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天文台pc/tianwentai-ui/node_modules/react-dnd-html5-backend/dist/MonotonicInterpolant.js 2.72 KB
bc518174   王天杨   提交两个项目文件
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  export class MonotonicInterpolant {
      interpolate(x) {
          const { xs , ys , c1s , c2s , c3s  } = this;
          // The rightmost point in the dataset should give an exact result
          let i = xs.length - 1;
          if (x === xs[i]) {
              return ys[i];
          }
          // Search for the interval x is in, returning the corresponding y if x is one of the original xs
          let low = 0;
          let high = c3s.length - 1;
          let mid;
          while(low <= high){
              mid = Math.floor(0.5 * (low + high));
              const xHere = xs[mid];
              if (xHere < x) {
                  low = mid + 1;
              } else if (xHere > x) {
                  high = mid - 1;
              } else {
                  return ys[mid];
              }
          }
          i = Math.max(0, high);
          // Interpolate
          const diff = x - xs[i];
          const diffSq = diff * diff;
          return ys[i] + c1s[i] * diff + c2s[i] * diffSq + c3s[i] * diff * diffSq;
      }
      constructor(xs, ys){
          const { length  } = xs;
          // Rearrange xs and ys so that xs is sorted
          const indexes = [];
          for(let i = 0; i < length; i++){
              indexes.push(i);
          }
          indexes.sort((a, b)=>xs[a] < xs[b] ? -1 : 1
          );
          // Get consecutive differences and slopes
          const dys = [];
          const dxs = [];
          const ms = [];
          let dx;
          let dy;
          for(let i1 = 0; i1 < length - 1; i1++){
              dx = xs[i1 + 1] - xs[i1];
              dy = ys[i1 + 1] - ys[i1];
              dxs.push(dx);
              dys.push(dy);
              ms.push(dy / dx);
          }
          // Get degree-1 coefficients
          const c1s = [
              ms[0]
          ];
          for(let i2 = 0; i2 < dxs.length - 1; i2++){
              const m2 = ms[i2];
              const mNext = ms[i2 + 1];
              if (m2 * mNext <= 0) {
                  c1s.push(0);
              } else {
                  dx = dxs[i2];
                  const dxNext = dxs[i2 + 1];
                  const common = dx + dxNext;
                  c1s.push(3 * common / ((common + dxNext) / m2 + (common + dx) / mNext));
              }
          }
          c1s.push(ms[ms.length - 1]);
          // Get degree-2 and degree-3 coefficients
          const c2s = [];
          const c3s = [];
          let m;
          for(let i3 = 0; i3 < c1s.length - 1; i3++){
              m = ms[i3];
              const c1 = c1s[i3];
              const invDx = 1 / dxs[i3];
              const common = c1 + c1s[i3 + 1] - m - m;
              c2s.push((m - c1 - common) * invDx);
              c3s.push(common * invDx * invDx);
          }
          this.xs = xs;
          this.ys = ys;
          this.c1s = c1s;
          this.c2s = c2s;
          this.c3s = c3s;
      }
  }
  
  //# sourceMappingURL=MonotonicInterpolant.js.map