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Linux/arch/hexagon/lib/udivsi3.S

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Diff markup

Differences between /arch/hexagon/lib/udivsi3.S (Architecture mips) and /arch/m68k/lib/udivsi3.S (Architecture m68k)


  1 /* SPDX-License-Identifier: GPL-2.0-only */    !!   1 /* libgcc1 routines for 68000 w/o floating-point hardware.
  2 /*                                             !!   2    Copyright (C) 1994, 1996, 1997, 1998 Free Software Foundation, Inc.
  3  * Copyright (c) 2021, The Linux Foundation. A !!   3 
  4  */                                            !!   4 This file is part of GNU CC.
  5                                                !!   5 
  6 #include <linux/linkage.h>                     !!   6 GNU CC is free software; you can redistribute it and/or modify it
  7                                                !!   7 under the terms of the GNU General Public License as published by the
  8 SYM_FUNC_START(__hexagon_udivsi3)              !!   8 Free Software Foundation; either version 2, or (at your option) any
  9         {                                      !!   9 later version.
 10                 r2 = cl0(r0)                   !!  10 
 11                 r3 = cl0(r1)                   !!  11 In addition to the permissions in the GNU General Public License, the
 12                 r5:4 = combine(#1,#0)          !!  12 Free Software Foundation gives you unlimited permission to link the
 13                 p0 = cmp.gtu(r1,r0)            !!  13 compiled version of this file with other programs, and to distribute
 14         }                                      !!  14 those programs without any restriction coming from the use of this
 15         {                                      !!  15 file.  (The General Public License restrictions do apply in other
 16                 r6 = sub(r3,r2)                !!  16 respects; for example, they cover modification of the file, and
 17                 r4 = r1                        !!  17 distribution when not linked into another program.)
 18                 r1:0 = combine(r0,r4)          !!  18 
 19                 if (p0) jumpr r31              !!  19 This file is distributed in the hope that it will be useful, but
 20         }                                      !!  20 WITHOUT ANY WARRANTY; without even the implied warranty of
 21         {                                      !!  21 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 22                 r3:2 = vlslw(r5:4,r6)          !!  22 General Public License for more details. */
 23                 loop0(1f,r6)                   !!  23 
 24         }                                      !!  24 /* As a special exception, if you link this library with files
 25         .falign                                !!  25    compiled with GCC to produce an executable, this does not cause
 26 1:                                             !!  26    the resulting executable to be covered by the GNU General Public License.
 27         {                                      !!  27    This exception does not however invalidate any other reasons why
 28                 p0 = cmp.gtu(r2,r1)            !!  28    the executable file might be covered by the GNU General Public License.  */
 29                 if (!p0.new) r1 = sub(r1,r2)   !!  29 
 30                 if (!p0.new) r0 = add(r0,r3)   !!  30 /* Use this one for any 680x0; assumes no floating point hardware.
 31                 r3:2 = vlsrw(r3:2,#1)          !!  31    The trailing " '" appearing on some lines is for ANSI preprocessors.  Yuk.
 32         }:endloop0                             !!  32    Some of this code comes from MINIX, via the folks at ericsson.
 33         {                                      !!  33    D. V. Henkel-Wallace (gumby@cygnus.com) Fete Bastille, 1992
 34                 p0 = cmp.gtu(r2,r1)            !!  34 */
 35                 if (!p0.new) r0 = add(r0,r3)   !!  35 #include <linux/export.h>
 36                 jumpr r31                      !!  36 /* These are predefined by new versions of GNU cpp.  */
 37         }                                      !!  37 
 38 SYM_FUNC_END(__hexagon_udivsi3)                !!  38 #ifndef __USER_LABEL_PREFIX__
                                                   >>  39 #define __USER_LABEL_PREFIX__ _
                                                   >>  40 #endif
                                                   >>  41 
                                                   >>  42 #ifndef __REGISTER_PREFIX__
                                                   >>  43 #define __REGISTER_PREFIX__
                                                   >>  44 #endif
                                                   >>  45 
                                                   >>  46 #ifndef __IMMEDIATE_PREFIX__
                                                   >>  47 #define __IMMEDIATE_PREFIX__ #
                                                   >>  48 #endif
                                                   >>  49 
                                                   >>  50 /* ANSI concatenation macros.  */
                                                   >>  51 
                                                   >>  52 #define CONCAT1(a, b) CONCAT2(a, b)
                                                   >>  53 #define CONCAT2(a, b) a ## b
                                                   >>  54 
                                                   >>  55 /* Use the right prefix for global labels.  */
                                                   >>  56 
                                                   >>  57 #define SYM(x) CONCAT1 (__USER_LABEL_PREFIX__, x)
                                                   >>  58 
                                                   >>  59 /* Use the right prefix for registers.  */
                                                   >>  60 
                                                   >>  61 #define REG(x) CONCAT1 (__REGISTER_PREFIX__, x)
                                                   >>  62 
                                                   >>  63 /* Use the right prefix for immediate values.  */
                                                   >>  64 
                                                   >>  65 #define IMM(x) CONCAT1 (__IMMEDIATE_PREFIX__, x)
                                                   >>  66 
                                                   >>  67 #define d0 REG (d0)
                                                   >>  68 #define d1 REG (d1)
                                                   >>  69 #define d2 REG (d2)
                                                   >>  70 #define d3 REG (d3)
                                                   >>  71 #define d4 REG (d4)
                                                   >>  72 #define d5 REG (d5)
                                                   >>  73 #define d6 REG (d6)
                                                   >>  74 #define d7 REG (d7)
                                                   >>  75 #define a0 REG (a0)
                                                   >>  76 #define a1 REG (a1)
                                                   >>  77 #define a2 REG (a2)
                                                   >>  78 #define a3 REG (a3)
                                                   >>  79 #define a4 REG (a4)
                                                   >>  80 #define a5 REG (a5)
                                                   >>  81 #define a6 REG (a6)
                                                   >>  82 #define fp REG (fp)
                                                   >>  83 #define sp REG (sp)
                                                   >>  84 
                                                   >>  85         .text
                                                   >>  86         .proc
                                                   >>  87         .globl  SYM (__udivsi3)
                                                   >>  88 SYM (__udivsi3):
                                                   >>  89 #if !(defined(__mcf5200__) || defined(__mcoldfire__))
                                                   >>  90         movel   d2, sp@-
                                                   >>  91         movel   sp@(12), d1     /* d1 = divisor */
                                                   >>  92         movel   sp@(8), d0      /* d0 = dividend */
                                                   >>  93 
                                                   >>  94         cmpl    IMM (0x10000), d1 /* divisor >= 2 ^ 16 ?   */
                                                   >>  95         jcc     L3              /* then try next algorithm */
                                                   >>  96         movel   d0, d2
                                                   >>  97         clrw    d2
                                                   >>  98         swap    d2
                                                   >>  99         divu    d1, d2          /* high quotient in lower word */
                                                   >> 100         movew   d2, d0          /* save high quotient */
                                                   >> 101         swap    d0
                                                   >> 102         movew   sp@(10), d2     /* get low dividend + high rest */
                                                   >> 103         divu    d1, d2          /* low quotient */
                                                   >> 104         movew   d2, d0
                                                   >> 105         jra     L6
                                                   >> 106 
                                                   >> 107 L3:     movel   d1, d2          /* use d2 as divisor backup */
                                                   >> 108 L4:     lsrl    IMM (1), d1     /* shift divisor */
                                                   >> 109         lsrl    IMM (1), d0     /* shift dividend */
                                                   >> 110         cmpl    IMM (0x10000), d1 /* still divisor >= 2 ^ 16 ?  */
                                                   >> 111         jcc     L4
                                                   >> 112         divu    d1, d0          /* now we have 16 bit divisor */
                                                   >> 113         andl    IMM (0xffff), d0 /* mask out divisor, ignore remainder */
                                                   >> 114 
                                                   >> 115 /* Multiply the 16 bit tentative quotient with the 32 bit divisor.  Because of
                                                   >> 116    the operand ranges, this might give a 33 bit product.  If this product is
                                                   >> 117    greater than the dividend, the tentative quotient was too large. */
                                                   >> 118         movel   d2, d1
                                                   >> 119         mulu    d0, d1          /* low part, 32 bits */
                                                   >> 120         swap    d2
                                                   >> 121         mulu    d0, d2          /* high part, at most 17 bits */
                                                   >> 122         swap    d2              /* align high part with low part */
                                                   >> 123         tstw    d2              /* high part 17 bits? */
                                                   >> 124         jne     L5              /* if 17 bits, quotient was too large */
                                                   >> 125         addl    d2, d1          /* add parts */
                                                   >> 126         jcs     L5              /* if sum is 33 bits, quotient was too large */
                                                   >> 127         cmpl    sp@(8), d1      /* compare the sum with the dividend */
                                                   >> 128         jls     L6              /* if sum > dividend, quotient was too large */
                                                   >> 129 L5:     subql   IMM (1), d0     /* adjust quotient */
                                                   >> 130 
                                                   >> 131 L6:     movel   sp@+, d2
                                                   >> 132         rts
                                                   >> 133 
                                                   >> 134 #else /* __mcf5200__ || __mcoldfire__ */
                                                   >> 135 
                                                   >> 136 /* Coldfire implementation of non-restoring division algorithm from
                                                   >> 137    Hennessy & Patterson, Appendix A. */
                                                   >> 138         link    a6,IMM (-12)
                                                   >> 139         moveml  d2-d4,sp@
                                                   >> 140         movel   a6@(8),d0
                                                   >> 141         movel   a6@(12),d1
                                                   >> 142         clrl    d2              | clear p
                                                   >> 143         moveq   IMM (31),d4
                                                   >> 144 L1:     addl    d0,d0           | shift reg pair (p,a) one bit left
                                                   >> 145         addxl   d2,d2
                                                   >> 146         movl    d2,d3           | subtract b from p, store in tmp.
                                                   >> 147         subl    d1,d3
                                                   >> 148         jcs     L2              | if no carry,
                                                   >> 149         bset    IMM (0),d0      | set the low order bit of a to 1,
                                                   >> 150         movl    d3,d2           | and store tmp in p.
                                                   >> 151 L2:     subql   IMM (1),d4
                                                   >> 152         jcc     L1
                                                   >> 153         moveml  sp@,d2-d4       | restore data registers
                                                   >> 154         unlk    a6              | and return
                                                   >> 155         rts
                                                   >> 156 #endif /* __mcf5200__ || __mcoldfire__ */
                                                   >> 157         EXPORT_SYMBOL(__udivsi3)
                                                      

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