= Orthogonal projection coordinate system 만들기 =
{{{#!vim java

	public void onSurfaceChanged(GL10 gl, int width, int height) {
		
		this.m_width = width;
		this.m_height = height;
		
		if(buffer == null) {
			
			Util.LOGD("make framebuffer");
			world = new World();
			m_cam = world.getCamera();
			
			// light mass
			world.setAmbientLight(0xff, 0xff, 0xff);
			
			// making background plane
			float[] coordinates = { // position of vertices
				0.0f, 0.0f, 0.0f,
				m_width, 0.0f, 0.0f,
				0.0f, m_height, 0.0f,
				m_width, m_height, 0.0f
			};

			float[] uvs = { // how uv mapped?
				0.0f, 0.0f, 
				1.0f, 0.0f, 
				0.0f, 1.0f, 
				1.0f, 1.0f
			};
			
			int[] indices = { // index of each coordinate
				0, 2, 1,
				1, 2, 3
			};

			// make plane
			Object3D plane = new Object3D(coordinates, uvs, indices, RMObject2D.getTextureIDByColor(Color.white));
			plane.build();
			Util.LOGD("center: " + plane.getTransformedCenter());
			world.addObject(plane);
			
			// FOV settings
			m_cam.setFOVLimits(0.1f, 2.0f);
			m_cam.setFOV(0.1f);
			
			// set up camera
			// z = (width/2) / tan(fov/2)
			m_cam.setPosition(m_width/2, m_height/2, (float) -(m_width/2/Math.tan(m_cam.getFOV()/2.0f)));
			m_cam.lookAt(plane.getTransformedCenter());
			fixCubePosition();
			
			// configuration to view far object
			Config.farPlane = Math.abs(m_cam.getPosition().z) + 1000f;
		}
		
		// make framebuffer
		if(buffer != null)
			buffer.dispose();
		buffer = new FrameBuffer(m_width, m_height, FrameBuffer.SAMPLINGMODE_NORMAL);
	}
}}}


= FillBox class =
{{{#!vim java
package cau.rpg.maker.object;

import java.awt.Color;

import javax.vecmath.Vector2f;

import com.threed.jpct.Object3D;

public class RMFillBox extends RMObject2D {

	public RMFillBox(float x1, float y1, float x2, float y2, Color color)
	{
		init(x1, y1, x2, y2, color);
	}
	
	public RMFillBox(Vector2f vStart, Vector2f vEnd, Color color)
	{
		init(vStart.x, vStart.y, vEnd.x, vEnd.y, color);
	}
	
	private void init(float x1, float y1, float x2, float y2, Color color)
	{
		if(x1 >= x2 || y1 >= y2)
			return;
		
		float z = -10f;
		
		float[] coords = {
			x1, y1, z,		// up left
			x1, y2, z,		// bottom left
			x2, y1, z,		// up right
			x2, y2, z		// bottom right corner
		};
		
		float[] uvs = {
			0f, 0f,
			0f, 1f,
			1f, 0f,
			1f, 1f
		};
		
		int[] indices = {
			0, 1, 2,
			2, 1, 3
		};
		
		m_polygon = new Object3D(coords, uvs, indices, getTextureIDByColor(color));
	}
}

}}}

= 2D line class =
{{{#!vim java
package cau.rpg.maker.object;

import java.awt.Color;

import javax.vecmath.Vector2f;
import javax.vecmath.Vector3f;

import com.threed.jpct.Object3D;

public class RMLine extends RMObject2D {
	
	private static final Vector3f vectorZ = new Vector3f(0, 0, -1);
	
	public RMLine(Vector2f vStart, Vector2f vEnd, float width, Color color)
	{
		float z = -10f;
		Vector3f v3Start = new Vector3f(vStart.x, vStart.y, z);
		Vector3f v3End = new Vector3f(vEnd.x, vEnd.y, z);
		
		// line vector
		Vector3f lineVector = new Vector3f();
		lineVector.sub(v3End, v3Start);
		
		// calc normal vector of line
		Vector3f normal = new Vector3f();
		normal.cross(lineVector, vectorZ);
		normal.normalize();
		normal.scale(width/2.0f);
		
		float[] coords = {
			(vStart.x + normal.x), (vStart.y + normal.y), z,
			(vStart.x - normal.x), (vStart.y - normal.y), z,
			(vEnd.x + normal.x), (vEnd.y + normal.y), z,
			(vEnd.x - normal.x), (vEnd.y - normal.y), z
		};
		
		float[] uvs = {
			0f, 0f,
			0f, 1f,
			1f, 0f,
			1f, 1f
		};
		
		int[] indices = {
			0, 2, 1,
			1, 2, 3
		};
		
		m_polygon = new Object3D(coords, uvs, indices, getTextureIDByColor(color));
	}

}
}}}