libstdc++-v3/testsuite/decimal/operator_neg.cc - gcc - Git at Google

 // Copyright (C) 2009-2023 Free Software Foundation, Inc.
 //
 // This file is part of the GNU ISO C++ Library.  This library is free
 // software; you can redistribute it and/or modify it under the
 // terms of the GNU General Public License as published by the
 // Free Software Foundation; either version 3, or (at your option)
 // any later version.

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

 // You should have received a copy of the GNU General Public License along
 // with this library; see the file COPYING3.  If not see
 // <http://www.gnu.org/licenses/>.

 // { dg-do compile }
 // { dg-require-effective-target dfp }

 // Test that C++ binary operators that are restricted to integer operands
 // do not accept decimal float operands.

 #include <decimal/decimal>

 using namespace std::decimal;

 decimal32 a32, b32, c32;
 decimal64 a64, b64, c64;
 decimal128 a128, b128, c128;

 void
 modulus (void)
 {
   a32 = b32 % c32;	// { dg-error "error" }
   a64 = b64 % c64;	// { dg-error "error" }
   a128 = b128 % c128;	// { dg-error "error" }
   a128 = b32 % c128;	// { dg-error "error" }
   a128 = b64 % c128;	// { dg-error "error" }
   a32 = 100 % c32;	// { dg-error "error" }
   a64 = 10 % c64;	// { dg-error "error" }
   a128 = 1000 % c128;	// { dg-error "error" }
   a32 = b32 % 7;	// { dg-error "error" }
   a64 = b64 % 5;	// { dg-error "error" }
   a128 = b128 % 3;	// { dg-error "error" }
 }

 void
 bitwise_right_shift (void)
 {
   a32 = b32 >> c32;	// { dg-error "error" }
   a64 = b64 >> c64;	// { dg-error "error" }
   a128 = b128 >> c128;	// { dg-error "error" }
   a128 = b32 >> c128;	// { dg-error "error" }
   a128 = b64 >> c128;	// { dg-error "error" }
   a32 = 100 >> c32;	// { dg-error "error" }
   a64 = 10 >> c64;	// { dg-error "error" }
   a128 = 1000 >> c128;	// { dg-error "error" }
   a32 = b32 >> 7;	// { dg-error "error" }
   a64 = b64 >> 5;	// { dg-error "error" }
   a128 = b128 >> 3;	// { dg-error "error" }
 }

 void
 bitwise_left_shift (void)
 {
   a32 = b32 << c32;	// { dg-error "error" }
   a64 = b64 << c64;	// { dg-error "error" }
   a128 = b128 << c128;	// { dg-error "error" }
   a128 = b32 << c128;	// { dg-error "error" }
   a128 = b64 << c128;	// { dg-error "error" }
   a32 = 100 << c32;	// { dg-error "error" }
   a64 = 10 << c64;	// { dg-error "error" }
   a128 = 1000 << c128;	// { dg-error "error" }
   a32 = b32 << 7;	// { dg-error "error" }
   a64 = b64 << 5;	// { dg-error "error" }
   a128 = b128 << 3;	// { dg-error "error" }
 }

 void
 bitwise_exclusive_or (void)
 {
   a32 = b32 ^ c32;	// { dg-error "error" }
   a64 = b64 ^ c64;	// { dg-error "error" }
   a128 = b128 ^ c128;	// { dg-error "error" }
   a128 = b32 ^ c128;	// { dg-error "error" }
   a128 = b64 ^ c128;	// { dg-error "error" }
   a32 = 100 ^ c32;	// { dg-error "error" }
   a64 = 10 ^ c64;	// { dg-error "error" }
   a128 = 1000 ^ c128;	// { dg-error "error" }
   a32 = b32 ^ 7;	// { dg-error "error" }
   a64 = b64 ^ 5;	// { dg-error "error" }
   a128 = b128 ^ 3;	// { dg-error "error" }
 }

 void
 bitwise_inclusive_or (void)
 {
   a32 = b32 | c32;	// { dg-error "error" }
   a64 = b64 | c64;	// { dg-error "error" }
   a128 = b128 | c128;	// { dg-error "error" }
   a128 = b32 | c128;	// { dg-error "error" }
   a128 = b64 | c128;	// { dg-error "error" }
   a32 = 100 | c32;	// { dg-error "error" }
   a64 = 10 | c64;	// { dg-error "error" }
   a128 = 1000 | c128;	// { dg-error "error" }
   a32 = b32 | 7;	// { dg-error "error" }
   a64 = b64 | 5;	// { dg-error "error" }
   a128 = b128 | 3;	// { dg-error "error" }
 }

 void
 logical_and (void)
 {
   a32 = b32 && c32;	// { dg-error "error" }
   a64 = b64 && c64;	// { dg-error "error" }
   a128 = b128 && c128;	// { dg-error "error" }
   a128 = b32 && c128;	// { dg-error "error" }
   a128 = b64 && c128;	// { dg-error "error" }
   a32 = 100 && c32;	// { dg-error "error" }
   a64 = 10 && c64;	// { dg-error "error" }
   a128 = 1000 && c128;	// { dg-error "error" }
   a32 = b32 && 7;	// { dg-error "error" }
   a64 = b64 && 5;	// { dg-error "error" }
   a128 = b128 && 3;	// { dg-error "error" }
 }

 void
 logical_or (void)
 {
   a32 = b32 || c32;	// { dg-error "error" }
   a64 = b64 || c64;	// { dg-error "error" }
   a128 = b128 || c128;	// { dg-error "error" }
   a128 = b32 || c128;	// { dg-error "error" }
   a128 = b64 || c128;	// { dg-error "error" }
   a32 = 100 || c32;	// { dg-error "error" }
   a64 = 10 || c64;	// { dg-error "error" }
   a128 = 1000 || c128;	// { dg-error "error" }
   a32 = b32 || 7;	// { dg-error "error" }
   a64 = b64 || 5;	// { dg-error "error" }
   a128 = b128 || 3;	// { dg-error "error" }
 }

 void
 bitwise_complement (void)
 {
   a32 = ~b32;		// { dg-error "error" }
   a64 = ~b64;		// { dg-error "error" }
   a128 = ~b128;		// { dg-error "error" }
 }

 void
 logical_not (void)
 {
   a32 = !b32;		// { dg-error "error" }
   a64 = !b64;		// { dg-error "error" }
   a128 = !b128;		// { dg-error "error" }
 }
	// Copyright (C) 2009-2023 Free Software Foundation, Inc.
	//
	// This file is part of the GNU ISO C++ Library. This library is free
	// software; you can redistribute it and/or modify it under the
	// terms of the GNU General Public License as published by the
	// Free Software Foundation; either version 3, or (at your option)
	// any later version.

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

	// You should have received a copy of the GNU General Public License along
	// with this library; see the file COPYING3. If not see
	// <http://www.gnu.org/licenses/>.

	// { dg-do compile }
	// { dg-require-effective-target dfp }

	// Test that C++ binary operators that are restricted to integer operands
	// do not accept decimal float operands.

	#include <decimal/decimal>

	using namespace std::decimal;

	decimal32 a32, b32, c32;
	decimal64 a64, b64, c64;
	decimal128 a128, b128, c128;

	void
	modulus (void)
	{
	a32 = b32 % c32; // { dg-error "error" }
	a64 = b64 % c64; // { dg-error "error" }
	a128 = b128 % c128; // { dg-error "error" }
	a128 = b32 % c128; // { dg-error "error" }
	a128 = b64 % c128; // { dg-error "error" }
	a32 = 100 % c32; // { dg-error "error" }
	a64 = 10 % c64; // { dg-error "error" }
	a128 = 1000 % c128; // { dg-error "error" }
	a32 = b32 % 7; // { dg-error "error" }
	a64 = b64 % 5; // { dg-error "error" }
	a128 = b128 % 3; // { dg-error "error" }
	}

	void
	bitwise_right_shift (void)
	{
	a32 = b32 >> c32; // { dg-error "error" }
	a64 = b64 >> c64; // { dg-error "error" }
	a128 = b128 >> c128; // { dg-error "error" }
	a128 = b32 >> c128; // { dg-error "error" }
	a128 = b64 >> c128; // { dg-error "error" }
	a32 = 100 >> c32; // { dg-error "error" }
	a64 = 10 >> c64; // { dg-error "error" }
	a128 = 1000 >> c128; // { dg-error "error" }
	a32 = b32 >> 7; // { dg-error "error" }
	a64 = b64 >> 5; // { dg-error "error" }
	a128 = b128 >> 3; // { dg-error "error" }
	}

	void
	bitwise_left_shift (void)
	{
	a32 = b32 << c32; // { dg-error "error" }
	a64 = b64 << c64; // { dg-error "error" }
	a128 = b128 << c128; // { dg-error "error" }
	a128 = b32 << c128; // { dg-error "error" }
	a128 = b64 << c128; // { dg-error "error" }
	a32 = 100 << c32; // { dg-error "error" }
	a64 = 10 << c64; // { dg-error "error" }
	a128 = 1000 << c128; // { dg-error "error" }
	a32 = b32 << 7; // { dg-error "error" }
	a64 = b64 << 5; // { dg-error "error" }
	a128 = b128 << 3; // { dg-error "error" }
	}

	void
	bitwise_exclusive_or (void)
	{
	a32 = b32 ^ c32; // { dg-error "error" }
	a64 = b64 ^ c64; // { dg-error "error" }
	a128 = b128 ^ c128; // { dg-error "error" }
	a128 = b32 ^ c128; // { dg-error "error" }
	a128 = b64 ^ c128; // { dg-error "error" }
	a32 = 100 ^ c32; // { dg-error "error" }
	a64 = 10 ^ c64; // { dg-error "error" }
	a128 = 1000 ^ c128; // { dg-error "error" }
	a32 = b32 ^ 7; // { dg-error "error" }
	a64 = b64 ^ 5; // { dg-error "error" }
	a128 = b128 ^ 3; // { dg-error "error" }
	}

	void
	bitwise_inclusive_or (void)
	{
	a32 = b32 \| c32; // { dg-error "error" }
	a64 = b64 \| c64; // { dg-error "error" }
	a128 = b128 \| c128; // { dg-error "error" }
	a128 = b32 \| c128; // { dg-error "error" }
	a128 = b64 \| c128; // { dg-error "error" }
	a32 = 100 \| c32; // { dg-error "error" }
	a64 = 10 \| c64; // { dg-error "error" }
	a128 = 1000 \| c128; // { dg-error "error" }
	a32 = b32 \| 7; // { dg-error "error" }
	a64 = b64 \| 5; // { dg-error "error" }
	a128 = b128 \| 3; // { dg-error "error" }
	}

	void
	logical_and (void)
	{
	a32 = b32 && c32; // { dg-error "error" }
	a64 = b64 && c64; // { dg-error "error" }
	a128 = b128 && c128; // { dg-error "error" }
	a128 = b32 && c128; // { dg-error "error" }
	a128 = b64 && c128; // { dg-error "error" }
	a32 = 100 && c32; // { dg-error "error" }
	a64 = 10 && c64; // { dg-error "error" }
	a128 = 1000 && c128; // { dg-error "error" }
	a32 = b32 && 7; // { dg-error "error" }
	a64 = b64 && 5; // { dg-error "error" }
	a128 = b128 && 3; // { dg-error "error" }
	}

	void
	logical_or (void)
	{
	a32 = b32 \|\| c32; // { dg-error "error" }
	a64 = b64 \|\| c64; // { dg-error "error" }
	a128 = b128 \|\| c128; // { dg-error "error" }
	a128 = b32 \|\| c128; // { dg-error "error" }
	a128 = b64 \|\| c128; // { dg-error "error" }
	a32 = 100 \|\| c32; // { dg-error "error" }
	a64 = 10 \|\| c64; // { dg-error "error" }
	a128 = 1000 \|\| c128; // { dg-error "error" }
	a32 = b32 \|\| 7; // { dg-error "error" }
	a64 = b64 \|\| 5; // { dg-error "error" }
	a128 = b128 \|\| 3; // { dg-error "error" }
	}

	void
	bitwise_complement (void)
	{
	a32 = ~b32; // { dg-error "error" }
	a64 = ~b64; // { dg-error "error" }
	a128 = ~b128; // { dg-error "error" }
	}

	void
	logical_not (void)
	{
	a32 = !b32; // { dg-error "error" }
	a64 = !b64; // { dg-error "error" }
	a128 = !b128; // { dg-error "error" }
	}