extern void BGProcDecl( cg_sym_handle sym, type_def *tipe ) {
/************************************************************/
hw_reg_set reg;
name *temp;
type_class_def class;
segment_id old;
label_handle lbl;
SaveTargetModel = TargetModel;
class = AddCallBlock( sym, tipe );
if( tipe != TypeNone ) {
if( class == XX ) {
if( CurrProc->state.attr & ROUTINE_ALLOCS_RETURN ) {
old = SetOP( AskBackSeg() );
lbl = AskForNewLabel();
DataLabel( lbl );
DGUBytes( tipe->length );
CurrProc->targ.return_points = (name *)SAllocMemory( lbl, 0, CG_LBL, TypeClass( tipe ), tipe->length );
SetOP( old );
} else {
reg = CurrProc->state.return_reg;
if( HW_CEqual( reg, HW_EMPTY ) ) {
temp = DoParmDecl( NULL, TypeInteger, HW_EMPTY );
} else {
temp = AllocTemp( WD );
temp->v.usage |= USE_IN_ANOTHER_BLOCK;
AddIns( MakeMove( AllocRegName( reg ), temp, WD ) );
HW_TurnOn( CurrProc->state.parm.used, reg );
}
CurrProc->targ.return_points = temp;
}
}
}
if( _RoutineIsInterrupt( CurrProc->state.attr ) ) {
TargetModel |= FLOATING_SS;
}
}
an BGCall( cn call, bool use_return, bool in_line )
/******************************************************/
{
instruction *call_ins;
call_state *state;
name *ret_ptr = NULL;
name *result;
name *temp;
name *reg_name;
instruction *ret_ins = NULL;
hw_reg_set return_reg;
hw_reg_set zap_reg;
if( call->name->tipe == TypeProcParm ) {
SaveDisplay( OP_PUSH );
}
state = call->state;
result = BGNewTemp( call->tipe );
call_ins = call->ins;
/* If we have a return value that won't fit in a register*/
/* pass a pointer to result as the first parm*/
if( call_ins->type_class == XX ) {
if( _RoutineIsFar16( state->attr ) ) {
if( state->attr & ROUTINE_ALLOCS_RETURN ) {
HW_CAsgn( state->return_reg, HW_EAX );
} else {
HW_CAsgn( state->return_reg, HW_EBX );
}
}
if( ( state->attr & ROUTINE_ALLOCS_RETURN ) == 0 ) {
if( HW_CEqual( state->return_reg, HW_EMPTY ) ) {
ret_ptr = AllocTemp( WD );
} else {
ret_ptr = AllocRegName( state->return_reg );
}
ret_ins = MakeUnary( OP_LA, result, ret_ptr, WD );
HW_TurnOn( state->parm.used, state->return_reg );
call_ins->flags.call_flags |= CALL_RETURNS_STRUCT;
}
}
if( _IsTargetModel(FLOATING_DS) && (state->attr&ROUTINE_NEEDS_DS_LOADED) ) {
HW_CTurnOn( state->parm.used, HW_DS );
}
if( _RoutineIsFar16( state->attr ) ) {
#if _TARGET & _TARG_80386
Far16Parms( call );
#endif
} else {
if( AssgnParms( call, in_line ) ) {
if( state->attr & ROUTINE_REMOVES_PARMS ) {
call_ins->flags.call_flags |= CALL_POPS_PARMS;
}
}
}
if( state->attr & (ROUTINE_MODIFIES_NO_MEMORY | ROUTINE_NEVER_RETURNS) ) {
/* a routine that never returns can not write any memory as far
as this routine is concerned */
call_ins->flags.call_flags |= CALL_WRITES_NO_MEMORY;
}
if( state->attr & ROUTINE_READS_NO_MEMORY ) {
call_ins->flags.call_flags |= CALL_READS_NO_MEMORY;
}
if( state->attr & ROUTINE_NEVER_RETURNS ) {
call_ins->flags.call_flags |= CALL_ABORTS;
}
if( _RoutineIsInterrupt( state->attr ) ) {
call_ins->flags.call_flags |= CALL_INTERRUPT | CALL_POPS_PARMS;
}
if( !use_return ) {
call_ins->flags.call_flags |= CALL_IGNORES_RETURN;
}
if( call_ins->type_class == XX ) {
reg_name = AllocRegName( state->return_reg );
if( state->attr & ROUTINE_ALLOCS_RETURN ) {
call_ins->result = reg_name;
AddCall( call_ins, call );
if( use_return ) {
temp = AllocTemp( WD ); /* assume near pointer*/
AddIns( MakeMove( reg_name, temp, WD ) );
temp = SAllocIndex( temp, NULL, 0,
result->n.type_class, call->tipe->length );
AddIns( MakeMove( temp, result, result->n.type_class ) );
}
} else {
call_ins->result = result;
AddIns( ret_ins );
if( HW_CEqual( state->return_reg, HW_EMPTY ) ) {
AddIns( MakeUnary( OP_PUSH, ret_ptr, NULL, WD ) );
state->parm.offset += TypeClassSize[WD];
call_ins->operands[CALL_OP_POPS] =
AllocS32Const( call_ins->operands[CALL_OP_POPS]->c.lo.int_value + TypeClassSize[WD] );
if( state->attr & ROUTINE_REMOVES_PARMS ) {
call_ins->flags.call_flags |= CALL_POPS_PARMS;
}
}
AddCall( call_ins, call );
}
} else {
return_reg = state->return_reg;
zap_reg = call_ins->zap->reg;
HW_CTurnOn( zap_reg, HW_FLTS );
HW_OnlyOn( return_reg, zap_reg );
call_ins->result = AllocRegName( return_reg );
reg_name = AllocRegName( state->return_reg );
AddCall( call_ins, call );
if( use_return ) {
ret_ins = MakeMove( reg_name, result, result->n.type_class );
if( HW_COvlap( reg_name->r.reg, HW_FLTS ) ) {
ret_ins->stk_entry = 1;
ret_ins->stk_exit = 0;
}
AddIns( ret_ins );
}
}
if( state->parm.offset != 0 && ( state->attr & ROUTINE_REMOVES_PARMS ) == 0 ) {
reg_name = AllocRegName( HW_SP );
AddIns( MakeBinary( OP_ADD, reg_name,
AllocS32Const( state->parm.offset ), reg_name, WD ) );
}
return( MakeTempAddr( result ) );
}
