This if file "malloc.asm". It is an optional substitution for the file "malloc.c". It is much more optimized, but works only for PIC18 in extended mode with Microchip MPLAB-C18.
;=============================================================================== ; This file is part of "Heap Management For Small Microcontrollers". ; v1.05 (2009-06-29) ; isaacbavaresco@yahoo.com.br ;=============================================================================== ; Copyright (c) 2007-2009, Isaac Marino Bavaresco ; All rights reserved. ; ; Redistribution and use in source and binary forms, with or without ; modification, are permitted provided that the following conditions are met: ; * Redistributions of source code must retain the above copyright ; notice, this list of conditions and the following disclaimer. ; * Neither the name of the author nor the ; names of its contributors may be used to endorse or promote products ; derived from this software without specific prior written permission. ; ; THIS SOFTWARE IS PROVIDED BY THE AUTHOR ''AS IS'' AND ANY ; EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED ; WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE ; DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY ; DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES ; (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; ; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ; ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT ; (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS ; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ;=============================================================================== #include <P18CXXX.INC> ;=============================================================================== radix decimal ;=============================================================================== #include <heap_config.h> ;=============================================================================== #if USING_FREE_RTOS == 1 ;------------------------------------------------------------------------------- extern vTaskSuspendAll extern xTaskResumeAll #define LOCALS_SIZE 4 DISABLE_INTERRUPTS macro call vTaskSuspendAll endm RESTORE_INTERRUPTS macro call xTaskResumeAll endm ;------------------------------------------------------------------------------- #else ; USING_FREE_RTOS == 1 ;------------------------------------------------------------------------------- #define LOCALS_SIZE 5 DISABLE_INTERRUPTS macro ; Aux = INTCON & 0xc0; movlw 0xc0 andwf INTCON,w,ACCESS movwf [Aux+0] ; INTCON &= 0x3f; movlw 0x3f andwf INTCON,f,ACCESS endm RESTORE_INTERRUPTS macro ; INTCON |= Aux; movf [Aux+0],w iorwf INTCON,f,ACCESS endm ;------------------------------------------------------------------------------- #endif ; USING_FREE_RTOS == 1 ;=============================================================================== ALLOC code ;=============================================================================== #define Length 0 #define p 4 #define q 6 #define Aux 8 extern __freelist extern vTaskSuspendAll extern xTaskResumeAll ;=============================================================================== global malloc ; void ram *malloc( sizeram_t Length ) malloc: movff FSR2L,POSTINC1 movff FSR2H,POSTINC1 movff FSR1L,FSR2L movff FSR1H,FSR2H subfsr 2,4 ; { ; struct _AllocBlock ram *p,*q; ; #if USING_FREE_RTOS != 1 ; unsigned char Aux; ; #endif // USING_FREE_RTOS != 1 addfsr 1,LOCALS_SIZE ; // We will not allocate 0 bytes. ; if( Length == 0 ) movf [Length+0],w iorwf [Length+1],w bnz NotZero ; // The allocation failed. ; return NULL; clrf PRODL,ACCESS clrf PRODH,ACCESS bra Ret NotZero: ; // // The length should always be even. (Not for 14 or 16 bit (program word) PICs). ; // Length = ( Length + 1 ) & -2; ; ; infsnz [Length+0],f ; incf [Length+1],f ; bcf [Length+0],0 ; #if defined __18CXX || defined _PIC18 ; // The length should be at least 2. (Not for 14 bit (program word) PICs) ; if( Length < sizeof __freelist.Next ) ; Length = sizeof __freelist.Next; ; #endif // defined __18CXX || defined _PIC18 movlw 2 subwf [Length+0],w movlw 0 subwfb [Length+1],w bc TwoOrMore movlw 2 movwf [Length+0] TwoOrMore: ; DISABLE_INTERRUPTS(); DISABLE_INTERRUPTS ; // Then we iterate trough the free list to find a suitable block. ; for( q = &__freelist,p = __freelist.Next; p != NULL && p->Length < Length; q = p, p = p->Next ) ; ; // Empty statement movlw low __freelist ; for( q = &__freelist, movwf [q+0] movlw high __freelist movwf [q+1] movff __freelist+2,FSR0L ; p = __freelist.Next; movff __freelist+3,FSR0H Loop: movf FSR0L,w,ACCESS ; p != NULL iorwf FSR0H,w,ACCESS bz Fail movf [Length+0],w ; && p->Length < Length; subwf POSTINC0,w,ACCESS movf [Length+1],w subwfb POSTDEC0,w,ACCESS bc Found movf FSR0L,w,ACCESS ; q = p, movwf [q+0] movf FSR0H,w,ACCESS movwf [q+1] addfsr 0,2 ; p = p->Next ); movf POSTINC0,w,ACCESS movff INDF0,FSR0H movwf FSR0L,ACCESS bra Loop ; // If p is NULL is because there is no suitable block. ; if( p == NULL ) ; { ; RESTORE_INTERRUPTS(); ; // The allocation failed. ; return NULL; ; } #if USING_FREE_RTOS == 1 Fail: clrf [p+0] clrf [p+1] #else ; USING_FREE_RTOS == 1 Fail: clrf PRODL,ACCESS clrf PRODH,ACCESS #endif ; USING_FREE_RTOS == 1 bra Epilog ; // If the block length is not enough to be splitted, we allocate the whole block. ; if( p->Length < Length + sizeof( struct _AllocBlock )) ; { Found: movf FSR0L,w movwf [p+0] movf FSR0H,w movwf [p+1] movlw 0x04 addwf [Length+0],w movwf PRODL,ACCESS movlw 0x00 addwfc [Length+1],w movwf PRODH,ACCESS movf PRODL,w,ACCESS subwf POSTINC0,w,ACCESS movf PRODH,w,ACCESS subwfb POSTDEC0,w,ACCESS bc SplitBlock ; // Remove the block from the free list. ; q->Next = p->Next; AllocateWhole: addfsr 0,2 movff POSTINC0,PRODL movff POSTDEC0,PRODH movsf [q+0],FSR0L movsf [q+1],FSR0H addfsr 0,2 movff PRODL,POSTINC0 movff PRODH,POSTDEC0 bra Finish ; } ; // We have to split the block. ; else ; { #if ALLOCATE_FROM_BEGINNING == 1 ; // Make the previous block point to the remaining of the block being split. ; q->Next = (struct _AllocBlock RAM *)( (unsigned char RAM *)p + Length + sizeof __freelist.Length ); SplitBlock: movsf [q+0],FSR0L movsf [q+1],FSR0H addfsr 0,2 movf [p+0],w addwf [Length+0],w movwf [q+0] movf [p+1],w addwfc [Length+1],w movwf [q+1] movlw 2 addwf [q+0],f movlw 0 addwfc [q+1],f ; // Make q point to the remaining of the block being split. ; q = q->Next; movsf [q+0],POSTINC0 movsf [q+1],POSTDEC0 ; // Set the lenght of the remaining of the block being split. ; q->Length = p->Length - Length - sizeof __freelist.Length; movsf [p+0],FSR0L movsf [p+1],FSR0H movf [Length+0],w subwf POSTINC0,w,ACCESS movwf PRODL,ACCESS movf [Length+1],w subwfb POSTDEC0,w,ACCESS movwf PRODH,ACCESS movlw 2 subwf PRODL,f,ACCESS movlw 0 subwfb PRODH,f,ACCESS movsf [q+0],FSR0L movsf [q+1],FSR0H movff PRODL,POSTINC0 movff PRODH,POSTDEC0 ; // Set the new block length. ; p->Length = Length; movsf [p+0],FSR0L movsf [p+1],FSR0H movsf [Length+0],POSTINC0 movsf [Length+1],POSTINC0 ; // Make the remaining of the block being split point to where the original block pointed. ; q->Next = p->Next; movff POSTINC0,PRODL movff POSTDEC0,PRODH movsf [q+0],FSR0L movsf [q+1],FSR0H addfsr 0,2 movff PRODL,POSTINC0 movff PRODH,POSTDEC0 #else ; ALLOCATE_FROM_BEGINNING == 1 ; // Make p point to the begining of the new block. ; pTemp = (struct _AllocBlock ram *)( (unsigned char ram *)p + p->Length - Length ); SplitBlock: movf POSTINC0,w,ACCESS addwf [p+0],f movf POSTDEC0,w,ACCESS addwfc [p+1],f movf [Length+0],w subwf [p+0],f movf [Length+1],w subwfb [p+1],f ; // Reduce the original block length. ; p->Length -= Length + sizeof __freelist.Length; movf [Length+0],w subwf POSTINC0,f,ACCESS movf [Length+1],w subwfb POSTDEC0,f,ACCESS movlw 0x02 subwf POSTINC0,f,ACCESS movlw 0x00 subwfb POSTDEC0,f,ACCESS ; // Set the new block length. ; p = pTemp; movsf [p+0],FSR0L movsf [p+1],FSR0H ; p->Length = Length; movsf [Length+0],POSTINC0 movsf [Length+1],POSTDEC0 #endif ; ALLOCATE_FROM_BEGINNING == 1 ; } ; ; RESTORE_INTERRUPTS(); ; // return the address of the data area of the block. ; return (unsigned char RAM *)p + sizeof __freelist.Length; ; } #if USING_FREE_RTOS == 1 Finish: movlw 0x02 addwf [p+0],f movlw 0x00 addwfc [p+1],f Epilog: RESTORE_INTERRUPTS movsf [p+0],PRODL movsf [p+1],PRODH #else ; USING_FREE_RTOS == 1 Finish: movlw 0x02 addwf [p+0],w movwf PRODL,ACCESS movlw 0x00 addwfc [p+1],w movwf PRODH,ACCESS Epilog: RESTORE_INTERRUPTS #endif ; USING_FREE_RTOS == 1 Ret: subfsr 1,LOCALS_SIZE + 1 movff POSTDEC1,FSR2H movff INDF1,FSR2L return 0 ;=============================================================================== end ;===============================================================================
file: /Techref/member/IMB-yahoo-J86/malloc.asm.htm, 10KB, , updated: 2010/4/14 13:58, local time: 2024/12/22 13:49,
owner: IMB-yahoo-J86,
52.14.176.111:LOG IN
|
©2024 These pages are served without commercial sponsorship. (No popup ads, etc...).Bandwidth abuse increases hosting cost forcing sponsorship or shutdown. This server aggressively defends against automated copying for any reason including offline viewing, duplication, etc... Please respect this requirement and DO NOT RIP THIS SITE. Questions? <A HREF="http://massmind.ecomorder.com/Techref/member/IMB-yahoo-J86/malloc.asm.htm"> Heap Management For Small Microcontrollers - malloc.asm</A> |
Did you find what you needed? |