/// <summary>
/// Constructs a new demo.
/// </summary>
/// <param name="game">Game owning this demo.</param>
public BuoyancyDemo(DemosGame game)
: base(game)
{
var tris = new List<Vector3[]>();
float basinWidth = 100;
float basinLength = 100;
float basinHeight = 16;
float waterHeight = 15;
//Remember, the triangles composing the surface need to be coplanar with the surface. In this case, this means they have the same height.
tris.Add(new[]
{
new Vector3(-basinWidth / 2, waterHeight, -basinLength / 2), new Vector3(basinWidth / 2, waterHeight, -basinLength / 2),
new Vector3(-basinWidth / 2, waterHeight, basinLength / 2)
});
tris.Add(new[]
{
new Vector3(-basinWidth / 2, waterHeight, basinLength / 2), new Vector3(basinWidth / 2, waterHeight, -basinLength / 2),
new Vector3(basinWidth / 2, waterHeight, basinLength / 2)
});
var fluid = new FluidVolume(Vector3.Up, -9.81f, tris, waterHeight, .8f, .8f, .7f);
Space.ForceUpdater.Gravity = new Vector3(0, -9.81f, 0);
//fluid.FlowDirection = Vector3.Right;
//fluid.FlowForce = 80;
//fluid.MaxFlowSpeed = 50;
Space.Add(fluid);
game.ModelDrawer.Add(fluid);
//Create the container.
Space.Add(new Box(new Vector3(0, 0, 0), basinWidth, 1, basinLength));
Space.Add(new Box(new Vector3(-basinWidth / 2 - .5f, basinHeight / 2 - .5f, 0), 1, basinHeight, basinLength));
Space.Add(new Box(new Vector3(basinWidth / 2 + .5f, basinHeight / 2 - .5f, 0), 1, basinHeight, basinLength));
Space.Add(new Box(new Vector3(0, basinHeight / 2 - .5f, -basinLength / 2 - .5f), basinWidth + 2, basinHeight, 1));
Space.Add(new Box(new Vector3(0, basinHeight / 2 - .5f, basinLength / 2 + .5f), basinWidth + 2, basinHeight, 1));
//Create a tiled floor.
Entity toAdd;
float boxWidth = 10;
int numBoxesWide = 8;
for (int i = 0; i < numBoxesWide; i++)
{
for (int k = 0; k < numBoxesWide; k++)
{
toAdd = new Box(new Vector3(
-boxWidth * numBoxesWide / 2f + (boxWidth + .1f) * i,
15,
-boxWidth * numBoxesWide / 2f + (boxWidth + .1f) * k),
boxWidth, 5, boxWidth, 300);
Space.Add(toAdd);
}
}
//Create a bunch o' spheres and dump them into the water.
//Random random = new Random();
//for (int k = 0; k < 80; k++)
//{
// var toAddSphere = new Sphere(new Vector3(-48 + k * 1f, 12 + 4 * k, random.Next(-15, 15)), 2, 27);
// Space.Add(toAddSphere);
//}
game.Camera.Position = new Vector3(0, waterHeight + 5, 35);
}
/// <summary>
/// Constructs a new demo.
/// </summary>
/// <param name="game">Game owning this demo.</param>
public BuoyancyDemo(DemosGame game)
: base(game)
{
var tris = new List<Vector3[]>();
float basinWidth = 100;
float basinLength = 100;
float basinHeight = 16;
float waterHeight = 15;
//Remember, the triangles composing the surface need to be coplanar with the surface. In this case, this means they have the same height.
tris.Add(new[]
{
new Vector3(-basinWidth / 2, waterHeight, -basinLength / 2), new Vector3(basinWidth / 2, waterHeight, -basinLength / 2),
new Vector3(-basinWidth / 2, waterHeight, basinLength / 2)
});
tris.Add(new[]
{
new Vector3(-basinWidth / 2, waterHeight, basinLength / 2), new Vector3(basinWidth / 2, waterHeight, -basinLength / 2),
new Vector3(basinWidth / 2, waterHeight, basinLength / 2)
});
var fluid = new FluidVolume(Vector3.Up, -9.81f, tris, waterHeight, .8f, .8f, .7f, Space.BroadPhase.QueryAccelerator, Space.ThreadManager);
//fluid.FlowDirection = Vector3.Right;
//fluid.FlowForce = 80;
//fluid.MaxFlowSpeed = 50;
Space.Add(fluid);
game.ModelDrawer.Add(fluid);
//Create the container.
Space.Add(new Box(new Vector3(0, 0, 0), basinWidth, 1, basinLength));
Space.Add(new Box(new Vector3(-basinWidth / 2 - .5f, basinHeight / 2 - .5f, 0), 1, basinHeight, basinLength));
Space.Add(new Box(new Vector3(basinWidth / 2 + .5f, basinHeight / 2 - .5f, 0), 1, basinHeight, basinLength));
Space.Add(new Box(new Vector3(0, basinHeight / 2 - .5f, -basinLength / 2 - .5f), basinWidth + 2, basinHeight, 1));
Space.Add(new Box(new Vector3(0, basinHeight / 2 - .5f, basinLength / 2 + .5f), basinWidth + 2, basinHeight, 1));
var random = new Random();
//Create a bunch of random blocks.
/*for (int k = 0; k < 1; k++)
{
toAddBox = new Box(new Vector3(random.Next((int)basinWidth) - basinWidth / 2f, 30 + (.1f) * k, random.Next((int)basinLength) - basinLength / 2f), 2, 4, 2, 12);
toAddBox.CollisionMargin = .2f;
toAddBox.AllowedPenetration = .1f;
toAddBox.Orientation = Quaternion.Normalize(new Quaternion((float)random.NextDouble(), (float)random.NextDouble(), (float)random.NextDouble(), (float)random.NextDouble()));
space.Add(toAddBox);
}*/
//Create a tiled floor.
Entity toAdd;
float boxWidth = 10;
int numBoxesWide = 8;
for (int i = 0; i < numBoxesWide; i++)
{
for (int k = 0; k < numBoxesWide; k++)
{
toAdd = new Box(new Vector3(
-boxWidth * numBoxesWide / 2f + (boxWidth + .1f) * i,
15,
-boxWidth * numBoxesWide / 2f + (boxWidth + .1f)* k),
boxWidth, 5, boxWidth, 300);
Space.Add(toAdd);
}
}
//Create a bunch o' spheres and dump them into the water.
/*for (int k = 0; k < 80; k++)
{
toAddSphere = new Sphere(new Vector3(-48 + k * 1f, 12 + 4 * k, (float)random.Next(-15, 15)), 2, 27);
space.Add(toAddSphere);
}*/
game.Camera.Position = new Vector3(0, waterHeight + 5, 35);
}