lyx_mirror/src/mathed/math_macrotable.C

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#include <config.h>
#include <iostream>
#ifdef __GNUG__
#pragma implementation
#endif
#include "math_macrotable.h"
#include "math_macro.h"
#include "math_macrotemplate.h"
#include "math_parser.h"
#include "array.h"
#include "math_decorationinset.h"
#include "math_deliminset.h"
#include "math_fracinset.h"
#include "math_inset.h"
#include "debug.h"
#include "support/LAssert.h"
using std::endl;
MathMacroTable::table_type MathMacroTable::macro_table;
void MathMacroTable::dump()
{
lyxerr << "\n------------------------------------------\n";
table_type::const_iterator it;
for (it = macro_table.begin(); it != macro_table.end(); ++it)
lyxerr << it->first << " [" << it->second->nargs() << "] : "
<< it->second << endl;
lyxerr << "------------------------------------------" << endl;;
}
void MathMacroTable::updateTemplate(MathMacroTemplate * par)
{
table_type::iterator pos = macro_table.find(par->name());
if (pos == macro_table.end())
lyxerr << "MathMacroTable::updateTemplate: no template with name '"
<< par->name() << "' available." << endl;
else
pos->second = par;
}
void MathMacroTable::insertTemplate(MathMacroTemplate * p)
{
macro_table[p->name()] = p;
}
MathMacroTemplate & MathMacroTable::provideTemplate(string const & name)
{
builtinMacros();
table_type::iterator pos = macro_table.find(name);
if (pos == macro_table.end()) {
lyxerr << "MathMacroTable::provideTemplate: no template with name '"
<< name << "' available." << endl;
}
return *pos->second;
}
bool MathMacroTable::hasTemplate(string const & name)
{
builtinMacros();
return macro_table.find(name) != macro_table.end();
}
MathMacro * MathMacroTable::cloneTemplate(string const & name)
{
return new MathMacro(provideTemplate(name));
}
void MathMacroTable::builtinMacros()
{
static bool built = false;
if (built)
return;
built = true;
lyxerr[Debug::MATHED] << "Building macros" << endl;
// This macro doesn't have arguments
{
MathMacroTemplate * t = new MathMacroTemplate("notin", 0);
MathDecorationInset * p = new MathDecorationInset("not", LM_not);
p->cell(0).push_back(LM_in, LM_TC_BOPS);
t->push_back(p);
insertTemplate(t);
}
/*
// This macro doesn't have arguments
{
MathMacroTemplate & m = createTemplate("silentmult", 0);
istringstream is("\\cdot\0");
mathed_parser_file(is, 0);
MathMatrixInset * p = &m;
mathed_parse(m.array, p, 0);
}
*/
{
MathMacroTemplate * t = new MathMacroTemplate("emptyset", 0);
MathDecorationInset * p = new MathDecorationInset("not", LM_not);
p->cell(0).push_back('O', LM_TC_VAR);
t->push_back(p);
insertTemplate(t);
}
{
MathMacroTemplate * t = new MathMacroTemplate("to", 0);
t->push_back(LM_rightarrow, LM_TC_SYMB);
insertTemplate(t);
}
{
MathMacroTemplate * t = new MathMacroTemplate("perp", 0);
t->push_back(LM_bot, LM_TC_BOP);
insertTemplate(t);
}
/*
{
MathMacroTemplate & m = createTemplate("lint", 4);
istringstream is("\\int_{#1}^{#2}#3 d#4\0");
mathed_parser_file(is, 0);
MathMatrixInset * p = &m;
mathed_parse(m.array, p, 0);
}
*/
/*
{
MathMacroTemplate * t = new MathMacroTemplate("binomii", 2);
istringstream is("\\left(\\frac{#1}{#2}\\right)\0");
mathed_parser_file(is, 0);
mathed_parse(t->array, t, 0);
insertTemplate(t);
}
*/
// binom has two arguments
{
MathFracInset * frac = new MathFracInset("atop");
frac->cell(0).push_back(new MathMacroArgument(1));
frac->cell(1).push_back(new MathMacroArgument(2));
MathInset * inset = new MathDelimInset('(', ')');
inset->push_back(frac);
MathMacroTemplate * t = new MathMacroTemplate("binom", 2);
t->push_back(inset);
insertTemplate(t);
}
/*
{
MathFracInset * frac = new MathFracInset(LM_OT_ATOP);
frac->cell(0)->push_back(new MathMacroArgument(1));
frac->cell(1)->push_back(new MathMacroArgument(2));
MathMacroTemplate * t = new MathMacroTemplate("choose", 2);
t->push_back(frac);
insertTemplate(t);
}
*/
}