mirror of
https://github.com/fadden/ciderpress.git
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bb24f51ccb
We weren't doing a MOR-to-UNI conversion on the sub-volume name, so HFS volumes with non-ASCII characters didn't look right. This also relocates the character-conversion code to a new source file. It's currently part of the reformat lib, though it arguably belongs in util (but that would introduce a new dependency between reformat and util).
536 lines
15 KiB
C++
536 lines
15 KiB
C++
/*
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* CiderPress
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* Copyright (C) 2007 by faddenSoft, LLC. All Rights Reserved.
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* See the file LICENSE for distribution terms.
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*/
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/*
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* Reformat AWGS files.
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*/
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#include "StdAfx.h"
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#include "AWGS.h"
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/*
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* Decide whether or not we want to handle this file.
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*/
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void ReformatAWGS_WP::Examine(ReformatHolder* pHolder)
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{
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ReformatHolder::ReformatApplies applies = ReformatHolder::kApplicNot;
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if (pHolder->GetFileType() == kTypeGWP && pHolder->GetAuxType() == 0x8010)
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applies = ReformatHolder::kApplicYes;
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pHolder->SetApplic(ReformatHolder::kReformatAWGS_WP, applies,
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ReformatHolder::kApplicNot, ReformatHolder::kApplicNot);
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}
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/*
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* Convert AWGS into formatted text.
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*/
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int ReformatAWGS_WP::Process(const ReformatHolder* pHolder,
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ReformatHolder::ReformatID id, ReformatHolder::ReformatPart part,
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ReformatOutput* pOutput)
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{
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const uint8_t* srcBuf = pHolder->GetSourceBuf(part);
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long srcLen = pHolder->GetSourceLen(part);
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fUseRTF = true;
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Chunk doc, header, footer;
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uint16_t val;
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Charset::CheckGSCharConv();
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/* must at least have the doc header and globals */
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if (srcLen < kMinExpectedLen) {
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LOGI("Too short to be AWGS");
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return -1;
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}
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RTFBegin(kRTFFlagColorTable);
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/*
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* Pull interesting values out of the document header.
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*/
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val = Get16LE(srcBuf + 0);
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if (val != kExpectedVersion1 && val != kExpectedVersion2) {
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LOGI("AWGS_WP: unexpected version number (got 0x%04x, wanted 0x%04x)",
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val, kExpectedVersion1);
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DebugBreak();
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}
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val = Get16LE(srcBuf + 2);
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if (val != kDocHeaderLen) {
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LOGI("Unexpected doc header len (got 0x%04x, wanted 0x%04x)",
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val, kDocHeaderLen);
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return -1;
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}
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/* the color table is 32 bytes at +56, should we be interested */
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srcBuf += kDocHeaderLen;
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srcLen -= kDocHeaderLen;
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/*
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* Pull interesting values out of the WP global variables section.
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*/
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val = Get16LE(srcBuf + 0);
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if (val > kExpectedIntVersion) {
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LOGI("Unexpected internal version number (got %d, expected %d)",
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val, kExpectedIntVersion);
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return -1;
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}
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/* date/time are pascal strings */
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LOGI("File saved at '%.26hs' '%.10s'", srcBuf + 6, srcBuf + 32);
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srcBuf += kWPGlobalsLen;
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srcLen -= kWPGlobalsLen;
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/*
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* Now come the three chunks, in order: main document, header, footer.
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*/
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LOGI("AWGS_WP: scanning doc");
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if (!ReadChunk(&srcBuf, &srcLen, &doc))
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return -1;
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LOGI("AWGS_WP: scanning header");
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if (!ReadChunk(&srcBuf, &srcLen, &header))
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return -1;
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LOGI("AWGS_WP: scanning footer");
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if (!ReadChunk(&srcBuf, &srcLen, &footer))
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return -1;
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if (srcLen != 0) {
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LOGI("AWGS NOTE: %ld bytes left in file", srcLen);
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}
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/*
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* Dump the chunks, starting with header and footer.
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*/
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RTFSetColor(kColorMediumBlue);
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RTFSetFont(kFontCourierNew);
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RTFSetFontSize(10);
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BufPrintf("<header>");
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RTFSetColor(kColorNone);
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RTFNewPara();
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PrintChunk(&header);
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RTFSetColor(kColorMediumBlue);
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RTFSetFont(kFontCourierNew);
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RTFSetFontSize(10);
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BufPrintf("</header>");
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RTFSetColor(kColorNone);
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RTFNewPara();
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RTFSetColor(kColorMediumBlue);
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RTFSetFont(kFontCourierNew);
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RTFSetFontSize(10);
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BufPrintf("<footer>");
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RTFSetColor(kColorNone);
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RTFNewPara();
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PrintChunk(&footer);
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RTFSetColor(kColorMediumBlue);
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RTFSetFont(kFontCourierNew);
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RTFSetFontSize(10);
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BufPrintf("</footer>");
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RTFSetColor(kColorNone);
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RTFNewPara();
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LOGI("AWGS_WP: rendering document");
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PrintChunk(&doc);
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RTFEnd();
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SetResultBuffer(pOutput, true);
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return 0;
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}
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/*
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* Read one of the chunks of the file.
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*/
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bool ReformatAWGS_WP::ReadChunk(const uint8_t** pSrcBuf, long* pSrcLen,
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Chunk* pChunk)
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{
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/* starts with the saveArray count */
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pChunk->saveArrayCount = Get16LE(*pSrcBuf);
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if (pChunk->saveArrayCount == 0) {
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/* AWGS always has at least 1 paragraph */
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LOGI("Save array is empty");
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return false;
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}
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*pSrcBuf += 2;
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*pSrcLen -= 2;
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/* locate and move past the SaveArray */
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pChunk->saveArray = *pSrcBuf;
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*pSrcBuf += pChunk->saveArrayCount * kSaveArrayEntryLen;
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*pSrcLen -= pChunk->saveArrayCount * kSaveArrayEntryLen;
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if (*pSrcLen <= 0) {
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LOGI("SaveArray exceeds file length (count=%d len now %ld)",
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pChunk->saveArrayCount, *pSrcLen);
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return false;
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}
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/*
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* Scan the "save array" to find the highest-numbered ruler. This tells
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* us how many rulers there are.
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*/
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pChunk->numRulers = GetNumRulers(pChunk->saveArray, pChunk->saveArrayCount);
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if (*pSrcLen < pChunk->numRulers * kRulerEntryLen) {
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LOGI("Not enough room for rulers (rem=%ld, needed=%ld)",
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*pSrcLen, pChunk->numRulers * kRulerEntryLen);
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return false;
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}
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LOGI("+++ found %d rulers", pChunk->numRulers);
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pChunk->rulers = *pSrcBuf;
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*pSrcBuf += pChunk->numRulers * kRulerEntryLen;
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*pSrcLen -= pChunk->numRulers * kRulerEntryLen;
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/*
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* Now we're at the docTextBlocks section.
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*/
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pChunk->textBlocks = *pSrcBuf;
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pChunk->numTextBlocks = GetNumTextBlocks(pChunk->saveArray,
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pChunk->saveArrayCount);
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if (!SkipTextBlocks(pSrcBuf, pSrcLen, pChunk->numTextBlocks))
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return false;
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return true;
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}
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/*
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* Output a single chunk. We do this by walking down the saveArray.
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*/
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void ReformatAWGS_WP::PrintChunk(const Chunk* pChunk)
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{
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const int kDefaultStatusBits = kAWGSJustifyLeft | kAWGSSingleSpace;
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SaveArrayEntry sae;
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const uint8_t* saveArray;
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int saCount;
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const uint8_t* blockPtr;
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long blockLen;
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const uint8_t* pRuler;
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uint16_t rulerStatusBits;
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saveArray = pChunk->saveArray;
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saCount = pChunk->saveArrayCount;
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for ( ; saCount > 0; saCount--, saveArray += kSaveArrayEntryLen) {
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UnpackSaveArrayEntry(saveArray, &sae);
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/*
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* Page-break paragraphs have no real data and an invalid value
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* in the "rulerNum" field. So we just throw out a page break
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* here and call it a day.
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*/
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if (sae.attributes == 0x0001) {
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/* this is a page-break paragraph */
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RTFSetColor(kColorMediumBlue);
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RTFSetFont(kFontCourierNew);
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RTFSetFontSize(10);
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BufPrintf("<page-break>");
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RTFSetColor(kColorNone);
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RTFNewPara();
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RTFPageBreak(); // only supported by Word
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continue;
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}
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if (sae.rulerNum < pChunk->numRulers) {
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pRuler = pChunk->rulers + sae.rulerNum * kRulerEntryLen;
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rulerStatusBits = Get16LE(pRuler + 2);
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} else {
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LOGI("AWGS_WP GLITCH: invalid ruler index %d", sae.rulerNum);
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rulerStatusBits = kDefaultStatusBits;
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}
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if (rulerStatusBits & kAWGSJustifyFull)
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RTFParaJustify();
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else if (rulerStatusBits & kAWGSJustifyRight)
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RTFParaRight();
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else if (rulerStatusBits & kAWGSJustifyCenter)
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RTFParaCenter();
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else if (rulerStatusBits & kAWGSJustifyLeft)
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RTFParaLeft();
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RTFSetPara();
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/*
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* Find the text block that holds this paragraph. We could speed
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* this up by creating an array of entries rather than walking the
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* list every time. However, the block count tends to be fairly
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* small (e.g. 7 for a 16K doc).
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*/
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blockPtr = FindTextBlock(pChunk, sae.textBlock);
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if (blockPtr == NULL) {
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LOGI("AWGS_WP bad textBlock %d", sae.textBlock);
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return;
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}
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blockLen = (long) Get32LE(blockPtr);
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if (blockLen <= 0 || blockLen > 65535) {
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LOGI("AWGS_WP invalid block len %d", blockLen);
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return;
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}
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blockPtr += 4;
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if (sae.offset >= blockLen) {
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LOGI("AWGS_WP bad offset: %d, blockLen=%ld",
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sae.offset, blockLen);
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return;
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}
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PrintParagraph(blockPtr + sae.offset, blockLen - sae.offset);
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}
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}
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/*
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* Print the contents of the text blocks.
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*
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* We're assured that the text block format is correct because we had to
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* skip through them earlier. We don't really need to worry about running
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* off the end due to a bad file.
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*/
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const uint8_t* ReformatAWGS_WP::FindTextBlock(const Chunk* pChunk, int blockNum)
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{
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const uint8_t* blockPtr = pChunk->textBlocks;
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uint32_t blockSize;
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while (blockNum--) {
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blockSize = Get32LE(blockPtr);
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blockPtr += 4 + blockSize;
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}
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return blockPtr;
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}
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/*
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* Print one paragraph.
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*
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* Stop when we hit '\r'. We watch "maxLen" just to be safe.
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*
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* Returns the #of bytes consumed.
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*/
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int ReformatAWGS_WP::PrintParagraph(const uint8_t* ptr, long maxLen)
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{
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const uint8_t* startPtr = ptr;
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uint16_t firstFont;
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uint8_t firstStyle, firstSize, firstColor;
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uint8_t uch;
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if (maxLen < 7) {
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LOGI("AWGS_WP GLITCH: not enough storage for para header (%d)",
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maxLen);
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return 1; // don't return zero or we might loop forever
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}
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/* pull out the paragraph header */
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firstFont = Get16LE(ptr);
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firstStyle = *(ptr + 2);
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firstSize = *(ptr + 3);
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firstColor = *(ptr + 4);
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ptr += 7;
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maxLen -= 7;
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/*
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* Set the font first; that defines the point size multiplier. Set
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* the size second, because the point size determines whether we
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* show underline. Set the style last.
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*/
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//LOGI("+++ Para start: font=0x%04x size=%d style=0x%02x",
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// firstFont, firstSize, firstStyle);
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RTFSetGSFont(firstFont);
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RTFSetGSFontSize(firstSize);
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RTFSetGSFontStyle(firstStyle);
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while (maxLen > 0) {
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uch = *ptr++;
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maxLen--;
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switch (uch) {
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case 0x01: // font change - two bytes follow
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if (maxLen >= 2) {
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RTFSetGSFont(Get16LE(ptr));
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ptr += 2;
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maxLen -= 2;
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}
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break;
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case 0x02: // text style change
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if (maxLen >= 1) {
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RTFSetGSFontStyle(*ptr++);
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maxLen--;
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}
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break;
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case 0x03: // text size change
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if (maxLen >= 1) {
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RTFSetGSFontSize(*ptr++);
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maxLen--;
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}
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break;
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case 0x04: // color change (0-15)
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if (maxLen >= 1) {
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ptr++;
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maxLen--;
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}
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break;
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case 0x05: // page token (replace with page #)
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case 0x06: // date token (replace with date)
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case 0x07: // time token (replace with time)
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RTFSetColor(kColorMediumBlue);
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if (uch == 0x05)
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BufPrintf("<page>");
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else if (uch == 0x06)
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BufPrintf("<date>");
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else
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BufPrintf("<time>");
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RTFSetColor(kColorNone);
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break;
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case '\r':
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RTFNewPara();
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return ptr - startPtr;
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case '\t':
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RTFTab();
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break;
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default:
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RTFPrintUTF16Char(Charset::ConvertMacRomanToUTF16(uch));
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break;
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}
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}
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LOGI("AWGS_WP: WARNING: ran out of data before hitting '\r'");
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return ptr - startPtr;
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}
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/*
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* Run through the SaveArray and find the highest-numbered ruler index.
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*/
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uint16_t ReformatAWGS_WP::GetNumRulers(const uint8_t* pSaveArray,
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uint16_t saveArrayCount)
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{
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SaveArrayEntry sa;
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int maxRuler = -1;
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while (saveArrayCount--) {
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UnpackSaveArrayEntry(pSaveArray, &sa);
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/*
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* Ignore the record if sa.attributes == 1 (page break).
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*/
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if (sa.attributes == 0 && sa.rulerNum > maxRuler)
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maxRuler = sa.rulerNum;
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pSaveArray += kSaveArrayEntryLen;
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}
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/* there must be at least one paragraph, so this must hold */
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assert(maxRuler >= 0);
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return (uint16_t) (maxRuler+1);
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}
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/*
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* Run through the SaveArray and find the highest-numbered text block
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* index.
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*
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* These are stored linearly, so we just need to look at the last entry.
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*/
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uint16_t ReformatAWGS_WP::GetNumTextBlocks(const uint8_t* pSaveArray,
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uint16_t saveArrayCount)
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{
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SaveArrayEntry sa;
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uint16_t maxTextBlock;
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assert(saveArrayCount > 0);
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UnpackSaveArrayEntry(pSaveArray + (saveArrayCount-1) * kSaveArrayEntryLen,
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&sa);
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maxTextBlock = sa.textBlock;
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#ifdef _DEBUG
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int maxPara = -1;
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while (saveArrayCount--) {
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UnpackSaveArrayEntry(pSaveArray, &sa);
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/*
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* Ignore the record if sa.attributes == 1 (page break).
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*/
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if (sa.attributes == 0 && sa.textBlock > maxPara)
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maxPara = sa.textBlock;
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pSaveArray += kSaveArrayEntryLen;
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}
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/* always at least one paragraph */
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assert(maxPara >= 0);
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/* verify our result */
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if (maxPara != maxTextBlock) {
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LOGI("Max para mismatch (%d vs %d)", maxPara, maxTextBlock);
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assert(false);
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}
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#endif
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return (uint16_t) (maxTextBlock+1);
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}
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/*
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* Unpack a SaveArray entry.
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*/
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void ReformatAWGS_WP::UnpackSaveArrayEntry(const uint8_t* pSaveArray,
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SaveArrayEntry* pSAE)
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{
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pSAE->textBlock = Get16LE(pSaveArray + 0);
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pSAE->offset = Get16LE(pSaveArray + 2);
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pSAE->attributes = Get16LE(pSaveArray + 4);
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pSAE->rulerNum = Get16LE(pSaveArray + 6);
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pSAE->pixelHeight = Get16LE(pSaveArray + 8);
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pSAE->numLines = Get16LE(pSaveArray + 10);
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//LOGI("SA: textBlock=%d off=%d attr=%d ruler=%d lines=%d",
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// pSAE->textBlock, pSAE->offset, pSAE->attributes, pSAE->rulerNum,
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// pSAE->numLines);
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}
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/*
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* Skip past a series of text blocks.
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*
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* Returns "true" on success, "false" on failure.
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*/
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bool ReformatAWGS_WP::SkipTextBlocks(const uint8_t** pSrcBuf,
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long* pSrcLen, int textBlockCount)
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{
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uint32_t blockSize;
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const uint8_t* srcBuf = *pSrcBuf;
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long srcLen = *pSrcLen;
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LOGI("Scanning %d text blocks", textBlockCount);
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if (srcLen < 4)
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return false;
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while (textBlockCount--) {
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blockSize = Get32LE(srcBuf);
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srcBuf += 4;
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srcLen -= 4;
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LOGI("+++ blockSize=%lu srcLen=%ld", blockSize, srcLen);
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if ((long) blockSize < kMinTextBlockSize) {
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LOGI("Block size too small (%d - %d)",
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blockSize, Get16LE(srcBuf));
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return false;
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}
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if ((long) blockSize > srcLen) {
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LOGI("Ran off the end in doc text blocks");
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return false;
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}
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if (Get16LE(srcBuf) != blockSize || Get16LE(srcBuf+2) != blockSize) {
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LOGI("AWGS WARNING: inconsistent block size values (%ld vs %d/%d)",
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blockSize, Get16LE(srcBuf), Get16LE(srcBuf+2));
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/* okay to ignore it, so long as everything else works out */
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}
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srcBuf += blockSize;
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srcLen -= blockSize;
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}
|
|
|
|
*pSrcBuf = srcBuf;
|
|
*pSrcLen = srcLen;
|
|
|
|
return true;
|
|
}
|