/// <summary>
/// Update the display based on a mass update
/// </summary>
/// <param name="sender">The object sending you here</param>
/// <param name="e">Event arguments</param>
private void numCurrMass_Leave(object sender, EventArgs e)
{
//first, initial luminosity
txtInitLumin.Text = Star.getMinLumin((double)numCurrMass.Value).ToString();
//now we need to get an updated timeline
this.currAgeChart.addMainLimit(Star.findMainLimit((double)numCurrMass.Value));
this.currAgeChart.addSubLimit(Star.findSubLimit((double)numCurrMass.Value));
this.currAgeChart.addGiantLimit(Star.findGiantLimit((double)numCurrMass.Value));
//now we need to get what stage we are and push the details to the field.
lblEndMain.Text = "End of Main Sequence: " + this.currAgeChart.getMainLimit() + " GYr";
lblEndSubGiant.Text = "End of the Sub Giant Sequence: " + this.currAgeChart.getSubLimit() + " GYr";
lblEndGiantPhase.Text = "End of the Giant Phase: " + this.currAgeChart.getGiantLimit() + " GYr";
this.currAgeStatus = this.currAgeChart.findCurrentAgeGroup((double)numAge.Value);
lblCurrentStage.Text = "Current Status: " + StarAgeLine.descBranch(this.currAgeStatus);
//now we can get the current luminosity, figure out what the intial mass is.
//and fill in the effective temperature if it's no longer in range.
numInitMass.Value = numCurrMass.Value;
txtCurrLumin.Text = Math.Round(Star.getCurrLumin(this.currAgeChart, (double)numAge.Value, (double)numCurrMass.Value), 3).ToString();
double temp;
temp = Star.getCurrentTemp(this.currAgeChart, Convert.ToDouble(txtCurrLumin.Text), (double)numAge.Value, (double)numCurrMass.Value, this.myDice);
txtEffTemp.Text = Convert.ToString(temp);
//set good ranges
createAcceptRanges(Star.getCurrLumin(this.currAgeChart, (double)numAge.Value, (double)numCurrMass.Value), temp);
//display information for users benefits (formation zones, colors)
this.color = Star.setColor(this.myDice, temp);
lblStellarColor.Text = "Stellar Color: " + color;
lblStellarRadius.Text = "Stellar Radius: " + Star.getRadius((double)numCurrMass.Value, temp, Star.getCurrLumin(this.currAgeChart, (double)numAge.Value, (double)numCurrMass.Value),
this.currAgeChart.findCurrentAgeGroup((double)numAge.Value)) + " AU";
lblInnerFormation.Text = "Inner Formation Range: " + Star.innerRadius(Convert.ToDouble(txtInitLumin.Text), (double)numInitMass.Value) + " AU";
lblOuterFormation.Text = "Outer Formation Range: " + Star.outerRadius((double)numInitMass.Value) + " AU";
lblSnowLine.Text = "Snow Line: " + Star.snowLine(Convert.ToDouble(txtInitLumin.Text)) + " AU";
if ((double)numCurrMass.Value > .525)
{
chkFlareStar.Checked = false;
chkFlareStar.Enabled = false;
}
}
/// <summary>
/// Update the display when you change the age of the star
/// </summary>
/// <param name="sender">The object sending you here</param>
/// <param name="e">Event arguments</param>
private void numAge_Leave(object sender, EventArgs e)
{
this.currAgeStatus = this.currAgeChart.findCurrentAgeGroup((double)numAge.Value);
lblCurrentStage.Text = "Current Status: " + StarAgeLine.descBranch(this.currAgeStatus);
txtCurrLumin.Text = Math.Round(Star.getCurrLumin(this.currAgeChart, (double)numAge.Value, (double)numCurrMass.Value), 3).ToString();
double temp;
temp = Star.getCurrentTemp(this.currAgeChart, Convert.ToDouble(txtCurrLumin.Text), (double)numAge.Value, (double)numCurrMass.Value, this.myDice);
txtEffTemp.Text = Convert.ToString(temp);
createAcceptRanges(Star.getCurrLumin(this.currAgeChart, (double)numAge.Value, (double)numCurrMass.Value), temp);
lblStellarColor.Text = "Stellar Color: " + Star.setColor(this.myDice, temp);
lblStellarRadius.Text = Star.getRadius((double)numCurrMass.Value, temp, Star.getCurrLumin(this.currAgeChart, (double)numAge.Value, (double)numCurrMass.Value),
this.currAgeChart.findCurrentAgeGroup((double)numAge.Value)) + " AU";
}
/// <summary>
/// This updates the star to the current surface temperature given no alterations
/// </summary>
/// <param name="ageL">the age line of the star</param>
/// <param name="lumin">The current luminosity of the star (used for White Dwarfs)</param>
/// <param name="age">The age of the star</param>
/// <param name="mass">The current mass of the star</param>
/// <param name="ourDice">Dice (due to randomization of the temperature)</param>
/// <returns>The current temperature of the star</returns>
public static double getCurrentTemp(StarAgeLine ageL, double lumin, double age, double mass, Dice ourDice)
{
if (ageL.findCurrentAgeGroup(age) == StarAgeLine.RET_MAINBRANCH)
{
return(Star.getInitTemp(mass));
}
if (ageL.findCurrentAgeGroup(age) == StarAgeLine.RET_SUBBRANCH)
{
return(Star.getInitTemp(mass) - ageL.calcWithInSubLimit(age) * (Star.getInitTemp(mass) - 4800));
}
if (ageL.findCurrentAgeGroup(age) == StarAgeLine.RET_GIANTBRANCH)
{
return(3000 + ourDice.rng(2, 6, -2) * 200);
}
if (ageL.findCurrentAgeGroup(age) == StarAgeLine.RET_COLLASPEDSTAR)
{
return(Math.Pow((lumin / Math.Pow(Star.getRadius(mass, 0, lumin, StarAgeLine.RET_COLLASPEDSTAR), 2)) * (5.38937375 * Math.Pow(10, 26)), 1 / 4));
}
return(0);
}