Exemplo n.º 1
0
        private double getUpstreamFlow(int day, int x, int z, double[][,] surfaceWater, double[,] lastWaterOfYear)
        {
            double upstreamFlow = 0.0;
            List <Direction.CardinalDirections> directions = tileArray[x, z].rivers.upstreamDirections;
            Coordinates myPosition = new Coordinates(x, z);

            foreach (Direction.CardinalDirections direction in directions)
            {
                Coordinates coordinates = myPosition.findCoordinatesInCardinalDirection(direction);
                double      flow        = tileArray[coordinates.x, coordinates.z].rivers.flowRate;
                double      yesterdayUpstreamWater;

                if (day == 1)
                {
                    yesterdayUpstreamWater = lastWaterOfYear[coordinates.x, coordinates.z];
                }
                else
                {
                    yesterdayUpstreamWater = surfaceWater[WorldDate.getYesterday(day) - 1][coordinates.x, coordinates.z];
                }

                if (yesterdayUpstreamWater > flow)
                {
                    upstreamFlow += flow;
                }
                else
                {
                    upstreamFlow += yesterdayUpstreamWater;
                }
            }

            return(upstreamFlow);
        }
Exemplo n.º 2
0
        private double[][,] calculateWaterData(double[][,] rainDays, double[][,] snowfall, out double[][,] snowCover, double[,] lastSnowOfYear, double[,] lastWaterOfYear)
        {
            double[][,] surfaceWater = new double[WorldDate.DAYS_PER_YEAR][, ];
            snowCover = new double[WorldDate.DAYS_PER_YEAR][, ];
            for (int day = 1; day <= WorldDate.DAYS_PER_YEAR; day++)
            {
                surfaceWater[day - 1] = new double[this.x, this.z];
                snowCover[day - 1]    = new double[this.x, this.z];
                for (int x = 0; x < this.x; x++)
                {
                    for (int z = 0; z < this.z; z++)
                    {
                        if (x == 0 && z == 0)
                        {
                            Console.Write(rainDays[day - 1][x, z] + " - ");
                        }
                        if (tileArray[x, z].terrain.oceanPercent < 1.0)
                        {
                            double yesterdaysSnow;
                            double yesterdaysWater;

                            if (day == 1)
                            {
                                yesterdaysSnow  = lastSnowOfYear[x, z];
                                yesterdaysWater = lastWaterOfYear[x, z];
                            }
                            else
                            {
                                yesterdaysSnow  = snowCover[WorldDate.getYesterday(day) - 1][x, z];
                                yesterdaysWater = surfaceWater[WorldDate.getYesterday(day) - 1][x, z];
                            }

                            int todaysTemp = tileArray[x, z].temperatures.dailyTemps.days[day - 1];

                            double snowMelt = Math.Min(Math.Max((todaysTemp - FREEZING_POINT) * MELT_CONST, 0.0), yesterdaysSnow);
                            snowCover[day - 1][x, z] = Math.Round(Math.Max(yesterdaysSnow + snowfall[day - 1][x, z] - snowMelt, 0.0), ROUND_TO);
                            double humid    = tileArray[x, z].precipitation.getHumidity(day);
                            double flowAway = 0.0;
                            if (tileArray[x, z].rivers.flowDirection != Direction.CardinalDirections.none)
                            {
                                flowAway = tileArray[x, z].rivers.flowRate;
                            }

                            double waterRemoved = calculateSoilAbsorption(x, z) + flowAway + calculateEvaporation(yesterdaysWater, todaysTemp, humid, determineWeather(rainDays[day - 1][x, z], humid));
                            double waterGained  = rainDays[day - 1][x, z] + getUpstreamFlow(day, x, z, surfaceWater, lastWaterOfYear) + snowMelt;
                            surfaceWater[day - 1][x, z] = Math.Round(Math.Max(yesterdaysWater - waterRemoved + waterGained, 0.0), ROUND_TO);
                        }
                    }
                }
            }
            return(surfaceWater);
        }