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      Download the Game Design and Indie Game Marketing Freebook   07/19/17

      GameDev.net and CRC Press have teamed up to bring a free ebook of content curated from top titles published by CRC Press. The freebook, Practices of Game Design & Indie Game Marketing, includes chapters from The Art of Game Design: A Book of Lenses, A Practical Guide to Indie Game Marketing, and An Architectural Approach to Level Design. The GameDev.net FreeBook is relevant to game designers, developers, and those interested in learning more about the challenges in game development. We know game development can be a tough discipline and business, so we picked several chapters from CRC Press titles that we thought would be of interest to you, the GameDev.net audience, in your journey to design, develop, and market your next game. The free ebook is available through CRC Press by clicking here. The Curated Books The Art of Game Design: A Book of Lenses, Second Edition, by Jesse Schell Presents 100+ sets of questions, or different lenses, for viewing a game’s design, encompassing diverse fields such as psychology, architecture, music, film, software engineering, theme park design, mathematics, anthropology, and more. Written by one of the world's top game designers, this book describes the deepest and most fundamental principles of game design, demonstrating how tactics used in board, card, and athletic games also work in video games. It provides practical instruction on creating world-class games that will be played again and again. View it here. A Practical Guide to Indie Game Marketing, by Joel Dreskin Marketing is an essential but too frequently overlooked or minimized component of the release plan for indie games. A Practical Guide to Indie Game Marketing provides you with the tools needed to build visibility and sell your indie games. With special focus on those developers with small budgets and limited staff and resources, this book is packed with tangible recommendations and techniques that you can put to use immediately. As a seasoned professional of the indie game arena, author Joel Dreskin gives you insight into practical, real-world experiences of marketing numerous successful games and also provides stories of the failures. View it here. An Architectural Approach to Level Design This is one of the first books to integrate architectural and spatial design theory with the field of level design. The book presents architectural techniques and theories for level designers to use in their own work. It connects architecture and level design in different ways that address the practical elements of how designers construct space and the experiential elements of how and why humans interact with this space. Throughout the text, readers learn skills for spatial layout, evoking emotion through gamespaces, and creating better levels through architectural theory. View it here. Learn more and download the ebook by clicking here. Did you know? GameDev.net and CRC Press also recently teamed up to bring GDNet+ Members up to a 20% discount on all CRC Press books. Learn more about this and other benefits here.
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Josip Mati?

I'm saving a monster

3 posts in this topic

Ok. I honestly though I got out of this phase.

        private void saveFileDialog1_FileOk(object sender, CancelEventArgs e)
        {
            List<int> wallX = new List<int>();
            List<int> wallY = new List<int>();
            List<Color> wallColor = new List<Color>();

            List<int> spikeX = new List<int>();
            List<int> spikeY = new List<int>();

            List<int> switchX = new List<int>();
            List<int> switchY = new List<int>();
            List<Color> switchColor = new List<Color>();

            List<int> laserWallX = new List<int>();
            List<int> laserWallY = new List<int>();
            List<Color> laserWallColor = new List<Color>();

            List<int> laserX = new List<int>();
            List<int> laserY = new List<int>();
            List<Color> laserColor = new List<Color>();
            List<bool> isHorizontal = new List<bool>();

            int ballX = -1;
            int ballY = -1;
            Color ballColor = Color.Transparent;

            int exitX = -1;
            int exitY = -1;

            for (int x = 0; x < tiles.GetLength(0); x++)
                for (int y = 0; y < tiles.GetLength(1); y++)
                {
                    switch (tiles[x, y])
                    {
                        case Tiles.GrayWall:
                            wallX.Add(x);
                            wallY.Add(y);
                            wallColor.Add(Color.Gray);
                            break;

                        case Tiles.CyanWall:
                            wallX.Add(x);
                            wallY.Add(y);
                            wallColor.Add(Color.Cyan);
                            break;

                        case Tiles.YellowWall:
                            wallX.Add(x);
                            wallY.Add(y);
                            wallColor.Add(Color.Yellow);
                            break;

                        case Tiles.MagentaWall:
                            wallX.Add(x);
                            wallY.Add(y);
                            wallColor.Add(Color.Magenta);
                            break;

                        case Tiles.GrayLaserWall:
                            laserWallX.Add(x);
                            laserWallY.Add(y);
                            laserWallColor.Add(Color.Gray);
                            break;

                        case Tiles.CyanLaserWall:
                            laserWallX.Add(x);
                            laserWallY.Add(y);
                            laserWallColor.Add(Color.Cyan);
                            break;

                        case Tiles.YellowLaserWall:
                            laserWallX.Add(x);
                            laserWallY.Add(y);
                            laserWallColor.Add(Color.Yellow);
                            break;

                        case Tiles.MagentaLaserWall:
                            laserWallX.Add(x);
                            laserWallY.Add(y);
                            laserWallColor.Add(Color.Magenta);
                            break;

                        case Tiles.GraySwitch:
                            switchX.Add(x);
                            switchY.Add(y);
                            switchColor.Add(Color.Gray);
                            break;

                        case Tiles.RedSwitch:
                            switchX.Add(x);
                            switchY.Add(y);
                            switchColor.Add(Color.Red);
                            break;

                        case Tiles.BlueSwitch:
                            switchX.Add(x);
                            switchY.Add(y);
                            switchColor.Add(Color.Blue);
                            break;

                        case Tiles.GreenSwitch:
                            switchX.Add(x);
                            switchY.Add(y);
                            switchColor.Add(Color.Green);
                            break;

                        case Tiles.Spikes:
                            spikeX.Add(x);
                            spikeY.Add(y);
                            break;

                        case Tiles.Exit:
                            exitX = x;
                            exitY = y;
                            break;

                        case Tiles.GrayBall:
                            ballX = x;
                            ballY = y;
                            ballColor = Color.Gray;
                            break;

                        case Tiles.RedBall:
                            ballX = x;
                            ballY = y;
                            ballColor = Color.Red;
                            break;

                        case Tiles.BlueBall:
                            ballX = x;
                            ballY = y;
                            ballColor = Color.Blue;
                            break;

                        case Tiles.GreenBall:
                            ballX = x;
                            ballY = y;
                            ballColor = Color.Green;
                            break;

                        case Tiles.HorizontalGrayLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Gray);
                            isHorizontal.Add(true);
                            break;

                        case Tiles.HorizontalRedLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Red);
                            isHorizontal.Add(true);
                            break;

                        case Tiles.HorizontalBlueLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Blue);
                            isHorizontal.Add(true);
                            break;

                        case Tiles.HorizontalGreenLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Green);
                            isHorizontal.Add(true);
                            break;

                        case Tiles.VerticalGrayLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Gray);
                            isHorizontal.Add(false);
                            break;

                        case Tiles.VerticalRedLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Red);
                            isHorizontal.Add(false);
                            break;

                        case Tiles.VerticalBlueLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Blue);
                            isHorizontal.Add(false);
                            break;

                        case Tiles.VerticalGreenLaser:
                            laserX.Add(x);
                            laserY.Add(y);
                            laserColor.Add(Color.Green);
                            isHorizontal.Add(false);
                            break;
                    }
                }

            using (BinaryWriter writer = new BinaryWriter(File.Create(saveFileDialog1.FileName)))
            {
                writer.Write(tiles.GetLength(0));
                writer.Write(tiles.GetLength(1));
                writer.Write("#");

                writer.Write(ballX);
                writer.Write(ballY);
                writer.Write(ballColor.ToArgb());
                writer.Write("#");

                writer.Write(exitX);
                writer.Write(exitY);
                writer.Write("#");

                writer.Write(spikeX.Count);
                for (int i = 0; i < spikeX.Count; i++)
                {
                    writer.Write(spikeX[i]);
                    writer.Write(spikeY[i]);
                }
                writer.Write("#");

                writer.Write(wallX.Count);
                for (int i = 0; i < wallColor.Count; i++)
                {
                    writer.Write(wallX[i]);
                    writer.Write(wallY[i]);
                    writer.Write(wallColor[i].ToArgb());
                }
                writer.Write("#");

                writer.Write(laserWallX.Count);
                for (int i = 0; i < laserWallColor.Count; i++)
                {
                    writer.Write(laserWallX[i]);
                    writer.Write(laserWallY[i]);
                    writer.Write(laserWallColor[i].ToArgb());
                }
                writer.Write("#");

                writer.Write(switchX.Count);
                for (int i = 0; i < switchColor.Count; i++)
                {
                    writer.Write(switchX[i]);
                    writer.Write(switchY[i]);
                    writer.Write(switchColor[i].ToArgb());
                }
                writer.Write("#");

                writer.Write(laserX.Count);
                for (int i = 0; i < laserX.Count; i++)
                {
                    writer.Write(laserX[i]);
                    writer.Write(laserY[i]);
                    writer.Write(laserColor[i].ToArgb());
                    writer.Write(isHorizontal[i]);
                }
                writer.Write("#");
            }
        }

Code is pretty much self explanatory (I hope). And no, I have no idea in which state my mind was when I wrote that.

 

Now, if I don't get that under 30 lines of maintainable code...

 

EDIT: I did it. 18 lines of code. Slap me.

Edited by Aurioch
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Each item could be a separate object, so you could use one arraylist instead of 3 or 4 ... makes it much easier to handle multiple "like" items

Pseudo code for a laser class:

public class Laser{
         int locX;
         int locY;
         Color color;
         boolean horizontal;
         
              public Laser(int x, int y, Color c, boolean b){
                   locX = x;
                   locY = y;
                   color = c;
                   horizontal = b;
              }
              
              public int getLaserX(){return locX;}
              public int getLaserY(){return locY;}
              public Color getLaserColor(){return color;}
              public boolean getIsHorizontal(){return horizontal;}
              
              public void setLaserX(int n){locX = n;};
              public void setLaserY(int n){locY = n;};
              public void setLaserColor(int r,int g, int b){color = new Color(r,g,b);};
              public void setHorizontal(boolean b){horizontal = b;}
              
              }

Edited by Shippou
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EDIT: I did it. 18 lines of code. Slap me.

You can't say that and then not post the result...

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Sorry, was sleepy XD

        private void saveFileDialog1_FileOk(object sender, CancelEventArgs e)
        {
            using (BinaryWriter writer = new BinaryWriter(File.Create(saveFileDialog1.FileName)))
            {
                int a = tiles.GetLength(0);
                int b = tiles.GetLength(1);

                writer.Write(a);
                writer.Write(b);

                for (int x = 0; x < a; x++)
                    for (int y = 0; y < b; y++)
                    {
                        if (tiles[x, y] == Tiles.None) continue;

                        writer.Write(x);
                        writer.Write(y);
                        writer.Write((int)tiles[x, y]);
                    }

                writer.Close();
            }
        }

Ok, 25 lines of code (whitespace and bracket-only included) as 18 was incomplete method...

And yes, it perfectly works. Game properly loads and plays through levels ^^

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