/// <summary>
/// return TRUE if the positioning was accomplished but with collision
/// </summary>
/// <param name="arc"></param>
/// <param name="x"></param>
/// <param name="y"></param>
/// <returns></returns>
private bool positionSourceOverDest(Ark arc, ref int x, ref int y)
{
throw new Exception("Not Yet Implemented");
}
protected override bool addIOArk(List<Parameter> io, int index, Ark a)
{
List<DXType> newTypesList = null;
if (IsInput)
{
int i;
Node dest = a.getDestinationNode(out i);
Parameter pin = dest.getInputParameter(i);
ParameterDefinition pind = pin.Definition;
ParameterDefinition macroPd = getParameterDefinition();
List<DXType> outTypes = macroPd.getTypes();
newTypesList = DXType.IntersectTypeLists(outTypes, pind.getTypes());
foreach (DXType t in outTypes.ToArray())
{
macroPd.removeType(t);
}
Parameter pout = getOutputParameter(1);
ParameterDefinition nodePd = pout.Definition;
outTypes = nodePd.getTypes();
foreach (DXType t in outTypes.ToArray())
{
nodePd.removeType(t);
}
foreach (DXType t in newTypesList.ToArray())
{
DXType newt = t.duplicate();
nodePd.addType(newt);
macroPd.addType(t);
}
setTypeSafeOptions(a);
}
else
{
int i;
Node dest = a.getSourceNode(out i);
Parameter pin = dest.getOutputParameter(i);
ParameterDefinition pind = pin.Definition;
ParameterDefinition macroPd = getParameterDefinition();
List<DXType> outTypes = macroPd.getTypes();
newTypesList = DXType.IntersectTypeLists(outTypes, pind.getTypes());
foreach (DXType t in outTypes.ToArray())
{
macroPd.removeType(t);
}
Parameter pout = getInputParameter(1);
ParameterDefinition nodePd = pout.Definition;
outTypes = nodePd.getTypes();
foreach (DXType t in outTypes.ToArray())
{
nodePd.removeType(t);
}
foreach (DXType t in newTypesList.ToArray())
{
DXType newt = t.duplicate();
nodePd.addType(newt);
macroPd.addType(t);
}
}
if (getConfigurationDialog() != null)
{
getConfigurationDialog().changeInput(1);
getConfigurationDialog().changeOutput(1);
}
return base.addIOArk(io, index, a);
}
/// <summary>
/// return TRUE if the positioning was accomplished but with collision
/// </summary>
/// <param name="arc"></param>
/// <param name="x"></param>
/// <param name="y"></param>
/// <returns></returns>
private bool positionDestUnderSource(Ark arc, ref int x, ref int y)
{
throw new Exception("Not Yet Implemented");
}
/// <summary>
/// return TRUE if the positioning was accomplished but with collision
/// </summary>
/// <param name="arc"></param>
/// <param name="x"></param>
/// <returns></returns>
private bool positionSource(Ark arc, int x)
{
throw new Exception("Not Yet Implemented");
}
public bool removeArk(Ark a)
{
return arcs.Remove(a);
}
/// <summary>
/// return TRUE if the positioning was accomplished but with collision
/// </summary>
/// <param name="arc"></param>
/// <param name="x"></param>
/// <param name="y"></param>
/// <param name="prefer_left"></param>
/// <param name="ususableNodes"></param>
/// <returns></returns>
private bool positionDestBesideSibling(Ark arc, ref int x, ref int y, bool prefer_left, List<Node> ususableNodes)
{
throw new Exception("Not Yet Implemented");
}
public virtual bool deleteArk(Ark a)
{
throw new Exception("Not Yet Implemented");
}
public void addArk(EditorWindow editor, Ark a)
{
throw new Exception("Not Yet Implemented");
}
protected virtual bool removeIOArk(List<Parameter> io, int index, Ark a)
{
throw new Exception("Not Yet Implemented");
}
protected bool removeOutputArk(int index, Ark a)
{
return removeIOArk(outputParameters, index, a);
}
public bool addOutputArk(Ark a, int index)
{
return addIOArk(outputParameters, index, a);
}
/// <summary>
/// Add an Ark to the index'th parameter of parameter list 'io'.
/// </summary>
/// <param name="io"></param>
/// <param name="index"></param>
/// <param name="a"></param>
/// <returns></returns>
protected virtual bool addIOArk(List<Parameter> io, int index, Ark a)
{
Parameter p;
Debug.Assert(index >= 1);
p = io[index - 1];
Debug.Assert(p != null);
if (!p.addArk(a))
return false;
notifyIoParameterStatusChanged(io == inputParameters, index,
NodeParameterStatusChange.ParameterArkAdded);
return true;
}
public virtual void updateDefinition()
{
int numInputs = InputCount;
bool[] defaulting = new bool[numInputs];
bool[] visibilities = new bool[numInputs];
String[] values = new String[numInputs];
List<ArkInfo>[] inputArks = new List<ArkInfo>[numInputs];
for (int i = 1; i <= numInputs; i++)
{
inputArks[i - 1] = null;
values[i - 1] = null;
defaulting[i - 1] = false;
visibilities[i - 1] = isInputVisible(i);
if (isInputConnected(i))
{
List<Ark> arcs = getInputArks(i);
inputArks[i - 1] = new List<ArkInfo>();
foreach (Ark a in arcs)
{
ArkInfo ai = new ArkInfo();
ai.src = a.getSourceNode(out ai.srcIndex);
ai.dst = a.getDestinationNode(out ai.dstIndex);
inputArks[i - 1].Add(ai);
}
}
else if (!(defaulting[i - 1] = isInputDefaulting(i)))
values[i - 1] = getInputValueString(i);
}
inputParameters.Clear();
int numOutputs = OutputCount;
List<ArkInfo>[] outputArks = new List<ArkInfo>[numOutputs];
for (int i = 1; i <= numOutputs; i++)
{
outputArks[i - 1] = null;
if (isOutputConnected(i))
{
List<Ark> arcs = getOutputArks(i);
outputArks[i - 1] = new List<ArkInfo>();
foreach (Ark a in arcs)
{
ArkInfo ai = new ArkInfo();
ai.src = a.getSourceNode(out ai.srcIndex);
ai.dst = a.getDestinationNode(out ai.dstIndex);
outputArks[i - 1].Add(ai);
}
}
}
outputParameters.Clear();
buildParameterLists();
for (int i = 1; i <= numInputs && i <= InputCount; i++)
{
setInputVisibility(i, visibilities[i - 1]);
if (inputArks[i - 1] != null)
{
foreach (ArkInfo ai in inputArks[i - 1])
{
if (ai.src.typeMatchOutputToInput(ai.srcIndex, ai.dst, ai.dstIndex))
{
Ark newArk = new Ark(ai.src, ai.srcIndex, ai.dst, ai.dstIndex);
if (ai.src.getNetwork().getEditor() != null &&
ai.src.getStandIn() != null)
ai.src.getStandIn().addArk(ai.src.getNetwork().getEditor(),
newArk);
}
}
inputArks[i - 1] = null;
}
else if (defaulting[i - 1])
useDefaultInputValue(i);
else
setInputValue(i, values[i - 1]);
}
// must increase j by the number of repeats added in buildParameterLists()
int repeats = InputCount - definition.InputCount;
int mini = Math.Min(numInputs, InputCount);
int j = numInputs + repeats;
for (; j >= mini; j--)
{
if (cdb != null)
cdb.deleteInput(j);
if (standin != null)
standin.removeLastInput();
}
for (; mini <= InputCount; mini++)
{
if (cdb != null)
cdb.newInput(mini);
if (standin != null)
standin.addInput(mini);
}
for (int i = 1; i <= numOutputs && i <= OutputCount; i++)
{
if (outputArks[i - 1] != null)
{
foreach (ArkInfo ai in outputArks[i - 1])
{
if (ai.src.typeMatchOutputToInput(ai.srcIndex,
ai.dst, ai.dstIndex))
{
Ark newArk = new Ark(ai.src, ai.srcIndex,
ai.dst, ai.dstIndex);
if (ai.src.getNetwork().getEditor() != null &&
ai.src.getStandIn() != null)
{
ai.src.getStandIn().addArk(ai.src.getNetwork().getEditor(),
newArk);
}
}
outputArks[i - 1] = null;
}
}
notifyIoParameterStatusChanged(false, i, NodeParameterStatusChange.ParameterValueChanged);
}
j = numOutputs;
mini = Math.Min(numOutputs, OutputCount);
for (; j >= mini; j--)
{
if (cdb != null)
cdb.deleteOutput(j);
if (standin != null)
standin.removeLastOutput();
}
for (; mini <= OutputCount; mini++)
{
if (cdb != null)
cdb.newOutput(mini);
if (standin != null)
standin.addOutput(mini);
}
EditorWindow e = getNetwork().getEditor();
if (e != null) e.notifyDefinitionChange(this);
}
protected override bool removeIOArk(List<Parameter> io, int index, Ark a)
{
throw new Exception("Not Yet Implemented");
return base.removeIOArk(io, index, a);
}
public bool addArk(Ark a)
{
arcs.Add(a);
// If this is the first arc and this is an output parameter,
// be sure it gets sent on the next execution (assuming someone
// asks this parameter if it needs to be sent).
if (arcs.Count == 1 && !IsInput)
setDirty();
return true;
}
/// <summary>
/// Based on the node's connectivity, select values for OPTIONS
/// automatically. The strategy is
/// - Try to keep the OPTIONS the node already has.
/// - look for OPTIONS in the next connected downstream node(s)
/// - for each value in OPTIONS, see if the value can be coerced
/// to our current type(s)
/// - Prefer to use OPTIONS from the node at the other end of
/// prefer because it's probably the node were adding via ::addIOArk().
///
/// At this point in the code, our new list of types has already been
/// computed based on our new connectivity.
/// </summary>
/// <param name="pref"></param>
private void setTypeSafeOptions(Ark pref)
{
// This method is nonsense in the case of an Output tool.
Debug.Assert(IsInput);
// If we have OPTIONS && any item in OPTION is illegal input given
// our new type, then remove all the OPTIONS.
ParameterDefinition macroPd = getParameterDefinition();
String[] options = macroPd.getValueOptions();
List<DXType> types = macroPd.getTypes();
bool can_coerce = true;
if (options != null && options.Length > 0)
{
can_coerce = true;
for (int i = 0; i < options.Length && can_coerce; i++)
{
can_coerce = can_coerce && canCoerceValue(options[i], types);
}
if (!can_coerce)
{
macroPd.removeValueOptions();
options = null;
}
}
//If our current OPTIONS are safe to keep using...
if (options != null && options.Length > 0)
return;
// If the parameter has no option values, then check each downstream
// input tab. If any has option values, then try to use those but
// only if each of the option values is legal given our new type.
Node destination;
NodeDefinition destinationDef;
ParameterDefinition destinationParamDef;
int paramIndex;
// First check the new ark to see if it gave give us
// option values. option strings are stored as a null-terminated
// array of char*.
String[] dest_option_values = null;
can_coerce = true;
if (pref != null)
{
destination = pref.getDestinationNode(out paramIndex);
destinationDef = destination.Definition;
destinationParamDef = destinationDef.getInputDefinition(paramIndex);
dest_option_values = destinationParamDef.getValueOptions();
if (dest_option_values != null && dest_option_values.Length > 0)
{
for (int i = 0; i < dest_option_values.Length && can_coerce; i++)
{
can_coerce = can_coerce && canCoerceValue(dest_option_values[i], types);
}
}
}
if (can_coerce && dest_option_values != null && dest_option_values.Length > 0)
{
for (int i = 0; i < dest_option_values.Length; i++)
{
if (!macroPd.addValueOption(dest_option_values[i]))
{
ErrorDialog ed = new ErrorDialog();
ed.post("Cannot add {0} to Options values", dest_option_values[i]);
break;
}
}
}
else
{
// get all the destination nodes When we're called as via ::addIOArk(),
// the new connection has not yet been added to our list
// of downstream nodes.
List<Ark> arks = getOutputArks(1);
foreach (Ark ark in arks)
{
destination = ark.getDestinationNode(out paramIndex);
destinationDef = destination.Definition;
destinationParamDef = destinationDef.getInputDefinition(paramIndex);
// for each option value see, see if it can be coerced.
dest_option_values = destinationParamDef.getValueOptions();
if (dest_option_values == null || dest_option_values.Length == 0) continue;
can_coerce = true;
for (int i = 0; i < dest_option_values.Length && can_coerce; i++)
{
can_coerce = can_coerce && canCoerceValue(dest_option_values[i], types);
}
if (can_coerce)
{
for (int i = 0; i < dest_option_values.Length; i++)
{
if (!macroPd.addValueOption(dest_option_values[i]))
{
ErrorDialog ed = new ErrorDialog();
ed.post("Cannot add {0} to Options values",
dest_option_values[i]);
break;
}
}
break;
}
}
}
}
public void deleteArk(Ark a)
{
throw new Exception("Not Yet Implemented");
}
