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I'm rendering a custom texture using a WebGLRenderTarget. What I need now is to be able to draw the resulting renderTarget.texture directly to the canvas, without adding it to a plane first.

The reason for this is that my camera is orbiting and moving a lot, and I want the texture to be fixed on the top-right corner, like a billboard, without getting left behind.Example

My pseudo-code looks like this:

// Create renderer 1
var renderer1 = new THREE.WebGLRenderer();
renderer1.setSize(window.innerWidth, window.innerHeight);
document.body.appendChild(renderer1.domElement);

// Create renderer 2
var renderer2 = new THREE.WebGLRenderer();
renderer2.setSize(100, 100);
document.body.appendChild(renderer2.domElement);

var renderTarget = new THREE.WebGLRenderTarget(100, 100);

// Create texture to renderTarget
renderer1.render(textureScene, ortoCam, renderTarget, false);

// Render textureScene to second renderer to see texture
renderer2.render(textureScene, ortoCam);

// Render the rest of the scene, with a moving perspective camera
renderer1.render(scene, perspCam);

This works, but feels very inefficient, especially since I'm creating a second renderer to add a second 100x100 canvas. Is there any way to grab the renderTarget.texture and draw it on top of the first canvas so I can skip using the second renderer? I need the renderTarget output to create height maps, but also need it to be visible in a billboard fashion on the top-right corner.

Update: I've tried creating a 2D canvas context and using context.drawImage(this.renderTarget.texture.image, 10, 10, 20, 20); but renderTarget.texture.image is undefined. Any ideas why I can't get that image data?

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    you dont need a second renderer, you dont even need a second scene but it would make things a lot easier. – pailhead Jan 30 '17 at 22:05
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You should only need a single renderer.

You can render an overlay inset by using a pattern like so:

renderer = new THREE.WebGLRenderer();
renderer.setSize( window.innerWidth, window.innerHeight );
renderer.autoClear = false; // important!
document.body.appendChild( renderer.domElement );

In the render() function,

renderer.clear();

// render to texture
renderer.render( texture_scene, ortho_camera, renderTarget, true );

// render scene first
renderer.setViewport( 0, 0, window.innerWidth, window.innerHeight );
renderer.render( scene, camera );

// render inset second
renderer.clearDepth(); // clear the depth buffer
renderer.setViewport( 10, window.innerHeight - insetHeight - 10, insetWidth, insetHeight );
renderer.render( inset_scene, ortho_camera );

three.js r.84

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  • Hmm... I didn't know about the setViewport() method. What is inset_scene? Is that the same as the texture_scene? – Marquizzo Jan 25 '17 at 2:10
  • The inset_scene in your case would likely be a "full-screen-quad" -- just a plane in front of the orthographic camera with plane.material.map = renderTarget.texture; – WestLangley Jan 25 '17 at 2:19
  • Ah, I see. So there's no native way to "paint" the texture being output by WebGLRenderTarget directly to the canvas? I was hoping to avoid a third scene and render call, but this should work! – Marquizzo Jan 25 '17 at 2:28
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    there is no way to draw anything onto a screen without using a draw call. In order to have anything rasterized, you need to have some geometry. Other than a clear call. – pailhead Jan 30 '17 at 22:04
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I made an npm module that should render a screen quad using mostly the shaders and a high level interface ( width , height , top , left ).

Right now the fragment shader is not reading a texture but in the readme there is a simple fragment shader that you can use for that.

https://www.npmjs.com/package/three-screen-quad

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