void PragmaInit( void )
/*********************/
{
int cpu;
int fpu;
pragmaAuxInfoInit();
AsmFuncNum = 0;
switch( GET_CPU( ProcRevision ) ) {
case CPU_86: cpu = 0; break;
case CPU_186: cpu = 1; break;
case CPU_286: cpu = 2; break;
case CPU_386: cpu = 3; break;
case CPU_486: cpu = 4; break;
case CPU_586: cpu = 5; break;
case CPU_686: cpu = 6; break;
#if _CPU == 8086
default: cpu = 0; break;
#else
default: cpu = 3; break;
#endif
}
switch( GET_FPU_LEVEL( ProcRevision ) ) {
case FPU_NONE: fpu = 0; break;
case FPU_87: fpu = 1; break;
// case FPU_287: fpu = 2; break;
case FPU_387: fpu = 3; break;
case FPU_586: fpu = 3; break;
case FPU_686: fpu = 3; break;
#if _CPU == 8086
default: fpu = 1; break;
#else
default: fpu = 3; break;
#endif
}
#if _CPU == 8086
AsmInit( 0, cpu, fpu, GET_FPU_EMU( ProcRevision ) );
#else
AsmInit( 1, cpu, fpu, FALSE );
#endif
}
static void assemblerInit( // INITIALIZATION OF ASSEMBLER
INITFINI* defn ) // - definition
{
int cpu;
int fpu;
defn = defn;
switch( GET_CPU( CpuSwitches ) ) {
case CPU_86: cpu = 0; break;
case CPU_186: cpu = 1; break;
case CPU_286: cpu = 2; break;
case CPU_386: cpu = 3; break;
case CPU_486: cpu = 4; break;
case CPU_586: cpu = 5; break;
case CPU_686: cpu = 6; break;
#if _CPU == 8086
default: cpu = 0; break;
#else
default: cpu = 3; break;
#endif
}
switch( GET_FPU_LEVEL( CpuSwitches ) ) {
case FPU_NONE: fpu = 0; break;
case FPU_87: fpu = 1; break;
// case FPU_287: fpu = 2; break;
case FPU_387: fpu = 3; break;
case FPU_586: fpu = 3; break;
case FPU_686: fpu = 3; break;
#if _CPU == 8086
default: fpu = 1; break;
#else
default: fpu = 3; break;
#endif
}
#if _CPU == 8086
AsmInit( 0, cpu, fpu, GET_FPU_EMU( CpuSwitches ) );
#else
AsmInit( 1, cpu, fpu, FALSE );
#endif
}
static void macroDefs( void )
{
if( TargetSwitches & I_MATH_INLINE ) {
DefSwitchMacro( "OM" );
}
switch( TargetSwitches & (BIG_DATA|BIG_CODE|CHEAP_POINTER|FLAT_MODEL) ) {
case CHEAP_POINTER:
DefSwitchMacro( "MS" );
break;
case BIG_CODE|CHEAP_POINTER:
DefSwitchMacro( "MM" );
break;
case BIG_DATA|CHEAP_POINTER:
DefSwitchMacro( "MC" );
break;
case BIG_CODE|BIG_DATA|CHEAP_POINTER:
DefSwitchMacro( "ML" );
break;
case BIG_CODE|BIG_DATA:
DefSwitchMacro( "MH" );
break;
case FLAT_MODEL|CHEAP_POINTER:
DefSwitchMacro( "MF" );
break;
}
if( TargetSwitches & FLOATING_FS ) {
DefSwitchMacro( "ZFF" );
} else {
DefSwitchMacro( "ZFP" );
}
if( TargetSwitches & FLOATING_GS ) {
DefSwitchMacro( "ZGF" );
} else {
DefSwitchMacro( "ZGP" );
}
if( TargetSwitches & FLOATING_DS ) {
DefSwitchMacro( "ZDF" );
} else {
DefSwitchMacro( "ZDP" );
}
if( TargetSwitches & FLOATING_SS ) {
DefSwitchMacro( "ZU" );
}
if( TargetSwitches & INDEXED_GLOBALS ) {
DefSwitchMacro( "XGV" );
}
if( TargetSwitches & WINDOWS ) {
DefSwitchMacro( "ZW" );
}
if( TargetSwitches & SMART_WINDOWS ) {
DefSwitchMacro( "ZWS" );
}
if( TargetSwitches & NO_CALL_RET_TRANSFORM ) {
DefSwitchMacro( "OC" );
}
if( TargetSwitches & NEED_STACK_FRAME ) {
DefSwitchMacro( "OF" );
}
if( GenSwitches & NO_OPTIMIZATION ) {
DefSwitchMacro( "OD" );
}
if( GenSwitches & RELAX_ALIAS ) {
DefSwitchMacro( "OA" );
}
if( GenSwitches & BRANCH_PREDICTION ) {
DefSwitchMacro( "OB" );
}
if( GenSwitches & LOOP_OPTIMIZATION ) {
DefSwitchMacro( "OL" );
}
if( GenSwitches & INS_SCHEDULING ) {
DefSwitchMacro( "OR" );
}
if( GenSwitches & FPU_ROUNDING_INLINE ) {
DefSwitchMacro( "ZRI" );
}
if( GenSwitches & FPU_ROUNDING_OMIT ) {
DefSwitchMacro( "ZRO" );
}
if( TargetSwitches & GEN_FWAIT_386 ) {
DefSwitchMacro( "ZFW" );
}
if( CompFlags.signed_char ) {
DefSwitchMacro( "J" );
}
if( CompFlags.use_pcheaders ) {
DefSwitchMacro( "FH" );
}
if( CompFlags.no_pch_warnings ) {
DefSwitchMacro( "FHQ" );
}
if( CompFlags.inline_intrinsics ) {
DefSwitchMacro( "OI" );
}
if( CompFlags.zu_switch_used ) {
DefSwitchMacro( "ZU" );
}
if( CompFlags.unique_functions ) {
DefSwitchMacro( "OU" );
}
#if _CPU == 386
if( CompFlags.register_conventions ) {
DefSwitchMacro( "3R" );
} else {
DefSwitchMacro( "3S" );
}
#endif
if( CompFlags.emit_names ) {
DefSwitchMacro( "EN" );
}
if( CompFlags.save_restore_segregs ) {
DefSwitchMacro( "R" );
}
if( CompFlags.zc_switch_used ) {
DefSwitchMacro( "ZC" );
}
if( CompFlags.use_unicode ) {
DefSwitchMacro( "ZK" );
}
if( CompFlags.sg_switch_used ) {
DefSwitchMacro( "SG" );
}
if( CompFlags.st_switch_used ) {
DefSwitchMacro( "ST" );
}
if( CompFlags.bm_switch_used ) {
PreDefineStringMacro( "_MT" );
DefSwitchMacro( "BM" );
}
if( CompFlags.bd_switch_used ) {
DefSwitchMacro( "BD" );
}
if( CompFlags.br_switch_used ) {
PreDefineStringMacro( "_DLL" );
DefSwitchMacro( "BR" );
}
if( CompFlags.bw_switch_used ) {
DefSwitchMacro( "BW" );
}
if( CompFlags.zm_switch_used ) {
DefSwitchMacro( "ZM" );
}
if( CompFlags.ep_switch_used ) {
DefSwitchMacro( "EP" );
}
if( CompFlags.ee_switch_used ) {
DefSwitchMacro( "EE" );
}
switch( CompInfo.dt_method_speced ) {
case DTM_DIRECT :
DefSwitchMacro( "XDT" );
DefSwitchMacro( "XD" );
break;
case DTM_DIRECT_SMALL :
DefSwitchMacro( "XDS" );
break;
case DTM_TABLE :
DefSwitchMacro( "XS" );
break;
case DTM_DIRECT_TABLE :
DefSwitchMacro( "XST" );
break;
case DTM_TABLE_SMALL :
DefSwitchMacro( "XSS" );
break;
DbgDefault( "macroDefs -- invalid exception switch" );
}
switch( GET_CPU( CpuSwitches ) ) {
case CPU_86:
DefSwitchMacro( "0" );
break;
case CPU_186:
DefSwitchMacro( "1" );
break;
case CPU_286:
DefSwitchMacro( "2" );
break;
case CPU_386:
DefSwitchMacro( "3" );
break;
case CPU_486:
DefSwitchMacro( "4" );
break;
case CPU_586:
DefSwitchMacro( "5" );
break;
case CPU_686:
DefSwitchMacro( "6" );
break;
}
switch( GET_FPU_LEVEL( CpuSwitches ) ) {
case FPU_NONE:
CompFlags.op_switch_used = 0;
DefSwitchMacro( "FPC" );
break;
case FPU_87:
DefSwitchMacro( "FP287" );
defEmu();
break;
case FPU_387:
DefSwitchMacro( "FP387" );
defEmu();
break;
case FPU_586:
DefSwitchMacro( "FP5" );
defEmu();
break;
case FPU_686:
DefSwitchMacro( "FP6" );
defEmu();
break;
}
if( CompFlags.op_switch_used ) {
DefSwitchMacro( "OP" );
}
PreDefineStringMacro( "_INTEGRAL_MAX_BITS=64" );
#if _CPU == 386
PreDefineStringMacro( "_STDCALL_SUPPORTED" );
#endif
if( CompFlags.oldmacros_enabled ) {
#if _CPU == 8086
if( TargetSwitches & WINDOWS ) {
PreDefineStringMacro( "SOMLINK=__cdecl" );
PreDefineStringMacro( "SOMDLINK=__far" );
}
#else
PreDefineStringMacro( "SOMLINK=_Syscall" );
PreDefineStringMacro( "SOMDLINK=_Syscall" );
#endif
}
}
static void setMemoryModel( OPT_STORAGE *data, mem_model_control control )
{
char model;
unsigned bit;
if( data->mem_model == OPT_mem_model_default ) {
#if _CPU == 8086
data->mem_model = OPT_mem_model_ms;
#else
data->mem_model = OPT_mem_model_mf;
#endif
}
#if _CPU == 386
if( control & MMC_NETWARE ) {
data->mem_model = OPT_mem_model_ms;
}
#endif
bit = 0;
if( CompFlags.oldmacros_enabled ) {
switch( data->mem_model ) {
case OPT_mem_model_ms:
PreDefineStringMacro( "M_" MM_ARCH "SM" );
break;
case OPT_mem_model_mm:
PreDefineStringMacro( "M_" MM_ARCH "MM" );
break;
case OPT_mem_model_ml:
PreDefineStringMacro( "M_" MM_ARCH "LM" );
break;
case OPT_mem_model_mc:
PreDefineStringMacro( "M_" MM_ARCH "CM" );
break;
#if _CPU == 8086
case OPT_mem_model_mh:
PreDefineStringMacro( "M_" MM_ARCH "HM" );
break;
#else
case OPT_mem_model_mfi:
case OPT_mem_model_mf:
PreDefineStringMacro( "M_" MM_ARCH "FM" );
break;
#endif
default:
break;
}
}
DataPtrSize = TARGET_POINTER;
CodePtrSize = TARGET_POINTER;
switch( data->mem_model ) {
case OPT_mem_model_ms:
model = 's';
PreDefineStringMacro( "_M_" MM_ARCH "SM" );
PreDefineStringMacro( "__SMALL__" );
CompFlags.strings_in_code_segment = 0;
TargetSwitches &= ~CONST_IN_CODE;
bit |= CHEAP_POINTER;
break;
case OPT_mem_model_mm:
model = 'm';
WatcallInfo.cclass |= FAR_CALL;
CodePtrSize = TARGET_FAR_POINTER;
PreDefineStringMacro( "_M_" MM_ARCH "MM" );
PreDefineStringMacro( "__MEDIUM__" );
CompFlags.strings_in_code_segment = 0;
TargetSwitches &= ~CONST_IN_CODE;
bit |= BIG_CODE | CHEAP_POINTER;
break;
case OPT_mem_model_mc:
model = 'c';
PreDefineStringMacro( "_M_" MM_ARCH "CM" );
PreDefineStringMacro( "__COMPACT__" );
DataPtrSize = TARGET_FAR_POINTER;
bit |= BIG_DATA | CHEAP_POINTER;
break;
case OPT_mem_model_ml:
model = 'l';
PreDefineStringMacro( "_M_" MM_ARCH "LM" );
PreDefineStringMacro( "__LARGE__" );
WatcallInfo.cclass |= FAR_CALL;
CodePtrSize = TARGET_FAR_POINTER;
DataPtrSize = TARGET_FAR_POINTER;
bit |= BIG_CODE | BIG_DATA | CHEAP_POINTER;
break;
#if _CPU == 8086
case OPT_mem_model_mh:
model = 'h';
PreDefineStringMacro( "_M_" MM_ARCH "HM" );
PreDefineStringMacro( "__HUGE__" );
WatcallInfo.cclass |= FAR_CALL;
CodePtrSize = TARGET_FAR_POINTER;
DataPtrSize = TARGET_FAR_POINTER;
bit |= BIG_CODE | BIG_DATA;
break;
#else
case OPT_mem_model_mfi:
CompFlags.mfi_switch_used = 1;
/* fall thru */
case OPT_mem_model_mf:
model = 's';
PreDefineStringMacro( "_M_" MM_ARCH "FM" );
PreDefineStringMacro( "__FLAT__" );
bit |= FLAT_MODEL | CHEAP_POINTER;
break;
#endif
default:
DbgNever();
}
// setup default "floating" segment registers
#if _CPU == 8086
bit |= FLOATING_ES;
#else
// 386 flat model needs at least one floating segment register
bit |= FLOATING_GS;
if( (bit & FLAT_MODEL) == 0 ) {
bit |= FLOATING_ES;
}
#endif
if( bit & BIG_DATA ) {
bit |= FLOATING_DS;
}
if( control & ( MMC_DS | MMC_WIN ) ) {
bit &= ~FLOATING_DS;
} else {
TargetSwitches &= ~ FLOATING_DS;
}
if( control & MMC_FS ) {
bit &= ~FLOATING_FS;
} else {
TargetSwitches &= ~ FLOATING_FS;
}
if( control & MMC_GS ) {
bit &= ~FLOATING_GS;
} else {
TargetSwitches &= ~ FLOATING_GS;
}
TargetSwitches &= ~( FLAT_MODEL | BIG_CODE | BIG_DATA | CHEAP_POINTER | FLOATING_ES );
TargetSwitches |= bit;
#if _CPU == 8086
if( data->bm ) { // .DLL
strcpy( DLL_CLIB_Name, "2clibmt?" );
} else {
if( control & MMC_WIN ) {
strcpy( DLL_CLIB_Name, "2clib?" );
} else {
strcpy( DLL_CLIB_Name, "2clibdl?" );
}
}
if( data->bm ) {
strcpy( CLIB_Name, "2clibmt?" );
} else if( data->bd ) {
if( control & MMC_WIN ) {
strcpy( CLIB_Name, "2clib?" );
} else {
strcpy( CLIB_Name, "2clibdl?" );
}
} else {
strcpy( CLIB_Name, "2clib?" );
}
if( CompFlags.excs_enabled ) {
if( data->bm ) { // .DLL
strcpy( DLL_WCPPLIB_Name, "4plbxmt?" );
} else {
if( control & MMC_WIN ) {
strcpy( DLL_WCPPLIB_Name, "4plbx?" );
} else {
strcpy( DLL_WCPPLIB_Name, "4plbxmt?" );
}
}
if( data->bm ) {
strcpy( WCPPLIB_Name, "4plbxmt?" );
} else if( data->bd ) {
if( control & MMC_WIN ) {
strcpy( WCPPLIB_Name, "4plbx?" );
} else {
strcpy( WCPPLIB_Name, "4plbxmt?" );
}
} else {
strcpy( WCPPLIB_Name, "4plbx?" );
}
} else {
if( data->bm ) { // .DLL
strcpy( DLL_WCPPLIB_Name, "4plibmt?" );
} else {
if( control & MMC_WIN ) {
strcpy( DLL_WCPPLIB_Name, "4plib?" );
} else {
strcpy( DLL_WCPPLIB_Name, "4plibmt?" );
}
}
if( data->bm ) {
strcpy( WCPPLIB_Name, "4plibmt?" );
} else if( data->bd ) {
if( control & MMC_WIN ) {
strcpy( WCPPLIB_Name, "4plib?" );
} else {
strcpy( WCPPLIB_Name, "4plibmt?" );
}
} else {
strcpy( WCPPLIB_Name, "4plib?" );
}
}
if( GET_FPU_EMU( CpuSwitches ) ) {
strcpy( MATHLIB_Name, "7math87?" );
EmuLib_Name = "8emu87";
} else if( GET_FPU_LEVEL( CpuSwitches ) == FPU_NONE ) {
strcpy( MATHLIB_Name, "5math?" );
EmuLib_Name = NULL;
} else {
strcpy( MATHLIB_Name, "7math87?" );
EmuLib_Name = "8noemu87";
}
#else
if( CompFlags.register_conventions ) {
model = 'r';
PreDefineStringMacro( "__3R__" );
} else {
model = 's';
PreDefineStringMacro( "__3S__" );
}
strcpy( CDLL_Name, "1clb?dll" );
strcpy( CLIB_Name, "2clib3?" );
strcpy( DLL_CLIB_Name, "2clib3?" );
if( CompFlags.excs_enabled ) {
strcpy( WCPPDLL_Name, "3plb?dllx" );
if( data->bm ) { // .DLL
strcpy( DLL_WCPPLIB_Name, "4plbxmt3?" );
} else {
if( control & MMC_WIN ) {
strcpy( DLL_WCPPLIB_Name, "4plbx3?" );
} else {
strcpy( DLL_WCPPLIB_Name, "4plbxmt3?" );
}
}
if( data->bm ) {
strcpy( WCPPLIB_Name, "4plbxmt3?" );
} else if( data->bd ) {
if( control & MMC_WIN ) {
strcpy( WCPPLIB_Name, "4plbx3?" );
} else {
strcpy( WCPPLIB_Name, "4plbxmt3?" );
}
} else {
strcpy( WCPPLIB_Name, "4plbx3?" );
}
} else {
strcpy( WCPPDLL_Name, "3plb?dll" );
if( data->bm ) { // .DLL
strcpy( DLL_WCPPLIB_Name, "4plibmt3?" );
} else {
if( control & MMC_WIN ) {
strcpy( DLL_WCPPLIB_Name, "4plib3?" );
} else {
strcpy( DLL_WCPPLIB_Name, "4plibmt3?" );
}
}
if( data->bm ) {
strcpy( WCPPLIB_Name, "4plibmt3?" );
} else if( data->bd ) {
if( control & MMC_WIN ) {
strcpy( WCPPLIB_Name, "4plib3?" );
} else {
strcpy( WCPPLIB_Name, "4plibmt3?" );
}
} else {
strcpy( WCPPLIB_Name, "4plib3?" );
}
}
if( GET_FPU_EMU( CpuSwitches ) ) {
if( data->br ) {
strcpy( MATHLIB_Name, "7mt7?dll" );
} else {
strcpy( MATHLIB_Name, "7math387?" );
}
EmuLib_Name = "8emu387";
} else if( GET_FPU_LEVEL( CpuSwitches ) == FPU_NONE ) {
if( data->br ) {
strcpy( MATHLIB_Name, "5mth?dll" );
} else {
strcpy( MATHLIB_Name, "5math3?" );
}
EmuLib_Name = NULL;
} else {
if( data->br ) {
strcpy( MATHLIB_Name, "7mt7?dll" );
} else {
strcpy( MATHLIB_Name, "7math387?" );
}
EmuLib_Name = "8noemu387";
}
*strchr( CDLL_Name, '?' ) = model;
*strchr( WCPPDLL_Name, '?' ) = model;
#endif
*strchr( CLIB_Name, '?' ) = model;
*strchr( MATHLIB_Name, '?' ) = model;
*strchr( WCPPLIB_Name, '?' ) = model;
*strchr( DLL_CLIB_Name, '?' ) = model;
*strchr( DLL_WCPPLIB_Name, '?' ) = model;
}
