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// Copyright (c) 1995-2009 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of the License "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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// e32\euser\epoc\arm\uc_gcc.cia
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//
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//
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#include <u32std.h>
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#include <e32math.h>
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#include "uc_std.h"
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extern "C" {
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EXPORT_C __NAKED__ long long __fixdfdi(double /*aVal*/)
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{
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// r0:r1 contains argument, return result in r1:r0
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#ifdef __DOUBLE_WORDS_SWAPPED__
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asm("mov r2, r0 "); // save sign
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#else
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asm("mov r2, r1 "); // save sign
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asm("mov r1, r0 ");
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asm("mov r0, r2 ");
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#endif
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asm("bic r0, r0, #0x80000000 "); // remove sign bit from r0
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asm("mov r3, #0x400 "); // r3=0x43E = exponent of 2^63
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asm("orr r3, r3, #0x3E ");
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asm("subs r3, r3, r0, lsr #20 "); // r3=0x43E-exponent = number of right shifts needed
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asm("ble 1f "); // branch to saturate result if exp>=0x43E
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asm("cmp r3, #63 ");
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asm("bgt 2f "); // branch to produce zero result if exp<0x3FF
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asm("mov r12, r0, lsl #11 "); // left justify mantissa in r1:r0
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asm("orr r12, r12, r1, lsr #21 ");
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asm("mov r0, r1, lsl #11 ");
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asm("orr r1, r12, #0x80000000 "); // put in implied integer bit
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asm("cmp r3, #32 "); // check if >=32 shifts needed
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asm("subge r3, r3, #32 "); // if so reduce count by 32
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asm("movge r0, r1, lsr r3 "); // and shift right by (32+r3)
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asm("movge r1, #0 ");
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asm("rsblt r12, r3, #32 "); // else shift right by r3
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asm("movlt r0, r0, lsr r3 ");
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asm("orrlt r0, r0, r1, lsl r12 ");
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asm("movlt r1, r1, lsr r3 ");
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asm("movs r2, r2 "); // test sign bit
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__JUMP(pl,lr); // if +ve, finished
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asm("rsbs r0, r0, #0 "); // if -ve, negate
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asm("rsc r1, r1, #0 ");
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__JUMP(,lr);
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asm("2: ");
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asm("mov r0, #0 ");
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asm("mov r1, #0 ");
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__JUMP(,lr); // return 0
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asm("1: "); // produce saturated result
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asm("mvn r1, r2, asr #32 "); // if +ve, r1=FFFFFFFF else r1=0
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asm("mov r0, r1 "); //
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asm("eor r1, r1, #0x80000000 "); // if +ve, r1:r0=7FFFFFFF FFFFFFFF else r1:r0=80000000 00000000
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__JUMP(,lr);
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}
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EXPORT_C __NAKED__ double __floatdidf(long long /*a*/)
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//
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// Convert 64-bit signed integer to double
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//
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{
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// r1:r0 = input, return output in r0,r1
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asm("mov r2, #0x40000000 "); // r2 will hold result exponent
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asm("and r12, r1, #0x80000000 "); // save sign in r12
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asm("cmp r1, #0 "); // test for MS word negative or zero
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asm("orr r2, r2, #0x01E00000 "); // r2=0x41E=exponent of 2^31
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asm("bpl 1f "); // skip if +
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asm("rsbs r0, r0, #0 "); // else negate
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asm("rscs r1, r1, #0 ");
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asm("1: ");
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asm("bne 2f "); // branch if ms word nonzero
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asm("cmp r0, #0 "); // check if ls word also zero
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__JUMP(eq,lr);
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asm("cmp r0, #0x10000 "); // normalise r1 and adjust exponent
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asm("movcc r0, r0, lsl #16 ");
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asm("subcc r2, r2, #0x01000000 ");
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asm("cmp r0, #0x1000000 ");
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asm("movcc r0, r0, lsl #8 ");
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asm("subcc r2, r2, #0x00800000 ");
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asm("cmp r0, #0x10000000 ");
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asm("movcc r0, r0, lsl #4 ");
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asm("subcc r2, r2, #0x00400000 ");
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asm("cmp r0, #0x40000000 ");
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asm("movcc r0, r0, lsl #2 ");
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asm("subcc r2, r2, #0x00200000 ");
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asm("cmp r0, #0x80000000 ");
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asm("movcc r0, r0, lsl #1 ");
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asm("subcc r2, r2, #0x00100000 ");
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asm("bic r1, r0, #0x80000000 "); // remove implied integer bit
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asm("orr r0, r2, r12 "); // sign+exponent into r0
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asm("orr r0, r0, r1, lsr #11 "); // top 21 mantissa bits into r0
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asm("mov r1, r1, lsl #21 "); // remaining 11 mantissa bits in r1
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asm("b 0f ");
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asm("2: "); // come here if ms word non zero
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asm("mov r3, #32 "); // r3=32-shift count
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asm("cmp r1, #0x00010000 ");
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asm("movcc r1, r1, lsl #16 ");
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asm("subcc r3, r3, #16 ");
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asm("cmp r1, #0x01000000 ");
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asm("movcc r1, r1, lsl #8 ");
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asm("subcc r3, r3, #8 ");
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asm("cmp r1, #0x10000000 ");
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asm("movcc r1, r1, lsl #4 ");
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asm("subcc r3, r3, #4 ");
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asm("cmp r1, #0x40000000 ");
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asm("movcc r1, r1, lsl #2 ");
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asm("subcc r3, r3, #2 ");
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asm("cmp r1, #0x80000000 ");
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asm("movcc r1, r1, lsl #1 ");
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asm("subcc r3, r3, #1 ");
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asm("add r2, r2, r3, lsl #20 "); // r2 now holds result exponent
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asm("orr r1, r1, r0, lsr r3 "); // normalise r1:r0
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asm("rsb r3, r3, #32 ");
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asm("mov r0, r0, lsl r3 ");
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asm("mov r3, r0, lsl #21 "); // rounding bits into r3
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asm("cmp r3, #0x80000000 "); // C=1 to round up or halfway, C=0 to round down
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asm("moveqs r3, r0, lsr #12 "); // if exactly half-way, carry=LSB of mantissa
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asm("addcss r0, r0, #0x800 "); // if C=1, round up
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asm("adcs r1, r1, #0 ");
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asm("addcs r2, r2, #0x00100000 "); // if carry, increment exponent
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asm("bic r3, r1, #0x80000000 "); // remove implied integer bit
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asm("mov r1, r0, lsr #11 "); // shift mantissa down to correct position
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asm("orr r1, r1, r3, lsl #21 ");
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asm("orr r0, r2, r3, lsr #11 "); // and put in exponent
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asm("orr r0, r0, r12 "); // put in sign bit
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asm("0: ");
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#ifndef __DOUBLE_WORDS_SWAPPED__
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asm("mov r2, r1 "); // save sign
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asm("mov r1, r0 ");
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asm("mov r0, r2 ");
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#endif
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__JUMP(,lr);
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}
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}
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