Exemplo n.º 1
0
    public static int InterpolateColor(GamePlatform platform, float progress, int[] colors, int colorsLength)
    {
        float one    = 1;
        int   colora = platform.FloatToInt((colorsLength - 1) * progress);

        if (colora < 0)
        {
            colora = 0;
        }
        if (colora >= colorsLength)
        {
            colora = colorsLength - 1;
        }
        int colorb = colora + 1;

        if (colorb >= colorsLength)
        {
            colorb = colorsLength - 1;
        }
        int   a = colors[colora];
        int   b = colors[colorb];
        float p = (progress - (one * colora) / (colorsLength - 1)) * (colorsLength - 1);
        int   A = platform.FloatToInt(Game.ColorA(a) + (Game.ColorA(b) - Game.ColorA(a)) * p);
        int   R = platform.FloatToInt(Game.ColorR(a) + (Game.ColorR(b) - Game.ColorR(a)) * p);
        int   G = platform.FloatToInt(Game.ColorG(a) + (Game.ColorG(b) - Game.ColorG(a)) * p);
        int   B = platform.FloatToInt(Game.ColorB(a) + (Game.ColorB(b) - Game.ColorB(a)) * p);

        return(Game.ColorFromArgb(A, R, G, B));
    }
Exemplo n.º 2
0
    static int VersionToInt(GamePlatform platform, string version)
    {
        int max = 1000 * 1000 * 1000;

        if (!IsVersionDate(platform, version))
        {
            return(max);
        }
        FloatRef year  = new FloatRef();
        FloatRef month = new FloatRef();
        FloatRef day   = new FloatRef();

        if (platform.FloatTryParse(StringTools.StringSubstring(platform, version, 0, 4), year))
        {
            if (platform.FloatTryParse(StringTools.StringSubstring(platform, version, 5, 2), month))
            {
                if (platform.FloatTryParse(StringTools.StringSubstring(platform, version, 8, 2), day))
                {
                    int year_  = platform.FloatToInt(year.value);
                    int month_ = platform.FloatToInt(month.value);
                    int day_   = platform.FloatToInt(day.value);
                    return(year_ * 10000 + month_ * 100 + day_);
                }
            }
        }
        return(max);
    }
Exemplo n.º 3
0
 public static BitmapData_ CreateFromBitmap(GamePlatform p, BitmapCi atlas2d_)
 {
     BitmapData_ b = new BitmapData_();
     b.width = p.FloatToInt(p.BitmapGetWidth(atlas2d_));
     b.height = p.FloatToInt(p.BitmapGetHeight(atlas2d_));
     b.argb = new int[b.width * b.height];
     p.BitmapGetPixelsArgb(atlas2d_, b.argb);
     return b;
 }
Exemplo n.º 4
0
    static int Texture2d(GamePlatform platform, int[] pixelsArgb, float x, float y)
    {
        int px = platform.FloatToInt(x * (textureSize - 1));
        int py = platform.FloatToInt(y * (textureSize - 1));

        px = positive_modulo(px, (textureSize - 1));
        py = positive_modulo(py, (textureSize - 1));
        return(pixelsArgb[MapUtilCi.Index2d(px, py, textureSize)]);
    }
Exemplo n.º 5
0
    public static BitmapData_ CreateFromBitmap(GamePlatform p, BitmapCi atlas2d_)
    {
        BitmapData_ b = new BitmapData_();

        b.width  = p.FloatToInt(p.BitmapGetWidth(atlas2d_));
        b.height = p.FloatToInt(p.BitmapGetHeight(atlas2d_));
        b.argb   = new int[b.width * b.height];
        p.BitmapGetPixelsArgb(atlas2d_, b.argb);
        return(b);
    }
Exemplo n.º 6
0
    public BlockPosSide[] LineIntersection(DelegateIsBlockEmpty isEmpty, DelegateGetBlockHeight getBlockHeight, Line3D line, IntRef retCount)
    {
        lCount        = 0;
        currentLine   = line;
        currentHit[0] = 0;
        currentHit[1] = 0;
        currentHit[2] = 0;
        ListBox3d l1 = Search(PredicateBox3DHit.Create(this));

        for (int i = 0; i < l1.count; i++)
        {
            Box3D   node = l1.arr[i];
            float[] hit  = currentHit;
            float   x    = node.MinEdge[0];
            float   y    = node.MinEdge[2];
            float   z    = node.MinEdge[1];
            if (!isEmpty.IsBlockEmpty(platform.FloatToInt(x), platform.FloatToInt(y), platform.FloatToInt(z)))
            {
                Box3D node2 = new Box3D();
                node2.MinEdge    = Vec3.CloneIt(node.MinEdge);
                node2.MaxEdge    = Vec3.CloneIt(node.MaxEdge);
                node2.MaxEdge[1] = node2.MinEdge[1] + getBlockHeight.GetBlockHeight(platform.FloatToInt(x), platform.FloatToInt(y), platform.FloatToInt(z));

                BlockPosSide b    = new BlockPosSide();
                float[]      hit2 = new float[3];

                float[] dir = new float[3];
                dir[0] = line.End[0] - line.Start[0];
                dir[1] = line.End[1] - line.Start[1];
                dir[2] = line.End[2] - line.Start[2];
                bool ishit = Intersection.HitBoundingBox(node2.MinEdge, node2.MaxEdge, line.Start, dir, hit2);
                if (ishit)
                {
                    //hit2.pos = Vec3.FromValues(x, z, y);
                    b.blockPos     = Vec3.FromValues(platform.FloatToInt(x), platform.FloatToInt(z), platform.FloatToInt(y));
                    b.collisionPos = hit2;
                    l[lCount++]    = b;
                }
            }
        }
        BlockPosSide[] ll = new BlockPosSide[lCount];
        for (int i = 0; i < lCount; i++)
        {
            ll[i] = l[i];
        }
        retCount.value = lCount;
        return(ll);
    }
Exemplo n.º 7
0
    TextTexture GetTextTexture(string text, FontCi font)
    {
        for (int i = 0; i < textTexturesCount; i++)
        {
            TextTexture t = textTextures[i];
            if (t == null)
            {
                continue;
            }
            if (t.text == text &&
                t.font.size == font.size &&
                t.font.family == font.family &&
                t.font.style == font.style)
            {
                return(t);
            }
        }
        TextTexture textTexture = new TextTexture();

        Text_ text_ = new Text_();

        text_.text  = text;
        text_.font  = font;
        text_.color = Game.ColorFromArgb(255, 255, 255, 255);
        BitmapCi textBitmap = textColorRenderer.CreateTextTexture(text_);

        int texture = p.LoadTextureFromBitmap(textBitmap);

        IntRef textWidth  = new IntRef();
        IntRef textHeight = new IntRef();

        p.TextSize(text, font, textWidth, textHeight);

        textTexture.texture       = texture;
        textTexture.texturewidth  = p.FloatToInt(p.BitmapGetWidth(textBitmap));
        textTexture.textureheight = p.FloatToInt(p.BitmapGetHeight(textBitmap));
        textTexture.text          = text;
        textTexture.font          = font;
        textTexture.textwidth     = textWidth.value;
        textTexture.textheight    = textHeight.value;

        p.BitmapDelete(textBitmap);

        textTextures[textTexturesCount++] = textTexture;
        return(textTexture);
    }
Exemplo n.º 8
0
 public static int InterpolateAngle256(GamePlatform platform, int a, int b, float progress)
 {
     if (progress != 0 && b != a)
     {
         int diff = NormalizeAngle256(b - a);
         if (diff >= CircleHalf256)
         {
             diff -= CircleFull256;
         }
         a += platform.FloatToInt(progress * diff);
     }
     return(NormalizeAngle256(a));
 }
Exemplo n.º 9
0
 public static int InterpolateAngle256(GamePlatform platform, int a, int b, float progress)
 {
     if (progress != 0 && b != a)
     {
         int diff = NormalizeAngle256(b - a);
         if (diff >= CircleHalf256)
         {
             diff -= CircleFull256;
         }
         a += platform.FloatToInt(progress * diff);
     }
     return NormalizeAngle256(a);
 }
Exemplo n.º 10
0
    public int GetInt(string key, int default_)
    {
        if (GetString(key, null) == null)
        {
            return(default_);
        }
        FloatRef ret = new FloatRef();

        if (platform.FloatTryParse(GetString(key, null), ret))
        {
            return(platform.FloatToInt(ret.value));
        }
        return(default_);
    }
Exemplo n.º 11
0
    void UpdateStatisticsText(float dt)
    {
        GamePlatform p = m.GetPlatform();

        fpscount++;
        longestframedt = MathCi.MaxFloat(longestframedt, dt);
        float elapsed = one * (p.TimeMillisecondsFromStart() - lasttitleupdateMilliseconds) / 1000;

        if (elapsed >= 1)
        {
            lasttitleupdateMilliseconds = p.TimeMillisecondsFromStart();
            string fpstext1 = p.IntToString(p.FloatToInt((one * fpscount) / elapsed));
            fpstext1       = StringTools.StringAppend(p, fpstext1, p.StringFormat(" (min: {0})", p.IntToString(p.FloatToInt(one / longestframedt))));
            longestframedt = 0;
            fpscount       = 0;
            m.GetPerformanceInfo().Set("FPS", fpstext1);

            StatsLineCount = 0;
            for (int i = 0; i < m.GetPerformanceInfo().size; i++)
            {
                if (m.GetPerformanceInfo().items[i] == null)
                {
                    continue;
                }
                if (m.GetPerformanceInfo().items[i].key == "Chunk updates")
                {
                    UpdateChunkHistory(p.IntParse(m.GetPerformanceInfo().items[i].value));
                }
                if (m.GetPerformanceInfo().items[i].key == "Ping")
                {
                    UpdatePingHistory(p.IntParse(m.GetPerformanceInfo().items[i].value));
                }
                if (StatsLineCount >= StatsMaxLineCount)
                {
                    // Prevent running out of bounds
                    break;
                }
                StatsLines[StatsLineCount++] = p.StringFormat2("{0}: {1}", m.GetPerformanceInfo().items[i].key, m.GetPerformanceInfo().items[i].value);
            }
        }
    }
Exemplo n.º 12
0
    /// <summary>
    /// Creates a bitmap from a given string
    /// </summary>
    /// <param name="t">The <see cref="Text_"/> object to create an image from</param>
    /// <returns>A <see cref="BitmapCi"/> containing the rendered text</returns>
    internal BitmapCi CreateTextTexture(Text_ t)
    {
        IntRef partsCount = new IntRef();

        TextPart[] parts = DecodeColors(t.text, t.color, partsCount);

        float totalwidth  = 0;
        float totalheight = 0;

        int[] sizesX = new int[partsCount.value];
        int[] sizesY = new int[partsCount.value];

        for (int i = 0; i < partsCount.value; i++)
        {
            IntRef outWidth  = new IntRef();
            IntRef outHeight = new IntRef();
            platform.TextSize(parts[i].text, t.font, outWidth, outHeight);

            sizesX[i] = outWidth.value;
            sizesY[i] = outHeight.value;

            totalwidth += outWidth.value;
            totalheight = MathCi.MaxFloat(totalheight, outHeight.value);
        }

        int      size2X = NextPowerOfTwo(platform.FloatToInt(totalwidth) + 1);
        int      size2Y = NextPowerOfTwo(platform.FloatToInt(totalheight) + 1);
        BitmapCi bmp2   = platform.BitmapCreate(size2X, size2Y);

        int[] bmp2Pixels = new int[size2X * size2Y];

        float currentwidth = 0;

        for (int i = 0; i < partsCount.value; i++)
        {
            int sizeiX = sizesX[i];
            int sizeiY = sizesY[i];
            if (sizeiX == 0 || sizeiY == 0)
            {
                continue;
            }

            Text_ partText = new Text_();
            partText.text  = parts[i].text;
            partText.color = parts[i].color;
            partText.font  = t.font;

            BitmapCi partBmp       = platform.CreateTextTexture(partText);
            int      partWidth     = platform.FloatToInt(platform.BitmapGetWidth(partBmp));
            int      partHeight    = platform.FloatToInt(platform.BitmapGetHeight(partBmp));
            int[]    partBmpPixels = new int[partWidth * partHeight];
            platform.BitmapGetPixelsArgb(partBmp, partBmpPixels);
            for (int x = 0; x < partWidth; x++)
            {
                for (int y = 0; y < partHeight; y++)
                {
                    if (x + currentwidth >= size2X)
                    {
                        continue;
                    }
                    if (y >= size2Y)
                    {
                        continue;
                    }
                    int c = partBmpPixels[MapUtilCi.Index2d(x, y, partWidth)];
                    if (Game.ColorA(c) > 0)
                    {
                        bmp2Pixels[MapUtilCi.Index2d(platform.FloatToInt(currentwidth) + x, y, size2X)] = c;
                    }
                }
            }
            currentwidth += sizeiX;
        }
        platform.BitmapSetPixelsArgb(bmp2, bmp2Pixels);
        return(bmp2);
    }
Exemplo n.º 13
0
 static int Texture2d(GamePlatform platform, int[] pixelsArgb, float x, float y)
 {
     int px = platform.FloatToInt(x * (textureSize - 1));
     int py = platform.FloatToInt(y * (textureSize - 1));
     px = positive_modulo(px, (textureSize - 1));
     py = positive_modulo(py, (textureSize - 1));
     return pixelsArgb[MapUtilCi.Index2d(px, py, textureSize)];
 }
Exemplo n.º 14
0
    public override bool OnClientCommand(Game game, ClientCommandArgs args)
    {
        if (args.command == "cam")
        {
            IntRef   argumentsLength = new IntRef();
            string[] arguments       = p.StringSplit(args.arguments, " ", argumentsLength);
            if (p.StringTrim(args.arguments) == "")
            {
                m.DisplayNotification("&6AutoCamera help.");
                m.DisplayNotification("&6.cam p&f - add a point to path");
                m.DisplayNotification("&6.cam start [real seconds]&f - play the path");
                m.DisplayNotification("&6.cam rec [real seconds] [video seconds]&f - play and record to .avi file");
                m.DisplayNotification("&6.cam stop&f - stop playing and recording");
                m.DisplayNotification("&6.cam clear&f - remove all points from path");
                m.DisplayNotification("&6.cam save&f - copy path points to clipboard");
                m.DisplayNotification("&6.cam load [points]&f - load path points");
                return(true);
            }
            if (arguments[0] == "p")
            {
                m.DisplayNotification("Point defined.");
                CameraPoint point = new CameraPoint();
                point.positionGlX    = m.GetLocalPositionX();
                point.positionGlY    = m.GetLocalPositionY();
                point.positionGlZ    = m.GetLocalPositionZ();
                point.orientationGlX = m.GetLocalOrientationX();
                point.orientationGlY = m.GetLocalOrientationY();
                point.orientationGlZ = m.GetLocalOrientationZ();
                cameraPoints[cameraPointsCount++] = point;
            }
            if (arguments[0] == "start" || arguments[0] == "play" || arguments[0] == "rec")
            {
                if (!m.IsFreemoveAllowed())
                {
                    m.DisplayNotification("Free move not allowed.");
                    return(true);
                }
                if (cameraPointsCount == 0)
                {
                    m.DisplayNotification("No points defined. Enter points with \".cam p\" command.");
                    return(true);
                }
                playingSpeed = 1;
                float totalRecTime = -1;
                if (arguments[0] == "rec")
                {
                    if (argumentsLength.value >= 3)
                    {
                        // video time
                        totalRecTime = p.FloatParse(arguments[2]);
                    }
                    avi = m.AviWriterCreate();
                    avi.Open(p.StringFormat("{0}.avi", p.Timestamp()), framerate, m.GetWindowWidth(), m.GetWindowHeight());
                }
                if (argumentsLength.value >= 2)
                {
                    // play time
                    float totalTime = p.FloatParse(arguments[1]);
                    playingSpeed = TotalDistance() / totalTime;

                    if (totalRecTime == -1)
                    {
                        recspeed = 10;
                    }
                    else
                    {
                        recspeed = totalTime / totalRecTime;
                    }
                }
                playingTime          = 0;
                firstFrameDone       = false;
                previousPositionX    = m.GetLocalPositionX();
                previousPositionY    = m.GetLocalPositionY();
                previousPositionZ    = m.GetLocalPositionZ();
                previousOrientationX = m.GetLocalOrientationX();
                previousOrientationY = m.GetLocalOrientationY();
                previousOrientationZ = m.GetLocalOrientationZ();
                m.ShowGui(0);
                previousFreemove = m.GetFreemove();
                m.SetFreemove(FreemoveLevelEnum.Noclip);
                m.EnableCameraControl(false);
            }
            if (arguments[0] == "stop")
            {
                m.DisplayNotification("Camera stopped.");
                Stop();
            }
            if (arguments[0] == "clear")
            {
                m.DisplayNotification("Camera points cleared.");
                cameraPointsCount = 0;
                Stop();
            }
            if (arguments[0] == "save")
            {
                string s = "1,";
                for (int i = 0; i < cameraPointsCount; i++)
                {
                    CameraPoint point = cameraPoints[i];
                    s = p.StringFormat2("{0}{1},", s, p.IntToString(p.FloatToInt(point.positionGlX * 100)));
                    s = p.StringFormat2("{0}{1},", s, p.IntToString(p.FloatToInt(point.positionGlY * 100)));
                    s = p.StringFormat2("{0}{1},", s, p.IntToString(p.FloatToInt(point.positionGlZ * 100)));
                    s = p.StringFormat2("{0}{1},", s, p.IntToString(p.FloatToInt(point.orientationGlX * 1000)));
                    s = p.StringFormat2("{0}{1},", s, p.IntToString(p.FloatToInt(point.orientationGlY * 1000)));
                    s = p.StringFormat2("{0}{1}", s, p.IntToString(p.FloatToInt(point.orientationGlZ * 1000)));
                    if (i != cameraPointsCount - 1)
                    {
                        s = p.StringFormat("{0},", s);
                    }
                }
                p.ClipboardSetText(s);
                m.DisplayNotification("Camera points copied to clipboard.");
            }
            if (arguments[0] == "load")
            {
                IntRef   pointsLength = new IntRef();
                string[] points       = p.StringSplit(arguments[1], ",", pointsLength);
                int      n            = (pointsLength.value - 1) / 6;
                cameraPointsCount = 0;
                for (int i = 0; i < n; i++)
                {
                    CameraPoint point = new CameraPoint();
                    point.positionGlX    = one * p.IntParse(points[1 + i * 6 + 0]) / 100;
                    point.positionGlY    = one * p.IntParse(points[1 + i * 6 + 1]) / 100;
                    point.positionGlZ    = one * p.IntParse(points[1 + i * 6 + 2]) / 100;
                    point.orientationGlX = one * p.IntParse(points[1 + i * 6 + 3]) / 1000;
                    point.orientationGlY = one * p.IntParse(points[1 + i * 6 + 4]) / 1000;
                    point.orientationGlZ = one * p.IntParse(points[1 + i * 6 + 5]) / 1000;
                    cameraPoints[cameraPointsCount++] = point;
                }
                m.DisplayNotification(p.StringFormat("Camera points loaded: {0}", p.IntToString(n)));
            }
            return(true);
        }
        return(false);
    }
Exemplo n.º 15
0
 int IntParse(string s)
 {
     return(p.FloatToInt(FloatParse(s)));
 }
Exemplo n.º 16
0
    void ProcessPacket(int client, Packet_Client packet)
    {
        switch (packet.GetId())
        {
        case Packet_ClientIdEnum.PlayerIdentification:
        {
            if (packet.Identification == null)
            {
                return;
            }
            SendPacket(client, ServerPackets.Identification(0, MapSizeX, MapSizeY, MapSizeZ, platform.GetGameVersion()));
            clients[client].Name = packet.Identification.Username;
        }
        break;

        case Packet_ClientIdEnum.RequestBlob:
        {
            SendPacket(client, ServerPackets.LevelInitialize());
            for (int i = 0; i < blockTypesCount; i++)
            {
                Packet_BlockType blocktype = blockTypes[i];
                if (blocktype == null)
                {
                    blocktype = new Packet_BlockType();
                }
                SendPacket(client, ServerPackets.BlockType(i, blocktype));
            }
            SendPacket(client, ServerPackets.BlockTypes());
            SendPacket(client, ServerPackets.LevelFinalize());
            for (int i = 0; i < clientsCount; i++)
            {
                if (clients[i] == null)
                {
                    continue;
                }
                clients[i].glX = spawnGlX;
                clients[i].glY = spawnGlY;
                clients[i].glZ = spawnGlZ;
                Packet_PositionAndOrientation pos = new Packet_PositionAndOrientation();
                pos.X     = platform.FloatToInt(32 * clients[i].glX);
                pos.Y     = platform.FloatToInt(32 * clients[i].glY);
                pos.Z     = platform.FloatToInt(32 * clients[i].glZ);
                pos.Pitch = 255 / 2;
                //SendPacket(client, ServerPackets.Spawn(i, clients[i].Name, pos));
                Packet_ServerEntity e = new Packet_ServerEntity();
                e.DrawModel             = new Packet_ServerEntityAnimatedModel();
                e.DrawModel.Model_      = "player.txt";
                e.DrawModel.ModelHeight = platform.FloatToInt((one * 17 / 10) * 32);
                e.DrawModel.EyeHeight   = platform.FloatToInt((one * 15 / 10) * 32);
                e.Position = pos;
                SendPacket(client, ServerPackets.EntitySpawn(0, e));
                SendPacket(client, ServerPackets.PlayerStats(100, 100, 100, 100));
            }
            for (int i = 0; i < modsCount; i++)
            {
                mods[i].OnPlayerJoin(client);
            }
            clients[client].connected = true;
        }
        break;

        case Packet_ClientIdEnum.Message:
        {
            SendPacketToAll(ServerPackets.Message(platform.StringFormat2("{0}: &f{1}", clients[client].Name, packet.Message.Message)));
        }
        break;

        case Packet_ClientIdEnum.SetBlock:
        {
            int x     = packet.SetBlock.X;
            int y     = packet.SetBlock.Y;
            int z     = packet.SetBlock.Z;
            int block = packet.SetBlock.BlockType;
            int mode  = packet.SetBlock.Mode;
            if (mode == Packet_BlockSetModeEnum.Create)
            {
            }
            if (mode == Packet_BlockSetModeEnum.Destroy)
            {
                SendPacketToAll(ServerPackets.SetBlock(x, y, z, 0));
            }
            if (mode == Packet_BlockSetModeEnum.Use)
            {
            }
            if (mode == Packet_BlockSetModeEnum.UseWithTool)
            {
            }
        }
        break;

        case Packet_ClientIdEnum.PositionandOrientation:
        {
            clients[client].glX = one * packet.PositionAndOrientation.X / 32;
            clients[client].glY = one * packet.PositionAndOrientation.Y / 32;
            clients[client].glZ = one * packet.PositionAndOrientation.Z / 32;
        }
        break;

        case Packet_ClientIdEnum.InventoryAction:
        {
            switch (packet.InventoryAction.Action)
            {
            case Packet_InventoryActionTypeEnum.Click:
                break;
            }
        }
        break;
        }
    }
Exemplo n.º 17
0
    void UpdateTitleFps(float dt)
    {
        GamePlatform p = m.GetPlatform();

        fpscount++;
        longestframedt = MathCi.MaxFloat(longestframedt, dt);
        float elapsed = one * (p.TimeMillisecondsFromStart() - lasttitleupdateMilliseconds) / 1000;

        if (elapsed >= 1)
        {
            string fpstext1 = "";
            lasttitleupdateMilliseconds = p.TimeMillisecondsFromStart();
            fpstext1       = StringTools.StringAppend(p, fpstext1, p.StringFormat("FPS: {0}", p.IntToString(p.FloatToInt((one * fpscount) / elapsed))));
            fpstext1       = StringTools.StringAppend(p, fpstext1, p.StringFormat(" (min: {0})", p.IntToString(p.FloatToInt(one / longestframedt))));
            longestframedt = 0;
            fpscount       = 0;
            m.GetPerformanceInfo().Set("fps", fpstext1);

            string   s      = "";
            string[] l      = new string[64];
            int      lCount = 0;
            for (int i = 0; i < m.GetPerformanceInfo().count; i++)
            {
                if (m.GetPerformanceInfo().items[i] == null)
                {
                    continue;
                }
                l[lCount++] = m.GetPerformanceInfo().items[i].value;
            }

            int perline = 2;
            for (int i = 0; i < lCount; i++)
            {
                s = StringTools.StringAppend(p, s, l[i]);
                if ((i % perline == 0) && (i != lCount - 1))
                {
                    s = StringTools.StringAppend(p, s, ", ");
                }
                if (i % perline != 0)
                {
                    s = StringTools.StringAppend(p, s, "\n");
                }
            }
            fpstext = s;
        }
    }
Exemplo n.º 18
0
 public static int InterpolateColor(GamePlatform platform, float progress, int[] colors, int colorsLength)
 {
     float one = 1;
     int colora = platform.FloatToInt((colorsLength - 1) * progress);
     if (colora < 0) { colora = 0; }
     if (colora >= colorsLength) { colora = colorsLength - 1; }
     int colorb = colora + 1;
     if (colorb >= colorsLength) { colorb = colorsLength - 1; }
     int a = colors[colora];
     int b = colors[colorb];
     float p = (progress - (one * colora) / (colorsLength - 1)) * (colorsLength - 1);
     int A = platform.FloatToInt(Game.ColorA(a) + (Game.ColorA(b) - Game.ColorA(a)) * p);
     int R = platform.FloatToInt(Game.ColorR(a) + (Game.ColorR(b) - Game.ColorR(a)) * p);
     int G = platform.FloatToInt(Game.ColorG(a) + (Game.ColorG(b) - Game.ColorG(a)) * p);
     int B = platform.FloatToInt(Game.ColorB(a) + (Game.ColorB(b) - Game.ColorB(a)) * p);
     return Game.ColorFromArgb(A, R, G, B);
 }
Exemplo n.º 19
0
 static int VersionToInt(GamePlatform platform, string version)
 {
     int max = 1000 * 1000 * 1000;
     if (!IsVersionDate(platform, version))
     {
         return max;
     }
     FloatRef year = new FloatRef();
     FloatRef month = new FloatRef();
     FloatRef day = new FloatRef();
     if (platform.FloatTryParse(StringTools.StringSubstring(platform, version, 0, 4), year))
     {
         if (platform.FloatTryParse(StringTools.StringSubstring(platform, version, 5, 2), month))
         {
             if (platform.FloatTryParse(StringTools.StringSubstring(platform, version, 8, 2), day))
             {
                 int year_ = platform.FloatToInt(year.value);
                 int month_ = platform.FloatToInt(month.value);
                 int day_ = platform.FloatToInt(day.value);
                 return year_ * 10000 + month_ * 100 + day_;
             }
         }
     }
     return max;
 }
Exemplo n.º 20
0
    public ModelData GetSphereModelData2(ModelData data,
                                         GamePlatform platform,
                                         float radius, float height, int segments, int rings,
                                         int[] skyPixels_, int[] glowPixels_,
                                         float sunX, float sunY, float sunZ)
    {
        int i = 0;

        if (data == null)
        {
            data      = new ModelData();
            data.xyz  = new float[rings * segments * 3];
            data.uv   = new float[rings * segments * 2];
            data.rgba = new byte[rings * segments * 4];
            data.SetVerticesCount(segments * rings);
            data.SetIndicesCount(segments * rings * 6);
            data.setIndices(SphereModelData.CalculateElements(radius, height, segments, rings));
        }

        // Load data into a vertex buffer or a display list afterwards.

        for (int y = 0; y < rings; y++)
        {
            float yFloat   = y;
            float phiFloat = (yFloat / (rings - 1)) * Game.GetPi();
            for (int x = 0; x < segments; x++)
            {
                float xFloat = x;
                float theta  = (xFloat / (segments - 1)) * 2 * Game.GetPi();
                float vx     = radius * Platform.Sin(phiFloat) * Platform.Cos(theta);
                float vy     = height * Platform.Cos(phiFloat);
                float vz     = radius * Platform.Sin(phiFloat) * Platform.Sin(theta);
                float u      = xFloat / (segments - 1);
                float v      = yFloat / (rings - 1);
                data.xyz[i * 3 + 0] = vx;
                data.xyz[i * 3 + 1] = vy;
                data.xyz[i * 3 + 2] = vz;
                data.uv[i * 2 + 0]  = u;
                data.uv[i * 2 + 1]  = v;

                float vertexLength      = platform.MathSqrt(vx * vx + vy * vy + vz * vz);
                float vertexXNormalized = vx / vertexLength;
                float vertexYNormalized = vy / vertexLength;
                float vertexZNormalized = vz / vertexLength;

                float sunLength = platform.MathSqrt(sunX * sunX + sunY * sunY + sunZ * sunZ);
                if (sunLength == 0)
                {
                    sunLength = 1;
                }
                float sunXNormalized = sunX / sunLength;
                float sunYNormalized = sunY / sunLength;
                float sunZNormalized = sunZ / sunLength;

                // Compute the proximity of this fragment to the sun.

                float dx             = vertexXNormalized - sunXNormalized;
                float dy             = vertexYNormalized - sunYNormalized;
                float dz             = vertexZNormalized - sunZNormalized;
                float proximityToSun = 1 - (platform.MathSqrt(dx * dx + dy * dy + dz * dz) / 2);

                // Look up the sky color and glow colors.
                float one = 1;

                int skyColor = Texture2d(platform, skyPixels_, (sunYNormalized + 2) / 4, 1 - ((vertexYNormalized + 1) / 2));

                float skyColorA = one * Game.ColorA(skyColor) / 255;
                float skyColorR = one * Game.ColorR(skyColor) / 255;
                float skyColorG = one * Game.ColorG(skyColor) / 255;
                float skyColorB = one * Game.ColorB(skyColor) / 255;

                int   glowColor  = Texture2d(platform, glowPixels_, (sunYNormalized + one) / 2, 1 - proximityToSun);
                float glowColorA = one * Game.ColorA(glowColor) / 255;
                float glowColorR = one * Game.ColorR(glowColor) / 255;
                float glowColorG = one * Game.ColorG(glowColor) / 255;
                float glowColorB = one * Game.ColorB(glowColor) / 255;

                // Combine the color and glow giving the pixel value.
                float colorR = skyColorR + glowColorR * glowColorA;
                float colorG = skyColorG + glowColorG * glowColorA;
                float colorB = skyColorB + glowColorB * glowColorA;
                float colorA = skyColorA;

                if (colorR > 1)
                {
                    colorR = 1;
                }
                if (colorG > 1)
                {
                    colorG = 1;
                }
                if (colorB > 1)
                {
                    colorB = 1;
                }
                if (colorA > 1)
                {
                    colorA = 1;
                }

                data.rgba[i * 4 + 0] = Game.IntToByte(platform.FloatToInt(colorR * 255));
                data.rgba[i * 4 + 1] = Game.IntToByte(platform.FloatToInt(colorG * 255));
                data.rgba[i * 4 + 2] = Game.IntToByte(platform.FloatToInt(colorB * 255));
                data.rgba[i * 4 + 3] = Game.IntToByte(platform.FloatToInt(colorA * 255));
                i++;
            }
        }
        //data.setMode(DrawModeEnum.Triangles);
        return(data);
    }
Exemplo n.º 21
0
    public ModelData GetSphereModelData2(ModelData data,
    GamePlatform platform,
    float radius, float height, int segments, int rings,
    int[] skyPixels_, int[] glowPixels_,
    float sunX, float sunY, float sunZ)
    {
        int i = 0;

        if (data == null)
        {
            data = new ModelData();
            data.xyz = new float[rings * segments * 3];
            data.uv = new float[rings * segments * 2];
            data.rgba = new byte[rings * segments * 4];
            data.SetVerticesCount(segments * rings);
            data.SetIndicesCount(segments * rings * 6);
            data.setIndices(SphereModelData.CalculateElements(radius, height, segments, rings));
        }

        // Load data into a vertex buffer or a display list afterwards.

        for (int y = 0; y < rings; y++)
        {
            float yFloat = y;
            float phiFloat = (yFloat / (rings - 1)) * Game.GetPi();
            for (int x = 0; x < segments; x++)
            {
                float xFloat = x;
                float theta = (xFloat / (segments - 1)) * 2 * Game.GetPi();
                float vx = radius * Platform.Sin(phiFloat) * Platform.Cos(theta);
                float vy = height * Platform.Cos(phiFloat);
                float vz = radius * Platform.Sin(phiFloat) * Platform.Sin(theta);
                float u = xFloat / (segments - 1);
                float v = yFloat / (rings - 1);
                data.xyz[i * 3 + 0] = vx;
                data.xyz[i * 3 + 1] = vy;
                data.xyz[i * 3 + 2] = vz;
                data.uv[i * 2 + 0] = u;
                data.uv[i * 2 + 1] = v;

                float vertexLength = platform.MathSqrt(vx * vx + vy * vy + vz * vz);
                float vertexXNormalized = vx / vertexLength;
                float vertexYNormalized = vy / vertexLength;
                float vertexZNormalized = vz / vertexLength;

                float sunLength = platform.MathSqrt(sunX * sunX + sunY * sunY + sunZ * sunZ);
                if (sunLength == 0) { sunLength = 1; }
                float sunXNormalized = sunX / sunLength;
                float sunYNormalized = sunY / sunLength;
                float sunZNormalized = sunZ / sunLength;

                // Compute the proximity of this fragment to the sun.

                float dx = vertexXNormalized - sunXNormalized;
                float dy = vertexYNormalized - sunYNormalized;
                float dz = vertexZNormalized - sunZNormalized;
                float proximityToSun = 1 - (platform.MathSqrt(dx * dx + dy * dy + dz * dz) / 2);

                // Look up the sky color and glow colors.
                float one = 1;

                int skyColor = Texture2d(platform, skyPixels_, (sunYNormalized + 2) / 4, 1 - ((vertexYNormalized + 1) / 2));

                float skyColorA = one * Game.ColorA(skyColor) / 255;
                float skyColorR = one * Game.ColorR(skyColor) / 255;
                float skyColorG = one * Game.ColorG(skyColor) / 255;
                float skyColorB = one * Game.ColorB(skyColor) / 255;

                int glowColor = Texture2d(platform, glowPixels_, (sunYNormalized + one) / 2, 1 - proximityToSun);
                float glowColorA = one * Game.ColorA(glowColor) / 255;
                float glowColorR = one * Game.ColorR(glowColor) / 255;
                float glowColorG = one * Game.ColorG(glowColor) / 255;
                float glowColorB = one * Game.ColorB(glowColor) / 255;

                // Combine the color and glow giving the pixel value.
                float colorR = skyColorR + glowColorR * glowColorA;
                float colorG = skyColorG + glowColorG * glowColorA;
                float colorB = skyColorB + glowColorB * glowColorA;
                float colorA = skyColorA;

                if (colorR > 1) { colorR = 1; }
                if (colorG > 1) { colorG = 1; }
                if (colorB > 1) { colorB = 1; }
                if (colorA > 1) { colorA = 1; }

                data.rgba[i * 4 + 0] = Game.IntToByte(platform.FloatToInt(colorR * 255));
                data.rgba[i * 4 + 1] = Game.IntToByte(platform.FloatToInt(colorG * 255));
                data.rgba[i * 4 + 2] = Game.IntToByte(platform.FloatToInt(colorB * 255));
                data.rgba[i * 4 + 3] = Game.IntToByte(platform.FloatToInt(colorA * 255));
                i++;
            }
        }
        //data.setMode(DrawModeEnum.Triangles);
        return data;
    }
Exemplo n.º 22
0
    void DrawLocalPosition(Game game)
    {
        if (DRAW_POSITION)
        {
            GamePlatform p = m.GetPlatform();

            float heading = (((m.GetLocalOrientationY()) % (2 * Game.GetPi())) / (2 * Game.GetPi())) * 256;
            float pitch   = (((m.GetLocalOrientationX() + Game.GetPi()) % (2 * Game.GetPi())) / (2 * Game.GetPi())) * 256;

            // Y and Z axis are swapped for display as Z axis depicts height
            PositionLines[0] = p.StringFormat("X: {0}", p.IntToString(game.MathFloor(m.GetLocalPositionX())));
            PositionLines[1] = p.StringFormat("Y: {0}", p.IntToString(game.MathFloor(m.GetLocalPositionZ())));
            PositionLines[2] = p.StringFormat("Z: {0}", p.IntToString(game.MathFloor(m.GetLocalPositionY())));
            PositionLines[3] = p.StringFormat("Heading: {0}", p.IntToString(Game.IntToByte(p.FloatToInt(heading))));
            PositionLines[4] = p.StringFormat("Pitch: {0}", p.IntToString(Game.IntToByte(p.FloatToInt(pitch))));

            m.OrthoMode();
            for (int i = 0; i < PositionLinesCount; i++)
            {
                m.Draw2dText(PositionLines[i], 20, m.GetWindowHeight() - 100 + 1.5f * i * displayFont.size, displayFont);
            }
            m.PerspectiveMode();
        }
    }