lyx_mirror/src/tex2lyx/table.C

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/** The .tex to .lyx converter
\author Andr<EFBFBD> P<EFBFBD>nitz (2003)
*/
// {[(
#include <config.h>
#include "tex2lyx.h"
#include <cctype>
#include <fstream>
#include <iostream>
#include <sstream>
#include <vector>
#include <map>
using std::cerr;
using std::endl;
using std::istringstream;
using std::ostream;
using std::ostringstream;
using std::string;
using std::vector;
using std::map;
#include "mathed/math_gridinfo.h"
// filled in preamble.C
std::map<char, int> special_columns;
namespace {
int string2int(string const & s, int deflt = 0)
{
istringstream is(s);
int i = deflt;
is >> i;
return i;
}
string read_hlines(Parser & p)
{
ostringstream os;
p.skip_spaces();
while (p.good()) {
if (p.next_token().cs() == "hline") {
p.get_token();
os << "\\hline";
} else if (p.next_token().cs() == "cline") {
p.get_token();
os << "\\cline{" << p.verbatim_item() << "}";
} else
break;
p.skip_spaces();
};
//cerr << "read_hlines(), read: '" << os.str() << "'\n";
//cerr << "read_hlines(), next token: " << p.next_token() << "\n";
return os.str();
}
/* rather brutish way to code table structure in a string:
\begin{tabular}{ccc}
1 & 2 & 3\\ \hline
\multicolumn{2}{c}{4} & 5 //
6 & 7 \\
\end{tabular}
gets "translated" to:
1 TAB 2 TAB 3 LINE
\hline HLINE TAB 5 LINE
5 TAB 7 LINE
*/
char const TAB = '\001';
char const LINE = '\002';
char const HLINE = '\004';
void handle_colalign(Parser & p, vector<ColInfo> & colinfo)
{
if (p.get_token().cat() != catBegin)
cerr << "wrong syntax for table column alignment. '{' expected\n";
char nextalign = 'b';
bool leftline = false;
for (Token t=p.get_token(); p.good() && t.cat() != catEnd; t = p.get_token()){
#ifdef FILEDEBUG
cerr << "t: " << t << " c: '" << t.character() << "'\n";
#endif
switch (t.character()) {
case 'c':
case 'l':
case 'r': {
ColInfo ci;
ci.align = t.character();
if (colinfo.size() && colinfo.back().rightline > 1) {
ci.leftline = true;
--colinfo.back().rightline;
}
colinfo.push_back(ci);
break;
}
case 'p':
colinfo.push_back(ColInfo());
colinfo.back().align = nextalign;
colinfo.back().width = p.verbatim_item();
nextalign = 'b';
break;
case '|':
if (colinfo.empty())
leftline = true;
else
++colinfo.back().rightline;
break;
case '>': {
string s = p.verbatim_item();
if (s == "\\raggedleft ")
nextalign = 'l';
else if (s == "\\raggedright ")
nextalign = 'r';
else
cerr << "unknown '>' column '" << s << "'\n";
break;
}
default:
if (special_columns.find(t.character()) != special_columns.end()) {
ColInfo ci;
ci.align = 'c';
ci.special += t.character();
int const nargs = special_columns[t.character()];
for (int i = 0; i < nargs; ++i)
ci.special += "{" + p.verbatim_item() + "}";
//cerr << "handling special column '" << t << "' " << nargs
// << " '" << ci.special << "'\n";
colinfo.push_back(ci);
} else {
cerr << "ignoring special separator '" << t << "'\n";
}
break;
}
}
if (colinfo.size() && leftline)
colinfo[0].leftline = true;
}
} // anonymous namespace
void parse_table(Parser & p, ostream & os, unsigned flags)
{
string hlines;
while (p.good()) {
Token const & t = p.get_token();
#ifdef FILEDEBUG
cerr << "t: " << t << " flags: " << flags << "\n";
#endif
//
// cat codes
//
if (t.cat() == catMath) {
// we are inside some text mode thingy, so opening new math is allowed
Token const & n = p.get_token();
if (n.cat() == catMath) {
// TeX's $$...$$ syntax for displayed math
os << "\\[";
parse_math(p, os, FLAG_SIMPLE, MATH_MODE);
os << "\\]";
p.get_token(); // skip the second '$' token
} else {
// simple $...$ stuff
p.putback();
os << '$';
parse_math(p, os, FLAG_SIMPLE, MATH_MODE);
os << '$';
}
}
else if (t.cat() == catLetter ||
t.cat() == catSpace ||
t.cat() == catSuper ||
t.cat() == catSub ||
t.cat() == catOther ||
t.cat() == catActive ||
t.cat() == catNewline ||
t.cat() == catParameter)
os << t.character();
else if (t.cat() == catBegin) {
os << '{';
parse_table(p, os, FLAG_BRACE_LAST);
os << '}';
}
else if (t.cat() == catEnd) {
if (flags & FLAG_BRACE_LAST)
return;
cerr << "unexpected '}'\n";
}
else if (t.cat() == catAlign) {
os << TAB;
}
else if (t.cs() == "tabularnewline" || t.cs() == "\\") {
// stuff before the line break
// and look ahead for stuff after the line break
os << HLINE << hlines << HLINE << LINE << read_hlines(p) << HLINE;
hlines.erase();
}
else if (t.cs() == "hline")
hlines += "\\hline";
else if (t.cs() == "cline")
hlines += "\\cline{" + p.verbatim_item() + '}';
else if (t.cat() == catComment)
handle_comment(p);
else if (t.cs() == "(") {
os << "\\(";
parse_math(p, os, FLAG_SIMPLE2, MATH_MODE);
os << "\\)";
}
else if (t.cs() == "[") {
os << "\\[";
parse_math(p, os, FLAG_EQUATION, MATH_MODE);
os << "\\]";
}
else if (t.cs() == "begin") {
string const name = p.getArg('{', '}');
active_environments.push_back(name);
parse_table(p, os, FLAG_END);
}
else if (t.cs() == "end") {
if (flags & FLAG_END) {
// eat environment name
string const name = p.getArg('{', '}');
if (name != active_environment())
p.error("\\end{" + name + "} does not match \\begin{"
+ active_environment() + "}");
active_environments.pop_back();
return;
}
p.error("found 'end' unexpectedly");
}
else
os << t.asInput();
}
}
void handle_hline_above(RowInfo & ri, vector<CellInfo> & ci)
{
ri.topline = true;
for (size_t col = 0; col < ci.size(); ++col)
ci[col].topline = true;
}
void handle_hline_below(RowInfo & ri, vector<CellInfo> & ci)
{
ri.bottomline = true;
for (size_t col = 0; col < ci.size(); ++col)
ci[col].bottomline = true;
}
void handle_tabular(Parser & p, ostream & os,
LyXTextClass const & textclass)
{
string posopts = p.getOpt();
if (posopts.size())
cerr << "vertical tabular positioning '" << posopts << "' ignored\n";
vector<ColInfo> colinfo;
// handle column formatting
handle_colalign(p, colinfo);
// handle initial hlines
// first scan of cells
// use table mode to keep it minimal-invasive
// not exactly what's TeX doing...
vector<string> lines;
ostringstream ss;
ss << read_hlines(p) << HLINE; // handle initial hlines
parse_table(p, ss, FLAG_END);
split(ss.str(), lines, LINE);
vector< vector<CellInfo> > cellinfo(lines.size());
vector<RowInfo> rowinfo(lines.size());
// split into rows
//cerr << "// split into rows\n";
for (size_t row = 0; row < rowinfo.size(); ++row) {
// init row
cellinfo[row].resize(colinfo.size());
// split row
vector<string> dummy;
//cerr << "\n########### LINE: " << lines[row] << "########\n";
split(lines[row], dummy, HLINE);
// handle horizontal line fragments
if (dummy.size() != 3) {
if (dummy.size() != 1)
cerr << "unexpected dummy size: " << dummy.size()
<< " content: " << lines[row] << "\n";
dummy.resize(3);
}
lines[row] = dummy[1];
//cerr << "line: " << row << " above 0: " << dummy[0] << "\n";
//cerr << "line: " << row << " below 2: " << dummy[2] << "\n";
//cerr << "line: " << row << " cells 1: " << dummy[1] << "\n";
for (int i = 0; i <= 2; i += 2) {
//cerr << " reading from line string '" << dummy[i] << "'\n";
Parser p1(dummy[i]);
while (p1.good()) {
Token t = p1.get_token();
//cerr << "read token: " << t << "\n";
if (t.cs() == "hline") {
if (i == 0) {
if (rowinfo[row].topline) {
if (row > 0) // extra bottomline above
handle_hline_below(rowinfo[row - 1], cellinfo[row - 1]);
else
cerr << "dropping extra hline\n";
//cerr << "below row: " << row-1 << endl;
} else {
handle_hline_above(rowinfo[row], cellinfo[row]);
//cerr << "above row: " << row << endl;
}
} else {
//cerr << "below row: " << row << endl;
handle_hline_below(rowinfo[row], cellinfo[row]);
}
} else if (t.cs() == "cline") {
string arg = p1.verbatim_item();
//cerr << "read cline arg: '" << arg << "'\n";
vector<string> t;
split(arg, t, '-');
t.resize(2);
size_t from = string2int(t[0]) - 1;
size_t to = string2int(t[1]);
for (size_t col = from; col < to; ++col) {
//cerr << "row: " << row << " col: " << col << " i: " << i << endl;
if (i == 0) {
rowinfo[row].topline = true;
cellinfo[row][col].topline = true;
} else {
rowinfo[row].bottomline = true;
cellinfo[row][col].bottomline = true;
}
}
} else {
cerr << "unexpected line token: " << t << endl;
}
}
}
// split into cells
vector<string> cells;
split(lines[row], cells, TAB);
for (size_t col = 0, cell = 0;
cell < cells.size() && col < colinfo.size(); ++col, ++cell) {
//cerr << "cell content: '" << cells[cell] << "'\n";
Parser p(cells[cell]);
p.skip_spaces();
//cells[cell] << "'\n";
if (p.next_token().cs() == "multicolumn") {
// how many cells?
p.get_token();
size_t const ncells = string2int(p.verbatim_item());
// special cell properties alignment
vector<ColInfo> t;
handle_colalign(p, t);
cellinfo[row][col].multi = 1;
cellinfo[row][col].align = t.front().align;
cellinfo[row][col].content = parse_text(p, FLAG_ITEM, false, textclass);
cellinfo[row][col].leftline |= t.front().leftline;
cellinfo[row][col].rightline |= t.front().rightline;
// add dummy cells for multicol
for (size_t i = 0; i < ncells - 1 && col < colinfo.size(); ++i) {
++col;
cellinfo[row][col].multi = 2;
cellinfo[row][col].align = 'c';
}
// more than one line on the right?
if (t.front().rightline > 1)
cellinfo[row][col + 1].leftline = true;
} else {
// FLAG_END is a hack, we need to read all of it
cellinfo[row][col].leftline = colinfo[col].leftline;
cellinfo[row][col].rightline = colinfo[col].rightline;
cellinfo[row][col].align = colinfo[col].align;
cellinfo[row][col].content = parse_text(p, FLAG_END, false, textclass);
}
}
//cerr << "// handle almost empty last row what we have\n";
// handle almost empty last row
if (row && lines[row].empty() && row + 1 == rowinfo.size()) {
//cerr << "remove empty last line\n";
if (rowinfo[row].topline)
rowinfo[row - 1].bottomline = true;
for (size_t col = 0; col < colinfo.size(); ++col)
if (cellinfo[row][col].topline)
cellinfo[row - 1][col].bottomline = true;
rowinfo.pop_back();
}
}
//cerr << "// output what we have\n";
// output what we have
os << "\n<lyxtabular version=\"3\" rows=\"" << rowinfo.size()
<< "\" columns=\"" << colinfo.size() << "\">\n"
<< "<features>\n";
//cerr << "// after header\n";
for (size_t col = 0; col < colinfo.size(); ++col) {
os << "<column alignment=\""
<< verbose_align(colinfo[col].align) << "\"";
os << " valignment=\"top\"";
if (colinfo[col].leftline)
os << " leftline=\"true\"";
if (colinfo[col].rightline)
os << " rightline=\"true\"";
if (colinfo[col].width.size())
os << " width=\"" << colinfo[col].width << "\"";
if (colinfo[col].special.size())
os << " special=\"" << colinfo[col].special << "\"";
os << ">\n";
}
//cerr << "// after cols\n";
for (size_t row = 0; row < rowinfo.size(); ++row) {
os << "<row";
if (rowinfo[row].topline)
os << " topline=\"true\"";
if (rowinfo[row].bottomline)
os << " bottomline=\"true\"";
os << ">\n";
for (size_t col = 0; col < colinfo.size(); ++col) {
CellInfo const & cell = cellinfo[row][col];
os << "<cell";
if (cell.multi)
os << " multicolumn=\"" << cell.multi << "\"";
os << " alignment=\"" << verbose_align(cell.align)
<< "\""
<< " valignment=\"top\"";
if (cell.topline)
os << " topline=\"true\"";
if (cell.bottomline)
os << " bottomline=\"true\"";
if (cell.leftline)
os << " leftline=\"true\"";
if (cell.rightline)
os << " rightline=\"true\"";
//cerr << "\nrow: " << row << " col: " << col;
//if (cell.topline)
// cerr << " topline=\"true\"";
//if (cell.bottomline)
// cerr << " bottomline=\"true\"";
os << " usebox=\"none\""
<< ">"
<< "\n\\begin_inset Text"
<< "\n\n\\begin_layout Standard\n\n"
<< cell.content
<< "\n\\end_inset \n"
<< "</cell>\n";
}
os << "</row>\n";
}
os << "</lyxtabular>\n";
}
// }])