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I'm attempting to write some simple test programs in LWJGL. I've constructed a ByteBuffer object full of floating point values representing a 2D grid of points.

When I render the grid using glBegin/glEnd I see the proper output:

    float[] values = new float[MESH_SIZE * MESH_SIZE * 4];
    for (int i = 0; i < MESH_SIZE * MESH_SIZE; ++i) {
        int offset = i * 4;
        glVertex3f(values[offset], values[offset + 1], values[offset + 2]);

When I render it using glVertexPointer, it fails to produce anything other than a single point at the center of the screen.

    glVertexPointer(3, GL_FLOAT, 4 * 4, heightField);
    glDrawArrays(GL_POINTS, 0, MESH_SIZE * MESH_SIZE);

My reading of the OpenGL and lwjgl docs is that that these two pieces of code should produce the same output, but they clearly don't. What am I missing?

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It looks like in the first one you convert the heightField object into an array of floats. But in the second one you're passing a pointer to the object, which includes its vtable and all the other fun stuff in addition to the data. –  user1118321 May 16 '13 at 3:05
The glVertexPointer is an LWJGL method that explicitly takes a FloatBuffer, or ByteBuffer, depending on the overload you call. Java is strongly typed and it's not possible to simply pass a pointer where you intended to pass an array. –  Jherico May 16 '13 at 5:09
The way you build your mesh you could/should set the stride value to 0, indicating tightly packed data. –  datenwolf May 16 '13 at 7:27
@datenwolf But then he would have to use 4 instead of 3 as size (and hope that the fourth component is always 1). –  Christian Rau May 16 '13 at 8:11
@ChristianRau: Oh, good catch; but you shouldn't leave arrays uninitialized anyway; so initializing the %3 elements to 1 would make sense. –  datenwolf May 16 '13 at 8:19

1 Answer 1

Sadly the problem isn't visible in the question. Eventually experimentation revealed that the construction of the buffer was at fault. I was using this code to initialize the buffer

    heightField = ByteBuffer.allocateDirect(vertex_count * 4 * 4);

However, which I switched to this line, the code started working

    heightField = BufferUtils.createByteBuffer(vertex_count * 4 * 4);

It turns out that ByteBuffer.allocateDirect() does not default to the hardware byte order, but instead defaults to Java's byte order. This means that when passed in to the native GL function, the floats in the buffer had reversed byte order. That's why I saw a single dot in the center of the screen. The 0,0 point was the same either way, but all the other bytes were probably wildly outside of the rendering viewport.

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In case you did not know there is a utility class in LWJGL called BufferUtils which should create the buffers with the correct ordering for you. lwjgl.org/javadoc/org/lwjgl/BufferUtils.html –  Aaron May 16 '13 at 14:00
If you look closely you'll see that's what I'm using on the second line. –  Jherico May 16 '13 at 15:22
Sorry, my mistake. –  Aaron May 16 '13 at 15:54

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