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koffice/kspread/functions.cc

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/* This file is part of the KDE project
Copyright (C) 2003,2004 Ariya Hidayat <ariya@kde.org>
Copyright (C) 2005 Tomas Mecir <mecirt@gmail.com>
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#include "formula.h"
#include "functions.h"
#include "valuecalc.h"
#include <tqdict.h>
#include <tqdom.h>
#include <tqfile.h>
#include <tqvaluevector.h>
#include <kdebug.h>
#include <klocale.h>
#include <kstandarddirs.h>
#include <kstaticdeleter.h>
#include "kspread_factory.h"
namespace KSpread
{
class Function::Private
{
public:
TQString name;
FunctionPtr ptr;
int paramMin, paramMax;
bool acceptArray;
bool ne; // need FunctionExtra* when called ?
};
class FunctionRepository::Private
{
public:
TQDict<Function> functions;
TQDict<FunctionDescription> funcs;
};
} // namespace KSpread
using namespace KSpread;
Function::Function( const TQString& name, FunctionPtr ptr )
{
d = new Private;
d->name = name;
d->ptr = ptr;
d->acceptArray = false;
d->paramMin = 1;
d->paramMax = 1;
d->ne = false;
}
Function::~Function()
{
delete d;
}
TQString Function::name() const
{
return d->name;
}
void Function::setParamCount (int min, int max)
{
d->paramMin = min;
d->paramMax = (max == 0) ? min : max;
}
bool Function::paramCountOkay (int count)
{
// less than needed
if (count < d->paramMin) return false;
// no upper limit
if (d->paramMax == -1) return true;
// more than needed
if (count > d->paramMax) return false;
// okay otherwise
return true;
}
void Function::setAcceptArray (bool accept) {
d->acceptArray = accept;
}
bool Function::needsExtra () {
return d->ne;
}
void Function::setNeedsExtra (bool extra) {
d->ne = extra;
}
Value Function::exec (valVector args, ValueCalc *calc, FuncExtra *extra)
{
// check number of parameters
if (!paramCountOkay (args.count()))
return Value::errorVALUE();
// do we need to perform array expansion ?
bool mustExpandArray = false;
if (!d->acceptArray)
for (unsigned int i = 0; i < args.count(); ++i) {
if (args[i].isArray())
mustExpandArray = true;
}
if( !d->ptr ) return Value::errorVALUE();
// perform the actual array expansion if need be
if (mustExpandArray) {
// compute number of rows/cols of the result
int rows = 0;
int cols = 0;
for (unsigned int i = 0; i < args.count(); ++i) {
int x = (args[i].type() == Value::Array) ? args[i].rows() : 1;
if (x > rows) rows = x;
x = (args[i].type() == Value::Array) ? args[i].columns() : 1;
if (x > cols) cols = x;
}
// allocate the resulting array
Value res (cols, rows);
// perform the actual computation for each element of the array
for (int row = 0; row < rows; ++row)
for (int col = 0; col < cols; ++col) {
// fill in the parameter vector
valVector vals (args.count());
for (unsigned int i = 0; i < args.count(); ++i) {
int r = args[i].rows();
int c = args[i].columns();
vals[i] = args[i].isArray() ?
args[i].element (col % c, row % r): args[i];
}
// execute the function on each element
res.setElement (col, row, exec (vals, calc, extra));
}
return res;
}
else
// call the function
return (*d->ptr) (args, calc, extra);
}
// these are defined in kspread_function_*.cc
void RegisterConversionFunctions();
void RegisterDatabaseFunctions();
void RegisterDateTimeFunctions();
void RegisterEngineeringFunctions();
void RegisterFinancialFunctions();
void RegisterInformationFunctions();
void RegisterLogicFunctions();
void RegisterMathFunctions();
void RegisterReferenceFunctions();
void RegisterStatisticalFunctions();
void RegisterTextFunctions();
void RegisterTrigFunctions();
static KStaticDeleter<FunctionRepository> fr_sd;
FunctionRepository* FunctionRepository::s_self = 0;
FunctionRepository* FunctionRepository::self()
{
if( !s_self )
{
kdDebug() << "Creating function repository" << endl;
fr_sd.setObject( s_self, new FunctionRepository() );
kdDebug() << "Registering functions" << endl;
// register all existing functions
RegisterConversionFunctions();
RegisterDatabaseFunctions();
RegisterDateTimeFunctions();
RegisterEngineeringFunctions();
RegisterFinancialFunctions();
RegisterInformationFunctions();
RegisterLogicFunctions();
RegisterMathFunctions();
RegisterReferenceFunctions();
RegisterStatisticalFunctions();
RegisterTextFunctions();
RegisterTrigFunctions();
kdDebug() << "Functions registered, loading descriptions" << endl;
// find all XML description files
TQStringList files = Factory::global()->dirs()->findAllResources
("extensions", "*.xml", TRUE);
// load desc/help from XML file
for( TQStringList::Iterator it = files.begin(); it != files.end(); ++it )
s_self->loadFile (*it);
kdDebug() << "All ok, repository ready" << endl;
}
return s_self;
}
FunctionRepository::FunctionRepository()
{
d = new Private;
d->functions.setAutoDelete( true );
d->funcs.setAutoDelete( true );
}
FunctionRepository::~FunctionRepository()
{
delete d;
s_self = 0;
}
void FunctionRepository::add( Function* function )
{
if( !function ) return;
d->functions.insert( function->name().upper(), function );
}
Function *FunctionRepository::function (const TQString& name)
{
return d->functions.tqfind (name.upper());
}
FunctionDescription *FunctionRepository::functionInfo (const TQString& name)
{
return d->funcs.tqfind (name.upper());
}
// returns names of function in certain group
TQStringList FunctionRepository::functionNames( const TQString& group )
{
TQStringList lst;
TQDictIterator<FunctionDescription> it (d->funcs);
for(; it.current(); ++it) {
if (group.isNull() || (it.current()->group() == group))
lst.append (it.current()->name());
}
lst.sort();
return lst;
}
void FunctionRepository::loadFile (const TQString& filename)
{
TQFile file (filename);
if (!file.open (IO_ReadOnly))
return;
TQDomDocument doc;
doc.setContent( &file );
file.close();
TQString group = "";
TQDomNode n = doc.documentElement().firstChild();
for (; !n.isNull(); n = n.nextSibling())
{
if (!n.isElement())
continue;
TQDomElement e = n.toElement();
if (e.tagName() == "Group")
{
group = i18n (e.namedItem ("GroupName").toElement().text().utf8());
m_groups.append( group );
m_groups.sort();
TQDomNode n2 = e.firstChild();
for (; !n2.isNull(); n2 = n2.nextSibling())
{
if (!n2.isElement())
continue;
TQDomElement e2 = n2.toElement();
if (e2.tagName() == "Function")
{
FunctionDescription* desc = new FunctionDescription( e2 );
desc->setGroup (group);
if (d->functions.tqfind (desc->name()))
d->funcs.insert (desc->name(), desc);
}
}
group = "";
}
}
}
// ------------------------------------------------------------
static ParameterType toType( const TQString& type )
{
if ( type == "Boolean" )
return KSpread_Boolean;
if ( type == "Int" )
return KSpread_Int;
if ( type == "String" )
return KSpread_String;
if ( type == "Any" )
return KSpread_Any;
return KSpread_Float;
}
static TQString toString (ParameterType type, bool range = FALSE)
{
if ( !range )
{
switch(type) {
case KSpread_String:
return i18n("Text");
case KSpread_Int:
return i18n("Whole number (like 1, 132, 2344)");
case KSpread_Boolean:
return i18n("A truth value (TRUE or FALSE)" );
case KSpread_Float:
return i18n("A floating point value (like 1.3, 0.343, 253 )" );
case KSpread_Any:
return i18n("Any kind of value");
}
}
else
{
switch(type) {
case KSpread_String:
return i18n("A range of strings");
case KSpread_Int:
return i18n("A range of whole numbers (like 1, 132, 2344)");
case KSpread_Boolean:
return i18n("A range of truth values (TRUE or FALSE)" );
case KSpread_Float:
return i18n("A range of floating point values (like 1.3, 0.343, 253 )" );
case KSpread_Any:
return i18n("A range of any kind of values");
}
}
return TQString();
}
FunctionParameter::FunctionParameter()
{
m_type = KSpread_Float;
m_range = FALSE;
}
FunctionParameter::FunctionParameter (const FunctionParameter& param)
{
m_help = param.m_help;
m_type = param.m_type;
m_range = param.m_range;
}
FunctionParameter::FunctionParameter (const TQDomElement& element)
{
m_type = KSpread_Float;
m_range = FALSE;
TQDomNode n = element.firstChild();
for( ; !n.isNull(); n = n.nextSibling() )
if ( n.isElement() )
{
TQDomElement e = n.toElement();
if ( e.tagName() == "Comment" )
m_help = i18n( e.text().utf8() );
else if ( e.tagName() == "Type" )
{
m_type = toType( e.text() );
if ( e.hasAttribute( "range" ))
{
if (e.attribute("range").lower() == "true")
m_range = TRUE;
}
}
}
}
FunctionDescription::FunctionDescription()
{
m_type = KSpread_Float;
}
FunctionDescription::FunctionDescription (const TQDomElement& element)
{
TQDomNode n = element.firstChild();
for( ; !n.isNull(); n = n.nextSibling() )
{
if (!n.isElement())
continue;
TQDomElement e = n.toElement();
if ( e.tagName() == "Name" )
m_name = e.text();
else if ( e.tagName() == "Type" )
m_type = toType( e.text() );
else if ( e.tagName() == "Parameter" )
m_params.append (FunctionParameter (e));
else if ( e.tagName() == "Help" )
{
TQDomNode n2 = e.firstChild();
for( ; !n2.isNull(); n2 = n2.nextSibling() )
{
if (!n2.isElement())
continue;
TQDomElement e2 = n2.toElement();
if ( e2.tagName() == "Text" )
m_help.append ( i18n( e2.text().utf8() ) );
else if ( e2.tagName() == "Syntax" )
m_syntax.append( i18n( e2.text().utf8() ) );
else if ( e2.tagName() == "Example" )
m_examples.append( i18n( e2.text().utf8() ) );
else if ( e2.tagName() == "Related" )
m_related.append( i18n( e2.text().utf8() ) );
}
}
}
}
FunctionDescription::FunctionDescription( const FunctionDescription& desc )
{
m_examples = desc.m_examples;
m_related = desc.m_related;
m_syntax = desc.m_syntax;
m_help = desc.m_help;
m_name = desc.m_name;
m_type = desc.m_type;
}
TQString FunctionDescription::toTQML() const
{
TQString text( "<qt><h1>" );
text += name();
text += "</h1>";
if( !m_help.isEmpty() )
{
text += i18n("<p>");
TQStringList::ConstIterator it = m_help.begin();
for( ; it != m_help.end(); ++it )
{
text += *it;
text += "<p>";
}
text += "</p>";
}
text += i18n("<p><b>Return type: </b>");
text += toString( type() );
text += "</p>";
if ( !m_syntax.isEmpty() )
{
text += i18n("<h2>Syntax</h2><ul>");
TQStringList::ConstIterator it = m_syntax.begin();
for( ; it != m_syntax.end(); ++it )
{
text += "<li>";
text += *it;
}
text += "</ul>";
}
if ( !m_params.isEmpty() )
{
text += i18n("<h2>Parameters</h2><ul>");
TQValueList<FunctionParameter>::ConstIterator it = m_params.begin();
for( ; it != m_params.end(); ++it )
{
text += i18n("<li><b>Comment:</b> ");
text += (*it).helpText();
text += i18n("<br><b>Type:</b> ");
text += toString( (*it).type(), (*it).hasRange() );
}
text += "</ul>";
}
if ( !m_examples.isEmpty() )
{
text += i18n("<h2>Examples</h2><ul>");
TQStringList::ConstIterator it = m_examples.begin();
for( ; it != m_examples.end(); ++it )
{
text += "<li>";
text += *it;
}
text += "</ul>";
}
if ( !m_related.isEmpty() )
{
text += i18n("<h2>Related Functions</h2><ul>");
TQStringList::ConstIterator it = m_related.begin();
for( ; it != m_related.end(); ++it )
{
text += "<li>";
text += "<a href=\"" + *it + "\">";
text += *it;
text += "</a>";
}
text += "</ul>";
}
text += "</qt>";
return text;
}