/** * \file MacroTable.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author André Pönitz * * Full author contact details are available in file CREDITS. */ #include #include "InsetMathSqrt.h" #include "MacroTable.h" #include "MathMacroTemplate.h" #include "MathMacroArgument.h" #include "MathStream.h" #include "MathSupport.h" #include "InsetMathNest.h" #include "Buffer.h" #include "DocIterator.h" #include "InsetList.h" #include "Text.h" #include "support/debug.h" #include "support/lassert.h" #include using namespace std; namespace lyx { ///////////////////////////////////////////////////////////////////// // // MacroData // ///////////////////////////////////////////////////////////////////// MacroData::MacroData(Buffer * buf) : buffer_(buf), queried_(true), numargs_(0), optionals_(0), lockCount_(0), redefinition_(false), type_(MacroTypeNewcommand) {} MacroData::MacroData(Buffer * buf, DocIterator const & pos) : buffer_(buf), pos_(pos), queried_(false), numargs_(0), optionals_(0), lockCount_(0), redefinition_(false), type_(MacroTypeNewcommand) { } MacroData::MacroData(Buffer * buf, MathMacroTemplate const & macro) : buffer_(buf), queried_(false), numargs_(0), optionals_(0), lockCount_(0), redefinition_(false), type_(MacroTypeNewcommand) { queryData(macro); } void MacroData::expand(vector const & args, MathData & to) const { updateData(); // Hack. Any inset with a cell would do. static InsetMathSqrt inset(0); inset.setBuffer(const_cast(*buffer_)); // FIXME UNICODE asArray(display_.empty() ? definition_ : display_, inset.cell(0)); //lyxerr << "MathData::expand: args: " << args << endl; //lyxerr << "MathData::expand: ar: " << inset.cell(0) << endl; for (DocIterator it = doc_iterator_begin(buffer_, &inset); it; it.forwardChar()) { if (!it.nextInset()) continue; if (it.nextInset()->lyxCode() != MATH_MACROARG_CODE) continue; //it.cell().erase(it.pos()); //it.cell().insert(it.pos(), it.nextInset()->asInsetMath() size_t n = static_cast(it.nextInset())->number(); if (n <= args.size()) { it.cell().erase(it.pos()); it.cell().insert(it.pos(), args[n - 1]); } } //lyxerr << "MathData::expand: res: " << inset.cell(0) << endl; to = inset.cell(0); } size_t MacroData::optionals() const { updateData(); return optionals_; } vector const & MacroData::defaults() const { updateData(); return defaults_; } void MacroData::unlock() const { --lockCount_; LASSERT(lockCount_ >= 0, /**/); } void MacroData::queryData(MathMacroTemplate const & macro) const { if (queried_) return; queried_ = true; definition_ = macro.definition(); numargs_ = macro.numArgs(); display_ = macro.displayDefinition(); redefinition_ = macro.redefinition(); type_ = macro.type(); optionals_ = macro.numOptionals(); macro.getDefaults(defaults_); } void MacroData::updateData() const { if (queried_) return; LASSERT(buffer_ != 0, /**/); // Try to fix position DocIterator. Should not do anything in theory. pos_.fixIfBroken(); // find macro template Inset * inset = pos_.nextInset(); if (inset == 0 || inset->lyxCode() != MATHMACRO_CODE) { lyxerr << "BUG: No macro template found by MacroData" << endl; return; } // query the data from the macro template queryData(static_cast(*inset)); } void MacroData::write(odocstream & os, bool overwriteRedefinition) const { updateData(); // find macro template Inset * inset = pos_.nextInset(); if (inset == 0 || inset->lyxCode() != MATHMACRO_CODE) { lyxerr << "BUG: No macro template found by MacroData" << endl; return; } // output template MathMacroTemplate const & tmpl = static_cast(*inset); WriteStream wi(os, false, true, WriteStream::wsDefault); tmpl.write(wi, overwriteRedefinition); } ///////////////////////////////////////////////////////////////////// // // The global table of macros // ///////////////////////////////////////////////////////////////////// MacroTable & MacroTable::globalMacros() { static MacroTable theGlobalMacros; return theGlobalMacros; } MacroData const * MacroTable::get(docstring const & name) const { const_iterator it = find(name); return it == end() ? 0 : &it->second; } void MacroTable::insert(docstring const & name, MacroData const & data) { //lyxerr << "MacroTable::insert: " << to_utf8(name) << endl; operator[](name) = data; } void MacroTable::insert(Buffer * buf, docstring const & def, string const & requires) { //lyxerr << "MacroTable::insert, def: " << to_utf8(def) << endl; MathMacroTemplate mac(buf, def); MacroData data(buf, mac); data.requires() = requires; insert(mac.name(), data); } void MacroTable::getMacroNames(std::set & names) const { for (const_iterator it = begin(); it != end(); ++it) names.insert(it->first); } void MacroTable::dump() { lyxerr << "\n------------------------------------------" << endl; for (const_iterator it = begin(); it != end(); ++it) lyxerr << to_utf8(it->first) << " [" << to_utf8(it->second.definition()) << "] : " << " [" << to_utf8(it->second.display()) << "] : " << endl; lyxerr << "------------------------------------------" << endl; } ///////////////////////////////////////////////////////////////////// // // MacroContext // ///////////////////////////////////////////////////////////////////// MacroContext::MacroContext(Buffer const * buf, DocIterator const & pos) : buf_(buf), pos_(pos) { } MacroData const * MacroContext::get(docstring const & name) const { return buf_->getMacro(name, pos_); } } // namespace lyx