SQCSimulator2023/SQCSim2021/external/irrKlang-64bit-1.6.0/examples.net/CSharp.02.3DSound/Class1.cs

121 lines
3.6 KiB
C#

using System;
using IrrKlang;
namespace CSharp._02._3DSound
{
class Class1
{
[STAThread]
static void Main(string[] args)
{
// start the sound engine with default parameters
ISoundEngine engine = new ISoundEngine();
// Now play some sound stream as music in 3d space, looped.
// We play it at position (0,0,0) in 3d space
ISound music = engine.Play3D("../../media/ophelia.mp3",
0,0,0, true);
// the following step isn't necessary, but to adjust the distance where
// the 3D sound can be heard, we set some nicer minimum distance
// (the default min distance is 1, for a small object). The minimum
// distance simply is the distance in which the sound gets played
// at maximum volume.
if (music != null)
music.MinDistance = 5.0f;
// Print some help text and start the display loop
Console.Out.Write("\nPlaying streamed sound in 3D.");
Console.Out.Write("\nPress ESCAPE to quit, any other key to play sound at random position.\n\n");
Console.Out.Write("+ = Listener position\n");
Console.Out.Write("o = Playing sound\n");
Random rand = new Random(); // we need random 3d positions
const float radius = 5;
float posOnCircle = 0;
while(true) // endless loop until user exits
{
// Each step we calculate the position of the 3D music.
// For this example, we let the
// music position rotate on a circle:
posOnCircle += 0.04f;
Vector3D pos3d = new Vector3D(radius * (float)Math.Cos(posOnCircle), 0,
radius * (float)Math.Sin(posOnCircle * 0.5f));
// After we know the positions, we need to let irrKlang know about the
// listener position (always position (0,0,0), facing forward in this example)
// and let irrKlang know about our calculated 3D music position
engine.SetListenerPosition(0,0,0, 0,0,1);
if (music != null)
music.Position = pos3d;
// Now print the position of the sound in a nice way to the console
// and also print the play position
string stringForDisplay = " + ";
int charpos = (int)((pos3d.X + radius) / radius * 10.0f);
if (charpos >= 0 && charpos < 20)
{
stringForDisplay = stringForDisplay.Remove(charpos, 1);
stringForDisplay = stringForDisplay.Insert(charpos, "o");
}
uint playPos = 0;
if (music != null)
playPos = music.PlayPosition;
string output = String.Format("\rx:({0}) 3dpos: {1:f} {2:f} {3:f}, playpos:{4}:{5:00} ",
stringForDisplay, pos3d.X, pos3d.Y, pos3d.Z,
playPos/60000, (playPos%60000)/1000);
Console.Write(output);
System.Threading.Thread.Sleep(100);
// Handle user input: Every time the user presses a key in the console,
// play a random sound or exit the application if he pressed ESCAPE.
if (_kbhit()!=0)
{
int key = _getch();
if (key == 27)
break; // user pressed ESCAPE key
else
{
// Play random sound at some random position.
Vector3D pos = new Vector3D(((float)rand.NextDouble() % radius*2.0f) - radius, 0, 0);
string filename;
if (rand.Next()%2 != 0)
filename = "../../media/bell.wav";
else
filename = "../../media/explosion.wav";
engine.Play3D(filename, pos.X, pos.Y, pos.Z);
Console.Write("\nplaying {0} at {1:f} {2:f} {3:f}\n",
filename, pos.X, pos.Y, pos.Z);
}
}
}
}
// simple functions for reading keys from the console
[System.Runtime.InteropServices.DllImport("msvcrt")]
static extern int _kbhit();
[System.Runtime.InteropServices.DllImport("msvcrt")]
static extern int _getch();
}
}