/** * \file InsetMathPhantom.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Georg Baum * * Full author contact details are available in file CREDITS. */ #include #include "InsetMathPhantom.h" #include "LaTeXFeatures.h" #include "MathStream.h" #include "frontends/Painter.h" #include #include namespace lyx { InsetMathPhantom::InsetMathPhantom(Buffer * buf, Kind k) : InsetMathNest(buf, 1), kind_(k) {} Inset * InsetMathPhantom::clone() const { return new InsetMathPhantom(*this); } void InsetMathPhantom::metrics(MetricsInfo & mi, Dimension & dim) const { cell(0).metrics(mi, dim); metricsMarkers(dim); } void InsetMathPhantom::draw(PainterInfo & pi, int x, int y) const { static int const arrow_size = 4; // We first draw the text and then an arrow ColorCode const origcol = pi.base.font.color(); if (visibleContents()) pi.base.font.setColor(Color_special); cell(0).draw(pi, x + 1, y); if (visibleContents()) pi.base.font.setColor(origcol); Dimension const dim = dimension(*pi.base.bv); if (kind_ == phantom || kind_ == vphantom) { // y1--------- // / \. // y2----- / | \. // | // | // y3----- \ | / // \ / // y4--------- // | | | // / | \. // x1 x2 x3 int const x2 = x + dim.wid / 2; int const x1 = x2 - arrow_size; int const x3 = x2 + arrow_size; int const y1 = y - dim.asc; int const y2 = y1 + arrow_size; int const y4 = y + dim.des; int const y3 = y4 - arrow_size; // top arrow pi.pain.line(x2, y1, x1, y2, Color_added_space); pi.pain.line(x2, y1, x3, y2, Color_added_space); // bottom arrow pi.pain.line(x2, y4, x1, y3, Color_added_space); pi.pain.line(x2, y4, x3, y3, Color_added_space); // joining line pi.pain.line(x2, y1, x2, y4, Color_added_space); } if (kind_ == phantom || kind_ == hphantom) { // y1---- / \. // / \. // y2--- <----------------> // \ / // y3---- \ / // | | | | // x1 x2 x3 x4 int const x1 = x; int const x2 = x + arrow_size; int const x4 = x + dim.wid; int const x3 = x4 - arrow_size; int const y2 = y + (dim.des - dim.asc) / 2; int const y1 = y2 - arrow_size; int const y3 = y2 + arrow_size; // left arrow pi.pain.line(x1, y2, x2, y3, Color_added_space); pi.pain.line(x1, y2, x2, y1, Color_added_space); // right arrow pi.pain.line(x4, y2, x3, y3, Color_added_space); pi.pain.line(x4, y2, x3, y1, Color_added_space); // joining line pi.pain.line(x1, y2, x4, y2, Color_added_space); } else if (kind_ == mathclap) { // y1---- \ / // \ / // y2--- -------->-<-------- // / \. // y3---- / \. // | | | | | // x1 x2 x3 x4 x5 int const x1 = x; int const x5 = x + dim.wid; int const x3 = x + dim.wid / 2; int const x2 = std::max(x1, x3 - arrow_size); int const x4 = std::min(x5, x3 + arrow_size); int const y2 = y + (dim.des - dim.asc) / 2; int const y1 = y2 - arrow_size; int const y3 = y2 + arrow_size; // left arrow pi.pain.line(x2, y3, x3, y2, Color_added_space); pi.pain.line(x2, y1, x3, y2, Color_added_space); // right arrow pi.pain.line(x4, y3, x3, y2, Color_added_space); pi.pain.line(x4, y1, x3, y2, Color_added_space); // joining line pi.pain.line(x1, y2, x5, y2, Color_added_space); } else if (kind_ == mathllap) { // y1---- \. // \. // y2--- ------------------> // / // y3---- / // | | | // x1 x2 x3 int const x1 = x; int const x3 = x + dim.wid; int const x2 = std::max(x1, x3 - arrow_size); int const y2 = y + (dim.des - dim.asc) / 2; int const y1 = y2 - arrow_size; int const y3 = y2 + arrow_size; // right arrow pi.pain.line(x3, y2, x2, y3, Color_added_space); pi.pain.line(x3, y2, x2, y1, Color_added_space); // joining line pi.pain.line(x1, y2, x3, y2, Color_added_space); } else if (kind_ == mathrlap) { // y1---- / // / // y2--- <------------------ // \. // y3---- \. // | | | // x1 x2 x3 int const x1 = x; int const x3 = x + dim.wid; int const x2 = std::min(x3, x + arrow_size); int const y2 = y + (dim.des - dim.asc) / 2; int const y1 = y2 - arrow_size; int const y3 = y2 + arrow_size; // left arrow pi.pain.line(x1, y2, x2, y3, Color_added_space); pi.pain.line(x1, y2, x2, y1, Color_added_space); // joining line pi.pain.line(x1, y2, x3, y2, Color_added_space); } else if (kind_ == smash || kind_ == smasht || kind_ == smashb) { // y1--------- // | // y2----- \ | / // \ / // y3-------- | // / \. // y4----- / | \. // | // y5--------- // | | | // / | \. // x1 x2 x3 int const x2 = x + dim.wid / 2; int const x1 = x2 - arrow_size; int const x3 = x2 + arrow_size; int const y1 = y - dim.asc; int const y5 = y + dim.des; int const y3 = y; int const y2 = std::max(y1, y3 - arrow_size); int const y4 = std::min(y5, y3 + arrow_size); // top arrow if (kind_ != smashb) { pi.pain.line(x1, y2, x2, y3, Color_added_space); pi.pain.line(x3, y2, x2, y3, Color_added_space); } // bottom arrow if (kind_ != smasht) { pi.pain.line(x1, y4, x2, y3, Color_added_space); pi.pain.line(x3, y4, x2, y3, Color_added_space); } // joining line if (kind_ == smasht) pi.pain.line(x2, y1, x2, y3, Color_added_space); else if (kind_ == smashb) pi.pain.line(x2, y3, x2, y5, Color_added_space); else pi.pain.line(x2, y1, x2, y5, Color_added_space); } drawMarkers(pi, x, y); } void InsetMathPhantom::write(WriteStream & os) const { MathEnsurer ensurer(os); if (os.fragile()) os << "\\protect"; switch (kind_) { case phantom: os << "\\phantom{"; break; case vphantom: os << "\\vphantom{"; break; case hphantom: os << "\\hphantom{"; break; case smash: os << "\\smash{"; break; case smasht: os << "\\smash[t]{"; break; case smashb: os << "\\smash[b]{"; break; case mathclap: os << "\\mathclap{"; break; case mathllap: os << "\\mathllap{"; break; case mathrlap: os << "\\mathrlap{"; break; } os << cell(0) << '}'; } void InsetMathPhantom::normalize(NormalStream & os) const { switch (kind_) { case phantom: os << "[phantom "; break; case vphantom: os << "[vphantom "; break; case hphantom: os << "[hphantom "; break; case smash: os << "[smash "; break; case smasht: os << "[smasht "; break; case smashb: os << "[smashb "; break; case mathclap: os << "[mathclap "; break; case mathllap: os << "[mathllap "; break; case mathrlap: os << "[mathrlap "; break; } os << cell(0) << ']'; } void InsetMathPhantom::infoize(odocstream & os) const { switch (kind_) { case phantom: os << "Phantom"; break; case vphantom: os << "Vphantom"; break; case hphantom: os << "Hphantom"; break; case smash: os << "Smash"; break; case smasht: os << "Smashtop"; break; case smashb: os << "Smashbottom"; break; case mathllap: os << "Mathllap"; break; case mathclap: os << "Mathclap"; break; case mathrlap: os << "Mathrlap"; break; } } void InsetMathPhantom::validate(LaTeXFeatures & features) const { InsetMathNest::validate(features); switch (kind_) { case phantom: case vphantom: case hphantom: case smash: break; case smasht: case smashb: features.require("amsmath"); break; case mathclap: case mathllap: case mathrlap: features.require("mathtools"); break; } } bool InsetMathPhantom::visibleContents() const { return kind_ == phantom || kind_ == vphantom || kind_ == hphantom; } } // namespace lyx