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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [g++.dg/] [cpp0x/] [rv2p.C] - Rev 701
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// I, Howard Hinnant, hereby place this code in the public domain.
// Test overload resolution among reference types
// { dg-do compile }
// { dg-options "-std=c++0x" }
template <bool> struct sa;
template <> struct sa<true> {};
struct one {long x[1];};
struct two {long x[2];};
struct three {long x[3];};
struct four {long x[4];};
struct five {long x[5];};
struct six {long x[6];};
struct seven {long x[7];};
struct eight {long x[8];};
struct A
{
A();
A(const volatile A&&);
};
A source();
const A c_source();
volatile A v_source();
const volatile A cv_source();
// 2 at a time
one sink_2_12( A&);
two sink_2_12(const A&);
int test2_12()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_12(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_12(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_12(source())) == 2 * sizeof(long)> t5;
sa<sizeof(sink_2_12(c_source())) == 2 * sizeof(long)> t6;
return 0;
}
one sink_2_13( A&);
three sink_2_13(volatile A&);
int test2_13()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_13(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_13(va)) == 3 * sizeof(long)> t3;
return 0;
}
one sink_2_14( A&);
four sink_2_14(const volatile A&);
int test2_14()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_14(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_14(ca)) == 4 * sizeof(long)> t2;
sa<sizeof(sink_2_14(va)) == 4 * sizeof(long)> t3;
sa<sizeof(sink_2_14(cva)) == 4 * sizeof(long)> t4;
return 0;
}
one sink_2_15( A&);
five sink_2_15( A&&);
int test2_15()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_15(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_15(source())) == 5 * sizeof(long)> t5;
return 0;
}
one sink_2_16( A&);
six sink_2_16(const A&&);
int test2_16()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_16(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_16(source())) == 6 * sizeof(long)> t5;
sa<sizeof(sink_2_16(c_source())) == 6 * sizeof(long)> t6;
return 0;
}
one sink_2_17( A&);
seven sink_2_17(volatile A&&);
int test2_17()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_17(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_17(source())) == 7 * sizeof(long)> t5;
sa<sizeof(sink_2_17(v_source())) == 7 * sizeof(long)> t7;
return 0;
}
one sink_2_18( A&);
eight sink_2_18(const volatile A&&);
int test2_18()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_18(a)) == 1 * sizeof(long)> t1;
sa<sizeof(sink_2_18(source())) == 8 * sizeof(long)> t5;
sa<sizeof(sink_2_18(c_source())) == 8 * sizeof(long)> t6;
sa<sizeof(sink_2_18(v_source())) == 8 * sizeof(long)> t7;
sa<sizeof(sink_2_18(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
two sink_2_23(const A&);
three sink_2_23(volatile A&);
int test2_23()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_23(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_23(va)) == 3 * sizeof(long)> t3;
sa<sizeof(sink_2_23(source())) == 2 * sizeof(long)> t5;
sa<sizeof(sink_2_23(c_source())) == 2 * sizeof(long)> t6;
return 0;
}
two sink_2_24(const A&);
four sink_2_24(const volatile A&);
int test2_24()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_24(a)) == 2 * sizeof(long)> t1;
sa<sizeof(sink_2_24(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_24(va)) == 4 * sizeof(long)> t3;
sa<sizeof(sink_2_24(cva)) == 4 * sizeof(long)> t4;
sa<sizeof(sink_2_24(source())) == 2 * sizeof(long)> t5;
sa<sizeof(sink_2_24(c_source())) == 2 * sizeof(long)> t6;
// sa<sizeof(sink_2_24(v_source())) == 4 * sizeof(long)> t7;
// sa<sizeof(sink_2_24(cv_source())) == 4 * sizeof(long)> t8;
return 0;
}
two sink_2_25(const A&);
five sink_2_25( A&&);
int test2_25()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_25(a)) == 2 * sizeof(long)> t1;
sa<sizeof(sink_2_25(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_25(source())) == 5 * sizeof(long)> t5;
sa<sizeof(sink_2_25(c_source())) == 2 * sizeof(long)> t6;
return 0;
}
two sink_2_26(const A&);
six sink_2_26(const A&&);
int test2_26()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_26(a)) == 2 * sizeof(long)> t1;
sa<sizeof(sink_2_26(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_26(source())) == 6 * sizeof(long)> t5;
sa<sizeof(sink_2_26(c_source())) == 6 * sizeof(long)> t6;
return 0;
}
two sink_2_27(const A&);
seven sink_2_27(volatile A&&);
int test2_27()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_27(a)) == 2 * sizeof(long)> t1;
sa<sizeof(sink_2_27(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_27(source())) == 7 * sizeof(long)> t5;
sa<sizeof(sink_2_27(c_source())) == 2 * sizeof(long)> t6;
sa<sizeof(sink_2_27(v_source())) == 7 * sizeof(long)> t7;
return 0;
}
two sink_2_28(const A&);
eight sink_2_28(const volatile A&&);
int test2_28()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_28(a)) == 2 * sizeof(long)> t1;
sa<sizeof(sink_2_28(ca)) == 2 * sizeof(long)> t2;
sa<sizeof(sink_2_28(source())) == 8 * sizeof(long)> t5;
sa<sizeof(sink_2_28(c_source())) == 8 * sizeof(long)> t6;
sa<sizeof(sink_2_28(v_source())) == 8 * sizeof(long)> t7;
sa<sizeof(sink_2_28(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
three sink_2_34(volatile A&);
four sink_2_34(const volatile A&);
int test2_34()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_34(a)) == 3 * sizeof(long)> t1;
sa<sizeof(sink_2_34(ca)) == 4 * sizeof(long)> t2;
sa<sizeof(sink_2_34(va)) == 3 * sizeof(long)> t3;
sa<sizeof(sink_2_34(cva)) == 4 * sizeof(long)> t4;
// sa<sizeof(sink_2_34(source())) == 4 * sizeof(long)> t5;
// sa<sizeof(sink_2_34(c_source())) == 4 * sizeof(long)> t6;
// sa<sizeof(sink_2_34(v_source())) == 4 * sizeof(long)> t7;
// sa<sizeof(sink_2_34(cv_source())) == 4 * sizeof(long)> t8;
return 0;
}
three sink_2_35(volatile A&);
five sink_2_35( A&&);
int test2_35()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_35(a)) == 3 * sizeof(long)> t1;
sa<sizeof(sink_2_35(va)) == 3 * sizeof(long)> t3;
sa<sizeof(sink_2_35(source())) == 5 * sizeof(long)> t5;
return 0;
}
three sink_2_36(volatile A&);
six sink_2_36(const A&&);
int test2_36()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_36(a)) == 3 * sizeof(long)> t1;
sa<sizeof(sink_2_36(va)) == 3 * sizeof(long)> t3;
sa<sizeof(sink_2_36(source())) == 6 * sizeof(long)> t5;
sa<sizeof(sink_2_36(c_source())) == 6 * sizeof(long)> t6;
return 0;
}
three sink_2_37(volatile A&);
seven sink_2_37(volatile A&&);
int test2_37()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_37(a)) == 3 * sizeof(long)> t1;
sa<sizeof(sink_2_37(va)) == 3 * sizeof(long)> t3;
sa<sizeof(sink_2_37(source())) == 7 * sizeof(long)> t5;
sa<sizeof(sink_2_37(v_source())) == 7 * sizeof(long)> t7;
return 0;
}
three sink_2_38(volatile A&);
eight sink_2_38(const volatile A&&);
int test2_38()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_38(a)) == 3 * sizeof(long)> t1;
sa<sizeof(sink_2_38(va)) == 3 * sizeof(long)> t3;
sa<sizeof(sink_2_38(source())) == 8 * sizeof(long)> t5;
sa<sizeof(sink_2_38(c_source())) == 8 * sizeof(long)> t6;
sa<sizeof(sink_2_38(v_source())) == 8 * sizeof(long)> t7;
sa<sizeof(sink_2_38(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
four sink_2_45(const volatile A&);
five sink_2_45( A&&);
int test2_45()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_45(a)) == 4 * sizeof(long)> t1;
sa<sizeof(sink_2_45(ca)) == 4 * sizeof(long)> t2;
sa<sizeof(sink_2_45(va)) == 4 * sizeof(long)> t3;
sa<sizeof(sink_2_45(cva)) == 4 * sizeof(long)> t4;
sa<sizeof(sink_2_45(source())) == 5 * sizeof(long)> t5;
// sa<sizeof(sink_2_45(c_source())) == 4 * sizeof(long)> t6;
// sa<sizeof(sink_2_45(v_source())) == 4 * sizeof(long)> t7;
// sa<sizeof(sink_2_45(cv_source())) == 4 * sizeof(long)> t8;
return 0;
}
four sink_2_46(const volatile A&);
six sink_2_46(const A&&);
int test2_46()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_46(a)) == 4 * sizeof(long)> t1;
sa<sizeof(sink_2_46(ca)) == 4 * sizeof(long)> t2;
sa<sizeof(sink_2_46(va)) == 4 * sizeof(long)> t3;
sa<sizeof(sink_2_46(cva)) == 4 * sizeof(long)> t4;
sa<sizeof(sink_2_46(source())) == 6 * sizeof(long)> t5;
sa<sizeof(sink_2_46(c_source())) == 6 * sizeof(long)> t6;
// sa<sizeof(sink_2_46(v_source())) == 4 * sizeof(long)> t7;
// sa<sizeof(sink_2_46(cv_source())) == 4 * sizeof(long)> t8;
return 0;
}
four sink_2_47(const volatile A&);
seven sink_2_47(volatile A&&);
int test2_47()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_47(a)) == 4 * sizeof(long)> t1;
sa<sizeof(sink_2_47(ca)) == 4 * sizeof(long)> t2;
sa<sizeof(sink_2_47(va)) == 4 * sizeof(long)> t3;
sa<sizeof(sink_2_47(cva)) == 4 * sizeof(long)> t4;
sa<sizeof(sink_2_47(source())) == 7 * sizeof(long)> t5;
// sa<sizeof(sink_2_47(c_source())) == 4 * sizeof(long)> t6;
sa<sizeof(sink_2_47(v_source())) == 7 * sizeof(long)> t7;
// sa<sizeof(sink_2_47(cv_source())) == 4 * sizeof(long)> t8;
return 0;
}
four sink_2_48(const volatile A&);
eight sink_2_48(const volatile A&&);
int test2_48()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_48(a)) == 4 * sizeof(long)> t1;
sa<sizeof(sink_2_48(ca)) == 4 * sizeof(long)> t2;
sa<sizeof(sink_2_48(va)) == 4 * sizeof(long)> t3;
sa<sizeof(sink_2_48(cva)) == 4 * sizeof(long)> t4;
sa<sizeof(sink_2_48(source())) == 8 * sizeof(long)> t5;
sa<sizeof(sink_2_48(c_source())) == 8 * sizeof(long)> t6;
sa<sizeof(sink_2_48(v_source())) == 8 * sizeof(long)> t7;
sa<sizeof(sink_2_48(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
five sink_2_56( A&&);
six sink_2_56(const A&&);
int test2_56()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_56(source())) == 5 * sizeof(long)> t5;
sa<sizeof(sink_2_56(c_source())) == 6 * sizeof(long)> t6;
return 0;
}
five sink_2_57( A&&);
seven sink_2_57(volatile A&&);
int test2_57()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_57(source())) == 5 * sizeof(long)> t5;
sa<sizeof(sink_2_57(v_source())) == 7 * sizeof(long)> t7;
return 0;
}
five sink_2_58( A&&);
eight sink_2_58(const volatile A&&);
int test2_58()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_58(source())) == 5 * sizeof(long)> t5;
sa<sizeof(sink_2_58(c_source())) == 8 * sizeof(long)> t6;
sa<sizeof(sink_2_58(v_source())) == 8 * sizeof(long)> t7;
sa<sizeof(sink_2_58(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
six sink_2_67(const A&&);
seven sink_2_67(volatile A&&);
int test2_67()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_67(c_source())) == 6 * sizeof(long)> t6;
sa<sizeof(sink_2_67(v_source())) == 7 * sizeof(long)> t7;
return 0;
}
six sink_2_68(const A&&);
eight sink_2_68(const volatile A&&);
int test2_68()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_68(source())) == 6 * sizeof(long)> t5;
sa<sizeof(sink_2_68(c_source())) == 6 * sizeof(long)> t6;
sa<sizeof(sink_2_68(v_source())) == 8 * sizeof(long)> t7;
sa<sizeof(sink_2_68(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
seven sink_2_78(volatile A&&);
eight sink_2_78(const volatile A&&);
int test2_78()
{
A a;
const A ca;
volatile A va;
const volatile A cva;
sa<sizeof(sink_2_78(source())) == 7 * sizeof(long)> t5;
sa<sizeof(sink_2_78(c_source())) == 8 * sizeof(long)> t6;
sa<sizeof(sink_2_78(v_source())) == 7 * sizeof(long)> t7;
sa<sizeof(sink_2_78(cv_source())) == 8 * sizeof(long)> t8;
return 0;
}
int main()
{
return test2_12() + test2_13() + test2_14() + test2_15() +
test2_16() + test2_17() + test2_18() + test2_23() +
test2_24() + test2_25() + test2_26() + test2_27() +
test2_28() + test2_34() + test2_35() + test2_36() +
test2_37() + test2_38() + test2_45() + test2_46() +
test2_47() + test2_48() + test2_56() + test2_57() +
test2_58() + test2_67() + test2_68() + test2_78();
}
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