'use strict'; "use strict"; const uniformSingleParserFunctions = { f32(name, cu, cv, v, ud, _uv, gl) { if (cv !== v) { cu.value = v; gl.uniform1f(ud[name].location, v); } }, "vec2"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1]) { cv[0] = v[0]; cv[1] = v[1]; gl.uniform2f(ud[name].location, v[0], v[1]); } }, "vec3"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; gl.uniform3f(ud[name].location, v[0], v[1], v[2]); } }, "vec4"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2] || cv[3] !== v[3]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; cv[3] = v[3]; gl.uniform4f(ud[name].location, v[0], v[1], v[2], v[3]); } }, i32(name, cu, cv, v, ud, _uv, gl) { if (cv !== v) { cu.value = v; gl.uniform1i(ud[name].location, v); } }, "vec2"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1]) { cv[0] = v[0]; cv[1] = v[1]; gl.uniform2i(ud[name].location, v[0], v[1]); } }, "vec3"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; gl.uniform3i(ud[name].location, v[0], v[1], v[2]); } }, "vec4"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2] || cv[3] !== v[3]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; cv[3] = v[3]; gl.uniform4i(ud[name].location, v[0], v[1], v[2], v[3]); } }, u32(name, cu, cv, v, ud, _uv, gl) { if (cv !== v) { cu.value = v; gl.uniform1ui(ud[name].location, v); } }, "vec2"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1]) { cv[0] = v[0]; cv[1] = v[1]; gl.uniform2ui(ud[name].location, v[0], v[1]); } }, "vec3"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; gl.uniform3ui(ud[name].location, v[0], v[1], v[2]); } }, "vec4"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2] || cv[3] !== v[3]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; cv[3] = v[3]; gl.uniform4ui(ud[name].location, v[0], v[1], v[2], v[3]); } }, bool(name, cu, cv, v, ud, _uv, gl) { if (cv !== v) { cu.value = v; gl.uniform1i(ud[name].location, v); } }, "vec2"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1]) { cv[0] = v[0]; cv[1] = v[1]; gl.uniform2i(ud[name].location, v[0], v[1]); } }, "vec3"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; gl.uniform3i(ud[name].location, v[0], v[1], v[2]); } }, "vec4"(name, _cu, cv, v, ud, _uv, gl) { if (cv[0] !== v[0] || cv[1] !== v[1] || cv[2] !== v[2] || cv[3] !== v[3]) { cv[0] = v[0]; cv[1] = v[1]; cv[2] = v[2]; cv[3] = v[3]; gl.uniform4i(ud[name].location, v[0], v[1], v[2], v[3]); } }, "mat2x2"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniformMatrix2fv(ud[name].location, false, v); }, "mat3x3"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniformMatrix3fv(ud[name].location, false, v); }, "mat4x4"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniformMatrix4fv(ud[name].location, false, v); } }; const uniformArrayParserFunctions = { f32(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform1fv(ud[name].location, v); }, "vec2"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform2fv(ud[name].location, v); }, "vec3"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform3fv(ud[name].location, v); }, "vec4"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform4fv(ud[name].location, v); }, "mat2x2"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniformMatrix2fv(ud[name].location, false, v); }, "mat3x3"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniformMatrix3fv(ud[name].location, false, v); }, "mat4x4"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniformMatrix4fv(ud[name].location, false, v); }, i32(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform1iv(ud[name].location, v); }, "vec2"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform2iv(ud[name].location, v); }, "vec3"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform3iv(ud[name].location, v); }, "vec4"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform4iv(ud[name].location, v); }, u32(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform1iv(ud[name].location, v); }, "vec2"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform2iv(ud[name].location, v); }, "vec3"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform3iv(ud[name].location, v); }, "vec4"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform4iv(ud[name].location, v); }, bool(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform1iv(ud[name].location, v); }, "vec2"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform2iv(ud[name].location, v); }, "vec3"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform3iv(ud[name].location, v); }, "vec4"(name, _cu, _cv, v, ud, _uv, gl) { gl.uniform4iv(ud[name].location, v); } }; const uniformParserFunctions = [ (name, _cu, _cv, _v, ud, uv, gl) => { gl.uniformMatrix3fv(ud[name].location, false, uv[name].toArray(true)); }, (name, _cu, cv, v, ud, uv, gl) => { cv = ud[name].value; v = uv[name]; if (cv[0] !== v.x || cv[1] !== v.y || cv[2] !== v.width || cv[3] !== v.height) { cv[0] = v.x; cv[1] = v.y; cv[2] = v.width; cv[3] = v.height; gl.uniform4f(ud[name].location, v.x, v.y, v.width, v.height); } }, (name, _cu, cv, v, ud, uv, gl) => { cv = ud[name].value; v = uv[name]; if (cv[0] !== v.x || cv[1] !== v.y) { cv[0] = v.x; cv[1] = v.y; gl.uniform2f(ud[name].location, v.x, v.y); } }, (name, _cu, cv, v, ud, uv, gl) => { cv = ud[name].value; v = uv[name]; if (cv[0] !== v.red || cv[1] !== v.green || cv[2] !== v.blue || cv[3] !== v.alpha) { cv[0] = v.red; cv[1] = v.green; cv[2] = v.blue; cv[3] = v.alpha; gl.uniform4f(ud[name].location, v.red, v.green, v.blue, v.alpha); } }, (name, _cu, cv, v, ud, uv, gl) => { cv = ud[name].value; v = uv[name]; if (cv[0] !== v.red || cv[1] !== v.green || cv[2] !== v.blue) { cv[0] = v.red; cv[1] = v.green; cv[2] = v.blue; gl.uniform3f(ud[name].location, v.red, v.green, v.blue); } } ]; exports.uniformArrayParserFunctions = uniformArrayParserFunctions; exports.uniformParserFunctions = uniformParserFunctions; exports.uniformSingleParserFunctions = uniformSingleParserFunctions; //# sourceMappingURL=uniformSyncFunctions.js.map