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[/] [or1k/] [trunk/] [linux/] [linux-2.4/] [arch/] [i386/] [math-emu/] [poly.h] - Rev 1765
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/*---------------------------------------------------------------------------+ | poly.h | | | | Header file for the FPU-emu poly*.c source files. | | | | Copyright (C) 1994,1999 | | W. Metzenthen, 22 Parker St, Ormond, Vic 3163, | | Australia. E-mail billm@melbpc.org.au | | | | Declarations and definitions for functions operating on Xsig (12-byte | | extended-significand) quantities. | | | +---------------------------------------------------------------------------*/ #ifndef _POLY_H #define _POLY_H /* This 12-byte structure is used to improve the accuracy of computation of transcendental functions. Intended to be used to get results better than 8-byte computation allows. 9-byte would probably be sufficient. */ typedef struct { unsigned long lsw; unsigned long midw; unsigned long msw; } Xsig; asmlinkage void mul64(unsigned long long const *a, unsigned long long const *b, unsigned long long *result); asmlinkage void polynomial_Xsig(Xsig *, const unsigned long long *x, const unsigned long long terms[], const int n); asmlinkage void mul32_Xsig(Xsig *, const unsigned long mult); asmlinkage void mul64_Xsig(Xsig *, const unsigned long long *mult); asmlinkage void mul_Xsig_Xsig(Xsig *dest, const Xsig *mult); asmlinkage void shr_Xsig(Xsig *, const int n); asmlinkage int round_Xsig(Xsig *); asmlinkage int norm_Xsig(Xsig *); asmlinkage void div_Xsig(Xsig *x1, const Xsig *x2, const Xsig *dest); /* Macro to extract the most significant 32 bits from a long long */ #define LL_MSW(x) (((unsigned long *)&x)[1]) /* Macro to initialize an Xsig struct */ #define MK_XSIG(a,b,c) { c, b, a } /* Macro to access the 8 ms bytes of an Xsig as a long long */ #define XSIG_LL(x) (*(unsigned long long *)&x.midw) /* Need to run gcc with optimizations on to get these to actually be in-line. */ /* Multiply two fixed-point 32 bit numbers, producing a 32 bit result. The answer is the ms word of the product. */ /* Some versions of gcc make it difficult to stop eax from being clobbered. Merely specifying that it is used doesn't work... */ static inline unsigned long mul_32_32(const unsigned long arg1, const unsigned long arg2) { int retval; asm volatile ("mull %2; movl %%edx,%%eax; " \ :"=a" (retval) \ :"0" (arg1), "g" (arg2) \ :"dx"); return retval; } /* Add the 12 byte Xsig x2 to Xsig dest, with no checks for overflow. */ static inline void add_Xsig_Xsig(Xsig *dest, const Xsig *x2) { asm volatile ("movl %1,%%edi; movl %2,%%esi; " \ "movl (%%esi),%%eax; addl %%eax,(%%edi); " \ "movl 4(%%esi),%%eax; adcl %%eax,4(%%edi); " \ "movl 8(%%esi),%%eax; adcl %%eax,8(%%edi); " \ :"=g" (*dest):"g" (dest), "g" (x2) \ :"ax","si","di"); } /* Add the 12 byte Xsig x2 to Xsig dest, adjust exp if overflow occurs. */ /* Note: the constraints in the asm statement didn't always work properly with gcc 2.5.8. Changing from using edi to using ecx got around the problem, but keep fingers crossed! */ static inline void add_two_Xsig(Xsig *dest, const Xsig *x2, long int *exp) { asm volatile ("movl %2,%%ecx; movl %3,%%esi; " \ "movl (%%esi),%%eax; addl %%eax,(%%ecx); " \ "movl 4(%%esi),%%eax; adcl %%eax,4(%%ecx); " \ "movl 8(%%esi),%%eax; adcl %%eax,8(%%ecx); " \ "jnc 0f; " \ "rcrl 8(%%ecx); rcrl 4(%%ecx); rcrl (%%ecx); " \ "movl %4,%%ecx; incl (%%ecx); " \ "movl $1,%%eax; jmp 1f; " \ "0: xorl %%eax,%%eax; " \ "1: " \ :"=g" (*exp), "=g" (*dest) \ :"g" (dest), "g" (x2), "g" (exp) \ :"cx","si","ax"); } /* Negate (subtract from 1.0) the 12 byte Xsig */ /* This is faster in a loop on my 386 than using the "neg" instruction. */ static inline void negate_Xsig(Xsig *x) { asm volatile("movl %1,%%esi; " \ "xorl %%ecx,%%ecx; " \ "movl %%ecx,%%eax; subl (%%esi),%%eax; movl %%eax,(%%esi); " \ "movl %%ecx,%%eax; sbbl 4(%%esi),%%eax; movl %%eax,4(%%esi); " \ "movl %%ecx,%%eax; sbbl 8(%%esi),%%eax; movl %%eax,8(%%esi); " \ :"=g" (*x):"g" (x):"si","ax","cx"); } #endif /* _POLY_H */