//======================================================================== // // This file is under the GPLv2 or later license // // Copyright (C) 2005-2006 Kristian Høgsberg // Copyright (C) 2005, 2009, 2013, 2017, 2018, 2020 Albert Astals Cid // Copyright (C) 2011 Simon Kellner // Copyright (C) 2012 Fabio D'Urso // Copyright (C) 2018 Adam Reichold // // To see a description of the changes please see the Changelog file that // came with your tarball or type make ChangeLog if you are building from git // //======================================================================== #include #include #include #include #include #include #include "PageLabelInfo.h" #include "PageLabelInfo_p.h" PageLabelInfo::Interval::Interval(Object *dict, int baseA) { style = None; Object obj = dict->dictLookup("S"); if (obj.isName()) { if (obj.isName("D")) { style = Arabic; } else if (obj.isName("R")) { style = UppercaseRoman; } else if (obj.isName("r")) { style = LowercaseRoman; } else if (obj.isName("A")) { style = UppercaseLatin; } else if (obj.isName("a")) { style = LowercaseLatin; } } obj = dict->dictLookup("P"); if (obj.isString()) { const auto str = obj.getString(); prefix.assign(str->c_str(), str->getLength()); } obj = dict->dictLookup("St"); if (obj.isInt()) first = obj.getInt(); else first = 1; base = baseA; } PageLabelInfo::PageLabelInfo(Object *tree, int numPages) { std::set alreadyParsedRefs; parse(tree, alreadyParsedRefs); if (intervals.empty()) return; auto curr = intervals.begin(); for (auto next = curr + 1; next != intervals.end(); ++next, ++curr) { curr->length = std::max(0, next->base - curr->base); } curr->length = std::max(0, numPages - curr->base); } void PageLabelInfo::parse(const Object *tree, std::set &alreadyParsedRefs) { // leaf node Object nums = tree->dictLookup("Nums"); if (nums.isArray()) { for (int i = 0; i < nums.arrayGetLength(); i += 2) { Object obj = nums.arrayGet(i); if (!obj.isInt()) { continue; } int base = obj.getInt(); obj = nums.arrayGet(i + 1); if (!obj.isDict()) { continue; } intervals.emplace_back(&obj, base); } } Object kids = tree->dictLookup("Kids"); if (kids.isArray()) { const Array *kidsArray = kids.getArray(); for (int i = 0; i < kidsArray->getLength(); ++i) { Ref ref; const Object kid = kidsArray->get(i, &ref); if (ref != Ref::INVALID()) { const int numObj = ref.num; if (alreadyParsedRefs.find(numObj) != alreadyParsedRefs.end()) { error(errSyntaxError, -1, "loop in PageLabelInfo (numObj: {0:d})", numObj); continue; } alreadyParsedRefs.insert(numObj); } if (kid.isDict()) { parse(&kid, alreadyParsedRefs); } } } } bool PageLabelInfo::labelToIndex(GooString *label, int *index) const { const char *const str = label->c_str(); const std::size_t strLen = label->getLength(); const bool strUnicode = label->hasUnicodeMarker(); int number; bool ok; for (const auto &interval : intervals) { const std::size_t prefixLen = interval.prefix.size(); if (strLen < prefixLen || interval.prefix.compare(0, prefixLen, str, prefixLen) != 0) continue; switch (interval.style) { case Interval::Arabic: std::tie(number, ok) = fromDecimal(str + prefixLen, str + strLen, strUnicode); if (ok && number - interval.first < interval.length) { *index = interval.base + number - interval.first; return true; } break; case Interval::LowercaseRoman: case Interval::UppercaseRoman: number = fromRoman(str + prefixLen); if (number >= 0 && number - interval.first < interval.length) { *index = interval.base + number - interval.first; return true; } break; case Interval::UppercaseLatin: case Interval::LowercaseLatin: number = fromLatin(str + prefixLen); if (number >= 0 && number - interval.first < interval.length) { *index = interval.base + number - interval.first; return true; } break; case Interval::None: break; } } return false; } bool PageLabelInfo::indexToLabel(int index, GooString *label) const { char buffer[32]; int base, number; const Interval *matching_interval; GooString number_string; base = 0; matching_interval = nullptr; for (const auto &interval : intervals) { if (base <= index && index < base + interval.length) { matching_interval = &interval; break; } base += interval.length; } if (!matching_interval) return false; number = index - base + matching_interval->first; switch (matching_interval->style) { case Interval::Arabic: snprintf(buffer, sizeof(buffer), "%d", number); number_string.append(buffer); break; case Interval::LowercaseRoman: toRoman(number, &number_string, false); break; case Interval::UppercaseRoman: toRoman(number, &number_string, true); break; case Interval::LowercaseLatin: toLatin(number, &number_string, false); break; case Interval::UppercaseLatin: toLatin(number, &number_string, true); break; case Interval::None: break; } label->clear(); label->append(matching_interval->prefix.c_str(), matching_interval->prefix.size()); if (label->hasUnicodeMarker()) { int i, len; char ucs2_char[2]; /* Convert the ascii number string to ucs2 and append. */ len = number_string.getLength(); ucs2_char[0] = 0; for (i = 0; i < len; ++i) { ucs2_char[1] = number_string.getChar(i); label->append(ucs2_char, 2); } } else { label->append(&number_string); } return true; }