import PathProxy from '../core/PathProxy.js'; import * as line from './line.js'; import * as cubic from './cubic.js'; import * as quadratic from './quadratic.js'; import * as arc from './arc.js'; import * as curve from '../core/curve.js'; import windingLine from './windingLine.js'; var CMD = PathProxy.CMD; var PI2 = Math.PI * 2; var EPSILON = 1e-4; function isAroundEqual(a, b) { return Math.abs(a - b) < EPSILON; } var roots = [-1, -1, -1]; var extrema = [-1, -1]; function swapExtrema() { var tmp = extrema[0]; extrema[0] = extrema[1]; extrema[1] = tmp; } function windingCubic(x0, y0, x1, y1, x2, y2, x3, y3, x, y) { if ((y > y0 && y > y1 && y > y2 && y > y3) || (y < y0 && y < y1 && y < y2 && y < y3)) { return 0; } var nRoots = curve.cubicRootAt(y0, y1, y2, y3, y, roots); if (nRoots === 0) { return 0; } else { var w = 0; var nExtrema = -1; var y0_ = void 0; var y1_ = void 0; for (var i = 0; i < nRoots; i++) { var t = roots[i]; var unit = (t === 0 || t === 1) ? 0.5 : 1; var x_ = curve.cubicAt(x0, x1, x2, x3, t); if (x_ < x) { continue; } if (nExtrema < 0) { nExtrema = curve.cubicExtrema(y0, y1, y2, y3, extrema); if (extrema[1] < extrema[0] && nExtrema > 1) { swapExtrema(); } y0_ = curve.cubicAt(y0, y1, y2, y3, extrema[0]); if (nExtrema > 1) { y1_ = curve.cubicAt(y0, y1, y2, y3, extrema[1]); } } if (nExtrema === 2) { if (t < extrema[0]) { w += y0_ < y0 ? unit : -unit; } else if (t < extrema[1]) { w += y1_ < y0_ ? unit : -unit; } else { w += y3 < y1_ ? unit : -unit; } } else { if (t < extrema[0]) { w += y0_ < y0 ? unit : -unit; } else { w += y3 < y0_ ? unit : -unit; } } } return w; } } function windingQuadratic(x0, y0, x1, y1, x2, y2, x, y) { if ((y > y0 && y > y1 && y > y2) || (y < y0 && y < y1 && y < y2)) { return 0; } var nRoots = curve.quadraticRootAt(y0, y1, y2, y, roots); if (nRoots === 0) { return 0; } else { var t = curve.quadraticExtremum(y0, y1, y2); if (t >= 0 && t <= 1) { var w = 0; var y_ = curve.quadraticAt(y0, y1, y2, t); for (var i = 0; i < nRoots; i++) { var unit = (roots[i] === 0 || roots[i] === 1) ? 0.5 : 1; var x_ = curve.quadraticAt(x0, x1, x2, roots[i]); if (x_ < x) { continue; } if (roots[i] < t) { w += y_ < y0 ? unit : -unit; } else { w += y2 < y_ ? unit : -unit; } } return w; } else { var unit = (roots[0] === 0 || roots[0] === 1) ? 0.5 : 1; var x_ = curve.quadraticAt(x0, x1, x2, roots[0]); if (x_ < x) { return 0; } return y2 < y0 ? unit : -unit; } } } function windingArc(cx, cy, r, startAngle, endAngle, anticlockwise, x, y) { y -= cy; if (y > r || y < -r) { return 0; } var tmp = Math.sqrt(r * r - y * y); roots[0] = -tmp; roots[1] = tmp; var dTheta = Math.abs(startAngle - endAngle); if (dTheta < 1e-4) { return 0; } if (dTheta >= PI2 - 1e-4) { startAngle = 0; endAngle = PI2; var dir = anticlockwise ? 1 : -1; if (x >= roots[0] + cx && x <= roots[1] + cx) { return dir; } else { return 0; } } if (startAngle > endAngle) { var tmp_1 = startAngle; startAngle = endAngle; endAngle = tmp_1; } if (startAngle < 0) { startAngle += PI2; endAngle += PI2; } var w = 0; for (var i = 0; i < 2; i++) { var x_ = roots[i]; if (x_ + cx > x) { var angle = Math.atan2(y, x_); var dir = anticlockwise ? 1 : -1; if (angle < 0) { angle = PI2 + angle; } if ((angle >= startAngle && angle <= endAngle) || (angle + PI2 >= startAngle && angle + PI2 <= endAngle)) { if (angle > Math.PI / 2 && angle < Math.PI * 1.5) { dir = -dir; } w += dir; } } } return w; } function containPath(path, lineWidth, isStroke, x, y) { var data = path.data; var len = path.len(); var w = 0; var xi = 0; var yi = 0; var x0 = 0; var y0 = 0; var x1; var y1; for (var i = 0; i < len;) { var cmd = data[i++]; var isFirst = i === 1; if (cmd === CMD.M && i > 1) { if (!isStroke) { w += windingLine(xi, yi, x0, y0, x, y); } } if (isFirst) { xi = data[i]; yi = data[i + 1]; x0 = xi; y0 = yi; } switch (cmd) { case CMD.M: x0 = data[i++]; y0 = data[i++]; xi = x0; yi = y0; break; case CMD.L: if (isStroke) { if (line.containStroke(xi, yi, data[i], data[i + 1], lineWidth, x, y)) { return true; } } else { w += windingLine(xi, yi, data[i], data[i + 1], x, y) || 0; } xi = data[i++]; yi = data[i++]; break; case CMD.C: if (isStroke) { if (cubic.containStroke(xi, yi, data[i++], data[i++], data[i++], data[i++], data[i], data[i + 1], lineWidth, x, y)) { return true; } } else { w += windingCubic(xi, yi, data[i++], data[i++], data[i++], data[i++], data[i], data[i + 1], x, y) || 0; } xi = data[i++]; yi = data[i++]; break; case CMD.Q: if (isStroke) { if (quadratic.containStroke(xi, yi, data[i++], data[i++], data[i], data[i + 1], lineWidth, x, y)) { return true; } } else { w += windingQuadratic(xi, yi, data[i++], data[i++], data[i], data[i + 1], x, y) || 0; } xi = data[i++]; yi = data[i++]; break; case CMD.A: var cx = data[i++]; var cy = data[i++]; var rx = data[i++]; var ry = data[i++]; var theta = data[i++]; var dTheta = data[i++]; i += 1; var anticlockwise = !!(1 - data[i++]); x1 = Math.cos(theta) * rx + cx; y1 = Math.sin(theta) * ry + cy; if (!isFirst) { w += windingLine(xi, yi, x1, y1, x, y); } else { x0 = x1; y0 = y1; } var _x = (x - cx) * ry / rx + cx; if (isStroke) { if (arc.containStroke(cx, cy, ry, theta, theta + dTheta, anticlockwise, lineWidth, _x, y)) { return true; } } else { w += windingArc(cx, cy, ry, theta, theta + dTheta, anticlockwise, _x, y); } xi = Math.cos(theta + dTheta) * rx + cx; yi = Math.sin(theta + dTheta) * ry + cy; break; case CMD.R: x0 = xi = data[i++]; y0 = yi = data[i++]; var width = data[i++]; var height = data[i++]; x1 = x0 + width; y1 = y0 + height; if (isStroke) { if (line.containStroke(x0, y0, x1, y0, lineWidth, x, y) || line.containStroke(x1, y0, x1, y1, lineWidth, x, y) || line.containStroke(x1, y1, x0, y1, lineWidth, x, y) || line.containStroke(x0, y1, x0, y0, lineWidth, x, y)) { return true; } } else { w += windingLine(x1, y0, x1, y1, x, y); w += windingLine(x0, y1, x0, y0, x, y); } break; case CMD.Z: if (isStroke) { if (line.containStroke(xi, yi, x0, y0, lineWidth, x, y)) { return true; } } else { w += windingLine(xi, yi, x0, y0, x, y); } xi = x0; yi = y0; break; } } if (!isStroke && !isAroundEqual(yi, y0)) { w += windingLine(xi, yi, x0, y0, x, y) || 0; } return w !== 0; } export function contain(pathProxy, x, y) { return containPath(pathProxy, 0, false, x, y); } export function containStroke(pathProxy, lineWidth, x, y) { return containPath(pathProxy, lineWidth, true, x, y); }