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/**
 * Copyright (c) 2013, impossibl.com
 * All rights reserved.
 *
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 *
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 *    this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *  * Neither the name of impossibl.com nor the names of its contributors may
 *    be used to endorse or promote products derived from this software
 *    without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
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 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
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package com.impossibl.postgres.utils;

import com.impossibl.postgres.api.data.Path;

import java.util.Arrays;

public enum GeometryParsers {
  INSTANCE;

  /**
   * Parses a path.
   * 
   * [ ( x1 , y1 ) , ... , ( xn , yn ) ]
   * ( ( x1 , y1 ) , ... , ( xn , yn ) )
   * ( x1 , y1 ) , ... , ( xn , yn )
   * ( x1 , y1   , ... ,   xn , yn )
   *  x1 , y1   , ... ,   xn , yn
   * 
* @param s The path to parse. * @return A Path. */ public Path parsePath(CharSequence s) { return parsePath(s, true); } /** * Parses a polygon. *
   * ( ( x1 , y1 ) , ... , ( xn , yn ) )
   * ( x1 , y1 ) , ... , ( xn , yn )
   * ( x1 , y1   , ... ,   xn , yn )
   *  x1 , y1   , ... ,   xn , yn
   * 
* @param s The polygon to parse. * @return A list of points. */ public double[][] parsePolygon(CharSequence s) { Path path = parsePath(s, false); return path.getPoints(); } /** * Parses a circle. *
   * < ( x , y ) , r >
   * ( ( x , y ) , r )
   * ( x , y ) , r
   * x , y   , r
   * 
* @param s The circle to parse. * @return [p.x, p.y, r]: A 3 elements array where the first 2 doubles represents a center point and the last element the radius. */ public double[] parseCircle(CharSequence s) { int max = s.length() - 1; int pos = consummeSpace(s, 0, true); boolean delim; char endDelim = ' '; int idx; if (s.charAt(pos) == '<') { ++pos; delim = true; endDelim = '>'; } else if (s.charAt(pos) == '(') { // need to check next char idx = pos; pos = consummeSpace(s, ++pos, true); if (pos < max && s.charAt(pos) == '(') { delim = true; endDelim = ')'; pos = idx + 1; } else { delim = false; pos = idx; } } else { delim = false; } double[] point = new double[2]; pos = parsePoint(s, pos, point); pos = consummeSpace(s, pos, true); if (s.charAt(pos) != ',') { throw new IllegalArgumentException("near " + pos + " in " + s + " - " + s.charAt(pos)); } pos = consummeSpace(s, ++pos, true); double radius; idx = pos; if (delim) { while (pos <= max && s.charAt(pos) != endDelim) { ++pos; } if (idx == pos) { throw new IllegalArgumentException("near " + idx + " in " + s); } } else { pos = parseNumber(s, pos); } radius = Double.parseDouble(s.subSequence(idx, pos).toString()); pos = consummeSpace(s, pos, false); if (pos < max) { // too much chars throw new IllegalArgumentException("near " + pos + " in " + s); } return new double[] {point[0], point[1], radius}; } /** * Parses a point. *
   * ( x , y )
   *   x , y
   * 
* @param s The point to parse. * @return [p.x, p.y] */ public double[] parsePoint(CharSequence s) { double[] point = new double[2]; int pos = parsePoint(s, 0, point); pos = consummeSpace(s, pos, false); if (pos < s.length() - 1) { // too much chars throw new IllegalArgumentException("near " + pos + " in " + s); } return point; } /** * Parses a box. *
   * ( ( x1 , y1 ) , ( x2 , y2 ) )
   * ( x1 , y1 ) , ( x2 , y2 )
   *  x1 , y1   ,   x2 , y2
   * 
* @param s The box to parse. * @return An array of size 4 (2 points.) */ public double[] parseBox(CharSequence s) { PathResult pr = parsePath(false, 2, s, 0); int pos = consummeSpace(s, pr.pos, false); if (pos < s.length() - 1) { // too much chars throw new IllegalArgumentException("near " + pos + " in " + s); } return new double[] {pr.p[0][0], pr.p[0][1], pr.p[1][0], pr.p[1][1]}; } /** * Parses a lseg. *
   * [ ( x1 , y1 ) , ( x2 , y2 ) ]
   * ( ( x1 , y1 ) , ( x2 , y2 ) )
   * ( x1 , y1 ) , ( x2 , y2 )
   *  x1 , y1   ,   x2 , y2
   * 
* @param s The lseg to parse. * @return An array of size 4 (2 points.) */ public double[] parseLSeg(CharSequence s) { PathResult pr = parsePath(true, 2, s, 0); int pos = consummeSpace(s, pr.pos, false); if (pos < s.length() - 1) { // too much chars throw new IllegalArgumentException("near " + pos + " in " + s); } return new double[] {pr.p[0][0], pr.p[0][1], pr.p[1][0], pr.p[1][1]}; } /** * Parses an infinite line represented by the linear equation Ax + By + C = 0. *
   * { A, B, C }
   * also accepted:
   * [ ( x1 , y1 ) , ( x2 , y2 ) ]
   * ( ( x1 , y1 ) , ( x2 , y2 ) )
   * ( x1 , y1 ) , ( x2 , y2 )
   *  x1 , y1   ,   x2 , y2
   * 
* @param s The line to parse. * @return An array of size 3 ([A,B,C] --> Ax+By+C=0.) */ public double[] parseLine(CharSequence s) { int pos = consummeSpace(s, 0, true); double[] result; if (s.charAt(pos) == '{') { pos = parseLineABC(s, pos, result = new double[3]); } else { PathResult pr = parsePath(true, 2, s, pos); if (Arrays.equals(pr.p[0], pr.p[1])) { throw new IllegalArgumentException("invalid line specification: must be two distinct points"); } pos = pr.pos; result = lineConstructPts(pr.p[0], pr.p[1]); } pos = consummeSpace(s, pos, false); if (pos < s.length() - 1) { // too much chars throw new IllegalArgumentException("near " + pos + " in " + s); } return result; } /** * Returns A,B and C as in Ax+By+C=0 given 2 points */ private static double[] lineConstructPts(double[] pt1, double[] pt2) { double[] lineabc = new double[3]; if (pt1[0] == pt2[0]) { /* vertical */ /* use "x = C" */ lineabc[0] = -1; lineabc[1] = 0; lineabc[2] = pt1[0]; } else if (pt1[1] == pt2[1]) { /* horizontal */ /* use "y = C" */ lineabc[0] = 0; lineabc[1] = -1; lineabc[2] = pt1[1]; } else { /* use "mx - y + yinter = 0" */ lineabc[0] = (pt2[1] - pt1[1]) / (pt2[0] - pt1[0]); lineabc[1] = -1.0; lineabc[2] = pt1[1] - lineabc[0] * pt1[0]; } return lineabc; } private int parseLineABC(CharSequence s, int pos, double[] abc) { // A,B,C --> Ax+By+C=0 if (s.charAt(pos) != '{') { throw new IllegalArgumentException("near " + pos + " in " + s); } int pos1 = ++pos; pos = parseNumber(s, pos); double a = Double.parseDouble(s.subSequence(pos1, pos).toString()); pos = consummeSpace(s, pos, true); if (s.charAt(pos) != ',') { throw new IllegalArgumentException("near " + pos + " in " + s); } pos = consummeSpace(s, ++pos, true); pos1 = pos; pos = parseNumber(s, pos); double b = Double.parseDouble(s.subSequence(pos1, pos).toString()); if (a == 0 && b == 0) { throw new IllegalArgumentException("invalid line specification: A and B cannot both be zero"); } pos = consummeSpace(s, pos, true); if (s.charAt(pos) != ',') { throw new IllegalArgumentException("near " + pos + " in " + s); } pos = consummeSpace(s, ++pos, true); pos1 = pos; pos = parseNumber(s, pos); double c = Double.parseDouble(s.subSequence(pos1, pos).toString()); pos = consummeSpace(s, pos, true); if (s.charAt(pos) != '}') { throw new IllegalArgumentException("near " + pos + " in " + s); } ++pos; abc[0] = a; abc[1] = b; abc[2] = c; return pos; } private Path parsePath(CharSequence s, boolean acceptopen) { int npts = pairCount(s, ','); if (npts < 0) { throw new IllegalArgumentException("invalid input syntax for type path: " + s); } int pos = consummeSpace(s, 0, true); int max = s.length() - 1; int depth = 0; if (s.charAt(pos) == '(' && findLastDelim(s, pos, '(') == pos + 1) { ++pos; ++depth; } PathResult pr = parsePath(acceptopen, npts, s, consummeSpace(s, pos, true)); if (depth != 0) { pr.pos = consummeSpace(s, pr.pos, true); if (s.charAt(pr.pos) != ')') { throw new IllegalArgumentException("near " + pr.pos + " in " + s); } } pr.pos = consummeSpace(s, pr.pos, false); if (pr.pos < max) { // too much chars throw new IllegalArgumentException("near " + pr.pos + " in " + s); } return new Path(pr.p, !pr.isOpen); } private static int pairCount(CharSequence s, char delim) { int ndelim = 0; int max = s.length() - 1; int pos = 0; while (pos < max) { if (s.charAt(pos) == delim) { ++ndelim; } ++pos; } return (ndelim % 2) == 0 ? -1 : ((ndelim + 1) / 2); } public static void main(String... args) { System.out.println("Circles ==========="); String[] circles = new String[] { "124.66, -565.88, 1256.6", "(124.66, -565.88), 1256.6", "((124.66, -565.88), 1256.6)", "<(124.66, -565.88), 1256.6>" }; for (String c: circles) { System.out.println(c + " --> " + java.util.Arrays.toString(GeometryParsers.INSTANCE.parseCircle(c))); } System.out.println("Numbers ==========="); String[] numbers = new String[] { "99.4", "89E03", "8e-3", "45.3E+45" }; for (String n: numbers) { int pos = GeometryParsers.INSTANCE.parseNumber(n, 0); System.out.println(n + " " + pos + " " + n.length() + " " + n.substring(0, pos)); } System.out.println("Points ==========="); String[] points = new String[] { "(100, 100)", "(-343.43, 43.01)", "100.0, 99.4", "(0,0)", "(124, 24343)", "(-113.7, +8989.98)", "(100e+2, 100e-2)", "(-343.43, 43.01)", "100.0e4, 99.4e-2", }; for (String p: points) { try { double[] point = GeometryParsers.INSTANCE.parsePoint(p); System.out.println(p + " --> " + java.util.Arrays.toString(point)); } catch (Exception ex) { ex.printStackTrace(); } } System.out.println("Boxes ==========="); String[] boxes = new String[] { "((678.6,454),(124.6,0))", "(678.6,454),(124.6,0)", "(0,0),(0,0)", "(-678.6, -454),(124.6,1.0)", "-678.6, -454,124.6,1.0", "(10, 20),(100, 120)" }; for (String box: boxes) { try { double[] b = GeometryParsers.INSTANCE.parseBox(box); System.out.println(box + " --> " + java.util.Arrays.toString(b)); } catch (Exception ex) { ex.printStackTrace(); } } System.out.println("LSegs ==========="); String[] lsegs = new String[] { "[(678.6,454),(124.6,0)]", "((678.6,454),(124.6,0))", "(678.6,454),(124.6,0)", "(0,0),(0,0)", "(-678.6, -454),(124.6,1.0)", "-678.6, -454,124.6,1.0", "(10, 20),(100, 120)" }; for (String lseg: lsegs) { try { double[] b = GeometryParsers.INSTANCE.parseLSeg(lseg); System.out.println(lseg + " --> " + java.util.Arrays.toString(b)); } catch (Exception ex) { ex.printStackTrace(); } } System.out.println("Paths ==========="); String[] paths = new String[] { "[(678.6,454)]", "((678.6,454))", "[(678.6,454),(124.6,0)]", "((678.6,454),(124.6,0))", "(678.6,454),(124.6,0)", "(0,0),(0,0)", "(-678.6, -454),(124.6,1.0)", "-678.6, -454,124.6,1.0", "(10, 20),(100, 120)", "[(678.6,454),(10,89),(124.6,0)]", "((678.6,454),(10,89),(124.6,0))", "(678.6,454),(10,89),(124.6,0)", "(0,0),(10,89),(0,0)", "(-678.6, -454),(10,89),(124.6,1.0)", "-678.6,10,89, -454,124.6,1.0", "(10, 20),(10,89),(100, 120)" }; for (String path: paths) { try { Path pr = GeometryParsers.INSTANCE.parsePath(path); System.out.println(path + " --> " + pr); } catch (Exception ex) { ex.printStackTrace(); } } } private static int findLastDelim(CharSequence s, int pos, char delim) { int found = -1; int max = s.length() - 1; while (pos < max) { if (s.charAt(pos) == delim) { found = pos; } ++pos; } return found; } private PathResult parsePath(boolean opendelim, int npts, CharSequence s, int pos) { PathResult pr = new PathResult(); int depth = 0; pr.pos = consummeSpace(s, pos, true); char c = s.charAt(pr.pos); if (c == '[') { pr.isOpen = true; if (!opendelim) { throw new IllegalArgumentException("near " + pr.pos + " in " + s); } ++pr.pos; ++depth; pr.pos = consummeSpace(s, pr.pos, true); } else if (c == '(') { int cp = consummeSpace(s, pr.pos + 1, true); if (s.charAt(cp) == '(') { /* nested delimiters with only one point? */ if (npts <= 1) { throw new IllegalArgumentException("near " + pr.pos + " in " + s); } depth++; pr.pos = cp; } else { if (findLastDelim(s, pr.pos, '(') == cp) { depth++; pr.pos = cp; } } } pr.p = new double[npts][]; int max = s.length() - 1; for (int i = 0; i < npts; i++) { double[] points = new double[2]; pr.pos = parsePoint(s, pr.pos, points); pr.pos = consummeSpace(s, pr.pos, i < npts - 1); if (pr.pos < max && s.charAt(pr.pos) == ',') { ++pr.pos; } pr.p[i] = points; } while (depth > 0) { if ((s.charAt(pr.pos) == ')') || ((s.charAt(pr.pos) == ']') && pr.isOpen && (depth == 1))) { depth--; pr.pos++; pr.pos = consummeSpace(s, pr.pos, depth != 0); } else { throw new IllegalArgumentException("near " + pr.pos + " in " + s); } } return pr; } private int parsePoint(CharSequence s, int pos, double[] p) { int max = s.length() - 1; pos = consummeSpace(s, pos, true); boolean delim = false; if ('(' == s.charAt(pos)) { ++pos; delim = true; } pos = consummeSpace(s, pos, true); int pos1 = pos; while (pos <= max && ',' != s.charAt(pos)) { ++pos; } double p1 = Double.parseDouble(s.subSequence(pos1, pos).toString()); pos = consummeSpace(s, ++pos, true); double p2; pos1 = pos; if (delim) { while (pos <= max && ')' != s.charAt(pos)) { ++pos; } p2 = Double.parseDouble(s.subSequence(pos1, pos).toString()); } else { pos = parseNumber(s, pos); p2 = Double.parseDouble(s.subSequence(pos1, pos).toString()); } pos = consummeSpace(s, pos, delim); if (delim) { if (s.charAt(pos) != ')') { throw new IllegalArgumentException("near " + pos + " in " + s); } ++pos; } p[0] = p1; p[1] = p2; return pos; } private static int parseExponent(CharSequence s, int pos) { int max = s.length() - 1; if (pos >= max) { return pos; } char c = s.charAt(pos); if (c == 'e' || c == 'E') { ++pos; if (pos >= max) { throw new NumberFormatException("near " + pos + " in " + s); } c = s.charAt(pos); if (c == '-' || c == '+') { ++pos; } if (pos > max) { throw new NumberFormatException("near " + pos + " in " + s); } int initpos = pos; while (pos <= max && Character.isDigit(s.charAt(pos))) { ++pos; } if (initpos == pos) { // at least one is needed throw new NumberFormatException("near " + pos + " in " + s); } } return pos; } private int parseNumber(CharSequence s, int pos) { int max = s.length() - 1; boolean dot; switch (s.charAt(pos)) { case '.': case '-': case '+': case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': // looks like a number // eat a number dot = s.charAt(pos) == '.'; ++pos; while (pos <= max) { char c = s.charAt(pos); if ('.' == c) { if (dot) { // two dots throw new NumberFormatException("near " + pos + " in " + s); } dot = true; } else if ((!(c >= '0' && c <= '9')) && !Character.isDigit(c)) { break; } pos++; } if (pos <= max) { pos = parseExponent(s, pos); } } return pos; } private static int consummeSpace(CharSequence s, int pos, boolean checkEOS) { int max = s.length() - 1; while (pos <= max && Character.isSpaceChar(s.charAt(pos))) { ++pos; } if (checkEOS && pos > max) { throw new IllegalArgumentException("near " + pos + " in " + s); } return pos; } static class PathResult { int pos; double[][] p; boolean isOpen = false; } }




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