I'm not really sure how to even describe this problem so please excuse the terrible title. I have a simple model ( it is actually a tile but I made it a cube to better illustrate the issue ) that is 2 units high, wide and deep. To draw a continuous field of these I simply increment X and Z by 2 appropriately and they all render nicely next to one another. If I want to create a step up so my flat field has a new level to it I add 2 to the Y value for a segment of the field expecting that the bottom of the top level would then align perfectly with the top of the lower level.
What actually happens is the top level renders a fair distance above the lower level. Why? What would cause this? I ran some tests and found that I'd have to increment Y by a number somewhere between 0.6 and 0.7 for the bottom to align properly with the top.
I thought maybe it was the viewport but I think that is fine. The models don't look warped. Has anyone run into something like this before?
See the attached image for an example of what I'm talking about. The red line illustrates this strange separation of the top and bottom layers.
The Render function
public void draw() throws Exception {
float x = 0;
double y = 0;
float z = 0;
int cidx = 0;
boolean firstCube = true;
glfwSwapBuffers(window); // swap the color buffers
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT); // clear the framebuffer
//calc rotate camera
if (updatecamera == true){
updateCamera();
}
glUseProgram(shader.iProgram);
//some lighting...
Vector4f lp = new Vector4f(lightX, lightY, lightZ,1.0f);
//float[] lp = {xa, ya + 100, za - 120,1.0f}; //set light source to same as camera eye for now.
shader.setUniform(iLightCam, camera);
shader.setUniform(iLightVec, lp);
//get picking ray
if (worldClicked == true){
pick = makeRay(pick, cursorX, (DISPLAY_HEIGHT - ((DISPLAY_HEIGHT - VP_HEIGHT) / 2)) - cursorY);
}
for(Iterator<Quad> qd = quads.iterator(); qd.hasNext(); ) {
//init cull check
frust.cullIn = 0;
frust.cullOut = 0;
quad = qd.next();
pickthisQuad = false;
firstCube = true; //the first cube is used to set the values of the Quad OBB.
for(Iterator<Cube> i = quad.cubes.iterator(); i.hasNext(); ) {
cb = i.next();
x = cb.x;
z = cb.z;
//y = cb.y;
//testing odd Y behaviour
if ( y == 0) {
y = lightX;
}else{
y = 0;
}
System.out.println(" y: " + y);
//init
model.setIdentity();
//ROTATE
//set translate
vTrans.set(transx + x, (float) (transy + y), transz + z);
Matrix4f.translate(vTrans, model1, model);
vTrans.set(-(transx + x), (float) (-transy + y), -(transz + z));
Matrix4f.translate(vTrans, model, model);
Matrix4f.rotate((float) Math.toRadians(rotY), new Vector3f(0,1,0), model, model);
vTrans.set((transx + x), (float) (transy + y), (transz + z));
Matrix4f.translate(vTrans, model, model);
Matrix4f.mul(model, camera, modelview);
shader.setUniform(iModelView, modelview);
Matrix3f norm = new Matrix3f();
norm.m00 = modelview.m00;
norm.m01 = modelview.m01;
norm.m02 = modelview.m02;
norm.m10 = modelview.m10;
norm.m11 = modelview.m11;
norm.m12 = modelview.m12;
norm.m20 = modelview.m20;
norm.m21 = modelview.m21;
norm.m22 = modelview.m22;
shader.setUniform(iNorm, norm);
shader.setUniform(iProj, projection);
shader.setUniform(iCam, camera);
shader.setUniform(iModel, model);
test_renderFrustumandCrosslines();
manageTextures(cb);
render();
cidx++;
}//cubes
cidx = 0;
}//quads
/**
* TESTING
*/
glUseProgram(shaderLine.iProgram);
Matrix4f mvp = new Matrix4f();
mvp.setIdentity();
Matrix4f.mul(projection, camera, mvp);
shaderLine.setUniform(iMVPLine, mvp);
renderLine();
renderCross();
worldClicked = false;
glFinish();
}