Identify (and sometimes fix) remaining uses of old-style GCC name mangling in cia files - Bug 3115
Instances which don't have defined "CSM_xxx" macros are marked "// CSM needed"
// Copyright (c) 1998-2009 Nokia Corporation and/or its subsidiary(-ies).
// All rights reserved.
// This component and the accompanying materials are made available
// under the terms of the License "Eclipse Public License v1.0"
// which accompanies this distribution, and is available
// at the URL "http://www.eclipse.org/legal/epl-v10.html".
//
// Initial Contributors:
// Nokia Corporation - initial contribution.
//
// Contributors:
//
// Description:
// e32\common\arm\carray.cia
// Machine coded arrays for ARM
//
//
#include <e32cia.h>
#include "../common.h"
#ifdef __ARRAY_MACHINE_CODED__
extern "C" void PanicBadArrayFindMode();
EXPORT_C __NAKED__ TAny*& RPointerArrayBase::At(TInt /*anIndex*/) const
{
asm("ldmia r0, {r2,r3} "); // r2=iCount, r3=iEntries
asm("cmp r1, #0 "); // check anIndex>=0
asm("cmpge r2, r1 "); // if so, check iCount>anIndex
asm("addgt r0, r3, r1, lsl #2 "); // address of entry = iEntries+4*anIndex
#ifdef __CPU_ARMV6
asm("ble 1f "); // avoid conditional return on ARMv6
__JUMP(,lr);
#else
__JUMP(gt,lr);
#endif
asm("1: ");
asm("b " CSM_Z18PanicBadArrayIndexv);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::Append(const TAny* /*anEntry*/)
{
asm("ldmia r0, {r2,r3,r12} "); // r2=iCount, r3=iEntries, r12=iAllocated
asm("cmp r2, r12 ");
asm("beq ptr_append_1 ");
asm("ptr_append_0: ");
asm("str r1, [r3, r2, lsl #2] ");
asm("add r2, r2, #1 ");
asm("str r2, [r0] ");
asm("mov r0, #0 ");
__JUMP(,lr);
asm("ptr_append_1: ");
asm("stmfd sp!, {r0,r1,r2,lr} ");
asm("bl " CSM_ZN17RPointerArrayBase4GrowEv);
asm("cmp r0, #0 ");
asm("bne ptr_append_2 ");
asm("ldmfd sp!, {r0,r1,r2,lr} ");
asm("ldmia r0, {r2, r3} ");
asm("b ptr_append_0 ");
asm("ptr_append_2: "); // error enlarging array
asm("add sp, sp, #12 ");
__POPRET("");
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::Find(const TAny* /*anEntry*/) const
{
asm("ldmia r0, {r2,r3} "); // r2=iCount, r3=iEntries
asm("mov r0, #0 "); // r0=0 (will be index+1)
asm("subs r2, r2, #1 "); // r2=iCount-1
asm("blt 0f ");
asm("1: ");
asm("ldr r12, [r3], #4 "); // r12=iEntries[r0]
asm("add r0, r0, #1 "); // r0 = index+1
asm("cmp r2, r0 "); // C=1 iff iCount-1>=index+1 iff index<=iCount-2 iff this isn't last entry
asm("teq r12, r1 "); // check for equality, doesn't affect C
asm("bhi 1b "); // loop if C=1 & Z=0, i.e. if no match and this isn't last entry
asm("0: ");
asm("movne r0, #0 "); // if no match set r0=0
asm("sub r0, r0, #1 "); // r0 was index+1, return index
__JUMP(,lr);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::Find(const TAny* /*anEntry*/, TGeneralIdentityRelation /*anIdentity*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r4-r8,lr} ");
__EH_FRAME_PUSH2(r4-r8,lr)
asm("ldmia r0, {r4,r5} "); // r4=iCount, r5=iEntries
asm("mvn r6, #0 ");
asm("mov r7, r1 ");
asm("mov r8, r2 ");
asm("subs r4, r4, #1 "); // r4=iCount-1
asm("bmi ptr_find2_return "); // if count=0, return -1
asm("ptr_find2_loop: ");
asm("ldr r1, [r5], #4 "); // r1=pointer to entry r6
asm("add r6, r6, #1 ");
asm("mov r0, r7 "); // r0=anEntry
__JUMPL(8);
asm("cmp r0, #0 ");
asm("bne ptr_find2_return "); // if equal, return r6
asm("cmp r6, r4 ");
asm("blt ptr_find2_loop ");
asm("mvn r6, #0 ");
asm("ptr_find2_return: "); // return r6
asm("mov r0, r6 ");
__POPRET("r4-r8,");
__EH_FNEND
}
EXPORT_C TInt RPointerArrayBase::BinarySearchSigned(TInt anEntry, TInt& anIndex) const
{
return RPointerArrayBase::BinarySearchSigned(anEntry, anIndex, 0);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::BinarySearchSigned(TInt /*anEntry*/, TInt& /*anIndex*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r4-r6,lr} ");
__EH_FRAME_PUSH2(r4-r6,lr)
asm("mov r6, r2 "); // r6=&anIndex
asm("ldmia r0, {r2,r4} "); // r2=count, r4=iEntries
asm("bl BinarySearchSigned ");
asm("str r2, [r6] "); // store index
__POPRET("r4-r6,");
// Binary search list of signed integers
// Match value in r1
// List address in r4
// Count in r2
// Match mode in r3
// Return with: r0=0 if match found, r0=-1 otherwise
// Z flag set if match found, clear if not
// r2=index of match or next higher
// r5 modified
asm("BinarySearchSigned: ");
#ifdef _DEBUG
asm("cmp r3, #%a0" : : "i" ((TInt)EArrayFindMode_Limit) );
asm("bhs PanicBadArrayFindMode ");
#endif
asm("mov r3, r3, lsl #30 "); // match mode -> bits 30,31 (00000000=any, 40000000=first, 80000000=last)
asm("orr r3, r3, #1 "); // set NOT FOUND flag
asm("cmp r2, #0 "); // r2 will be right index
asm("beq 0f ");
asm("mov r5, #0 "); // r5 = left index
asm("1: ");
asm("add r12, r2, r5 ");
asm("mov r12, r12, lsr #1 "); // r12 = mid index
asm("ldr r0, [r4, r12, lsl #2] "); // r0 = entry[mid]
asm("subs r0, r0, r1 "); // r0 = entry[mid] - match
asm("beq 2f "); // if match branch out
asm("3: ");
asm("addlt r5, r12, #1 "); // else if entry<match left=mid+1
asm("movgt r2, r12 "); // else if entry>match right=mid
asm("subs r0, r2, r5 "); // right > left ?
asm("bgt 1b "); // r0 = 0 when loop terminates
asm("0: ");
asm("tst r3, #1 "); // test not found flag
asm("mvnnes r0, #0 "); // if set r0=-1 = KErrNotFound
__JUMP(,lr);
asm("2: ");
asm("bics r3, r3, #1 "); // clear NOT FOUND flag, test for find mode ANY (Z set if so)
asm("bne 3b "); // if not, V=0 (left from subs), N=1 for last, 0 for first, Z=0 => LAST->LT FIRST->GT
asm("mov r2, r12 "); // if so, r2 = mid
__JUMP(,lr); // and return with r0 = 0
__EH_FNEND
}
EXPORT_C TInt RPointerArrayBase::BinarySearchUnsigned(TUint anEntry, TInt& anIndex) const
{
return RPointerArrayBase::BinarySearchUnsigned(anEntry, anIndex, 0);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::BinarySearchUnsigned(TUint /*anEntry*/, TInt& /*anIndex*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r4-r6,lr} ");
__EH_FRAME_PUSH2(r4-r6,lr)
asm("mov r6, r2 "); // r6=&anIndex
asm("ldmia r0, {r2,r4} "); // r2=count, r4=iEntries
asm("bl BinarySearchUnsigned ");
asm("str r2, [r6] "); // store index
__POPRET("r4-r6,");
// Binary search list of unsigned integers
// Match value in r1
// List address in r4
// Count in r2
// Match mode in r3
// Return with: r0=0 if match found, r0=-1 otherwise
// Z flag set if match found, clear if not
// r2=index of match or next higher
// r5 modified
asm("BinarySearchUnsigned: ");
#ifdef _DEBUG
asm("cmp r3, #%a0" : : "i" ((TInt)EArrayFindMode_Limit) );
asm("bhs PanicBadArrayFindMode ");
#endif
asm("mov r3, r3, lsl #30 "); // match mode -> bits 30,31 (00000000=any, 40000000=first, 80000000=last)
asm("orr r3, r3, #1 "); // set NOT FOUND flag
asm("cmp r2, #0 "); // r2 will be right index
asm("beq 0f ");
asm("mov r5, #0 "); // r5 = left index
asm("1: ");
asm("add r12, r2, r5 ");
asm("mov r12, r12, lsr #1 "); // r12 = mid index
asm("ldr r0, [r4, r12, lsl #2] "); // r0 = entry[mid]
asm("subs r0, r1, r0 "); // r0 = match - entry[mid]
asm("beq 2f "); // if match branch out
asm("3: ");
asm("addhi r5, r12, #1 "); // else if entry<match left=mid+1 HI = C &~ Z
asm("movlo r2, r12 "); // else if entry>match right=mid LO = ~C
asm("subs r0, r2, r5 "); // right > left ?
asm("bgt 1b "); // r0 = 0 when loop terminates
asm("0: ");
asm("tst r3, #1 "); // test not found flag
asm("mvnnes r0, #0 "); // if set r0=-1 = KErrNotFound
__JUMP(,lr);
asm("2: "); // N=0 Z=1 C=1 V=0 r0=0 here
asm("bics r3, r3, #1 "); // clear NOT FOUND flag, test for find mode ANY (Z set if so)
asm("cmpne r3, #0x60000000 "); // HI if LAST, LO if FIRST
asm("bne 3b "); // if not ANY, branch back
asm("mov r2, r12 "); // if ANY, r2 = mid
__JUMP(,lr); // and return with r0 = 0
__EH_FNEND
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::BinarySearch(const TAny* /*anEntry*/, TInt& /*anIndex*/, TGeneralLinearOrder /*anOrder*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r2,r4-r11,lr} "); // store &anIndex, r4-r11, lr
__EH_FRAME_ADDRESS(sp,4)
__EH_FRAME_PUSH2(r4-r11,lr)
asm("ldmia r0, {r5,r6} "); // r5=count, r6=iEntries
asm("ldr r11, [sp, #40] "); // r11 = aMode
asm("mov r7, r3 "); // r7=anOrder
asm("mov r4, r1 "); // r1=anEntry
asm("bl BinarySearchPointers "); // r0=KErrNone if match, KErrNotFound if not
asm("ldmfd sp!, {r2,r4} "); // r2=&anIndex, restore r4
// Dont need to FRAME RESTORE here since there's no barrier here
asm("str r5, [r2] "); // store index
__POPRET("r5-r11,"); // restore r5-r11 and return
// Binary search list of pointers
// Pointer to match value in r4
// List address in r6
// Count in r5
// Pointer to ordering function in r7
// r11 = find mode
// Return with: r0=0 if match found, r0=-1 otherwise
// Z flag set if match found, clear otherwise
// r5=index of match or next higher
// r9,r10,r11 modified
asm("BinarySearchPointers: ");
#ifdef _DEBUG
asm("cmp r11, #%a0" : : "i" ((TInt)EArrayFindMode_Limit) );
asm("bhs PanicBadArrayFindMode ");
#endif
asm("movs r11, r11, lsl #30 "); // match mode -> bits 30,31 (00000000=any, 40000000=first, 80000000=last)
asm("eorne r11, r11, #0xC0000000 "); // match mode -> bits 30,31 (00000000=any, 80000000=first, 40000000=last)
asm("orr r11, r11, #1 "); // set NOT FOUND flag
asm("mov r9, lr ");
asm("cmp r5, #0 "); // r5 will be right index
asm("beq 0f ");
asm("mov r10, #0 "); // r10 = left index
asm("1: ");
asm("add r8, r5, r10 ");
asm("mov r8, r8, lsr #1 "); // r8 = mid index
/** the latency of the indirect call should mask the latency of the ldr
arm1136 requires base register to be valid one cycle early
*/
asm("mov r0, r4 "); // r0 points to match value
asm("ldr r1, [r6, r8, lsl #2] "); // r1 points to entry[mid]
__JUMPL(7); // call ordering function (match, entry)
asm("cmp r0, #0 ");
asm("biceq r11, r11, #1 "); // if match clear NOT FOUND flag
asm("addeqs r0, r0, r11 "); // and add match mode to r0 (>0 if LAST, <0 if FIRST, 0 if ANY)
asm("beq 2f "); // branch out if match and ANY
asm("addgt r10, r8, #1 "); // else if match > entry, left = mid + 1
asm("movlt r5, r8 "); // else if match < entry, right = mid
asm("subs r0, r5, r10 "); // loop if right > left
asm("bgt 1b "); // finish loop with r0 = 0
asm("0: ");
asm("tst r11, #1 "); // test not found flag
asm("mvnnes r0, #0 "); // if set r0=-1 = KErrNotFound
__JUMP(,r9);
asm("2: ");
asm("mov r5, r8 "); // if ANY, r8 = mid
__JUMP(,r9); // and return with r0 = 0, Z=1
__EH_FNEND
}
EXPORT_C TInt RPointerArrayBase::FindIsqSigned(TInt anEntry) const
{
return RPointerArrayBase::FindIsqSigned(anEntry, 0);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::FindIsqSigned(TInt /*anEntry*/, TInt /*aMode*/) const
{
__EH_FNSTART
#ifdef __EABI__
// sp needs correct alignment
asm("stmfd sp!, {r4-r6,lr} ");
__EH_FRAME_PUSH2(r4-r6,lr)
#else
asm("stmfd sp!, {r4,r5,lr} ");
#endif
asm("mov r3, r2 "); // r3 = match mode
asm("ldmia r0, {r2,r4} "); // r2=count, r4=iEntries
asm("bl BinarySearchSigned ");
asm("moveq r0, r2 "); // if match r0=match index; if no match, r0=KErrNotFound
#ifdef __EABI__
__POPRET("r4-r6,");
#else
__POPRET("r4,r5,");
#endif
__EH_FNEND
}
EXPORT_C TInt RPointerArrayBase::FindIsqUnsigned(TUint anEntry) const
{
return RPointerArrayBase::FindIsqUnsigned(anEntry, 0);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::FindIsqUnsigned(TUint /*anEntry*/, TInt /*aMode*/) const
{
__EH_FNSTART
#ifdef __EABI__
// sp needs correct alignment
asm("stmfd sp!, {r4-r6,lr} ");
__EH_FRAME_PUSH2(r4-r6,lr)
#else
asm("stmfd sp!, {r4,r5,lr} ");
#endif
asm("mov r3, r2 "); // r3 = match mode
asm("ldmia r0, {r2,r4} "); // r2=count, r4=iEntries
asm("bl BinarySearchUnsigned ");
asm("moveq r0, r2 "); // if match r0=match index; if no match, r0=KErrNotFound
#ifdef __EABI__
__POPRET("r4-r6,");
#else
__POPRET("r4,r5,");
#endif
__EH_FNEND
}
EXPORT_C TInt RPointerArrayBase::FindIsq(const TAny* anEntry, TGeneralLinearOrder anOrder) const
{
return RPointerArrayBase::FindIsq(anEntry, anOrder, 0);
}
EXPORT_C __NAKED__ TInt RPointerArrayBase::FindIsq(const TAny* /*anEntry*/, TGeneralLinearOrder /*anOrder*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r3-r11,lr} ");
__EH_FRAME_PUSH2(r4-r6,lr)
asm("ldmia r0, {r5,r6} "); // r5=count, r6=iEntries
asm("mov r11, r3 "); // r11 = aMode
asm("mov r7, r2 "); // r7=anOrder
asm("mov r4, r1 "); // r1=anEntry
asm("bl BinarySearchPointers ");
asm("moveq r0, r5 "); // if match, r0=match index
__POPRET("r3-r11,");
__EH_FNEND
}
#ifndef __KERNEL_MODE__
EXPORT_C __NAKED__ void RPointerArrayBase::HeapSortSigned()
{
__EH_FNSTART
#ifdef __EABI__
asm("stmfd sp!, {r4-r10,lr} ");
__EH_FRAME_PUSH2(r4-r10,lr)
#else
asm("stmfd sp!, {r4-r9,lr} ");
#endif
asm("ldmia r0, {r4,r5} "); // r4=iCount, r5=iEntries
asm("bl HeapSortSigned ");
#ifdef __EABI__
__POPRET("r4-r10,");
#else
__POPRET("r4-r9,");
#endif
// Heap sort list of signed integers
// List address in r5, count in r4
// r4=ss, r6=sh, r7=si
// r8,r9 modified
asm("HeapSortSigned: ");
asm("cmp r4, #1 ");
__JUMP(le,lr);
asm("mov r6, r4, lsr #1 ");
asm("hss_loop_start1: ");
asm("sub r6, r6, #1 ");
asm("ldr r7, [r5, r6, lsl #2] ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("b hss_loop_start2 ");
asm("hss_loop_inner: ");
asm("ldr r0, [r5, r8, lsl #2] ");
asm("str r0, [r5, r9, lsl #2] ");
asm("mov r9, r8 ");
asm("hss_loop_start2: ");
asm("add r8, r8, #1 ");
asm("add r8, r8, r8 ");
asm("cmp r8, r4 ");
asm("bgt hss_loop_inner_end ");
asm("add r0, r5, r8, lsl #2 ");
asm("ldmneda r0, {r1,r2} ");
asm("ldreq r1, [r0, #-4] ");
asm("subeq r8, r8, #1 ");
asm("beq hss_loop_inner2 ");
asm("cmp r1, r2 ");
asm("subgt r8, r8, #1 ");
asm("movle r1, r2 ");
asm("hss_loop_inner2: ");
asm("cmp r1, r7 ");
asm("bgt hss_loop_inner ");
asm("hss_loop_inner_end: ");
asm("str r7, [r5, r9, lsl #2] ");
asm("cmp r6, #0 ");
asm("bne hss_loop_start1 ");
asm("sub r4, r4, #1 ");
asm("ldr r7, [r5, r4, lsl #2] ");
asm("ldr r0, [r5, #0] ");
asm("str r0, [r5, r4, lsl #2] ");
asm("cmp r4, #1 ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("bgt hss_loop_start2 ");
asm("str r7, [r5, #0] ");
__JUMP(,lr);
__EH_FNEND
}
EXPORT_C __NAKED__ void RPointerArrayBase::HeapSortUnsigned()
{
asm("stmfd sp!, {r4-r9,lr} ");
asm("ldmia r0, {r4,r5} "); // r4=iCount, r5=iEntries
asm("bl HeapSortUnsigned ");
__POPRET("r4-r9,");
}
#endif // !__KERNEL_MODE__
__NAKED__ void HeapSortUnsigned(TUint* aEntries,TInt aCount)
{
asm("stmfd sp!, {r4-r9,lr} ");
asm("mov r4,r1"); // r4=iCount
asm("mov r5,r0"); // r5=iEntries
asm("bl HeapSortUnsigned ");
__POPRET("r4-r9,");
// Heap sort list of unsigned integers
// List address in r5, count in r4
// r4=ss, r6=sh, r7=si
// r8,r9 modified
asm("HeapSortUnsigned: ");
asm("cmp r4, #1 ");
__JUMP(le,lr);
asm("mov r6, r4, lsr #1 ");
asm("hsu_loop_start1: ");
asm("sub r6, r6, #1 ");
asm("ldr r7, [r5, r6, lsl #2] ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("b hsu_loop_start2 ");
asm("hsu_loop_inner: ");
asm("ldr r0, [r5, r8, lsl #2] ");
asm("str r0, [r5, r9, lsl #2] ");
asm("mov r9, r8 ");
asm("hsu_loop_start2: ");
asm("add r8, r8, #1 ");
asm("add r8, r8, r8 ");
asm("cmp r8, r4 ");
asm("bgt hsu_loop_inner_end ");
asm("add r0, r5, r8, lsl #2 ");
asm("ldmneda r0, {r1,r2} ");
asm("ldreq r1, [r0, #-4] ");
asm("subeq r8, r8, #1 ");
asm("beq hsu_loop_inner2 ");
asm("cmp r1, r2 ");
asm("subhi r8, r8, #1 ");
asm("movls r1, r2 ");
asm("hsu_loop_inner2: ");
asm("cmp r1, r7 ");
asm("bhi hsu_loop_inner ");
asm("hsu_loop_inner_end: ");
asm("str r7, [r5, r9, lsl #2] ");
asm("cmp r6, #0 ");
asm("bne hsu_loop_start1 ");
asm("sub r4, r4, #1 ");
asm("ldr r7, [r5, r4, lsl #2] ");
asm("ldr r0, [r5, #0] ");
asm("str r0, [r5, r4, lsl #2] ");
asm("cmp r4, #1 ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("bgt hsu_loop_start2 ");
asm("str r7, [r5, #0] ");
__JUMP(,lr);
}
#ifndef __KERNEL_MODE__
EXPORT_C __NAKED__ void RPointerArrayBase::HeapSort(TGeneralLinearOrder /*anOrder*/)
{
__EH_FNSTART
asm("stmfd sp!, {r3-r11,lr} ");
// r3 is caller save
__EH_FRAME_ADDRESS(sp,4)
// we can push the callee save regs
__EH_FRAME_PUSH2(r4-r11,lr)
asm("ldmia r0, {r4,r5} "); // r4=iCount, r5=iEntries
asm("mov r10, r1 "); // r10=anOrder
asm("bl HeapSortPointers ");
__POPRET("r3-r11,");
// Heap sort list of pointers
// List address in r5, count in r4, r10 points to ordering function
// r4=ss, r6=sh, r7=si
// r8,r9,r11 modified
asm("HeapSortPointers: ");
asm("cmp r4, #1 ");
__JUMP(le,lr);
asm("mov r11, lr ");
asm("mov r6, r4, lsr #1 ");
asm("hsp_loop_start1: ");
asm("sub r6, r6, #1 ");
asm("ldr r7, [r5, r6, lsl #2] ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("b hsp_loop_start2 ");
asm("hsp_loop_inner: ");
asm("ldr r0, [r5, r8, lsl #2] ");
asm("str r0, [r5, r9, lsl #2] ");
asm("mov r9, r8 ");
asm("hsp_loop_start2: ");
asm("add r8, r8, #1 ");
asm("add r8, r8, r8 ");
asm("cmp r8, r4 ");
asm("bgt hsp_loop_inner_end ");
asm("subeq r8, r8, #1 ");
asm("beq hsp_loop_inner2 ");
asm("add r0, r5, r8, lsl #2 ");
asm("ldmda r0, {r0,r1} ");
__JUMPL(10);
asm("cmp r0, #0 ");
asm("subgt r8, r8, #1 ");
asm("hsp_loop_inner2: ");
asm("ldr r0, [r5, r8, lsl #2] ");
asm("mov r1, r7 ");
__JUMPL(10);
asm("cmp r0, #0 ");
asm("bgt hsp_loop_inner ");
asm("hsp_loop_inner_end: ");
asm("str r7, [r5, r9, lsl #2] ");
asm("cmp r6, #0 ");
asm("bne hsp_loop_start1 ");
asm("sub r4, r4, #1 ");
asm("ldr r7, [r5, r4, lsl #2] ");
asm("ldr r0, [r5, #0] ");
asm("str r0, [r5, r4, lsl #2] ");
asm("cmp r4, #1 ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("bgt hsp_loop_start2 ");
asm("str r7, [r5, #0] ");
__JUMP(,r11);
__EH_FNEND
}
#endif // __KERNEL_MODE__
EXPORT_C __NAKED__ TAny* RArrayBase::At(TInt /*anIndex*/) const
{
asm("ldmia r0, {r2,r3,r12} "); // r2=iCount, r3=iEntries, r12=iEntrySize
asm("cmp r1, #0 "); // check anIndex>=0
asm("cmpge r2, r1 "); // if so, check iCount>anIndex
asm("mlagt r0, r1, r12, r3 "); // if ok, r0=anIndex*iEntrySize+iEntries
#ifdef __CPU_ARMV6
asm("ble 1f ");
__JUMP(,lr);
#else
__JUMP(gt,lr);
#endif
asm("1: ");
asm("b " CSM_Z18PanicBadArrayIndexv);
}
EXPORT_C __NAKED__ TInt RArrayBase::Append(const TAny* /*anEntry*/)
{
asm("stmfd sp!, {lr} ");
asm("ldmia r0, {r3,r12} "); // r3=iCount, r12=iEntries
asm("ldr r2, [r0, #%a0]" : : "i" _FOFF(RArrayBase,iAllocated));
asm("cmp r3, r2 ");
asm("beq simple_append_1 ");
asm("simple_append_0: ");
asm("add r2, r3, #1 ");
asm("str r2, [r0] "); // iCount++
asm("ldr r2, [r0, #%a0]" : : "i" _FOFF(RArrayBase,iEntrySize));
asm("mla r0, r2, r3, r12 "); // r0=iEntries+iEntrySize*iCount
asm("bl wordmove "); // r1=anEntry, r2=iEntrySize, do copy
asm("mov r0, #0 "); // return KErrNone;
__POPRET("");
asm("simple_append_1: ");
asm("stmfd sp!, {r0,r1,r2} ");
asm("bl " CSM_ZN10RArrayBase4GrowEv);
asm("cmp r0, #0 ");
asm("bne simple_append_2 ");
asm("ldmfd sp!, {r0,r1,r2} ");
asm("ldmia r0, {r3, r12} ");
asm("b simple_append_0 ");
asm("simple_append_2: "); // error enlarging array
asm("add sp, sp, #12 ");
__POPRET("");
}
EXPORT_C __NAKED__ TInt RArrayBase::Find(const TAny* /*anEntry*/) const
{
asm("ldmia r0, {r0,r2,r3,r12} "); // r0=count, r2=iEntries, r3=iEntrySize, r12=iKeyOffset
asm("stmfd sp!, {r4,lr} "); // save r4,lr
asm("subs r0, r0, #1 "); // r0 = count-1
asm("blt 0f "); // skip if count was zero
asm("ldr r1, [r1, r12] "); // r1=key of match entry
asm("sub r4, r0, #1 "); // r4 = iCount-2
asm("1: ");
asm("ldr lr, [r2, r12] "); // lr=key of current entry
asm("add r2, r2, r3 "); // step r2 to next entry
asm("subs r0, r0, #1 "); // C=1 iff this isn't last entry
asm("teq lr, r1 "); // check for match - C unaffected
asm("bhi 1b "); // loop if C=1 & Z=0, i.e. if no match and this isn't last entry
asm("0: ");
asm("mvnne r0, #0 "); // if no match, return -1
asm("subeq r0, r4, r0 "); // if match, index = (iCount-2)-r0
__POPRET("r4,");
}
EXPORT_C __NAKED__ TInt RArrayBase::Find(const TAny* /*anEntry*/, TGeneralIdentityRelation /*anIdentity*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r4-r10,lr} "); // save r4-r10,lr
__EH_FRAME_PUSH2(r4-r10,lr)
asm("ldmia r0, {r4,r5,r6} "); // r4=count, r5=iEntries, r6=iEntrySize
asm("mov r8, r1 "); // r8=anEntry
asm("mov r9, r2 "); // r9=anIdentity
asm("sub r7, r4, #1 "); // r7=iCount-1
asm("b simple_find2_start ");
asm("simple_find2_loop: ");
asm("mov r1, r5 "); // r1->current entry
asm("mov r0, r8 "); // r0=anEntry
__JUMPL(9);
asm("cmp r0, #0 ");
asm("bne simple_find2_return ");
asm("add r5, r5, r6 "); // else step to next entry
asm("simple_find2_start: ");
asm("subs r4, r4, #1 ");
asm("bpl simple_find2_loop ");
asm("add r4, r7, #1 "); // no match, arrange to return -1
asm("simple_find2_return: ");
asm("sub r0, r7, r4 "); // index=count-r4
__POPRET("r4-r10,");
__EH_FNEND
}
EXPORT_C TInt RArrayBase::BinarySearchSigned(const TAny* anEntry, TInt& anIndex) const
{
return RArrayBase::BinarySearchSigned(anEntry, anIndex, 0);
}
EXPORT_C __NAKED__ TInt RArrayBase::BinarySearchSigned(const TAny* /*anEntry*/, TInt& /*anIndex*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r4-r8,lr} ");
__EH_FRAME_PUSH2(r4-r8,lr)
asm("mov r8, r2 "); // r8=&anIndex
asm("ldmia r0, {r2,r4,r5,r6} "); // r2=count, r3=iEntries, r5=entry size, r6=key offset
asm("cmp r5, #4 "); // check for 4 byte entries
asm("ldr r1, [r1, r6] "); // r1=match key
asm("beq 1f "); // if 4 byte entries, call simpler routine
asm("bl BinarySearchSignedKey "); // if not, call general routine
asm("b 2f ");
asm("1: ");
asm("bl BinarySearchSigned "); // use simpler routine for 4 byte entries
asm("2: ");
asm("str r2, [r8] ");
__POPRET("r4-r8,");
// Binary search list of signed integers
// Match key in r1
// List address in r4
// Count in r2
// Match mode in r3
// EntrySize in r5, KeyOffset in r6
// Return with: r0=0 if match found, r0 nonzero otherwise
// r2=index of match or next higher
// r7 modified
asm("BinarySearchSignedKey: ");
#ifdef _DEBUG
asm("cmp r3, #%a0" : : "i" ((TInt)EArrayFindMode_Limit) );
asm("bhs PanicBadArrayFindMode ");
#endif
asm("mov r3, r3, lsl #30 "); // match mode -> bits 30,31 (00000000=any, 40000000=first, 80000000=last)
asm("orr r3, r3, #1 "); // set NOT FOUND flag
asm("cmp r2, #0 "); // r2 will be right index
asm("beq 0f ");
asm("mov r7, #0 "); // r7 will be left index
asm("1: ");
asm("add r12, r2, r7 ");
asm("mov r12, r12, lsr #1 "); // r12 = mid index
asm("mla r0, r12, r5, r6 "); // r0 = key offset + entry size * mid index
asm("ldr r0, [r4, r0] "); // r0 = key[mid]
asm("subs r0, r0, r1 "); // r0 = entry[mid] - match
asm("beq 2f "); // if match branch out
asm("3: ");
asm("addlt r7, r12, #1 "); // else if entry<match left=mid+1
asm("movgt r2, r12 "); // else if entry>match right=mid
asm("subs r0, r2, r7 "); // right > left ?
asm("bgt 1b "); // r0 = 0 when loop terminates
asm("0: ");
asm("tst r3, #1 "); // test not found flag
asm("mvnnes r0, #0 "); // if set r0=-1 = KErrNotFound
__JUMP(,lr);
asm("2: ");
asm("bics r3, r3, #1 "); // clear NOT FOUND flag, test for find mode ANY (Z set if so)
asm("bne 3b "); // if not, V=0 (left from subs), N=1 for last, 0 for first, Z=0 => LAST->LT FIRST->GT
asm("mov r2, r12 "); // if so, r2 = mid
__JUMP(,lr); // and return with r0 = 0
__EH_FNEND
}
EXPORT_C TInt RArrayBase::BinarySearchUnsigned(const TAny* anEntry, TInt& anIndex) const
{
return RArrayBase::BinarySearchUnsigned(anEntry, anIndex, 0);
}
EXPORT_C __NAKED__ TInt RArrayBase::BinarySearchUnsigned(const TAny* /*anEntry*/, TInt& /*anIndex*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r4-r8,lr} ");
__EH_FRAME_PUSH2(r4-r8,lr)
asm("mov r8, r2 "); // r8=&anIndex
asm("ldmia r0, {r2,r4,r5,r6} "); // r2=count, r4=iEntries, r5=entry size, r6=key offset
asm("cmp r5, #4 "); // check for 4 byte entries
asm("ldr r1, [r1, r6] "); // r1=match key
asm("beq 1f "); // if 4 byte entries, call simpler routine
asm("bl BinarySearchUnsignedKey "); // if not, call general routine
asm("b 2f ");
asm("1: ");
asm("bl BinarySearchUnsigned "); // use simpler routine for 4 byte entries
asm("2: ");
asm("str r2, [r8] ");
__POPRET("r4-r8,");
// Binary search list of unsigned integers
// Match key in r1
// List address in r4
// Count in r2
// Match mode in r3
// EntrySize in r5, KeyOffset in r6
// Return with: r0=0 if match found, r0 nonzero otherwise
// r2=index of match or next higher
// r7 modified
asm("BinarySearchUnsignedKey: ");
#ifdef _DEBUG
asm("cmp r3, #%a0" : : "i" ((TInt)EArrayFindMode_Limit) );
asm("bhs PanicBadArrayFindMode ");
#endif
asm("mov r3, r3, lsl #30 "); // match mode -> bits 30,31 (00000000=any, 40000000=first, 80000000=last)
asm("orr r3, r3, #1 "); // set NOT FOUND flag
asm("cmp r2, #0 "); // r2 will be right index
asm("beq 0f ");
asm("mov r7, #0 "); // r7 will be left index
asm("1: ");
asm("add r12, r2, r7 ");
asm("mov r12, r12, lsr #1 "); // r12 = mid index
asm("mla r0, r12, r5, r6 "); // r0 = key offset + entry size * mid index
asm("ldr r0, [r4, r0] "); // r0 = key[mid]
asm("subs r0, r1, r0 "); // r0 = match - entry[mid]
asm("beq 2f "); // if match branch out
asm("3: ");
asm("addhi r7, r12, #1 "); // else if entry<match left=mid+1 HI = C &~ Z
asm("movlo r2, r12 "); // else if entry>match right=mid LO = ~C
asm("subs r0, r2, r7 "); // right > left ?
asm("bgt 1b "); // r0 = 0 when loop terminates
asm("0: ");
asm("tst r3, #1 "); // test not found flag
asm("mvnnes r0, #0 "); // if set r0=-1 = KErrNotFound
__JUMP(,lr);
asm("2: "); // N=0 Z=1 C=1 V=0 r0=0 here
asm("bics r3, r3, #1 "); // clear NOT FOUND flag, test for find mode ANY (Z set if so)
asm("cmpne r3, #0x60000000 "); // HI if LAST, LO if FIRST
asm("bne 3b "); // if not ANY, branch back
asm("mov r2, r12 "); // if ANY, r2 = mid
__JUMP(,lr); // and return with r0 = 0
__EH_FNEND
}
EXPORT_C __NAKED__ TInt RArrayBase::BinarySearch(const TAny* /*anEntry*/, TInt& /*anIndex*/, TGeneralLinearOrder /*anOrder*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r3-r11,lr} ");
// r3 is caller save
__EH_FRAME_ADDRESS(sp,4)
// we can push the callee save regs
__EH_FRAME_PUSH2(r4-r11,lr)
asm("ldmia r0, {r5,r6,r11} "); // r5=count, r6=iEntries, r11=entry size
asm("ldr r9, [sp, #40] "); // r9 = aMode
asm("mov r4, r1 "); // r4=anEntry
asm("mov r7, r3 "); // r7=anOrder
asm("bl BinarySearchEntries ");
asm("str r5, [r2] "); // store index
__POPRET("r3-r11,");
// Binary search list of general entries
// Pointer to match value in r4
// List address in r6
// Count in r5
// Match mode in r9
// Pointer to ordering function in r7
// Entry size in r11
// Return with: r0=0 if match found, r0 nonzero otherwise
// r5=index of match or next higher
// r9,r10 modified
// r2 preserved
asm("BinarySearchEntries: ");
#ifdef _DEBUG
asm("cmp r9, #%a0" : : "i" ((TInt)EArrayFindMode_Limit) );
asm("bhs PanicBadArrayFindMode ");
#endif
asm("stmfd sp!, {r2,lr} ");
asm("movs r9, r9, lsl #30 "); // match mode -> bits 30,31 (00000000=any, 40000000=first, 80000000=last)
asm("eorne r9, r9, #0xC0000000 "); // match mode -> bits 30,31 (00000000=any, 80000000=first, 40000000=last)
asm("orr r9, r9, #1 "); // set NOT FOUND flag
asm("cmp r5, #0 "); // r5 will be right index
asm("beq 0f ");
asm("mov r10, #0 "); // r10 will be left index
asm("1: ");
asm("add r8, r5, r10 ");
asm("mov r8, r8, lsr #1 "); // r8 = mid index
asm("mla r1, r8, r11, r6 "); // r1 = r8*entry size + list address = &entry[mid]
asm("mov r0, r4 "); // r0 points to match value
__JUMPL(7); // call ordering function (match, entry)
asm("cmp r0, #0 ");
asm("biceq r9, r9, #1 "); // if match clear NOT FOUND flag
asm("addeqs r0, r0, r9 "); // and add match mode to r0 (>0 if LAST, <0 if FIRST, 0 if ANY)
asm("beq 2f "); // branch out if match and ANY
asm("addgt r10, r8, #1 "); // else if match > entry, left = mid + 1
asm("movlt r5, r8 "); // else if match < entry, right = mid
asm("subs r0, r5, r10 "); // loop if right > left
asm("bgt 1b "); // finish loop with r0 = 0
asm("0: ");
asm("tst r9, #1 "); // test not found flag
asm("mvnnes r0, #0 "); // if set r0=-1 = KErrNotFound
__POPRET("r2,");
asm("2: ");
asm("mov r5, r8 "); // if ANY, r8 = mid
__POPRET("r2,"); // and return with r0 = 0, Z=1
__EH_FNEND
}
EXPORT_C TInt RArrayBase::FindIsqSigned(const TAny* anEntry) const
{
return RArrayBase::FindIsqSigned(anEntry, 0);
}
EXPORT_C __NAKED__ TInt RArrayBase::FindIsqSigned(const TAny* /*anEntry*/, TInt /*aMode*/) const
{
__EH_FNSTART
#ifdef __EABI__
// sp needs to be aligned correctly
asm("stmfd sp!, {r4-r8,lr} ");
__EH_FRAME_PUSH2(r4-r8,lr)
#else
asm("stmfd sp!, {r4-r7,lr} ");
#endif
asm("mov r3, r2 "); // r3 = match mode
asm("ldmia r0, {r2,r4,r5,r6} "); // r2=count, r4=iEntries, r5=entry size, r6=key offset
asm("cmp r5, #4 "); // check for 4 byte entries
asm("ldr r1, [r1, r6] "); // r1=match key
asm("beq 1f "); // use simpler routine for 4 byte entries
asm("bl BinarySearchSignedKey "); // else call general routine
asm("b 2f ");
asm("1: ");
asm("bl BinarySearchSigned ");
asm("2: ");
asm("moveq r0, r2 "); // if match r0=index else r0=KErrNotFound
#ifdef __EABI__
__POPRET("r4-r8,");
#else
__POPRET("r4-r7,");
#endif
__EH_FNEND
}
EXPORT_C TInt RArrayBase::FindIsqUnsigned(const TAny* anEntry) const
{
return RArrayBase::FindIsqUnsigned(anEntry, 0);
}
EXPORT_C __NAKED__ TInt RArrayBase::FindIsqUnsigned(const TAny* /*anEntry*/, TInt /*aMode*/) const
{
__EH_FNSTART
#ifdef __EABI__
// sp needs to be aligned correctly
asm("stmfd sp!, {r4-r8,lr} ");
__EH_FRAME_PUSH2(r4-r8,lr)
#else
asm("stmfd sp!, {r4-r7,lr} ");
#endif
asm("mov r3, r2 "); // r3 = match mode
asm("ldmia r0, {r2,r4,r5,r6} "); // r2=count, r4=iEntries, r5=entry size, r6=key offset
asm("cmp r5, #4 "); // check for 4 byte entries
asm("ldr r1, [r1, r6] "); // r1=match key
asm("beq 1f "); // use simpler routine for 4 byte entries
asm("bl BinarySearchUnsignedKey "); // else call general routine
asm("b 2f ");
asm("1: ");
asm("bl BinarySearchUnsigned ");
asm("2: ");
asm("moveq r0, r2 "); // if match r0=index else r0=KErrNotFound
#ifdef __EABI__
__POPRET("r4-r8,");
#else
__POPRET("r4-r7,");
#endif
__EH_FNEND
}
EXPORT_C TInt RArrayBase::FindIsq(const TAny* anEntry, TGeneralLinearOrder anOrder) const
{
return RArrayBase::FindIsq(anEntry, anOrder, 0);
}
EXPORT_C __NAKED__ TInt RArrayBase::FindIsq(const TAny* /*anEntry*/, TGeneralLinearOrder /*anOrder*/, TInt /*aMode*/) const
{
__EH_FNSTART
asm("stmfd sp!, {r3-r11,lr} ");
// r3 is caller save
__EH_FRAME_ADDRESS(sp,4)
// we can push the callee save regs
__EH_FRAME_PUSH2(r4-r11,lr)
asm("ldmia r0, {r5,r6,r11} "); // r5=count, r6=iEntries, r11=entry size
asm("mov r4, r1 "); // r4=anEntry
asm("mov r7, r2 "); // r7=anOrder
asm("mov r9, r3 "); // r9 = aMode
asm("bl BinarySearchEntries ");
asm("moveq r0, r5 "); // if match r0=index
__POPRET("r3-r11,");
__EH_FNEND
}
#ifndef __KERNEL_MODE__
EXPORT_C __NAKED__ void RArrayBase::HeapSortSigned()
{
// __EH_FNSTART
#ifdef __EABI__
// need sp aligned correctly
asm("stmfd sp!, {r3-r11,lr} ");
__EH_FRAME_ADDRESS(sp,4)
__EH_FRAME_PUSH2(r4-r11,lr)
#else
asm("stmfd sp!, {r4-r11,lr} ");
#endif
asm("ldmia r0, {r4,r5,r10,r11} "); // r4=iCount, r5=iEntries, r10=entry size, r11=key offset
asm("cmp r10, #4 ");
asm("bleq HeapSortSigned ");
asm("cmp r10, #4 ");
asm("blne HeapSortSignedKey ");
#ifdef __EABI__
__POPRET("r3-r11,");
#else
__POPRET("r4-r11,");
#endif
// Heap sort list of entries by signed key
// List address in r5, count in r4, entry size in r10, key offset in r11
// r4=ss, r6=sh
// r8,r9 modified
asm("HeapSortSignedKey: ");
asm("cmp r4, #1 ");
__JUMP(le,lr);
asm("mov r7, lr "); // save lr in r7
asm("sub sp, sp, r10 "); // get some temporary space on the stack
asm("mov r6, r4, lsr #1 ");
asm("hssk_loop_start1: ");
asm("sub r6, r6, #1 ");
asm("mla r1, r6, r10, r5 "); // [sp]=entry[r6]
asm("mov r0, sp ");
asm("mov r2, r10 ");
asm("bl wordmove ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("b hssk_loop_start2 ");
asm("hssk_loop_inner: ");
asm("mla r0, r9, r10, r5 "); // r0=&entry[r9]
asm("mla r1, r8, r10, r5 "); // r1=&entry[r8]
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[r9]=entry[r8]
asm("mov r9, r8 ");
asm("hssk_loop_start2: ");
asm("add r8, r8, #1 ");
asm("add r8, r8, r8 ");
asm("cmp r8, r4 ");
asm("bgt hssk_loop_inner_end ");
asm("mla r0, r8, r10, r5 ");
asm("ldrne r2, [r0, r11]! "); // r2=key[r8]
asm("addeq r0, r0, r11 ");
asm("ldr r1, [r0, -r10] "); // r1=key[r8-1]
asm("subeq r8, r8, #1 ");
asm("beq hssk_loop_inner2 ");
asm("cmp r1, r2 ");
asm("subgt r8, r8, #1 ");
asm("movle r1, r2 ");
asm("hssk_loop_inner2: ");
asm("ldr r2, [sp, r11] "); // r2=key[sp]
asm("cmp r1, r2 ");
asm("bgt hssk_loop_inner ");
asm("hssk_loop_inner_end: ");
asm("mla r0, r9, r10, r5 "); // r0=&entry[r9]
asm("mov r1, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[r9]=[sp]
asm("cmp r6, #0 ");
asm("bne hssk_loop_start1 ");
asm("sub r4, r4, #1 ");
asm("mla r1, r4, r10, r5 "); // r1=&entry[r4]
asm("mov r0, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // [sp]=entry[r4]
asm("mla r0, r4, r10, r5 "); // r0=&entry[r4]
asm("mov r1, r5 "); // r1=&entry[0]
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[0]=entry[r4]
asm("cmp r4, #1 ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("bgt hssk_loop_start2 ");
asm("mov r0, r5 "); // r0=&entry[0]
asm("mov r1, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[0]=[sp]
asm("add sp, sp, r10 "); // free temporary stack space
__JUMP(,r7);
// __EH_FNEND
}
EXPORT_C __NAKED__ void RArrayBase::HeapSortUnsigned()
{
// __EH_FNSTART
#ifdef __EABI__
// need sp aligned correctly
asm("stmfd sp!, {r3-r11,lr} ");
__EH_FRAME_ADDRESS(sp,4)
__EH_FRAME_PUSH2(r4-r11,lr)
#else
asm("stmfd sp!, {r4-r11,lr} ");
#endif
asm("ldmia r0, {r4,r5,r10,r11} "); // r4=iCount, r5=iEntries, r10=entry size, r11=key offset
asm("cmp r10, #4 ");
asm("bleq HeapSortUnsigned ");
asm("cmp r10, #4 ");
asm("blne HeapSortUnsignedKey ");
#ifdef __EABI__
__POPRET("r3-r11,");
#else
__POPRET("r4-r11,");
#endif
// Heap sort list of entries by unsigned key
// List address in r5, count in r4, entry size in r10, key offset in r11
// r4=ss, r6=sh
// r8,r9 modified
asm("HeapSortUnsignedKey: ");
asm("cmp r4, #1 ");
__JUMP(le,lr);
asm("mov r7, lr "); // save lr in r7
asm("sub sp, sp, r10 "); // get some temporary space on the stack
asm("mov r6, r4, lsr #1 ");
asm("hsuk_loop_start1: ");
asm("sub r6, r6, #1 ");
asm("mla r1, r6, r10, r5 "); // [sp]=entry[r6]
asm("mov r0, sp ");
asm("mov r2, r10 ");
asm("bl wordmove ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("b hsuk_loop_start2 ");
asm("hsuk_loop_inner: ");
asm("mla r0, r9, r10, r5 "); // r0=&entry[r9]
asm("mla r1, r8, r10, r5 "); // r1=&entry[r8]
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[r9]=entry[r8]
asm("mov r9, r8 ");
asm("hsuk_loop_start2: ");
asm("add r8, r8, #1 ");
asm("add r8, r8, r8 ");
asm("cmp r8, r4 ");
asm("bgt hsuk_loop_inner_end ");
asm("mla r0, r8, r10, r5 ");
asm("ldrne r2, [r0, r11]! "); // r2=key[r8]
asm("addeq r0, r0, r11 ");
asm("ldr r1, [r0, -r10] "); // r1=key[r8-1]
asm("subeq r8, r8, #1 ");
asm("beq hsuk_loop_inner2 ");
asm("cmp r1, r2 ");
asm("subhi r8, r8, #1 ");
asm("movls r1, r2 ");
asm("hsuk_loop_inner2: ");
asm("ldr r2, [sp, r11] "); // r2=key[sp]
asm("cmp r1, r2 ");
asm("bhi hsuk_loop_inner ");
asm("hsuk_loop_inner_end: ");
asm("mla r0, r9, r10, r5 "); // r0=&entry[r9]
asm("mov r1, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[r9]=[sp]
asm("cmp r6, #0 ");
asm("bne hsuk_loop_start1 ");
asm("sub r4, r4, #1 ");
asm("mla r1, r4, r10, r5 "); // r1=&entry[r4]
asm("mov r0, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // [sp]=entry[r4]
asm("mla r0, r4, r10, r5 "); // r0=&entry[r4]
asm("mov r1, r5 "); // r1=&entry[0]
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[0]=entry[r4]
asm("cmp r4, #1 ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("bgt hsuk_loop_start2 ");
asm("mov r0, r5 "); // r0=&entry[0]
asm("mov r1, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[0]=[sp]
asm("add sp, sp, r10 "); // free temporary stack space
__JUMP(,r7);
// __EH_FNEND
}
EXPORT_C __NAKED__ void RArrayBase::HeapSort(TGeneralLinearOrder anOrder)
{
// __EH_FNSTART
#ifdef __EABI__
// need sp aligned correctly
asm("stmfd sp!, {r3-r11,lr} ");
__EH_FRAME_ADDRESS(sp,4)
__EH_FRAME_PUSH2(r4-r11,lr)
#else
asm("stmfd sp!, {r4-r11,lr} ");
#endif
asm("ldmia r0, {r4,r5,r10,r11} ");
asm("mov r7, r1 ");
asm("bl HeapSortEntries ");
#ifdef __EABI__
__POPRET("r3-r11,");
#else
__POPRET("r4-r11,");
#endif
// Heap sort list of entries
// List address in r5, count in r4, entry size in r10, key offset in r11
// Address of ordering function in r7
// r4=ss, r6=sh
// r8,r9 modified
asm("HeapSortEntries: ");
asm("cmp r4, #1 ");
__JUMP(le,lr);
asm("str lr, [sp, #-4]! ");
asm("mov r8, sp "); // original SP
asm("sub sp, sp, r10 "); // get some temporary space on the stack
asm("sub sp, sp, #4 "); // make room for original SP
asm("bic sp, sp, #4 "); // align stack to 8 byte boundary
asm("str r8, [sp, r10] "); // save original SP
asm("mov r6, r4, lsr #1 ");
asm("hse_loop_start1: ");
asm("sub r6, r6, #1 ");
asm("mla r1, r6, r10, r5 "); // [sp]=entry[r6]
asm("mov r0, sp ");
asm("mov r2, r10 ");
asm("bl wordmove ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("b hse_loop_start2 ");
asm("hse_loop_inner: ");
asm("mla r0, r9, r10, r5 "); // r0=&entry[r9]
asm("mla r1, r8, r10, r5 "); // r1=&entry[r8]
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[r9]=entry[r8]
asm("mov r9, r8 ");
asm("hse_loop_start2: ");
asm("add r8, r8, #1 ");
asm("add r8, r8, r8 ");
asm("cmp r8, r4 ");
asm("bgt hse_loop_inner_end ");
asm("subeq r8, r8, #1 ");
asm("beq hse_loop_inner2 ");
asm("mla r1, r8, r10, r5 "); // r1=&entry[r8]
asm("sub r0, r1, r10 "); // r0=&entry[r8-1]
__JUMPL(7);
asm("cmp r0, #0 "); // compare entry[r8-1] with entry[r8]
asm("subgt r8, r8, #1 ");
asm("hse_loop_inner2: ");
asm("mla r0, r8, r10, r5 "); // r0=&entry[r8]
asm("mov r1, sp ");
__JUMPL(7);
asm("cmp r0, #0 "); // compare entry[r8] with [sp]
asm("bgt hse_loop_inner ");
asm("hse_loop_inner_end: ");
asm("mla r0, r9, r10, r5 "); // r0=&entry[r9]
asm("mov r1, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[r9]=[sp]
asm("cmp r6, #0 ");
asm("bne hse_loop_start1 ");
asm("sub r4, r4, #1 ");
asm("mla r1, r4, r10, r5 "); // r1=&entry[r4]
asm("mov r0, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // [sp]=entry[r4]
asm("mla r0, r4, r10, r5 "); // r0=&entry[r4]
asm("mov r1, r5 "); // r1=&entry[0]
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[0]=entry[r4]
asm("cmp r4, #1 ");
asm("mov r8, r6 ");
asm("mov r9, r6 ");
asm("bgt hse_loop_start2 ");
asm("mov r0, r5 "); // r0=&entry[0]
asm("mov r1, sp ");
asm("mov r2, r10 ");
asm("bl wordmove "); // entry[0]=[sp]
asm("ldr sp, [sp, r10] "); // restore stack pointer, freeing temporary stack space
__POPRET("");
// __EH_FNEND
}
#endif // __KERNEL_MODE__
#endif // __ARRAY_MACHINE_CODED__