public void setSelectedPlanogramSize()
{
int count;
using (PlanogramContext ctx = new PlanogramContext())
{
MockData data = new MockData(ctx);
count = data.GetItemsCount();
}
if (count == SMALL_ITEMS_COUNT)
{
CbPlanogramSize.SelectedIndex = 0;
}
else if (count == LARGE_ITEMS_COUNT)
{
CbPlanogramSize.SelectedIndex = 1;
}
else
{
showDataPanelUntil();
}
}
private void Window_Loaded(object sender, RoutedEventArgs e)
{
this.CbPlanogramSize.Items.Clear();
this.CbPlanogramSize.ItemsSource = new List <Scale>
{
new Scale {
ID = 1, Name = "Small", Description = "Test Scale Only (100 items, 24 slots)"
},
new Scale {
ID = 2, Name = "Large", Description = "Production Scale (5000 items, 288 slots)"
}
};
this.CbPlanogramSize.DisplayMemberPath = "NameDescription";
setSelectedPlanogramSize();
// TEMPORARY, for now we get the items at start up for debugging purposes
using (PlanogramContext ctx = new PlanogramContext())
{
MockData mock = new MockData(ctx);
itemsCache = mock.GetItemsWithAttr();
simSettings.ItemMetricMin = mock.GetItemMinimumScore(simSettings);
simSettings.ItemMetricMax = mock.GetItemMaximumScore(simSettings);
}
}
private void runSlmBtn_Click(object sender, RoutedEventArgs e)
{
selectedSlotIndex = -1;
_row = -1;
_col = -1;
itemRow = -1;
itemCol = -1;
SimulationPanel simPanel = new SimulationPanel();
simPanel.SetSimSettings(simSettings);
bool?result = simPanel.ShowDialog();
if (result.HasValue && result.Value == true)
{
// resets grid to default
usePerfColor = false;
FillGrid(planogram, Colors.LightGray);
if (headToHead)
{
FillGrid(planogramTensorflow, Colors.LightGray);
}
// disable control buttons
//statusTxt.Text = statusTxtTensor.Text = "";
statusTxtTensor.Text = "Waiting for RLM to finish running...";
EnableControlButtons(false);
// set simulation settings
simSettings.SimType = simPanel.SimType;
simSettings.Sessions = simPanel.Sessions;
simSettings.Hours = simPanel.Hours;
simSettings.Score = simPanel.Score;
simSettings.EnableSimDisplay = simPanel.EnableSimDisplay;
simSettings.DefaultScorePercentage = simPanel.simScoreSlider.Value;
simSettings.HiddenLayers = simPanel.HiddenLayers;
simSettings.HiddenLayerNeurons = simPanel.HiddenLayerNeurons;
targetScoreTxt.Text = "";
if (simSettings.SimType == SimulationType.Score)
{
targetScoreLbl.Visibility = Visibility.Visible;
targetScoreTxt.Visibility = Visibility.Visible;
targetScoreTxt.Text = simSettings.Score.Value.ToString("n");
targetScoreTxt2.Visibility = Visibility.Visible;
targetScoreTxt2.Text = simSettings.Score.Value.ToString("n");
}
else
{
targetScoreLbl.Visibility = Visibility.Hidden;
targetScoreTxt.Visibility = Visibility.Hidden;
targetScoreTxt2.Visibility = Visibility.Hidden;
}
if (simSettings.SimType == SimulationType.Sessions)
{
sessionPerBatchLbl.Visibility = Visibility.Hidden;
sessionPerBatchTxt.Visibility = Visibility.Hidden;
}
else
{
sessionPerBatchLbl.Visibility = Visibility.Visible;
sessionPerBatchTxt.Visibility = Visibility.Visible;
}
Logger.Clear();
string dbIdentifier = "RLM_planogram_" + Guid.NewGuid().ToString("N");
// instantiate visualizer with this window as its parent reference
visualizer = new RLVOutputVisualizer(this);
core = new RLVCore(dbIdentifier);
// subscribe mainwindow to the comparison event
//visualizer.LearningComparisonDisplayResultsEvent += DisplayLearningComparisonResults;
// open temporary RLV container panel
// todo this must be embeded in this Window instead of the temporary container
if (rlvPanel != null)
{
rlvPanel.Close();
}
rlvPanel = new TempRLVContainerPanel(core, visualizer);
//this.Top = 20;
//tmpPanel.Top = this.Top;
//this.Height = tmpPanel.Height;
//tmpPanel.Left = 10;
//this.Left = tmpPanel.Width + tmpPanel.Left;
//tmpPanel.Visibility = Visibility.Hidden;
Task.Run(() =>
{
// get items from db as well as the min and max metric scores as we need that for the calculation later on
Item[] items;
using (PlanogramContext ctx = new PlanogramContext())
{
MockData mock = new MockData(ctx);
items = itemsCache = mock.GetItemsWithAttr();
simSettings.ItemMetricMin = mock.GetItemMinimumScore(simSettings);
simSettings.ItemMetricMax = mock.GetItemMaximumScore(simSettings);
}
// let's tensorflow (or other listeners) know that it should start training
//OnSimulationStart?.Invoke(items, simSettings); //return;
// initialize and start RLM training
optimizer = new PlanogramOptimizer(items, simSettings, this.UpdateRLMResults, this.UpdateRLMStatus, Logger, dbIdentifier);
//optimizer.OnSessionDone += Optimizer_OnSessionDone;
optimizer.StartOptimization(tokenSource.Token);
});
}
}
