2012-03-27 23:13:14 +00:00
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/* libgcc routines for the MCore.
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2015-08-28 15:33:40 +00:00
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Copyright (C) 1993-2015 Free Software Foundation, Inc.
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2012-03-27 23:13:14 +00:00
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify it
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under the terms of the GNU General Public License as published by the
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Free Software Foundation; either version 3, or (at your option) any
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later version.
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This file is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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General Public License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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#define CONCAT1(a, b) CONCAT2(a, b)
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#define CONCAT2(a, b) a ## b
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/* Use the right prefix for global labels. */
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#define SYM(x) CONCAT1 (__, x)
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#ifdef __ELF__
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#define TYPE(x) .type SYM (x),@function
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#define SIZE(x) .size SYM (x), . - SYM (x)
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#else
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#define TYPE(x)
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#define SIZE(x)
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#endif
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.macro FUNC_START name
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.text
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.globl SYM (\name)
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TYPE (\name)
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SYM (\name):
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.endm
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.macro FUNC_END name
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SIZE (\name)
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.endm
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#ifdef L_udivsi3
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FUNC_START udiv32
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FUNC_START udivsi32
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movi r1,0 // r1-r2 form 64 bit dividend
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movi r4,1 // r4 is quotient (1 for a sentinel)
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cmpnei r3,0 // look for 0 divisor
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bt 9f
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trap 3 // divide by 0
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9:
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// control iterations; skip across high order 0 bits in dividend
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mov r7,r2
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cmpnei r7,0
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bt 8f
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movi r2,0 // 0 dividend
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jmp r15 // quick return
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8:
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ff1 r7 // figure distance to skip
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lsl r4,r7 // move the sentinel along (with 0's behind)
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lsl r2,r7 // and the low 32 bits of numerator
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// appears to be wrong...
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// tested out incorrectly in our OS work...
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// mov r7,r3 // looking at divisor
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// ff1 r7 // I can move 32-r7 more bits to left.
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// addi r7,1 // ok, one short of that...
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// mov r1,r2
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// lsr r1,r7 // bits that came from low order...
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// rsubi r7,31 // r7 == "32-n" == LEFT distance
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// addi r7,1 // this is (32-n)
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// lsl r4,r7 // fixes the high 32 (quotient)
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// lsl r2,r7
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// cmpnei r4,0
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// bf 4f // the sentinel went away...
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// run the remaining bits
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1: lslc r2,1 // 1 bit left shift of r1-r2
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addc r1,r1
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cmphs r1,r3 // upper 32 of dividend >= divisor?
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bf 2f
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sub r1,r3 // if yes, subtract divisor
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2: addc r4,r4 // shift by 1 and count subtracts
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bf 1b // if sentinel falls out of quotient, stop
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4: mov r2,r4 // return quotient
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mov r3,r1 // and piggyback the remainder
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jmp r15
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FUNC_END udiv32
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FUNC_END udivsi32
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#endif
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#ifdef L_umodsi3
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FUNC_START urem32
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FUNC_START umodsi3
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movi r1,0 // r1-r2 form 64 bit dividend
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movi r4,1 // r4 is quotient (1 for a sentinel)
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cmpnei r3,0 // look for 0 divisor
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bt 9f
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trap 3 // divide by 0
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9:
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// control iterations; skip across high order 0 bits in dividend
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mov r7,r2
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cmpnei r7,0
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bt 8f
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movi r2,0 // 0 dividend
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jmp r15 // quick return
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8:
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ff1 r7 // figure distance to skip
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lsl r4,r7 // move the sentinel along (with 0's behind)
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lsl r2,r7 // and the low 32 bits of numerator
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1: lslc r2,1 // 1 bit left shift of r1-r2
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addc r1,r1
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cmphs r1,r3 // upper 32 of dividend >= divisor?
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bf 2f
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sub r1,r3 // if yes, subtract divisor
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2: addc r4,r4 // shift by 1 and count subtracts
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bf 1b // if sentinel falls out of quotient, stop
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mov r2,r1 // return remainder
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jmp r15
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FUNC_END urem32
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FUNC_END umodsi3
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#endif
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#ifdef L_divsi3
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FUNC_START div32
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FUNC_START divsi3
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mov r5,r2 // calc sign of quotient
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xor r5,r3
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abs r2 // do unsigned divide
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abs r3
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movi r1,0 // r1-r2 form 64 bit dividend
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movi r4,1 // r4 is quotient (1 for a sentinel)
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cmpnei r3,0 // look for 0 divisor
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bt 9f
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trap 3 // divide by 0
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9:
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// control iterations; skip across high order 0 bits in dividend
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mov r7,r2
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cmpnei r7,0
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bt 8f
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movi r2,0 // 0 dividend
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jmp r15 // quick return
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8:
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ff1 r7 // figure distance to skip
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lsl r4,r7 // move the sentinel along (with 0's behind)
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lsl r2,r7 // and the low 32 bits of numerator
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// tested out incorrectly in our OS work...
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// mov r7,r3 // looking at divisor
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// ff1 r7 // I can move 32-r7 more bits to left.
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// addi r7,1 // ok, one short of that...
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// mov r1,r2
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// lsr r1,r7 // bits that came from low order...
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// rsubi r7,31 // r7 == "32-n" == LEFT distance
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// addi r7,1 // this is (32-n)
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// lsl r4,r7 // fixes the high 32 (quotient)
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// lsl r2,r7
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// cmpnei r4,0
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// bf 4f // the sentinel went away...
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// run the remaining bits
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1: lslc r2,1 // 1 bit left shift of r1-r2
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addc r1,r1
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cmphs r1,r3 // upper 32 of dividend >= divisor?
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bf 2f
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sub r1,r3 // if yes, subtract divisor
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2: addc r4,r4 // shift by 1 and count subtracts
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bf 1b // if sentinel falls out of quotient, stop
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4: mov r2,r4 // return quotient
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mov r3,r1 // piggyback the remainder
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btsti r5,31 // after adjusting for sign
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bf 3f
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rsubi r2,0
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rsubi r3,0
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3: jmp r15
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FUNC_END div32
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FUNC_END divsi3
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#endif
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#ifdef L_modsi3
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FUNC_START rem32
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FUNC_START modsi3
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mov r5,r2 // calc sign of remainder
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abs r2 // do unsigned divide
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abs r3
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movi r1,0 // r1-r2 form 64 bit dividend
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movi r4,1 // r4 is quotient (1 for a sentinel)
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cmpnei r3,0 // look for 0 divisor
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bt 9f
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trap 3 // divide by 0
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9:
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// control iterations; skip across high order 0 bits in dividend
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mov r7,r2
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cmpnei r7,0
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bt 8f
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movi r2,0 // 0 dividend
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jmp r15 // quick return
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8:
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ff1 r7 // figure distance to skip
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lsl r4,r7 // move the sentinel along (with 0's behind)
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lsl r2,r7 // and the low 32 bits of numerator
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1: lslc r2,1 // 1 bit left shift of r1-r2
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addc r1,r1
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cmphs r1,r3 // upper 32 of dividend >= divisor?
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bf 2f
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sub r1,r3 // if yes, subtract divisor
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2: addc r4,r4 // shift by 1 and count subtracts
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bf 1b // if sentinel falls out of quotient, stop
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mov r2,r1 // return remainder
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btsti r5,31 // after adjusting for sign
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bf 3f
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rsubi r2,0
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3: jmp r15
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FUNC_END rem32
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FUNC_END modsi3
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#endif
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/* GCC expects that {__eq,__ne,__gt,__ge,__le,__lt}{df2,sf2}
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will behave as __cmpdf2. So, we stub the implementations to
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jump on to __cmpdf2 and __cmpsf2.
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All of these shortcircuit the return path so that __cmp{sd}f2
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will go directly back to the caller. */
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.macro COMPARE_DF_JUMP name
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.import SYM (cmpdf2)
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FUNC_START \name
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jmpi SYM (cmpdf2)
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FUNC_END \name
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.endm
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#ifdef L_eqdf2
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COMPARE_DF_JUMP eqdf2
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#endif /* L_eqdf2 */
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#ifdef L_nedf2
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COMPARE_DF_JUMP nedf2
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#endif /* L_nedf2 */
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#ifdef L_gtdf2
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COMPARE_DF_JUMP gtdf2
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#endif /* L_gtdf2 */
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#ifdef L_gedf2
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COMPARE_DF_JUMP gedf2
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#endif /* L_gedf2 */
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#ifdef L_ltdf2
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COMPARE_DF_JUMP ltdf2
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#endif /* L_ltdf2 */
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#ifdef L_ledf2
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COMPARE_DF_JUMP ledf2
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#endif /* L_ledf2 */
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/* SINGLE PRECISION FLOATING POINT STUBS */
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.macro COMPARE_SF_JUMP name
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.import SYM (cmpsf2)
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FUNC_START \name
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jmpi SYM (cmpsf2)
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FUNC_END \name
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.endm
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#ifdef L_eqsf2
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COMPARE_SF_JUMP eqsf2
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#endif /* L_eqsf2 */
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#ifdef L_nesf2
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COMPARE_SF_JUMP nesf2
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#endif /* L_nesf2 */
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#ifdef L_gtsf2
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COMPARE_SF_JUMP gtsf2
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#endif /* L_gtsf2 */
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#ifdef L_gesf2
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COMPARE_SF_JUMP __gesf2
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#endif /* L_gesf2 */
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#ifdef L_ltsf2
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COMPARE_SF_JUMP __ltsf2
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#endif /* L_ltsf2 */
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#ifdef L_lesf2
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COMPARE_SF_JUMP lesf2
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#endif /* L_lesf2 */
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