{"version":3,"file":"LinearBurnBlend.mjs","sources":["../../src/advanced-blend-modes/LinearBurnBlend.ts"],"sourcesContent":["/* eslint-disable max-len */\n\nimport { ExtensionType } from '../extensions/Extensions';\nimport { BlendModeFilter } from '../filters/blend-modes/BlendModeFilter';\n\nimport type { ExtensionMetadata } from '../extensions/Extensions';\n\n/**\n * Looks at the color information in each channel and darkens the base color to\n * reflect the blend color by increasing the contrast between the two.\n *\n * Available as `container.blendMode = 'linear-burn'` after importing `pixi.js/advanced-blend-modes`.\n * @example\n * import 'pixi.js/advanced-blend-modes';\n * import { Sprite } from 'pixi.js';\n *\n * const sprite = Sprite.from('something.png');\n * sprite.blendMode = 'linear-burn'\n * @memberof filters\n */\nexport class LinearBurnBlend extends BlendModeFilter\n{\n    /** @ignore */\n    public static extension: ExtensionMetadata = {\n        name: 'linear-burn',\n        type: ExtensionType.BlendMode\n    };\n\n    constructor()\n    {\n        super({\n            gl: {\n                functions: `\n                float linearBurn(float base, float blend)\n                {\n                    return max(0.0, base + blend - 1.0);\n                }\n\n                vec3 blendLinearBurn(vec3 base, vec3 blend, float opacity)\n                {\n                    vec3 blended = vec3(\n                        linearBurn(base.r, blend.r),\n                        linearBurn(base.g, blend.g),\n                        linearBurn(base.b, blend.b)\n                    );\n\n                    return (blended * opacity + base * (1.0 - opacity));\n                }\n                `,\n                main: `\n                finalColor = vec4(blendLinearBurn(back.rgb, front.rgb,front.a), blendedAlpha) * uBlend;\n                `\n            },\n            gpu: {\n                functions: `\n                fn linearBurn(base: f32, blend: f32) -> f32\n                {\n                    return max(0.0, base + blend - 1.0);\n                }\n\n                fn blendLinearBurn(base:vec3<f32>,  blend:vec3<f32>,  opacity:f32) -> vec3<f32>\n                {\n                    let blended = vec3<f32>(\n                        linearBurn(base.r, blend.r),\n                        linearBurn(base.g, blend.g),\n                        linearBurn(base.b, blend.b)\n                    );\n\n                    return (blended * opacity + base * (1.0 - opacity));\n                }\n                `,\n                main: `\n                out = vec4<f32>(blendLinearBurn(back.rgb, front.rgb, front.a), blendedAlpha) * blendUniforms.uBlend;\n                `\n            }\n        });\n    }\n}\n"],"names":[],"mappings":";;;;AAoBO,MAAM,wBAAwB,eACrC,CAAA;AAAA,EAOI,WACA,GAAA;AACI,IAAM,KAAA,CAAA;AAAA,MACF,EAAI,EAAA;AAAA,QACA,SAAW,EAAA,CAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA,gBAAA,CAAA;AAAA,QAiBX,IAAM,EAAA,CAAA;AAAA;AAAA,gBAAA,CAAA;AAAA,OAGV;AAAA,MACA,GAAK,EAAA;AAAA,QACD,SAAW,EAAA,CAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA;AAAA,gBAAA,CAAA;AAAA,QAiBX,IAAM,EAAA,CAAA;AAAA;AAAA,gBAAA,CAAA;AAAA,OAGV;AAAA,KACH,CAAA,CAAA;AAAA,GACL;AACJ,CAAA;AAAA;AAzDa,eAAA,CAGK,SAA+B,GAAA;AAAA,EACzC,IAAM,EAAA,aAAA;AAAA,EACN,MAAM,aAAc,CAAA,SAAA;AACxB,CAAA;;;;"}