158 lines
4.8 KiB
C
158 lines
4.8 KiB
C
/* This testcase is part of GDB, the GNU debugger.
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Copyright 2018 Free Software Foundation, Inc.
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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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/* This file is used for testing GDBs ability to pass structures to, and
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return structures from, functions. All of the structures in this test
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are special in that they are small structures containing only 1 or 2
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scalar fields, the fields can be inside nested structures, and there can
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be empty structures around too.
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This test was originally written for RiscV which has some special ABI
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rules for structures like these, however, there should be no harm in
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running these tests on other targets, though in many cases the
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structures will treated no differently to the structures already covered
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in the structs.exp test script. */
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#include <string.h>
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/* Useful abreviations. */
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typedef char tc;
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typedef short ts;
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typedef int ti;
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typedef long tl;
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typedef long long tll;
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typedef float tf;
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typedef double td;
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typedef long double tld;
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#ifdef TEST_COMPLEX
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typedef float _Complex tfc;
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typedef double _Complex tdc;
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typedef long double _Complex tldc;
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#endif /* TEST_COMPLEX */
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#define MAKE_CHECK_FUNCS(TYPE) \
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int \
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check_arg_ ## TYPE (struct TYPE arg) \
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{ \
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return cmp_ ## TYPE (arg, ref_val_ ## TYPE); \
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} \
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\
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struct TYPE \
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rtn_str_ ## TYPE (void) \
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{ \
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return (ref_val_ ## TYPE); \
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}
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#define REF_VAL(NAME) struct NAME ref_val_ ## NAME
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#define ES(NAME) struct { } NAME
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#if defined tA && ! defined tB
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/* Structures with a single field nested to various depths, along with
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some empty structures. */
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struct struct01 { ES(es1); struct { struct { tA a; } s1; } s2; };
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struct struct02 { tA a; struct { struct { ES(es1); } s1; } s2; };
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struct struct03 { struct { struct { ES(es1); } s1; } s2; ES(es1); struct { struct { tA a; } s3; } s4;};
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struct struct04 { ES(es1); ES(es2); tA a; ES(es3); };
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int cmp_struct01 (struct struct01 a, struct struct01 b)
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{ return a.s2.s1.a == b.s2.s1.a; }
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int cmp_struct02 (struct struct02 a, struct struct02 b)
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{ return a.a == b.a; }
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int cmp_struct03 (struct struct03 a, struct struct03 b)
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{ return a.s4.s3.a == b.s4.s3.a; }
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int cmp_struct04 (struct struct04 a, struct struct04 b)
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{ return a.a == b.a; }
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REF_VAL(struct01) = { {}, { { 'a' } } };
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REF_VAL(struct02) = { 'a', { { {} } } };
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REF_VAL(struct03) = { { { {} } }, {}, { { 'a' } } };
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REF_VAL(struct04) = { {}, {}, 'a', {} };
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#elif defined tA && defined tB
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/* These structures all have 2 fields, nested to various depths, along
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with some empty structures. */
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struct struct01 { struct { tA a; } s1; ES (e1); struct { struct { tB b; } s2;} s3;};
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struct struct02 { struct { struct { tA a; } s1; ES(e1); } s2; struct { struct { tB b; } s3;} s4; ES(e2);};
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struct struct03 { ES(e1); tA a; ES (e2); struct { struct { tB b; } s2;} s3;};
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struct struct04 { ES(e1); ES (e2); struct { struct { struct { tA a; struct { ES(e3); } s1; tB b; } s2; } s3;} s4;};
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int cmp_struct01 (struct struct01 a, struct struct01 b)
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{ return a.s1.a == b.s1.a && a.s3.s2.b == b.s3.s2.b; }
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int cmp_struct02 (struct struct02 a, struct struct02 b)
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{ return a.s2.s1.a == b.s2.s1.a && a.s4.s3.b == b.s4.s3.b; }
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int cmp_struct03 (struct struct03 a, struct struct03 b)
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{ return a.a == b.a && a.s3.s2.b == b.s3.s2.b; }
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int cmp_struct04 (struct struct04 a, struct struct04 b)
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{ return a.s4.s3.s2.a == b.s4.s3.s2.a && a.s4.s3.s2.b == b.s4.s3.s2.b; }
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REF_VAL(struct01) = { { 'a' }, {}, { { '1' } } };
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REF_VAL(struct02) = { { { 'a' }, {} }, { { '1' } }, {} };
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REF_VAL(struct03) = { {}, 'a', {}, { { '1' } } };
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REF_VAL(struct04) = { {}, {}, { { { 'a', {}, '1'} } } } ;
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#else
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#error "Incorrect configuration of tA and tB defines"
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#endif
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/* Create all of the functions GDB will call to check functionality. */
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MAKE_CHECK_FUNCS(struct01)
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MAKE_CHECK_FUNCS(struct02)
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MAKE_CHECK_FUNCS(struct03)
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MAKE_CHECK_FUNCS(struct04)
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#define CALL_LINE(NAME) val += check_arg_ ## NAME (rtn_str_ ## NAME ())
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int
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call_all ()
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{
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int val;
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CALL_LINE(struct01);
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CALL_LINE(struct02);
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CALL_LINE(struct03);
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CALL_LINE(struct04);
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return (val != 4);
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}
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void
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breakpt (void)
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{
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/* Nothing. */
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}
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int
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main ()
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{
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int res;
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res = call_all ();
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breakpt (); /* Break Here. */
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return res;
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}
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