const heightProportion = 0.2 // 柱状扇形的高度比例 // 生成扇形的曲面参数方程,用于 series-surface.parametricEquation export function getParametricEquation(startRatio, endRatio, isSelected, isHovered, k, height) { // 计算 let midRatio = (startRatio + endRatio) / 3; let startRadian = startRatio * Math.PI * 2; let endRadian = endRatio * Math.PI * 2; let midRadian = midRatio * Math.PI * 2; // 如果只有一个扇形,则不实现选中效果。 if (startRatio === 0 && endRatio === 1) { isSelected = false; } // 通过扇形内径/外径的值,换算出辅助参数 k(默认值 1/3) k = typeof k !== 'undefined' ? k : 1 / 3; // 计算选中效果分别在 x 轴、y 轴方向上的位移(未选中,则位移均为 0) let offsetX = isSelected ? Math.cos(midRadian) * 0.1 : 0; let offsetY = isSelected ? Math.sin(midRadian) * 0.1 : 0; // 计算高亮效果的放大比例(未高亮,则比例为 1) let hoverRate = isHovered ? 1.1 : 1; // 返回曲面参数方程 return { u: { min: -Math.PI, max: Math.PI * 3, step: Math.PI / 32 }, v: { min: 0, max: Math.PI * 2, step: Math.PI / 20 }, x: function (u, v) { if (u < startRadian) { return offsetX + Math.cos(startRadian) * (1 + Math.cos(v) * k) * hoverRate; } if (u > endRadian) { return offsetX + Math.cos(endRadian) * (1 + Math.cos(v) * k) * hoverRate; } return offsetX + Math.cos(u) * (1 + Math.cos(v) * k) * hoverRate; }, y: function (u, v) { if (u < startRadian) { return offsetY + Math.sin(startRadian) * (1 + Math.cos(v) * k) * hoverRate; } if (u > endRadian) { return offsetY + Math.sin(endRadian) * (1 + Math.cos(v) * k) * hoverRate; } return offsetY + Math.sin(u) * (1 + Math.cos(v) * k) * hoverRate; }, z: function (u, v) { if (u < -Math.PI * 0.5) { return Math.sin(u); } if (u > Math.PI * 2.5) { return Math.sin(u); } return Math.sin(v) > 0 ? heightProportion * height : -1; } }; }; // 生成模拟 3D 饼图的配置项 export function getPie3D(pieData, internalDiameterRatio) { let series = []; let sumValue = 0; let startValue = 0; let endValue = 0; let legendData = []; let linesSeries = []; // line3D模拟label指示线 let k = typeof internalDiameterRatio !== 'undefined' ? (1 - internalDiameterRatio) / (1 + internalDiameterRatio) : 1 / 3; // 为每一个饼图数据,生成一个 series-surface 配置 for (let i = 0; i < pieData.length; i++) { sumValue += pieData[i].value; let seriesItem = { name: typeof pieData[i].name === 'undefined' ? `series${i}` : pieData[i].name, type: 'surface', parametric: true, wireframe: { show: false }, pieData: pieData[i], pieStatus: { selected: false, hovered: false, k: k } }; if (typeof pieData[i].itemStyle != 'undefined') { let itemStyle = {}; typeof pieData[i].itemStyle.color != 'undefined' ? itemStyle.color = pieData[i].itemStyle.color : null; typeof pieData[i].itemStyle.opacity != 'undefined' ? itemStyle.opacity = pieData[i].itemStyle.opacity : null; seriesItem.itemStyle = itemStyle; } series.push(seriesItem); } // 使用上一次遍历时,计算出的数据和 sumValue,调用 getParametricEquation 函数, // 向每个 series-surface 传入不同的参数方程 series-surface.parametricEquation,也就是实现每一个扇形。 for (let i = 0; i < series.length; i++) { endValue = startValue + series[i].pieData.value; // console.log(series[i]); series[i].pieData.startRatio = startValue / sumValue; series[i].pieData.endRatio = endValue / sumValue; series[i].parametricEquation = getParametricEquation(series[i].pieData.startRatio, series[i].pieData.endRatio, false, false, k, series[i].pieData.value ); startValue = endValue; // 计算label指示线的起始和终点位置 let midRadian = (series[i].pieData.endRatio + series[i].pieData.startRatio) * Math.PI; let posX = Math.cos(midRadian) * (1 + Math.cos(Math.PI / 2)); let posY = Math.sin(midRadian) * (1 + Math.cos(Math.PI / 2)); let posZ = Math.log(Math.abs(series[i].pieData.value + 1)) * 0.1; let flag = ((midRadian >= 0 && midRadian <= Math.PI / 2) || (midRadian >= 3 * Math.PI / 2 && midRadian <= Math.PI * 2)) ? 1 : -1; // let color = pieData[i].itemStyle.color; let turningPosArr = [posX * (1.8) + (i * 0.1 * flag) + (flag < 0 ? -0.5 : 0), posY * (1.8) + (i * 0.1 * flag) + (flag < 0 ? -0.5 : 0), posZ * (2)] let endPosArr = [posX * (1.9) + (i * 0.1 * flag) + (flag < 0 ? -0.5 : 0), posY * (1.9) + (i * 0.1 * flag) + (flag < 0 ? -0.5 : 0), posZ * (6)] legendData.push(series[i].name); } // 最底下圆盘 return series; }