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[lyx.git] / src / mathed / math_data.C

#include <config.h>

#ifdef __GNUG__
#pragma implementation
#endif

#include "math_data.h"
#include "math_inset.h"
#include "math_deliminset.h"
#include "math_charinset.h"
#include "math_scriptinset.h"
#include "math_stringinset.h"
#include "math_matrixinset.h"
#include "math_mathmlstream.h"
#include "math_support.h"
#include "math_replace.h"
#include "debug.h"
#include "support/LAssert.h"
#include "math_metricsinfo.h"
#include "frontends/Painter.h"
#include "textpainter.h"


using std::max;
using std::min;
using std::abs;



MathArray::MathArray()
        : xo_(0), yo_(0), clean_(false), drawn_(false)
{}


MathArray::MathArray(const_iterator from, const_iterator to)
        : base_type(from, to), xo_(0), yo_(0), clean_(false), drawn_(false)
{}


void MathArray::substitute(MathMacro const & m)
{
        for (iterator it = begin(); it != end(); ++it)
                it->nucleus()->substitute(m);
}


MathAtom & MathArray::operator[](size_type pos)
{
        lyx::Assert(pos < size());
        return base_type::operator[](pos);
}


MathAtom const & MathArray::operator[](size_type pos) const
{
        lyx::Assert(pos < size());
        return base_type::operator[](pos);
}


void MathArray::insert(size_type pos, MathAtom const & t)
{
        base_type::insert(begin() + pos, t);
}


void MathArray::insert(size_type pos, MathArray const & ar)
{
        lyx::Assert(pos <= size());
        base_type::insert(begin() + pos, ar.begin(), ar.end());
}


void MathArray::append(MathArray const & ar)
{
        insert(size(), ar);
}


void MathArray::erase(size_type pos)
{
        if (pos < size())
                erase(pos, pos + 1);
}


void MathArray::erase(iterator pos1, iterator pos2)
{
        base_type::erase(pos1, pos2);
}


void MathArray::erase(iterator pos)
{
        base_type::erase(pos);
}


void MathArray::erase(size_type pos1, size_type pos2)
{
        base_type::erase(begin() + pos1, begin() + pos2);
}


void MathArray::dump2() const
{
        NormalStream ns(lyxerr);
        for (const_iterator it = begin(); it != end(); ++it)
                ns << *it << ' ';
}


void MathArray::dump() const
{
        NormalStream ns(lyxerr);
        for (const_iterator it = begin(); it != end(); ++it)
                ns << "<" << *it << ">";
}


void MathArray::validate(LaTeXFeatures & features) const
{
        for (const_iterator it = begin(); it != end(); ++it)
                (*it)->validate(features);
}


bool MathArray::match(MathArray const & ar) const
{
        return size() == ar.size() && matchpart(ar, 0);
}


bool MathArray::matchpart(MathArray const & ar, pos_type pos) const
{
        if (size() < ar.size() + pos)
                return false;
        const_iterator it = begin() + pos;
        for (const_iterator jt = ar.begin(); jt != ar.end(); ++jt, ++it)
                if (!(*jt)->match(*it))
                        return false;
        return true;
}


void MathArray::replace(ReplaceData & rep)
{
        for (size_type i = 0; i < size(); ++i) {
                if (find1(rep.from, i)) {
                        // match found
                        lyxerr << "match found!\n";
                        erase(i, i + rep.from.size());
                        insert(i, rep.to);
                }
        }

#ifdef WITH_WARNINGS
#warning temporarily disabled
        // for (const_iterator it = begin(); it != end(); ++it)
        //      it->nucleus()->replace(rep);
#endif
}


bool MathArray::find1(MathArray const & ar, size_type pos) const
{
        //lyxerr << "finding '" << ar << "' in '" << *this << "'\n";
        for (size_type i = 0, n = ar.size(); i < n; ++i)
                if (!operator[](pos + i)->match(ar[i]))
                        return false;
        return true;
}


MathArray::size_type MathArray::find(MathArray const & ar) const
{
        for (int i = 0, last = size() - ar.size(); i < last; ++i)
                if (find1(ar, i))
                        return i;
        return size();
}


MathArray::size_type MathArray::find_last(MathArray const & ar) const
{
        for (int i = size() - ar.size(); i >= 0; --i)
                if (find1(ar, i))
                        return i;
        return size();
}


bool MathArray::contains(MathArray const & ar) const
{
        if (find(ar) != size())
                return true;
        for (const_iterator it = begin(); it != end(); ++it)
                if ((*it)->contains(ar))
                        return true;
        return false;
}


void MathArray::touch() const
{
        clean_  = false;
        drawn_  = false;
}


Dimension const & MathArray::metrics(MathMetricsInfo & mi) const
{
        //if (clean_)
        //      return;
        clean_  = true;
        drawn_  = false;

        mathed_char_dim(mi.base.font, 'I', dim_);
        if (empty()) 
                return dim_;

        dim_.w = 0;
        for (const_iterator it = begin(), et = end(); it != et; ++it) {
                (*it)->metrics(mi);
                dim_ += (*it)->dimensions();
        }
        return dim_;
}


void MathArray::draw(MathPainterInfo & pi, int x, int y) const
{
        //if (drawn_ && x == xo_ && y == yo_)
        //      return;
        //lyxerr << "MathArray::draw: x: " << x << " y: " << y << endl;

        xo_    = x;
        yo_    = y;
        drawn_ = true;

        if (y + descent() <= 0)                   // don't draw above the workarea
                return;
        if (y - ascent() >= pi.pain.paperHeight())   // don't draw below the workarea
                return;
        if (x + width() <= 0)                     // don't draw left of workarea
                return;
        if (x >= pi.pain.paperWidth())              // don't draw right of workarea
                return;

        if (empty()) {
                pi.pain.rectangle(x, y - ascent(), width(), height(), LColor::mathline);
                return;
        }

        for (const_iterator it = begin(), et = end(); it != et; ++it) {
                (*it)->draw(pi, x, y);
                x += (*it)->width();
        }
}


Dimension const & MathArray::metricsT(TextMetricsInfo const & mi) const
{
        //if (clean_)
        //      return;
        dim_.clear();
        for (const_iterator it = begin(); it != end(); ++it) {
                (*it)->metricsT(mi);
                dim_ += (*it)->dimensions();
        }
        return dim_;
}


void MathArray::drawT(TextPainter & pain, int x, int y) const
{
        //if (drawn_ && x == xo_ && y == yo_)
        //      return;
        //lyxerr << "x: " << x << " y: " << y << " " << pain.workAreaHeight() << endl;
        xo_    = x;
        yo_    = y;
        drawn_ = true;

        for (const_iterator it = begin(), et = end(); it != et; ++it) {
                (*it)->drawT(pain, x, y);
                x += (*it)->width();
        }
}


int MathArray::pos2x(size_type pos) const
{
        return pos2x(0, pos, 0);
}


int MathArray::pos2x(size_type pos1, size_type pos2, int glue) const
{
        int x = 0;
        size_type target = min(pos2, size());
        for (size_type i = pos1; i < target; ++i) {
                const_iterator it = begin() + i;
                if ((*it)->getChar() == ' ')
                        x += glue;
                x += (*it)->width();
        }
        return x;
}


MathArray::size_type MathArray::x2pos(int targetx) const
{
        return x2pos(0, targetx, 0);
}


MathArray::size_type MathArray::x2pos(size_type startpos, int targetx,
        int glue) const
{
        const_iterator it = begin() + startpos;
        int lastx = 0;
        int currx = 0;
        for (; currx < targetx && it < end(); ++it) {
                lastx = currx;
                if ((*it)->getChar() == ' ')
                        currx += glue;
                currx += (*it)->width();
        }
        if (abs(lastx - targetx) < abs(currx - targetx) && it != begin() + startpos)
                --it;
        return it - begin();
}


int MathArray::dist(int x, int y) const
{
        int xx = 0;
        int yy = 0;

        if (x < xo_)
                xx = xo_ - x;
        else if (x > xo_ + width())
                xx = x - xo_ - width();

        if (y < yo_ - ascent())
                yy = yo_ - ascent() - y;
        else if (y > yo_ + descent())
                yy = y - yo_ - descent();

        return xx + yy;
}


void MathArray::boundingBox(int & x1, int & x2, int & y1, int & y2)
{
        x1 = xo_;
        x2 = xo_ + width();
        y1 = yo_ - ascent();
        y2 = yo_ + descent();
}

void MathArray::center(int & x, int & y) const
{
        x = xo_ + width() / 2;
        y = yo_ + (descent() - ascent()) / 2;
}


void MathArray::towards(int & x, int & y) const
{
        int cx = 0;
        int cy = 0;
        center(cx, cy);

        double r = 1.0;
        //int dist = (x - cx) * (x - cx) + (y - cy) * (y - cy);

        x = cx + int(r * (x - cx));
        y = cy + int(r * (y - cy));
}


void MathArray::setXY(int x, int y) const
{
        xo_ = x;
        yo_ = y;
}