public AutoSave(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { layoutEngine.Finished(); }; }
public IncrementControllerVariables(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { model.parameters.ControllerMode = layoutEngine.GetMode(); }; }
public DragPoints(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { //if the mouse was pressed and there were no couples being dragged, //drag the one under the mouse point. if (model.io.mousePressed) { double x = model.io.mouseX; // -model.parameters.hOffset; double y = model.io.mouseY; // -model.parameters.vOffset; PointWithVelocity pointUnderCursor = GetPointUnderCursor(model, x, y); if (model.Selected.Count < 2) { if (pointUnderCursor != null) { model.pointsBeingDragged.Add(pointUnderCursor); } } else { bool found = false; foreach (PedigreeIndividual pi in model.Selected) { model.pointsBeingDragged.Add(pi.point); if (pi.point == pointUnderCursor) { found = true; } } if (found == false) { model.pointsBeingDragged.Clear(); } } } if (model.io.mouseReleased) { model.pointsBeingDragged.Clear(); } foreach (PointWithVelocity point in model.pointsBeingDragged) { point.x += ((model.io.mouseX - model.io.pMouseX) / model.parameters.scale); point.y += ((model.io.mouseY - model.io.pMouseY) / model.parameters.scale); } }; }
public DragPoints(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { //if the mouse was pressed and there were no couples being dragged, //drag the one under the mouse point. if (model.io.mousePressed) { double x = model.io.mouseX;// -model.parameters.hOffset; double y = model.io.mouseY;// -model.parameters.vOffset; PointWithVelocity pointUnderCursor = GetPointUnderCursor(model, x, y); if (model.Selected.Count < 2) { if (pointUnderCursor != null) model.pointsBeingDragged.Add(pointUnderCursor); } else { bool found = false; foreach (PedigreeIndividual pi in model.Selected) { model.pointsBeingDragged.Add(pi.point); if (pi.point == pointUnderCursor) { found = true; } } if (found == false) { model.pointsBeingDragged.Clear(); } } } if (model.io.mouseReleased) { model.pointsBeingDragged.Clear(); } foreach (PointWithVelocity point in model.pointsBeingDragged) { point.x += ((model.io.mouseX - model.io.pMouseX) / model.parameters.scale); point.y += ((model.io.mouseY - model.io.pMouseY) / model.parameters.scale); } }; }
public SnapToGrid(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { if (model.io.mousePressed == false) { foreach (PedigreeIndividual pi in model.individuals) { if (model.pointsBeingDragged.Contains(pi.point) == false) { double deltaX = pi.point.x % model.parameters.gridWidth; if (deltaX > 0.0) { if (deltaX >= (model.parameters.gridWidth / 2.0)) { pi.point.x += (model.parameters.gridWidth - deltaX); } else { pi.point.x -= (deltaX); } } double deltaY = pi.point.y % model.parameters.gridHeight; if (deltaY > 0.0) { if (deltaY >= (model.parameters.gridHeight / 2.0)) { pi.point.y += (model.parameters.gridHeight - deltaY); } else { pi.point.y -= (deltaY); } } } } } }; }
public DetectForceConvergence(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { if (model.individuals.Count < 2) { layoutEngine.SetMode(PedigreeController.MANUAL); return; } if (model.io.mouseDown == false) { double delta = 0; //bool moving = false; foreach (PedigreeIndividual pi in model.individuals) { double meanX = 0; double meanY = 0; if (model.PositionHistoryX.ContainsKey(pi.HraPerson.relativeID)) { model.PositionHistoryX[pi.HraPerson.relativeID].Add(pi.point.x); if (model.PositionHistoryX[pi.HraPerson.relativeID].Count > model.parameters.PositionHistoryDepth) { model.PositionHistoryX[pi.HraPerson.relativeID].RemoveAt(0); } } else { List <double> past = new List <double>(); past.Add(pi.point.x); model.PositionHistoryX.Add(pi.HraPerson.relativeID, past); } foreach (double cur in model.PositionHistoryX[pi.HraPerson.relativeID]) { meanX += cur; } meanX = meanX / ((double)(model.PositionHistoryX[pi.HraPerson.relativeID].Count)); if (model.PositionHistoryY.ContainsKey(pi.HraPerson.relativeID)) { model.PositionHistoryY[pi.HraPerson.relativeID].Add(pi.point.y); if (model.PositionHistoryY[pi.HraPerson.relativeID].Count > model.parameters.PositionHistoryDepth) { model.PositionHistoryY[pi.HraPerson.relativeID].RemoveAt(0); } } else { List <double> past = new List <double>(); past.Add(pi.point.y); model.PositionHistoryY.Add(pi.HraPerson.relativeID, past); } foreach (double cur in model.PositionHistoryY[pi.HraPerson.relativeID]) { meanY += cur; } meanY = meanY / ((double)(model.PositionHistoryY[pi.HraPerson.relativeID].Count)); if (model.TargetPositions.ContainsKey(pi.HraPerson.relativeID)) { delta += Math.Abs((model.TargetPositions[pi.HraPerson.relativeID].x - meanX)); delta += Math.Abs((model.TargetPositions[pi.HraPerson.relativeID].y - meanY)); model.TargetPositions[pi.HraPerson.relativeID].x = meanX; model.TargetPositions[pi.HraPerson.relativeID].y = meanY; } else { PointWithVelocity pos = new PointWithVelocity(); pos.x = meanX; pos.y = meanY; model.TargetPositions.Add(pi.HraPerson.relativeID, pos); delta += Math.Abs(meanX); delta += Math.Abs(meanY); } } if (delta / model.individuals.Count < 0.05) { if (model.converged == false) { if (layoutEngine.ModelConvergedCallback != null) { layoutEngine.ModelConvergedCallback.Invoke(); } } model.converged = true; } else { model.converged = false; } } }; }
public StaticLayout(PedigreeModel model, PedigreeController layoutEngine) { transitionToStaticLayout = delegate() { if (model.cycles > 1000 || (model.cycles > 800 && model.couplesGraphIsPlanar && model.layoutIsValid == false))// && model.forcesHaveConverged) { //switch modes from self organizing to static if (layoutEngine.GetMode() == PedigreeController.SELF_ORGANIZING) { model.TargetPositions.Clear(); foreach (PedigreeIndividual pi in model.individuals) { PointWithVelocity pos = new PointWithVelocity(); pos.x = pi.point.x; pos.y = pi.point.y; model.TargetPositions.Add(pi.HraPerson.relativeID, pos); } layoutEngine.SetMode(PedigreeController.STATIC_LAYOUT); generations = new List <List <PedigreeIndividual> >(); //initialize the per-level ordering lists for each generation for (int generation = 0; generation <= model.maxGenerationalLevel + 1; generation++) { generations.Add(PedigreeUtils.GetIndividualsInGeneration(model, generation)); } readyToRunStaticLayout = true; } } }; step = delegate() { if (runOnce && readyToRunStaticLayout) { failedAttempts++; readyToRunStaticLayout = false; double spacing = model.parameters.verticalSpacing; double centerY = (model.displayYMin + model.displayYMax) / 2; double offset = centerY - (model.maxGenerationalLevel + 1) * spacing / 2; double initialX = 30; double initialY = centerY; //for each generation, bottom to top... for (int g = generations.Count - 1; g >= 0; g--) //for(int i = 0;i<generations.Count;i++) { List <PedigreeIndividual> generation = generations[g]; //compute the y positions foreach (PedigreeIndividual individual in generation) { individual.point.y = g * spacing + offset; } //for the bottom level, just position with even spaces if (g == generations.Count - 1) { double x = initialX; foreach (PedigreeIndividual individual in generation) { individual.point.x = x += model.parameters.horizontalSpacing; individual.wasMoved = true; } } //for all the other levels... else { //First compute locations of parents centered around their children //and place the parent couples exactly at those centers: //for each individual in the current generation... for (int j = 0; j < generation.Count; j++) { PedigreeIndividual individual = generation[j]; //if the current individual has a spouse... foreach (PedigreeCouple pc in individual.spouseCouples) { //so we compute the center of this couple's sibship, double sibshipCenterX = pc.GetSibshipCenterX(model); //and position the couple such that its center is the same as the sibship center if (pc.father.point.x < pc.mother.point.x) { pc.father.point.x = sibshipCenterX - model.parameters.horizontalSpacing / 2; pc.mother.point.x = sibshipCenterX + model.parameters.horizontalSpacing / 2; } else { pc.mother.point.x = sibshipCenterX - model.parameters.horizontalSpacing / 2; pc.father.point.x = sibshipCenterX + model.parameters.horizontalSpacing / 2; } pc.mother.wasMoved = pc.father.wasMoved = true; } } /**/ //Second, position the outer children: //find the leftmost individual that was placed for (int inc = 1; inc >= -1; inc -= 2) { for (int j = inc == 1 ? 0 : generation.Count - 1; inc == 1 ? j < generation.Count : j >= 0; j += inc) { if (generation[j].wasMoved) { for (int i = j - inc; inc == 1 ? i >= 0 : i < generation.Count; i -= inc) { generation[i].point.x = generation[i + inc].point.x - inc * model.parameters.horizontalSpacing; generation[i].wasMoved = true; } break; } } } //Third, detect "too close"ness and move individuals to be perfectly spaced, //propagating left to right and downward through children for (int j = 0; j < generation.Count - 1; j++) { PedigreeIndividual left = generation[j]; PedigreeIndividual right = generation[j + 1]; //if folks are too close... if (right.point.x - left.point.x < model.parameters.horizontalSpacing) { //move the individual on the right such that spacing is perfect, //based on the current position of the individual on the left double dx = left.point.x + model.parameters.horizontalSpacing - right.point.x; right.point.x += dx; right.wasMoved = true; for (int z = j + 2; z < generation.Count - 1; z++) { PedigreeIndividual farRight = generation[z]; farRight.point.x += dx; farRight.wasMoved = true; } //and through their children foreach (PedigreeCouple pc in left.spouseCouples) { PedigreeIndividual spouse; if (left.HraPerson.relativeID == pc.mother.HraPerson.relativeID) { spouse = pc.father; } else { spouse = pc.mother; } if (right.HraPerson.relativeID == spouse.HraPerson.relativeID) { //PedigreeCouple couple = GetCoupleFromLR(model, left, right); //if (couple != null) MoveChildren(dx, pc, model); } } } } } } for (int g = 0; g < generations.Count - 1; g++) { List <PedigreeIndividual> generation = generations[g]; //for (int j = 0; j < 1; j++) for (int j = generation.Count - 1; j >= 0; j--) { PedigreeIndividual left = generation[j]; if (left.HasSpouse()) { //PedigreeCouple couple = GetCoupleFromLR(model, left, right); foreach (PedigreeCouple pc in model.couples) { double parentsX = (pc.mother.point.x + pc.father.point.x) / 2; if (pc.mother == left || pc.father == left) { double kidsX = 0; foreach (PedigreeIndividual kid in pc.children) { kidsX += kid.point.x; } kidsX = kidsX / ((double)(pc.children.Count)); foreach (PedigreeIndividual kid in pc.children) { kid.point.x += (parentsX - kidsX); foreach (PedigreeCouple kidsPC in kid.spouseCouples) { PedigreeIndividual spouse; if (left.HraPerson.relativeID == pc.mother.HraPerson.relativeID) { spouse = pc.father; } else { spouse = pc.mother; } spouse.point.x += (parentsX - kidsX); spouse.wasMoved = true; } } } } } } } //after positioning everyone, center the pedigree on the screen: double minX = double.MaxValue; double maxX = -minX; foreach (PointWithVelocity point in model.points) { if (point.x < minX) { minX = point.x; } else if (point.x > maxX) { maxX = point.x; } } double centerX = (minX + maxX) / 2; double idealCenterX = (model.displayXMin + model.displayYMax) / 2; double off = idealCenterX - centerX; foreach (PointWithVelocity point in model.points) { point.x = point.x + off; } } //if (LayoutIsValid(model)) if (true) { //model.parameters.repelIndividualSetsStrength = 1; layoutEngine.SetMode(PedigreeController.MANUAL); } //else //{ //layoutEngine.SetMode(PedigreeController.SELF_ORGANIZING); //if (failedAttempts < 5) //{ //model.parameters.repelIndividualSetsStrength += 0.5; //} //else if (failedAttempts < 10) //{ // model.parameters.repelIndividualSetsStrength = 1; // foreach (PointWithVelocity p in model.points) // { // double newX = autoRand.NextDouble() * (model.displayXMax - 1); // double newY = autoRand.NextDouble() * (model.displayYMax - 1); // p.x = newX; // p.dx = 0; // p.y = newY; // p.dy = 0; // } //} //else //{ // layoutEngine.SetMode(PedigreeController.MANUAL); //} /**/ //} }; }
public StaticLayout(PedigreeModel model, PedigreeController layoutEngine) { transitionToStaticLayout = delegate() { if (model.cycles > 1000 || (model.cycles>800 && model.couplesGraphIsPlanar && model.layoutIsValid==false))// && model.forcesHaveConverged) { //switch modes from self organizing to static if (layoutEngine.GetMode() == PedigreeController.SELF_ORGANIZING) { model.TargetPositions.Clear(); foreach (PedigreeIndividual pi in model.individuals) { PointWithVelocity pos = new PointWithVelocity(); pos.x = pi.point.x; pos.y = pi.point.y; model.TargetPositions.Add(pi.HraPerson.relativeID, pos); } layoutEngine.SetMode(PedigreeController.STATIC_LAYOUT); generations = new List<List<PedigreeIndividual>>(); //initialize the per-level ordering lists for each generation for (int generation = 0; generation <= model.maxGenerationalLevel+1; generation++) generations.Add(PedigreeUtils.GetIndividualsInGeneration(model, generation)); readyToRunStaticLayout = true; } } }; step = delegate() { if (runOnce && readyToRunStaticLayout) { failedAttempts++; readyToRunStaticLayout = false; double spacing = model.parameters.verticalSpacing; double centerY = (model.displayYMin + model.displayYMax) / 2; double offset = centerY - (model.maxGenerationalLevel + 1) * spacing / 2; double initialX = 30; double initialY = centerY; //for each generation, bottom to top... for (int g = generations.Count - 1; g >= 0; g--) //for(int i = 0;i<generations.Count;i++) { List<PedigreeIndividual> generation = generations[g]; //compute the y positions foreach (PedigreeIndividual individual in generation) individual.point.y = g * spacing + offset; //for the bottom level, just position with even spaces if (g == generations.Count - 1) { double x = initialX; foreach (PedigreeIndividual individual in generation) { individual.point.x = x += model.parameters.horizontalSpacing; individual.wasMoved = true; } } //for all the other levels... else { //First compute locations of parents centered around their children //and place the parent couples exactly at those centers: //for each individual in the current generation... for (int j = 0; j < generation.Count; j++) { PedigreeIndividual individual = generation[j]; //if the current individual has a spouse... foreach (PedigreeCouple pc in individual.spouseCouples) { //so we compute the center of this couple's sibship, double sibshipCenterX = pc.GetSibshipCenterX(model); //and position the couple such that its center is the same as the sibship center if (pc.father.point.x < pc.mother.point.x) { pc.father.point.x = sibshipCenterX - model.parameters.horizontalSpacing / 2; pc.mother.point.x = sibshipCenterX + model.parameters.horizontalSpacing / 2; } else { pc.mother.point.x = sibshipCenterX - model.parameters.horizontalSpacing / 2; pc.father.point.x = sibshipCenterX + model.parameters.horizontalSpacing / 2; } pc.mother.wasMoved = pc.father.wasMoved = true; } } /**/ //Second, position the outer children: //find the leftmost individual that was placed for (int inc = 1; inc >= -1; inc -= 2) { for (int j = inc == 1 ? 0 : generation.Count - 1; inc == 1 ? j < generation.Count : j >= 0; j += inc) { if (generation[j].wasMoved) { for (int i = j - inc; inc == 1 ? i >= 0 : i < generation.Count; i -= inc) { generation[i].point.x = generation[i + inc].point.x - inc * model.parameters.horizontalSpacing; generation[i].wasMoved = true; } break; } } } //Third, detect "too close"ness and move individuals to be perfectly spaced, //propagating left to right and downward through children for (int j = 0; j < generation.Count - 1; j++) { PedigreeIndividual left = generation[j]; PedigreeIndividual right = generation[j + 1]; //if folks are too close... if (right.point.x - left.point.x < model.parameters.horizontalSpacing) { //move the individual on the right such that spacing is perfect, //based on the current position of the individual on the left double dx = left.point.x + model.parameters.horizontalSpacing - right.point.x; right.point.x += dx; right.wasMoved = true; for (int z = j + 2; z < generation.Count - 1; z++) { PedigreeIndividual farRight = generation[z]; farRight.point.x += dx; farRight.wasMoved = true; } //and through their children foreach (PedigreeCouple pc in left.spouseCouples) { PedigreeIndividual spouse; if (left.HraPerson.relativeID == pc.mother.HraPerson.relativeID) spouse = pc.father; else spouse = pc.mother; if (right.HraPerson.relativeID == spouse.HraPerson.relativeID) { //PedigreeCouple couple = GetCoupleFromLR(model, left, right); //if (couple != null) MoveChildren(dx, pc, model); } } } } } } for (int g = 0; g < generations.Count - 1; g++) { List<PedigreeIndividual> generation = generations[g]; //for (int j = 0; j < 1; j++) for (int j = generation.Count - 1; j >= 0; j--) { PedigreeIndividual left = generation[j]; if (left.HasSpouse()) { //PedigreeCouple couple = GetCoupleFromLR(model, left, right); foreach (PedigreeCouple pc in model.couples) { double parentsX = (pc.mother.point.x + pc.father.point.x) / 2; if (pc.mother == left || pc.father == left) { double kidsX = 0; foreach (PedigreeIndividual kid in pc.children) { kidsX += kid.point.x; } kidsX = kidsX / ((double)(pc.children.Count)); foreach (PedigreeIndividual kid in pc.children) { kid.point.x += (parentsX - kidsX); foreach (PedigreeCouple kidsPC in kid.spouseCouples) { PedigreeIndividual spouse; if (left.HraPerson.relativeID == pc.mother.HraPerson.relativeID) spouse = pc.father; else spouse = pc.mother; spouse.point.x += (parentsX - kidsX); spouse.wasMoved = true; } } } } } } } //after positioning everyone, center the pedigree on the screen: double minX = double.MaxValue; double maxX = -minX; foreach (PointWithVelocity point in model.points) if (point.x < minX) minX = point.x; else if (point.x > maxX) maxX = point.x; double centerX = (minX + maxX) / 2; double idealCenterX = (model.displayXMin + model.displayYMax) / 2; double off = idealCenterX - centerX; foreach (PointWithVelocity point in model.points) point.x = point.x + off; } //if (LayoutIsValid(model)) if (true) { //model.parameters.repelIndividualSetsStrength = 1; layoutEngine.SetMode(PedigreeController.MANUAL); } //else //{ //layoutEngine.SetMode(PedigreeController.SELF_ORGANIZING); //if (failedAttempts < 5) //{ //model.parameters.repelIndividualSetsStrength += 0.5; //} //else if (failedAttempts < 10) //{ // model.parameters.repelIndividualSetsStrength = 1; // foreach (PointWithVelocity p in model.points) // { // double newX = autoRand.NextDouble() * (model.displayXMax - 1); // double newY = autoRand.NextDouble() * (model.displayYMax - 1); // p.x = newX; // p.dx = 0; // p.y = newY; // p.dy = 0; // } //} //else //{ // layoutEngine.SetMode(PedigreeController.MANUAL); //} /**/ //} }; }
public DetectForceConvergence(PedigreeModel model, PedigreeController layoutEngine) { step = delegate() { if (model.individuals.Count < 2) { layoutEngine.SetMode(PedigreeController.MANUAL); return; } if (model.io.mouseDown == false) { double delta = 0; //bool moving = false; foreach (PedigreeIndividual pi in model.individuals) { double meanX = 0; double meanY = 0; if (model.PositionHistoryX.ContainsKey(pi.HraPerson.relativeID)) { model.PositionHistoryX[pi.HraPerson.relativeID].Add(pi.point.x); if (model.PositionHistoryX[pi.HraPerson.relativeID].Count > model.parameters.PositionHistoryDepth) model.PositionHistoryX[pi.HraPerson.relativeID].RemoveAt(0); } else { List<double> past = new List<double>(); past.Add(pi.point.x); model.PositionHistoryX.Add(pi.HraPerson.relativeID, past); } foreach (double cur in model.PositionHistoryX[pi.HraPerson.relativeID]) { meanX += cur; } meanX = meanX / ((double)(model.PositionHistoryX[pi.HraPerson.relativeID].Count)); if (model.PositionHistoryY.ContainsKey(pi.HraPerson.relativeID)) { model.PositionHistoryY[pi.HraPerson.relativeID].Add(pi.point.y); if (model.PositionHistoryY[pi.HraPerson.relativeID].Count > model.parameters.PositionHistoryDepth) model.PositionHistoryY[pi.HraPerson.relativeID].RemoveAt(0); } else { List<double> past = new List<double>(); past.Add(pi.point.y); model.PositionHistoryY.Add(pi.HraPerson.relativeID, past); } foreach (double cur in model.PositionHistoryY[pi.HraPerson.relativeID]) { meanY += cur; } meanY = meanY / ((double)(model.PositionHistoryY[pi.HraPerson.relativeID].Count)); if (model.TargetPositions.ContainsKey(pi.HraPerson.relativeID)) { delta += Math.Abs((model.TargetPositions[pi.HraPerson.relativeID].x - meanX)); delta += Math.Abs((model.TargetPositions[pi.HraPerson.relativeID].y - meanY)); model.TargetPositions[pi.HraPerson.relativeID].x = meanX; model.TargetPositions[pi.HraPerson.relativeID].y = meanY; } else { PointWithVelocity pos = new PointWithVelocity(); pos.x = meanX; pos.y = meanY; model.TargetPositions.Add(pi.HraPerson.relativeID, pos); delta += Math.Abs(meanX); delta += Math.Abs(meanY); } } if (delta / model.individuals.Count < 0.05) { if (model.converged == false) { if (layoutEngine.ModelConvergedCallback != null) layoutEngine.ModelConvergedCallback.Invoke(); } model.converged = true; } else { model.converged = false; } } }; }