Linux0.96c/include/linux/math_emu.h

/*
 * linux/include/linux/math_emu.h
 *
 * (C) 1991 Linus Torvalds
 */
#ifndef _LINUX_MATH_EMU_H
#define _LINUX_MATH_EMU_H

#include <linux/sched.h>

struct info {
	long ___orig_eip;
	long ___ret_from_system_call;
	long ___ebx;
	long ___ecx;
	long ___edx;
	long ___esi;
	long ___edi;
	long ___ebp;
	long ___eax;
	long ___ds;
	long ___es;
	long ___fs;
	long ___gs;
	long ___orig_eax;
	long ___eip;
	long ___cs;
	long ___eflags;
	long ___esp;
	long ___ss;
};

#define EAX (info->___eax)
#define EBX (info->___ebx)
#define ECX (info->___ecx)
#define EDX (info->___edx)
#define ESI (info->___esi)
#define EDI (info->___edi)
#define EBP (info->___ebp)
#define ESP (info->___esp)
#define EIP (info->___eip)
#define ORIG_EIP (info->___orig_eip)
#define EFLAGS (info->___eflags)
#define DS (*(unsigned short *) &(info->___ds))
#define ES (*(unsigned short *) &(info->___es))
#define FS (*(unsigned short *) &(info->___fs))
#define CS (*(unsigned short *) &(info->___cs))
#define SS (*(unsigned short *) &(info->___ss))

void __math_abort(struct info *, unsigned int);

#define math_abort(x,y) \
(((volatile void (*)(struct info *,unsigned int)) __math_abort)((x),(y)))

/*
 * Gcc forces this stupid alignment problem: I want to use only two longs
 * for the temporary real 64-bit mantissa, but then gcc aligns out the
 * structure to 12 bytes which breaks things in math_emulate.c. Shit. I
 * want some kind of "no-alignt" pragma or something.
 */

typedef struct {
	long a,b;
	short exponent;
} temp_real;

typedef struct {
	short m0,m1,m2,m3;
	short exponent;
} temp_real_unaligned;

#define real_to_real(a,b) \
((*(long long *) (b) = *(long long *) (a)),((b)->exponent = (a)->exponent))

typedef struct {
	long a,b;
} long_real;

typedef long short_real;

typedef struct {
	long a,b;
	short sign;
} temp_int;

struct swd {
	int ie:1;
	int de:1;
	int ze:1;
	int oe:1;
	int ue:1;
	int pe:1;
	int sf:1;
	int ir:1;
	int c0:1;
	int c1:1;
	int c2:1;
	int top:3;
	int c3:1;
	int b:1;
};

#define I387 (current->tss.i387)
#define SWD (*(struct swd *) &I387.swd)
#define ROUNDING ((I387.cwd >> 10) & 3)
#define PRECISION ((I387.cwd >> 8) & 3)

#define BITS24	0
#define BITS53	2
#define BITS64	3

#define ROUND_NEAREST	0
#define ROUND_DOWN	1
#define ROUND_UP	2
#define ROUND_0		3

#define CONSTZ   (temp_real_unaligned) {0x0000,0x0000,0x0000,0x0000,0x0000}
#define CONST1   (temp_real_unaligned) {0x0000,0x0000,0x0000,0x8000,0x3FFF}
#define CONSTPI  (temp_real_unaligned) {0xC235,0x2168,0xDAA2,0xC90F,0x4000}
#define CONSTLN2 (temp_real_unaligned) {0x79AC,0xD1CF,0x17F7,0xB172,0x3FFE}
#define CONSTLG2 (temp_real_unaligned) {0xF799,0xFBCF,0x9A84,0x9A20,0x3FFD}
#define CONSTL2E (temp_real_unaligned) {0xF0BC,0x5C17,0x3B29,0xB8AA,0x3FFF}
#define CONSTL2T (temp_real_unaligned) {0x8AFE,0xCD1B,0x784B,0xD49A,0x4000}

#define set_IE() (I387.swd |= 1)
#define set_DE() (I387.swd |= 2)
#define set_ZE() (I387.swd |= 4)
#define set_OE() (I387.swd |= 8)
#define set_UE() (I387.swd |= 16)
#define set_PE() (I387.swd |= 32)

#define set_C0() (I387.swd |= 0x0100)
#define set_C1() (I387.swd |= 0x0200)
#define set_C2() (I387.swd |= 0x0400)
#define set_C3() (I387.swd |= 0x4000)

/* ea.c */

char * ea(struct info * __info, unsigned short __code);

/* convert.c */

void frndint(const temp_real * __a, temp_real * __b);
void short_to_temp(const short_real * __a, temp_real * __b);
void long_to_temp(const long_real * __a, temp_real * __b);
void temp_to_short(const temp_real * __a, short_real * __b);
void temp_to_long(const temp_real * __a, long_real * __b);
void real_to_int(const temp_real * __a, temp_int * __b);
void int_to_real(const temp_int * __a, temp_real * __b);

/* get_put.c */

void get_short_real(temp_real *, struct info *, unsigned short);
void get_long_real(temp_real *, struct info *, unsigned short);
void get_temp_real(temp_real *, struct info *, unsigned short);
void get_short_int(temp_real *, struct info *, unsigned short);
void get_long_int(temp_real *, struct info *, unsigned short);
void get_longlong_int(temp_real *, struct info *, unsigned short);
void get_BCD(temp_real *, struct info *, unsigned short);
void put_short_real(const temp_real *, struct info *, unsigned short);
void put_long_real(const temp_real *, struct info *, unsigned short);
void put_temp_real(const temp_real *, struct info *, unsigned short);
void put_short_int(const temp_real *, struct info *, unsigned short);
void put_long_int(const temp_real *, struct info *, unsigned short);
void put_longlong_int(const temp_real *, struct info *, unsigned short);
void put_BCD(const temp_real *, struct info *, unsigned short);

/* add.c */

void fadd(const temp_real *, const temp_real *, temp_real *);

/* mul.c */

void fmul(const temp_real *, const temp_real *, temp_real *);

/* div.c */

void fdiv(const temp_real *, const temp_real *, temp_real *);

/* sqrt.c */

void fsqrt(const temp_real *, temp_real *);

/* compare.c */

void fcom(const temp_real *, const temp_real *);
void fucom(const temp_real *, const temp_real *);
void ftst(const temp_real *);

#endif