Пример #1
0
        public void AddTemplateGroups(MySolarSystemMapData data)
        {
            return; // Template groups in solar map are disabled

            if (SolarMapData.TemplateGroups == null)
            {
                return;
            }

            Random rnd = new Random(0);

            foreach (var g in SolarMapData.TemplateGroups)
            {
                for (int i = 0; i < g.Count; i++)
                {
                    var             pos = GetRandomPosition(rnd);
                    Vector3         offset;
                    MyMwcVector3Int sector = MySolarSystemUtils.KmToSectors(pos, out offset);

                    var mark = new MySolarSystemMapNavigationMark(sector, "", null, Color.White, TransparentGeometry.MyTransparentMaterialEnum.SolarMapOutpost);
                    mark.Importance       = g.Importance;
                    mark.DrawVerticalLine = false;
                    data.NavigationMarks.Add(mark);
                    data.ImportantObjects.Add(new MyImportantSolarObject()
                    {
                        NavigationMark = mark, TemplateGroup = g.TemplateGroup
                    });
                    //entities.Add(new MySolarSystemMapEntity(sector, offset, 0, "", MySolarSystemEntityEnum.OutpostIcon));
                }
            }
        }
        private void AddEntity(MySolarSystemMapData data, Vector3 posMillKm, float radiusMillKm, string name, MySolarSystemEntityEnum entityType, Color color, object entityData = null)
        {
            float           radius = radiusMillKm * MyBgrCubeConsts.MILLION_KM;
            Vector3         offset;
            MyMwcVector3Int sector = MySolarSystemUtils.MillionKmToSectors(posMillKm, out offset);
            var             entity = new MySolarSystemMapEntity(sector, offset, radius, name, entityType, color);

            entity.EntityData = entityData;
            data.Entities.Add(entity);
        }
Пример #3
0
 /// <summary>
 /// Add universe entities, like dust field billboard, asteroid field billboards etc
 /// </summary>
 /// <param name="entities"></param>
 public virtual void AddUniverseEntities(MySolarSystemMapData data)
 {
     // Do nothing
 }
Пример #4
0
        public override void AddUniverseEntities(MySolarSystemMapData data)
        {
            if (MyMissions.ActiveMission == null && MyMissions.GetAvailableMissions().Count == 0)
            {
                AddTemplateGroups(data);
            }

            const float maxObjCenterFromOrbit = 0.25f;

            Random rnd         = new Random(0);
            float  orbitRadius = OrbitProperties.AreaCenter.Length();
            float  baseAngle   = MyMath.AngleTo(OrbitProperties.AreaCenter, Vector3.UnitZ).Y;

            //count of groups per orbit side
            float step = CalculateStep((OrbitProperties.MaxDistanceFromOrbitHigh + OrbitProperties.MaxDistanceFromOrbitLow) / 2);

            int testMaxCount = 0;

            for (float i = baseAngle - HalfAngle; i < baseAngle + HalfAngle; i += step)
            {
                float interpolator            = 1 - Math.Abs((i - baseAngle) / HalfAngle); // (i + halfLen) / halfLen / 2;
                float maxDistFromOrbitAtAngle = MathHelper.SmoothStep(OrbitProperties.MaxDistanceFromOrbitLow, OrbitProperties.MaxDistanceFromOrbitHigh, interpolator);

                step = CalculateStep((OrbitProperties.MaxDistanceFromOrbitHigh + maxDistFromOrbitAtAngle) / 2);

                //Vector3 centerPos = new Vector3((float)Math.Sin(i) * distance, 0, (float)Math.Cos(i) * distance);

                //5 = billboards count in smaller group
                for (int j = 0; j < 2; j++)
                {
                    Vector2 distFromOrbit = Vector2.Normalize(new Vector2(rnd.Float(-1, 1), rnd.Float(-1, 1)));
                    //distFromOrbit = new Vector2();
                    distFromOrbit *= maxDistFromOrbitAtAngle * maxObjCenterFromOrbit;
                    float dist = orbitRadius + distFromOrbit.X;

                    float i2 = i + rnd.FloatCubic(-step * maxObjCenterFromOrbit, step * maxObjCenterFromOrbit);

                    float   x   = (float)Math.Sin(i2) * dist;
                    float   z   = (float)Math.Cos(i2) * dist;
                    float   y   = distFromOrbit.Y;
                    Vector3 pos = OrbitProperties.OrbitCenter + new Vector3(x, y, z);

                    Vector3         offset;
                    MyMwcVector3Int sector = MySolarSystemUtils.KmToSectors(pos, out offset);

                    float size = maxDistFromOrbitAtAngle * (1 - maxObjCenterFromOrbit);

                    if (this.SolarMapData != null)
                    {
                        Vector4 clr   = new Vector4(this.SolarMapData.DustColor, 1.0f);
                        Color   color = rnd.Color(new Color(clr - this.SolarMapData.DustColorVariability), new Color(clr + this.SolarMapData.DustColorVariability));

                        data.Entities.Add(new MySolarSystemMapEntity(sector, offset, 2 * size, "Dust", MySolarSystemEntityEnum.DustField, color));
                        testMaxCount++;
                    }
                    if ((AreaType & AreaEnum.PostPlanet) != 0 && j % 2 == 0)
                    {
                        data.Entities.Add(new MySolarSystemMapEntity(sector, offset, size * (1 - maxObjCenterFromOrbit), "Asteroids", MySolarSystemEntityEnum.AsteroidField, Color.White));
                        testMaxCount++;
                    }

                    //AddEntity(m_data, pos, radius * wide * 4, name + " dust", MySolarSystemEntityEnum.Test1_Dust, rnd.Color(baseColor, colorVariation));
                }
            }

            //Do not allow to solar area to add more than 1000 objects
            //System.Diagnostics.Debug.Assert(testMaxCount < 3000);

            MySolarAreaBorderLine newLine = new MySolarAreaBorderLine();

            newLine.AreaCenter   = OrbitProperties.AreaCenter;
            newLine.DistanceHigh = OrbitProperties.MaxDistanceFromOrbitHigh;
            newLine.DistanceLow  = OrbitProperties.MaxDistanceFromOrbitLow;
            newLine.Spread       = OrbitProperties.LongSpread;
            newLine.col          = new Vector4(SolarMapData.DustColor, 1f);
            data.AreasBorderLines.Add(newLine);
        }
        public void Generate(int sectorCacheCapacity)
        {
            m_data = new MySolarSystemMapData(sectorCacheCapacity);

            // Sun
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.SUN_RADIUS, MyTextsWrapper.Get(MyTextsWrapperEnum.Sun).ToString(), MySolarSystemEntityEnum.Sun, Color.White);

            // Orbits (just orbit lines)
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.MERCURY_POSITION.Length(), "Mercury orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.VENUS_POSITION.Length(), "Venus orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.EARTH_POSITION.Length(), "Earth orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.MARS_POSITION.Length(), "Mars orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.JUPITER_POSITION.Length(), "Jupiter orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.SATURN_POSITION.Length(), "Saturn orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.URANUS_POSITION.Length(), "Uranus orbit", MySolarSystemEntityEnum.Orbit, Color.White);
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.NEPTUNE_POSITION.Length(), "Neptune orbit", MySolarSystemEntityEnum.Orbit, Color.White);

            foreach (var a in MySolarSystemConstants.Areas)
            {
                a.Value.AddUniverseEntities(m_data);
                m_data.Areas.Add(a.Key);
            }

            if (MyFakes.ENABLE_RANDOM_STATIONS_IN_SOLAR_SYSTEM &&
                MyMissions.ActiveMission == null &&
                MyMissions.GetAvailableMissions().Count == 0)
            {
                foreach (var a in MyFactions.FactionAreas)
                {
                    if (a.Key == CommonLIB.AppCode.ObjectBuilders.MyMwcObjectBuilder_FactionEnum.CSR)
                    {
                        continue;
                    }
                    foreach (var circle in a.Value)
                    {
                        Random r = new Random(circle.Position.GetHashCode() ^ circle.Radius.GetHashCode());

                        var radius = circle.Radius / 100000000;

                        float count = MathHelper.Pi * radius * radius;
                        count = MathHelper.Clamp(count, 0, 10);
                        if (count < 1)
                        {
                            count = r.Next(0, 2);
                        }
                        for (int i = 0; i < count; i++)
                        {
                            float dist  = rnd.Float() * circle.Radius;
                            float angle = (float)(rnd.NextDouble() * 2 * MathHelper.Pi);
                            float x     = (float)Math.Sin(angle) * dist;
                            float z     = (float)Math.Cos(angle) * dist;

                            var pos = circle.GetCenter() + new Vector3(x, 0, z);
                            //pos = circle.GetCenter();

                            Vector3         offset;
                            MyMwcVector3Int sector = MySolarSystemUtils.KmToSectors(pos, out offset);
                            var             mark   = new MySolarSystemMapNavigationMark(sector, "", null, Color.White, MyTransparentMaterialEnum.SolarMapOutpost);
                            mark.Importance       = rnd.Next(2, 5) / 4.0f;
                            mark.DrawVerticalLine = false;
                            m_data.NavigationMarks.Add(mark);
                            m_data.ImportantObjects.Add(new MyImportantSolarObject()
                            {
                                NavigationMark = mark, TemplateGroup = MyTemplateGroupEnum.RandomStations
                            });
                        }
                    }
                }
            }

            // Filip resize solar map
            const float factionMapScale = 1.75f;

            // Faction map - size of map is same as saturn orbit
            AddEntity(m_data, Vector3.Zero, MyBgrCubeConsts.SATURN_POSITION.Length() / factionMapScale, "Faction map", MySolarSystemEntityEnum.FactionMap, Color.White);

            AddEntity(m_data, new Vector3(-352, 0, -40), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionRussian).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.IndianRed, MyTransparentMaterialEnum.FactionRussia);
            AddEntity(m_data, new Vector3(-432, 0, -628), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionRussian).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.IndianRed, MyTransparentMaterialEnum.FactionRussia);
            AddEntity(m_data, new Vector3(0, 0, 300), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionChineseShort).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.Brown, MyTransparentMaterialEnum.FactionChina);
            AddEntity(m_data, new Vector3(-150, 0, 95), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionJapan).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.DeepSkyBlue, MyTransparentMaterialEnum.FactionJapan);
            AddEntity(m_data, new Vector3(300, 0, 108), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionFreeAsia).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.HotPink, MyTransparentMaterialEnum.FactionFreeAsia);
            AddEntity(m_data, new Vector3(300, 0, -40), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionSaudiShort).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.Gold, MyTransparentMaterialEnum.FactionSaudi);
            AddEntity(m_data, new Vector3(220, 0, -180), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionEuroamericanShort).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.CornflowerBlue, MyTransparentMaterialEnum.FactionEAC);
            //AddEntity(m_data, new Vector3(65, 0, -135), 0, "CSR", MySolarSystemEntityEnum.FactionInfo, Color.DarkKhaki, MyTransparentMaterialEnum.FactionCSR);
            AddEntity(m_data, new Vector3(37, 0, -160), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionIndia).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.SandyBrown, MyTransparentMaterialEnum.FactionIndia);
            AddEntity(m_data, new Vector3(-30, 0, -160), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionChurchShort).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.Yellow, MyTransparentMaterialEnum.FactionChurch);
            AddEntity(m_data, new Vector3(-85, 0, -150), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionOmnicorpShort).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.LightGreen, MyTransparentMaterialEnum.FactionOmnicorp);
            AddEntity(m_data, new Vector3(-108, 0, -358), 0, MyTextsWrapper.Get(MyTextsWrapperEnum.FactionFourthReichShort).ToString(), MySolarSystemEntityEnum.FactionInfo, Color.LightSteelBlue, MyTransparentMaterialEnum.FactionFourthReich);

            // Some navigation marks for testing
            //AddNavigationMark(m_data, new MyMwcVector3Int(1000000, 0, 1000000), "Mark1");
            //AddNavigationMark(m_data, new MyMwcVector3Int(3000000, 0, -1500000), "Mark2");
        }
 public override void AddUniverseEntities(MySolarSystemMapData data)
 {
     throw new NotImplementedException();
 }