/* * Copyright (c) 1995 Colin Plumb. All rights reserved. * For licensing and other legal details, see the file legal.c. * * lbn80386.h - This file defines the interfaces to the 80386 * assembly primitives. It is intended to be included in "lbn.h" * via the "#include BNINCLUDE" mechanism. */ #define BN_LITTLE_ENDIAN 1 typedef unsigned long bnword32; #define BNWORD32 bnword32 /* MS-DOS needs the calling convention described to it. */ #ifndef MSDOS #ifdef __MSDOS #define MSDOS 1 #endif #endif #ifndef MSDOS #ifdef __MSDOS__ #define MSDOS 1 #endif #endif /* By MS-DOS, we mean 16-bit brain-dead MS-DOS. Not 32-bit good things. */ #ifdef __GO32 #undef MSDOS #endif #ifdef __GO32__ #undef MSDOS #endif #ifdef MSDOS #define CDECL __cdecl #else #define CDECL /*nothing*/ #endif #ifdef __cplusplus /* These assembly-language primitives use C names */ extern "C" { #endif /* Function prototypes for the asm routines */ void CDECL lbnMulN1_32(bnword32 *out, bnword32 const *in, unsigned len, bnword32 k); #define lbnMulN1_32 lbnMulN1_32 bnword32 CDECL lbnMulAdd1_32(bnword32 *out, bnword32 const *in, unsigned len, bnword32 k); #define lbnMulAdd1_32 lbnMulAdd1_32 bnword32 CDECL lbnMulSub1_32(bnword32 *out, bnword32 const *in, unsigned len, bnword32 k); #define lbnMulSub1_32 lbnMulSub1_32 bnword32 CDECL lbnDiv21_32(bnword32 *q, bnword32 nh, bnword32 nl, bnword32 d); #define lbnDiv21_32 lbnDiv21_32 unsigned CDECL lbnModQ_32(bnword32 const *n, unsigned len, bnword32 d); #define lbnModQ_32 lbnModQ_32 #ifdef __cplusplus } #endif #if __GNUC__ /* * Use the (massively cool) GNU inline-assembler extension to define * inline expansions for various operations. * * The massively cool part is that the assembler can have inputs * and outputs, and you specify the operands and which effective * addresses are legal and they get substituted into the code. * (For example, some of the code requires a zero. Rather than * specify an immediate constant, the expansion specifies an operand * of zero which can be in various places. This lets GCC use an * immediate zero, or a register which contains zero if it's available.) * * The syntax is asm("asm_code" : outputs : inputs : trashed) * %0, %1 and so on in the asm code are substituted by the operands * in left-to-right order (outputs, then inputs). * The operands contain constraint strings and values to use. * Outputs must be lvalues, inputs may be rvalues. In the constraints: * "a" means that the operand must be in eax. * "d" means that the operand must be in edx. * "g" means that the operand may be any effective address. * "=" means that the operand is assigned to. * "%" means that this operand and the following one may be * interchanged if desirable. * "bcDSmn" means that the operand must be in ebx, ecx, esi, edi, memory, * or an immediate constant. (This is almost the same as "g" * but allowing it in eax wouldn't help because x is already * assigned there, and it must not be in edx, since edx is * overwritten by the multiply before a and b are read.) * * Note that GCC uses AT&T assembler syntax, which is rather * different from Intel syntax. The length (b, w or l) of the * operation is appended to the opcode, and the *second* operand * is the destination, not the first. Finally, the register names * are all preceded with "%". (Doubled here because % is a * magic character.) */ /* (ph<<32) + pl = x*y */ #define mul32_ppmm(ph,pl,x,y) \ __asm__("mull %3" : "=d"(ph), "=a"(pl) : "%a"(x), "g"(y)) /* (ph<<32) + pl = x*y + a */ #define mul32_ppmma(ph,pl,x,y,a) \ __asm__("mull %3\n\t" \ "addl %4,%%eax\n\t" \ "adcl %5,%%edx" \ : "=&d"(ph), "=a"(pl) \ : "%a"(x), "g"(y), "bcDSmn"(a), "bcDSmn"(0)) /* (ph<<32) + pl = x*y + a + b */ #define mul32_ppmmaa(ph,pl,x,y,a,b) \ __asm__("mull %3\n\t" \ "addl %4,%%eax\n\t" \ "adcl %6,%%edx\n\t" \ "addl %5,%%eax\n\t" \ "adcl %6,%%edx" \ : "=&d"(ph), "=a"(pl) \ : "%a"(x), "g"(y), "%bcDSmn"(a), "bcDSmn"(b), "bcDSmn"(0)) /* q = ((nh<<32) + nl) / d, return remainder. nh guaranteed < d. */ #undef lbnDiv21_32 #define lbnDiv21_32(q,nh,nl,d) \ ({unsigned _; \ __asm__("divl %4" : "=d"(_), "=a"(*q) : "d"(nh), "a"(nl), "g"(d)); \ _;}) /* No quotient, just return remainder ((nh<<32) + nl) % d */ #define lbnMod21_32(nh,nl,d) \ ({unsigned _; \ __asm__("divl %3" : "=d"(_) : "d"(nh), "a"(nl), "g"(d) : "ax"); \ _;}) #endif /* __GNUC__ */