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464 lines
12 KiB
C
464 lines
12 KiB
C
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/*
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Expression Evaluator Library (NS-EEL) v2
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Copyright (C) 2004-2013 Cockos Incorporated
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Copyright (C) 1999-2003 Nullsoft, Inc.
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This software is provided 'as-is', without any express or implied
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warranty. In no event will the authors be held liable for any damages
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arising from the use of this software.
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Permission is granted to anyone to use this software for any purpose,
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including commercial applications, and to alter it and redistribute it
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freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must not
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claim that you wrote the original software. If you use this software
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in a product, an acknowledgment in the product documentation would be
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appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and must not be
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misrepresented as being the original software.
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3. This notice may not be removed or altered from any source distribution.
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*/
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#include "ns-eel.h"
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#include "ns-eel-int.h"
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#include <math.h>
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#include <stdio.h>
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#include <string.h>
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#include <stdlib.h>
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#ifdef _WIN32
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#include <malloc.h>
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#ifdef _MSC_VER
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#define inline __inline
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#endif
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#endif
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unsigned int NSEEL_RAM_limitmem=0;
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unsigned int NSEEL_RAM_memused=0;
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int NSEEL_RAM_memused_errors=0;
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int NSEEL_VM_wantfreeRAM(NSEEL_VMCTX ctx)
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{
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if (ctx)
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{
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compileContext *c=(compileContext*)ctx;
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if (c->ram_state.needfree)
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return 1;
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}
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return 0;
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}
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void NSEEL_VM_freeRAMIfCodeRequested(NSEEL_VMCTX ctx) // check to see if our free flag was set
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{
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if (ctx)
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{
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compileContext *c=(compileContext*)ctx;
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if (c->ram_state.needfree)
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{
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NSEEL_HOSTSTUB_EnterMutex();
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{
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INT_PTR startpos=((INT_PTR)c->ram_state.needfree)-1;
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EEL_F **blocks = c->ram_state.blocks;
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INT_PTR pos=0;
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int x;
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for (x = 0; x < NSEEL_RAM_BLOCKS; x ++)
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{
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if (pos >= startpos)
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{
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if (blocks[x])
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{
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if (NSEEL_RAM_memused >= sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK)
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NSEEL_RAM_memused -= sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK;
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else NSEEL_RAM_memused_errors++;
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free(blocks[x]);
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blocks[x]=0;
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}
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}
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pos+=NSEEL_RAM_ITEMSPERBLOCK;
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}
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c->ram_state.needfree=0;
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}
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NSEEL_HOSTSTUB_LeaveMutex();
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}
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}
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}
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EEL_F nseel_ramalloc_onfail;
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EEL_F * volatile nseel_gmembuf_default;
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void *(*nseel_gmem_calloc)(size_t a, size_t b);
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EEL_F * NSEEL_CGEN_CALL __NSEEL_RAMAllocGMEM(EEL_F ***blocks, unsigned int w)
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{
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if (blocks)
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{
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EEL_F **pblocks=*blocks;
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if (w < NSEEL_RAM_BLOCKS*NSEEL_RAM_ITEMSPERBLOCK)
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{
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const unsigned int whichblock = w/NSEEL_RAM_ITEMSPERBLOCK;
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EEL_F *p=NULL;
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if (!pblocks || !(p=pblocks[whichblock]))
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{
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NSEEL_HOSTSTUB_EnterMutex();
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if (!nseel_gmem_calloc) nseel_gmem_calloc=calloc;
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if (!(pblocks=*blocks)) pblocks = *blocks = (EEL_F **)nseel_gmem_calloc(sizeof(EEL_F *),NSEEL_RAM_BLOCKS);
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else p = pblocks[whichblock];
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if (!p && pblocks)
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{
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p=pblocks[whichblock]=(EEL_F *)nseel_gmem_calloc(sizeof(EEL_F),NSEEL_RAM_ITEMSPERBLOCK);
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}
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NSEEL_HOSTSTUB_LeaveMutex();
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}
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if (p) return p + (w&(NSEEL_RAM_ITEMSPERBLOCK-1));
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}
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return &nseel_ramalloc_onfail;
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}
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if (!nseel_gmembuf_default)
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{
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NSEEL_HOSTSTUB_EnterMutex();
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if (!nseel_gmembuf_default) nseel_gmembuf_default=(EEL_F*)calloc(sizeof(EEL_F),NSEEL_SHARED_GRAM_SIZE);
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NSEEL_HOSTSTUB_LeaveMutex();
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if (!nseel_gmembuf_default) return &nseel_ramalloc_onfail;
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}
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return nseel_gmembuf_default+(((unsigned int)w)&((NSEEL_SHARED_GRAM_SIZE)-1));
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}
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EEL_F * NSEEL_CGEN_CALL __NSEEL_RAMAlloc(EEL_F **pblocks, unsigned int w)
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{
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// fprintf(stderr,"got request at %d, %d\n",w/NSEEL_RAM_ITEMSPERBLOCK, w&(NSEEL_RAM_ITEMSPERBLOCK-1));
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if (w < NSEEL_RAM_BLOCKS*NSEEL_RAM_ITEMSPERBLOCK)
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{
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unsigned int whichblock = w/NSEEL_RAM_ITEMSPERBLOCK;
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EEL_F *p=pblocks[whichblock];
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if (!p && whichblock < ((unsigned int *)pblocks)[-3]) // pblocks -1/-2 are closefact, -3 is maxblocks
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{
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NSEEL_HOSTSTUB_EnterMutex();
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if (!(p=pblocks[whichblock]))
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{
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const int msize=sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK;
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if (!NSEEL_RAM_limitmem || NSEEL_RAM_memused+msize < NSEEL_RAM_limitmem)
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{
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p=pblocks[whichblock]=(EEL_F *)calloc(sizeof(EEL_F),NSEEL_RAM_ITEMSPERBLOCK);
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if (p) NSEEL_RAM_memused+=msize;
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}
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}
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NSEEL_HOSTSTUB_LeaveMutex();
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}
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if (p) return p + (w&(NSEEL_RAM_ITEMSPERBLOCK-1));
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}
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// fprintf(stderr,"ret 0\n");
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return &nseel_ramalloc_onfail;
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}
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EEL_F * NSEEL_CGEN_CALL __NSEEL_RAM_MemFree(void *blocks, EEL_F *which)
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{
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// blocks points to ram_state.blocks, so back it up past closefact and maxblocks to needfree
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int *flag = (int *)((char *)blocks - sizeof(double) - 2*sizeof(int));
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int d=(int)(*which);
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if (d < 0) d=0;
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if (d < flag[1]*NSEEL_RAM_ITEMSPERBLOCK) flag[0]=1+d;
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return which;
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}
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EEL_F * NSEEL_CGEN_CALL __NSEEL_RAM_MemTop(void *blocks, EEL_F *which)
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{
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// blocks points to ram_state.blocks, so back it up past closefact to maxblocks
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const int *flag = (int *)((char *)blocks - sizeof(double) - sizeof(int));
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*which = flag[0]*NSEEL_RAM_ITEMSPERBLOCK;
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return which;
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}
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EEL_F * NSEEL_CGEN_CALL __NSEEL_RAM_MemCpy(EEL_F **blocks,EEL_F *dest, EEL_F *src, EEL_F *lenptr)
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{
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const int mem_size=NSEEL_RAM_BLOCKS*NSEEL_RAM_ITEMSPERBLOCK;
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int dest_offs = (int)(*dest + 0.0001);
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int src_offs = (int)(*src + 0.0001);
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int len = (int)(*lenptr + 0.0001);
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int want_mmove=0;
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// trim to front
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if (src_offs<0)
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{
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len += src_offs;
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dest_offs -= src_offs;
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src_offs=0;
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}
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if (dest_offs<0)
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{
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len += dest_offs;
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src_offs -= dest_offs;
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dest_offs=0;
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}
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if (src_offs + len > mem_size) len = mem_size-src_offs;
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if (dest_offs + len > mem_size) len = mem_size-dest_offs;
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if (src_offs == dest_offs || len < 1) return dest;
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if (src_offs < dest_offs && src_offs+len > dest_offs)
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{
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// if src_offs < dest_offs and overlapping, must copy right to left
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if ((dest_offs - src_offs) < NSEEL_RAM_ITEMSPERBLOCK) want_mmove = 1;
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src_offs += len;
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dest_offs += len;
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while (len > 0)
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{
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const int maxdlen=((dest_offs-1)&(NSEEL_RAM_ITEMSPERBLOCK-1)) + 1;
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const int maxslen=((src_offs-1)&(NSEEL_RAM_ITEMSPERBLOCK-1)) + 1;
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int copy_len = len;
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EEL_F *srcptr,*destptr;
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if (copy_len > maxdlen) copy_len=maxdlen;
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if (copy_len > maxslen) copy_len=maxslen;
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srcptr = __NSEEL_RAMAlloc(blocks,src_offs - copy_len);
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destptr = __NSEEL_RAMAlloc(blocks,dest_offs - copy_len);
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if (srcptr==&nseel_ramalloc_onfail || destptr==&nseel_ramalloc_onfail) break;
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if (want_mmove) memmove(destptr,srcptr,sizeof(EEL_F)*copy_len);
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else memcpy(destptr,srcptr,sizeof(EEL_F)*copy_len);
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src_offs-=copy_len;
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dest_offs-=copy_len;
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len-=copy_len;
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}
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return dest;
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}
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if (dest_offs < src_offs && dest_offs+len > src_offs)
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{
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// if dest_offs < src_offs and overlapping, and less than NSEEL_RAM_ITEMSPERBLOCK apart, use memmove()
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if ((src_offs-dest_offs) < NSEEL_RAM_ITEMSPERBLOCK) want_mmove = 1;
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}
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while (len > 0)
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{
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const int maxdlen=NSEEL_RAM_ITEMSPERBLOCK - (dest_offs&(NSEEL_RAM_ITEMSPERBLOCK-1));
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const int maxslen=NSEEL_RAM_ITEMSPERBLOCK - (src_offs&(NSEEL_RAM_ITEMSPERBLOCK-1));
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int copy_len = len;
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EEL_F *srcptr,*destptr;
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if (copy_len > maxdlen) copy_len=maxdlen;
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if (copy_len > maxslen) copy_len=maxslen;
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srcptr = __NSEEL_RAMAlloc(blocks,src_offs);
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destptr = __NSEEL_RAMAlloc(blocks,dest_offs);
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if (srcptr==&nseel_ramalloc_onfail || destptr==&nseel_ramalloc_onfail) break;
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if (want_mmove) memmove(destptr,srcptr,sizeof(EEL_F)*copy_len);
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else memcpy(destptr,srcptr,sizeof(EEL_F)*copy_len);
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src_offs+=copy_len;
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dest_offs+=copy_len;
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len-=copy_len;
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}
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return dest;
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}
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EEL_F * NSEEL_CGEN_CALL __NSEEL_RAM_MemSet(EEL_F **blocks,EEL_F *dest, EEL_F *v, EEL_F *lenptr)
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{
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int offs = (int)(*dest + 0.0001);
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int len = (int)(*lenptr + 0.0001);
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EEL_F t;
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if (offs<0)
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{
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len += offs;
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offs=0;
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}
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if (offs >= NSEEL_RAM_BLOCKS*NSEEL_RAM_ITEMSPERBLOCK) return dest;
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if (offs+len > NSEEL_RAM_BLOCKS*NSEEL_RAM_ITEMSPERBLOCK) len = NSEEL_RAM_BLOCKS*NSEEL_RAM_ITEMSPERBLOCK - offs;
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if (len < 1) return dest;
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t=*v; // set value
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// int lastBlock=-1;
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while (len > 0)
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{
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int lcnt;
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EEL_F *ptr=__NSEEL_RAMAlloc(blocks,offs);
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if (ptr==&nseel_ramalloc_onfail) break;
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lcnt=NSEEL_RAM_ITEMSPERBLOCK-(offs&(NSEEL_RAM_ITEMSPERBLOCK-1));
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if (lcnt > len) lcnt=len;
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len -= lcnt;
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offs += lcnt;
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while (lcnt--)
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{
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*ptr++=t;
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}
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}
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return dest;
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}
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static inline int __getset_values(EEL_F **blocks, int isset, int len, EEL_F **parms)
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{
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int offs, lout=0;
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unsigned int pageidx, sub_offs;
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if (--len < 1) return 0;
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offs = (int)(parms++[0][0] + 0.0001);
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if (offs<=0)
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{
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len += offs;
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parms -= offs;
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offs=0;
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pageidx=sub_offs=0;
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if (len<1) return 0;
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}
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else
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{
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sub_offs = ((unsigned int)offs) & (NSEEL_RAM_ITEMSPERBLOCK-1);
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pageidx = ((unsigned int)offs)>>NSEEL_RAM_ITEMSPERBLOCK_LOG2;
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if (pageidx>=NSEEL_RAM_BLOCKS) return 0;
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}
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for (;;)
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{
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int lcnt=NSEEL_RAM_ITEMSPERBLOCK-sub_offs;
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EEL_F *ptr=blocks[pageidx];
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if (!ptr)
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{
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ptr = __NSEEL_RAMAlloc(blocks,offs + lout);
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if (ptr==&nseel_ramalloc_onfail) return lout;
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}
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else
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{
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ptr += sub_offs;
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}
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if (lcnt >= len)
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{
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// this page satisfies the request (normal behavior)
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lout += len;
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if (isset) while (len--) *ptr++=parms++[0][0];
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else while (len--) parms++[0][0] = *ptr++;
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return lout;
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}
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// crossing a page boundary
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len -= lcnt;
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lout += lcnt;
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if (isset) while (lcnt--) *ptr++=parms++[0][0];
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else while (lcnt--) parms++[0][0] = *ptr++;
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if (len <= 0 || ++pageidx >= NSEEL_RAM_BLOCKS) return lout;
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sub_offs=0;
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}
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}
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EEL_F NSEEL_CGEN_CALL __NSEEL_RAM_Mem_SetValues(EEL_F **blocks, INT_PTR np, EEL_F **parms)
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{
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return __getset_values(blocks,1,(int)np,parms);
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}
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EEL_F NSEEL_CGEN_CALL __NSEEL_RAM_Mem_GetValues(EEL_F **blocks, INT_PTR np, EEL_F **parms)
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{
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return __getset_values(blocks,0,(int)np,parms);
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}
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void NSEEL_VM_SetGRAM(NSEEL_VMCTX ctx, void **gram)
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{
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if (ctx)
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{
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compileContext *c=(compileContext*)ctx;
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c->gram_blocks = gram;
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}
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}
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void NSEEL_VM_freeRAM(NSEEL_VMCTX ctx)
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{
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if (ctx)
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{
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int x;
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compileContext *c=(compileContext*)ctx;
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EEL_F **blocks = c->ram_state.blocks;
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for (x = 0; x < NSEEL_RAM_BLOCKS; x ++)
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{
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if (blocks[x])
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{
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if (NSEEL_RAM_memused >= sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK)
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NSEEL_RAM_memused -= sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK;
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||
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else NSEEL_RAM_memused_errors++;
|
||
|
free(blocks[x]);
|
||
|
blocks[x]=0;
|
||
|
}
|
||
|
}
|
||
|
c->ram_state.needfree=0; // no need to free anymore
|
||
|
}
|
||
|
}
|
||
|
|
||
|
void NSEEL_VM_FreeGRAM(void **ufd)
|
||
|
{
|
||
|
if (ufd[0])
|
||
|
{
|
||
|
EEL_F **blocks = (EEL_F **)ufd[0];
|
||
|
int x;
|
||
|
for (x = 0; x < NSEEL_RAM_BLOCKS; x ++)
|
||
|
{
|
||
|
if (blocks[x])
|
||
|
{
|
||
|
if (NSEEL_RAM_memused >= sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK)
|
||
|
NSEEL_RAM_memused -= sizeof(EEL_F) * NSEEL_RAM_ITEMSPERBLOCK;
|
||
|
else NSEEL_RAM_memused_errors++;
|
||
|
}
|
||
|
free(blocks[x]);
|
||
|
blocks[x]=0;
|
||
|
}
|
||
|
free(blocks);
|
||
|
ufd[0]=0;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
EEL_F *NSEEL_VM_getramptr(NSEEL_VMCTX ctx, unsigned int offs, int *validCount)
|
||
|
{
|
||
|
EEL_F *d=__NSEEL_RAMAlloc(ctx ? ((compileContext*)ctx)->ram_state.blocks : 0,offs);
|
||
|
if (!d || d == &nseel_ramalloc_onfail) return NULL;
|
||
|
if (validCount) *validCount = NSEEL_RAM_ITEMSPERBLOCK - (offs%NSEEL_RAM_ITEMSPERBLOCK);
|
||
|
|
||
|
return d;
|
||
|
}
|
||
|
|
||
|
EEL_F *NSEEL_VM_getramptr_noalloc(NSEEL_VMCTX ctx, unsigned int offs, int *validCount)
|
||
|
{
|
||
|
EEL_F *d;
|
||
|
compileContext *cc = (compileContext *)ctx;
|
||
|
|
||
|
if (!cc ||
|
||
|
offs >= NSEEL_RAM_ITEMSPERBLOCK*NSEEL_RAM_BLOCKS ||
|
||
|
NULL == (d = cc->ram_state.blocks[offs/NSEEL_RAM_ITEMSPERBLOCK])
|
||
|
)
|
||
|
{
|
||
|
if (validCount) *validCount = 0;
|
||
|
return NULL;
|
||
|
}
|
||
|
|
||
|
offs %= NSEEL_RAM_ITEMSPERBLOCK;
|
||
|
if (validCount) *validCount = NSEEL_RAM_ITEMSPERBLOCK - offs;
|
||
|
return d + offs;
|
||
|
}
|