/// <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;
            }
        }
Beispiel #2
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        //mass functionality
        public virtual void updateMass(double mass, bool isWhiteDwarf = false)
        {
            if (mass == 0)
            {
                throw new Exception("Mass is 0 solar masses.");
            }

            this.currMass = mass;

            this.evoLine.addMainLimit(Star.findMainLimit(this.currMass));
            this.evoLine.addSubLimit(Star.findSubLimit(this.currMass));
            this.evoLine.addGiantLimit(Star.findGiantLimit(this.currMass));


            if (!isWhiteDwarf)
            {
                this.initMass = mass;
            }
        }