public static double GetGasPartialPreasureForDepth(DepthFactor depth, double partialPreasure)
{
var gasPreasure = DivingMath.BarsToAtm(DivingMath.DepthToPreasureBars(depth));
return(gasPreasure * partialPreasure);
}
public DiveTextResult(CalculatedDivePlan plan)
{
string newLine = string.Empty;
_blocks.Add(new TextResultBlock("DIVE PLAN"));
_blocks.Add(new TextResultBlock(newLine));
foreach (var block in plan.DiveParameters.GetDiveParamsInfo())
{
_blocks.Add(new TextResultBlock(block));
}
_blocks.Add(new TextResultBlock(newLine));
var prevPoint = plan.PlanPoints.FirstOrDefault();
var firstDecoStop = plan.PlanPoints.FirstOrDefault(p => p.Type == DivePlanPointType.Deco || p.Type == DivePlanPointType.SafeStop);
var density = plan.DiveParameters.Levels.First().DepthFactor.WaterDensity;
foreach (var point in plan.PlanPoints)
{
var poindDepth = new DepthFactor(point.Depth, density);
var end = DivingMath.CalculateEND(poindDepth, point.Gas);
var ppO = BreathGas.GetGasPartialPreasureForDepth(poindDepth, point.Gas.PpO);
switch (point.Type)
{
case DivePlanPointType.Descent | DivePlanPointType.Bottom:
{
if (DivingMath.CompareDouble(prevPoint?.Depth ?? 0, point.Depth))
{
_blocks.Add(new TextResultBlock(string.Format("Level at\t{0}m\t {1} ({2}) {3}\t ppO2: {4} END: {5}m",
Math.Round(point.Depth, 1), TimeString(prevPoint.AbsoluteTime),
TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime), point.Gas.Name, Math.Round(ppO, 2), Math.Round(end, 1))));
}
else
{
_blocks.Add(new TextResultBlock(string.Format("Dec to\t{0}m\t {1} ({2}) {3}\t {4}m/min descent",
Math.Round(point.Depth, 1), TimeString(prevPoint.AbsoluteTime),
TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime), point.Gas.Name, Math.Round(plan.DiveParameters.DiveConfig.MaxDescentSpeed, 1))));
}
}
break;
case DivePlanPointType.Ascent | DivePlanPointType.Bottom:
case DivePlanPointType.Ascent | DivePlanPointType.Bottom | DivePlanPointType.FinalAscent:
{
if (DivingMath.CompareDouble(prevPoint?.Depth ?? 0, point.Depth))
{
_blocks.Add(new TextResultBlock(string.Format("Level at\t{0}m\t {1} ({2}) {3}\t ppO2: {4} END: {5}m",
Math.Round(point.Depth, 1), TimeString(prevPoint.AbsoluteTime),
TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime), point.Gas.Name, Math.Round(ppO, 2), Math.Round(end, 1))));
}
else
{
_blocks.Add(new TextResultBlock(string.Format("Asc to\t{0}m\t {1} ({2}) {3}\t {4}m/min ascent",
Math.Round(point.Depth, 1), TimeString(prevPoint.AbsoluteTime),
TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime), point.Gas.Name, Math.Round(plan.DiveParameters.DiveConfig.MaxAscentSpeed, 1))));
}
}
break;
case DivePlanPointType.Deco:
case DivePlanPointType.SafeStop:
if (DivingMath.CompareDouble(firstDecoStop.Depth, point.Depth))
{
_blocks.Add(new TextResultBlock(string.Format("Asc to\t{0}m\t {1} ({2}) {3}\t {4}m/min ascent",
Math.Round(point.Depth, 1), TimeString(prevPoint.AbsoluteTime),
TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime), point.Gas.Name, Math.Round(plan.DiveParameters.DiveConfig.MaxAscentSpeed, 1))));
}
break;
case DivePlanPointType.SafeStop | DivePlanPointType.FinalAscent:
case DivePlanPointType.Deco | DivePlanPointType.FinalAscent:
_blocks.Add(new TextResultBlock(string.Format("Stop at\t{0}m\t {1} ({2}) {3}\t ppO2: {4} END: {5}m",
Math.Round(point.Depth, 1), TimeString(prevPoint.AbsoluteTime),
TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime), point.Gas.Name, Math.Round(ppO, 2), Math.Round(end, 1))));
break;
case DivePlanPointType.EndDive:
_blocks.Add(new TextResultBlock(string.Format("Surface\t\t {0} ({1})",
TimeString(point.AbsoluteTime), TimeString(point.AbsoluteTime - prevPoint.AbsoluteTime))));
break;
}
prevPoint = point;
}
_blocks.Add(new TextResultBlock(newLine));
var diveInfo = plan.GetDiveInfo();
var cns = diveInfo.FirstOrDefault(b => b.Type == DiveResultBlockType.CNS);
var consumedGas = diveInfo.FirstOrDefault(b => b.Type == DiveResultBlockType.ConsumedGas);
var noDecoTime = diveInfo.FirstOrDefault(b => b.Type == DiveResultBlockType.NoDecoTime);
var ascentTime = diveInfo.FirstOrDefault(b => b.Type == DiveResultBlockType.AscentTime);
var fullDesatTime = diveInfo.FirstOrDefault(b => b.Type == DiveResultBlockType.FullDesaturation);
_blocks.Add(new TextResultBlock("CNS: " + cns.Text));
_blocks.Add(new TextResultBlock("No Deco Time: " + noDecoTime.Text));
_blocks.Add(new TextResultBlock("Acsent Time: " + ascentTime.Text));
_blocks.Add(new TextResultBlock("Full Desaturation: " + fullDesatTime.Text));
_blocks.Add(new TextResultBlock("Consumed Gases: " + consumedGas.Text));
}