( function () {

	const LUTShader = {
		defines: {
			USE_3DTEXTURE: 1
		},
		uniforms: {
			lut3d: {
				value: null
			},
			lut: {
				value: null
			},
			lutSize: {
				value: 0
			},
			tDiffuse: {
				value: null
			},
			intensity: {
				value: 1.0
			}
		},
		vertexShader:
  /* glsl */
  `

		varying vec2 vUv;

		void main() {

			vUv = uv;
			gl_Position = projectionMatrix * modelViewMatrix * vec4( position, 1.0 );

		}

	`,
		fragmentShader:
  /* glsl */
  `

		uniform float lutSize;
		#if USE_3DTEXTURE
		precision highp sampler3D;
		uniform sampler3D lut3d;
		#else
		uniform sampler2D lut;

		vec3 lutLookup( sampler2D tex, float size, vec3 rgb ) {

			float sliceHeight = 1.0 / size;
			float yPixelHeight = 1.0 / ( size * size );

			// Get the slices on either side of the sample
			float slice = rgb.b * size;
			float interp = fract( slice );
			float slice0 = slice - interp;
			float centeredInterp = interp - 0.5;

			float slice1 = slice0 + sign( centeredInterp );

			// Pull y sample in by half a pixel in each direction to avoid color
			// bleeding from adjacent slices.
			float greenOffset = clamp( rgb.g * sliceHeight, yPixelHeight * 0.5, sliceHeight - yPixelHeight * 0.5 );

			vec2 uv0 = vec2(
				rgb.r,
				slice0 * sliceHeight + greenOffset
			);
			vec2 uv1 = vec2(
				rgb.r,
				slice1 * sliceHeight + greenOffset
			);

			vec3 sample0 = texture2D( tex, uv0 ).rgb;
			vec3 sample1 = texture2D( tex, uv1 ).rgb;

			return mix( sample0, sample1, abs( centeredInterp ) );

		}
		#endif

		varying vec2 vUv;
		uniform float intensity;
		uniform sampler2D tDiffuse;
		void main() {

			vec4 val = texture2D( tDiffuse, vUv );
			vec4 lutVal;

			// pull the sample in by half a pixel so the sample begins
			// at the center of the edge pixels.
			float pixelWidth = 1.0 / lutSize;
			float halfPixelWidth = 0.5 / lutSize;
			vec3 uvw = vec3( halfPixelWidth ) + val.rgb * ( 1.0 - pixelWidth );

			#if USE_3DTEXTURE

			lutVal = vec4( texture( lut3d, uvw ).rgb, val.a );

			#else

			lutVal = vec4( lutLookup( lut, lutSize, uvw ), val.a );

			#endif

			gl_FragColor = vec4( mix( val, lutVal, intensity ) );

		}

	`
	};

	class LUTPass extends THREE.ShaderPass {

		set lut( v ) {

			const material = this.material;

			if ( v !== this.lut ) {

				material.uniforms.lut3d.value = null;
				material.uniforms.lut.value = null;

				if ( v ) {

					const is3dTextureDefine = v.isData3DTexture ? 1 : 0;

					if ( is3dTextureDefine !== material.defines.USE_3DTEXTURE ) {

						material.defines.USE_3DTEXTURE = is3dTextureDefine;
						material.needsUpdate = true;

					}

					material.uniforms.lutSize.value = v.image.width;

					if ( v.isData3DTexture ) {

						material.uniforms.lut3d.value = v;

					} else {

						material.uniforms.lut.value = v;

					}

				}

			}

		}

		get lut() {

			return this.material.uniforms.lut.value || this.material.uniforms.lut3d.value;

		}

		set intensity( v ) {

			this.material.uniforms.intensity.value = v;

		}

		get intensity() {

			return this.material.uniforms.intensity.value;

		}

		constructor( options = {} ) {

			super( LUTShader );
			this.lut = options.lut || null;
			this.intensity = 'intensity' in options ? options.intensity : 1;

		}

	}

	THREE.LUTPass = LUTPass;

} )();