mirror of
https://sourceware.org/git/binutils-gdb.git
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695 lines
18 KiB
C
695 lines
18 KiB
C
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/* Perform arithmetic and other operations on values, for GDB.
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Copyright (C) 1986, 1989 Free Software Foundation, Inc.
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This file is part of GDB.
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GDB 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 1, or (at your option)
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any later version.
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GDB 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 GDB; see the file COPYING. If not, write to
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the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
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#include "defs.h"
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#include "param.h"
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#include "value.h"
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#include "expression.h"
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#include "target.h"
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#include <string.h>
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value value_x_binop ();
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value value_subscripted_rvalue ();
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value
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value_add (arg1, arg2)
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value arg1, arg2;
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{
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register value val, valint, valptr;
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register int len;
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COERCE_ARRAY (arg1);
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COERCE_ARRAY (arg2);
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if ((TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_PTR
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|| TYPE_CODE (VALUE_TYPE (arg2)) == TYPE_CODE_PTR)
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&&
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(TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_INT
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|| TYPE_CODE (VALUE_TYPE (arg2)) == TYPE_CODE_INT))
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/* Exactly one argument is a pointer, and one is an integer. */
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{
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if (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_PTR)
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{
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valptr = arg1;
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valint = arg2;
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}
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else
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{
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valptr = arg2;
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valint = arg1;
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}
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len = TYPE_LENGTH (TYPE_TARGET_TYPE (VALUE_TYPE (valptr)));
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if (len == 0) len = 1; /* For (void *) */
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val = value_from_long (builtin_type_long,
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value_as_long (valptr)
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+ (len * value_as_long (valint)));
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VALUE_TYPE (val) = VALUE_TYPE (valptr);
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return val;
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}
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return value_binop (arg1, arg2, BINOP_ADD);
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}
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value
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value_sub (arg1, arg2)
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value arg1, arg2;
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{
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register value val;
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COERCE_ARRAY (arg1);
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COERCE_ARRAY (arg2);
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if (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_PTR)
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{
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if (TYPE_CODE (VALUE_TYPE (arg2)) == TYPE_CODE_INT)
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{
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/* pointer - integer. */
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val = value_from_long
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(builtin_type_long,
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value_as_long (arg1)
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- (TYPE_LENGTH (TYPE_TARGET_TYPE (VALUE_TYPE (arg1)))
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* value_as_long (arg2)));
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VALUE_TYPE (val) = VALUE_TYPE (arg1);
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return val;
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}
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else if (VALUE_TYPE (arg1) == VALUE_TYPE (arg2))
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{
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/* pointer to <type x> - pointer to <type x>. */
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val = value_from_long
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(builtin_type_long,
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(value_as_long (arg1) - value_as_long (arg2))
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/ TYPE_LENGTH (TYPE_TARGET_TYPE (VALUE_TYPE (arg1))));
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return val;
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}
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else
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{
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error ("\
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First argument of `-' is a pointer and second argument is neither\n\
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an integer nor a pointer of the same type.");
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}
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}
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return value_binop (arg1, arg2, BINOP_SUB);
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}
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/* Return the value of ARRAY[IDX]. */
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value
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value_subscript (array, idx)
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value array, idx;
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{
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if (TYPE_CODE (VALUE_TYPE (array)) == TYPE_CODE_ARRAY
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&& VALUE_LVAL (array) != lval_memory)
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return value_subscripted_rvalue (array, idx);
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else
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return value_ind (value_add (array, idx));
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}
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/* Return the value of EXPR[IDX], expr an aggregate rvalue
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(eg, a vector register). This routine used to promote floats
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to doubles, but no longer does. */
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value
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value_subscripted_rvalue (array, idx)
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value array, idx;
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{
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struct type *elt_type = TYPE_TARGET_TYPE (VALUE_TYPE (array));
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int elt_size = TYPE_LENGTH (elt_type);
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int elt_offs = elt_size * value_as_long (idx);
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value v;
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if (elt_offs >= TYPE_LENGTH (VALUE_TYPE (array)))
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error ("no such vector element");
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v = allocate_value (elt_type);
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bcopy (VALUE_CONTENTS (array) + elt_offs, VALUE_CONTENTS (v), elt_size);
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if (VALUE_LVAL (array) == lval_internalvar)
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VALUE_LVAL (v) = lval_internalvar_component;
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else
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VALUE_LVAL (v) = not_lval;
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VALUE_ADDRESS (v) = VALUE_ADDRESS (array);
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VALUE_OFFSET (v) = VALUE_OFFSET (array) + elt_offs;
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VALUE_BITSIZE (v) = elt_size * 8;
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return v;
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}
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/* Check to see if either argument is a structure. This is called so
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we know whether to go ahead with the normal binop or look for a
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user defined function instead.
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For now, we do not overload the `=' operator. */
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int
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binop_user_defined_p (op, arg1, arg2)
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enum exp_opcode op;
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value arg1, arg2;
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{
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if (op == BINOP_ASSIGN)
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return 0;
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return (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_STRUCT
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|| TYPE_CODE (VALUE_TYPE (arg2)) == TYPE_CODE_STRUCT
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|| (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_REF
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&& TYPE_CODE (TYPE_TARGET_TYPE (VALUE_TYPE (arg1))) == TYPE_CODE_STRUCT)
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|| (TYPE_CODE (VALUE_TYPE (arg2)) == TYPE_CODE_REF
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&& TYPE_CODE (TYPE_TARGET_TYPE (VALUE_TYPE (arg2))) == TYPE_CODE_STRUCT));
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}
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/* Check to see if argument is a structure. This is called so
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we know whether to go ahead with the normal unop or look for a
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user defined function instead.
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For now, we do not overload the `&' operator. */
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int unop_user_defined_p (op, arg1)
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enum exp_opcode op;
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value arg1;
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{
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if (op == UNOP_ADDR)
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return 0;
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return (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_STRUCT
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|| (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_REF
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&& TYPE_CODE (TYPE_TARGET_TYPE (VALUE_TYPE (arg1))) == TYPE_CODE_STRUCT));
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}
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/* We know either arg1 or arg2 is a structure, so try to find the right
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user defined function. Create an argument vector that calls
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arg1.operator @ (arg1,arg2) and return that value (where '@' is any
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binary operator which is legal for GNU C++). */
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value
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value_x_binop (arg1, arg2, op, otherop)
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value arg1, arg2;
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enum exp_opcode op, otherop;
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{
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value * argvec;
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char *ptr;
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char tstr[13];
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int static_memfuncp;
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COERCE_ENUM (arg1);
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COERCE_ENUM (arg2);
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/* now we know that what we have to do is construct our
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arg vector and find the right function to call it with. */
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if (TYPE_CODE (VALUE_TYPE (arg1)) != TYPE_CODE_STRUCT)
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error ("Can't do that binary op on that type"); /* FIXME be explicit */
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argvec = (value *) alloca (sizeof (value) * 4);
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argvec[1] = value_addr (arg1);
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argvec[2] = arg2;
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argvec[3] = 0;
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/* make the right function name up */
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strcpy(tstr, "operator__");
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ptr = tstr+8;
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switch (op)
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{
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case BINOP_ADD: strcpy(ptr,"+"); break;
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case BINOP_SUB: strcpy(ptr,"-"); break;
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case BINOP_MUL: strcpy(ptr,"*"); break;
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case BINOP_DIV: strcpy(ptr,"/"); break;
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case BINOP_REM: strcpy(ptr,"%"); break;
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case BINOP_LSH: strcpy(ptr,"<<"); break;
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case BINOP_RSH: strcpy(ptr,">>"); break;
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case BINOP_LOGAND: strcpy(ptr,"&"); break;
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case BINOP_LOGIOR: strcpy(ptr,"|"); break;
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case BINOP_LOGXOR: strcpy(ptr,"^"); break;
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case BINOP_AND: strcpy(ptr,"&&"); break;
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case BINOP_OR: strcpy(ptr,"||"); break;
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case BINOP_MIN: strcpy(ptr,"<?"); break;
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case BINOP_MAX: strcpy(ptr,">?"); break;
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case BINOP_ASSIGN: strcpy(ptr,"="); break;
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case BINOP_ASSIGN_MODIFY:
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switch (otherop)
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{
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case BINOP_ADD: strcpy(ptr,"+="); break;
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case BINOP_SUB: strcpy(ptr,"-="); break;
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case BINOP_MUL: strcpy(ptr,"*="); break;
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case BINOP_DIV: strcpy(ptr,"/="); break;
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case BINOP_REM: strcpy(ptr,"%="); break;
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case BINOP_LOGAND: strcpy(ptr,"&="); break;
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case BINOP_LOGIOR: strcpy(ptr,"|="); break;
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case BINOP_LOGXOR: strcpy(ptr,"^="); break;
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default:
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error ("Invalid binary operation specified.");
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}
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break;
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case BINOP_SUBSCRIPT: strcpy(ptr,"[]"); break;
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case BINOP_EQUAL: strcpy(ptr,"=="); break;
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case BINOP_NOTEQUAL: strcpy(ptr,"!="); break;
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case BINOP_LESS: strcpy(ptr,"<"); break;
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case BINOP_GTR: strcpy(ptr,">"); break;
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case BINOP_GEQ: strcpy(ptr,">="); break;
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case BINOP_LEQ: strcpy(ptr,"<="); break;
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default:
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error ("Invalid binary operation specified.");
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}
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argvec[0] = value_struct_elt (&arg1, argvec+1, tstr, &static_memfuncp, "structure");
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if (argvec[0])
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{
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if (static_memfuncp)
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{
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argvec[1] = argvec[0];
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argvec++;
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}
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return target_call_function (argvec[0], 2 - static_memfuncp, argvec + 1);
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}
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error ("member function %s not found", tstr);
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#ifdef lint
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return target_call_function (argvec[0], 2 - static_memfuncp, argvec + 1);
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#endif
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}
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/* We know that arg1 is a structure, so try to find a unary user
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defined operator that matches the operator in question.
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Create an argument vector that calls arg1.operator @ (arg1)
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and return that value (where '@' is (almost) any unary operator which
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is legal for GNU C++). */
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value
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value_x_unop (arg1, op)
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value arg1;
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enum exp_opcode op;
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{
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value * argvec;
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char *ptr;
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char tstr[13];
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int static_memfuncp;
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COERCE_ENUM (arg1);
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/* now we know that what we have to do is construct our
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arg vector and find the right function to call it with. */
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if (TYPE_CODE (VALUE_TYPE (arg1)) != TYPE_CODE_STRUCT)
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error ("Can't do that unary op on that type"); /* FIXME be explicit */
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argvec = (value *) alloca (sizeof (value) * 3);
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argvec[1] = value_addr (arg1);
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argvec[2] = 0;
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/* make the right function name up */
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strcpy(tstr,"operator__");
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ptr = tstr+8;
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switch (op)
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{
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case UNOP_PREINCREMENT: strcpy(ptr,"++"); break;
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case UNOP_PREDECREMENT: strcpy(ptr,"++"); break;
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case UNOP_POSTINCREMENT: strcpy(ptr,"++"); break;
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case UNOP_POSTDECREMENT: strcpy(ptr,"++"); break;
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case UNOP_ZEROP: strcpy(ptr,"!"); break;
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case UNOP_LOGNOT: strcpy(ptr,"~"); break;
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case UNOP_NEG: strcpy(ptr,"-"); break;
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default:
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error ("Invalid binary operation specified.");
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}
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argvec[0] = value_struct_elt (&arg1, argvec+1, tstr, &static_memfuncp, "structure");
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if (argvec[0])
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{
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if (static_memfuncp)
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{
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argvec[1] = argvec[0];
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argvec++;
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}
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return target_call_function (argvec[0], 1 - static_memfuncp, argvec + 1);
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}
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error ("member function %s not found", tstr);
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return 0; /* For lint -- never reached */
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}
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/* Perform a binary operation on two integers or two floats.
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Does not support addition and subtraction on pointers;
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use value_add or value_sub if you want to handle those possibilities. */
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value
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value_binop (arg1, arg2, op)
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value arg1, arg2;
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int op;
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{
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register value val;
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COERCE_ENUM (arg1);
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COERCE_ENUM (arg2);
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if ((TYPE_CODE (VALUE_TYPE (arg1)) != TYPE_CODE_FLT
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&&
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TYPE_CODE (VALUE_TYPE (arg1)) != TYPE_CODE_INT)
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(TYPE_CODE (VALUE_TYPE (arg2)) != TYPE_CODE_FLT
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&&
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TYPE_CODE (VALUE_TYPE (arg2)) != TYPE_CODE_INT))
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error ("Argument to arithmetic operation not a number.");
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if (TYPE_CODE (VALUE_TYPE (arg1)) == TYPE_CODE_FLT
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TYPE_CODE (VALUE_TYPE (arg2)) == TYPE_CODE_FLT)
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{
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double v1, v2, v;
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v1 = value_as_double (arg1);
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v2 = value_as_double (arg2);
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switch (op)
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{
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case BINOP_ADD:
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v = v1 + v2;
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break;
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case BINOP_SUB:
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v = v1 - v2;
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break;
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case BINOP_MUL:
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v = v1 * v2;
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break;
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case BINOP_DIV:
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v = v1 / v2;
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break;
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default:
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error ("Integer-only operation on floating point number.");
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}
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val = allocate_value (builtin_type_double);
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SWAP_TARGET_AND_HOST (&v, sizeof (v));
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*(double *) VALUE_CONTENTS_RAW (val) = v;
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}
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else
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/* Integral operations here. */
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{
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/* Should we promote to unsigned longest? */
|
|||
|
if ((TYPE_UNSIGNED (VALUE_TYPE (arg1))
|
|||
|
|| TYPE_UNSIGNED (VALUE_TYPE (arg2)))
|
|||
|
&& (TYPE_LENGTH (VALUE_TYPE (arg1)) >= sizeof (unsigned LONGEST)
|
|||
|
|| TYPE_LENGTH (VALUE_TYPE (arg1)) >= sizeof (unsigned LONGEST)))
|
|||
|
{
|
|||
|
unsigned LONGEST v1, v2, v;
|
|||
|
v1 = (unsigned LONGEST) value_as_long (arg1);
|
|||
|
v2 = (unsigned LONGEST) value_as_long (arg2);
|
|||
|
|
|||
|
switch (op)
|
|||
|
{
|
|||
|
case BINOP_ADD:
|
|||
|
v = v1 + v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_SUB:
|
|||
|
v = v1 - v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_MUL:
|
|||
|
v = v1 * v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_DIV:
|
|||
|
v = v1 / v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_REM:
|
|||
|
v = v1 % v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LSH:
|
|||
|
v = v1 << v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_RSH:
|
|||
|
v = v1 >> v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LOGAND:
|
|||
|
v = v1 & v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LOGIOR:
|
|||
|
v = v1 | v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LOGXOR:
|
|||
|
v = v1 ^ v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_AND:
|
|||
|
v = v1 && v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_OR:
|
|||
|
v = v1 || v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_MIN:
|
|||
|
v = v1 < v2 ? v1 : v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_MAX:
|
|||
|
v = v1 > v2 ? v1 : v2;
|
|||
|
break;
|
|||
|
|
|||
|
default:
|
|||
|
error ("Invalid binary operation on numbers.");
|
|||
|
}
|
|||
|
|
|||
|
val = allocate_value (BUILTIN_TYPE_UNSIGNED_LONGEST);
|
|||
|
SWAP_TARGET_AND_HOST (&v, sizeof (v));
|
|||
|
*(unsigned LONGEST *) VALUE_CONTENTS_RAW (val) = v;
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
LONGEST v1, v2, v;
|
|||
|
v1 = value_as_long (arg1);
|
|||
|
v2 = value_as_long (arg2);
|
|||
|
|
|||
|
switch (op)
|
|||
|
{
|
|||
|
case BINOP_ADD:
|
|||
|
v = v1 + v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_SUB:
|
|||
|
v = v1 - v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_MUL:
|
|||
|
v = v1 * v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_DIV:
|
|||
|
v = v1 / v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_REM:
|
|||
|
v = v1 % v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LSH:
|
|||
|
v = v1 << v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_RSH:
|
|||
|
v = v1 >> v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LOGAND:
|
|||
|
v = v1 & v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LOGIOR:
|
|||
|
v = v1 | v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_LOGXOR:
|
|||
|
v = v1 ^ v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_AND:
|
|||
|
v = v1 && v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_OR:
|
|||
|
v = v1 || v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_MIN:
|
|||
|
v = v1 < v2 ? v1 : v2;
|
|||
|
break;
|
|||
|
|
|||
|
case BINOP_MAX:
|
|||
|
v = v1 > v2 ? v1 : v2;
|
|||
|
break;
|
|||
|
|
|||
|
default:
|
|||
|
error ("Invalid binary operation on numbers.");
|
|||
|
}
|
|||
|
|
|||
|
val = allocate_value (BUILTIN_TYPE_LONGEST);
|
|||
|
SWAP_TARGET_AND_HOST (&v, sizeof (v));
|
|||
|
*(LONGEST *) VALUE_CONTENTS_RAW (val) = v;
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
return val;
|
|||
|
}
|
|||
|
|
|||
|
/* Simulate the C operator ! -- return 1 if ARG1 contains zeros. */
|
|||
|
|
|||
|
int
|
|||
|
value_zerop (arg1)
|
|||
|
value arg1;
|
|||
|
{
|
|||
|
register int len;
|
|||
|
register char *p;
|
|||
|
|
|||
|
COERCE_ARRAY (arg1);
|
|||
|
|
|||
|
len = TYPE_LENGTH (VALUE_TYPE (arg1));
|
|||
|
p = VALUE_CONTENTS (arg1);
|
|||
|
|
|||
|
while (--len >= 0)
|
|||
|
{
|
|||
|
if (*p++)
|
|||
|
break;
|
|||
|
}
|
|||
|
|
|||
|
return len < 0;
|
|||
|
}
|
|||
|
|
|||
|
/* Simulate the C operator == by returning a 1
|
|||
|
iff ARG1 and ARG2 have equal contents. */
|
|||
|
|
|||
|
int
|
|||
|
value_equal (arg1, arg2)
|
|||
|
register value arg1, arg2;
|
|||
|
|
|||
|
{
|
|||
|
register int len;
|
|||
|
register char *p1, *p2;
|
|||
|
enum type_code code1;
|
|||
|
enum type_code code2;
|
|||
|
|
|||
|
COERCE_ARRAY (arg1);
|
|||
|
COERCE_ARRAY (arg2);
|
|||
|
|
|||
|
code1 = TYPE_CODE (VALUE_TYPE (arg1));
|
|||
|
code2 = TYPE_CODE (VALUE_TYPE (arg2));
|
|||
|
|
|||
|
if (code1 == TYPE_CODE_INT && code2 == TYPE_CODE_INT)
|
|||
|
return value_as_long (arg1) == value_as_long (arg2);
|
|||
|
else if ((code1 == TYPE_CODE_FLT || code1 == TYPE_CODE_INT)
|
|||
|
&& (code2 == TYPE_CODE_FLT || code2 == TYPE_CODE_INT))
|
|||
|
return value_as_double (arg1) == value_as_double (arg2);
|
|||
|
else if ((code1 == TYPE_CODE_PTR && code2 == TYPE_CODE_INT)
|
|||
|
|| (code2 == TYPE_CODE_PTR && code1 == TYPE_CODE_INT))
|
|||
|
return (char *) value_as_long (arg1) == (char *) value_as_long (arg2);
|
|||
|
else if (code1 == code2
|
|||
|
&& ((len = TYPE_LENGTH (VALUE_TYPE (arg1)))
|
|||
|
== TYPE_LENGTH (VALUE_TYPE (arg2))))
|
|||
|
{
|
|||
|
p1 = VALUE_CONTENTS (arg1);
|
|||
|
p2 = VALUE_CONTENTS (arg2);
|
|||
|
while (--len >= 0)
|
|||
|
{
|
|||
|
if (*p1++ != *p2++)
|
|||
|
break;
|
|||
|
}
|
|||
|
return len < 0;
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
error ("Invalid type combination in equality test.");
|
|||
|
return 0; /* For lint -- never reached */
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
/* Simulate the C operator < by returning 1
|
|||
|
iff ARG1's contents are less than ARG2's. */
|
|||
|
|
|||
|
int
|
|||
|
value_less (arg1, arg2)
|
|||
|
register value arg1, arg2;
|
|||
|
{
|
|||
|
register enum type_code code1;
|
|||
|
register enum type_code code2;
|
|||
|
|
|||
|
COERCE_ARRAY (arg1);
|
|||
|
COERCE_ARRAY (arg2);
|
|||
|
|
|||
|
code1 = TYPE_CODE (VALUE_TYPE (arg1));
|
|||
|
code2 = TYPE_CODE (VALUE_TYPE (arg2));
|
|||
|
|
|||
|
if (code1 == TYPE_CODE_INT && code2 == TYPE_CODE_INT)
|
|||
|
{
|
|||
|
if (TYPE_UNSIGNED (VALUE_TYPE (arg1))
|
|||
|
|| TYPE_UNSIGNED (VALUE_TYPE (arg2)))
|
|||
|
return (unsigned)value_as_long (arg1) < (unsigned)value_as_long (arg2);
|
|||
|
else
|
|||
|
return value_as_long (arg1) < value_as_long (arg2);
|
|||
|
}
|
|||
|
else if ((code1 == TYPE_CODE_FLT || code1 == TYPE_CODE_INT)
|
|||
|
&& (code2 == TYPE_CODE_FLT || code2 == TYPE_CODE_INT))
|
|||
|
return value_as_double (arg1) < value_as_double (arg2);
|
|||
|
else if ((code1 == TYPE_CODE_PTR || code1 == TYPE_CODE_INT)
|
|||
|
&& (code2 == TYPE_CODE_PTR || code2 == TYPE_CODE_INT))
|
|||
|
{
|
|||
|
/* FIXME, this assumes that host and target char *'s are the same! */
|
|||
|
return (char *) value_as_long (arg1) < (char *) value_as_long (arg2);
|
|||
|
}
|
|||
|
else
|
|||
|
{
|
|||
|
error ("Invalid type combination in ordering comparison.");
|
|||
|
return 0;
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
/* The unary operators - and ~. Both free the argument ARG1. */
|
|||
|
|
|||
|
value
|
|||
|
value_neg (arg1)
|
|||
|
register value arg1;
|
|||
|
{
|
|||
|
register struct type *type;
|
|||
|
|
|||
|
COERCE_ENUM (arg1);
|
|||
|
|
|||
|
type = VALUE_TYPE (arg1);
|
|||
|
|
|||
|
if (TYPE_CODE (type) == TYPE_CODE_FLT)
|
|||
|
return value_from_double (type, - value_as_double (arg1));
|
|||
|
else if (TYPE_CODE (type) == TYPE_CODE_INT)
|
|||
|
return value_from_long (type, - value_as_long (arg1));
|
|||
|
else {
|
|||
|
error ("Argument to negate operation not a number.");
|
|||
|
return 0; /* For lint -- never reached */
|
|||
|
}
|
|||
|
}
|
|||
|
|
|||
|
value
|
|||
|
value_lognot (arg1)
|
|||
|
register value arg1;
|
|||
|
{
|
|||
|
COERCE_ENUM (arg1);
|
|||
|
|
|||
|
if (TYPE_CODE (VALUE_TYPE (arg1)) != TYPE_CODE_INT)
|
|||
|
error ("Argument to complement operation not an integer.");
|
|||
|
|
|||
|
return value_from_long (VALUE_TYPE (arg1), ~ value_as_long (arg1));
|
|||
|
}
|
|||
|
|