public Crash4LoadRemoverComponent(LiveSplitState state)
{
settings = new Crash4LoadRemoverSettings(state);
memory = new CrashMemory();
memory.Loading.OnValueChange += OnLoadingChange;
memory.Swirl.OnValueChange += OnSwirlChange;
GameName = state.Run.GameName;
GameCategory = state.Run.CategoryName;
NumberOfSplits = state.Run.Count;
SplitNames = new List <string>();
foreach (var split in state.Run)
{
SplitNames.Add(split.Name);
}
liveSplitState = state;
NumberOfLoadsPerSplit = new List <int>();
InitNumberOfLoadsFromState();
settings = new Crash4LoadRemoverSettings(state);
timer = new TimerModel {
CurrentState = state
};
timer.CurrentState.OnStart += timer_OnStart;
timer.CurrentState.OnReset += timer_OnReset;
timer.CurrentState.OnSkipSplit += timer_OnSkipSplit;
timer.CurrentState.OnSplit += timer_OnSplit;
timer.CurrentState.OnUndoSplit += timer_OnUndoSplit;
timer.CurrentState.OnPause += timer_OnPause;
timer.CurrentState.OnResume += timer_OnResume;
Logging.Write("[Component] Component created.");
}
public Crash4LoadRemoverComponent(LiveSplitState state)
{
GameName = state.Run.GameName;
GameCategory = state.Run.CategoryName;
NumberOfSplits = state.Run.Count;
SplitNames = new List <string>();
foreach (var split in state.Run)
{
SplitNames.Add(split.Name);
}
liveSplitState = state;
NumberOfLoadsPerSplit = new List <int>();
InitNumberOfLoadsFromState();
settings = new Crash4LoadRemoverSettings(state);
lastTime = DateTime.Now;
segmentTimeStart = DateTime.Now;
timer = new TimerModel {
CurrentState = state
};
timer.CurrentState.OnStart += timer_OnStart;
timer.CurrentState.OnReset += timer_OnReset;
timer.CurrentState.OnSkipSplit += timer_OnSkipSplit;
timer.CurrentState.OnSplit += timer_OnSplit;
timer.CurrentState.OnUndoSplit += timer_OnUndoSplit;
timer.CurrentState.OnPause += timer_OnPause;
timer.CurrentState.OnResume += timer_OnResume;
//highResTimer = new HighResolutionTimer.HighResolutionTimer(16.0f);
//highResTimer.Elapsed += (s, e) => { CaptureLoads(); };
hsv_ranges_load_1 = new List <FeatureDetector.HSVRange>();
hsv_ranges_load_2 = new List <FeatureDetector.HSVRange>();
gradient_thresholds_load_1 = new List <int>();
gradient_thresholds_load_2 = new List <int>();
//isLoading = FeatureDetector.compareImageCaptureHSVCrash4(capture, 0.3f, out achieved_threshold, 5, 55, 50, 101, 75, 101);
//isLoading &= FeatureDetector.compareImageCaptureHSVCrash4(capture, 0.08f, out achieved_threshold_2, -1, 361, 30, 101, -1, 30);
//FeatureDetector.compareImageCaptureHSVCrash4(capture, 0.3f, out achieved_threshold_1, 200, 230, 80, 101, 50, 101);
//FeatureDetector.compareImageCaptureHSVCrash4(capture, 0.3f, out achieved_threshold_2, -1, 360, 95, 101, -1, 15);
hsv_ranges_load_1.Add(new FeatureDetector.HSVRange(15, 55, 70, 101, 75, 101));
hsv_ranges_load_1.Add(new FeatureDetector.HSVRange(-1, 361, 30, 101, -1, 30));
gradient_thresholds_load_1.Add(102);
gradient_thresholds_load_1.Add(10);
hsv_ranges_load_2.Add(new FeatureDetector.HSVRange(200, 230, 80, 101, 50, 101));
hsv_ranges_load_2.Add(new FeatureDetector.HSVRange(-1, 360, 60, 101, -1, 35));
// TODO: determine optimal gradient thresholds
gradient_thresholds_load_2.Add(80);
gradient_thresholds_load_2.Add(10);
test_hsv_ranges = new List <FeatureDetector.HSVRange>();
test_gradient_ranges = new List <int>();
test_hsv_ranges.Add(new FeatureDetector.HSVRange(5, 55, 50, 101, 75, 101));
test_hsv_ranges.Add(new FeatureDetector.HSVRange(-1, 361, 30, 101, -1, 30));
test_gradient_ranges.Add(102);
test_gradient_ranges.Add(10);
test_hsv_ranges.Add(new FeatureDetector.HSVRange(200, 230, 80, 101, 50, 101));
test_hsv_ranges.Add(new FeatureDetector.HSVRange(-1, 360, 60, 101, -1, 35));
achieved_hsv_ranges = new List <float>();
achieved_gradient_thresholds = new List <float>();
average_thresholded_gradients = new List <float>();
for (int i = 0; i < test_hsv_ranges.Count; i++)
{
achieved_hsv_ranges.Add(0);
}
for (int i = 0; i < test_gradient_ranges.Count; i++)
{
achieved_gradient_thresholds.Add(0);
average_thresholded_gradients.Add(0);
}
}
