include/asm-m68k/math-emu.h - linux/kernel/git/gregkh/char-misc - Git at Google

 #ifndef _ASM_M68K_SETUP_H
 #define _ASM_M68K_SETUP_H

 #include <asm/setup.h>
 #include <linux/linkage.h>

 /* Status Register bits */

 /* accrued exception bits */
 #define FPSR_AEXC_INEX	3
 #define FPSR_AEXC_DZ	4
 #define FPSR_AEXC_UNFL	5
 #define FPSR_AEXC_OVFL	6
 #define FPSR_AEXC_IOP	7

 /* exception status bits */
 #define FPSR_EXC_INEX1	8
 #define FPSR_EXC_INEX2	9
 #define FPSR_EXC_DZ	10
 #define FPSR_EXC_UNFL	11
 #define FPSR_EXC_OVFL	12
 #define FPSR_EXC_OPERR	13
 #define FPSR_EXC_SNAN	14
 #define FPSR_EXC_BSUN	15

 /* quotient byte, assumes big-endian, of course */
 #define FPSR_QUOTIENT(fpsr) (*((signed char *) &(fpsr) + 1))

 /* condition code bits */
 #define FPSR_CC_NAN	24
 #define FPSR_CC_INF	25
 #define FPSR_CC_Z	26
 #define FPSR_CC_NEG	27


 /* Control register bits */

 /* rounding mode */
 #define	FPCR_ROUND_RN	0		/* round to nearest/even */
 #define FPCR_ROUND_RZ	1		/* round to zero */
 #define FPCR_ROUND_RM	2		/* minus infinity */
 #define FPCR_ROUND_RP	3		/* plus infinity */

 /* rounding precision */
 #define FPCR_PRECISION_X	0	/* long double */
 #define FPCR_PRECISION_S	1	/* double */
 #define FPCR_PRECISION_D	2	/* float */


 /* Flags to select the debugging output */
 #define PDECODE		0
 #define PEXECUTE	1
 #define PCONV		2
 #define PNORM		3
 #define PREGISTER	4
 #define PINSTR		5
 #define PUNIMPL		6
 #define PMOVEM		7

 #define PMDECODE	(1<<PDECODE)
 #define PMEXECUTE	(1<<PEXECUTE)
 #define PMCONV		(1<<PCONV)
 #define PMNORM		(1<<PNORM)
 #define PMREGISTER	(1<<PREGISTER)
 #define PMINSTR		(1<<PINSTR)
 #define PMUNIMPL	(1<<PUNIMPL)
 #define PMMOVEM		(1<<PMOVEM)

 #ifndef __ASSEMBLY__

 #include <linux/kernel.h>
 #include <linux/sched.h>

 union fp_mant64 {
 	unsigned long long m64;
 	unsigned long m32[2];
 };

 union fp_mant128 {
 	unsigned long long m64[2];
 	unsigned long m32[4];
 };

 /* internal representation of extended fp numbers */
 struct fp_ext {
 	unsigned char lowmant;
 	unsigned char sign;
 	unsigned short exp;
 	union fp_mant64 mant;
 };

 /* C representation of FPU registers */
 /* NOTE: if you change this, you have to change the assembler offsets
    below and the size in <asm/fpu.h>, too */
 struct fp_data {
 	struct fp_ext fpreg[8];
 	unsigned int fpcr;
 	unsigned int fpsr;
 	unsigned int fpiar;
 	unsigned short prec;
 	unsigned short rnd;
 	struct fp_ext temp[2];
 };

 #ifdef FPU_EMU_DEBUG
 extern unsigned int fp_debugprint;

 #define dprint(bit, fmt, args...) ({			\
 	if (fp_debugprint & (1 << (bit)))		\
 		printk(fmt, ## args);			\
 })
 #else
 #define dprint(bit, fmt, args...)
 #endif

 #define uprint(str) ({					\
 	static int __count = 3;				\
 							\
 	if (__count > 0) {				\
 		printk("You just hit an unimplemented "	\
 		       "fpu instruction (%s)\n", str);	\
 		printk("Please report this to ....\n");	\
 		__count--;				\
 	}						\
 })

 #define FPDATA		((struct fp_data *)current->thread.fp)

 #else	/* __ASSEMBLY__ */

 #define FPDATA		%a2

 /* offsets from the base register to the floating point data in the task struct */
 #define FPD_FPREG	(TASK_THREAD+THREAD_FPREG+0)
 #define FPD_FPCR	(TASK_THREAD+THREAD_FPREG+96)
 #define FPD_FPSR	(TASK_THREAD+THREAD_FPREG+100)
 #define FPD_FPIAR	(TASK_THREAD+THREAD_FPREG+104)
 #define FPD_PREC	(TASK_THREAD+THREAD_FPREG+108)
 #define FPD_RND		(TASK_THREAD+THREAD_FPREG+110)
 #define FPD_TEMPFP1	(TASK_THREAD+THREAD_FPREG+112)
 #define FPD_TEMPFP2	(TASK_THREAD+THREAD_FPREG+124)
 #define FPD_SIZEOF	(TASK_THREAD+THREAD_FPREG+136)

 /* offsets on the stack to access saved registers,
  * these are only used during instruction decoding
  * where we always know how deep we're on the stack.
  */
 #define FPS_DO		(PT_D0)
 #define FPS_D1		(PT_D1)
 #define FPS_D2		(PT_D2)
 #define FPS_A0		(PT_A0)
 #define FPS_A1		(PT_A1)
 #define FPS_A2		(PT_A2)
 #define FPS_SR		(PT_SR)
 #define FPS_PC		(PT_PC)
 #define FPS_EA		(PT_PC+6)
 #define FPS_PC2		(PT_PC+10)

 .macro	fp_get_fp_reg
 	lea	(FPD_FPREG,FPDATA,%d0.w*4),%a0
 	lea	(%a0,%d0.w*8),%a0
 .endm

 /* Macros used to get/put the current program counter.
  * 020/030 use a different stack frame then 040/060, for the
  * 040/060 the return pc points already to the next location,
  * so this only needs to be modified for jump instructions.
  */
 .macro	fp_get_pc dest
 	move.l	(FPS_PC+4,%sp),\dest
 .endm

 .macro	fp_put_pc src,jump=0
 	move.l	\src,(FPS_PC+4,%sp)
 .endm

 .macro	fp_get_instr_data	f,s,dest,label
 	getuser	\f,%sp@(FPS_PC+4)@(0),\dest,\label,%sp@(FPS_PC+4)
 	addq.l	#\s,%sp@(FPS_PC+4)
 .endm

 .macro	fp_get_instr_word	dest,label,addr
 	fp_get_instr_data	w,2,\dest,\label,\addr
 .endm

 .macro	fp_get_instr_long	dest,label,addr
 	fp_get_instr_data	l,4,\dest,\label,\addr
 .endm

 /* These macros are used to read from/write to user space
  * on error we jump to the fixup section, load the fault
  * address into %a0 and jump to the exit.
  * (derived from <asm/uaccess.h>)
  */
 .macro	getuser	size,src,dest,label,addr
 |	printf	,"[\size<%08x]",1,\addr
 .Lu1\@:	moves\size	\src,\dest

 	.section .fixup,"ax"
 	.even
 .Lu2\@:	move.l	\addr,%a0
 	jra	\label
 	.previous

 	.section __ex_table,"a"
 	.align	4
 	.long	.Lu1\@,.Lu2\@
 	.previous
 .endm

 .macro	putuser	size,src,dest,label,addr
 |	printf	,"[\size>%08x]",1,\addr
 .Lu1\@:	moves\size	\src,\dest
 .Lu2\@:

 	.section .fixup,"ax"
 	.even
 .Lu3\@:	move.l	\addr,%a0
 	jra	\label
 	.previous

 	.section __ex_table,"a"
 	.align	4
 	.long	.Lu1\@,.Lu3\@
 	.long	.Lu2\@,.Lu3\@
 	.previous
 .endm


 .macro	movestack	nr,arg1,arg2,arg3,arg4,arg5
 	.if	\nr
 	movestack	(\nr-1),\arg2,\arg3,\arg4,\arg5
 	move.l	\arg1,-(%sp)
 	.endif
 .endm

 .macro	printf	bit=-1,string,nr=0,arg1,arg2,arg3,arg4,arg5
 #ifdef FPU_EMU_DEBUG
 	.data
 .Lpdata\@:
 	.string	"\string"
 	.previous

 	movem.l	%d0/%d1/%a0/%a1,-(%sp)
 	.if	\bit+1
 #if 0
 	moveq	#\bit,%d0
 	andw	#7,%d0
 	btst	%d0,fp_debugprint+((31-\bit)/8)
 #else
 	btst	#\bit,fp_debugprint+((31-\bit)/8)
 #endif
 	jeq	.Lpskip\@
 	.endif
 	movestack	\nr,\arg1,\arg2,\arg3,\arg4,\arg5
 	pea	.Lpdata\@
 	jsr	printk
 	lea	((\nr+1)*4,%sp),%sp
 .Lpskip\@:
 	movem.l	(%sp)+,%d0/%d1/%a0/%a1
 #endif
 .endm

 .macro	printx	bit,fp
 #ifdef FPU_EMU_DEBUG
 	movem.l	%d0/%a0,-(%sp)
 	lea	\fp,%a0
 #if 0
 	moveq	#'+',%d0
 	tst.w	(%a0)
 	jeq	.Lx1\@
 	moveq	#'-',%d0
 .Lx1\@:	printf	\bit," %c",1,%d0
 	move.l	(4,%a0),%d0
 	bclr	#31,%d0
 	jne	.Lx2\@
 	printf	\bit,"0."
 	jra	.Lx3\@
 .Lx2\@:	printf	\bit,"1."
 .Lx3\@:	printf	\bit,"%08x%08x",2,%d0,%a0@(8)
 	move.w	(2,%a0),%d0
 	ext.l	%d0
 	printf	\bit,"E%04x",1,%d0
 #else
 	printf	\bit," %08x%08x%08x",3,%a0@,%a0@(4),%a0@(8)
 #endif
 	movem.l	(%sp)+,%d0/%a0
 #endif
 .endm

 .macro	debug	instr,args
 #ifdef FPU_EMU_DEBUG
 	\instr	\args
 #endif
 .endm


 #endif	/* __ASSEMBLY__ */

 #endif	/* _ASM_M68K_SETUP_H */
	#ifndef _ASM_M68K_SETUP_H
	#define _ASM_M68K_SETUP_H

	#include <asm/setup.h>
	#include <linux/linkage.h>

	/* Status Register bits */

	/* accrued exception bits */
	#define FPSR_AEXC_INEX 3
	#define FPSR_AEXC_DZ 4
	#define FPSR_AEXC_UNFL 5
	#define FPSR_AEXC_OVFL 6
	#define FPSR_AEXC_IOP 7

	/* exception status bits */
	#define FPSR_EXC_INEX1 8
	#define FPSR_EXC_INEX2 9
	#define FPSR_EXC_DZ 10
	#define FPSR_EXC_UNFL 11
	#define FPSR_EXC_OVFL 12
	#define FPSR_EXC_OPERR 13
	#define FPSR_EXC_SNAN 14
	#define FPSR_EXC_BSUN 15

	/* quotient byte, assumes big-endian, of course */
	#define FPSR_QUOTIENT(fpsr) (((signed char ) &(fpsr) + 1))

	/* condition code bits */
	#define FPSR_CC_NAN 24
	#define FPSR_CC_INF 25
	#define FPSR_CC_Z 26
	#define FPSR_CC_NEG 27


	/* Control register bits */

	/* rounding mode */
	#define FPCR_ROUND_RN 0 /* round to nearest/even */
	#define FPCR_ROUND_RZ 1 /* round to zero */
	#define FPCR_ROUND_RM 2 /* minus infinity */
	#define FPCR_ROUND_RP 3 /* plus infinity */

	/* rounding precision */
	#define FPCR_PRECISION_X 0 /* long double */
	#define FPCR_PRECISION_S 1 /* double */
	#define FPCR_PRECISION_D 2 /* float */


	/* Flags to select the debugging output */
	#define PDECODE 0
	#define PEXECUTE 1
	#define PCONV 2
	#define PNORM 3
	#define PREGISTER 4
	#define PINSTR 5
	#define PUNIMPL 6
	#define PMOVEM 7

	#define PMDECODE (1<<PDECODE)
	#define PMEXECUTE (1<<PEXECUTE)
	#define PMCONV (1<<PCONV)
	#define PMNORM (1<<PNORM)
	#define PMREGISTER (1<<PREGISTER)
	#define PMINSTR (1<<PINSTR)
	#define PMUNIMPL (1<<PUNIMPL)
	#define PMMOVEM (1<<PMOVEM)

	#ifndef __ASSEMBLY__

	#include <linux/kernel.h>
	#include <linux/sched.h>

	union fp_mant64 {
	unsigned long long m64;
	unsigned long m32[2];
	};

	union fp_mant128 {
	unsigned long long m64[2];
	unsigned long m32[4];
	};

	/* internal representation of extended fp numbers */
	struct fp_ext {
	unsigned char lowmant;
	unsigned char sign;
	unsigned short exp;
	union fp_mant64 mant;
	};

	/* C representation of FPU registers */
	/* NOTE: if you change this, you have to change the assembler offsets
	below and the size in <asm/fpu.h>, too */
	struct fp_data {
	struct fp_ext fpreg[8];
	unsigned int fpcr;
	unsigned int fpsr;
	unsigned int fpiar;
	unsigned short prec;
	unsigned short rnd;
	struct fp_ext temp[2];
	};

	#ifdef FPU_EMU_DEBUG
	extern unsigned int fp_debugprint;

	#define dprint(bit, fmt, args...) ({ \
	if (fp_debugprint & (1 << (bit))) \
	printk(fmt, ## args); \
	})
	#else
	#define dprint(bit, fmt, args...)
	#endif

	#define uprint(str) ({ \
	static int __count = 3; \
	\
	if (__count > 0) { \
	printk("You just hit an unimplemented " \
	"fpu instruction (%s)\n", str); \
	printk("Please report this to ....\n"); \
	__count--; \
	} \
	})

	#define FPDATA ((struct fp_data *)current->thread.fp)

	#else /* __ASSEMBLY__ */

	#define FPDATA %a2

	/* offsets from the base register to the floating point data in the task struct */
	#define FPD_FPREG (TASK_THREAD+THREAD_FPREG+0)
	#define FPD_FPCR (TASK_THREAD+THREAD_FPREG+96)
	#define FPD_FPSR (TASK_THREAD+THREAD_FPREG+100)
	#define FPD_FPIAR (TASK_THREAD+THREAD_FPREG+104)
	#define FPD_PREC (TASK_THREAD+THREAD_FPREG+108)
	#define FPD_RND (TASK_THREAD+THREAD_FPREG+110)
	#define FPD_TEMPFP1 (TASK_THREAD+THREAD_FPREG+112)
	#define FPD_TEMPFP2 (TASK_THREAD+THREAD_FPREG+124)
	#define FPD_SIZEOF (TASK_THREAD+THREAD_FPREG+136)

	/* offsets on the stack to access saved registers,
	* these are only used during instruction decoding
	* where we always know how deep we're on the stack.
	*/
	#define FPS_DO (PT_D0)
	#define FPS_D1 (PT_D1)
	#define FPS_D2 (PT_D2)
	#define FPS_A0 (PT_A0)
	#define FPS_A1 (PT_A1)
	#define FPS_A2 (PT_A2)
	#define FPS_SR (PT_SR)
	#define FPS_PC (PT_PC)
	#define FPS_EA (PT_PC+6)
	#define FPS_PC2 (PT_PC+10)

	.macro fp_get_fp_reg
	lea (FPD_FPREG,FPDATA,%d0.w*4),%a0
	lea (%a0,%d0.w*8),%a0
	.endm

	/* Macros used to get/put the current program counter.
	* 020/030 use a different stack frame then 040/060, for the
	* 040/060 the return pc points already to the next location,
	* so this only needs to be modified for jump instructions.
	*/
	.macro fp_get_pc dest
	move.l (FPS_PC+4,%sp),\dest
	.endm

	.macro fp_put_pc src,jump=0
	move.l \src,(FPS_PC+4,%sp)
	.endm

	.macro fp_get_instr_data f,s,dest,label
	getuser \f,%sp@(FPS_PC+4)@(0),\dest,\label,%sp@(FPS_PC+4)
	addq.l #\s,%sp@(FPS_PC+4)
	.endm

	.macro fp_get_instr_word dest,label,addr
	fp_get_instr_data w,2,\dest,\label,\addr
	.endm

	.macro fp_get_instr_long dest,label,addr
	fp_get_instr_data l,4,\dest,\label,\addr
	.endm

	/* These macros are used to read from/write to user space
	* on error we jump to the fixup section, load the fault
	* address into %a0 and jump to the exit.
	* (derived from <asm/uaccess.h>)
	*/
	.macro getuser size,src,dest,label,addr
	\| printf ,"[\size<%08x]",1,\addr
	.Lu1\@: moves\size \src,\dest

	.section .fixup,"ax"
	.even
	.Lu2\@: move.l \addr,%a0
	jra \label
	.previous

	.section __ex_table,"a"
	.align 4
	.long .Lu1\@,.Lu2\@
	.previous
	.endm

	.macro putuser size,src,dest,label,addr
	\| printf ,"[\size>%08x]",1,\addr
	.Lu1\@: moves\size \src,\dest
	.Lu2\@:

	.section .fixup,"ax"
	.even
	.Lu3\@: move.l \addr,%a0
	jra \label
	.previous

	.section __ex_table,"a"
	.align 4
	.long .Lu1\@,.Lu3\@
	.long .Lu2\@,.Lu3\@
	.previous
	.endm


	.macro movestack nr,arg1,arg2,arg3,arg4,arg5
	.if \nr
	movestack (\nr-1),\arg2,\arg3,\arg4,\arg5
	move.l \arg1,-(%sp)
	.endif
	.endm

	.macro printf bit=-1,string,nr=0,arg1,arg2,arg3,arg4,arg5
	#ifdef FPU_EMU_DEBUG
	.data
	.Lpdata\@:
	.string "\string"
	.previous

	movem.l %d0/%d1/%a0/%a1,-(%sp)
	.if \bit+1
	#if 0
	moveq #\bit,%d0
	andw #7,%d0
	btst %d0,fp_debugprint+((31-\bit)/8)
	#else
	btst #\bit,fp_debugprint+((31-\bit)/8)
	#endif
	jeq .Lpskip\@
	.endif
	movestack \nr,\arg1,\arg2,\arg3,\arg4,\arg5
	pea .Lpdata\@
	jsr printk
	lea ((\nr+1)*4,%sp),%sp
	.Lpskip\@:
	movem.l (%sp)+,%d0/%d1/%a0/%a1
	#endif
	.endm

	.macro printx bit,fp
	#ifdef FPU_EMU_DEBUG
	movem.l %d0/%a0,-(%sp)
	lea \fp,%a0
	#if 0
	moveq #'+',%d0
	tst.w (%a0)
	jeq .Lx1\@
	moveq #'-',%d0
	.Lx1\@: printf \bit," %c",1,%d0
	move.l (4,%a0),%d0
	bclr #31,%d0
	jne .Lx2\@
	printf \bit,"0."
	jra .Lx3\@
	.Lx2\@: printf \bit,"1."
	.Lx3\@: printf \bit,"%08x%08x",2,%d0,%a0@(8)
	move.w (2,%a0),%d0
	ext.l %d0
	printf \bit,"E%04x",1,%d0
	#else
	printf \bit," %08x%08x%08x",3,%a0@,%a0@(4),%a0@(8)
	#endif
	movem.l (%sp)+,%d0/%a0
	#endif
	.endm

	.macro debug instr,args
	#ifdef FPU_EMU_DEBUG
	\instr \args
	#endif
	.endm


	#endif /* __ASSEMBLY__ */

	#endif /* _ASM_M68K_SETUP_H */