/* TTBLIT.C *========================================================================== * DATE: March 21, 1990 * DESCRIPTION: TT and Blitter Routines */ /* INCLUDE FILES *========================================================================== */ #include #include #include "country.h" #include "general.h" #include "cache.h" #include "gen2.h" #include "text.h" /* DEFINES *========================================================================== */ #define NO_SPEED 0 #define BLITTER 1 #define TTCACHE 2 #define BLITCACHE 3 #define SPEED_OFF 0 #define BLIT_OFF 0 #define CACHE_OFF 0 #define BLIT_ON 1 #define CACHE_ON 2 #define BLITCACHE_ON 3 /* PROTOTYPES *========================================================================== */ void Init_Speed( void ); void Set_Speed( void ); void Get_Speed( void ); void Do_Speed( void ); void Speed_Update( void ); int Check_Blitter( void ); void Set_Blitter( void ); void Get_Blitter( void ); BOOLEAN IsBlitter( void ); int Check_TT_Cache( void ); long Set_TTCache( void ); long Get_TTCache( void ); BOOLEAN IsTTCache( void ); void Get_Pop_BlitCache( int flag ); int Set_Pop_BlitCache( void ); /* EXTERNALS *========================================================================== */ /* GLOBALS *========================================================================== */ int speed_flag = 0; /* 0 - no blitter/ no ttcache * 1 - blitter/ no ttcache * 2 - no blitter/ ttcache * 3 - Blitter / 030 cache */ /* FUNCTIONS *========================================================================== */ /*-------------------------------------------------------------------------- * Blitter and TT Cache Routines *-------------------------------------------------------------------------- */ /* Init_Speed() *========================================================================== * Initialize Speed_Flag - 0 - No Blitter / No TT Cache * 1 - Blitter / No TT Cache * 2 - No Blitter / TT Cache * Called to Initialize flag for the presence of Blitter or TT Cache * Note: We can't have both. * cur_value.BlitTTCache == 0 - Off * 1 - On */ void Init_Speed( void ) { speed_flag = NO_SPEED; speed_flag = ( Check_Blitter() | Check_TT_Cache() ); } /* Set_Speed() *========================================================================== * Set the Blitter or 030 cache */ void Set_Speed( void ) { Set_Blitter(); Supexec( Set_TTCache ); } /* Get_Speed() *========================================================================== * Get the current status of the Blitter or TT Cache */ void Get_Speed( void ) { Get_Blitter(); Supexec( Get_TTCache ); } void Do_Speed( void ) { OBJECT *tree = ( OBJECT *)rs_trindex[ GENERAL ]; char **txtptr; int items; int length; int flag; int temp; if( speed_flag == BLITCACHE ) { items = 4; length = 17; txtptr = chip2_text; } else { items = 2; length = 8; txtptr = chip1_text; } temp = Set_Pop_BlitCache(); flag = Pop_Handle( BLK1BUTT, txtptr, items, &temp, IBM, length ); if( flag != -1 ) { Get_Pop_BlitCache( flag ); Set_Blitter(); Supexec( Set_TTCache ); } if( speed_flag == BLITCACHE ) TedText( BLK1BUTT ) = chip_button[ cur_value.BlitCache ]; else { if( IsTTCache() ) TedText( BLK1BUTT ) = chip1_text[ (( cur_value.BlitCache & TTCACHE )?(FALSE):(TRUE)) ]; if( IsBlitter() ) TedText( BLK1BUTT ) = chip1_text[ (( cur_value.BlitCache & BLITTER )?(FALSE):(TRUE)) ]; } Objc_draw( tree, BLK1BUTT, 0, NULL ); } int Set_Pop_BlitCache( void ) { int state = NO_SPEED; Get_Speed(); if( speed_flag == BLITCACHE ) state = cur_value.BlitCache; else { if( IsBlitter() ) state = !( cur_value.BlitCache & BLITTER ); if( IsTTCache() ) state = !( cur_value.BlitCache & TTCACHE ); } return( state ); } void Get_Pop_BlitCache( int flag ) { if( speed_flag == BLITCACHE ) cur_value.BlitCache = flag; else { if( IsBlitter() ) { /* Preserve Cache field */ cur_value.BlitCache &= TTCACHE; cur_value.BlitCache |= (( flag ) ? ( NO_SPEED ) : ( BLITTER ) ); } if( IsTTCache() ) { /* Preserve Blitter field */ cur_value.BlitCache &= BLITTER; cur_value.BlitCache |= (( flag ) ? ( NO_SPEED ) : ( TTCACHE ) ); } } } void Speed_Update( void ) { OBJECT *tree = ( OBJECT *)rs_trindex[ GENERAL ]; HideObj( BLK1 ); if( speed_flag ) { ShowObj( BLK1 ); TedText( BLK1TXT ) = Chip_Title[ speed_flag ]; if( speed_flag == BLITCACHE ) TedText( BLK1BUTT ) = chip_button[ cur_value.BlitCache ]; else { if( IsTTCache() ) TedText( BLK1BUTT ) = chip1_text[ (( cur_value.BlitCache & TTCACHE )?(FALSE):(TRUE)) ]; if( IsBlitter() ) TedText( BLK1BUTT ) = chip1_text[ (( cur_value.BlitCache & BLITTER )?(FALSE):(TRUE)) ]; } } } /* Check_Blitter() *========================================================================== * Check for the Presence of a blitter * IN: NONE * OUT: Return BLITTER if detected, else NO_SPEED otherwise */ int Check_Blitter( void ) { long flag; flag = xbios( 0x40, -1 ); if( flag & 0x02L ) return( BLITTER ); else return( NO_SPEED ); } /* Set_Blitter() *========================================================================== * Check to see if a blitter exists * Slam the current state of the blitter variable into the blitter */ void Set_Blitter( void ) { BOOLEAN flag; if( IsBlitter() ) { flag = ( cur_value.BlitCache & BLIT_ON ); xbios( 0x40, flag ); } } /* Get_Blitter() *========================================================================== * Get the current status of the blitter and store it in * cur_value.blitter */ void Get_Blitter( void ) { long flag; int state; if( IsBlitter() ) { flag = xbios( 0x40, -1 ); state = ( ( flag & 0x01L ) ? ( BLIT_ON ) : ( BLIT_OFF ) ); /* Preserve TTCACHE bit */ cur_value.BlitCache &= TTCACHE; cur_value.BlitCache |= state; } } /* IsBlitter() *========================================================================== * Return the status of the blitter based on speed_flag * OUT: TRUE - Blitter Exists * FALSE - Blitter does not exist */ BOOLEAN IsBlitter( void ) { return( speed_flag & BLITTER ); } /*-------------------------------------------------------------------------- * TT Cache Routines *-------------------------------------------------------------------------- */ /* Check_TT_Cache() *========================================================================= * Check for the Presence of TT Cache( Actually, just an 030 * IN: none * OUT: Return NO_SPEED of Non Detected or * TTCACHE if its there */ int Check_TT_Cache( void ) { long p_value; if( (*xcpb->getcookie)( 0x5f435055L, &p_value ) ) { if( p_value == 30 ) return( TTCACHE ); } return( NO_SPEED ); } /* Set_TTCache() *========================================================================== * Check if we're on a 68030 (cache exists if so) and then * slam the cache on or off depending upon the current value * of: cur_value.ttcache * NOTE: call this routine using Supexec() */ long Set_TTCache( void ) { if( IsTTCache() ) { if( cur_value.BlitCache & CACHE_ON ) cacheon(); else cacheoff(); } return( 0L ); } /* Get_TTCache() *========================================================================== * Inquire the cache, if one exists, and check whether its on or off * Store the on/off status in cur_value.ttcache * NOTE: Call this routine using Supexec() */ long Get_TTCache( void ) { long cachevalue; int state; if( IsTTCache() ) { cachevalue = cacheinq(); state = (( cachevalue == 0x3111L ) ? ( CACHE_ON ) : ( CACHE_OFF ) ); /* Preserve Blitter Status */ cur_value.BlitCache &= BLITTER; cur_value.BlitCache |= state; } return( 0L ); } /* IsTTCache() *========================================================================== * Check if speed_flag is set to at least TTCACHE * RETURN TRUE or FALSE */ BOOLEAN IsTTCache( void ) { return( speed_flag & TTCACHE ); } void Speed_Redraw( void ) { OBJECT *tree = ( OBJECT *)rs_trindex[ GENERAL ]; int old_value = cur_value.BlitCache; Get_Speed(); Speed_Update(); if( old_value != cur_value.BlitCache ) do_redraw( tree, BLK1BUTT ); }