//Chest rarity input callbacks
public void UpdateTotalRarity()
{
//Get all input values
float commonRarity = UI_Conversions.UserInputToFloat(commonRarityInput);
float uncommonRarity = UI_Conversions.UserInputToFloat(uncommonRarityInput);
float rareRarity = UI_Conversions.UserInputToFloat(rareRarityInput);
float legendaryRarity = UI_Conversions.UserInputToFloat(legendaryRarityInput);
//Check values
if (commonRarity == -1.0f ||
uncommonRarity == -1.0f ||
rareRarity == -1.0f ||
legendaryRarity == -1.0f)
{
//Disable the GO button
goButton.interactable = false;
//Exit early
return;
}
//There are values in all inputs, update the total value
float totalValue = commonRarity + uncommonRarity + rareRarity + legendaryRarity;
totalRarityInput.text = totalValue.ToString();
if (totalValue != 100.0f && totalValue != 1.0f)
{
goButton.interactable = false;
}
else
{
goButton.interactable = true;
if (totalValue == 100.0f)
{
commonRarity /= 100.0f;
uncommonRarity /= 100.0f;
rareRarity /= 100.0f;
legendaryRarity /= 100.0f;
}
rarities[0] = commonRarity;
rarities[1] = uncommonRarity;
rarities[2] = rareRarity;
rarities[3] = legendaryRarity;
}
}
public void ChiSquareRandom()
{
wg = windowGraph.GetComponent <Window_Graph>();
if (wg == null)
{
Debug.Log("wg is null");
return;
}
Clear(wg);
int numToGen = UI_Conversions.UserInputToInt(numberToGenerate);
float minRange = UI_Conversions.UserInputToFloat(rangeMinimum);
float maxRange = UI_Conversions.UserInputToFloat(rangeMaximum);
if (numToGen == -1 || minRange == -1 || maxRange == -1)
{
return;
}
List <float> chiSquareRandomNumbers = new List <float>();
Randomness.Instance.UnityRandom(numToGen, 0.0f, 1.0f, ref chiSquareRandomNumbers);
//Square the values
for (int i = 0; i < chiSquareRandomNumbers.Count; i++)
{
chiSquareRandomNumbers[i] *= chiSquareRandomNumbers[i];
//Values are still between 0.0f and 1.0f, need to scale them to min and max values
chiSquareRandomNumbers[i] = minRange + (chiSquareRandomNumbers[i] * ((maxRange - minRange)));
}
if (roundingToggle.isOn)
{
int decimalPlaceRound = UI_Conversions.UserInputToInt(roundingPlaces.options[roundingPlaces.value].text);
RoundToDecimalPlaces(ref chiSquareRandomNumbers, decimalPlaceRound);
}
chiSquareRandomNumbers.Sort();
int minCount = System.Int32.MaxValue;
int maxCount = System.Int32.MinValue;
List <Vector2> counts = CountOccurences(chiSquareRandomNumbers, ref minCount, ref maxCount);
wg.Graph(counts, new Vector2(minRange, maxRange), new Vector2(minCount, maxCount));
}
public void UnityRandomRange()
{
wg = windowGraph.GetComponent <Window_Graph>();
if (wg == null)
{
Debug.Log("wg is null");
return;
}
Clear(wg);
int numToGen = UI_Conversions.UserInputToInt(numberToGenerate);
float minRange = UI_Conversions.UserInputToFloat(rangeMinimum);
float maxRange = UI_Conversions.UserInputToFloat(rangeMaximum);
if (numToGen == -1 || minRange == -1 || maxRange == -1)
{
return;
}
List <float> unityRandomRangeNumbers = new List <float>();
Randomness.Instance.UnityRandom(numToGen, minRange, maxRange, ref unityRandomRangeNumbers);
if (roundingToggle.isOn)
{
//Mild rounding to make it easier
int decimalPlaceRound = UI_Conversions.UserInputToInt(roundingPlaces.options[roundingPlaces.value].text);
RoundToDecimalPlaces(ref unityRandomRangeNumbers, decimalPlaceRound);
}
//Sort the list
unityRandomRangeNumbers.Sort();
//Count the number of occurences of each value
int minCount = System.Int32.MaxValue;
int maxCount = System.Int32.MinValue;
List <Vector2> counts = CountOccurences(unityRandomRangeNumbers, ref minCount, ref maxCount);
//plot that count vs the value
wg.Graph(counts, new Vector2(minRange, maxRange), new Vector2(minCount, maxCount));
}
public void GaussianRandom()
{
wg = windowGraph.GetComponent <Window_Graph>();
if (wg == null)
{
Debug.Log("wg is null");
return;
}
Clear(wg);
int numToGen = UI_Conversions.UserInputToInt(numberToGenerate);
float mean = UI_Conversions.UserInputToFloat(rangeMinimum);
float stdDev = UI_Conversions.UserInputToFloat(rangeMaximum);
if (numToGen == -1 || mean == -1 || stdDev == -1)
{
return;
}
List <float> standardDistributionRandomNumbers = new List <float>();
Randomness.Instance.GaussianRandom(numToGen, mean, stdDev, ref standardDistributionRandomNumbers);
if (roundingToggle.isOn)
{
int decimalPlaceRound = UI_Conversions.UserInputToInt(roundingPlaces.options[roundingPlaces.value].text);
RoundToDecimalPlaces(ref standardDistributionRandomNumbers, decimalPlaceRound);
}
standardDistributionRandomNumbers.Sort();
int minCount = System.Int32.MaxValue;
int maxCount = System.Int32.MinValue;
List <Vector2> counts = CountOccurences(standardDistributionRandomNumbers, ref minCount, ref maxCount);
wg.Graph(counts, new Vector2(mean + stdDev * -3.0f, mean + stdDev * 3.0f), new Vector2(minCount, maxCount));
}
public void CSharpRandom()
{
wg = windowGraph.GetComponent <Window_Graph>();
if (wg == null)
{
Debug.Log("wg is null");
return;
}
Clear(wg);
int numToGen = UI_Conversions.UserInputToInt(numberToGenerate);
float minRange = UI_Conversions.UserInputToFloat(rangeMinimum);
float maxRange = UI_Conversions.UserInputToFloat(rangeMaximum);
if (numToGen == -1 || minRange == -1 || maxRange == -1)
{
return;
}
List <float> cSharpRandomNumbers = new List <float>();
Randomness.Instance.CSharpRandom(numToGen, minRange, maxRange, ref cSharpRandomNumbers);
if (roundingToggle.isOn)
{
int decimalPlaceRound = UI_Conversions.UserInputToInt(roundingPlaces.options[roundingPlaces.value].text);
RoundToDecimalPlaces(ref cSharpRandomNumbers, decimalPlaceRound);
}
cSharpRandomNumbers.Sort();
int minCount = System.Int32.MaxValue;
int maxCount = System.Int32.MinValue;
List <Vector2> counts = CountOccurences(cSharpRandomNumbers, ref minCount, ref maxCount);
wg.Graph(counts, new Vector2(minRange, maxRange), new Vector2(minCount, maxCount));
}