MultiSource/Benchmarks/nbench/emfloat.h - llvm-test-suite - Git at Google


 /*
 ** emfloat.h
 ** Header for emfloat.c
 **
 ** BYTEmark (tm)
 ** BYTE Magazine's Native Mode benchmarks
 ** Rick Grehan, BYTE Magazine
 **
 ** Create:
 ** Revision: 3/95
 **
 ** DISCLAIMER
 ** The source, executable, and documentation files that comprise
 ** the BYTEmark benchmarks are made available on an "as is" basis.
 ** This means that we at BYTE Magazine have made every reasonable
 ** effort to verify that the there are no errors in the source and
 ** executable code.  We cannot, however, guarantee that the programs
 ** are error-free.  Consequently, McGraw-HIll and BYTE Magazine make
 ** no claims in regard to the fitness of the source code, executable
 ** code, and documentation of the BYTEmark.
 **  Furthermore, BYTE Magazine, McGraw-Hill, and all employees
 ** of McGraw-Hill cannot be held responsible for any damages resulting
 ** from the use of this code or the results obtained from using
 ** this code.
 */

 #include <stdio.h>

 /* Is this a 64 bit architecture? If so, this will define LONG64 */
 /* Uwe F. Mayer 15 November 1997                                 */
 /* #include "pointer.h" */

 /*
 ** DEFINES
 */
 #define u8 unsigned char
 #define u16 unsigned short
 #define u32 unsigned int
 #define uchar unsigned char
 #define ulong unsigned long

 #define MAX_EXP 32767L
 #define MIN_EXP (-32767L)

 #define IFPF_IS_ZERO 0
 #define IFPF_IS_SUBNORMAL 1
 #define IFPF_IS_NORMAL 2
 #define IFPF_IS_INFINITY 3
 #define IFPF_IS_NAN 4
 #define IFPF_TYPE_COUNT 5

 #define ZERO_ZERO                       0
 #define ZERO_SUBNORMAL                  1
 #define ZERO_NORMAL                     2
 #define ZERO_INFINITY                   3
 #define ZERO_NAN                        4

 #define SUBNORMAL_ZERO                  5
 #define SUBNORMAL_SUBNORMAL             6
 #define SUBNORMAL_NORMAL                7
 #define SUBNORMAL_INFINITY              8
 #define SUBNORMAL_NAN                   9

 #define NORMAL_ZERO                     10
 #define NORMAL_SUBNORMAL                11
 #define NORMAL_NORMAL                   12
 #define NORMAL_INFINITY                 13
 #define NORMAL_NAN                      14

 #define INFINITY_ZERO                   15
 #define INFINITY_SUBNORMAL              16
 #define INFINITY_NORMAL                 17
 #define INFINITY_INFINITY               18
 #define INFINITY_NAN                    19

 #define NAN_ZERO                        20
 #define NAN_SUBNORMAL                   21
 #define NAN_NORMAL                      22
 #define NAN_INFINITY                    23
 #define NAN_NAN                         24
 #define OPERAND_ZERO                    0
 #define OPERAND_SUBNORMAL               1
 #define OPERAND_NORMAL                  2
 #define OPERAND_INFINITY                3
 #define OPERAND_NAN                     4

 /*
 ** Following already defined in NMGLOBAL.H
 **
 #define INTERNAL_FPF_PRECISION 4
 */

 /*
 ** TYPEDEFS
 */

 typedef struct
 {
         u8 type;        /* Indicates, NORMAL, SUBNORMAL, etc. */
         u8 sign;        /* Mantissa sign */
         short exp;      /* Signed exponent...no bias */
         u16 mantissa[INTERNAL_FPF_PRECISION];
 } InternalFPF;

 /*
 ** PROTOTYPES
 */
 void SetupCPUEmFloatArrays(InternalFPF *abase,
         InternalFPF *bbase, InternalFPF *cbase, ulong arraysize);
 ulong DoEmFloatIteration(InternalFPF *abase,
         InternalFPF *bbase, InternalFPF *cbase,
         ulong arraysize, ulong loops);
 static void SetInternalFPFZero(InternalFPF *dest,
                         uchar sign);
 static void SetInternalFPFInfinity(InternalFPF *dest,
                         uchar sign);
 static void SetInternalFPFNaN(InternalFPF *dest);
 static int IsMantissaZero(u16 *mant);
 static void Add16Bits(u16 *carry,u16 *a,u16 b,u16 c);
 static void Sub16Bits(u16 *borrow,u16 *a,u16 b,u16 c);
 static void ShiftMantLeft1(u16 *carry,u16 *mantissa);
 static void ShiftMantRight1(u16 *carry,u16 *mantissa);
 static void StickyShiftRightMant(InternalFPF *ptr,int amount);
 static void normalize(InternalFPF *ptr);
 static void denormalize(InternalFPF *ptr,int minimum_exponent);
 void RoundInternalFPF(InternalFPF *ptr);
 static void choose_nan(InternalFPF *x,InternalFPF *y,InternalFPF *z,
                 int intel_flag);
 static void AddSubInternalFPF(uchar operation,InternalFPF *x,
                 InternalFPF *y,InternalFPF *z);
 static void MultiplyInternalFPF(InternalFPF *x,InternalFPF *y,
                         InternalFPF *z);
 static void DivideInternalFPF(InternalFPF *x,InternalFPF *y,
                         InternalFPF *z);
 /* static void LongToInternalFPF(long mylong, */
 static void Int32ToInternalFPF(int32 mylong,
                 InternalFPF *dest);
 #ifdef DEBUG
 static int InternalFPFToString(char *dest,
                 InternalFPF *src);
 #endif

 /*
 ** EXTERNALS
 */
 extern ulong StartStopwatch();
 extern ulong StopStopwatch(ulong elapsed);
 /* extern long randwc(long num); */
 extern int32 randwc(int32 num);

	/*
	** emfloat.h
	** Header for emfloat.c
	**
	** BYTEmark (tm)
	** BYTE Magazine's Native Mode benchmarks
	** Rick Grehan, BYTE Magazine
	**
	** Create:
	** Revision: 3/95
	**
	** DISCLAIMER
	** The source, executable, and documentation files that comprise
	** the BYTEmark benchmarks are made available on an "as is" basis.
	** This means that we at BYTE Magazine have made every reasonable
	** effort to verify that the there are no errors in the source and
	** executable code. We cannot, however, guarantee that the programs
	** are error-free. Consequently, McGraw-HIll and BYTE Magazine make
	** no claims in regard to the fitness of the source code, executable
	** code, and documentation of the BYTEmark.
	** Furthermore, BYTE Magazine, McGraw-Hill, and all employees
	** of McGraw-Hill cannot be held responsible for any damages resulting
	** from the use of this code or the results obtained from using
	** this code.
	*/

	#include <stdio.h>

	/* Is this a 64 bit architecture? If so, this will define LONG64 */
	/* Uwe F. Mayer 15 November 1997 */
	/* #include "pointer.h" */

	/*
	** DEFINES
	*/
	#define u8 unsigned char
	#define u16 unsigned short
	#define u32 unsigned int
	#define uchar unsigned char
	#define ulong unsigned long

	#define MAX_EXP 32767L
	#define MIN_EXP (-32767L)

	#define IFPF_IS_ZERO 0
	#define IFPF_IS_SUBNORMAL 1
	#define IFPF_IS_NORMAL 2
	#define IFPF_IS_INFINITY 3
	#define IFPF_IS_NAN 4
	#define IFPF_TYPE_COUNT 5

	#define ZERO_ZERO 0
	#define ZERO_SUBNORMAL 1
	#define ZERO_NORMAL 2
	#define ZERO_INFINITY 3
	#define ZERO_NAN 4

	#define SUBNORMAL_ZERO 5
	#define SUBNORMAL_SUBNORMAL 6
	#define SUBNORMAL_NORMAL 7
	#define SUBNORMAL_INFINITY 8
	#define SUBNORMAL_NAN 9

	#define NORMAL_ZERO 10
	#define NORMAL_SUBNORMAL 11
	#define NORMAL_NORMAL 12
	#define NORMAL_INFINITY 13
	#define NORMAL_NAN 14

	#define INFINITY_ZERO 15
	#define INFINITY_SUBNORMAL 16
	#define INFINITY_NORMAL 17
	#define INFINITY_INFINITY 18
	#define INFINITY_NAN 19

	#define NAN_ZERO 20
	#define NAN_SUBNORMAL 21
	#define NAN_NORMAL 22
	#define NAN_INFINITY 23
	#define NAN_NAN 24
	#define OPERAND_ZERO 0
	#define OPERAND_SUBNORMAL 1
	#define OPERAND_NORMAL 2
	#define OPERAND_INFINITY 3
	#define OPERAND_NAN 4

	/*
	** Following already defined in NMGLOBAL.H
	**
	#define INTERNAL_FPF_PRECISION 4
	*/

	/*
	** TYPEDEFS
	*/

	typedef struct
	{
	u8 type; /* Indicates, NORMAL, SUBNORMAL, etc. */
	u8 sign; /* Mantissa sign */
	short exp; /* Signed exponent...no bias */
	u16 mantissa[INTERNAL_FPF_PRECISION];
	} InternalFPF;

	/*
	** PROTOTYPES
	*/
	void SetupCPUEmFloatArrays(InternalFPF *abase,
	InternalFPF bbase, InternalFPF cbase, ulong arraysize);
	ulong DoEmFloatIteration(InternalFPF *abase,
	InternalFPF bbase, InternalFPF cbase,
	ulong arraysize, ulong loops);
	static void SetInternalFPFZero(InternalFPF *dest,
	uchar sign);
	static void SetInternalFPFInfinity(InternalFPF *dest,
	uchar sign);
	static void SetInternalFPFNaN(InternalFPF *dest);
	static int IsMantissaZero(u16 *mant);
	static void Add16Bits(u16 carry,u16 a,u16 b,u16 c);
	static void Sub16Bits(u16 borrow,u16 a,u16 b,u16 c);
	static void ShiftMantLeft1(u16 carry,u16 mantissa);
	static void ShiftMantRight1(u16 carry,u16 mantissa);
	static void StickyShiftRightMant(InternalFPF *ptr,int amount);
	static void normalize(InternalFPF *ptr);
	static void denormalize(InternalFPF *ptr,int minimum_exponent);
	void RoundInternalFPF(InternalFPF *ptr);
	static void choose_nan(InternalFPF x,InternalFPF y,InternalFPF *z,
	int intel_flag);
	static void AddSubInternalFPF(uchar operation,InternalFPF *x,
	InternalFPF y,InternalFPF z);
	static void MultiplyInternalFPF(InternalFPF x,InternalFPF y,
	InternalFPF *z);
	static void DivideInternalFPF(InternalFPF x,InternalFPF y,
	InternalFPF *z);
	/* static void LongToInternalFPF(long mylong, */
	static void Int32ToInternalFPF(int32 mylong,
	InternalFPF *dest);
	#ifdef DEBUG
	static int InternalFPFToString(char *dest,
	InternalFPF *src);
	#endif

	/*
	** EXTERNALS
	*/
	extern ulong StartStopwatch();
	extern ulong StopStopwatch(ulong elapsed);
	/* extern long randwc(long num); */
	extern int32 randwc(int32 num);