/** * \file InsetMathScript.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 "InsetMathScript.h" #include "InsetMathBrace.h" #include "InsetMathSymbol.h" #include "MathData.h" #include "MathStream.h" #include "MathSupport.h" #include "BufferView.h" #include "Cursor.h" #include "DispatchResult.h" #include "FuncRequest.h" #include "FuncStatus.h" #include "LaTeXFeatures.h" #include "MetricsInfo.h" #include "support/debug.h" #include "support/gettext.h" #include "support/lassert.h" using namespace std; namespace lyx { InsetMathScript::InsetMathScript(Buffer * buf) : InsetMathNest(buf, 1), cell_1_is_up_(false), limits_(0) {} InsetMathScript::InsetMathScript(Buffer * buf, bool up) : InsetMathNest(buf, 2), cell_1_is_up_(up), limits_(0) {} InsetMathScript::InsetMathScript(Buffer * buf, MathAtom const & at, bool up) : InsetMathNest(buf, 2), cell_1_is_up_(up), limits_(0) { LATTEST(nargs() >= 1); cell(0).push_back(at); } Inset * InsetMathScript::clone() const { return new InsetMathScript(*this); } InsetMathScript const * InsetMathScript::asScriptInset() const { return this; } InsetMathScript * InsetMathScript::asScriptInset() { return this; } MathData const & InsetMathScript::down() const { if (nargs() == 3) return cell(2); LBUFERR(nargs() > 1); return cell(1); } MathData & InsetMathScript::down() { if (nargs() == 3) return cell(2); LBUFERR(nargs() > 1); return cell(1); } MathData const & InsetMathScript::up() const { LBUFERR(nargs() > 1); return cell(1); } MathData & InsetMathScript::up() { LBUFERR(nargs() > 1); return cell(1); } void InsetMathScript::ensure(bool up) { if (nargs() == 1) { // just nucleus so far cells_.push_back(MathData()); cell_1_is_up_ = up; } else if (nargs() == 2 && !has(up)) { if (up) { cells_.push_back(cell(1)); cell(1).clear(); } else { cells_.push_back(MathData()); } } } MathData const & InsetMathScript::nuc() const { return cell(0); } MathData & InsetMathScript::nuc() { return cell(0); } int InsetMathScript::dy01(BufferView const & bv, int asc, int des, int what) const { int dasc = 0; int slevel = 0; bool isCharBox = !nuc().empty() ? isAlphaSymbol(nuc().back()) : false; if (hasDown()) { Dimension const & dimdown = down().dimension(bv); dasc = dimdown.ascent(); slevel = nuc().slevel(); int ascdrop = dasc - slevel; int desdrop = isCharBox ? 0 : des + nuc().sshift(); int mindes = nuc().mindes(); des = max(desdrop, ascdrop); des = max(mindes, des); } if (hasUp()) { Dimension const & dimup = up().dimension(bv); int minasc = nuc().minasc(); int ascdrop = isCharBox ? 0 : asc - up().mindes(); int udes = dimup.descent(); asc = udes + nuc().sshift(); asc = max(ascdrop, asc); asc = max(minasc, asc); if (hasDown()) { int del = asc - udes - dasc; if (del + des <= 2) { int newdes = 2 - del; del = slevel - asc + udes; if (del > 0) { asc += del; newdes -= del; } des = max(des, newdes); } } } return what ? asc : des; } int InsetMathScript::dy0(BufferView const & bv) const { int nd = ndes(bv); if (!hasDown()) return nd; int des = down().dimension(bv).ascent(); if (hasLimits()) des += nd + 2; else { int na = nasc(bv); des = dy01(bv, na, nd, 0); } return des; } int InsetMathScript::dy1(BufferView const & bv) const { int na = nasc(bv); if (!hasUp()) return na; int asc = up().dimension(bv).descent(); if (hasLimits()) asc += na + 2; else { int nd = ndes(bv); asc = dy01(bv, na, nd, 1); } asc = max(asc, 5); return asc; } int InsetMathScript::dx0(BufferView const & bv) const { LASSERT(hasDown(), return 0); Dimension const dim = dimension(bv); return hasLimits() ? (dim.wid - down().dimension(bv).width()) / 2 : nwid(bv) + min(nker(&bv), 0); } int InsetMathScript::dx1(BufferView const & bv) const { LASSERT(hasUp(), return 0); Dimension const dim = dimension(bv); return hasLimits() ? (dim.wid - up().dimension(bv).width()) / 2 : nwid(bv) + max(nker(&bv), 0); } int InsetMathScript::dxx(BufferView const & bv) const { Dimension const dim = dimension(bv); return hasLimits() ? (dim.wid - nwid(bv)) / 2 : 0; } int InsetMathScript::nwid(BufferView const & bv) const { return !nuc().empty() ? nuc().dimension(bv).width() : 2; } int InsetMathScript::nasc(BufferView const & bv) const { return !nuc().empty() ? nuc().dimension(bv).ascent() : 5; } int InsetMathScript::ndes(BufferView const & bv) const { return !nuc().empty() ? nuc().dimension(bv).descent() : 0; } int InsetMathScript::nker(BufferView const * bv) const { if (!nuc().empty()) return nuc().kerning(bv); return 0; } MathClass InsetMathScript::mathClass() const { // FIXME: this is a hack, since the class will not be correct if // the nucleus has several elements or if the last element is a math macro // or a macro argument proxy. // The correct implementation would require to linearize the nucleus. if (nuc().empty()) return MC_ORD; else { // return the class of last element since this is the one that counts. MathClass mc = nuc().back()->mathClass(); return (mc == MC_UNKNOWN) ? MC_ORD : mc; } } void InsetMathScript::metrics(MetricsInfo & mi, Dimension & dim) const { Changer dummy2 = mi.base.changeEnsureMath(); Dimension dim0; Dimension dim1; Dimension dim2; cell(0).metrics(mi, dim0); Changer dummy = mi.base.changeScript(); if (nargs() > 1) cell(1).metrics(mi, dim1); if (nargs() > 2) cell(2).metrics(mi, dim2); dim.wid = 0; BufferView & bv = *mi.base.bv; // FIXME: data copying... not very efficient. Dimension dimup; Dimension dimdown; if (hasUp()) dimup = up().dimension(bv); if (hasDown()) dimdown = down().dimension(bv); if (hasLimits()) { dim.wid = nwid(bv); if (hasUp()) dim.wid = max(dim.wid, dimup.width()); if (hasDown()) dim.wid = max(dim.wid, dimdown.width()); } else { if (hasUp()) dim.wid = max(dim.wid, max(nker(mi.base.bv), 0) + dimup.width()); if (hasDown()) dim.wid = max(dim.wid, min(nker(mi.base.bv), 0) + dimdown.width()); dim.wid += nwid(bv); } int na = nasc(bv); if (hasUp()) { int asc = dy1(bv) + dimup.ascent(); dim.asc = max(na, asc); } else dim.asc = na; int nd = ndes(bv); if (hasDown()) { int des = dy0(bv) + dimdown.descent(); dim.des = max(nd, des); } else dim.des = nd; } void InsetMathScript::draw(PainterInfo & pi, int x, int y) const { Changer dummy2 = pi.base.changeEnsureMath(); BufferView & bv = *pi.base.bv; if (!nuc().empty()) nuc().draw(pi, x + dxx(bv), y); else { nuc().setXY(bv, x + dxx(bv), y); if (editing(&bv)) pi.draw(x + dxx(bv), y, char_type('.')); } Changer dummy = pi.base.changeScript(); if (hasUp()) up().draw(pi, x + dx1(bv), y - dy1(bv)); if (hasDown()) down().draw(pi, x + dx0(bv), y + dy0(bv)); } void InsetMathScript::metricsT(TextMetricsInfo const & mi, Dimension & dim) const { if (hasUp()) up().metricsT(mi, dim); if (hasDown()) down().metricsT(mi, dim); nuc().metricsT(mi, dim); } void InsetMathScript::drawT(TextPainter & pain, int x, int y) const { // FIXME: BROKEN if (!nuc().empty()) nuc().drawT(pain, x + 1, y); if (hasUp()) up().drawT(pain, x + 1, y - 1 /*dy1()*/); if (hasDown()) down().drawT(pain, x + 1, y + 1 /*dy0()*/); } // FIXME: See InsetMathSymbol::takesLimits, which seems to attempt the // same in a hardcoded way. takeLimits use is currently commented out in // InsetMathScript::metrics. It seems that the mathop test is general // enough, but only time will tell. bool InsetMathScript::allowsLimits() const { if (nuc().empty()) return false; // Only makes sense for insets of mathop class if (nuc().back()->mathClass() != MC_OP) return false; return true; } bool InsetMathScript::hasLimits() const { // obvious cases if (limits_ == 1) return true; if (limits_ == -1) return false; // we can only display limits if the nucleus wants some if (!allowsLimits()) return false; // FIXME: this is some hardcoding done in InsetMathSymbol::metrics. if (!nuc().back()->isScriptable()) return false; if (nuc().back()->asSymbolInset()) { // \intop is an alias for \int\limits, \ointop == \oint\limits if (nuc().back()->asSymbolInset()->name().find(from_ascii("intop")) != string::npos) return true; // per default \int has limits beside the \int even in displayed formulas if (nuc().back()->asSymbolInset()->name().find(from_ascii("int")) != string::npos) return false; } // assume "real" limits for everything else return true; } void InsetMathScript::removeScript(bool up) { if (nargs() == 2) { if (up == cell_1_is_up_) cells_.pop_back(); } else if (nargs() == 3) { if (up == true) { swap(cells_[1], cells_[2]); cell_1_is_up_ = false; } else { cell_1_is_up_ = true; } cells_.pop_back(); } } bool InsetMathScript::has(bool up) const { return idxOfScript(up); } bool InsetMathScript::hasUp() const { //lyxerr << "1up: " << bool(cell_1_is_up_)); //lyxerr << "hasUp: " << bool(idxOfScript(true))); return idxOfScript(true); } bool InsetMathScript::hasDown() const { //LYXERR0("1up: " << bool(cell_1_is_up_)); //LYXERR0("hasDown: " << bool(idxOfScript(false))); return idxOfScript(false); } Inset::idx_type InsetMathScript::idxOfScript(bool up) const { if (nargs() == 1) return 0; if (nargs() == 2) return (cell_1_is_up_ == up) ? 1 : 0; if (nargs() == 3) return up ? 1 : 2; LASSERT(false, return 0); } bool InsetMathScript::idxForward(Cursor &) const { return false; } bool InsetMathScript::idxBackward(Cursor &) const { return false; } bool InsetMathScript::idxUpDown(Cursor & cur, bool up) const { // in nucleus? if (cur.idx() == 0) { // don't go up/down if there is no cell in this direction if (!has(up)) return false; // go up/down only if in the last position // or in the first position of something with displayed limits if (cur.pos() == cur.lastpos() || (cur.pos() == 0 && hasLimits())) { cur.idx() = idxOfScript(up); cur.pos() = 0; return true; } return false; } // Are we 'up'? if (cur.idx() == idxOfScript(true)) { // can't go further up if (up) return false; // otherwise go to last position in the nucleus cur.idx() = 0; cur.pos() = cur.lastpos(); return true; } // Are we 'down'? if (cur.idx() == idxOfScript(false)) { // can't go further down if (!up) return false; // otherwise go to last position in the nucleus cur.idx() = 0; cur.pos() = cur.lastpos(); return true; } return false; } void InsetMathScript::write(WriteStream & os) const { MathEnsurer ensurer(os); if (!nuc().empty()) { os << nuc(); //if (nuc().back()->takesLimits()) { if (limits_ == -1) os << "\\nolimits "; if (limits_ == 1) os << "\\limits "; //} } else { if (os.firstitem()) LYXERR(Debug::MATHED, "suppressing {} when writing"); else os << "{}"; } if (hasDown() /*&& !down().empty()*/) os << "_{" << down() << '}'; if (hasUp() /*&& !up().empty()*/) { // insert space if up() is empty or an empty brace inset // (see bug 8305) if (os.latex() && (up().empty() || (up().size() == 1 && up().back()->asBraceInset() && up().back()->asBraceInset()->cell(0).empty()))) os << "^ {}"; else os << "^{" << up() << '}'; } if (lock_ && !os.latex()) os << "\\lyxlock "; } void InsetMathScript::normalize(NormalStream & os) const { bool d = hasDown() && !down().empty(); bool u = hasUp() && !up().empty(); if (u && d) os << "[subsup "; else if (u) os << "[sup "; else if (d) os << "[sub "; if (!nuc().empty()) os << nuc() << ' '; else os << "[par]"; if (u && d) os << down() << ' ' << up() << ']'; else if (d) os << down() << ']'; else if (u) os << up() << ']'; } void InsetMathScript::maple(MapleStream & os) const { if (!nuc().empty()) os << nuc(); if (hasDown() && !down().empty()) os << '[' << down() << ']'; if (hasUp() && !up().empty()) os << "^(" << up() << ')'; } void InsetMathScript::mathematica(MathematicaStream & os) const { bool d = hasDown() && !down().empty(); bool u = hasUp() && !up().empty(); if (!nuc().empty()) { if (d) os << "Subscript[" << nuc(); else os << nuc(); } if (u) os << "^(" << up() << ')'; if (!nuc().empty()) { if (d) os << ',' << down() << ']'; } } void InsetMathScript::mathmlize(MathStream & os) const { bool d = hasDown() && !down().empty(); bool u = hasUp() && !up().empty(); bool l = hasLimits(); if (u && d) os << MTag(l ? "munderover" : "msubsup"); else if (u) os << MTag(l ? "mover" : "msup"); else if (d) os << MTag(l ? "munder" : "msub"); if (!nuc().empty()) os << MTag("mrow") << nuc() << ETag("mrow"); else os << ""; if (u && d) os << MTag("mrow") << down() << ETag("mrow") << MTag("mrow") << up() << ETag("mrow") << ETag(l ? "munderover" : "msubsup"); else if (u) os << MTag("mrow") << up() << ETag("mrow") << ETag(l ? "mover" : "msup"); else if (d) os << MTag("mrow") << down() << ETag("mrow") << ETag(l ? "munder" : "msub"); } void InsetMathScript::htmlize(HtmlStream & os) const { bool d = hasDown() && !down().empty(); bool u = hasUp() && !up().empty(); if (!nuc().empty()) os << nuc(); if (u && d) os << MTag("span", "class='scripts'") << MTag("span") << up() << ETag("span") << MTag("span") << down() << ETag("span") << ETag("span"); else if (u) os << MTag("sup", "class='math'") << up() << ETag("sup"); else if (d) os << MTag("sub", "class='math'") << down() << ETag("sub"); } void InsetMathScript::octave(OctaveStream & os) const { if (!nuc().empty()) os << nuc(); if (hasDown() && !down().empty()) os << '[' << down() << ']'; if (hasUp() && !up().empty()) os << "^(" << up() << ')'; } void InsetMathScript::infoize(odocstream & os) const { os << "Scripts"; } void InsetMathScript::infoize2(odocstream & os) const { if (limits_) os << from_ascii(limits_ == 1 ? ", Displayed limits" : ", Inlined limits"); } bool InsetMathScript::notifyCursorLeaves(Cursor const & old, Cursor & cur) { InsetMathNest::notifyCursorLeaves(old, cur); //LYXERR0("InsetMathScript::notifyCursorLeaves: 1 " << cur); // Remove empty scripts if possible: // The case of two scripts, but only one got empty (1 = super, 2 = sub). // We keep the script inset, but remove the empty script. if (nargs() > 2 && (!cell(1).empty() || !cell(2).empty())) { if (cell(2).empty()) { // must be a subscript... old.recordUndoInset(); removeScript(false); cur.screenUpdateFlags(cur.result().screenUpdate() | Update::SinglePar); return true; } else if (cell(1).empty()) { // must be a superscript... old.recordUndoInset(); removeScript(true); cur.screenUpdateFlags(cur.result().screenUpdate() | Update::SinglePar); return true; } } // Now the two suicide cases: // * we have only one script which is empty // * we have two scripts which are both empty. // The script inset is removed completely. if ((nargs() == 2 && cell(1).empty()) || (nargs() == 3 && cell(1).empty() && cell(2).empty())) { // Make undo step. We cannot use cur for this because // it does not necessarily point to us anymore. But we // should be on top of the cursor old. Cursor insetCur = old; int scriptSlice = insetCur.find(this); LASSERT(scriptSlice != -1, /**/); insetCur.cutOff(scriptSlice); insetCur.recordUndoInset(); // Let the script inset commit suicide. This is // modelled on Cursor.pullArg(), but tries not to // invoke notifyCursorLeaves again and does not touch // cur (since the top slice will be deleted // afterwards) MathData ar = cell(0); insetCur.pop(); insetCur.cell().erase(insetCur.pos()); insetCur.cell().insert(insetCur.pos(), ar); // redraw cur.screenUpdateFlags(cur.result().screenUpdate() | Update::SinglePar); return true; } //LYXERR0("InsetMathScript::notifyCursorLeaves: 2 " << cur); return false; } void InsetMathScript::doDispatch(Cursor & cur, FuncRequest & cmd) { //LYXERR("InsetMathScript: request: " << cmd); if (cmd.action() == LFUN_MATH_LIMITS) { // only when nucleus allows this if (!allowsLimits()) return; cur.recordUndoInset(); if (!cmd.argument().empty()) { if (cmd.argument() == "limits") limits_ = 1; else if (cmd.argument() == "nolimits") limits_ = -1; else limits_ = 0; } else if (limits_ == 0) limits_ = hasLimits() ? -1 : 1; else limits_ = 0; return; } InsetMathNest::doDispatch(cur, cmd); } bool InsetMathScript::getStatus(Cursor & cur, FuncRequest const & cmd, FuncStatus & flag) const { if (cmd.action() == LFUN_MATH_LIMITS) { // only when nucleus allows this if (allowsLimits()) { if (!cmd.argument().empty()) { if (cmd.argument() == "limits") flag.setOnOff(limits_ == 1); else if (cmd.argument() == "nolimits") flag.setOnOff(limits_ == -1); else flag.setOnOff(limits_ == 0); } flag.setEnabled(true); } else flag.setEnabled(false); return true; } return InsetMathNest::getStatus(cur, cmd, flag); } // the idea for dual scripts came from the eLyXer code void InsetMathScript::validate(LaTeXFeatures & features) const { if (features.runparams().math_flavor == OutputParams::MathAsHTML) features.addCSSSnippet( "span.scripts{display: inline-block; vertical-align: middle; text-align:center; font-size: 75%;}\n" "span.scripts span {display: block;}\n" "sub.math{font-size: 75%;}\n" "sup.math{font-size: 75%;}"); InsetMathNest::validate(features); } } // namespace lyx