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/*****************************************************************************/
/* list.cpp - List selected entities */
/* */
/* Copyright (C) 2011 Rallaz, rallazz@gmail.com */
/* */
/* This library is free software, licensed under the terms of the GNU */
/* General Public License as published by the Free Software Foundation, */
/* either version 2 of the License, or (at your option) any later version. */
/* You should have received a copy of the GNU General Public License */
/* along with this program. If not, see <http://www.gnu.org/licenses/>. */
/*****************************************************************************/
#include <QTextEdit>
//#include <QColor>
#include <QDialogButtonBox>
#include <QVBoxLayout>
#include <cmath>
#include "list.h"
QString LC_List::name() const
{
return (tr("List entities"));
}
PluginCapabilities LC_List::getCapabilities() const
{
PluginCapabilities pluginCapabilities;
pluginCapabilities.menuEntryPoints
<< PluginMenuLocation("plugins_menu", tr("List entities"));
return pluginCapabilities;
}
void LC_List::execComm(Document_Interface *doc,
QWidget *parent, QString cmd)
{
Q_UNUSED(parent);
Q_UNUSED(cmd);
d = doc;
QList<Plug_Entity *> obj;
bool yes = doc->getSelect(&obj);
if (!yes || obj.isEmpty()) return;
QString text;
for (int i = 0; i < obj.size(); ++i) {
text.append( QString("%1 %2: ").arg(tr("n")).arg(i+1));
text.append( getStrData(obj.at(i)));
text.append( "\n");
}
lc_Listdlg dlg(parent);
dlg.setText(text);
dlg.exec();
while (!obj.isEmpty())
delete obj.takeFirst();
}
QString LC_List::getStrData(Plug_Entity *ent) {
if( NULL == ent)
return QString("%1\n").arg(tr("Empty Entity"));
QHash<int, QVariant> data;
QString strData(""),
strEntity("%1\n"),
strCommon(" %1: %2\n"),
strSpecific(" %1: %2\n"),
strSpecificXY( QString(" %1: %2=%3 %4=%5\n").arg("%1",tr("X"),"%2",tr("Y"),"%3"));
double numA {0.0};
double numB {0.0};
double numC {0.0};
QPointF ptA, ptB, ptC;
int intA {0};
int intB {0};
//common entity data
ent->getData(&data);
strData = strCommon.arg(tr("Layer")).arg(data.value(DPI::LAYER).toString());
int col = data.value(DPI::COLOR).toInt();
strData.append( strCommon.arg(tr("Color")).arg( ent->intColor2str(col) ));
strData.append( strCommon.arg(tr("Line type")).arg(data.value(DPI::LTYPE).toString()));
strData.append( strCommon.arg(tr("Line thickness")).arg(data.value(DPI::LWIDTH).toString()));
strData.append( strCommon.arg(tr("ID")).arg(data.value(DPI::EID).toLongLong()));
//specific entity data
int et = data.value(DPI::ETYPE).toInt();
switch (et) {
case DPI::POINT:
strData.prepend( strEntity.arg(tr("POINT")));
strData.append( strSpecificXY.arg(tr("in point")).
arg(d->realToStr(data.value(DPI::STARTX).toDouble())).
arg(d->realToStr(data.value(DPI::STARTY).toDouble())));
break;
case DPI::LINE:
strData.prepend( strEntity.arg(tr("LINE")));
ptA.setX( data.value(DPI::STARTX).toDouble());
ptA.setY( data.value(DPI::STARTY).toDouble());
ptB.setX( data.value(DPI::ENDX).toDouble());
ptB.setY( data.value(DPI::ENDY).toDouble());
strData.append( strSpecificXY.arg(tr("from point")).
arg(d->realToStr(ptA.x())).
arg(d->realToStr(ptA.y())));
strData.append( strSpecificXY.arg(tr("to point")).
arg(d->realToStr(ptB.x())).
arg(d->realToStr(ptB.y())));
ptC = ptB - ptA;
numA = sqrt( (ptC.x()*ptC.x())+ (ptC.y()*ptC.y()));
strData.append( strSpecific.arg(tr("length")).arg( d->realToStr(numA)));
numB = asin(ptC.y() / numA);
numC = numB*180/M_PI;
if (ptC.x() < 0) numC = 180 - numC;
if (numC < 0) numC = 360 + numC;
strData.append( strSpecific.arg(tr("Angle in XY plane")).arg(d->realToStr(numC)));
strData.append( strSpecificXY.arg(tr("Inc.")).
arg(d->realToStr(ptC.x())).
arg(d->realToStr(ptC.y())));
break;
case DPI::ARC:
strData.prepend( strEntity.arg(tr("ARC")));
strData.append( strSpecificXY.arg(tr("center point")).
arg(d->realToStr(data.value(DPI::STARTX).toDouble())).
arg(d->realToStr(data.value(DPI::STARTY).toDouble())));
numA = data.value(DPI::RADIUS).toDouble();
numB = data.value(DPI::STARTANGLE).toDouble();
numC = data.value(DPI::ENDANGLE).toDouble();
strData.append( strSpecific.arg(tr("radius")).arg(d->realToStr(numA)));
strData.append( strSpecific.arg(tr("initial angle")).arg(d->realToStr(numB*180/M_PI)));
strData.append( strSpecific.arg(tr("final angle")).arg(d->realToStr(numC*180/M_PI)));
if( numB > numC) {
numB -= 2.0 * M_PI;
}
strData.append( strSpecific.arg(tr("length")).arg( d->realToStr((numC-numB)*numA)));
break;
case DPI::CIRCLE:
strData.prepend( strEntity.arg(tr("CIRCLE")));
strData.append( strSpecificXY.arg(tr("center point")).
arg(d->realToStr(data.value(DPI::STARTX).toDouble())).
arg(d->realToStr(data.value(DPI::STARTY).toDouble())));
numA = data.value(DPI::RADIUS).toDouble();
strData.append( strSpecific.arg(tr("radius")).arg(d->realToStr(numA)));
strData.append( strSpecific.arg(tr("circumference")).arg(d->realToStr(numA*2*M_PI)));
strData.append( strSpecific.arg(tr("area")).arg(d->realToStr(numA*numA*M_PI)));
break;
case DPI::ELLIPSE://toy aqui
strData.prepend( strEntity.arg(tr("ELLIPSE")));
strData.append( strSpecificXY.arg(tr("center point")).
arg(d->realToStr(data.value(DPI::STARTX).toDouble())).
arg(d->realToStr(data.value(DPI::STARTY).toDouble())));
strData.append( strSpecificXY.arg(tr("major axis")).
arg(d->realToStr(data.value(DPI::ENDX).toDouble())).
arg(d->realToStr(data.value(DPI::ENDY).toDouble())));
/* strData.append( QString(tr(" minor axis: X=%1 Y=%2\n")).arg(
data.value(DPI::ENDX).toDouble()).arg(
data.value(DPI::ENDY).toDouble() ) );
strData.append( QString(tr(" start point: X=%1 Y=%2\n")).arg(
data.value(DPI::ENDX).toDouble()).arg(
data.value(DPI::ENDY).toDouble() ) );
strData.append( QString(tr(" end point: X=%1 Y=%2\n")).arg(
data.value(DPI::ENDX).toDouble()).arg(
data.value(DPI::ENDY).toDouble() ) );
strData.append( QString(tr(" initial angle: %1\n")).arg(numB*180/M_PI) );
strData.append( QString(tr(" final angle: %1\n")).arg(numC*180/M_PI) );
strData.append( QString(tr(" radius ratio: %1\n")).arg(numC*180/M_PI) );*/
break;
case DPI::CONSTRUCTIONLINE:
strData.prepend( strEntity.arg(tr("CONSTRUCTIONLINE")));
break;
case DPI::OVERLAYBOX:
strData.prepend( strEntity.arg(tr("OVERLAYBOX")));
break;
case DPI::SOLID:
strData.prepend( strEntity.arg(tr("SOLID")));
break;
//container entities
case DPI::MTEXT:
strData.prepend( strEntity.arg(tr("MTEXT")));
break;
case DPI::TEXT:
strData.prepend( strEntity.arg(tr("TEXT")));
strData.append( strSpecificXY.arg(tr("in point")).
arg(d->realToStr(data.value(DPI::STARTX).toDouble())).
arg(d->realToStr(data.value(DPI::STARTY).toDouble())));
strData.append( strSpecific.arg(tr("TEXTCONTENT")).arg(data.value(DPI::TEXTCONTENT).toString()));
break;
case DPI::INSERT:
strData.prepend( strEntity.arg(tr("INSERT")));
ptA.setX( data.value(DPI::STARTX).toDouble());
ptA.setY( data.value(DPI::STARTY).toDouble());
strData.append( strSpecific.arg( tr("Name")).
arg( data.value(DPI::BLKNAME).toString()));
strData.append( strSpecificXY.arg( tr("Insertion point")).
arg(d->realToStr( ptA.x())).
arg(d->realToStr( ptA.y())));
strData.append( strSpecificXY.arg( tr("Scale")).
arg( d->realToStr( data.value(DPI::XSCALE).toDouble())).
arg( d->realToStr( data.value(DPI::YSCALE).toDouble())));
strData.append( strSpecific.arg( tr("Rotation")).
arg( QString("%1°").
arg( d->realToStr( data.value(DPI::STARTANGLE).toDouble() * 180 / M_PI))));
intA = data.value(DPI::COLCOUNT).toInt();
intB = data.value(DPI::ROWCOUNT).toInt();
if( 1 < intA || 1 < intB) {
strData.append( strSpecific.arg( tr("Columns/Rows")).
arg( QString( "%1 / %2").
arg( intA).
arg( intB)));
strData.append( strSpecific.arg( tr("Column/Row Spacing")).
arg( QString("%1 / %2").
arg( d->realToStr( data.value(DPI::COLSPACE).toDouble())).
arg( d->realToStr( data.value(DPI::ROWSPACE).toDouble()))));
}
break;
case DPI::POLYLINE: {
strData.prepend( strEntity.arg(tr("POLYLINE")));
strData.append( strSpecific.arg(tr("Closed")).
arg( (0 == data.value(DPI::CLOSEPOLY).toInt()) ? tr("No") : tr("Yes")));
strData.append( strSpecific.arg(tr("Vertices")).arg(""));
QList<Plug_VertexData> vl;
ent->getPolylineData(&vl);
int iVertices = vl.size();
for (int i = 0; i < iVertices; ++i) {
strData.append( strSpecificXY.arg(tr("in point")).
arg(d->realToStr(vl.at(i).point.x())).
arg(d->realToStr(vl.at(i).point.y())));
if ( 0 != vl.at(i).bulge) {
strData.append( strSpecific.arg(tr("radius")).arg( d->realToStr(polylineRadius(vl.at(i), vl.at((i+1) % iVertices)))));
}
}
break; }
case DPI::IMAGE:
strData.prepend( strEntity.arg(tr("IMAGE")));
break;
case DPI::SPLINE:
strData.prepend( strEntity.arg(tr("SPLINE")));
break;
case DPI::SPLINEPOINTS:
strData.prepend( strEntity.arg(tr("SPLINEPOINTS")));
break;
case DPI::HATCH:
strData.prepend( strEntity.arg(tr("HATCH")));
break;
case DPI::DIMLEADER:
strData.prepend( strEntity.arg(tr("DIMLEADER")));
break;
case DPI::DIMALIGNED:
strData.prepend( strEntity.arg(tr("DIMALIGNED")));
break;
case DPI::DIMLINEAR:
strData.prepend( strEntity.arg(tr("DIMLINEAR")));
break;
case DPI::DIMRADIAL:
strData.prepend( strEntity.arg(tr("DIMRADIAL")));
break;
case DPI::DIMDIAMETRIC:
strData.prepend( strEntity.arg(tr("DIMDIAMETRIC")));
break;
case DPI::DIMANGULAR:
strData.prepend( strEntity.arg(tr("DIMANGULAR")));
break;
default:
strData.prepend( strEntity.arg(tr("UNKNOWN")));
break;
}
return strData;
}
double LC_List::polylineRadius( const Plug_VertexData& ptA, const Plug_VertexData& ptB)
{
double dChord = sqrt( pow(ptA.point.x() - ptB.point.x(), 2) + pow(ptA.point.y() - ptB.point.y(), 2));
return fabs( 0.5 * dChord / sin( 2.0 * atan(ptA.bulge)));
}
/*****************************/
lc_Listdlg::lc_Listdlg(QWidget *parent) : QDialog(parent)
{
setWindowTitle(tr("List entities"));
// QTextEdit *edit= new QTextEdit(this);
edit.setReadOnly (true);
edit.setAcceptRichText ( false );
QDialogButtonBox* bb = new QDialogButtonBox( QDialogButtonBox::Close, Qt::Horizontal, this );
QVBoxLayout *mainLayout = new QVBoxLayout;
mainLayout->addWidget(&edit);
mainLayout->addWidget(bb);
this->setLayout(mainLayout);
this->resize ( 450, 350 );
connect(bb, SIGNAL(rejected()), this, SLOT(accept()));
}
void lc_Listdlg::setText(QString text)
{
edit.setText(text);
}
lc_Listdlg::~lc_Listdlg()
{
}
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