valgrind/none/tests/s390x/mul.h - nest-cam/4320010/valgrind - Git at Google

 #include <stdio.h>

 #define MUL_REG_MEM(insn, m1, m2)			\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			#insn " 2, %2\n"		\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			: "Q" (m2)			\
 			: "2","3");			\
 	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
 })

 #define MUL_REG_REG(insn, m1, m2)			\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			#insn " 2, %2\n"		\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			: "d" (m2)			\
 			: "2","3");			\
 	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
 })

 #define MUL_REG_IMM(insn, m1, m2)			\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			#insn " 2, " #m2 "\n"		\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			:: "2","3");			\
 	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, (unsigned long) m2, tmp1, tmp2); \
 })

 #define MUL_REG_XIMM(insn, m1, um2, m2)			\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			insn(2,m2)			\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			:: "2","3");			\
 	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, (unsigned long) 0x##um2##m2, tmp1, tmp2); \
 })


 #define memsweep(i, m2)					\
 ({							\
 	MUL_REG_MEM(i, 0ul, m2);			\
 	MUL_REG_MEM(i, 1ul, m2);			\
 	MUL_REG_MEM(i, 0xfffful, m2);			\
 	MUL_REG_MEM(i, 0x7ffful, m2);			\
 	MUL_REG_MEM(i, 0x8000ul, m2);			\
 	MUL_REG_MEM(i, 0xfffffffful, m2);		\
 	MUL_REG_MEM(i, 0x80000000ul, m2);		\
 	MUL_REG_MEM(i, 0x7ffffffful, m2);		\
 	MUL_REG_MEM(i, 0xfffffffffffffffful, m2);	\
 	MUL_REG_MEM(i, 0x8000000000000000ul, m2);	\
 	MUL_REG_MEM(i, 0x7ffffffffffffffful, m2);	\
 })

 #define regsweep(i, m2)					\
 ({							\
 	MUL_REG_REG(i, 0ul, m2);			\
 	MUL_REG_REG(i, 1ul, m2);			\
 	MUL_REG_REG(i, 0xfffful, m2);			\
 	MUL_REG_REG(i, 0x7ffful, m2);			\
 	MUL_REG_REG(i, 0x8000ul, m2);			\
 	MUL_REG_REG(i, 0xfffffffful, m2);		\
 	MUL_REG_REG(i, 0x80000000ul, m2);		\
 	MUL_REG_REG(i, 0x7ffffffful, m2);		\
 	MUL_REG_REG(i, 0xfffffffffffffffful, m2);	\
 	MUL_REG_REG(i, 0x8000000000000000ul, m2);	\
 	MUL_REG_REG(i, 0x7ffffffffffffffful, m2);	\
 })

 #define immsweep(i, m2)					\
 ({							\
 	MUL_REG_IMM(i, 0ul, m2);			\
 	MUL_REG_IMM(i, 1ul, m2);			\
 	MUL_REG_IMM(i, 0xfffful, m2);			\
 	MUL_REG_IMM(i, 0x7ffful, m2);			\
 	MUL_REG_IMM(i, 0x8000ul, m2);			\
 	MUL_REG_IMM(i, 0xfffffffful, m2);		\
 	MUL_REG_IMM(i, 0x80000000ul, m2);		\
 	MUL_REG_IMM(i, 0x7ffffffful, m2);		\
 	MUL_REG_IMM(i, 0xfffffffffffffffful, m2);	\
 	MUL_REG_IMM(i, 0x8000000000000000ul, m2);	\
 	MUL_REG_IMM(i, 0x7ffffffffffffffful, m2);	\
 })

 #define ximmsweep(i, um2, m2)				\
 ({							\
 	MUL_REG_XIMM(i, 0ul, um2, m2);			\
 	MUL_REG_XIMM(i, 1ul, um2, m2);			\
 	MUL_REG_XIMM(i, 0xfffful, um2, m2);		\
 	MUL_REG_XIMM(i, 0x7ffful, um2, m2);		\
 	MUL_REG_XIMM(i, 0x8000ul, um2, m2);		\
 	MUL_REG_XIMM(i, 0xfffffffful, um2, m2);		\
 	MUL_REG_XIMM(i, 0x80000000ul, um2, m2);		\
 	MUL_REG_XIMM(i, 0x7ffffffful, um2, m2);		\
 	MUL_REG_XIMM(i, 0xfffffffffffffffful, um2, m2);	\
 	MUL_REG_XIMM(i, 0x8000000000000000ul, um2, m2);	\
 	MUL_REG_XIMM(i, 0x7ffffffffffffffful, um2, m2);	\
 })

 #define MUL_MSY(m1, m2)					\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	register unsigned long *addr asm("5") = &m2;	\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			MSY(2,0,5,000,00)		\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			: "Q" (m2), "d" (addr)		\
 			: "2","3");			\
 	printf("msy %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
 })

 #define msysweep(s2)				\
 ({						\
 	MUL_MSY(0ul, s2);			\
 	MUL_MSY(1ul, s2);			\
 	MUL_MSY(0xfffful, s2);			\
 	MUL_MSY(0x7ffful, s2);			\
 	MUL_MSY(0x8000ul, s2);			\
 	MUL_MSY(0xfffffffful, s2);		\
 	MUL_MSY(0x80000000ul, s2);		\
 	MUL_MSY(0x7ffffffful, s2);		\
 	MUL_MSY(0xfffffffffffffffful, s2);	\
 	MUL_MSY(0x8000000000000000ul, s2);	\
 	MUL_MSY(0x7ffffffffffffffful, s2);	\
 })

 #define MUL_MHY(m1, m2)					\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	register unsigned long *addr asm("5") = &m2;	\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			MHY(2,0,5,000,00)		\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			: "Q" (m2), "d" (addr)		\
 			: "2","3");			\
 	printf("mhy %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
 })

 #define mhysweep(s2)				\
 ({						\
 	MUL_MHY(0ul, s2);			\
 	MUL_MHY(1ul, s2);			\
 	MUL_MHY(0xfffful, s2);			\
 	MUL_MHY(0x7ffful, s2);			\
 	MUL_MHY(0x8000ul, s2);			\
 	MUL_MHY(0xfffffffful, s2);		\
 	MUL_MHY(0x80000000ul, s2);		\
 	MUL_MHY(0x7ffffffful, s2);		\
 	MUL_MHY(0xfffffffffffffffful, s2);	\
 	MUL_MHY(0x8000000000000000ul, s2);	\
 	MUL_MHY(0x7ffffffffffffffful, s2);	\
 })

 #define MUL_MFY(m1, m2)					\
 ({							\
 	unsigned long tmp1 = m1;			\
 	unsigned long tmp2 = m1;			\
 	register unsigned long *addr asm("5") = &m2;	\
 	asm volatile(	"lgr 2, %0\n"			\
 			"lgr 3, %1\n"			\
 			MFY(2,0,5,000,00)		\
 			"lgr %0,2\n"			\
 			"lgr %1,3\n"			\
 			: "+d" (tmp1), "+d" (tmp2)	\
 			: "Q" (m2), "d" (addr)		\
 			: "2","3");			\
 	printf("mfy %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
 })

 #define mfysweep(s2)				\
 ({						\
 	MUL_MFY(0ul, s2);			\
 	MUL_MFY(1ul, s2);			\
 	MUL_MFY(0xfffful, s2);			\
 	MUL_MFY(0x7ffful, s2);			\
 	MUL_MFY(0x8000ul, s2);			\
 	MUL_MFY(0xfffffffful, s2);		\
 	MUL_MFY(0x80000000ul, s2);		\
 	MUL_MFY(0x7ffffffful, s2);		\
 	MUL_MFY(0xfffffffffffffffful, s2);	\
 	MUL_MFY(0x8000000000000000ul, s2);	\
 	MUL_MFY(0x7ffffffffffffffful, s2);	\
 })
	#include <stdio.h>

	#define MUL_REG_MEM(insn, m1, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	#insn " 2, %2\n" \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	: "Q" (m2) \
	: "2","3"); \
	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
	})

	#define MUL_REG_REG(insn, m1, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	#insn " 2, %2\n" \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	: "d" (m2) \
	: "2","3"); \
	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
	})

	#define MUL_REG_IMM(insn, m1, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	#insn " 2, " #m2 "\n" \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	:: "2","3"); \
	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, (unsigned long) m2, tmp1, tmp2); \
	})

	#define MUL_REG_XIMM(insn, m1, um2, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	insn(2,m2) \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	:: "2","3"); \
	printf(#insn " %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, (unsigned long) 0x##um2##m2, tmp1, tmp2); \
	})


	#define memsweep(i, m2) \
	({ \
	MUL_REG_MEM(i, 0ul, m2); \
	MUL_REG_MEM(i, 1ul, m2); \
	MUL_REG_MEM(i, 0xfffful, m2); \
	MUL_REG_MEM(i, 0x7ffful, m2); \
	MUL_REG_MEM(i, 0x8000ul, m2); \
	MUL_REG_MEM(i, 0xfffffffful, m2); \
	MUL_REG_MEM(i, 0x80000000ul, m2); \
	MUL_REG_MEM(i, 0x7ffffffful, m2); \
	MUL_REG_MEM(i, 0xfffffffffffffffful, m2); \
	MUL_REG_MEM(i, 0x8000000000000000ul, m2); \
	MUL_REG_MEM(i, 0x7ffffffffffffffful, m2); \
	})

	#define regsweep(i, m2) \
	({ \
	MUL_REG_REG(i, 0ul, m2); \
	MUL_REG_REG(i, 1ul, m2); \
	MUL_REG_REG(i, 0xfffful, m2); \
	MUL_REG_REG(i, 0x7ffful, m2); \
	MUL_REG_REG(i, 0x8000ul, m2); \
	MUL_REG_REG(i, 0xfffffffful, m2); \
	MUL_REG_REG(i, 0x80000000ul, m2); \
	MUL_REG_REG(i, 0x7ffffffful, m2); \
	MUL_REG_REG(i, 0xfffffffffffffffful, m2); \
	MUL_REG_REG(i, 0x8000000000000000ul, m2); \
	MUL_REG_REG(i, 0x7ffffffffffffffful, m2); \
	})

	#define immsweep(i, m2) \
	({ \
	MUL_REG_IMM(i, 0ul, m2); \
	MUL_REG_IMM(i, 1ul, m2); \
	MUL_REG_IMM(i, 0xfffful, m2); \
	MUL_REG_IMM(i, 0x7ffful, m2); \
	MUL_REG_IMM(i, 0x8000ul, m2); \
	MUL_REG_IMM(i, 0xfffffffful, m2); \
	MUL_REG_IMM(i, 0x80000000ul, m2); \
	MUL_REG_IMM(i, 0x7ffffffful, m2); \
	MUL_REG_IMM(i, 0xfffffffffffffffful, m2); \
	MUL_REG_IMM(i, 0x8000000000000000ul, m2); \
	MUL_REG_IMM(i, 0x7ffffffffffffffful, m2); \
	})

	#define ximmsweep(i, um2, m2) \
	({ \
	MUL_REG_XIMM(i, 0ul, um2, m2); \
	MUL_REG_XIMM(i, 1ul, um2, m2); \
	MUL_REG_XIMM(i, 0xfffful, um2, m2); \
	MUL_REG_XIMM(i, 0x7ffful, um2, m2); \
	MUL_REG_XIMM(i, 0x8000ul, um2, m2); \
	MUL_REG_XIMM(i, 0xfffffffful, um2, m2); \
	MUL_REG_XIMM(i, 0x80000000ul, um2, m2); \
	MUL_REG_XIMM(i, 0x7ffffffful, um2, m2); \
	MUL_REG_XIMM(i, 0xfffffffffffffffful, um2, m2); \
	MUL_REG_XIMM(i, 0x8000000000000000ul, um2, m2); \
	MUL_REG_XIMM(i, 0x7ffffffffffffffful, um2, m2); \
	})

	#define MUL_MSY(m1, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	register unsigned long *addr asm("5") = &m2; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	MSY(2,0,5,000,00) \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	: "Q" (m2), "d" (addr) \
	: "2","3"); \
	printf("msy %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
	})

	#define msysweep(s2) \
	({ \
	MUL_MSY(0ul, s2); \
	MUL_MSY(1ul, s2); \
	MUL_MSY(0xfffful, s2); \
	MUL_MSY(0x7ffful, s2); \
	MUL_MSY(0x8000ul, s2); \
	MUL_MSY(0xfffffffful, s2); \
	MUL_MSY(0x80000000ul, s2); \
	MUL_MSY(0x7ffffffful, s2); \
	MUL_MSY(0xfffffffffffffffful, s2); \
	MUL_MSY(0x8000000000000000ul, s2); \
	MUL_MSY(0x7ffffffffffffffful, s2); \
	})

	#define MUL_MHY(m1, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	register unsigned long *addr asm("5") = &m2; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	MHY(2,0,5,000,00) \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	: "Q" (m2), "d" (addr) \
	: "2","3"); \
	printf("mhy %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
	})

	#define mhysweep(s2) \
	({ \
	MUL_MHY(0ul, s2); \
	MUL_MHY(1ul, s2); \
	MUL_MHY(0xfffful, s2); \
	MUL_MHY(0x7ffful, s2); \
	MUL_MHY(0x8000ul, s2); \
	MUL_MHY(0xfffffffful, s2); \
	MUL_MHY(0x80000000ul, s2); \
	MUL_MHY(0x7ffffffful, s2); \
	MUL_MHY(0xfffffffffffffffful, s2); \
	MUL_MHY(0x8000000000000000ul, s2); \
	MUL_MHY(0x7ffffffffffffffful, s2); \
	})

	#define MUL_MFY(m1, m2) \
	({ \
	unsigned long tmp1 = m1; \
	unsigned long tmp2 = m1; \
	register unsigned long *addr asm("5") = &m2; \
	asm volatile( "lgr 2, %0\n" \
	"lgr 3, %1\n" \
	MFY(2,0,5,000,00) \
	"lgr %0,2\n" \
	"lgr %1,3\n" \
	: "+d" (tmp1), "+d" (tmp2) \
	: "Q" (m2), "d" (addr) \
	: "2","3"); \
	printf("mfy %16.16lX * %16.16lX = %16.16lX%16.16lX\n", m1, m2, tmp1, tmp2); \
	})

	#define mfysweep(s2) \
	({ \
	MUL_MFY(0ul, s2); \
	MUL_MFY(1ul, s2); \
	MUL_MFY(0xfffful, s2); \
	MUL_MFY(0x7ffful, s2); \
	MUL_MFY(0x8000ul, s2); \
	MUL_MFY(0xfffffffful, s2); \
	MUL_MFY(0x80000000ul, s2); \
	MUL_MFY(0x7ffffffful, s2); \
	MUL_MFY(0xfffffffffffffffful, s2); \
	MUL_MFY(0x8000000000000000ul, s2); \
	MUL_MFY(0x7ffffffffffffffful, s2); \
	})