"use strict";
Object.defineProperty(exports, Symbol.toStringTag, { value: "Module" });
const ToneMapShader = {
  uniforms: {
    tDiffuse: { value: null },
    averageLuminance: { value: 1 },
    luminanceMap: { value: null },
    maxLuminance: { value: 16 },
    minLuminance: { value: 0.01 },
    middleGrey: { value: 0.6 }
  },
  vertexShader: (
    /* glsl */
    `
    varying vec2 vUv;

    void main() {

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

    }
  `
  ),
  fragmentShader: (
    /* glsl */
    `
    #include <common>

    uniform sampler2D tDiffuse;

    varying vec2 vUv;

    uniform float middleGrey;
    uniform float minLuminance;
    uniform float maxLuminance;
    #ifdef ADAPTED_LUMINANCE
    	uniform sampler2D luminanceMap;
    #else
    	uniform float averageLuminance;
    #endif

    vec3 ToneMap( vec3 vColor ) {
    	#ifdef ADAPTED_LUMINANCE
    // Get the calculated average luminance
    		float fLumAvg = texture2D(luminanceMap, vec2(0.5, 0.5)).r;
    	#else
    		float fLumAvg = averageLuminance;
    	#endif

    // Calculate the luminance of the current pixel
    	float fLumPixel = linearToRelativeLuminance( vColor );

    // Apply the modified operator (Eq. 4)
    	float fLumScaled = (fLumPixel * middleGrey) / max( minLuminance, fLumAvg );

    	float fLumCompressed = (fLumScaled * (1.0 + (fLumScaled / (maxLuminance * maxLuminance)))) / (1.0 + fLumScaled);
    	return fLumCompressed * vColor;
    }

    void main() {

    	vec4 texel = texture2D( tDiffuse, vUv );

    	gl_FragColor = vec4( ToneMap( texel.xyz ), texel.w );

    }
  `
  )
};
exports.ToneMapShader = ToneMapShader;
//# sourceMappingURL=ToneMapShader.cjs.map