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SC_undocommands.cpp
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SC_undocommands.cpp
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/***************************************************************************
** **
** This file is part of SpineCreator, an easy to use GUI for **
** describing spiking neural network models. **
** Copyright (C) 2013-2014 Alex Cope, Paul Richmond, Seb James **
** **
** This program is free software: you can redistribute it and/or modify **
** it under the terms of the GNU General Public License as published by **
** the Free Software Foundation, either version 3 of the License, or **
** (at your option) any later version. **
** **
** This program 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 General Public License for more details. **
** **
** You should have received a copy of the GNU General Public License **
** along with this program. If not, see http://www.gnu.org/licenses/. **
** **
****************************************************************************
** Authors: Alex Cope, Seb James **
** Website/Contact: http://bimpa.group.shef.ac.uk/ **
****************************************************************************/
#include "SC_undocommands.h"
#include "NL_projection_and_synapse.h"
#include "SC_network_layer_rootdata.h"
#include "NL_genericinput.h"
#include "CL_classes.h"
#include "NL_connection.h"
#include "mainwindow.h"
#include "SC_component_rootcomponentitem.h"
#include "SC_projectobject.h"
// ######## DELETE SELECTION #################
delSelection::delSelection(nl_rootdata * data, QVector <QSharedPointer<systemObject> > list, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->data = data;
this->setText("delete selection");
QVector < QSharedPointer<systemObject> > populations;
QVector < QSharedPointer<systemObject> > projections;
// spawn children
for (int i = 0; i < list.size(); ++i) {
// seperate out:
if (list[i]->type == populationObject) {
QSharedPointer <population> pop = qSharedPointerDynamicCast <population> (list[i]);
populations.push_back(list[i]);
new delPopulation(data, pop, this);
}
}
for (int i = 0; i < list.size(); ++i) {
if (list[i]->type == projectionObject) {
QSharedPointer <projection> proj = qSharedPointerDynamicCast <projection> (list[i]);
bool alreadyDeleted = false;
// check if any of the populations are the source or dest of this proj
// and it has therefore already been handled
for (int j = 0; j < populations.size(); ++j)
if (proj->source == populations[j] || proj->destination == populations[j])
alreadyDeleted = true;
if (!alreadyDeleted) {
new delProjection(data, proj, this);
projections.push_back(list[i]);
}
}
}
for (int i = 0; i < list.size(); ++i) {
if (list[i]->type == inputObject) {
QSharedPointer<genericInput> input = qSharedPointerDynamicCast<genericInput> (list[i]);
// check if the input has already been handled
bool alreadyDeleted = false;
for (int j = 0; j < populations.size(); ++j) {
if (input->source == populations[j] || input->destination == populations[j])
alreadyDeleted = true;
QSharedPointer <population> pop = qSharedPointerDynamicCast <population> (populations[j]);
for (int k = 0; k <pop->projections.size(); ++k) {
QSharedPointer <projection> proj = pop->projections[k];
for (int l = 0; l < proj->synapses.size(); ++l) {
if (input->srcCmpt == proj->synapses[l]->weightUpdateCmpt || input->dstCmpt == proj->synapses[l]->weightUpdateCmpt || \
input->srcCmpt == proj->synapses[l]->postSynapseCmpt || input->dstCmpt == proj->synapses[l]->postSynapseCmpt)
alreadyDeleted = true;
}
}
for (int k = 0; k <pop->reverseProjections.size(); ++k) {
QSharedPointer <projection> proj = pop->reverseProjections[k];
for (int l = 0; l < proj->synapses.size(); ++l) {
if (input->srcCmpt == proj->synapses[l]->weightUpdateCmpt || input->dstCmpt == proj->synapses[l]->weightUpdateCmpt || \
input->srcCmpt == proj->synapses[l]->postSynapseCmpt || input->dstCmpt == proj->synapses[l]->postSynapseCmpt)
alreadyDeleted = true;
}
}
}
if (!alreadyDeleted)
new delInput(data, input, this);
}
}
}
void delSelection::undo()
{
// do children by calling parent class function:
QUndoCommand::undo();
}
void delSelection::redo()
{
// do children by calling parent class function:
QUndoCommand::redo();
}
// ######## ADD POPULATION #################
addPopulationCmd::addPopulationCmd(nl_rootdata * data, QSharedPointer<population> pop, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->pop = pop;
this->data = data;
this->setText("add population");
selIndex = 1;
isDeleted = true;
}
void addPopulationCmd::undo()
{
pop->isDeleted = true;
isDeleted = true;
// remove from system:
for (int i = 0; i < data->populations.size(); ++i) {
if (this->pop == data->populations[i])
data->populations.erase(data->populations.begin()+i);
}
// might be selected:
for (int i = 0; i < data->selList.size(); ++i) {
if (this->pop == data->selList[i]) {
data->selList.erase(data->selList.begin()+i);
selIndex = i;
if (data->selList.size()==0) {
data->cursor.x = this->pop->currentLocation().x();
data->cursor.y = this->pop->currentLocation().y();
}
}
}
// do children by calling parent class function:
QUndoCommand::undo();
}
void addPopulationCmd::redo()
{
// add to system
data->populations.push_back(pop);
pop->isDeleted = false;
isDeleted = false;
if (selIndex != -1) {
data->selList.push_back(pop);
data->cursor.x = -100000;
data->cursor.y = -100000;
}
// do children by calling parent class function:
QUndoCommand::redo();
}
// ######## DELETE POPULATION #################
delPopulation::delPopulation(nl_rootdata * data, QSharedPointer<population> pop, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->pop = pop;
this->data = data;
this->setText("delete population " + this->pop->getName());
// spawn children
for (int i = 0; i < this->pop->neuronType->inputs.size(); ++i) {
new delInput(data, this->pop->neuronType->inputs[i], this);
}
for (int i = 0; i < this->pop->neuronType->outputs.size(); ++i) {
// ok, find out if the input for this output is deleted
bool destination_deleted = false;
for (int j = 0; j < data->selList.size(); ++j) {
if (this->pop->neuronType->outputs[i]->destination == data->selList[j])
destination_deleted = true;
if (data->selList[j]->type == populationObject) {
QSharedPointer <population> pop2 = qSharedPointerDynamicCast <population> (data->selList[j]);
for (int k = 0; k < pop2->projections.size(); ++k)
if (this->pop->neuronType->outputs[i]->destination == pop2->projections[k])
destination_deleted = true;
for (int k = 0; k < pop2->reverseProjections.size(); ++k)
if (this->pop->neuronType->outputs[i]->destination == pop2->reverseProjections[k])
destination_deleted = true;
}
}
if (!destination_deleted)
new delInput(data, this->pop->neuronType->outputs[i], this);
}
for (int i = 0; i < this->pop->projections.size(); ++i) {
new delProjection(data, this->pop->projections[i], this);
}
// only delete reverse projections if the source is not in the selList (otherwise we delete twice, which is a problem)
for (int i = 0; i < this->pop->reverseProjections.size(); ++i) {
bool source_deleted = false;
for (int j = 0; j < data->selList.size(); ++j) {
if (this->pop->reverseProjections[i]->source == data->selList[j])
source_deleted = true;
}
if (!source_deleted)
new delProjection(data, this->pop->reverseProjections[i], this);
}
// go into experiments and delete all referencing objects
for (int i = 0; i < this->data->experiments.size(); ++i) {
// for each experiment
experiment * currExpt = this->data->experiments[i];
// loop through inputs
for (int j = 0; j < currExpt->ins.size(); ++j) {
// if input references deleted pop the push a delete
exptInput * in = currExpt->ins[j];
if (in->target == this->pop->neuronType) {
new deleteInputUndo(data, currExpt, in, this);
}
}
// loop through outputs
for (int j = 0; j < currExpt->outs.size(); ++j) {
// if input references deleted pop the push a delete
exptOutput * out = currExpt->outs[j];
if (out->source == this->pop->neuronType) {
new deleteOutputUndo(data, currExpt, out, this);
}
}
// loop through chnaged properties
for (int j = 0; j < currExpt->changes.size(); ++j) {
// if input references deleted pop the push a delete
exptChangeProp * prop = currExpt->changes[j];
if (prop->component == this->pop->neuronType) {
new deleteChangePropUndo(data, currExpt, prop, this);
}
}
}
index = -1;
selIndex = -1;
isDeleted = true;
}
void delPopulation::undo()
{
pop->isDeleted = false;
// MUST HAVE A LOCAL COPY OR INCOMING UNDOS CAN CHANGE STATE BEFORE OUTGOING DESTRUCTOR CALLED
isDeleted = false;
if (index != -1) {
data->populations.insert(data->populations.begin()+index, pop);
}
if (selIndex != -1) {
data->selList.push_back(pop);
data->cursor.x = -100000;
data->cursor.y = -100000;
}
// do children by calling parent class function:
QUndoCommand::undo();
}
void delPopulation::redo()
{
// do children by calling parent class function:
QUndoCommand::redo();
// remove from system
for (int i = 0; i < data->populations.size(); ++i) {
if (pop == data->populations[i]) {
data->populations.erase(data->populations.begin()+i);
index = i;
}
}
// must be selected:
for (int i = 0; i < data->selList.size(); ++i) {
if (this->pop.data() == data->selList[i].data()) {
data->selList.erase(data->selList.begin()+i);
selIndex = i;
if (data->selList.size()==0) {
data->cursor.x = this->pop->currentLocation().x();
data->cursor.y = this->pop->currentLocation().y();
}
}
}
pop->isDeleted = true;
isDeleted = true;
}
// ######## MOVE POPULATION #################
movePopulation::movePopulation(nl_rootdata * data, QSharedPointer<population> pop, const QPointF& oldPos, const QPointF& newPos, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->pop = pop;
this->data = data;
this->setText("move population");
this->oldPos = oldPos;
this->newPos = newPos;
}
void movePopulation::undo()
{
pop->move (this->oldPos.x(), this->oldPos.y());
data->redrawViews();
// undo children by calling parent class function:
QUndoCommand::undo();
}
void movePopulation::redo()
{
// This zeroes the relative location, as newPos has been extracted
// from the population's targx, targy, which are absolute and
// not mouse positions.
pop->setLocationOffset(0, 0);
pop->move (this->newPos.x(), this->newPos.y());
data->redrawViews();
QUndoCommand::redo();
}
// ######## MOVE PROJECTION HANDLE #################
moveProjectionHandle::moveProjectionHandle(nl_rootdata * data, QSharedPointer<projection> proj, const QPointF& oldPos, const QPointF& newPos, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->proj = proj;
this->data = data;
this->setText("move handle");
this->oldPos = oldPos;
this->newPos = newPos;
}
void moveProjectionHandle::undo()
{
proj->moveSelectedControlPoint (this->oldPos.x(), this->oldPos.y());
data->redrawViews();
QUndoCommand::undo();
}
void moveProjectionHandle::redo()
{
proj->moveSelectedControlPoint (this->newPos.x(), this->newPos.y());
data->redrawViews();
QUndoCommand::redo();
}
// ######## ADD PROJECTION #################
addProjection::addProjection(nl_rootdata * data, QSharedPointer<projection> proj, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->proj = proj;
this->data = data;
this->setText("add projection " + this->proj->getName());
// spawn children
new addSynapse(data, this->proj, this);
selIndex = -1;
isDeleted = true;
}
void addProjection::undo()
{
proj->disconnect();
proj->isDeleted = true;
isDeleted = true;
// might be selected:
for (int i = 0; i < data->selList.size(); ++i) {
if (this->proj.data() == data->selList[i].data()) {
data->selList.erase(data->selList.begin()+i);
selIndex = i;
if (data->selList.size()==0) {
data->cursor.x = this->proj->currentLocation().x();
data->cursor.y = this->proj->currentLocation().y();
}
}
}
// do children by calling parent class function:
QUndoCommand::undo();
}
void addProjection::redo()
{
proj->connect(proj);
proj->isDeleted = false;
isDeleted = false;
if (selIndex != -1) {
data->selList.push_back(proj);
data->cursor.x = -100000;
data->cursor.y = -100000;
}
// do children by calling parent class function:
QUndoCommand::redo();
}
// ######## DELETE PROJECTION #################
delProjection::delProjection(nl_rootdata * data, QSharedPointer<projection> proj, QUndoCommand *parent) :
QUndoCommand(parent)
{
isChild = false;
if ((!(parent == 0)) && (parent->text() != "Delete selection")) isChild = true;
this->proj = proj;
this->data = data;
this->setText("delete projection " + this->proj->getName());
// spawn children
for (int i = 0; i < this->proj->synapses.size(); ++i) {
new delSynapse(data, this->proj, this->proj->synapses[i], this);
}
// go into experiments and delete all referencing objects
for (int i = 0; i < this->data->experiments.size(); ++i) {
// for each experiment
experiment * currExpt = this->data->experiments[i];
// loop through lesions
for (int j = 0; j < currExpt->lesions.size(); ++j) {
// if input references deleted pop the push a delete
exptLesion * lesion = currExpt->lesions[j];
if (lesion->proj == this->proj) {
new deleteLesionUndo(data, currExpt, lesion, this);
}
}
}
selIndex = -1;
isDeleted = true;
}
void delProjection::undo()
{
proj->connect(proj);
proj->isDeleted = false;
isDeleted = false;
if (selIndex != -1) {
data->selList.push_back(proj);
data->cursor.x = -100000;
data->cursor.y = -100000;
}
// do children by calling parent class function:
QUndoCommand::undo();
}
void delProjection::redo()
{
// do children by calling parent class function:
QUndoCommand::redo();
proj->disconnect();
proj->isDeleted = true;
isDeleted = true;
// might be selected:
for (int i = 0; i < data->selList.size(); ++i) {
if (this->proj == data->selList[i]) {
data->selList.erase(data->selList.begin()+i);
selIndex = i;
if (data->selList.size()==0) {
data->cursor.x = this->proj->currentLocation().x();
data->cursor.y = this->proj->currentLocation().y();
}
}
}
}
// ######## ADD SYNAPSE #################
addSynapse::addSynapse(nl_rootdata * data, QSharedPointer <projection> proj, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->syn.clear();
this->proj = proj;
this->data = data;
this->setText("add synapse to " + proj->getName());
this->syn = QSharedPointer<synapse>(new synapse(proj, data, true));
this->syn->connectionType->setSynapseIndex (proj->synapses.size());
this->syn->connectionType->setParent (proj); // proj as a QSharedPointer<systemObject>
proj->synapses.push_back (this->syn);
// spawn children for projInputs
new addInput(data, proj->source->neuronType, this->syn->weightUpdateCmpt, this);
new addInput(data, this->syn->weightUpdateCmpt, this->syn->postSynapseCmpt, this);
new addInput(data, this->syn->postSynapseCmpt, proj->destination->neuronType, this);
this->isDeleted = false;
}
void addSynapse::undo()
{
// delete Synapse
isDeleted = true;
syn->isDeleted = true;
QUndoCommand::undo();
data->reDrawAll();
}
void addSynapse::redo()
{
// create new Synapse on projection
isDeleted = false;
syn->isDeleted = false;
QUndoCommand::redo();
data->reDrawAll();
}
// ######## DELETE SYNAPSE #################
delSynapse::delSynapse(nl_rootdata * data, QSharedPointer <projection> proj, QSharedPointer <synapse> syn, QUndoCommand *parent) :
QUndoCommand(parent)
{
isChild = false;
if (!(parent == 0)) isChild = true;
this->syn = syn;
this->data = data;
this->proj = proj;
this->setText("delete synapse from " + this->proj->getName());
isUndone = false;
// spawn children
for (int i = 0; i < this->syn->postSynapseCmpt->inputs.size(); ++i) {
new delInput(data, this->syn->postSynapseCmpt->inputs[i], this);
}
for (int i = 0; i < this->syn->postSynapseCmpt->outputs.size(); ++i) {
// ok, find out if the input for this output is deleted
bool destination_deleted = false;
for (int j = 0; j < data->selList.size(); ++j) {
if (this->syn->postSynapseCmpt->outputs[i]->destination == data->selList[j])
destination_deleted = true;
if (data->selList[j]->type == populationObject) {
QSharedPointer <population> pop = qSharedPointerDynamicCast <population> (data->selList[j]);
for (int k = 0; k < pop->projections.size(); ++k)
if (this->syn->postSynapseCmpt->outputs[i]->destination == pop->projections[k])
destination_deleted = true;
for (int k = 0; k < pop->reverseProjections.size(); ++k)
if (this->syn->postSynapseCmpt->outputs[i]->destination == pop->reverseProjections[k])
destination_deleted = true;
}
}
if (!destination_deleted)
new delInput(data, this->syn->postSynapseCmpt->outputs[i], this);
}
for (int i = 0; i < this->syn->weightUpdateCmpt->inputs.size(); ++i) {
new delInput(data, this->syn->weightUpdateCmpt->inputs[i], this);
}
for (int i = 0; i < this->syn->weightUpdateCmpt->outputs.size(); ++i) {
// ok, find out if the input for this output is deleted
bool destination_deleted = false;
for (int j = 0; j < data->selList.size(); ++j) {
if (this->syn->weightUpdateCmpt->outputs[i]->destination == data->selList[j])
destination_deleted = true;
if (data->selList[j]->type == populationObject) {
QSharedPointer <population> pop = qSharedPointerDynamicCast <population> (data->selList[j]);
for (int k = 0; k < pop->projections.size(); ++k)
if (this->syn->weightUpdateCmpt->outputs[i]->destination == pop->projections[k])
destination_deleted = true;
for (int k = 0; k < pop->reverseProjections.size(); ++k)
if (this->syn->weightUpdateCmpt->outputs[i]->destination == pop->reverseProjections[k])
destination_deleted = true;
}
}
if (!destination_deleted) {
new delInput(data, this->syn->weightUpdateCmpt->outputs[i], this);
}
}
// go into experiments and delete all referencing objects
for (int i = 0; i < this->data->experiments.size(); ++i) {
// for each experiment
experiment * currExpt = this->data->experiments[i];
// loop through inputs
for (int j = 0; j < currExpt->ins.size(); ++j) {
// if input references deleted pop the push a delete
exptInput * in = currExpt->ins[j];
if (in->target == this->syn->weightUpdateCmpt || in->target == this->syn->postSynapseCmpt) {
new deleteInputUndo(data, currExpt, in, this);
}
}
// loop through outputs
for (int j = 0; j < currExpt->outs.size(); ++j) {
// if input references deleted pop the push a delete
exptOutput * out = currExpt->outs[j];
if (out->source == this->syn->weightUpdateCmpt || out->source == this->syn->postSynapseCmpt) {
new deleteOutputUndo(data, currExpt, out, this);
}
}
// loop through changed properties
for (int j = 0; j < currExpt->changes.size(); ++j) {
// if input references deleted pop the push a delete
exptChangeProp * prop = currExpt->changes[j];
if (prop->component == this->syn->weightUpdateCmpt || prop->component == this->syn->postSynapseCmpt) {
new deleteChangePropUndo(data, currExpt, prop, this);
}
}
}
projPos = -1;
}
void delSynapse::undo()
{
// add to on projection
if (projPos != -1)
proj->synapses.insert(proj->synapses.begin()+projPos, syn);
isUndone = true;
// do children by calling parent class function:
QUndoCommand::undo();
data->reDrawAll();
}
void delSynapse::redo()
{
// do children by calling parent class function:
QUndoCommand::redo();
// remove from projection
for (int i = 0; i < proj->synapses.size(); ++i) {
if (proj->synapses[i] == syn) {
proj->synapses.erase(proj->synapses.begin()+i);
projPos = i;
}
}
isUndone = false;
data->reDrawAll();
}
// ######## ADD GENERIC INPUT #################
addInput::addInput(nl_rootdata * d, QSharedPointer <ComponentInstance> source, QSharedPointer <ComponentInstance> dest, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->data = d;
this->src = source;
this->dst = dest;
this->setText("add Input from " + this->src->getXMLName() + " to " + this->dst->getXMLName());
this->input = QSharedPointer<genericInput> (new genericInput(this->src, this->dst, !(parent==0)));
this->input->conn->setParent (this->input);
this->input->connect (this->input);
this->input->disconnect();
}
void addInput::undo()
{
// delete input (must disconnect it first!)
this->input->disconnect();
this->isDeleted = true;
}
void addInput::redo()
{
// create new Synapse on projection
this->input->connect(input);
this->isDeleted = false;
}
// ######## DELETE GENERIC INPUT #################
delInput::delInput(nl_rootdata * d, QSharedPointer<genericInput> i, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->isChild = false;
if (!(parent == 0) && (parent->text() != "Delete selection")) {
this->isChild = true;
}
this->input = i;
this->data = d;
this->setText("delete Input from " + this->input->srcCmpt->getXMLName() + " to " + this->input->dstCmpt->getXMLName());
this->input->isDeleted = true;
this->isDeleted = true;
this->selIndex = -1;
// sanity
if (this->input->source == NULL || this->input->destination == NULL) {
qDebug() << "ERROR - input without source or destination set";
}
}
void delInput::undo()
{
// disconnect ties for input
input->connect(input);
input->isDeleted = false;
isDeleted = false;
if (selIndex != -1) {
data->selList.push_back(input);
data->cursor.x = -100000;
data->cursor.y = -100000;
}
}
void delInput::redo()
{
// reconnect ties for input
input->disconnect();
// might be selected:
for (int i = 0; i < data->selList.size(); ++i) {
if (this->input == data->selList[i]) {
data->selList.erase(data->selList.begin()+i);
selIndex = i;
if (data->selList.size()==0) {
data->cursor.x = this->input->currentLocation().x();
data->cursor.y = this->input->currentLocation().y();
}
}
}
input->isDeleted = true;
isDeleted = true;
}
// ######## CHANGE CONNECTION #################
changeConnection:: changeConnection(nl_rootdata * data, QSharedPointer<systemObject> pNewConn, int index, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->index = index;
this->newConn = pNewConn;
this->data = data;
this->setText("change connection type on " + this->newConn->getName());
// if we use an index only and the scripts change before an undo / redo we are in trouble, so if we have
// a script we must get the script name right now (NOTE: this could still be an issue if we rename scripts)
if (index >= Python) {
QSettings settings;
// get python scripts
settings.beginGroup("pythonscripts");
QStringList scripts = settings.childKeys();
// get the script associated with that index
int scriptIndex = index - (int) Python;
this->scriptName = scripts.at(scriptIndex);
index = none;
settings.endGroup();
settings.beginGroup ("connParams");
QStringList params = settings.childKeys();
if (!params.isEmpty()) {
foreach (QString param, params) {
// So write into a map in the updateConnection class.
this->mparams[param] = settings.value(param, "").toString();
}
}
settings.endGroup();
}
}
void changeConnection::undo()
{
if (newConn->type == inputObject) {
// Switching back from newConn to oldConn.
delete (qSharedPointerDynamicCast <genericInput> (newConn))->conn;
(qSharedPointerDynamicCast <genericInput> (newConn))->conn = oldConn;
}
if (newConn->type == synapseObject) {
delete (qSharedPointerDynamicCast <synapse> (newConn))->connectionType;
(qSharedPointerDynamicCast <synapse> (newConn))->connectionType = oldConn;
}
isUndone = true;
data->reDrawAll();
}
void changeConnection::redo()
{
// newConn is a QSharedPointer<systemObject>; it's the newConn
if (newConn->type == inputObject) {
QSharedPointer<genericInput> newConnIn = qSharedPointerDynamicCast <genericInput> (newConn);
// This ensures that oldConn points to the previous connection instance.
oldConn = newConnIn->conn; // connection* oldConn
// Now, for changed connections one creates a new connection
// object. This class was designed initially to handle just
// the case where the connection type was changed using the
// "Connectivity:" menu. However, there is an additional case
// where this code is used - where an explicit connection is
// swapped from a global delay to per-connection delays. In
// this case rather than creating a new csv_connection, we
// want to copy the existing csv_connection with all its
// features into oldConn.
switch(index) {
case AlltoAll:
newConnIn->conn = new alltoAll_connection;
newConnIn->conn->setSynapseIndex (oldConn->getSynapseIndex());
newConnIn->conn->setParent (oldConn->parent);
break;
case OnetoOne:
newConnIn->conn = new onetoOne_connection;
newConnIn->conn->setParent(newConnIn);
newConnIn->conn->setSynapseIndex (oldConn->getSynapseIndex());
newConnIn->conn->setParent (oldConn->parent);
break;
case FixedProb:
newConnIn->conn = new fixedProb_connection;
newConnIn->conn->setSynapseIndex (oldConn->getSynapseIndex());
newConnIn->conn->setParent (oldConn->parent);
break;
case CSV:
{
if (oldConn->type == CSV) {
// Then this is a csv_connection to csv_connection
// change, so transfer information from old to new.
csv_connection* oldcsv = static_cast<csv_connection*>(oldConn);
newConnIn->conn = oldcsv->newFromExisting(); // allocates csv_connection and copies most data.
csv_connection* newcsv = static_cast<csv_connection*>(newConnIn->conn);
// For some reason newFromExisting doesn't copy data values. dunno why.
newcsv->copyDataValues(oldcsv);
} else {
// Switching from another connection type (e.g. alltoall)
newConnIn->conn = new csv_connection;
}
newConnIn->conn->setSynapseIndex (oldConn->getSynapseIndex());
newConnIn->conn->setParent (oldConn->parent);
break;
}
case Python:
break;
case CSA:
break;
case none:
break;
}
// if we are using a script...
if (!scriptName.isEmpty()) {
QSettings settings;
// get python scripts
settings.beginGroup("pythonscripts");
QStringList scripts = settings.childKeys();
// get the script associated with that index
QString script = settings.value(scriptName, "").toString();
newConnIn->conn = new csv_connection;
newConnIn->conn->setSynapseIndex (oldConn->getSynapseIndex());
newConnIn->conn->setParent (oldConn->parent);
((csv_connection *)newConnIn->conn)->generator = new pythonscript_connection(qSharedPointerDynamicCast <population> (newConnIn->source), qSharedPointerDynamicCast <population> (newConnIn->destination), (csv_connection *) newConnIn->conn);
// setup the generator:
((pythonscript_connection *) ((csv_connection *) newConnIn->conn)->generator)->scriptText = script;
((pythonscript_connection *) ((csv_connection *) newConnIn->conn)->generator)->scriptName = scriptName;
((pythonscript_connection *) ((csv_connection *) newConnIn->conn)->generator)->configureFromScript(script);
settings.endGroup();
}
} else if (newConn->type == synapseObject) {
QSharedPointer<synapse> newConnSyn = qSharedPointerDynamicCast <synapse> (newConn);
oldConn = newConnSyn->connectionType;
switch(index) {
case AlltoAll:
newConnSyn->connectionType = new alltoAll_connection;
newConnSyn->connectionType->setSynapseIndex (oldConn->getSynapseIndex());
newConnSyn->connectionType->setParent (oldConn->parent);
break;
case OnetoOne:
newConnSyn->connectionType = new onetoOne_connection;
newConnSyn->connectionType->setParent(newConnSyn);
newConnSyn->connectionType->setSynapseIndex (oldConn->getSynapseIndex());
newConnSyn->connectionType->setParent (oldConn->parent);
break;
case FixedProb:
newConnSyn->connectionType = new fixedProb_connection;
newConnSyn->connectionType->setSynapseIndex (oldConn->getSynapseIndex());
newConnSyn->connectionType->setParent (oldConn->parent);
break;
case CSV:
if (oldConn->type == CSV) {
// Then this is a csv_connection to csv_connection
// change, so transfer information from old to new.
csv_connection* oldcsv = static_cast<csv_connection*>(oldConn);
newConnSyn->connectionType = oldcsv->newFromExisting(); // allocates csv_connection and copies most data.
csv_connection* newcsv = static_cast<csv_connection*>(newConnSyn->connectionType);
// For some reason newFromExisting doesn't copy data values. dunno why.
newcsv->copyDataValues(oldcsv);
} else {
// Switching from another connection type (e.g. alltoall)
newConnSyn->connectionType = new csv_connection;
}
newConnSyn->connectionType->setSynapseIndex (oldConn->getSynapseIndex());
newConnSyn->connectionType->setParent (oldConn->parent);
break;
case Python:
newConnSyn->connectionType = new csv_connection;
newConnSyn->connectionType->setParent (oldConn->parent);
((csv_connection *)newConnSyn->connectionType)->generator = new pythonscript_connection(qSharedPointerDynamicCast<population> (newConnSyn->proj->source), qSharedPointerDynamicCast<population> (newConnSyn->proj->destination), (csv_connection *)newConnSyn->connectionType);
break;
case CSA:
break;
case none:
break;
}
// if we are using a script...
if (!scriptName.isEmpty()) {
QSettings settings;
// get python scripts
settings.beginGroup("pythonscripts");
QStringList scripts = settings.childKeys();
// get the script associated with that index
QString script = settings.value(scriptName, "").toString();
newConnSyn->connectionType = new csv_connection;
newConnSyn->connectionType->setSynapseIndex (oldConn->getSynapseIndex());
newConnSyn->connectionType->setParent (oldConn->parent);
((csv_connection *)newConnSyn->connectionType)->generator = new pythonscript_connection(qSharedPointerDynamicCast<population> (newConnSyn->proj->source), qSharedPointerDynamicCast<population> (newConnSyn->proj->destination), (csv_connection *)newConnSyn->connectionType);
// setup the generator:
pythonscript_connection* pygen = (pythonscript_connection *) ((csv_connection *) newConnSyn->connectionType)->generator;
pygen->scriptText = script;
pygen->scriptName = scriptName;
// Need the version of configureFromScript which takes mparams as an arg here:
pygen->configureFromScript(script, this->mparams);
settings.endGroup(); // pythonscripts
}
} else {
DBG() << "Unexpected object pointed to by newConn.";
}
isUndone = false;
data->reDrawAll();
}
// ######## Update a CSV connections delay to be either global or per-connection #################
globalConnectionDelayChange:: globalConnectionDelayChange(nl_rootdata * d, QSharedPointer<systemObject> pExistingConn, bool gDelay, QUndoCommand *parent) :
QUndoCommand(parent)
{
this->connParent = pExistingConn;
this->data = d;
this->globalDelay = gDelay;
this->setText("change csv_connection global delay on " + this->connParent->getName());
}
void globalConnectionDelayChange::undo()
{
if (this->connParent->type == inputObject) {
// Switching back from connParent to oldConn.
delete (qSharedPointerDynamicCast <genericInput> (this->connParent))->conn;
(qSharedPointerDynamicCast <genericInput> (this->connParent))->conn = oldConn;
}
if (this->connParent->type == synapseObject) {
delete (qSharedPointerDynamicCast <synapse> (this->connParent))->connectionType;
(qSharedPointerDynamicCast <synapse> (this->connParent))->connectionType = oldConn;
}
this->isUndone = true;
this->data->reDrawAll();
}
void globalConnectionDelayChange::redo()
{
// connParent is a QSharedPointer<systemObject>; it's the connParent
if (this->connParent->type == inputObject) {
QSharedPointer<genericInput> connParentIn = qSharedPointerDynamicCast <genericInput> (this->connParent);
// This ensures that oldConn points to the previous connection instance.
this->oldConn = connParentIn->conn; // connection* oldConn
// Now, for changed connections one creates a new connection
// object. This class was designed initially to handle just
// the case where the connection type was changed using the
// "Connectivity:" menu. However, there is an additional case
// where this code is used - where an explicit connection is
// swapped from a global delay to per-connection delays. In
// this case rather than creating a new csv_connection, we
// want to copy the existing csv_connection with all its
// features into oldConn.
if (oldConn->type != CSV) {
DBG() << "Error, both connections expected to be csv_connections";
}
// This is a csv_connection to csv_connection
// change, so transfer information from old to new.
csv_connection* oldcsv = static_cast<csv_connection*>(this->oldConn);
connParentIn->conn = oldcsv->newFromExisting(); // allocates csv_connection and copies most data.
csv_connection* newcsv = static_cast<csv_connection*>(connParentIn->conn);
newcsv->copyDataValues(oldcsv); // This is not handled in newFromExisting.
// Now make the actual change to the new connection
if (this->globalDelay) {
newcsv->updateDataForNumCols(2);
} else {
newcsv->updateDataForNumCols(3);
}
connParentIn->conn->setSynapseIndex (this->oldConn->getSynapseIndex());
connParentIn->conn->setParent (this->oldConn->parent);
} else if (this->connParent->type == synapseObject) {
QSharedPointer<synapse> connParentSyn = qSharedPointerDynamicCast <synapse> (this->connParent);
this->oldConn = connParentSyn->connectionType;
// Then this is a csv_connection to csv_connection
// change, so transfer information from old to new.
csv_connection* oldcsv = static_cast<csv_connection*>(this->oldConn);
connParentSyn->connectionType = oldcsv->newFromExisting(); // allocates csv_connection and copies most data.
csv_connection* newcsv = static_cast<csv_connection*>(connParentSyn->connectionType);
newcsv->copyDataValues(oldcsv);
if (this->globalDelay) {
newcsv->updateDataForNumCols(2);
} else {
newcsv->updateDataForNumCols(3);
}
connParentSyn->connectionType->setSynapseIndex (this->oldConn->getSynapseIndex());
connParentSyn->connectionType->setParent (this->oldConn->parent);
} else {
DBG() << "Unexpected object pointed to by connParent.";
}