// This file contains most of the magic that extracts "context // information" from the unstructered layout-oriented stuff in an // MathArray. #include "math_charinset.h" #include "math_deliminset.h" #include "math_exfuncinset.h" #include "math_exintinset.h" #include "math_funcinset.h" #include "math_matrixinset.h" #include "math_mathmlstream.h" #include "math_scriptinset.h" #include "math_stringinset.h" #include "math_symbolinset.h" #include "debug.h" std::ostream & operator<<(std::ostream & os, MathArray const & ar) { NormalStream ns(os); ns << ar; return os; } MathScriptInset const * asScript(MathArray::const_iterator it) { if (it->nucleus()->asScriptInset()) return 0; ++it; if (!it->nucleus()) return 0; return it->nucleus()->asScriptInset(); } // returns sequence of char with same code starting at it up to end // it might be less, though... string charSequence(MathArray::const_iterator it, MathArray::const_iterator end) { string s; MathCharInset const * p = it->nucleus()->asCharInset(); if (p) { for (MathTextCodes c = p->code(); it != end; ++it) { p = it->nucleus()->asCharInset(); if (!p || p->code() != c) break; s += p->getChar(); } } return s; } void extractStrings(MathArray & dat) { //lyxerr << "\nStrings from: " << ar << "\n"; MathArray ar; MathArray::const_iterator it = dat.begin(); while (it != dat.end()) { if (it->nucleus() && it->nucleus()->asCharInset()) { string s = charSequence(it, dat.end()); MathTextCodes c = it->nucleus()->asCharInset()->code(); ar.push_back(MathAtom(new MathStringInset(s, c))); it += s.size(); } else { ar.push_back(*it); ++it; } } ar.swap(dat); //lyxerr << "\nStrings to: " << ar << "\n"; } MathInset * singleItem(MathArray & ar) { return ar.size() == 1 ? ar.begin()->nucleus() : 0; } void extractMatrices(MathArray & ar) { lyxerr << "\nMatrices from: " << ar << "\n"; for (MathArray::iterator it = ar.begin(); it != ar.end(); ++it) { MathDelimInset * del = (*it)->asDelimInset(); if (!del) continue; MathInset * arr = singleItem(del->cell(0)); if (!arr || !arr->asArrayInset()) continue; *it = MathAtom(new MathMatrixInset(*(arr->asArrayInset()))); lyxerr << "\nMatrices to: " << ar << "\n"; } } // convert this inset somehow to a string string extractString(MathInset * p) { if (p && p->getChar()) return string(1, p->getChar()); if (p && p->asStringInset()) return p->asStringInset()->str(); return string(); } // define a function for tests typedef bool TestItemFunc(MathInset *); // define a function for replacing pa typedef MathInset * ReplaceArgumentFunc(const MathArray & ar); // search end of nested sequence MathArray::iterator endNestSearch( MathArray::iterator it, MathArray::iterator last, TestItemFunc testOpen, TestItemFunc testClose ) { for (int level = 0; it != last; ++it) { if (testOpen(it->nucleus())) ++level; if (testClose(it->nucleus())) --level; if (level == 0) break; } return it; } // replace nested sequences by a real Insets void replaceNested( MathArray & ar, TestItemFunc testOpen, TestItemFunc testClose, ReplaceArgumentFunc replaceArg ) { // use indices rather than iterators for the loop because we are going // to modify the array. for (MathArray::size_type i = 0; i < ar.size(); ++i) { // check whether this is the begin of the sequence MathArray::iterator it = ar.begin() + i; if (!testOpen(it->nucleus())) continue; // search end of sequence MathArray::iterator jt = endNestSearch(it, ar.end(), testOpen, testClose); if (jt == ar.end()) continue; // create a proper inset as replacement MathInset * p = replaceArg(MathArray(it + 1, jt)); // replace the original stuff by the new inset ar.erase(it + 1, jt + 1); (*it).reset(p); } } // // search deliminiters // bool openParanTest(MathInset * p) { return extractString(p) == "("; } bool closeParanTest(MathInset * p) { return extractString(p) == ")"; } MathInset * delimReplacement(const MathArray & ar) { MathDelimInset * del = new MathDelimInset("(", ")"); del->cell(0) = ar; return del; } // replace '('...')' sequences by a real MathDelimInset void extractDelims(MathArray & ar) { lyxerr << "\nDelims from: " << ar << "\n"; replaceNested(ar, openParanTest, closeParanTest, delimReplacement); lyxerr << "\nDelims to: " << ar << "\n"; } // // search well-known functions // // replace 'f' '(...)' and 'f' '^n' '(...)' sequences by a real MathExFuncInset // assume 'extractDelims' ran before void extractFunctions(MathArray & ar) { // we need at least two items... if (ar.size() <= 1) return; lyxerr << "\nFunctions from: " << ar << "\n"; for (MathArray::size_type i = 0; i < ar.size() - 1; ++i) { MathArray::iterator it = ar.begin() + i; // is this a function name? MathFuncInset * func = (*it)->asFuncInset(); if (!func) continue; // do we have an exponent? // simply skippping the postion does the right thing: // 'sin' '^2' 'x' -> 'sin(x)' '^2' MathArray::iterator jt = it + 1; if (MathScriptInset * script = (*jt)->asScriptInset()) { // allow superscripts only if (script->hasDown()) continue; ++jt; if (jt == ar.end()) continue; } // jt points now to the "argument". Since we had run "extractDelims" // before, this could be a single argument only. Get hold of this. MathArray arg; MathDelimInset * del = (*jt)->asDelimInset(); if (del && del->isParanthesis()) arg = del->cell(0); else arg.push_back(*jt); // replace the function name by a real function inset (*it).reset(new MathExFuncInset(func->name(), arg)); // remove the source of the argument from the array ar.erase(jt); lyxerr << "\nFunctions to: " << ar << "\n"; } } // // search integrals // bool intSymbolTest(MathInset * p) { return p->asSymbolInset() && p->asSymbolInset()->name() == "int"; } bool differentialTest(MathInset * p) { string s = extractString(p); return s.size() && s[0] == 'd'; } // replace '\int' ['_^'] x 'd''x'(...)' sequences by a real MathExIntInset // assume 'extractDelims' ran before void extractIntegrals(MathArray & ar) { // we need at least three items... if (ar.size() <= 2) return; lyxerr << "\nIntegrals from: " << ar << "\n"; for (MathArray::size_type i = 0; i < ar.size() - 1; ++i) { MathArray::iterator it = ar.begin() + i; // is this a integral name? if (!intSymbolTest(it->nucleus())) continue; // search 'd' MathArray::iterator jt = endNestSearch(it, ar.end(), intSymbolTest, differentialTest); // create a proper inset as replacement MathExIntInset * p = new MathExIntInset; // collect scripts MathArray::iterator st = it + 1; if ((*st)->asScriptInset()) { p->scripts(*st); p->core(MathArray(st + 1, jt)); } else { p->core(MathArray(st, jt)); } // is the differential just 'd' oder 'dsomething'? // and replace the original stuff by the new inset string s = extractString(jt->nucleus()); MathArray diff; if (s.size() == 1 && jt + 1 != ar.end()) { // use the next atom as differential diff.push_back(*(jt + 1)); ar.erase(it + 1, jt + 2); } else { diff.push_back(MathAtom(new MathStringInset(s.substr(1)))); ar.erase(it + 1, jt + 1); } p->differential(diff); (*it).reset(p); } lyxerr << "\nIntegrals to: " << ar << "\n"; } void extractStructure(MathArray & ar) { extractStrings(ar); extractMatrices(ar); extractDelims(ar); extractFunctions(ar); extractIntegrals(ar); } void write(MathArray const & dat, WriteStream & wi) { MathArray ar = dat; extractStrings(ar); for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) { MathInset const * p = it->nucleus(); if (it + 1 != ar.end()) { if (MathScriptInset const * q = asScript(it)) { q->write(p, wi); ++it; continue; } } p->write(wi); } } void normalize(MathArray const & ar, NormalStream & os) { for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) (*it)->normalize(os); } void octavize(MathArray const & dat, OctaveStream & os) { MathArray ar = dat; extractStructure(ar); for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) { MathInset const * p = it->nucleus(); if (it + 1 != ar.end()) { if (MathScriptInset const * q = asScript(it)) { q->octavize(p, os); ++it; continue; } } p->octavize(os); } } void maplize(MathArray const & dat, MapleStream & os) { MathArray ar = dat; extractStructure(ar); for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) { MathInset const * p = it->nucleus(); if (it + 1 != ar.end()) { if (MathScriptInset const * q = asScript(it)) { q->maplize(p, os); ++it; continue; } } p->maplize(os); } } void mathmlize(MathArray const & dat, MathMLStream & os) { MathArray ar = dat; extractStructure(ar); if (ar.size() == 0) os << ""; else if (ar.size() == 1) os << ar.begin()->nucleus(); else { os << MTag("mrow"); for (MathArray::const_iterator it = ar.begin(); it != ar.end(); ++it) { MathInset const * p = it->nucleus(); if (it + 1 != ar.end()) { if (MathScriptInset const * q = asScript(it)) { q->mathmlize(p, os); ++it; continue; } } p->mathmlize(os); } os << ETag("mrow"); } }