g_taglab . hashtab . size = 16384 ;
hash_init ( & g_taglab . hashtab ) ;
for ( i = 0 ; i < 32768 ; i + + )
2015-09-23 17:55:31 +00:00
DO_FREE_AND_NULL ( g_taglab . label [ i ] ) ;
2014-07-28 06:44:37 +00:00
}
int32_t taglab_load ( const char * filename , int32_t flags )
{
int32_t fil , len , i ;
char buf [ BMAX_PATH ] , * dot , * filebuf ;
taglab_init ( ) ;
len = Bstrlen ( filename ) ;
if ( len > = BMAX_PATH - 1 )
return - 1 ;
Bmemcpy ( buf , filename , len + 1 ) ;
//
dot = Bstrrchr ( buf , ' . ' ) ;
if ( ! dot )
dot = & buf [ len ] ;
if ( dot - buf + 8 > = BMAX_PATH )
return - 1 ;
Bmemcpy ( dot , " .maptags " , 9 ) ;
//
if ( ( fil = kopen4load ( buf , flags ) ) = = - 1 )
return - 1 ;
len = kfilelength ( fil ) ;
filebuf = ( char * ) Xmalloc ( len + 1 ) ;
if ( ! filebuf )
{
kclose ( fil ) ;
return - 1 ;
}
kread ( fil , filebuf , len ) ;
filebuf [ len ] = 0 ;
kclose ( fil ) ;
// ----
{
int32_t tag ;
char * cp = filebuf , * bp , * ep ;
while ( 1 )
{
# define XTAGLAB_STRINGIFY(X) TAGLAB_STRINGIFY(X)
# define TAGLAB_STRINGIFY(X) #X
i = sscanf ( cp , " %d % " XTAGLAB_STRINGIFY ( TAGLAB_MAX ) " s " , & tag , buf ) ;
# undef XTAGLAB_STRINGIFY
# undef TAGLAB_STRINGIFY
if ( i ! = 2 | | ! buf [ 0 ] | | tag < 0 | | tag > = 32768 )
goto nextline ;
buf [ TAGLAB_MAX - 1 ] = 0 ;
i = Bstrlen ( buf ) ;
bp = buf ; while ( * bp & & isspace ( * bp ) ) bp + + ;
ep = & buf [ i - 1 ] ; while ( ep > buf & & isspace ( * ep ) ) ep - - ;
ep + + ;
if ( ! ( ep > bp ) )
goto nextline ;
* ep = 0 ;
taglab_add ( bp , tag ) ;
//initprintf("add tag %s:%d\n", bp, tag);
nextline :
while ( * cp & & * cp ! = ' \n ' )
cp + + ;
while ( * cp = = ' \r ' | | * cp = = ' \n ' )
cp + + ;
if ( * cp = = 0 )
break ;
}
}
// ----
Bfree ( filebuf ) ;
return 0 ;
}
int32_t taglab_save ( const char * mapname )
{
int32_t fil , len , i ;
char buf [ BMAX_PATH ] , * dot ;
const char * label ;
if ( g_taglab . numlabels = = 0 )
return 1 ;
Bstrncpyz ( buf , mapname , BMAX_PATH ) ;
len = Bstrlen ( buf ) ;
//
dot = Bstrrchr ( buf , ' . ' ) ;
if ( ! dot )
dot = & buf [ len ] ;
if ( dot - buf + 8 > = BMAX_PATH )
return - 1 ;
Bmemcpy ( dot , " .maptags " , 9 ) ;
//
if ( ( fil = Bopen ( buf , BO_BINARY | BO_TRUNC | BO_CREAT | BO_WRONLY , BS_IREAD | BS_IWRITE ) ) = = - 1 )
{
initprintf ( " Couldn't open \" %s \" for writing: %s \n " , buf , strerror ( errno ) ) ;
return - 1 ;
}
for ( i = 0 ; i < 32768 ; i + + )
{
label = taglab_getlabel ( i ) ;
if ( ! label )
continue ;
len = Bsprintf ( buf , " %d %s " OURNEWL , i , label ) ;
if ( Bwrite ( fil , buf , len ) ! = len )
break ;
}
Bclose ( fil ) ;
return ( i ! = 32768 ) ;
}
int32_t taglab_add ( const char * label , int16_t tag )
{
const char * otaglabel ;
char buf [ TAGLAB_MAX ] ;
int32_t olabeltag , diddel = 0 ;
if ( tag < 0 )
return - 1 ;
Bstrncpyz ( buf , label , sizeof ( buf ) ) ;
// upcase the tag for storage and comparison
tstrtoupper ( buf ) ;
otaglabel = g_taglab . label [ tag ] ;
if ( otaglabel )
{
if ( ! Bstrcasecmp ( otaglabel , buf ) )
return 0 ;
// hash_delete(&g_taglab.hashtab, g_taglab.label[tag]);
// a label having the same tag number as 'tag' is deleted
2015-09-23 17:55:31 +00:00
DO_FREE_AND_NULL ( g_taglab . label [ tag ] ) ;
2014-07-28 06:44:37 +00:00
diddel | = 1 ;
}
else
{
olabeltag = hash_findcase ( & g_taglab . hashtab , buf ) ;
if ( olabeltag = = tag )
return 0 ;
if ( olabeltag > = 0 )
{
// the label gets assigned to a new tag number ('tag deleted')
2015-09-23 17:55:31 +00:00
DO_FREE_AND_NULL ( g_taglab . label [ olabeltag ] ) ;
2014-07-28 06:44:37 +00:00
diddel | = 2 ;
}
}
if ( ! diddel )
g_taglab . numlabels + + ;
g_taglab . label [ tag ] = Xstrdup ( buf ) ;
//initprintf("added %s %d to hash\n", g_taglab.label[tag], tag);
hash_add ( & g_taglab . hashtab , g_taglab . label [ tag ] , tag , 1 ) ;
return diddel ;
}
const char * taglab_getlabel ( int16_t tag )
{
if ( tag < 0 ) // || tag>=32768 implicitly
return NULL ;
return g_taglab . label [ tag ] ;
}
int32_t taglab_gettag ( const char * label )
{
char buf [ TAGLAB_MAX ] ;
Bstrncpyz ( buf , label , TAGLAB_MAX ) ;
// need to upcase since hash_findcase doesn't work as expected:
// getting the code is still (necessarily) case-sensitive...
tstrtoupper ( buf ) ;
return hash_findcase ( & g_taglab . hashtab , buf ) ;
}
////////// end tag labeling system //////////
////////// UNDO/REDO SYSTEM //////////
# if M32_UNDO
mapundo_t * mapstate = NULL ;
int32_t map_revision = 1 ;
2016-01-11 05:06:02 +00:00
static int32_t try_match_with_prev ( int32_t idx , int32_t numsthgs , uintptr_t crc )
2014-07-28 06:44:37 +00:00
{
if ( mapstate - > prev & & mapstate - > prev - > num [ idx ] = = numsthgs & & mapstate - > prev - > crc [ idx ] = = crc )
{
// found match!
mapstate - > sws [ idx ] = mapstate - > prev - > sws [ idx ] ;
( * ( int32_t * ) mapstate - > sws [ idx ] ) + + ; // increase refcount!
return 1 ;
}
return 0 ;
}
2016-01-11 05:06:02 +00:00
static void create_compressed_block ( int32_t idx , const void * srcdata , uint32_t size , uintptr_t crc )
2014-07-28 06:44:37 +00:00
{
uint32_t j ;
// allocate
2017-06-14 07:00:08 +00:00
int const compressed_size = LZ4_compressBound ( size ) ;
mapstate - > sws [ idx ] = ( char * ) Xmalloc ( 4 + compressed_size ) ;
2014-07-28 06:44:37 +00:00
// compress & realloc
2017-06-14 07:00:08 +00:00
j = LZ4_compress_default ( ( const char * ) srcdata , mapstate - > sws [ idx ] + 4 , size , compressed_size ) ;
2014-07-28 06:44:37 +00:00
mapstate - > sws [ idx ] = ( char * ) Xrealloc ( mapstate - > sws [ idx ] , 4 + j ) ;
// write refcount
* ( int32_t * ) mapstate - > sws [ idx ] = 1 ;
mapstate - > crc [ idx ] = crc ;
}
static void free_self_and_successors ( mapundo_t * mapst )
{
mapundo_t * cur = mapst ;
mapst - > prev = NULL ; // break the back link
while ( cur - > next )
cur = cur - > next ;
while ( 1 )
{
int32_t i ;
mapundo_t * const prev = cur - > prev ;
for ( i = 0 ; i < 3 ; i + + )
{
int32_t * const refcnt = ( int32_t * ) cur - > sws [ i ] ;
if ( refcnt )
{
( * refcnt ) - - ;
if ( * refcnt = = 0 )
Bfree ( refcnt ) ; // free the block!
}
}
Bfree ( cur ) ;
if ( ! prev )
break ;
cur = prev ;
}
}
// NOTE: only _consecutive_ matching (size+crc) sector/wall/sprite blocks are
// shared!
void create_map_snapshot ( void )
{
if ( mapstate = = NULL )
{
// create initial mapstate
map_revision = 1 ;
mapstate = ( mapundo_t * ) Xcalloc ( 1 , sizeof ( mapundo_t ) ) ;
mapstate - > revision = map_revision ;
mapstate - > prev = mapstate - > next = NULL ;
}
else
{
if ( mapstate - > next )
free_self_and_successors ( mapstate - > next ) ;
// now, have no successors
// calloc because not everything may be set in the following:
mapstate - > next = ( mapundo_t * ) Xcalloc ( 1 , sizeof ( mapundo_t ) ) ;
mapstate - > next - > prev = mapstate ;
mapstate = mapstate - > next ;
mapstate - > revision = + + map_revision ;
}
fixspritesectors ( ) ;
mapstate - > num [ 0 ] = numsectors ;
mapstate - > num [ 1 ] = numwalls ;
mapstate - > num [ 2 ] = Numsprites ;
if ( numsectors )
{
2016-01-11 05:06:02 +00:00
# if !defined UINTPTR_MAX
# error Need UINTPTR_MAX define to select between 32- and 64-bit functions
# endif
# if UINTPTR_MAX == 0xffffffff
/* 32-bit */
# define XXH__ XXH32
# else
/* 64-bit */
# define XXH__ XXH64
# endif
uintptr_t temphash = XXH__ ( ( uint8_t * ) sector , numsectors * sizeof ( sectortype ) , numsectors * sizeof ( sectortype ) ) ;
2014-07-28 06:44:37 +00:00
if ( ! try_match_with_prev ( 0 , numsectors , temphash ) )
create_compressed_block ( 0 , sector , numsectors * sizeof ( sectortype ) , temphash ) ;
if ( numwalls )
{
2016-01-11 05:06:02 +00:00
temphash = XXH__ ( ( uint8_t * ) wall , numwalls * sizeof ( walltype ) , numwalls * sizeof ( walltype ) ) ;
2014-07-28 06:44:37 +00:00
if ( ! try_match_with_prev ( 1 , numwalls , temphash ) )
create_compressed_block ( 1 , wall , numwalls * sizeof ( walltype ) , temphash ) ;
}
if ( Numsprites )
{
2016-01-11 05:06:02 +00:00
temphash = XXH__ ( ( uint8_t * ) sprite , MAXSPRITES * sizeof ( spritetype ) , MAXSPRITES * sizeof ( spritetype ) ) ;
2014-07-28 06:44:37 +00:00
if ( ! try_match_with_prev ( 2 , Numsprites , temphash ) )
{
int32_t i = 0 ;
spritetype * const tspri = ( spritetype * ) Xmalloc ( Numsprites * sizeof ( spritetype ) + 4 ) ;
spritetype * spri = tspri ;
2016-08-27 01:41:21 +00:00
for ( bssize_t j = 0 ; j < MAXSPRITES & & i < Numsprites ; j + + )
2014-07-28 06:44:37 +00:00
if ( sprite [ j ] . statnum ! = MAXSTATUS )
{
Bmemcpy ( spri + + , & sprite [ j ] , sizeof ( spritetype ) ) ;
i + + ;
}
create_compressed_block ( 2 , tspri , Numsprites * sizeof ( spritetype ) , temphash ) ;
Bfree ( tspri ) ;
}
}
2016-01-11 05:06:02 +00:00
# undef XXH__
2014-07-28 06:44:37 +00:00
}
CheckMapCorruption ( 5 , 0 ) ;
}
void map_undoredo_free ( void )
{
if ( mapstate )
{
free_self_and_successors ( mapstate ) ;
mapstate = NULL ;
}
map_revision = 1 ;
}
int32_t map_undoredo ( int32_t dir )
{
int32_t i ;
if ( mapstate = = NULL ) return 1 ;
if ( dir )
{
if ( mapstate - > next = = NULL | | ! mapstate - > next - > num [ 0 ] ) return 1 ;
// while (map_revision+1 != mapstate->revision && mapstate->next)
mapstate = mapstate - > next ;
}
else
{
if ( mapstate - > prev = = NULL | | ! mapstate - > prev - > num [ 0 ] ) return 1 ;
// while (map_revision-1 != mapstate->revision && mapstate->prev)
mapstate = mapstate - > prev ;
}
numsectors = mapstate - > num [ 0 ] ;
numwalls = mapstate - > num [ 1 ] ;
map_revision = mapstate - > revision ;
Bmemset ( show2dsector , 0 , sizeof ( show2dsector ) ) ;
reset_highlightsector ( ) ;
reset_highlight ( ) ;
initspritelists ( ) ;
if ( mapstate - > num [ 0 ] )
{
// restore sector[]
LZ4_decompress_fast ( mapstate - > sws [ 0 ] + 4 , ( char * ) sector , numsectors * sizeof ( sectortype ) ) ;
if ( mapstate - > num [ 1 ] ) // restore wall[]
LZ4_decompress_fast ( mapstate - > sws [ 1 ] + 4 , ( char * ) wall , numwalls * sizeof ( walltype ) ) ;
if ( mapstate - > num [ 2 ] ) // restore sprite[]
LZ4_decompress_fast ( mapstate - > sws [ 2 ] + 4 , ( char * ) sprite , ( mapstate - > num [ 2 ] ) * sizeof ( spritetype ) ) ;
}
// insert sprites
for ( i = 0 ; i < mapstate - > num [ 2 ] ; i + + )
{
if ( ( sprite [ i ] . cstat & 48 ) = = 48 ) sprite [ i ] . cstat & = ~ 48 ;
Bassert ( ( unsigned ) sprite [ i ] . sectnum < ( unsigned ) numsectors
& & ( unsigned ) sprite [ i ] . statnum < MAXSTATUS ) ;
insertsprite ( sprite [ i ] . sectnum , sprite [ i ] . statnum ) ;
}
Bassert ( Numsprites = = mapstate - > num [ 2 ] ) ;
# ifdef POLYMER
2018-04-12 21:03:12 +00:00
if ( in3dmode ( ) & & videoGetRenderMode ( ) = = REND_POLYMER )
2014-07-28 06:44:37 +00:00
polymer_loadboard ( ) ;
# endif
# ifdef YAX_ENABLE
yax_update ( 0 ) ;
yax_updategrays ( pos . z ) ;
# endif
CheckMapCorruption ( 4 , 0 ) ;
return 0 ;
}
# endif
////
//// port of a.m32's corruptchk ////
2014-08-08 20:02:54 +00:00
// Compile wall loop checks? 0: no, 1: partial, 2: full.
2014-12-27 17:17:53 +00:00
# define CCHK_LOOP_CHECKS 0
2014-07-28 06:44:37 +00:00
// returns value from 0 (all OK) to 5 (panic!)
# define CCHK_PANIC OSDTEXT_DARKRED "PANIC!!!^O "
//#define CCHKPREF OSDTEXT_RED "^O"
# define CCHK_CORRECTED OSDTEXT_GREEN " -> "
# define CORRUPTCHK_PRINT(errlev, what, fmt, ...) do \
{ \
bad = max ( bad , errlev ) ; \
if ( numcorruptthings > = MAXCORRUPTTHINGS ) \
goto too_many_errors ; \
corruptthings [ numcorruptthings + + ] = ( what ) ; \
if ( errlev > = printfromlev ) \
2014-11-25 21:08:58 +00:00
OSD_Printf ( " #%d: " fmt " \n " , numcorruptthings , # # __VA_ARGS__ ) ; \
2014-07-28 06:44:37 +00:00
} while ( 0 )
2014-08-08 20:02:53 +00:00
2014-07-28 06:44:37 +00:00
# ifdef YAX_ENABLE
static int32_t walls_have_equal_endpoints ( int32_t w1 , int32_t w2 )
{
int32_t n1 = wall [ w1 ] . point2 , n2 = wall [ w2 ] . point2 ;
return ( wall [ w1 ] . x = = wall [ w2 ] . x & & wall [ w1 ] . y = = wall [ w2 ] . y & &
wall [ n1 ] . x = = wall [ n2 ] . x & & wall [ n1 ] . y = = wall [ n2 ] . y ) ;
}
static void correct_yax_nextwall ( int32_t wallnum , int32_t bunchnum , int32_t cf , int32_t tryfixingp )
{
int32_t i , j , startwall , endwall ;
2017-02-05 20:58:33 +00:00
int32_t nummatching = 0 , lastwall [ 2 ] = { - 1 , - 1 } ;
2014-07-28 06:44:37 +00:00
for ( SECTORS_OF_BUNCH ( bunchnum , ! cf , i ) )
for ( WALLS_OF_SECTOR ( i , j ) )
{
// v v v shouldn't happen, 'stupidity safety'
if ( j ! = wallnum & & walls_have_equal_endpoints ( wallnum , j ) )
{
lastwall [ nummatching + + ] = j ;
if ( nummatching = = 2 )
goto outofloop ;
}
}
outofloop :
if ( nummatching = = 1 )
{
if ( ! tryfixingp )
{
OSD_Printf ( " will set wall %d's %s to %d on tryfix \n " ,
wallnum , yupdownwall [ cf ] , lastwall [ 0 ] ) ;
}
else
{
int32_t setreverse = 0 ;
yax_setnextwall ( wallnum , cf , lastwall [ 0 ] ) ;
if ( yax_getnextwall ( lastwall [ 0 ] , ! cf ) < 0 )
{
setreverse = 1 ;
yax_setnextwall ( lastwall [ 0 ] , ! cf , wallnum ) ;
}
OSD_Printf ( " auto-correction: set wall %d's %s to %d%s \n " ,
wallnum , yupdownwall [ cf ] , lastwall [ 0 ] , setreverse ? " and its reverse link " : " " ) ;
}
}
else if ( ! tryfixingp )
{
if ( nummatching > 1 )
{
OSD_Printf ( " found more than one matching wall: at least %d and %d \n " ,
lastwall [ 0 ] , lastwall [ 1 ] ) ;
}
else if ( nummatching = = 0 )
{
OSD_Printf ( " found no matching walls! \n " ) ;
}
}
}
# endif
// in reverse orientation
static int32_t walls_are_consistent ( int32_t w1 , int32_t w2 )
{
return ( wall [ w2 ] . x = = POINT2 ( w1 ) . x & & wall [ w2 ] . y = = POINT2 ( w1 ) . y & &
wall [ w1 ] . x = = POINT2 ( w2 ) . x & & wall [ w1 ] . y = = POINT2 ( w2 ) . y ) ;
}
static void suggest_nextsector_correction ( int32_t nw , int32_t j )
{
// wall j's nextsector is inconsistent with its nextwall... what shall we do?
if ( nw > = 0 & & nw < numwalls )
{
// maybe wall[j].nextwall's nextwall is right?
if ( wall [ nw ] . nextwall = = j & & walls_are_consistent ( nw , j ) )
OSD_Printf ( " suggest setting wall[%d].nextsector to %d \n " ,
j , sectorofwall_noquick ( nw ) ) ;
}
// alternative
if ( wall [ j ] . nextsector > = 0 & & wall [ j ] . nextsector < numsectors )
{
int32_t w , startwall , endwall ;
for ( WALLS_OF_SECTOR ( wall [ j ] . nextsector , w ) )
{
// XXX: need clearing some others?
if ( walls_are_consistent ( w , j ) )
{
OSD_Printf ( " ? suggest setting wall[%d].nextwall to %d \n " ,
j , w ) ;
break ;
}
}
}
OSD_Printf ( " ?? suggest making wall %d white \n " , j ) ;
}
static void do_nextsector_correction ( int32_t nw , int32_t j )
{
if ( corrupt_tryfix_alt = = 0 )
{
if ( nw > = 0 & & nw < numwalls )
if ( wall [ nw ] . nextwall = = j & & walls_are_consistent ( nw , j ) )
{
int32_t newns = sectorofwall_noquick ( nw ) ;
wall [ j ] . nextsector = newns ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: set wall[%d].nextsector=%d \n " ,
j , newns ) ;
}
}
else if ( corrupt_tryfix_alt = = 1 )
{
if ( wall [ j ] . nextsector > = 0 & & wall [ j ] . nextsector < numsectors )
{
int32_t w , startwall , endwall ;
for ( WALLS_OF_SECTOR ( wall [ j ] . nextsector , w ) )
if ( walls_are_consistent ( w , j ) )
{
wall [ j ] . nextwall = w ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: set wall[%d].nextwall=%d \n " ,
j , w ) ;
break ;
}
}
}
else if ( corrupt_tryfix_alt = = 2 )
{
wall [ j ] . nextwall = wall [ j ] . nextsector = - 1 ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: made wall %d white \n " , j ) ;
}
}
static int32_t csc_s , csc_i ;
// 1: corrupt, 0: OK
static int32_t check_spritelist_consistency ( )
{
2015-02-19 17:41:56 +00:00
int32_t ournumsprites = 0 ;
2014-07-28 06:44:37 +00:00
static uint8_t havesprite [ MAXSPRITES > > 3 ] ;
csc_s = csc_i = - 1 ;
if ( Numsprites < 0 | | Numsprites > MAXSPRITES )
return 1 ;
2016-08-27 01:41:21 +00:00
for ( bssize_t i = 0 ; i < MAXSPRITES ; i + + )
2014-07-28 06:44:37 +00:00
{
const int32_t sectnum = sprite [ i ] . sectnum , statnum = sprite [ i ] . statnum ;
csc_i = i ;
if ( ( statnum = = MAXSTATUS ) ! = ( sectnum = = MAXSECTORS ) )
return 2 ; // violation of .statnum==MAXSTATUS iff .sectnum==MAXSECTORS
if ( ( unsigned ) statnum > MAXSTATUS | | ( sectnum ! = MAXSECTORS & & ( unsigned ) sectnum > ( unsigned ) numsectors ) )
return 3 ; // oob sectnum or statnum
if ( statnum ! = MAXSTATUS )
ournumsprites + + ;
}
if ( ournumsprites ! = Numsprites )
{
initprintf ( " ournumsprites=%d, Numsprites=%d \n " , ournumsprites , Numsprites ) ;
return 4 ; // counting sprites by statnum!=MAXSTATUS inconsistent with Numsprites
}
// SECTOR LIST
Bmemset ( havesprite , 0 , ( Numsprites + 7 ) > > 3 ) ;
2016-08-27 01:41:21 +00:00
for ( bssize_t s = 0 ; s < numsectors ; s + + )
2014-07-28 06:44:37 +00:00
{
2015-02-19 17:41:56 +00:00
int i ;
2014-07-28 06:44:37 +00:00
csc_s = s ;
for ( i = headspritesect [ s ] ; i > = 0 ; i = nextspritesect [ i ] )
{
csc_i = i ;
if ( i > = MAXSPRITES )
return 5 ; // oob sprite index in list, or Numsprites inconsistent
if ( havesprite [ i > > 3 ] & ( 1 < < ( i & 7 ) ) )
return 6 ; // have a cycle in the list
havesprite [ i > > 3 ] | = ( 1 < < ( i & 7 ) ) ;
if ( sprite [ i ] . sectnum ! = s )
return 7 ; // .sectnum inconsistent with list
}
if ( i ! = - 1 )
return 8 ; // various code checks for -1 to break loop
}
csc_s = - 1 ;
2016-08-27 01:41:21 +00:00
for ( bssize_t i = 0 ; i < MAXSPRITES ; i + + )
2014-07-28 06:44:37 +00:00
{
csc_i = i ;
if ( sprite [ i ] . statnum ! = MAXSTATUS & & ! ( havesprite [ i > > 3 ] & ( 1 < < ( i & 7 ) ) ) )
return 9 ; // have a sprite in the world not in sector list
}
// STATUS LIST -- we now clear havesprite[] bits
2016-08-27 01:41:21 +00:00
for ( bssize_t s = 0 ; s < MAXSTATUS ; s + + )
2014-07-28 06:44:37 +00:00
{
2015-02-19 17:41:56 +00:00
int i ;
2014-07-28 06:44:37 +00:00
csc_s = s ;
for ( i = headspritestat [ s ] ; i > = 0 ; i = nextspritestat [ i ] )
{
csc_i = i ;
if ( i > = MAXSPRITES )
return 10 ; // oob sprite index in list, or Numsprites inconsistent
// have a cycle in the list, or status list inconsistent with
// sector list (*)
if ( ! ( havesprite [ i > > 3 ] & ( 1 < < ( i & 7 ) ) ) )
return 11 ;
havesprite [ i > > 3 ] & = ~ ( 1 < < ( i & 7 ) ) ;
if ( sprite [ i ] . statnum ! = s )
return 12 ; // .statnum inconsistent with list
}
if ( i ! = - 1 )
return 13 ; // various code checks for -1 to break loop
}
csc_s = - 1 ;
2016-08-27 01:41:21 +00:00
for ( bssize_t i = 0 ; i < Numsprites ; i + + )
2014-07-28 06:44:37 +00:00
{
csc_i = i ;
// Status list contains only a proper subset of the sprites in the
// sector list. Reverse case is handled by (*)
if ( havesprite [ i > > 3 ] & ( 1 < < ( i & 7 ) ) )
return 14 ;
}
return 0 ;
}
2014-08-08 20:02:54 +00:00
# if CCHK_LOOP_CHECKS
// Return the least wall index of the outer loop of sector <sectnum>, or
// -1 if there is none,
// -2 if there is more than one.
static int32_t determine_outer_loop ( int32_t sectnum )
{
int32_t j , outerloopstart = - 1 ;
const int32_t startwall = sector [ sectnum ] . wallptr ;
const int32_t endwall = startwall + sector [ sectnum ] . wallnum - 1 ;
for ( j = startwall ; j < = endwall ; j = get_nextloopstart ( j ) )
{
if ( clockdir ( j ) = = CLOCKDIR_CW )
{
if ( outerloopstart = = - 1 )
outerloopstart = j ;
else if ( outerloopstart > = 0 )
return - 2 ;
}
}
return outerloopstart ;
}
# endif
2014-07-28 06:44:37 +00:00
# define TRYFIX_NONE() (tryfixing == 0ull)
# define TRYFIX_CNUM(onumct) (onumct < MAXCORRUPTTHINGS && (tryfixing & (1ull<<onumct)))
int32_t CheckMapCorruption ( int32_t printfromlev , uint64_t tryfixing )
{
2014-08-08 20:02:53 +00:00
int32_t i , j ;
2014-07-28 06:44:37 +00:00
int32_t ewall = 0 ; // expected wall index
int32_t errlevel = 0 , bad = 0 ;
int32_t heinumcheckstat = 0 ; // 1, 2
uint8_t * seen_nextwalls = NULL ;
int16_t * lastnextwallsource = NULL ;
numcorruptthings = 0 ;
if ( numsectors > MAXSECTORS )
CORRUPTCHK_PRINT ( 5 , 0 , CCHK_PANIC " SECTOR LIMIT EXCEEDED (MAXSECTORS=%d)!!! " , MAXSECTORS ) ;
if ( numwalls > MAXWALLS )
CORRUPTCHK_PRINT ( 5 , 0 , CCHK_PANIC " WALL LIMIT EXCEEDED (MAXWALLS=%d)!!! " , MAXWALLS ) ;
if ( numsectors > MAXSECTORS | | numwalls > MAXWALLS )
{
corruptlevel = bad ;
return bad ;
}
if ( numsectors = = 0 | | numwalls = = 0 )
{
if ( numsectors > 0 )
CORRUPTCHK_PRINT ( 5 , 0 , CCHK_PANIC " Have sectors but no walls! " ) ;
if ( numwalls > 0 )
CORRUPTCHK_PRINT ( 5 , 0 , CCHK_PANIC " Have walls but no sectors! " ) ;
return bad ;
}
if ( ! corruptcheck_noalreadyrefd )
{
seen_nextwalls = ( uint8_t * ) Xcalloc ( ( numwalls + 7 ) > > 3 , 1 ) ;
lastnextwallsource = ( int16_t * ) Xmalloc ( numwalls * sizeof ( lastnextwallsource [ 0 ] ) ) ;
}
for ( i = 0 ; i < numsectors ; i + + )
{
2014-08-08 20:02:53 +00:00
const int32_t w0 = sector [ i ] . wallptr ;
const int32_t numw = sector [ i ] . wallnum ;
const int32_t endwall = w0 + numw - 1 ; // inclusive
2014-07-28 06:44:37 +00:00
2014-08-08 20:02:53 +00:00
bad = 0 ;
2014-07-28 06:44:37 +00:00
if ( w0 < 0 | | w0 > numwalls )
{
if ( w0 < 0 | | w0 > = MAXWALLS )
CORRUPTCHK_PRINT ( 5 , CORRUPT_SECTOR | i , " SECTOR[%d].WALLPTR=%d INVALID!!! " , i , w0 ) ;
else
CORRUPTCHK_PRINT ( 5 , CORRUPT_SECTOR | i , " SECTOR[%d].WALLPTR=%d out of range (numwalls=%d) " , i , w0 , numw ) ;
}
if ( w0 ! = ewall )
CORRUPTCHK_PRINT ( 4 , CORRUPT_SECTOR | i , " SECTOR[%d].WALLPTR=%d inconsistent, expected %d " , i , w0 , ewall ) ;
if ( numw < = 1 )
CORRUPTCHK_PRINT ( 5 , CORRUPT_SECTOR | i , CCHK_PANIC " SECTOR[%d].WALLNUM=%d INVALID!!! " , i , numw ) ;
else if ( numw = = 2 )
CORRUPTCHK_PRINT ( 3 , CORRUPT_SECTOR | i , " SECTOR[%d].WALLNUM=2, expected at least 3 " , i ) ;
ewall + = numw ;
2014-08-08 20:02:53 +00:00
if ( endwall > = numwalls )
2014-07-28 06:44:37 +00:00
CORRUPTCHK_PRINT ( 5 , CORRUPT_SECTOR | i , " SECTOR[%d]: wallptr+wallnum=%d out of range: numwalls=%d " , i , endwall , numwalls ) ;
// inconsistent cstat&2 and heinum checker
2015-08-08 07:04:14 +00:00
if ( corruptcheck_heinum )
2014-07-28 06:44:37 +00:00
{
const char * cflabel [ 2 ] = { " ceiling " , " floor " } ;
for ( j = 0 ; j < 2 ; j + + )
{
const int32_t cs = ! ! ( SECTORFLD ( i , stat , j ) & 2 ) ;
const int32_t hn = ! ! SECTORFLD ( i , heinum , j ) ;
if ( cs ! = hn & & heinumcheckstat < = 1 )
{
if ( numcorruptthings < MAXCORRUPTTHINGS & &
( heinumcheckstat = = 1 | | ( heinumcheckstat = = 0 & & ( tryfixing & ( 1ull < < numcorruptthings ) ) ) ) )
{
setslope ( i , j , 0 ) ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: reset sector %d's %s slope \n " ,
i , cflabel [ j ] ) ;
heinumcheckstat = 1 ;
}
2015-08-08 07:04:14 +00:00
else if ( corruptcheck_heinum = = 2 & & heinumcheckstat = = 0 )
2014-07-28 06:44:37 +00:00
{
CORRUPTCHK_PRINT ( 1 , CORRUPT_SECTOR | i ,
" SECTOR[%d]: inconsistent %sstat&2 and heinum " , i , cflabel [ j ] ) ;
}
2015-08-08 07:04:14 +00:00
2014-07-28 06:44:37 +00:00
if ( heinumcheckstat ! = 1 )
heinumcheckstat = 2 ;
}
}
}
errlevel = max ( errlevel , bad ) ;
2014-08-08 20:02:53 +00:00
if ( bad < 4 )
2014-07-28 06:44:37 +00:00
{
for ( j = w0 ; j < = endwall ; j + + )
{
2014-08-08 20:02:53 +00:00
const int32_t nw = wall [ j ] . nextwall ;
const int32_t ns = wall [ j ] . nextsector ;
2014-07-28 06:44:37 +00:00
bad = 0 ;
2014-08-08 20:02:53 +00:00
// First, some basic wall sanity checks.
2014-07-28 06:44:37 +00:00
if ( wall [ j ] . point2 < w0 | | wall [ j ] . point2 > endwall )
{
if ( wall [ j ] . point2 < 0 | | wall [ j ] . point2 > = MAXWALLS )
CORRUPTCHK_PRINT ( 5 , CORRUPT_WALL | j , CCHK_PANIC " WALL[%d].POINT2=%d INVALID!!! " ,
j , TrackerCast ( wall [ j ] . point2 ) ) ;
else
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].POINT2=%d out of range [%d, %d] " ,
j , TrackerCast ( wall [ j ] . point2 ) , w0 , endwall ) ;
}
if ( nw > = numwalls )
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
2014-07-28 06:44:37 +00:00
if ( TRYFIX_NONE ( ) )
{
if ( nw > = MAXWALLS )
CORRUPTCHK_PRINT ( 5 , CORRUPT_WALL | j , " WALL[%d].NEXTWALL=%d INVALID!!! " ,
j , nw ) ;
else
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].NEXTWALL=%d out of range: numwalls=%d " ,
j , nw , numwalls ) ;
OSD_Printf ( " will make wall %d white on tryfix \n " , j ) ;
}
else if ( TRYFIX_CNUM ( onumct ) ) // CODEDUP MAKE_WALL_WHITE
{
wall [ j ] . nextwall = wall [ j ] . nextsector = - 1 ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: made wall %d white \n " , j ) ;
}
}
if ( ns > = numsectors )
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
2014-07-28 06:44:37 +00:00
if ( TRYFIX_NONE ( ) )
{
if ( ns > = MAXSECTORS )
CORRUPTCHK_PRINT ( 5 , CORRUPT_WALL | j , " WALL[%d].NEXTSECTOR=%d INVALID!!! " ,
j , ns ) ;
else
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].NEXTSECTOR=%d out of range: numsectors=%d " ,
j , ns , numsectors ) ;
OSD_Printf ( " will make wall %d white on tryfix \n " , j ) ;
}
else if ( TRYFIX_CNUM ( onumct ) ) // CODEDUP MAKE_WALL_WHITE
{
wall [ j ] . nextwall = wall [ j ] . nextsector = - 1 ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: made wall %d white \n " , j ) ;
}
}
if ( nw > = w0 & & nw < = endwall )
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].NEXTWALL is its own sector's wall " , j ) ;
if ( wall [ j ] . x = = POINT2 ( j ) . x & & wall [ j ] . y = = POINT2 ( j ) . y )
CORRUPTCHK_PRINT ( 3 , CORRUPT_WALL | j , " WALL[%d] has length 0 " , j ) ;
# ifdef YAX_ENABLE
2014-08-08 20:02:53 +00:00
// Various TROR checks.
2014-07-28 06:44:37 +00:00
{
2014-08-08 20:02:53 +00:00
int32_t cf ;
2014-07-28 06:44:37 +00:00
for ( cf = 0 ; cf < 2 ; cf + + )
{
2014-08-08 20:02:53 +00:00
const int32_t ynw = yax_getnextwall ( j , cf ) ;
2014-07-28 06:44:37 +00:00
if ( ynw > = 0 )
{
if ( ynw > = numwalls )
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL %d's %s=%d out of range: numwalls=%d " ,
j , YUPDOWNWALL [ cf ] , ynw , numwalls ) ;
else
{
int32_t ynextwallok = 1 ;
if ( j = = ynw )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL %d's %s is itself " ,
j , YUPDOWNWALL [ cf ] ) ;
ynextwallok = 0 ;
}
else if ( ! walls_have_equal_endpoints ( j , ynw ) )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL %d's and its %s=%d's "
" endpoints are inconsistent " , j , YUPDOWNWALL [ cf ] , ynw ) ;
ynextwallok = 0 ;
}
{
2014-08-08 20:02:53 +00:00
const int16_t bunchnum = yax_getbunch ( i , cf ) ;
const int32_t onumct = numcorruptthings ;
2014-07-28 06:44:37 +00:00
if ( bunchnum < 0 | | bunchnum > = numyaxbunches )
{
if ( tryfixing = = 0ull )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL %d has %s=%d, "
" but its %s bunchnum=%d is invalid " ,
j , YUPDOWNWALL [ cf ] , ynw ,
cf = = YAX_CEILING ? " ceiling " : " floor " , bunchnum ) ;
OSD_Printf ( " will clear wall %d's %s to -1 on tryfix \n " ,
j , yupdownwall [ cf ] ) ;
}
else if ( tryfixing & ( 1ull < < onumct ) )
{
yax_setnextwall ( j , cf , - 1 ) ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: cleared wall %d's %s to -1 \n " ,
j , yupdownwall [ cf ] ) ;
}
}
else if ( ! ynextwallok & & onumct < MAXCORRUPTTHINGS )
{
if ( ( tryfixing & ( 1ull < < onumct ) ) | | 4 > = printfromlev )
correct_yax_nextwall ( j , bunchnum , cf , tryfixing ! = 0ull ) ;
}
}
if ( ynextwallok )
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
const int32_t ynwp2 = yax_getnextwall ( ynw , ! cf ) ;
2014-07-28 06:44:37 +00:00
if ( ynwp2 ! = j )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL %d's %s=%d's reverse link wrong "
" (expected %d, have %d) " , j , YUPDOWNWALL [ cf ] , ynw , j , ynwp2 ) ;
if ( onumct < MAXCORRUPTTHINGS )
{
if ( tryfixing & ( 1ull < < onumct ) )
{
yax_setnextwall ( ynw , ! cf , j ) ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: set wall %d's %s=%d's %s to %d \n " ,
j , yupdownwall [ cf ] , ynw , yupdownwall [ ! cf ] , j ) ;
}
else if ( 4 > = printfromlev )
{
OSD_Printf ( " will set wall %d's %s=%d's %s to %d on tryfix \n " ,
j , yupdownwall [ cf ] , ynw , yupdownwall [ ! cf ] , j ) ;
}
}
}
2014-08-08 20:02:53 +00:00
} // brace woot!
2014-07-28 06:44:37 +00:00
}
}
}
}
# endif
2014-08-08 20:02:53 +00:00
// Check for ".nextsector is its own sector"
2014-07-28 06:44:37 +00:00
if ( ns = = i )
{
if ( ! bad )
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
const int32_t safetoclear = ( nw = = j | | ( wall [ nw ] . nextwall = = - 1 & & wall [ nw ] . nextsector = = - 1 ) ) ;
2014-07-28 06:44:37 +00:00
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].NEXTSECTOR is its own sector " , j ) ;
if ( onumct < MAXCORRUPTTHINGS )
{
if ( tryfixing & ( 1ull < < onumct ) )
{
if ( safetoclear )
{
wall [ j ] . nextwall = wall [ j ] . nextsector = - 1 ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: cleared wall %d's nextwall "
" and nextsector \n " , j ) ;
}
else
do_nextsector_correction ( nw , j ) ;
}
else if ( 4 > = printfromlev )
{
if ( safetoclear )
OSD_Printf ( " will clear wall %d's nextwall and nextsector on tryfix \n " , j ) ;
else
suggest_nextsector_correction ( nw , j ) ;
}
}
}
}
2014-08-08 20:02:53 +00:00
// Check for ".nextwall already referenced from wall ..."
2014-07-28 06:44:37 +00:00
if ( ! corruptcheck_noalreadyrefd & & nw > = 0 & & nw < numwalls )
{
if ( seen_nextwalls [ nw > > 3 ] & ( 1 < < ( nw & 7 ) ) )
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
const int16_t lnws = lastnextwallsource [ nw ] ;
const int16_t nwnw = wall [ nw ] . nextwall ;
2014-07-28 06:44:37 +00:00
CORRUPTCHK_PRINT ( 3 , CORRUPT_WALL | j , " WALL[%d].NEXTWALL=%d already referenced from wall %d " ,
j , nw , lnws ) ;
2014-08-08 20:02:53 +00:00
2014-07-28 06:44:37 +00:00
if ( onumct < MAXCORRUPTTHINGS & & ( nwnw = = j | | nwnw = = lnws ) )
{
2014-08-08 20:02:53 +00:00
const int32_t walltoclear = nwnw = = j ? lnws : j ;
2014-07-28 06:44:37 +00:00
if ( tryfixing & ( 1ull < < onumct ) )
{
wall [ walltoclear ] . nextsector = wall [ walltoclear ] . nextwall = - 1 ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: cleared wall %d's nextwall and nextsector tags to -1 \n " ,
walltoclear ) ;
}
else if ( 3 > = printfromlev )
OSD_Printf ( " wall[%d].nextwall=%d, suggest clearing wall %d's nextwall and nextsector tags to -1 \n " ,
nw , nwnw , walltoclear ) ;
}
}
else
{
seen_nextwalls [ nw > > 3 ] | = 1 < < ( nw & 7 ) ;
lastnextwallsource [ nw ] = j ;
}
}
2014-08-08 20:02:53 +00:00
// Various checks of .nextsector and .nextwall
if ( bad < 4 )
2014-07-28 06:44:37 +00:00
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
2014-07-28 06:44:37 +00:00
if ( ( ns ^ nw ) < 0 )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].NEXTSECTOR=%d and .NEXTWALL=%d inconsistent: "
" missing one next pointer " , j , ns , nw ) ;
if ( onumct < MAXCORRUPTTHINGS )
{
if ( tryfixing & ( 1ull < < onumct ) )
do_nextsector_correction ( nw , j ) ;
else if ( 4 > = printfromlev )
suggest_nextsector_correction ( nw , j ) ;
}
}
else if ( ns > = 0 )
{
if ( nw < sector [ ns ] . wallptr | | nw > = sector [ ns ] . wallptr + sector [ ns ] . wallnum )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | j , " WALL[%d].NEXTWALL=%d out of .NEXTSECTOR=%d's bounds [%d .. %d] " ,
j , nw , ns , TrackerCast ( sector [ ns ] . wallptr ) , sector [ ns ] . wallptr + sector [ ns ] . wallnum - 1 ) ;
if ( onumct < MAXCORRUPTTHINGS )
{
if ( tryfixing & ( 1ull < < onumct ) )
do_nextsector_correction ( nw , j ) ;
else if ( 4 > = printfromlev )
suggest_nextsector_correction ( nw , j ) ;
}
}
#if 0
// this one usually appears together with the "already referenced" corruption
else if ( wall [ nw ] . nextsector ! = i | | wall [ nw ] . nextwall ! = j )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | nw , " WALL %d nextwall's backreferences inconsistent. Expected nw=%d, ns=%d; got nw=%d, ns=%d " ,
nw , i , j , wall [ nw ] . nextsector , wall [ nw ] . nextwall ) ;
}
# endif
}
}
errlevel = max ( errlevel , bad ) ;
}
}
2014-08-08 20:02:54 +00:00
# if CCHK_LOOP_CHECKS
// Wall loop checks.
if ( bad < 4 & & numw > = 4 )
{
const int32_t outerloopstart = determine_outer_loop ( i ) ;
if ( outerloopstart = = - 1 )
2014-08-31 11:15:19 +00:00
CORRUPTCHK_PRINT ( 2 , CORRUPT_SECTOR | i , " SECTOR %d contains no outer (clockwise) loop " , i ) ;
2014-08-08 20:02:54 +00:00
else if ( outerloopstart = = - 2 )
2014-08-31 11:15:19 +00:00
CORRUPTCHK_PRINT ( 2 , CORRUPT_SECTOR | i , " SECTOR %d contains more than one outer (clockwise) loops " , i ) ;
2014-08-08 20:02:54 +00:00
# if CCHK_LOOP_CHECKS >= 2
else
{
// Now, check for whether every wall-point of every inner loop of
// this sector (<i>) is inside the outer one.
for ( j = w0 ; j < = endwall ; /* will step by loops */ )
{
const int32_t nextloopstart = get_nextloopstart ( j ) ;
if ( j ! = outerloopstart )
{
int32_t k ;
for ( k = j ; k < nextloopstart ; k + + )
if ( ! loopinside ( wall [ k ] . x , wall [ k ] . y , outerloopstart ) )
{
CORRUPTCHK_PRINT ( 4 , CORRUPT_WALL | k , " WALL %d (of sector %d) is outside the outer loop " , k , i ) ;
goto end_wall_loop_checks ;
}
}
j = nextloopstart ;
}
end_wall_loop_checks :
;
}
# endif
errlevel = max ( errlevel , bad ) ;
}
# endif
2014-07-28 06:44:37 +00:00
}
bad = 0 ;
for ( i = 0 ; i < MAXSPRITES ; i + + )
{
if ( sprite [ i ] . statnum = = MAXSTATUS )
continue ;
if ( sprite [ i ] . sectnum < 0 | | sprite [ i ] . sectnum > = numsectors )
CORRUPTCHK_PRINT ( 4 , CORRUPT_SPRITE | i , " SPRITE[%d].SECTNUM=%d. Expect problems! " , i , TrackerCast ( sprite [ i ] . sectnum ) ) ;
if ( sprite [ i ] . statnum < 0 | | sprite [ i ] . statnum > MAXSTATUS )
CORRUPTCHK_PRINT ( 4 , CORRUPT_SPRITE | i , " SPRITE[%d].STATNUM=%d. Expect problems! " , i , TrackerCast ( sprite [ i ] . statnum ) ) ;
if ( sprite [ i ] . picnum < 0 | | sprite [ i ] . picnum > = MAXTILES )
{
sprite [ i ] . picnum = 0 ;
CORRUPTCHK_PRINT ( 0 , CORRUPT_SPRITE | i , " SPRITE[%d].PICNUM=%d out of range, resetting to 0 " , i , TrackerCast ( sprite [ i ] . picnum ) ) ;
}
2015-11-14 17:21:11 +00:00
if ( corruptcheck_game_duke3d )
{
const int32_t tilenum = sprite [ i ] . picnum ;
if ( tilenum > = 1 & & tilenum < = 9 & & ( sprite [ i ] . cstat & 48 ) )
{
const int32_t onumct = numcorruptthings ;
CORRUPTCHK_PRINT ( 1 , CORRUPT_SPRITE | i , " %s sprite %d is not face-aligned " ,
names [ tilenum ] , i ) ;
if ( onumct < MAXCORRUPTTHINGS )
{
if ( tryfixing & ( 1ull < < onumct ) )
{
sprite [ i ] . cstat & = ~ ( 32 + 16 ) ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: cleared sprite[%d].cstat bits 16 and 32 \n " , i ) ;
}
else if ( 1 > = printfromlev )
OSD_Printf ( " suggest clearing sprite[%d].cstat bits 16 and 32 \n " , i ) ;
}
}
}
2014-07-28 06:44:37 +00:00
if ( klabs ( sprite [ i ] . x ) > BXY_MAX | | klabs ( sprite [ i ] . y ) > BXY_MAX )
{
2014-08-08 20:02:53 +00:00
const int32_t onumct = numcorruptthings ;
2014-07-28 06:44:37 +00:00
CORRUPTCHK_PRINT ( 3 , CORRUPT_SPRITE | i , " SPRITE %d at [%d, %d] is outside the maximal grid range [%d, %d] " ,
i , TrackerCast ( sprite [ i ] . x ) , TrackerCast ( sprite [ i ] . y ) , - BXY_MAX , BXY_MAX ) ;
if ( onumct < MAXCORRUPTTHINGS )
{
2014-08-08 20:02:53 +00:00
int32_t x = 0 , y = 0 , ok = 0 ;
const int32_t sect = sprite [ i ] . sectnum ;
2014-07-28 06:44:37 +00:00
if ( ( unsigned ) sect < ( unsigned ) numsectors )
{
2014-08-08 20:02:53 +00:00
const int32_t firstwall = sector [ sect ] . wallptr ;
2014-07-28 06:44:37 +00:00
if ( ( unsigned ) firstwall < ( unsigned ) numwalls )
{
x = wall [ firstwall ] . x ;
y = wall [ firstwall ] . y ;
ok = 1 ;
}
}
if ( ! ( tryfixing & ( 1ull < < onumct ) ) )
{
if ( ok & & 3 > = printfromlev )
OSD_Printf ( " will reposition to its sector's (%d) first "
" point [%d,%d] on tryfix \n " , sect , x , y ) ;
}
else
{
if ( ok )
{
sprite [ i ] . x = x ;
sprite [ i ] . y = y ;
OSD_Printf ( CCHK_CORRECTED " auto-correction: repositioned sprite %d to "
" its sector's (%d) first point [%d,%d] \n " , i , sect , x , y ) ;
}
}
}
}
}
i = check_spritelist_consistency ( ) ;
if ( i )
CORRUPTCHK_PRINT ( 5 , i < 0 ? 0 : ( CORRUPT_SPRITE | i ) , CCHK_PANIC " SPRITE LISTS CORRUPTED: error code %d, s=%d, i=%d! " ,
i , csc_s , csc_i ) ;
if ( 0 )
{
too_many_errors :
if ( printfromlev < = errlevel )
OSD_Printf ( " !! too many errors, stopping. !! \n " ) ;
}
errlevel = max ( errlevel , bad ) ;
if ( errlevel )
{
if ( printfromlev < = errlevel )
OSD_Printf ( " -- corruption level: %d \n " , errlevel ) ;
if ( tryfixing )
OSD_Printf ( " -- \n " ) ;
}
if ( seen_nextwalls )
{
Bfree ( seen_nextwalls ) ;
Bfree ( lastnextwallsource ) ;
}
corruptlevel = errlevel ;
return errlevel ;
}
////
////////// STATUS BAR MENU "class" //////////
# define MENU_MAX_ENTRIES (8*3)
# define MENU_ENTRY_SIZE 25 // max. length of label (including terminating NUL)
# define MENU_Y_SPACING 8
# define MENU_BASE_Y (ydim-STATUS2DSIZ+32)
# define MENU_FG_COLOR editorcolors[11]
# define MENU_BG_COLOR editorcolors[0]
# define MENU_BG_COLOR_SEL editorcolors[1]
# ifdef LUNATIC
# define MENU_HAVE_DESCRIPTION 1
# else
# define MENU_HAVE_DESCRIPTION 0
# endif
typedef struct StatusBarMenu_ {
const char * const menuname ;
const int32_t custom_start_index ;
int32_t numentries ;
void ( * process_func ) ( const struct StatusBarMenu_ * m , int32_t col , int32_t row ) ;
intptr_t auxdata [ MENU_MAX_ENTRIES ] ;
char * description [ MENU_MAX_ENTRIES ] ; // strdup'd description string, NULL if non
char name [ MENU_MAX_ENTRIES ] [ MENU_ENTRY_SIZE ] ;
} StatusBarMenu ;
# define MENU_INITIALIZER_EMPTY(MenuName, ProcessFunc) \
{ MenuName , 0 , 0 , ProcessFunc , { } , { } , { } }
# define MENU_INITIALIZER(MenuName, CustomStartIndex, ProcessFunc, ...) \
{ MenuName , CustomStartIndex , CustomStartIndex , ProcessFunc , { } , { } , # # __VA_ARGS__ }
# ifdef LUNATIC
static void M_Clear ( StatusBarMenu * m )
{
int32_t i ;
m - > numentries = 0 ;
Bmemset ( m - > auxdata , 0 , sizeof ( m - > auxdata ) ) ;
Bmemset ( m - > name , 0 , sizeof ( m - > name ) ) ;
for ( i = 0 ; i < MENU_MAX_ENTRIES ; i + + )
2015-09-23 17:55:31 +00:00
DO_FREE_AND_NULL ( m - > description [ i ] ) ;
2014-07-28 06:44:37 +00:00
}
static int32_t M_HaveDescription ( StatusBarMenu * m )
{
int32_t i ;
for ( i = 0 ; i < MENU_MAX_ENTRIES ; i + + )
if ( m - > description [ i ] ! = NULL )
return 1 ;
return 0 ;
}
# endif
// NOTE: Does not handle description strings! (Only the Lua menu uses them.)
static void M_UnregisterFunction ( StatusBarMenu * m , intptr_t auxdata )
{
int32_t i , j ;
for ( i = m - > custom_start_index ; i < m - > numentries ; i + + )
if ( m - > auxdata [ i ] = = auxdata )
{
for ( j = i ; j < m - > numentries - 1 ; j + + )
{
m - > auxdata [ j ] = m - > auxdata [ j + 1 ] ;
Bmemcpy ( m - > name [ j ] , m - > name [ j + 1 ] , MENU_ENTRY_SIZE ) ;
}
m - > auxdata [ j ] = 0 ;
Bmemset ( m - > name [ j ] , 0 , MENU_ENTRY_SIZE ) ;
m - > numentries - - ;
break ;
}
}
static void M_RegisterFunction ( StatusBarMenu * m , const char * name , intptr_t auxdata , const char * description )
{
int32_t i ;
for ( i = 8 ; i < m - > numentries ; i + + )
{
if ( m - > auxdata [ i ] = = auxdata )
{
// same auxdata, different name
Bstrncpyz ( m - > name [ i ] , name , MENU_ENTRY_SIZE ) ;
return ;
}
else if ( ! Bstrncmp ( m - > name [ i ] , name , MENU_ENTRY_SIZE ) )
{
// same name, different auxdata
m - > auxdata [ i ] = auxdata ;
return ;
}
}
if ( m - > numentries = = MENU_MAX_ENTRIES )
return ; // max reached
Bstrncpyz ( m - > name [ m - > numentries ] , name , MENU_ENTRY_SIZE ) ;
m - > auxdata [ m - > numentries ] = auxdata ;
# if MENU_HAVE_DESCRIPTION
// NOTE: description only handled here (not above).
if ( description )
m - > description [ m - > numentries ] = Xstrdup ( description ) ;
# else
UNREFERENCED_PARAMETER ( description ) ;
# endif
m - > numentries + + ;
}
static void M_DisplayInitial ( const StatusBarMenu * m )
{
int32_t x = 8 , y = MENU_BASE_Y + 16 ;
int32_t i ;
for ( i = 0 ; i < m - > numentries ; i + + )
{
if ( i = = 8 | | i = = 16 )
{
x + = 208 ;
y = MENU_BASE_Y + 16 ;
}
printext16 ( x , y , MENU_FG_COLOR , MENU_BG_COLOR , m - > name [ i ] , 0 ) ;
y + = MENU_Y_SPACING ;
}
printext16 ( m - > numentries > 8 ? 216 : 8 , MENU_BASE_Y , MENU_FG_COLOR , - 1 , m - > menuname , 0 ) ;
clearkeys ( ) ;
}
static void M_EnterMainLoop ( StatusBarMenu * m )
{
char disptext [ 80 ] ;
const int32_t dispwidth = MENU_ENTRY_SIZE - 1 ;
int32_t i , col = 0 , row = 0 ;
int32_t crowmax [ 3 ] = { - 1 , - 1 , - 1 } ;
int32_t xpos = 8 , ypos = MENU_BASE_Y + 16 ;
if ( m - > numentries = = 0 )
{
printmessage16 ( " %s menu has no entries " , m - > menuname ) ;
return ;
}
Bmemset ( disptext , 0 , sizeof ( disptext ) ) ;
Bassert ( ( unsigned ) m - > numentries < = MENU_MAX_ENTRIES ) ;
for ( i = 0 ; i < = ( m - > numentries - 1 ) / 8 ; i + + )
crowmax [ i ] = ( m - > numentries > = ( i + 1 ) * 8 ) ? 7 : ( m - > numentries - 1 ) & 7 ;
drawgradient ( ) ;
M_DisplayInitial ( m ) ;
while ( keystatus [ KEYSC_ESC ] = = 0 )
{
idle_waitevent ( ) ;
if ( handleevents ( ) )
quitevent = 0 ;
_printmessage16 ( " Select an option, press <Esc> to exit " ) ;
if ( PRESSED_KEYSC ( DOWN ) )
{
if ( row < crowmax [ col ] )
{
printext16 ( xpos , ypos + row * MENU_Y_SPACING , MENU_FG_COLOR , MENU_BG_COLOR , disptext , 0 ) ;
row + + ;
}
}
else if ( PRESSED_KEYSC ( UP ) )
{
if ( row > 0 )
{
printext16 ( xpos , ypos + row * MENU_Y_SPACING , MENU_FG_COLOR , MENU_BG_COLOR , disptext , 0 ) ;
row - - ;
}
}
else if ( PRESSED_KEYSC ( LEFT ) )
{
if ( col > 0 )
{
printext16 ( xpos , ypos + row * 8 , MENU_FG_COLOR , 0 , disptext , 0 ) ;
col - - ;
xpos - = 208 ;
disptext [ dispwidth ] = 0 ;
row = min ( crowmax [ col ] , row ) ;
}
}
else if ( PRESSED_KEYSC ( RIGHT ) )
{
if ( col < 2 & & crowmax [ col + 1 ] > = 0 )
{
printext16 ( xpos , ypos + row * 8 , MENU_FG_COLOR , 0 , disptext , 0 ) ;
col + + ;
xpos + = 208 ;
disptext [ dispwidth ] = 0 ;
row = min ( crowmax [ col ] , row ) ;
}
}
for ( i = Bsnprintf ( disptext , dispwidth , " %s " , m - > name [ col * 8 + row ] ) ; i < dispwidth ; i + + )
disptext [ i ] = ' ' ;
if ( PRESSED_KEYSC ( ENTER ) )
{
Bassert ( m - > process_func ! = NULL ) ;
m - > process_func ( m , col , row ) ;
break ;
}
# if MENU_HAVE_DESCRIPTION
if ( M_HaveDescription ( m ) )
{
const int32_t maxrows = 20 ;
int32_t r ;
for ( r = 0 ; r < maxrows + 1 ; r + + )
printext16 ( 16 - 4 , 16 - 4 + r * 8 , 0 , MENU_BG_COLOR , // 71 blanks:
" " , 0 ) ;
if ( m - > description [ col * 8 + row ] ! = NULL )
printext16 ( 16 , 16 , MENU_FG_COLOR , MENU_BG_COLOR , m - > description [ col * 8 + row ] , 0 ) ;
}
# endif
printext16 ( xpos , ypos + row * MENU_Y_SPACING , MENU_FG_COLOR , MENU_BG_COLOR_SEL , disptext , 0 ) ;
2018-04-12 21:02:51 +00:00
videoShowFrame ( 1 ) ;
2014-07-28 06:44:37 +00:00
}
printext16 ( xpos , ypos + row * MENU_Y_SPACING , MENU_FG_COLOR , MENU_BG_COLOR , disptext , 0 ) ;
2018-04-12 21:02:51 +00:00
videoShowFrame ( 1 ) ;
2014-07-28 06:44:37 +00:00
keystatus [ KEYSC_ESC ] = 0 ;
}
////////// SPECIAL FUNCTIONS MENU //////////
static void FuncMenu_Process ( const StatusBarMenu * m , int32_t col , int32_t row ) ;
static StatusBarMenu g_specialFuncMenu = MENU_INITIALIZER (
" Special functions " , 8 , FuncMenu_Process ,
{
" Replace invalid tiles " ,
" Delete all spr of tile # " ,
" Set map sky shade " ,
" Set map sky height " ,
" Global Z coord shift " ,
" Resize selection " ,
" Global shade divide " ,
" Global visibility divide "
}
) ;
// "External functions":
void FuncMenu ( void )
{
M_EnterMainLoop ( & g_specialFuncMenu ) ;
}
void registerMenuFunction ( const char * funcname , int32_t stateidx )
{
if ( funcname )
M_RegisterFunction ( & g_specialFuncMenu , funcname , stateidx , NULL ) ;
else
M_UnregisterFunction ( & g_specialFuncMenu , stateidx ) ;
}
// The processing function...
static int32_t correct_picnum ( int16_t * picnumptr )
{
int32_t picnum = * picnumptr ;
2014-09-30 04:14:21 +00:00
if ( ( unsigned ) picnum > = MAXTILES | | tilesiz [ picnum ] . x < = 0 )
2014-07-28 06:44:37 +00:00
{
* picnumptr = 0 ;
return 1 ;
}
return 0 ;
}
static void FuncMenu_Process ( const StatusBarMenu * m , int32_t col , int32_t row )
{
int32_t i , j ;
switch ( col )
{
case 1 :
case 2 :
{
const int32_t stateidx = ( Bassert ( m - > auxdata [ col * 8 + row ] < g_stateCount ) ,
m - > auxdata [ col * 8 + row ] ) ;
const char * statename = statesinfo [ stateidx ] . name ;
int32_t snlen = Bstrlen ( statename ) ;
char * tmpscript = ( char * ) Xmalloc ( 1 + 5 + 1 + snlen + 1 ) ;
tmpscript [ 0 ] = ' ' ; // don't save in history
Bmemcpy ( & tmpscript [ 1 ] , " state " , 5 ) ;
tmpscript [ 1 + 5 ] = ' ' ;
Bmemcpy ( & tmpscript [ 1 + 5 + 1 ] , statename , snlen ) ;
tmpscript [ 1 + 5 + 1 + snlen ] = 0 ;
M32RunScript ( tmpscript ) ;
Bfree ( tmpscript ) ;
if ( vm . flags & VMFLAG_ERROR )
printmessage16 ( " There were errors while executing the menu function " ) ;
else if ( lastpm16time ! = totalclock )
printmessage16 ( " Menu function executed successfully " ) ;
}
break ;
case 0 :
{
switch ( row )
{
case 0 :
{
j = 0 ;
for ( i = 0 ; i < MAXSECTORS ; i + + )
{
j + = correct_picnum ( & sector [ i ] . ceilingpicnum ) ;
j + = correct_picnum ( & sector [ i ] . floorpicnum ) ;
}
for ( i = 0 ; i < MAXWALLS ; i + + )
{
j + = correct_picnum ( & wall [ i ] . picnum ) ;
j + = correct_picnum ( & wall [ i ] . overpicnum ) ;
}
for ( i = 0 ; i < MAXSPRITES ; i + + )
j + = correct_picnum ( & sprite [ i ] . picnum ) ;
2016-06-05 04:46:28 +00:00
printmessage16 ( " Replaced %d invalid tiles " , j ) ;
2014-07-28 06:44:37 +00:00
}
break ;
case 1 :
{
char tempbuf [ 64 ] ;
Bsprintf ( tempbuf , " Delete all sprites of tile #: " ) ;
i = getnumber16 ( tempbuf , - 1 , MAXSPRITES - 1 , 1 ) ;
if ( i > = 0 )
{
int32_t k = 0 ;
for ( j = 0 ; j < MAXSPRITES ; j + + )
if ( sprite [ j ] . picnum = = i )
deletesprite ( j ) , k + + ;
printmessage16 ( " %d sprite(s) deleted " , k ) ;
}
else printmessage16 ( " Aborted " ) ;
}
break ;
case 2 :
{
j = getnumber16 ( " Set map sky shade: " , 0 , 128 , 1 ) ;
for ( i = 0 ; i < numsectors ; i + + )
{
if ( sector [ i ] . ceilingstat & 1 )
sector [ i ] . ceilingshade = j ;
}
printmessage16 ( " All parallax skies adjusted " ) ;
}
break ;
case 3 :
{
j = getnumber16 ( " Set map sky height: " , 0 , 16777216 , 1 ) ;
if ( j ! = 0 )
{
for ( i = 0 ; i < numsectors ; i + + )
{
if ( sector [ i ] . ceilingstat & 1 )
sector [ i ] . ceilingz = j ;
}
printmessage16 ( " All parallax skies adjusted " ) ;
}
else printmessage16 ( " Aborted " ) ;
}
break ;
case 4 :
{
j = getnumber16 ( " Z offset: " , 0 , 16777216 , 1 ) ;
if ( j ! = 0 )
{
for ( i = 0 ; i < numsectors ; i + + )
{
sector [ i ] . ceilingz + = j ;
sector [ i ] . floorz + = j ;
}
for ( i = 0 ; i < MAXSPRITES ; i + + )
sprite [ i ] . z + = j ;
printmessage16 ( " Map adjusted " ) ;
}
else printmessage16 ( " Aborted " ) ;
}
break ;
case 5 :
{
j = getnumber16 ( " Percentage of original: " , 100 , 1000 , 0 ) ;
if ( j ! = 100 & & j ! = 0 )
{
int32_t w , currsector , start_wall , end_wall ;
double size = ( j / 100.f ) ;
for ( i = 0 ; i < highlightsectorcnt ; i + + )
{
currsector = highlightsector [ i ] ;
sector [ currsector ] . ceilingz = ( int32_t ) ( sector [ currsector ] . ceilingz * size ) ;
sector [ currsector ] . floorz = ( int32_t ) ( sector [ currsector ] . floorz * size ) ;
// Do all the walls in the sector
start_wall = sector [ currsector ] . wallptr ;
end_wall = start_wall + sector [ currsector ] . wallnum ;
for ( w = start_wall ; w < end_wall ; w + + )
{
wall [ w ] . x = ( int32_t ) ( wall [ w ] . x * size ) ;
wall [ w ] . y = ( int32_t ) ( wall [ w ] . y * size ) ;
wall [ w ] . yrepeat = min ( ( int32_t ) ( wall [ w ] . yrepeat / size ) , 255 ) ;
}
w = headspritesect [ highlightsector [ i ] ] ;
while ( w > = 0 )
{
sprite [ w ] . x = ( int32_t ) ( sprite [ w ] . x * size ) ;
sprite [ w ] . y = ( int32_t ) ( sprite [ w ] . y * size ) ;
sprite [ w ] . z = ( int32_t ) ( sprite [ w ] . z * size ) ;
sprite [ w ] . xrepeat = min ( max ( ( int32_t ) ( sprite [ w ] . xrepeat * size ) , 1 ) , 255 ) ;
sprite [ w ] . yrepeat = min ( max ( ( int32_t ) ( sprite [ w ] . yrepeat * size ) , 1 ) , 255 ) ;
w = nextspritesect [ w ] ;
}
}
printmessage16 ( " Map scaled " ) ;
}
else printmessage16 ( " Aborted " ) ;
}
break ;
case 6 :
{
j = getnumber16 ( " Shade divisor: " , 1 , 128 , 1 ) ;
if ( j > 1 )
{
for ( i = 0 ; i < numsectors ; i + + )
{
sector [ i ] . ceilingshade / = j ;
sector [ i ] . floorshade / = j ;
}
for ( i = 0 ; i < numwalls ; i + + )
wall [ i ] . shade / = j ;
for ( i = 0 ; i < MAXSPRITES ; i + + )
sprite [ i ] . shade / = j ;
printmessage16 ( " Shades adjusted " ) ;
}
else printmessage16 ( " Aborted " ) ;
}
break ;
case 7 :
{
j = getnumber16 ( " Visibility divisor: " , 1 , 128 , 0 ) ;
if ( j > 1 )
{
for ( i = 0 ; i < numsectors ; i + + )
{
if ( sector [ i ] . visibility < 240 )
sector [ i ] . visibility / = j ;
else sector [ i ] . visibility = 240 + ( sector [ i ] . visibility > > 4 ) / j ;
}
printmessage16 ( " Visibility adjusted " ) ;
}
else printmessage16 ( " Aborted " ) ;
}
break ;
} // switch (row)
}
break ; // switch (col) / case 0
} // switch (col)
}
# ifdef LUNATIC
typedef const char * ( * luamenufunc_t ) ( void ) ;
2014-11-26 04:39:23 +00:00
# ifdef __cplusplus
extern " C " {
# endif
extern void LM_Register ( const char * name , luamenufunc_t funcptr , const char * description ) ;
extern void LM_Clear ( void ) ;
# ifdef __cplusplus
}
# endif
2014-07-28 06:44:37 +00:00
static int32_t g_numLuaFuncs = 0 ;
static luamenufunc_t g_LuaFuncPtrs [ MENU_MAX_ENTRIES ] ;
static void LuaFuncMenu_Process ( const StatusBarMenu * m , int32_t col , int32_t row )
{
luamenufunc_t func = g_LuaFuncPtrs [ col * 8 + row ] ;
const char * errmsg ;
Bassert ( func ! = NULL ) ;
errmsg = func ( ) ;
if ( errmsg = = NULL )
{
printmessage16 ( " Lua function executed successfully " ) ;
}
else
{
printmessage16 ( " There were errors executing the Lua function, see OSD " ) ;
OSD_Printf ( " Errors executing Lua function \" %s \" : %s \n " , m - > name [ col * 8 + row ] , errmsg ) ;
}
}
static StatusBarMenu g_LuaFuncMenu = MENU_INITIALIZER_EMPTY ( " Lua functions " , LuaFuncMenu_Process ) ;
void LuaFuncMenu ( void )
{
M_EnterMainLoop ( & g_LuaFuncMenu ) ;
}
LUNATIC_EXTERN void LM_Register ( const char * name , luamenufunc_t funcptr , const char * description )
{
if ( name = = NULL | | g_numLuaFuncs = = MENU_MAX_ENTRIES )
return ;
g_LuaFuncPtrs [ g_numLuaFuncs ] = funcptr ;
M_RegisterFunction ( & g_LuaFuncMenu , name , g_numLuaFuncs , description ) ;
g_numLuaFuncs + + ;
}
LUNATIC_EXTERN void LM_Clear ( void )
{
M_Clear ( & g_LuaFuncMenu ) ;
g_numLuaFuncs = 0 ;
Bmemset ( g_LuaFuncPtrs , 0 , sizeof ( g_LuaFuncPtrs ) ) ;
}
# endif