/* * CiderPress * Copyright (C) 2007 by faddenSoft, LLC. All Rights Reserved. * See the file LICENSE for distribution terms. */ /* * Reformat "generic" GWP and Teach files. */ #include "StdAfx.h" #include "Teach.h" #include "ResourceFork.h" /* * ========================================================================== * ReformatGWP * ========================================================================== */ /* * Decide whether or not we want to treat this file as a "generic" IIgs * document. Possibly useful for converting the special characters. We'll * activate it for any GWP file other than the two known types. */ void ReformatGWP::Examine(ReformatHolder* pHolder) { ReformatHolder::ReformatApplies applies = ReformatHolder::kApplicNot; if (pHolder->GetFileType() == kTypeGWP && (pHolder->GetAuxType() != 0x5445 && pHolder->GetAuxType() != 0x8010)) { applies = ReformatHolder::kApplicProbably; } pHolder->SetApplic(ReformatHolder::kReformatGWP, applies, ReformatHolder::kApplicNot, ReformatHolder::kApplicNot); } /* * Convert GWP into formatted text. */ int ReformatGWP::Process(const ReformatHolder* pHolder, ReformatHolder::ReformatID id, ReformatHolder::ReformatPart part, ReformatOutput* pOutput) { const uint8_t* srcBuf = pHolder->GetSourceBuf(part); long srcLen = pHolder->GetSourceLen(part); fUseRTF = false; CheckGSCharConv(); RTFBegin(); /* convert EOL markers and IIgs characters */ uint8_t ch; while (srcLen) { ch = *srcBuf++; srcLen--; if (ch == '\r') { /* got CR, check for CRLF -- not really expected on IIgs */ if (srcLen != 0 && *srcBuf == '\n') { srcBuf++; srcLen--; } BufPrintf("\r\n"); } else if (ch == '\n') { BufPrintf("\r\n"); } else { // RTF is always off, so just use BufPrintf BufPrintf("%c", ConvertMacRomanTo1252(ch)); } } RTFEnd(); SetResultBuffer(pOutput); return 0; } /* * ========================================================================== * ReformatTeach * ========================================================================== */ /* * Decide whether or not we want to handle this file. */ void ReformatTeach::Examine(ReformatHolder* pHolder) { ReformatHolder::ReformatApplies applies = ReformatHolder::kApplicNot; if (pHolder->GetFileType() == kTypeGWP && pHolder->GetAuxType() == 0x5445) applies = ReformatHolder::kApplicYes; pHolder->SetApplic(ReformatHolder::kReformatTeach, applies, ReformatHolder::kApplicNot, ReformatHolder::kApplicNot); } /* * Convert Teach Text into formatted text. * * The text is in the data fork and the formatting is in the resource fork. */ int ReformatTeach::Process(const ReformatHolder* pHolder, ReformatHolder::ReformatID id, ReformatHolder::ReformatPart part, ReformatOutput* pOutput) { const uint8_t* dataBuf; const uint8_t* rsrcBuf; long dataLen, rsrcLen; const uint8_t* styleBlock; long styleLen; if (part != ReformatHolder::kPartData) return -1; dataBuf = pHolder->GetSourceBuf(ReformatHolder::kPartData); dataLen = pHolder->GetSourceLen(ReformatHolder::kPartData); rsrcBuf = pHolder->GetSourceBuf(ReformatHolder::kPartRsrc); rsrcLen = pHolder->GetSourceLen(ReformatHolder::kPartRsrc); if (dataBuf == NULL || rsrcBuf == NULL || dataLen <= 0 || rsrcLen <= 0) { LOGI("Teach reformatter missing one fork of the file"); return -1; } CheckGSCharConv(); /* find the rStyleBlock */ if (!ReformatResourceFork::GetResource(rsrcBuf, rsrcLen, 0x8012, 0x0001, &styleBlock, &styleLen)) { LOGI("Resource fork of Teach Text file not found"); return -1; } RStyleBlock rStyleBlock; if (!rStyleBlock.Create(styleBlock, styleLen)) { LOGI("Unable to unpack rStyleBlock"); return -1; } fUseRTF = true; RTFBegin(); /* * Configure ruler options. The format allows us to have more than one * ruler, but doesn't provide a way to select between them, so we have * to assume that the first ruler is global. * * In practice, the Teach application doesn't provide a way to set * margins or tab stops, so there's really not much to do. It seems to * create tab stops with 64-pixel widths, which translates to 10 tab * stops per page. WordPad seems to default to 12, so I figure there's * not much point in futzing with it since the fonts are all different * anyway. */ RStyleBlock::TERuler* pRuler = rStyleBlock.GetRuler(0); assert(pRuler != NULL); if (pRuler->GetJustification() != RStyleBlock::TERuler::kJustLeft) { LOGI("WARNING: not using left justified Teach text"); /* ignore it */ } for (int style = 0; style < rStyleBlock.GetNumStyleItems(); style++) { RStyleBlock::StyleItem* pStyleItem; RStyleBlock::TEStyle* pStyle; int numBytes; /* set up the style */ pStyleItem = rStyleBlock.GetStyleItem(style); assert(pStyleItem != NULL); if (pStyleItem->GetLength() == RStyleBlock::StyleItem::kUnusedItem) continue; numBytes = pStyleItem->GetLength(); pStyle = rStyleBlock.GetStyle(pStyleItem->GetStyleIndex()); /* * Set the font first; that defines the point size multiplier. Set * the size second, because the point size determines whether we * show underline. Set the style last. */ RTFSetGSFont(pStyle->GetFontFamily()); RTFSetGSFontSize(pStyle->GetFontSize()); RTFSetGSFontStyle(pStyle->GetTextStyle()); /* * The Teach app doesn't let you set text colors, but it appears * there's a way to do it, since the SpyHunterGS Read.Me file has * a bit of red in it. */ if (pStyle->GetTextColor() != 0) { // do something with color, someday } /* output the characters */ uint8_t uch; while (numBytes--) { if (!dataLen) { LOGI("WARNING: Teach underrun (%ld wanted)", numBytes); break; } uch = *dataBuf; if (uch == '\r') { RTFNewPara(); } else if (uch == '\t') { RTFTab(); } else { RTFPrintUTF16Char(ConvertMacRomanToUTF16(uch)); } dataBuf++; dataLen--; } } if (dataLen) { LOGI("WARNING: Teach overrun (%ld remain)", dataLen); /* no big deal */ } RTFEnd(); SetResultBuffer(pOutput, true); return 0; } /* * ========================================================================== * RStyleBlock functions * ========================================================================== */ /* * Unpack an rStyleBlock resource. */ bool RStyleBlock::Create(const uint8_t* buf, long len) { uint16_t version; uint32_t partLen; int i; assert(buf != NULL); if (len < kMinLen) { LOGI("Too short to be rStyleBlock (%d)", len); return false; } version = Reformat::Read16(&buf, &len); if (version != kExpectedVersion) { LOGI("Bad rStyleBlock version (%d)", version); return false; } /* extract ruler(s) */ partLen = Reformat::Read32(&buf, &len); if (partLen > (uint32_t) (len+8)) { /* not enough to satisfy data + two more counts */ LOGI("Invalid part1 length (%d vs %d)", partLen, len); return false; } fNumRulers = 1; fpRulers = new TERuler[fNumRulers]; if (fpRulers == NULL) return false; if (fpRulers->Create(buf, partLen) <= 0) return false; buf += partLen; len -= partLen; /* extract TEStyles */ partLen = Reformat::Read32(&buf, &len); if (partLen > (uint32_t) (len + 4)) { LOGI("Invalid part2 length (%d vs %d)", partLen, len); return false; } if ((partLen % TEStyle::kDataLen) != 0) { LOGI("Invalid part2 length (%d mod %d)", partLen, TEStyle::kDataLen); return false; } fNumStyles = partLen / TEStyle::kDataLen; fpStyles = new TEStyle[fNumStyles]; if (fpStyles == NULL) return false; for (i = 0; i < fNumStyles; i++) { fpStyles[i].Create(buf); buf += TEStyle::kDataLen; len -= TEStyle::kDataLen; } /* extract StyleItems */ fNumStyleItems = (int) Reformat::Read32(&buf, &len); partLen = fNumStyleItems * StyleItem::kItemDataLen; if (partLen > (uint32_t) len) { LOGI("Invalid part3 length (%d vs %d)", partLen, len); return false; } fpStyleItems = new StyleItem[fNumStyleItems]; if (fpStyleItems == NULL) return false; for (i = 0; i < fNumStyleItems; i++) { fpStyleItems[i].Create(buf); if ((fpStyleItems[i].GetOffset() % TEStyle::kDataLen) != 0) { LOGI("Invalid offset %d (mod %d)", fpStyleItems[i].GetOffset(), TEStyle::kDataLen); return false; } buf += StyleItem::kItemDataLen; len -= StyleItem::kItemDataLen; } if (len != 0) { LOGI("WARNING: at end of rStyleBlock, len is %ld", len); } return true; } /* * Construct a TERuler from a chunk of data. * * Returns the #of bytes consumed, or -1 on failure. */ int RStyleBlock::TERuler::Create(const uint8_t* buf, long len) { long origLen = len; if (len < kMinLen) return -1; fLeftMargin = Reformat::Get16LE(buf); fLeftIndent = Reformat::Get16LE(buf + 2); fRightMargin = Reformat::Get16LE(buf + 4); fJust = Reformat::Get16LE(buf + 6); fExtraLS = Reformat::Get16LE(buf + 8); fFlags = Reformat::Get16LE(buf + 10); fUserData = Reformat::Get32LE(buf + 12); fTabType = Reformat::Get16LE(buf + 16); buf += 18; len -= 18; /* * What we do now depends on the value of fTabType: * 0: no tabs are set, there's nothing else to read. * 1: regularly-spaced tabs; spacing defined by fTabTerminator field. * 2: irregular tabs, defined by array terminated by 0xffff in the * fTabTerminator field. * * At present we're just throwing the tab array out. */ switch (fTabType) { case 0: fTabTerminator = 0; break; case 1: fTabTerminator = Reformat::Get16LE(buf); buf += 2; len -= 2; break; case 2: while (len >= 2) { TabItem tabItem; tabItem.tabKind = Reformat::Get16LE(buf); buf += 2; len -= 2; if (tabItem.tabKind == kTabArrayEnd || len < 2) break; tabItem.tabData = Reformat::Get16LE(buf); buf += 2; len -= 2; } break; default: LOGI("Invalid tab type %d", fTabType); return -1; } LOGI("TERuler consumed %ld bytes (%ld left over)", origLen - len, len); return origLen - len; } /* * Extract a TEStyle object from the buffer. */ void RStyleBlock::TEStyle::Create(const uint8_t* buf) { fFontID = Reformat::Get32LE(buf); fForeColor = Reformat::Get16LE(buf + 4); fBackColor = Reformat::Get16LE(buf + 6); fUserData = Reformat::Get32LE(buf + 8); LOGI(" TEStyle: font fam=0x%04x size=%-2d style=0x%02x fore=0x%04x", GetFontFamily(), GetFontSize(), GetTextStyle(), fForeColor); } /* * Extract a StyleItem object from the buffer. */ void RStyleBlock::StyleItem::Create(const uint8_t* buf) { fLength = Reformat::Get32LE(buf); fOffset = Reformat::Get32LE(buf + 4); LOGI(" StyleItem: len=%ld off=%ld", fLength, fOffset); }