The OpenGL technique can be incredibly opaque and confusing. I know! I've been writing 3D engines based upon OpenGL for years (off and on). In my case part of the problem is, I write the engine to hide the underlying 3D API (OpenGL), so once I get something working I never see the OpenGL code again.
But here is one technique that helps my brain comprehend the "OpenGL way". I think this way of thinking about it is true (but not the whole story).
Think about the hardware graphics/GPU cards. They have certain capabilities implemented in hardware. For example, the GPU may only be able to update (write) one texture at a time. Nonetheless, it is mandatory that the GPU contain many textures within the RAM inside the GPU, because transfer between CPU memory and GPU memory is very slow.
So what the OpenGL API does is to create the notion of an "active texture". Then when we call an OpenGL API function to copy an image into a texture, we must do it this way:
1: generate a texture and assign its identifier to an unsigned integer variable.
2: bind the texture to the GL_TEXTURE bind point (or some such bind point).
3: specify the size and format of the texture bound to GL_TEXTURE target.
4: copy some image we want on the texture to the GL_TEXTURE target.
And if we want to draw an image on another texture, we must repeat that same process.
When we are finally ready to render something on the display, we need our code to make one or more of the textures we created and copied images upon to become accessible by our fragment shader.
As it turns out, the fragment shader can access more than one texture at a time by accessing multiple "texture units" (one texture per texture unit). So, our code must bind the textures we want to make available to the texture units our fragment shaders expect them bound to.
So we must do something like this:
glBindTexture (GL_TEXTURE_2D, mytexture0);
glBindTexture (GL_TEXTURE_2D, mytexture1);
glBindTexture (GL_TEXTURE_2D, mytexture2);
glBindTexture (GL_TEXTURE_2D, mytexture3);
Now, I must say that I love OpenGL for many reasons, but this approach drive me CRAZY. That's because all the software I have written for years would look like this instead:
error = glSetTexture (GL_TEXTURE0, GL_TEXTURE_2D, mytexture0);
error = glSetTexture (GL_TEXTURE1, GL_TEXTURE_2D, mytexture1);
error = glSetTexture (GL_TEXTURE2, GL_TEXTURE_2D, mytexture2);
error = glSetTexture (GL_TEXTURE3, GL_TEXTURE_2D, mytexture3);
Bamo. No need for setting all this state over and over and over again. Just specify which texture-unit to attach the texture to, plus the texture-type to indicate how to access the texture, plus the ID of the texture I want to attach to the texture unit.
I also wouldn't need to bind a texture as the active texture to copy an image to it, I would just give the ID of the texture I wanted to copy to. Why should it need to be bound?
Well, there's the catch that forces OpenGL to be structured in the crazy way it is. Because the hardware does some things, and the software driver does other things, and because what is done where is a variable (depends on GPU card), they need some way to keep the complexity under control. Their solution is essentially to have only one bind point for each kind of entity/object, and to require we bind our entities to those bind points before we call functions that manipulate them. And as a second purpose, binding entities is what makes them available to the GPU, and our various shaders that execute in the GPU.
At least that's how I keep the "OpenGL way" straight in my head. Frankly, if someone really, really, REALLY understands all the reasons OpenGL is (and must be) structured the way it is, I'd love them to post their own reply. I believe this is an important question and topic, and the rationale is rarely if ever described at all, much less in a manner that my puny brain can comprehend.