secondo/Algebras/Distributed5/ARRAYORTASKSFUNARG.cpp

/*
----
This file is part of SECONDO.

Copyright (C) 2015,
Faculty of Mathematics and Computer Science,
Database Systems for New Applications.

SECONDO is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.

SECONDO is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with SECONDO; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
----


//[$][\$]

*/

#include "ARRAYORTASKSFUNARG.h"

using namespace std;
using namespace distributed2;

namespace distributed5
{
/*
1 TypeMapOperators ARRAYORTASKSFUNARG1, ARRAYORTASKSFUNARG2 up to 
ARRAYORTASKSFUNARG8

*/
template <int pos, int mode>
// mode = 0: get rel (DArray) resp. frel (DFArray) of array
// mode = 1: get fsrel of array
// mode = 2: partitionF mode:
//          pos args: get fsrel of array
//          pos + 1 args: get tuple type of fun at pos + 1

ListExpr ARRAYORTASKSFUNARG_TM(ListExpr args)
{
    if (!nl->HasMinLength(args, pos))
    {
        return listutils::typeError("too few arguments");
    }
    for (int i = 1; i < pos; i++)
    {
        args = nl->Rest(args);
    }
    ListExpr arg = nl->First(args);
    // i.e. arg = (darray int) or (stream (task (darray int)))

    if (mode == 2)
    {
        if (nl->HasLength(args, 3))
        {
            ListExpr fun = nl->Third(args);
            if (!listutils::isMap<1>(fun) && !listutils::isMap<2>(fun))
            {
                return listutils::typeError("prev arg is not a function");
            }
            ListExpr result = listutils::isMap<1>(fun)
                                  ? nl->Third(fun)
                                  : nl->Fourth(fun);
            if (!Stream<Tuple>::checkType(result))
            {
                return listutils::typeError(
                    "prev args result is not a tuple stream");
            }
            return nl->Second(result);
        }
        else if (!nl->HasLength(args, 2))
        {
            return listutils::typeError("too many arguments");
        }
    }

    ListExpr innerType;

    // unpack stream
    if (Stream<Task>::checkType(arg))
    {
        arg = Task::innerType(nl->Second(arg));
    }

    // i.e. arg = (darray int)
    if (DArray::checkType(arg))
    {
        // i.e. return int;
        innerType = nl->Second(arg);
    }
    // i.e. arg = (dfarray (rel ...))
    else if (DFArray::checkType(arg))
    {
        // i.e. return int;
        innerType = nl->TwoElemList(listutils::basicSymbol<frel>(),
                                    nl->Second(nl->Second(arg)));
    }
    else
    {
        return listutils::typeError("Invalid type found");
    }

    if (mode == 1 || mode == 2)
    {
        if (!Relation::checkType(innerType) && !frel::checkType(innerType))
        {
            return listutils::typeError("subtype type is not a relation");
        }
        return nl->TwoElemList(listutils::basicSymbol<fsrel>(),
                               nl->Second(innerType));
    }
    return innerType;
}

/*
2 Specification for ARRAYORTASKSFUNARG1, ARRAYORTASKSFUNARG2 up to 
ARRAYORTASKSFUNARG8

*/
OperatorSpec ARRAYORTASKSFUNARG1Spec(
    "d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",
    "ARRAYORTASKSFUNARG1(_)",
    "Type mapping operator.",
    "query df1 dmap_S [\"df3\" . count]");

Operator ARRAYORTASKSFUNARG1Op(
    "ARRAYORTASKSFUNARG1",
    ARRAYORTASKSFUNARG1Spec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<1, 0>);

OperatorSpec ARRAYORTASKSFUNARG2Spec(
    "d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",
    "ARRAYORTASKSFUNARG2(_)",
    "Type mapping operator.",
    "query df1 df2 dmapS2 [\"df3\" . count]");

Operator ARRAYORTASKSFUNARG2Op(
    "ARRAYORTASKSFUNARG2",
    ARRAYORTASKSFUNARG2Spec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<2, 0>);

OperatorSpec ARRAYORTASKSFUNARG3Spec(
    "d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",
    "ARRAYORTASKSFUNARG3(_)",
    "Type mapping operator.",
    "query df1 df2 df3 dmapS3 [\"df3\" . count]");

Operator ARRAYORTASKSFUNARG3Op(
    "ARRAYORTASKSFUNARG3",
    ARRAYORTASKSFUNARG3Spec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<3, 0>);

OperatorSpec ARRAYORTASKSFUNARG4Spec(
    "d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",
    "ARRAYORTASKSFUNARG4(_)",
    "Type mapping operator.",
    "query df1 df2 df3 df4 dmapS4 [\"df4\" . count]");

Operator ARRAYORTASKSFUNARG4Op(
    "ARRAYORTASKSFUNARG4",
    ARRAYORTASKSFUNARG4Spec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<4, 0>);

OperatorSpec ARRAYORTASKSFUNARG5Spec(
    "d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",
    "ARRAYORTASKSFUNARG5(_)",
    "Type mapping operator.",
    "query df1 df2 df3 df4 df5 dmapS5 [\"df5\" . count]");

Operator ARRAYORTASKSFUNARG5Op(
    "ARRAYORTASKSFUNARG5",
    ARRAYORTASKSFUNARG5Spec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<5, 0>);

OperatorSpec ARRAYORTASKSFUNFSARG2Spec(
    "d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",
    "ARRAYORTASKSFUNFSARG2(_)",
    "Type mapping operator.",
    "query df1 df2 dproduct_S [\"df3\" . count]");

Operator ARRAYORTASKSFUNFSARG2Op(
    "ARRAYORTASKSFUNFSARG2",
    ARRAYORTASKSFUNFSARG2Spec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<2, 1>);

OperatorSpec ARRAYORTASKSFUNARGPARTITIONFSpec(
    "{d(f)array(X), stream(task(X))} -> X, Y x (Z -> stream(tuple(X))) "
    "-> tuple(X)",
    "ARRAYORTASKSFUNARGPARTITIONF(_)",
    "Type mapping operator.",
    "query df1 partitionFS [\"df2\" ., hash(.Name), 8]");

Operator ARRAYORTASKSFUNARGPARTITIONFOp(
    "ARRAYORTASKSFUNARGPARTITIONF",
    ARRAYORTASKSFUNARGPARTITIONFSpec.getStr(),
    0,
    Operator::SimpleSelect,
    ARRAYORTASKSFUNARG_TM<1, 2>);

} // namespace distributed5
firs commit 2026-01-23 17:03:45 +08:00			`/*`
			`----`
			`This file is part of SECONDO.`

			`Copyright (C) 2015,`
			`Faculty of Mathematics and Computer Science,`
			`Database Systems for New Applications.`

			`SECONDO is free software; you can redistribute it and/or modify`
			`it under the terms of the GNU General Public License as published by`
			`the Free Software Foundation; either version 2 of the License, or`
			`(at your option) any later version.`

			`SECONDO is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`GNU General Public License for more details.`

			`You should have received a copy of the GNU General Public License`
			`along with SECONDO; if not, write to the Free Software`
			`Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA`
			`----`


			`//[$][\$]`

			`*/`

			`#include "ARRAYORTASKSFUNARG.h"`

			`using namespace std;`
			`using namespace distributed2;`

			`namespace distributed5`
			`{`
			`/*`
			`1 TypeMapOperators ARRAYORTASKSFUNARG1, ARRAYORTASKSFUNARG2 up to`
			`ARRAYORTASKSFUNARG8`

			`*/`
			`template <int pos, int mode>`
			`// mode = 0: get rel (DArray) resp. frel (DFArray) of array`
			`// mode = 1: get fsrel of array`
			`// mode = 2: partitionF mode:`
			`// pos args: get fsrel of array`
			`// pos + 1 args: get tuple type of fun at pos + 1`

			`ListExpr ARRAYORTASKSFUNARG_TM(ListExpr args)`
			`{`
			`if (!nl->HasMinLength(args, pos))`
			`{`
			`return listutils::typeError("too few arguments");`
			`}`
			`for (int i = 1; i < pos; i++)`
			`{`
			`args = nl->Rest(args);`
			`}`
			`ListExpr arg = nl->First(args);`
			`// i.e. arg = (darray int) or (stream (task (darray int)))`

			`if (mode == 2)`
			`{`
			`if (nl->HasLength(args, 3))`
			`{`
			`ListExpr fun = nl->Third(args);`
			`if (!listutils::isMap<1>(fun) && !listutils::isMap<2>(fun))`
			`{`
			`return listutils::typeError("prev arg is not a function");`
			`}`
			`ListExpr result = listutils::isMap<1>(fun)`
			`? nl->Third(fun)`
			`: nl->Fourth(fun);`
			`if (!Stream<Tuple>::checkType(result))`
			`{`
			`return listutils::typeError(`
			`"prev args result is not a tuple stream");`
			`}`
			`return nl->Second(result);`
			`}`
			`else if (!nl->HasLength(args, 2))`
			`{`
			`return listutils::typeError("too many arguments");`
			`}`
			`}`

			`ListExpr innerType;`

			`// unpack stream`
			`if (Stream<Task>::checkType(arg))`
			`{`
			`arg = Task::innerType(nl->Second(arg));`
			`}`

			`// i.e. arg = (darray int)`
			`if (DArray::checkType(arg))`
			`{`
			`// i.e. return int;`
			`innerType = nl->Second(arg);`
			`}`
			`// i.e. arg = (dfarray (rel ...))`
			`else if (DFArray::checkType(arg))`
			`{`
			`// i.e. return int;`
			`innerType = nl->TwoElemList(listutils::basicSymbol<frel>(),`
			`nl->Second(nl->Second(arg)));`
			`}`
			`else`
			`{`
			`return listutils::typeError("Invalid type found");`
			`}`

			`if (mode == 1 \|\| mode == 2)`
			`{`
			`if (!Relation::checkType(innerType) && !frel::checkType(innerType))`
			`{`
			`return listutils::typeError("subtype type is not a relation");`
			`}`
			`return nl->TwoElemList(listutils::basicSymbol<fsrel>(),`
			`nl->Second(innerType));`
			`}`
			`return innerType;`
			`}`

			`/*`
			`2 Specification for ARRAYORTASKSFUNARG1, ARRAYORTASKSFUNARG2 up to`
			`ARRAYORTASKSFUNARG8`

			`*/`
			`OperatorSpec ARRAYORTASKSFUNARG1Spec(`
			`"d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",`
			`"ARRAYORTASKSFUNARG1(_)",`
			`"Type mapping operator.",`
			`"query df1 dmap_S [\"df3\" . count]");`

			`Operator ARRAYORTASKSFUNARG1Op(`
			`"ARRAYORTASKSFUNARG1",`
			`ARRAYORTASKSFUNARG1Spec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<1, 0>);`

			`OperatorSpec ARRAYORTASKSFUNARG2Spec(`
			`"d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",`
			`"ARRAYORTASKSFUNARG2(_)",`
			`"Type mapping operator.",`
			`"query df1 df2 dmapS2 [\"df3\" . count]");`

			`Operator ARRAYORTASKSFUNARG2Op(`
			`"ARRAYORTASKSFUNARG2",`
			`ARRAYORTASKSFUNARG2Spec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<2, 0>);`

			`OperatorSpec ARRAYORTASKSFUNARG3Spec(`
			`"d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",`
			`"ARRAYORTASKSFUNARG3(_)",`
			`"Type mapping operator.",`
			`"query df1 df2 df3 dmapS3 [\"df3\" . count]");`

			`Operator ARRAYORTASKSFUNARG3Op(`
			`"ARRAYORTASKSFUNARG3",`
			`ARRAYORTASKSFUNARG3Spec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<3, 0>);`

			`OperatorSpec ARRAYORTASKSFUNARG4Spec(`
			`"d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",`
			`"ARRAYORTASKSFUNARG4(_)",`
			`"Type mapping operator.",`
			`"query df1 df2 df3 df4 dmapS4 [\"df4\" . count]");`

			`Operator ARRAYORTASKSFUNARG4Op(`
			`"ARRAYORTASKSFUNARG4",`
			`ARRAYORTASKSFUNARG4Spec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<4, 0>);`

			`OperatorSpec ARRAYORTASKSFUNARG5Spec(`
			`"d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",`
			`"ARRAYORTASKSFUNARG5(_)",`
			`"Type mapping operator.",`
			`"query df1 df2 df3 df4 df5 dmapS5 [\"df5\" . count]");`

			`Operator ARRAYORTASKSFUNARG5Op(`
			`"ARRAYORTASKSFUNARG5",`
			`ARRAYORTASKSFUNARG5Spec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<5, 0>);`

			`OperatorSpec ARRAYORTASKSFUNFSARG2Spec(`
			`"d(f)array(X) x ... -> X, stream(task(X)) x ... -> X",`
			`"ARRAYORTASKSFUNFSARG2(_)",`
			`"Type mapping operator.",`
			`"query df1 df2 dproduct_S [\"df3\" . count]");`

			`Operator ARRAYORTASKSFUNFSARG2Op(`
			`"ARRAYORTASKSFUNFSARG2",`
			`ARRAYORTASKSFUNFSARG2Spec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<2, 1>);`

			`OperatorSpec ARRAYORTASKSFUNARGPARTITIONFSpec(`
			`"{d(f)array(X), stream(task(X))} -> X, Y x (Z -> stream(tuple(X))) "`
			`"-> tuple(X)",`
			`"ARRAYORTASKSFUNARGPARTITIONF(_)",`
			`"Type mapping operator.",`
			`"query df1 partitionFS [\"df2\" ., hash(.Name), 8]");`

			`Operator ARRAYORTASKSFUNARGPARTITIONFOp(`
			`"ARRAYORTASKSFUNARGPARTITIONF",`
			`ARRAYORTASKSFUNARGPARTITIONFSpec.getStr(),`
			`0,`
			`Operator::SimpleSelect,`
			`ARRAYORTASKSFUNARG_TM<1, 2>);`

			`} // namespace distributed5`