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891e4190ba
The operators FLOOR, CEILING, CMPLX, LBOUND, UBOUND, and SIZE accept (some only with Fortran 2003) the optional parameter KIND. This parameter determines the kind of the associated return value. So far, implementation of this kind parameter has been missing in GDB. Additionally, the one argument overload for the CMPLX intrinsic function was not yet available. This patch adds overloads for all above mentioned functions to the Fortran intrinsics handling in GDB. It re-writes the intrinsic function handling section to use the helper methods wrap_unop_intrinsic/wrap_binop_intrinsic/wrap_triop_intrinsic. These methods define the action taken when a Fortran intrinsic function is called with a certain amount of arguments (1/2/3). The helper methods fortran_wrap2_kind and fortran_wrap3_kind have been added as equivalents to the existing wrap and wrap2 methods. After adding more overloads to the intrinsics handling, some of the operation names were no longer accurate. E.g. UNOP_FORTRAN_CEILING has been renamed to FORTRAN_CEILING as it is no longer a purely unary intrinsic function. This patch also introduces intrinsic functions with one, two, or three arguments to the Fortran parser and the UNOP_OR_BINOP_OR_TERNOP_INTRINSIC token has been added.
421 lines
15 KiB
C++
421 lines
15 KiB
C++
/* Definitions for Fortran expressions
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Copyright (C) 2020-2022 Free Software Foundation, Inc.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef FORTRAN_EXP_H
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#define FORTRAN_EXP_H
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#include "expop.h"
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extern struct value *eval_op_f_abs (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1);
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extern struct value *eval_op_f_mod (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1, struct value *arg2);
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/* Implement expression evaluation for Fortran's CEILING intrinsic function
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called with one argument. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_CEILING and ARG1 is the argument passed to CEILING. */
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extern struct value *eval_op_f_ceil (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1);
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/* Implement expression evaluation for Fortran's CEILING intrinsic function
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called with two arguments. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_CEILING, ARG1 is the first argument passed to CEILING, and KIND_ARG
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is the type corresponding to the KIND parameter passed to CEILING. */
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extern value *eval_op_f_ceil (type *expect_type, expression *exp,
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noside noside, exp_opcode opcode, value *arg1,
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type *kind_arg);
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/* Implement expression evaluation for Fortran's FLOOR intrinsic function
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called with one argument. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be FORTRAN_FLOOR
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and ARG1 is the argument passed to FLOOR. */
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extern struct value *eval_op_f_floor (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1);
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/* Implement expression evaluation for Fortran's FLOOR intrinsic function
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called with two arguments. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_FLOOR, ARG1 is the first argument passed to FLOOR, and KIND_ARG is
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the type corresponding to the KIND parameter passed to FLOOR. */
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extern value *eval_op_f_floor (type *expect_type, expression *exp,
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noside noside, exp_opcode opcode, value *arg1,
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type *kind_arg);
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extern struct value *eval_op_f_modulo (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1, struct value *arg2);
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/* Implement expression evaluation for Fortran's CMPLX intrinsic function
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called with one argument. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_CMPLX and ARG1 is the argument passed to CMPLX if. */
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extern value *eval_op_f_cmplx (type *expect_type, expression *exp,
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noside noside, exp_opcode opcode, value *arg1);
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/* Implement expression evaluation for Fortran's CMPLX intrinsic function
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called with two arguments. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_CMPLX, ARG1 and ARG2 are the arguments passed to CMPLX. */
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extern struct value *eval_op_f_cmplx (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1, struct value *arg2);
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/* Implement expression evaluation for Fortran's CMPLX intrinsic function
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called with three arguments. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_CMPLX, ARG1 and ARG2 are real and imaginary part passed to CMPLX,
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and KIND_ARG is the type corresponding to the KIND parameter passed to
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CMPLX. */
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extern value *eval_op_f_cmplx (type *expect_type, expression *exp,
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noside noside, exp_opcode opcode, value *arg1,
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value *arg2, type *kind_arg);
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extern struct value *eval_op_f_kind (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1);
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extern struct value *eval_op_f_associated (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1);
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extern struct value *eval_op_f_associated (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1,
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struct value *arg2);
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extern struct value * eval_op_f_allocated (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode op,
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struct value *arg1);
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extern struct value * eval_op_f_loc (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode op,
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struct value *arg1);
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/* Implement the evaluation of UNOP_FORTRAN_RANK. EXPECTED_TYPE, EXP, and
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NOSIDE are as for expression::evaluate (see expression.h). OP will
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always be UNOP_FORTRAN_RANK, and ARG1 is the argument being passed to
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the expression. */
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extern struct value *eval_op_f_rank (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode op,
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struct value *arg1);
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/* Implement expression evaluation for Fortran's SIZE keyword. For
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EXPECT_TYPE, EXP, and NOSIDE see expression::evaluate (in
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expression.h). OPCODE will always for FORTRAN_ARRAY_SIZE. ARG1 is the
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value passed to SIZE if it is only passed a single argument. For the
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two argument form see the overload of this function below. */
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extern struct value *eval_op_f_array_size (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1);
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/* An overload of EVAL_OP_F_ARRAY_SIZE above, this version takes two
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arguments, representing the two values passed to Fortran's SIZE
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keyword. */
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extern struct value *eval_op_f_array_size (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode opcode,
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struct value *arg1,
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struct value *arg2);
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/* Implement expression evaluation for Fortran's SIZE intrinsic function called
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with three arguments. For EXPECT_TYPE, EXP, and NOSIDE see
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expression::evaluate (in expression.h). OPCODE will always be
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FORTRAN_ARRAY_SIZE, ARG1 and ARG2 the first two values passed to SIZE, and
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KIND_ARG is the type corresponding to the KIND parameter passed to SIZE. */
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extern value *eval_op_f_array_size (type *expect_type, expression *exp,
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noside noside, exp_opcode opcode,
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value *arg1, value *arg2, type *kind_arg);
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/* Implement the evaluation of Fortran's SHAPE keyword. EXPECTED_TYPE,
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EXP, and NOSIDE are as for expression::evaluate (see expression.h). OP
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will always be UNOP_FORTRAN_SHAPE, and ARG1 is the argument being passed
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to the expression. */
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extern struct value *eval_op_f_array_shape (struct type *expect_type,
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struct expression *exp,
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enum noside noside,
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enum exp_opcode op,
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struct value *arg1);
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namespace expr
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{
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/* Function prototype for Fortran intrinsic functions taking one argument and
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one kind argument. */
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typedef value *binary_kind_ftype (type *expect_type, expression *exp,
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noside noside, exp_opcode op, value *arg1,
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type *kind_arg);
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/* Two-argument operation with the second argument being a kind argument. */
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template<exp_opcode OP, binary_kind_ftype FUNC>
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class fortran_kind_2arg
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: public tuple_holding_operation<operation_up, type*>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (type *expect_type, expression *exp, noside noside) override
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{
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value *arg1 = std::get<0> (m_storage)->evaluate (nullptr, exp, noside);
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type *kind_arg = std::get<1> (m_storage);
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return FUNC (expect_type, exp, noside, OP, arg1, kind_arg);
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}
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exp_opcode opcode () const override
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{ return OP; }
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};
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/* Function prototype for Fortran intrinsic functions taking two arguments and
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one kind argument. */
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typedef value *ternary_kind_ftype (type *expect_type, expression *exp,
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noside noside, exp_opcode op, value *arg1,
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value *arg2, type *kind_arg);
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/* Three-argument operation with the third argument being a kind argument. */
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template<exp_opcode OP, ternary_kind_ftype FUNC>
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class fortran_kind_3arg
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: public tuple_holding_operation<operation_up, operation_up, type *>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (type *expect_type, expression *exp, noside noside) override
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{
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value *arg1 = std::get<0> (m_storage)->evaluate (nullptr, exp, noside);
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value *arg2 = std::get<1> (m_storage)->evaluate (nullptr, exp, noside);
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type *kind_arg = std::get<2> (m_storage);
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return FUNC (expect_type, exp, noside, OP, arg1, arg2, kind_arg);
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}
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exp_opcode opcode () const override
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{ return OP; }
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};
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using fortran_abs_operation = unop_operation<UNOP_ABS, eval_op_f_abs>;
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using fortran_ceil_operation_1arg = unop_operation<FORTRAN_CEILING,
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eval_op_f_ceil>;
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using fortran_ceil_operation_2arg = fortran_kind_2arg<FORTRAN_CEILING,
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eval_op_f_ceil>;
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using fortran_floor_operation_1arg = unop_operation<FORTRAN_FLOOR,
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eval_op_f_floor>;
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using fortran_floor_operation_2arg = fortran_kind_2arg<FORTRAN_FLOOR,
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eval_op_f_floor>;
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using fortran_kind_operation = unop_operation<UNOP_FORTRAN_KIND,
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eval_op_f_kind>;
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using fortran_allocated_operation = unop_operation<UNOP_FORTRAN_ALLOCATED,
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eval_op_f_allocated>;
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using fortran_loc_operation = unop_operation<UNOP_FORTRAN_LOC,
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eval_op_f_loc>;
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using fortran_mod_operation = binop_operation<BINOP_MOD, eval_op_f_mod>;
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using fortran_modulo_operation = binop_operation<BINOP_FORTRAN_MODULO,
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eval_op_f_modulo>;
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using fortran_associated_1arg = unop_operation<FORTRAN_ASSOCIATED,
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eval_op_f_associated>;
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using fortran_associated_2arg = binop_operation<FORTRAN_ASSOCIATED,
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eval_op_f_associated>;
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using fortran_rank_operation = unop_operation<UNOP_FORTRAN_RANK,
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eval_op_f_rank>;
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using fortran_array_size_1arg = unop_operation<FORTRAN_ARRAY_SIZE,
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eval_op_f_array_size>;
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using fortran_array_size_2arg = binop_operation<FORTRAN_ARRAY_SIZE,
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eval_op_f_array_size>;
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using fortran_array_size_3arg = fortran_kind_3arg<FORTRAN_ARRAY_SIZE,
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eval_op_f_array_size>;
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using fortran_array_shape_operation = unop_operation<UNOP_FORTRAN_SHAPE,
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eval_op_f_array_shape>;
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using fortran_cmplx_operation_1arg = unop_operation<FORTRAN_CMPLX,
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eval_op_f_cmplx>;
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using fortran_cmplx_operation_2arg = binop_operation<FORTRAN_CMPLX,
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eval_op_f_cmplx>;
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using fortran_cmplx_operation_3arg = fortran_kind_3arg<FORTRAN_CMPLX,
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eval_op_f_cmplx>;
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/* OP_RANGE for Fortran. */
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class fortran_range_operation
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: public tuple_holding_operation<enum range_flag, operation_up, operation_up,
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operation_up>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (struct type *expect_type,
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struct expression *exp,
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enum noside noside) override
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{
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error (_("ranges not allowed in this context"));
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}
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range_flag get_flags () const
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{
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return std::get<0> (m_storage);
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}
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value *evaluate0 (struct expression *exp, enum noside noside) const
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{
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return std::get<1> (m_storage)->evaluate (nullptr, exp, noside);
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}
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value *evaluate1 (struct expression *exp, enum noside noside) const
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{
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return std::get<2> (m_storage)->evaluate (nullptr, exp, noside);
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}
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value *evaluate2 (struct expression *exp, enum noside noside) const
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{
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return std::get<3> (m_storage)->evaluate (nullptr, exp, noside);
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}
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enum exp_opcode opcode () const override
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{ return OP_RANGE; }
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};
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/* In F77, functions, substring ops and array subscript operations
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cannot be disambiguated at parse time. This operation handles
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both, deciding which do to at evaluation time. */
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class fortran_undetermined
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: public tuple_holding_operation<operation_up, std::vector<operation_up>>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (struct type *expect_type,
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struct expression *exp,
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enum noside noside) override;
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enum exp_opcode opcode () const override
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{ return OP_F77_UNDETERMINED_ARGLIST; }
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private:
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value *value_subarray (value *array, struct expression *exp,
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enum noside noside);
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};
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/* Single-argument form of Fortran ubound/lbound intrinsics. */
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class fortran_bound_1arg
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: public tuple_holding_operation<exp_opcode, operation_up>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (struct type *expect_type,
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struct expression *exp,
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enum noside noside) override;
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enum exp_opcode opcode () const override
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{ return std::get<0> (m_storage); }
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};
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/* Two-argument form of Fortran ubound/lbound intrinsics. */
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class fortran_bound_2arg
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: public tuple_holding_operation<exp_opcode, operation_up, operation_up>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (struct type *expect_type,
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struct expression *exp,
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enum noside noside) override;
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enum exp_opcode opcode () const override
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{ return std::get<0> (m_storage); }
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};
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/* Three-argument form of Fortran ubound/lbound intrinsics. */
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class fortran_bound_3arg
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: public tuple_holding_operation<exp_opcode, operation_up, operation_up,
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type *>
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{
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public:
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using tuple_holding_operation::tuple_holding_operation;
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value *evaluate (type *expect_type, expression *exp, noside noside) override;
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exp_opcode opcode () const override
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{ return std::get<0> (m_storage); }
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};
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/* Implement STRUCTOP_STRUCT for Fortran. */
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class fortran_structop_operation
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: public structop_base_operation
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{
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public:
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using structop_base_operation::structop_base_operation;
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value *evaluate (struct type *expect_type,
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struct expression *exp,
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enum noside noside) override;
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enum exp_opcode opcode () const override
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{ return STRUCTOP_STRUCT; }
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};
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} /* namespace expr */
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#endif /* FORTRAN_EXP_H */
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