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1da177e4c3
Initial git repository build. I'm not bothering with the full history, even though we have it. We can create a separate "historical" git archive of that later if we want to, and in the meantime it's about 3.2GB when imported into git - space that would just make the early git days unnecessarily complicated, when we don't have a lot of good infrastructure for it. Let it rip!
185 lines
6.4 KiB
C
185 lines
6.4 KiB
C
/* longlong.h -- based on code from gcc-2.95.3
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definitions for mixed size 32/64 bit arithmetic.
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Copyright (C) 1991, 92, 94, 95, 96, 1997, 1998 Free Software Foundation, Inc.
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This definition file is free software; you can redistribute it
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and/or modify it under the terms of the GNU General Public
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License as published by the Free Software Foundation; either
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version 2, or (at your option) any later version.
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This definition file is distributed in the hope that it will be
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useful, but WITHOUT ANY WARRANTY; without even the implied
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warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to the Free Software
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Foundation, Inc., 59 Temple Place - Suite 330,
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Boston, MA 02111-1307, USA. */
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/* Borrowed from GCC 2.95.3, I Molton 29/07/01 */
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#ifndef SI_TYPE_SIZE
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#define SI_TYPE_SIZE 32
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#endif
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#define __BITS4 (SI_TYPE_SIZE / 4)
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#define __ll_B (1L << (SI_TYPE_SIZE / 2))
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#define __ll_lowpart(t) ((USItype) (t) % __ll_B)
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#define __ll_highpart(t) ((USItype) (t) / __ll_B)
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/* Define auxiliary asm macros.
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1) umul_ppmm(high_prod, low_prod, multipler, multiplicand)
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multiplies two USItype integers MULTIPLER and MULTIPLICAND,
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and generates a two-part USItype product in HIGH_PROD and
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LOW_PROD.
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2) __umulsidi3(a,b) multiplies two USItype integers A and B,
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and returns a UDItype product. This is just a variant of umul_ppmm.
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3) udiv_qrnnd(quotient, remainder, high_numerator, low_numerator,
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denominator) divides a two-word unsigned integer, composed by the
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integers HIGH_NUMERATOR and LOW_NUMERATOR, by DENOMINATOR and
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places the quotient in QUOTIENT and the remainder in REMAINDER.
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HIGH_NUMERATOR must be less than DENOMINATOR for correct operation.
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If, in addition, the most significant bit of DENOMINATOR must be 1,
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then the pre-processor symbol UDIV_NEEDS_NORMALIZATION is defined to 1.
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4) sdiv_qrnnd(quotient, remainder, high_numerator, low_numerator,
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denominator). Like udiv_qrnnd but the numbers are signed. The
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quotient is rounded towards 0.
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5) count_leading_zeros(count, x) counts the number of zero-bits from
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the msb to the first non-zero bit. This is the number of steps X
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needs to be shifted left to set the msb. Undefined for X == 0.
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6) add_ssaaaa(high_sum, low_sum, high_addend_1, low_addend_1,
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high_addend_2, low_addend_2) adds two two-word unsigned integers,
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composed by HIGH_ADDEND_1 and LOW_ADDEND_1, and HIGH_ADDEND_2 and
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LOW_ADDEND_2 respectively. The result is placed in HIGH_SUM and
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LOW_SUM. Overflow (i.e. carry out) is not stored anywhere, and is
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lost.
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7) sub_ddmmss(high_difference, low_difference, high_minuend,
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low_minuend, high_subtrahend, low_subtrahend) subtracts two
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two-word unsigned integers, composed by HIGH_MINUEND_1 and
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LOW_MINUEND_1, and HIGH_SUBTRAHEND_2 and LOW_SUBTRAHEND_2
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respectively. The result is placed in HIGH_DIFFERENCE and
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LOW_DIFFERENCE. Overflow (i.e. carry out) is not stored anywhere,
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and is lost.
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If any of these macros are left undefined for a particular CPU,
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C macros are used. */
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#if defined (__arm__)
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#define add_ssaaaa(sh, sl, ah, al, bh, bl) \
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__asm__ ("adds %1, %4, %5 \n\
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adc %0, %2, %3" \
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: "=r" ((USItype) (sh)), \
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"=&r" ((USItype) (sl)) \
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: "%r" ((USItype) (ah)), \
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"rI" ((USItype) (bh)), \
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"%r" ((USItype) (al)), \
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"rI" ((USItype) (bl)))
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#define sub_ddmmss(sh, sl, ah, al, bh, bl) \
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__asm__ ("subs %1, %4, %5 \n\
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sbc %0, %2, %3" \
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: "=r" ((USItype) (sh)), \
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"=&r" ((USItype) (sl)) \
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: "r" ((USItype) (ah)), \
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"rI" ((USItype) (bh)), \
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"r" ((USItype) (al)), \
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"rI" ((USItype) (bl)))
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#define umul_ppmm(xh, xl, a, b) \
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{register USItype __t0, __t1, __t2; \
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__asm__ ("%@ Inlined umul_ppmm \n\
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mov %2, %5, lsr #16 \n\
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mov %0, %6, lsr #16 \n\
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bic %3, %5, %2, lsl #16 \n\
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bic %4, %6, %0, lsl #16 \n\
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mul %1, %3, %4 \n\
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mul %4, %2, %4 \n\
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mul %3, %0, %3 \n\
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mul %0, %2, %0 \n\
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adds %3, %4, %3 \n\
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addcs %0, %0, #65536 \n\
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adds %1, %1, %3, lsl #16 \n\
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adc %0, %0, %3, lsr #16" \
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: "=&r" ((USItype) (xh)), \
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"=r" ((USItype) (xl)), \
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"=&r" (__t0), "=&r" (__t1), "=r" (__t2) \
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: "r" ((USItype) (a)), \
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"r" ((USItype) (b)));}
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#define UMUL_TIME 20
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#define UDIV_TIME 100
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#endif /* __arm__ */
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#define __umulsidi3(u, v) \
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({DIunion __w; \
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umul_ppmm (__w.s.high, __w.s.low, u, v); \
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__w.ll; })
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#define __udiv_qrnnd_c(q, r, n1, n0, d) \
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do { \
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USItype __d1, __d0, __q1, __q0; \
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USItype __r1, __r0, __m; \
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__d1 = __ll_highpart (d); \
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__d0 = __ll_lowpart (d); \
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\
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__r1 = (n1) % __d1; \
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__q1 = (n1) / __d1; \
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__m = (USItype) __q1 * __d0; \
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__r1 = __r1 * __ll_B | __ll_highpart (n0); \
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if (__r1 < __m) \
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{ \
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__q1--, __r1 += (d); \
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if (__r1 >= (d)) /* i.e. we didn't get carry when adding to __r1 */\
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if (__r1 < __m) \
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__q1--, __r1 += (d); \
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} \
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__r1 -= __m; \
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\
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__r0 = __r1 % __d1; \
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__q0 = __r1 / __d1; \
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__m = (USItype) __q0 * __d0; \
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__r0 = __r0 * __ll_B | __ll_lowpart (n0); \
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if (__r0 < __m) \
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{ \
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__q0--, __r0 += (d); \
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if (__r0 >= (d)) \
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if (__r0 < __m) \
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__q0--, __r0 += (d); \
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} \
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__r0 -= __m; \
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\
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(q) = (USItype) __q1 * __ll_B | __q0; \
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(r) = __r0; \
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} while (0)
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#define UDIV_NEEDS_NORMALIZATION 1
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#define udiv_qrnnd __udiv_qrnnd_c
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extern const UQItype __clz_tab[];
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#define count_leading_zeros(count, x) \
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do { \
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USItype __xr = (x); \
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USItype __a; \
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\
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if (SI_TYPE_SIZE <= 32) \
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{ \
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__a = __xr < ((USItype)1<<2*__BITS4) \
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? (__xr < ((USItype)1<<__BITS4) ? 0 : __BITS4) \
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: (__xr < ((USItype)1<<3*__BITS4) ? 2*__BITS4 : 3*__BITS4); \
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} \
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else \
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{ \
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for (__a = SI_TYPE_SIZE - 8; __a > 0; __a -= 8) \
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if (((__xr >> __a) & 0xff) != 0) \
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break; \
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} \
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\
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(count) = SI_TYPE_SIZE - (__clz_tab[__xr >> __a] + __a); \
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} while (0)
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