コード例 #1
0
ファイル: fieldops.c プロジェクト: Ukusbobra/open-watcom-v2
void    GFieldSCB( inttarg size ) {
//=================================

// Setup an SCB for a character field.

    PushConst( size );
    EmitOp( FC_FLIP );
}
コード例 #2
0
void    GNullRetIdx( void ) {
//=====================

// No alternate return.

    PushConst( 0 );
    EmitOp( FC_ASSIGN_ALT_RET );
    DumpType( FT_INTEGER, TypeSize( FT_INTEGER ) );
}
コード例 #3
0
ファイル: stkops.c プロジェクト: bhanug/open-watcom-v2
void    PushOpn( itnode *itptr ) {
//================================

// Generate a push of an operand.
// Also called for target of character assignment.

    unsigned_16 flags;
    TYPE        typ;
    USOPN       what;
    USOPN       where;

    where = itptr->opn.us & USOPN_WHERE;
    if( ( itptr->opn.ds != DSOPN_PHI ) && ( where != USOPN_SAFE ) ) {
        typ = itptr->typ;
        flags = itptr->flags;
        what = itptr->opn.us & USOPN_WHAT;
        if( where != 0 ) {
            EmitOp( FC_PUSH );
            SymRef( itptr );
        } else if( itptr->opn.us & USOPN_FLD ) {
            PushConst( itptr->value.intstar4 );
        } else if( ( flags & SY_CLASS ) == SY_SUBPROGRAM ) {
            // 1. it's a statement function
            // 2. it's a subprogram passed as an argument
            EmitOp( FC_PUSH );
            SymRef( itptr );
        } else if( what == USOPN_CON ) {
            if( typ == FT_CHAR ) {
                EmitOp( FC_PUSH_LIT );
                if( itptr->sym_ptr->u.lt.flags & LT_SCB_TMP_REFERENCE ) {
                    itptr->sym_ptr->u.lt.flags |= LT_SCB_REQUIRED;
                } else {
                    // in case string optimizations use value directly,
                    // LT_SCB_TMP_REFERENCE will be turned off
                    itptr->sym_ptr->u.lt.flags |= LT_SCB_TMP_REFERENCE;
                }
            } else {
                EmitOp( FC_PUSH_CONST );
            }
            SymRef( itptr );
        } else {
            EmitOp( FC_PUSH );
            SymRef( itptr );
        }
        SetOpn( itptr, USOPN_SAFE );
    }
}
コード例 #4
0
ファイル: gdo.c プロジェクト: Azarien/open-watcom-v2
static  void    DataDo( TYPE do_type ) {
//=====================================

// Process an implied-DO for DATA statements.

    sym_id      do_var;

    do_type = do_type;
    do_var = CITNode->sym_ptr;
    AdvanceITPtr();
    DoExpr();                           // process e1
    if( ReqComma() ) {
        DoExpr();                       // process e2
        if( RecComma() ) {
            DoExpr();                   // process e3
        } else {
            PushConst( 1 );             // indicate unit incrementation
        }
    }
    EmitOp( FC_DATA_DO_LOOP );
    OutPtr( do_var );
}
コード例 #5
0
static  void    DoLoop( TYPE do_type ) {
//=====================================

// Generate code for DO statement or implied-DO.

    do_entry    *doptr;
    uint        do_size;
    intstar4    incr;
    intstar4    limit;
    sym_id      loop_ctrl;
    TYPE        e1_type;
    uint        e1_size;
    itnode      *e2_node;
    itnode      *e3_node;
    bool        e2_const;

    doptr = CSHead->cs_info.do_parms;
    do_size = CITNode->sym_ptr->u.ns.xt.size;
    doptr->do_parm = CITNode->sym_ptr;          // save ptr to do variable
    AdvanceITPtr();                             // bump past the '='
    EatDoParm();                                // process e1
    PushOpn( CITNode );
    e1_type = CITNode->typ;
    e1_size = CITNode->size;
    AdvanceITPtr();
    if( ReqComma() ) {
        EatDoParm();                            // process e2
        e2_const = CITNode->opn.us == USOPN_CON;
        PushOpn( CITNode );
        e2_node = CITNode;
        AdvanceITPtr();
        e3_node = NULL;
        if( RecComma() ) {
            EatDoParm();                        // process e3
            e3_node = CITNode;
            if( !AError ) {
                if( (CITNode->opn.us == USOPN_CON) && _IsTypeInteger( do_type ) ) {
                    incr = GetIntValue( CITNode );
                    doptr->incr_value = incr;
                    doptr->increment = NULL;
                    if( (OZOpts & OZOPT_O_FASTDO) == 0 ) {
                        if( e2_const ) {
                            limit = GetIntValue( e2_node );
                            if( NeedIncrement( limit, incr, do_type ) ) {
                                PushOpn( CITNode );
                                doptr->increment = StaticAlloc( do_size, do_type );
                            }
                        } else {
                            PushOpn( CITNode );
                            doptr->increment = StaticAlloc( do_size, do_type );
                        }
                    }
                } else {
                    PushOpn( CITNode );
                    doptr->increment = StaticAlloc( do_size, do_type );
                }
                AdvanceITPtr();
            }
        } else {
            if( _IsTypeInteger( do_type ) ) {
                doptr->increment = NULL;
                doptr->incr_value = 1;
                if( (OZOpts & OZOPT_O_FASTDO) == 0 ) {
                    if( e2_const ) {
                        limit = GetIntValue( e2_node );
                        if( NeedIncrement( limit, 1, do_type ) ) {
                            PushConst( 1 );
                            doptr->increment = StaticAlloc( do_size, do_type );
                        }
                    } else {
                        PushConst( 1 );
                        doptr->increment = StaticAlloc( do_size, do_type );
                    }
                }
            } else {
                PushConst( 1 );
                doptr->increment = StaticAlloc( do_size, do_type );
            }
        }
        EmitOp( FC_DO_BEGIN );
        OutPtr( doptr->do_parm );
        OutPtr( doptr->increment );
        if( doptr->increment == NULL ) { // INTEGER do-loop with constant incr
            loop_ctrl = StaticAlloc( do_size, do_type );
            OutConst32( doptr->incr_value );
            OutPtr( loop_ctrl );
        } else {
            if( _IsTypeInteger( do_type ) ) {
                loop_ctrl = StaticAlloc( do_size, do_type );
            } else {
                loop_ctrl = StaticAlloc( sizeof( intstar4 ), FT_INTEGER );
            }
            doptr->iteration = loop_ctrl;
            OutPtr( loop_ctrl );
            if( e3_node == NULL ) {
                DumpType( FT_INTEGER, TypeSize( FT_INTEGER ) );
            } else {
                GenType( e3_node );
            }
        }
        GenType( e2_node );
        DumpType( e1_type, e1_size );
        OutU16( CSHead->branch );
        OutU16( CSHead->bottom );
    }
}