+++ /dev/null
-// insert.cpp
-//
-// Part of the Architektonas Project
-// Originally part of QCad Community Edition by Andrew Mustun
-// Extensively rewritten and refactored by James L. Hammons
-// Portions copyright (C) 2001-2003 RibbonSoft
-// Copyright (C) 2010 Underground Software
-// See the README and GPLv2 files for licensing and warranty information
-//
-// JLH = James L. Hammons <jlhamm@acm.org>
-//
-// Who When What
-// --- ---------- -----------------------------------------------------------
-// JLH 06/01/2010 Added this text. :-)
-//
-
-#include "insert.h"
-
-#include "block.h"
-#include "drawing.h"
-
-/**
- * @param parent The graphic this block belongs to.
- */
-Insert::Insert(EntityContainer * parent, const InsertData & d):
- EntityContainer(parent), data(d)
-{
- block = NULL;
-
- if (data.updateMode != RS2::NoUpdate)
- {
- update();
- //calculateBorders();
- }
-}
-
-/**
- * Destructor.
- */
-Insert::~Insert()
-{
-}
-
-/*virtual*/ Entity * Insert::clone()
-{
- Insert * i = new Insert(*this);
-#warning "!!! Need to deal with setAutoDelete() Qt3->Qt4 !!!"
-// i->entities.setAutoDelete(entities.autoDelete());
- i->initId();
- i->detach();
- return i;
-}
-
-/** @return RS2::EntityInsert */
-/*virtual*/ RS2::EntityType Insert::rtti() const
-{
- return RS2::EntityInsert;
-}
-
-/** @return Copy of data that defines the insert. **/
-InsertData Insert::getData() const
-{
- return data;
-}
-
-/**
- * Reimplementation of reparent. Invalidates block cache pointer.
- */
-/*virtual*/ void Insert::reparent(EntityContainer * parent)
-{
- Entity::reparent(parent);
- block = NULL;
-}
-
-/**
- * @return Pointer to the block associated with this Insert or
- * NULL if the block couldn't be found. Blocks are requested
- * from the blockSource if one was supplied and otherwise from
- * the closest parent graphic.
- */
-Block * Insert::getBlockForInsert()
-{
- if (block)
- return block;
-
- BlockList * blkList;
-
- if (!data.blockSource)
- blkList = (GetDrawing() ? GetDrawing()->getBlockList() : NULL);
- else
- blkList = data.blockSource;
-
- Block * blk = NULL;
-
- if (blkList)
- blk = blkList->find(data.name);
-
- block = blk;
-
- return blk;
-}
-
-/**
- * Updates the entity buffer of this insert entity. This method
- * needs to be called whenever the block this insert is based on changes.
- */
-void Insert::update()
-{
- DEBUG->print("Insert::update");
- DEBUG->print("Insert::update: name: %s", data.name.toLatin1().data());
- DEBUG->print("Insert::update: insertionPoint: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y);
-
- if (!updateEnabled)
- return;
-
- clear();
- Block * blk = getBlockForInsert();
-
- if (!blk)
- {
- DEBUG->print("Insert::update: Block is NULL");
- return;
- }
-
- if (isUndone())
- {
- DEBUG->print("Insert::update: Insert is in undo list");
- return;
- }
-
- if (fabs(data.scaleFactor.x) < 1.0e-6 || fabs(data.scaleFactor.y) < 1.0e-6)
- {
- DEBUG->print("Insert::update: scale factor is 0");
- return;
- }
-
- Pen tmpPen;
-
- /*Q3PtrListIterator<Entity> it = createIterator();
- Entity* e;
- while ( (e = it.current()) != NULL ) {
- ++it;*/
-
- DEBUG->print("Insert::update: cols: %d, rows: %d", data.cols, data.rows);
- DEBUG->print("Insert::update: block has %d entities", blk->count());
-
- for(Entity * e=blk->firstEntity(); e!=NULL; e=blk->nextEntity())
- {
- for(int c=0; c<data.cols; ++c)
- {
- DEBUG->print("Insert::update: col %d", c);
-
- for(int r=0; r<data.rows; ++r)
- {
- DEBUG->print("Insert::update: row %d", r);
-
- if (e->rtti() == RS2::EntityInsert && data.updateMode != RS2::PreviewUpdate)
- {
- DEBUG->print("Insert::update: updating sub-insert");
- ((Insert *)e)->update();
- }
-
- DEBUG->print("Insert::update: cloning entity");
-
- Entity * ne = e->clone();
- ne->initId();
- ne->setUpdateEnabled(false);
- ne->setParent(this);
- ne->setVisible(getFlag(RS2::FlagVisible));
-
- DEBUG->print("Insert::update: transforming entity");
-
- // Move:
- DEBUG->print("Insert::update: move 1");
- if (fabs(data.scaleFactor.x) > 1.0e-6 && fabs(data.scaleFactor.y) > 1.0e-6)
- {
- ne->move(data.insertionPoint + Vector(data.spacing.x / data.scaleFactor.x * c, data.spacing.y / data.scaleFactor.y * r));
- }
- else
- {
- ne->move(data.insertionPoint);
- }
-
- // Move because of block base point:
- DEBUG->print("Insert::update: move 2");
- ne->move(blk->getBasePoint() * -1);
- // Scale:
- DEBUG->print("Insert::update: scale");
- ne->scale(data.insertionPoint, data.scaleFactor);
- // Rotate:
- DEBUG->print("Insert::update: rotate");
- ne->rotate(data.insertionPoint, data.angle);
- // Select:
- ne->setSelected(isSelected());
-
- // individual entities can be on indiv. layers
- tmpPen = ne->getPen(false);
-
- // color from block (free floating):
- if (tmpPen.getColor() == Color(RS2::FlagByBlock))
- tmpPen.setColor(getPen().getColor());
-
- // line width from block (free floating):
- if (tmpPen.getWidth() == RS2::WidthByBlock)
- tmpPen.setWidth(getPen().getWidth());
-
- // line type from block (free floating):
- if (tmpPen.getLineType() == RS2::LineByBlock)
- tmpPen.setLineType(getPen().getLineType());
-
- // now that we've evaluated all flags, let's strip them:
- // TODO: strip all flags (width, line type)
- //tmpPen.setColor(tmpPen.getColor().stripFlags());
-
- ne->setPen(tmpPen);
-
- ne->setUpdateEnabled(true);
-
- if (data.updateMode != RS2::PreviewUpdate)
- {
- DEBUG->print("Insert::update: updating new entity");
- ne->update();
- }
-
- DEBUG->print("Insert::update: adding new entity");
- addEntity(ne);
- }
- }
- }
-
- calculateBorders();
-
- DEBUG->print("Insert::update: OK");
-}
-
-QString Insert::getName() const
-{
- return data.name;
-}
-
-void Insert::setName(const QString & newName)
-{
- data.name = newName;
- update();
-}
-
-Vector Insert::getInsertionPoint() const
-{
- return data.insertionPoint;
-}
-
-void Insert::setInsertionPoint(const Vector & i)
-{
- data.insertionPoint = i;
-}
-
-Vector Insert::getScale() const
-{
- return data.scaleFactor;
-}
-
-void Insert::setScale(const Vector & s)
-{
- data.scaleFactor = s;
-}
-
-double Insert::getAngle() const
-{
- return data.angle;
-}
-
-void Insert::setAngle(double a)
-{
- data.angle = a;
-}
-
-int Insert::getCols() const
-{
- return data.cols;
-}
-
-void Insert::setCols(int c)
-{
- data.cols = c;
-}
-
-int Insert::getRows() const
-{
- return data.rows;
-}
-
-void Insert::setRows(int r)
-{
- data.rows = r;
-}
-
-Vector Insert::getSpacing() const
-{
- return data.spacing;
-}
-
-void Insert::setSpacing(const Vector & s)
-{
- data.spacing = s;
-}
-
-/**
- * Is this insert visible? (re-implementation from Entity)
- *
- * @return true Only if the entity and the block and the layer it is on
- * are visible.
- * The Layer might also be NULL. In that case the layer visiblity
- * is ignored.
- * The Block might also be NULL. In that case the block visiblity
- * is ignored.
- */
-bool Insert::isVisible()
-{
- Block * blk = getBlockForInsert();
-
- if (blk != NULL)
- {
- if (blk->isFrozen())
- {
- return false;
- }
- }
-
- return Entity::isVisible();
-}
-
-VectorSolutions Insert::getRefPoints()
-{
- VectorSolutions ret(data.insertionPoint);
- return ret;
-}
-
-Vector Insert::getNearestRef(const Vector & coord, double * dist)
-{
- return getRefPoints().getClosest(coord, dist);
-}
-
-void Insert::move(Vector offset)
-{
- DEBUG->print("Insert::move: offset: %f/%f",
- offset.x, offset.y);
- DEBUG->print("Insert::move1: insertionPoint: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y);
- data.insertionPoint.move(offset);
- DEBUG->print("Insert::move2: insertionPoint: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y);
- update();
-}
-
-void Insert::rotate(Vector center, double angle)
-{
- DEBUG->print("Insert::rotate1: insertionPoint: %f/%f "
- "/ center: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y,
- center.x, center.y);
- data.insertionPoint.rotate(center, angle);
- data.angle = Math::correctAngle(data.angle + angle);
- DEBUG->print("Insert::rotate2: insertionPoint: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y);
- update();
-}
-
-void Insert::scale(Vector center, Vector factor)
-{
- DEBUG->print("Insert::scale1: insertionPoint: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y);
- data.insertionPoint.scale(center, factor);
- data.scaleFactor.scale(Vector(0.0, 0.0), factor);
- data.spacing.scale(Vector(0.0, 0.0), factor);
- DEBUG->print("Insert::scale2: insertionPoint: %f/%f",
- data.insertionPoint.x, data.insertionPoint.y);
- update();
-}
-
-void Insert::mirror(Vector axisPoint1, Vector axisPoint2)
-{
- data.insertionPoint.mirror(axisPoint1, axisPoint2);
-
- Vector vec;
- vec.setPolar(1.0, data.angle);
- vec.mirror(Vector(0.0, 0.0), axisPoint2 - axisPoint1);
- data.angle = vec.angle();
-
- data.scaleFactor.y *= -1;
-
- update();
-}
-
-std::ostream & operator<<(std::ostream & os, const Insert & i)
-{
- os << " Insert: " << i.getData() << std::endl;
- return os;
-}