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[/] [scarts/] [trunk/] [toolchain/] [scarts-gcc/] [gcc-4.1.1/] [gcc/] [config/] [scarts32/] [libgcc.S] - Rev 12
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/* Copyright (C) 1998, 1999, 2000, 2005 Free Software Foundation, Inc.Contributed by Wolfgang Puffitsch <hausen@gmx.at>This file is free software; you can redistribute it and/or modify itunder the terms of the GNU General Public License as published by theFree Software Foundation; either version 2, or (at your option) anylater version.In addition to the permissions in the GNU General Public License, theFree Software Foundation gives you unlimited permission to link thecompiled version of this file into combinations with other programs,and to distribute those combinations without any restriction comingfrom the use of this file. (The General Public License restrictionsdo apply in other respects; for example, they cover modification ofthe file, and distribution when not linked into a combineexecutable.)This file is distributed in the hope that it will be useful, butWITHOUT ANY WARRANTY; without even the implied warranty ofMERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNUGeneral Public License for more details.You should have received a copy of the GNU General Public Licensealong with this program; see the file COPYING. If not, write tothe Free Software Foundation, 59 Temple Place - Suite 330,Boston, MA 02111-1307, USA. */.file "libgcc.S"/* Most of the functions here are called directly from scarts.mdpatterns, instead of using the standard libcall mechanisms.This can make better code because GCC knows exactly whichof the call-used registers (not all of them) are clobbered. *//*******************************************************Multiplication 32 x 32*******************************************************/#ifdef L_mulsi3.section .text.global __mulsi3.type __mulsi3, @function__mulsi3:ldli r0, 0 ; clear result__mulsi3_loop:btest r2, 0add_ct r0, r1sli r1, 1sri r2, 1cmpi_eq r2, 0jmpi_cf __mulsi3_looprts.size __mulsi3, .-__mulsi3#endif/*******************************************************Multiplication 64 x 64*******************************************************/#ifdef L_muldi3.section .text.global __muldi3.type __muldi3, @function__muldi3:ldfpz r4,0ldfpz r5,1mov r0,r1ldli r6, 0ldli r7, 0__muldi3_loop:btest r2, 0add_ct r6, r4addc_ct r7, r5sli r4, 1addc r5, r5sri r3, 1rrc r2cmpi_eq r2, 0jmpi_cf __muldi3_loopcmpi_eq r3, 0jmpi_cf __muldi3_loopmov r13,r0stw r6,r13addi r13,4stw r7,r13rts.size __muldi3, .-__muldi3#endif/*******************************************************Division 32 x 32*******************************************************/#ifdef L_divsi3.section .text.global __divsi3.type __divsi3, @function__divsi3:cmpi_eq r2, 0 ; avoid division by zerojmpi_ct __divsi3_endcmpi_eq r1, 0 ; we need not divide zeromov_ct r0, r1jmpi_ct __divsi3_end__divsi3_cmpsign:mov r3, r1 ; compute the sign of the resulteor r3, r2cmpi_lt r1, 0 ; make positiveneg_ct r1cmpi_lt r2, 0 ; make positiveneg_ct r2__divsi3_copy:mov r13, r2 ; make a copy of the divisor__divsi3_scale:btest r2, 31 ; scale divisor upsli_cf r2, 1jmpi_cf __divsi3_scaleldli r0, 0 ; clear result__divsi3_loop:cmpu_lt r2, r13 ; check if the divisor is reachedjmpi_ct __divsi3_resignsli r0, 1cmpu_gt r2, r1 ; need to scale back?sub_cf r1, r2addi_cf r0, 1sri r2, 1jmpi __divsi3_loop__divsi3_resign: ; add sign againcmpi_lt r3, 0neg_ct r0__divsi3_end:rts.size __divsi3, .-__divsi3#endif/*******************************************************Division 64 x 64*******************************************************/#ifdef L_divdi3.section .text.global __divdi3.type __divdi3, @function__divdi3:stfpz_dec r1,-1ldfpz r4,1ldfpz r5,2cmpi_eq r4, 0 ; avoid division by zerojmpi_cf __divdi3_startcmpi_eq r5, 0jmpi_ct __divdi3_end__divdi3_start:cmpi_eq r2, 0 ; we need not divide zerojmpi_cf __divdi3_cmpsigncmpi_eq r3, 0mov_ct r0, r2mov_ct r1, r3jmpi_ct __divdi3_end__divdi3_cmpsign:mov r8, r3eor r8, r5ldli r13, 0 ; we use that for incrementingcmpi_lt r3, 0 ; make positivenot_ct r2not_ct r3addi_ct r2, 1addc_ct r3, r13cmpi_lt r5, 0 ; make positivenot_ct r4not_ct r5addi_ct r4, 1addc_ct r5, r13__divdi3_copy:mov r6, r4 ; make a copy of the divisormov r7, r5__divdi3_scale:btest r5, 31 ; scale divisor upsli_cf r4, 1addc_cf r5, r5jmpi_cf __divdi3_scaleldli r0, 0 ; clear resultldli r1, 0__divdi3_loop:cmpu_lt r5, r7 ; check if the divisor is reachedjmpi_ct __divdi3_resigncmpu_gt r5, r7jmpi_ct __divdi3_noteqcmpu_lt r4, r6jmpi_ct __divdi3_resign__divdi3_noteq:sli r0, 1addc r1, r1cmpu_gt r5, r3 ; need to scale back?jmpi_ct __divdi3_nosubcmpu_lt r5, r3jmpi_ct __divdi3_subcmpu_gt r4, r2jmpi_ct __divdi3_nosub__divdi3_sub:sub r2, r4subc r3, r5addi r0, 1addc r1, r13__divdi3_nosub:sri r5, 1rrc r4jmpi __divdi3_loop__divdi3_resign:cmpi_lt r8, 0 ; add sign againnot_ct r0not_ct r1addi_ct r0, 1addc_ct r1, r13__divdi3_end:ldfpz r13, 0stw r0, r13addi r13, 4stw r1, r13ldfpz_inc r0, 0rts.size __divdi3, .-__divdi3#endif/*******************************************************Unsigned Division 32 x 32*******************************************************/#ifdef L_udivsi3.section .text.global __udivsi3.type __udivsi3, @function__udivsi3:cmpi_eq r2, 0 ; avoid division by zerojmpi_ct __udivsi3_endcmpi_eq r1, 0 ; we need not divide zeromov_ct r0, r1jmpi_ct __udivsi3_end__udivsi3_copy:mov r13, r2 ; make a copy of the divisor__udivsi3_scale:btest r2, 31 ; scale divisor upsli_cf r2, 1jmpi_cf __udivsi3_scaleldli r0, 0 ; clear result__udivsi3_loop:cmpu_lt r2, r13 ; check if the divisor is reachedjmpi_ct __udivsi3_endsli r0, 1cmpu_gt r2, r1 ; need to scale back?sub_cf r1, r2addi_cf r0, 1sri r2, 1jmpi __udivsi3_loop__udivsi3_end:rts.size __udivsi3, .-__udivsi3#endif/*******************************************************Unsigned Division 64 x 64*******************************************************/#ifdef L_udivdi3.section .text.global __udivdi3.type __udivdi3, @function__udivdi3:stfpz_dec r1,-1ldfpz r4,1ldfpz r5,2cmpi_eq r4, 0 ; avoid division by zerojmpi_cf __udivdi3_startcmpi_eq r5, 0jmpi_ct __udivdi3_end__udivdi3_start:cmpi_eq r2, 0 ; we need not divide zerojmpi_cf __udivdi3_copycmpi_eq r3, 0mov_ct r0, r2mov_ct r1, r3jmpi_ct __udivdi3_end__udivdi3_copy:mov r6, r4 ; make a copy of the divisormov r7, r5__udivdi3_scale:btest r5, 31 ; scale divisor upsli_cf r4, 1addc_cf r5, r5jmpi_cf __udivdi3_scaleldli r0, 0 ; clear resultldli r1, 0ldli r13, 0 ; we use that for incrementing__udivdi3_loop:cmpu_lt r5, r7 ; check if the divisor is reachedjmpi_ct __udivdi3_endcmpu_gt r5, r7jmpi_ct __udivdi3_noteqcmpu_lt r4, r6jmpi_ct __udivdi3_end__udivdi3_noteq:sli r0, 1addc r1, r1cmpu_gt r5, r3 ; need to scale back?jmpi_ct __udivdi3_nosubcmpu_lt r5, r3jmpi_ct __udivdi3_subcmpu_gt r4, r2jmpi_ct __udivdi3_nosub__udivdi3_sub:sub r2, r4subc r3, r5addi r0, 1addc r1, r13__udivdi3_nosub:sri r5, 1rrc r4jmpi __udivdi3_loop__udivdi3_end:ldfpz r13, 0stw r0, r13addi r13, 4stw r1, r13ldfpz_inc r0, 0rts.size __udivdi3, .-__udivdi3#endif/*******************************************************Modulo 32 x 32*******************************************************/#ifdef L_modsi3.section .text.global __modsi3.type __modsi3, @function__modsi3:cmpi_eq r2, 0 ; avoid division by zerojmpi_ct __modsi3_endcmpi_eq r1, 0 ; we need not divide zeromov_ct r0, r1jmpi_ct __modsi3_end__modsi3_cmpsign:mov r3, r1 ; compute the sign of the resultcmpi_lt r1, 0 ; make positiveneg_ct r1cmpi_lt r2, 0 ; make positiveneg_ct r2__modsi3_copy:mov r13, r2 ; make a copy of the divisor__modsi3_scale:btest r2, 31 ; scale divisor upsli_cf r2, 1jmpi_cf __modsi3_scale__modsi3_loop:cmpu_lt r2, r13 ; check if the divisor is reachedjmpi_ct __modsi3_resigncmpu_gt r2, r1 ; need to scale back?sub_cf r1, r2sri r2, 1jmpi __modsi3_loop__modsi3_resign: ; add sign againmov r0, r1cmpi_lt r3, 0neg_ct r0__modsi3_end:rts.size __modsi3, .-__modsi3#endif/*******************************************************Modulo 64 x 64*******************************************************/#ifdef L_moddi3.section .text.global __moddi3.type __moddi3, @function__moddi3:ldfpz r4,0ldfpz r5,1cmpi_eq r4, 0 ; avoid division by zerojmpi_cf __moddi3_startcmpi_eq r5, 0jmpi_ct __moddi3_end__moddi3_start:cmpi_eq r2, 0 ; we need not divide zerojmpi_cf __moddi3_cmpsigncmpi_eq r3, 0jmpi_ct __moddi3_end__moddi3_cmpsign:mov r0, r3 ; compute the sign of resultldli r13, 0 ; we use that for incrementingcmpi_lt r3, 0 ; make positivenot_ct r2not_ct r3addi_ct r2, 1addc_ct r3, r13cmpi_lt r5, 0 ; make positivenot_ct r4not_ct r5addi_ct r4, 1addc_ct r5, r13__moddi3_copy:mov r6, r4 ; make a copy of the divisormov r7, r5__moddi3_scale:btest r5, 31 ; scale divisor upsli_cf r4, 1addc_cf r5, r5jmpi_cf __moddi3_scale__moddi3_loop:cmpu_lt r5, r7 ; check if the divisor is reachedjmpi_ct __moddi3_resigncmpu_gt r5, r7jmpi_ct __moddi3_noteqcmpu_lt r4, r6jmpi_ct __moddi3_resign__moddi3_noteq:cmpu_gt r5, r3 ; need to scale back?jmpi_ct __moddi3_nosubcmpu_lt r5, r3jmpi_ct __moddi3_subcmpu_gt r4, r2jmpi_ct __moddi3_nosub__moddi3_sub:sub r2, r4subc r3, r5__moddi3_nosub:sri r5, 1rrc r4jmpi __moddi3_loop__moddi3_resign:cmpi_lt r0, 0 ; add sign againnot_ct r2not_ct r3addi_ct r2, 1addc_ct r3, r13__moddi3_end:mov r13, r1stw r2, r13addi r13, 4stw r3, r13mov r0, r1rts.size __moddi3, .-__moddi3#endif/*******************************************************Unsigned Modulo 32 x 32*******************************************************/#ifdef L_umodsi3.section .text.global __umodsi3.type __umodsi3, @function__umodsi3:cmpi_eq r2, 0 ; avoid division by zerojmpi_ct __umodsi3_endcmpi_eq r1, 0 ; we need not divide zeromov_ct r0, r1jmpi_ct __umodsi3_end__umodsi3_copy:mov r13, r2 ; make a copy of the divisor__umodsi3_scale:btest r2, 31 ; scale divisor upsli_cf r2, 1jmpi_cf __umodsi3_scale__umodsi3_loop:cmpu_lt r2, r13 ; check if the divisor is reachedjmpi_ct __umodsi3_endcmpu_gt r2, r1 ; need to scale back?sub_cf r1, r2sri r2, 1jmpi __umodsi3_loop__umodsi3_end:mov r0, r1rts.size __umodsi3, .-__umodsi3#endif/*******************************************************Unsigned Modulo 64 x 64*******************************************************/#ifdef L_umoddi3.section .text.global __umoddi3.type __umoddi3, @function__umoddi3:ldfpz r4,0ldfpz r5,1cmpi_eq r4, 0 ; avoid division by zerojmpi_cf __umoddi3_startcmpi_eq r5, 0jmpi_ct __umoddi3_end__umoddi3_start:cmpi_eq r2, 0 ; we need not divide zerojmpi_cf __umoddi3_copycmpi_eq r3, 0mov_ct r4, r2mov_ct r5, r3jmpi_ct __umoddi3_end__umoddi3_copy:mov r6, r4 ; make a copy of the divisormov r7, r5__umoddi3_scale:btest r5, 31 ; scale divisor upsli_cf r4, 1addc_cf r5, r5jmpi_cf __umoddi3_scale__umoddi3_loop:cmpu_lt r5, r7 ; check if the divisor is reachedjmpi_ct __umoddi3_endcmpu_gt r5, r7jmpi_ct __umoddi3_noteqcmpu_lt r4, r6jmpi_ct __umoddi3_end__umoddi3_noteq:cmpu_gt r5, r3 ; need to scale back?jmpi_ct __umoddi3_nosubcmpu_lt r5, r3jmpi_ct __umoddi3_subcmpu_gt r4, r2jmpi_ct __umoddi3_nosub__umoddi3_sub:sub r2, r4subc r3, r5__umoddi3_nosub:sri r5, 1rrc r4jmpi __umoddi3_loop__umoddi3_end:mov r13, r1stw r2, r13addi r13, 4stw r3, r13mov r0, r1rts.size __umoddi3, .-__umoddi3#endif/*******************************************************Shift right logic 64*******************************************************/#ifdef L_lshrdi3.section .text.global __lshrdi3.type __lshrdi3, @function__lshrdi3:mov r0,r1__lshrdi3_loop:cmpi_gt r4, 0sri_ct r3, 1rrc_ct r2addi_ct r4, -1jmpi_ct __lshrdi3_loopmov r13,r0stw r2, r13addi r13, 4stw r3, r13rts.size __lshrdi3, .-__lshrdi3#endif/*******************************************************Shift right arithmetic 64*******************************************************/#ifdef L_ashrdi3.section .text.global __ashrdi3.type __ashrdi3, @function__ashrdi3:mov r0,r1__ashrdi3_loop:cmpi_gt r4, 0srai_ct r3, 1rrc_ct r2addi_ct r4, -1jmpi_ct __ashrdi3_loopmov r13,r0stw r2, r13addi r13, 4stw r3, r13rts.size __ashrdi3, .-__ashrdi3#endif/*******************************************************Shift left 64*******************************************************/#ifdef L_ashldi3.section .text.global __ashldi3.type __ashldi3, @function__ashldi3:mov r0,r1__ashldi3_loop:cmpi_gt r4, 0sli_ct r2, 1addc_ct r3, r3addi_ct r4, -1jmpi_ct __ashldi3_loopmov r13,r0stw r2, r13addi r13, 4stw r3, r13rts.size __ashldi3, .-__ashldi3#endif/*******************************************************Find first set bit 32*******************************************************/#ifdef L_ffssi2.section .text.global __ffssi2.type __ffssi2, @function__ffssi2:cmpi_eq r1, 0 ; return zero if no bit is setmov_ct r0, r1jmpi_ct __ffssi2_endldli r0, 1__ffssi2_loop:btest r1, 0 ; test bitsri_cf r1, 1addi_cf r0, 1 ; update loop counterjmpi_cf __ffssi2_loop__ffssi2_end:rts.size __ffssi2, .-__ffssi2#endif/*******************************************************Find first set bit 64*******************************************************/#ifdef L_ffsdi2.section .text.global __ffsdi2.type __ffsdi2, @function__ffsdi2:cmpi_eq r1, 0 ; return zero if no bit is setjmpi_cf __ffsdi2_startcmpi_eq r2, 0mov_ct r0, r1jmpi_ct __ffsdi2_end__ffsdi2_start:ldli r0, 1__ffsdi2_loop:btest r1, 0 ; test bitsri_cf r2, 1rrc_cf r1addi_cf r0, 1 ; update loop counterjmpi_cf __ffsdi2_loop__ffsdi2_end:rts.size __ffsdi2, .-__ffsdi2#endif/*******************************************************Count trailing zero bits 32*******************************************************/#ifdef L_ctzsi2.section .text.global __ctzsi2.type __ctzsi2, @function__ctzsi2:ldli r0, 32 ; return 32 if no bit is setcmpi_eq r1, 0jmpi_ct __ctzsi2_endldli r0, 0__ctzsi2_loop:btest r1, 0 ; test bitsri_cf r1, 1addi_cf r0, 1 ; update loop counterjmpi_cf __ctzsi2_loop__ctzsi2_end:rts.size __ctzsi2, .-__ctzsi2#endif/*******************************************************Count trailing zero bits 64*******************************************************/#ifdef L_ctzdi2.section .text.global __ctzdi2.type __ctzdi2, @function__ctzdi2:ldli r0, 64 ; return 64 if no bit is setcmpi_eq r1, 0jmpi_cf __ctzdi2_startcmpi_eq r2, 0jmpi_ct __ctzdi2_end__ctzdi2_start:ldli r0, 0__ctzdi2_loop:btest r1, 0 ; test bitsri_cf r2, 1rrc_cf r1addi_cf r0, 1 ; update loop counterjmpi_cf __ctzdi2_loop__ctzdi2_end:rts.size __ctzdi2, .-__ctzdi2#endif/*******************************************************Count leading zero bits 32*******************************************************/#ifdef L_clzsi2.section .text.global __clzsi2.type __clzsi2, @function__clzsi2:ldli r0, 32 ; return 32 if no bit is setcmpi_eq r1, 0jmpi_ct __clzsi2_endldli r0, 0__clzsi2_loop:btest r1, 31 ; test bitsli_cf r1, 1addi_cf r0, 1 ; update loop counterjmpi_cf __clzsi2_loop__clzsi2_end:rts.size __clzsi2, .-__clzsi2#endif/*******************************************************Count leading zero bits 64*******************************************************/#ifdef L_clzdi2.section .text.global __clzdi2.type __clzdi2, @function__clzdi2:ldli r0, 64 ; return 64 if no bit is setcmpi_eq r1, 0jmpi_cf __clzdi2_startcmpi_eq r2, 0jmpi_ct __clzdi2_end__clzdi2_start:ldli r0, 0__clzdi2_loop:btest r2, 31 ; test bitsli_cf r1, 1addc_cf r2, r2addi_cf r0, 1 ; update loop counterjmpi_cf __clzdi2_loop__clzdi2_end:rts.size __clzdi2, .-__clzdi2#endif/*******************************************************Count set bits 32*******************************************************/#ifdef L_popcountsi2.section .text.global __popcountsi2.type __popcountsi2, @function__popcountsi2:ldli r0, 0 ; return 0 if no bit is set__popcountsi2_loop:btest r1, 0 ; test bitaddi_ct r0, 1 ; update loop countersri r1, 1cmpi_eq r1, 0jmpi_cf __popcountsi2_loop__popcountsi2_end:rts.size __popcountsi2, .-__popcountsi2#endif/*******************************************************Count set bits 64*******************************************************/#ifdef L_popcountdi2.section .text.global __popcountdi2.type __popcountdi2, @function__popcountdi2:ldli r0, 0 ; return 0 if no bit is set__popcountdi2_loop:btest r1, 0 ; test bitaddi_ct r0, 1 ; update loop countersri r2, 1rrc r1cmpi_eq r1, 0jmpi_cf __popcountdi2_loopcmpi_eq r2, 0jmpi_cf __popcountdi2_loop__popcountdi2_end:rts.size __popcountdi2, .-__popcountdi2#endif/*******************************************************Compute parity 32*******************************************************/#ifdef L_paritysi2.section .text.global __paritysi2.type __paritysi2, @function__paritysi2:ldli r0, 0 ; return 0 if no bit is set__paritysi2_loop:btest r1, 0 ; test bitaddi_ct r0, 1 ; update loop countersri r1, 1cmpi_eq r1, 0jmpi_cf __paritysi2_loop__paritysi2_end:ldli r13, 1and r0, r13rts.size __paritysi2, .-__paritysi2#endif/*******************************************************Compute parity 64*******************************************************/#ifdef L_paritydi2.section .text.global __paritydi2.type __paritydi2, @function__paritydi2:ldli r0, 0 ; return 0 if no bit is set__paritydi2_loop:btest r1, 0 ; test bitaddi_ct r0, 1 ; update loop countersri r2, 1rrc r1cmpi_eq r1, 0jmpi_cf __paritydi2_loopcmpi_eq r2, 0jmpi_cf __paritydi2_loop__paritydi2_end:ldli r13, 1and r0, r13rts.size __paritydi2, .-__paritydi2#endif