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https://github.com/Museum-of-Art-and-Digital-Entertainment/macross.git
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370 lines
11 KiB
C
370 lines
11 KiB
C
/*
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* Copyright (c) 1987 Fujitsu
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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/*
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relocate.c -- Routines to relocate relocatable code for the Slinky
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linker.
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Chip Morningstar -- Lucasfilm Ltd.
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15-March-1985
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*/
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#include "slinkyTypes.h"
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#include "slinkyGlobals.h"
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#define isUndefined(symbol) (((symbol)->symbolClass & ~SYMBOL_EXTERNAL) == 0)
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void
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removeZeroPageFromFreeList()
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{
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while (freeSegmentList->segmentEndAddress <= 0x100)
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freeSegmentList = freeSegmentList->nextFreeSegment;
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if (freeSegmentList->segmentStartAddress < 0x100)
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freeSegmentList->segmentStartAddress = 0x100;
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}
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addressType
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align(address, alignment)
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addressType address;
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int alignment;
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{
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if (alignment == 0)
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return(address);
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else
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return(((address + alignment - 1) / alignment) * alignment);
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}
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addressType
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constrain(address, size, constraint)
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addressType address;
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int size;
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addressType constraint;
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{
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if (constraint == 0)
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return(address);
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else if (address/constraint != (address + size - 1)/constraint)
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return(align(address, constraint));
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else
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return(address);
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}
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void
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moveRelocationBase(newBase)
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addressType newBase;
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{
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freeSegmentEntryType *freePtr;
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freeSegmentEntryType *newFreePtr;
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freePtr = freeSegmentList;
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while (freePtr != NULL && newBase > freePtr->segmentEndAddress)
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freePtr = freePtr->nextFreeSegment;
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if (freePtr == NULL || freePtr->segmentStartAddress == newBase) {
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effectiveFreeSegmentList = freePtr;
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} else {
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newFreePtr = typeAlloc(freeSegmentEntryType);
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newFreePtr->segmentEndAddress = freePtr->segmentEndAddress;
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freePtr->segmentEndAddress = newBase - 1;
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newFreePtr->segmentStartAddress = newBase;
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newFreePtr->nextFreeSegment = freePtr->nextFreeSegment;
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freePtr->nextFreeSegment = newFreePtr;
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effectiveFreeSegmentList = newFreePtr;
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}
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}
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addressType
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allocateRelocatable(codeSegment)
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codeSegmentHeaderType *codeSegment;
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{
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freeSegmentEntryType *freePtr;
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freeSegmentEntryType *previousPtr;
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freeSegmentEntryType *newFreePtr;
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int size;
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addressType effectiveStartAddress;
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freePtr = effectiveFreeSegmentList;
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previousPtr = NULL;
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size = codeSegment->segmentEndAddress - codeSegment->
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segmentStartAddress + 1;
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while (freePtr != NULL) {
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effectiveStartAddress = align(freePtr->segmentStartAddress,
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codeSegment->alignment);
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effectiveStartAddress = constrain(effectiveStartAddress, size,
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codeSegment->constraint);
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if (freePtr->segmentEndAddress - effectiveStartAddress + 1 <
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size) {
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previousPtr = freePtr;
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freePtr = freePtr->nextFreeSegment;
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continue;
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}
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/* if we made it to here, we got a winner! */
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if (effectiveStartAddress == freePtr->segmentStartAddress) {
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if (effectiveStartAddress + size - 1 == freePtr->
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segmentEndAddress) {
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if (previousPtr == NULL)
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freeSegmentList = freePtr->nextFreeSegment;
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else
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previousPtr->nextFreeSegment = freePtr->
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nextFreeSegment;
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} else {
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freePtr->segmentStartAddress += size;
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}
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} else {
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if (effectiveStartAddress + size - 1 == freePtr->
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segmentEndAddress) {
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freePtr->segmentEndAddress -= size;
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} else {
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newFreePtr = typeAlloc(freeSegmentEntryType);
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newFreePtr->nextFreeSegment = freePtr->nextFreeSegment;
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freePtr->nextFreeSegment = newFreePtr;
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newFreePtr->segmentEndAddress =freePtr->segmentEndAddress;
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freePtr->segmentEndAddress = effectiveStartAddress - 1;
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newFreePtr->segmentStartAddress = effectiveStartAddress +
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size;
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}
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}
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return(effectiveStartAddress);
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}
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return((addressType) -1);
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}
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void
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relocateOneCodeSegment(codeSegment, targetLocation)
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codeSegmentHeaderType *codeSegment;
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addressType targetLocation;
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{
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int relocationOffset;
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relocationOffset = targetLocation - codeSegment->segmentStartAddress;
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if (verbose)
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printf(" 0x%04x:0x%04x --> 0x%04x", codeSegment->
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segmentStartAddress, codeSegment->segmentEndAddress,
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targetLocation);
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codeSegment->relocationOffset = relocationOffset;
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codeSegment->segmentStartAddress += relocationOffset;
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codeSegment->segmentEndAddress += relocationOffset;
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if (!packFlag) {
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moveRelocationBase(codeSegment->segmentEndAddress+1);
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}
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if (verbose)
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printf(" (0x%04x:0x%04x)\n", codeSegment->segmentStartAddress,
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codeSegment->segmentEndAddress);
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installSegment(codeSegment);
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}
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void
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relocatem()
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{
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objectFileListType *inputFileList;
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addressType targetLocation;
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codeSegmentHeaderType *codeSegment;
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reserveReservations();
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removeZeroPageFromFreeList();
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for (inputFileList = objectFileList; inputFileList != NULL;
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inputFileList = inputFileList->nextObjectFile) {
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if (inputFileList->name != NULL) {
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currentFileName = inputFileList->name;
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if (verbose)
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printf("%s:\n", inputFileList->name);
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for (codeSegment = inputFileList->codeSegments; codeSegment !=
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NULL; codeSegment = codeSegment->nextSegment) {
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if (codeSegment->segmentMode == MODE_RELOCATABLE) {
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if ((targetLocation=allocateRelocatable(codeSegment))
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== (addressType) -1) {
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error(NO_PLACE_TO_PUT_CODE_SEGMENT_ERROR,
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codeSegment->segmentStartAddress,
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inputFileList->name);
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} else {
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relocateOneCodeSegment(codeSegment,
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targetLocation);
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}
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}
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}
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} else { /* null name encodes new relocation base */
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moveRelocationBase(inputFileList->symbolCount);
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}
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}
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}
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codeSegmentHeaderType *
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matchModes(symbol, codeSegment)
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symbolType *symbol;
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codeSegmentHeaderType *codeSegment;
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{
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while (codeSegment!=NULL && ((codeSegment->segmentMode==MODE_ABSOLUTE
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&& !(symbol->symbolClass & SYMBOL_ABSOLUTE)) ||
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(codeSegment->segmentMode==MODE_RELOCATABLE &&
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!(symbol->symbolClass & SYMBOL_RELOCATABLE) &&
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!(symbol->symbolClass & SYMBOL_ABSOLUTE))))
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codeSegment = codeSegment->nextSegment;
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return(codeSegment);
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}
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bool
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matchedModes(symbol, codeSegment)
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symbolType *symbol;
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codeSegmentHeaderType *codeSegment;
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{
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return(((symbol->symbolClass & SYMBOL_ABSOLUTE) && codeSegment->
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segmentMode == MODE_ABSOLUTE) || ((symbol->symbolClass &
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SYMBOL_RELOCATABLE) && codeSegment->segmentMode ==
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MODE_RELOCATABLE));
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}
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codeSegmentHeaderType *
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synchronizeCodeSegment(symbol, codeSegment)
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symbolType *symbol;
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codeSegmentHeaderType *codeSegment;
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{
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codeSegment = matchModes(symbol, codeSegment);
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while (codeSegment != NULL && codeSegment->nextSegment != NULL &&
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codeSegment->segmentEndAddress - codeSegment->
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relocationOffset < symbol->symbolValue &&
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matchedModes(symbol, codeSegment)) {
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codeSegment = codeSegment->nextSegment;
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}
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return(codeSegment);
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}
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void
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handleGlobalSymbol(symbol)
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symbolType *symbol;
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{
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}
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void
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valueSymbol(symbol, codeSegment)
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symbolType *symbol;
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codeSegmentHeaderType *codeSegment;
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{
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if (symbol->symbolClass & SYMBOL_ABSOLUTE) {
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return;
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} else if (symbol->symbolClass & SYMBOL_RELOCATABLE) {
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symbol->symbolValue += codeSegment->relocationOffset;
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} else {
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printf("Super botcho! Undefined symbol in ValueSymbol.\n");
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}
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}
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symbolType *
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lookupGlobalSymbol(symbolName)
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char *symbolName;
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{
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int guess;
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int top;
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int bottom;
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int compare;
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int oldTop;
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int oldBottom;
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top = oldBottom = globalSymbolCount;
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bottom = oldTop = 0;
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while (top != bottom && top != oldTop && bottom != oldBottom) {
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guess = (top + bottom) >> 1;
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compare = strcmplc(globalSymbolTable[guess]->symbolName,
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symbolName);
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if (compare == 0)
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return(globalSymbolTable[guess]);
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else if (compare < 0) {
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oldBottom = bottom;
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bottom = guess;
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} else {
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oldTop = top;
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top = guess;
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}
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}
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return(NULL);
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}
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void
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valueUndefinedSymbol(symbol)
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symbolType *symbol;
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{
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symbolType *globalSymbol;
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if ((globalSymbol = lookupGlobalSymbol(symbol->symbolName)) == NULL) {
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error(UNDEFINED_SYMBOL_ERROR, symbol->symbolName);
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} else {
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symbol->symbolClass = globalSymbol->symbolClass;
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symbol->symbolValue = globalSymbol->symbolValue;
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}
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}
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void
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valuem()
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{
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objectFileListType *inputFileList;
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codeSegmentHeaderType *codeSegmentPtr;
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symbolType *symbolPtr;
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int symbolCount;
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totalSymbolCount = 0;
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for (inputFileList = objectFileList; inputFileList != NULL;
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inputFileList = inputFileList->nextObjectFile) {
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if (inputFileList->name != NULL) {
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currentFileName = inputFileList->name;
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if (debug)
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printf("\nSymbols with values (%s):\n", inputFileList->
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name);
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codeSegmentPtr = inputFileList->codeSegments;
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for (symbolCount = 0; symbolCount<inputFileList->symbolCount;
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symbolCount++) {
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symbolPtr = inputFileList->symbolTable[symbolCount];
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if (isUndefined(symbolPtr)) {
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/* inputFileList->undefinedSymbols = symbolPtr;*/
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inputFileList->undefinedSymbols = &(inputFileList->symbolTable[symbolCount]);
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break;
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}
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codeSegmentPtr = synchronizeCodeSegment(symbolPtr,
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codeSegmentPtr);
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valueSymbol(symbolPtr, codeSegmentPtr);
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if (debug)
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printSymbol(symbolCount, symbolPtr);
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}
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inputFileList->baseSymbolCount = symbolCount;
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inputFileList->symbolCount -= symbolCount;
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}
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}
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for (inputFileList = objectFileList; inputFileList != NULL;
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inputFileList = inputFileList->nextObjectFile) {
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if (inputFileList->name != NULL) {
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currentFileName = inputFileList->name;
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if (debug)
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printf("\nGlobal symbols with values (%s):\n",
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inputFileList->name);
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for (symbolCount = 0; symbolCount <inputFileList->symbolCount;
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symbolCount++) {
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symbolPtr = inputFileList->undefinedSymbols[symbolCount];
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valueUndefinedSymbol(symbolPtr);
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if (debug)
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printSymbol(symbolCount, symbolPtr);
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}
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inputFileList->symbolCount = inputFileList->baseSymbolCount;
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totalSymbolCount += inputFileList->baseSymbolCount;
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}
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}
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if (debug)
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printf("\nTotal symbol count = %d\n", totalSymbolCount);
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if (produceLoadMap)
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outputLoadMap();
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}
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