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org.stathissideris.ascii2image.text.GridPattern Maven / Gradle / Ivy
/*
* DiTAA - Diagrams Through Ascii Art
*
* Copyright (C) 2004 Efstathios Sideris
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
*/
package org.stathissideris.ascii2image.text;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.regex.Pattern;
/**
* This is a TextGrid (usually 3x3) that contains the equivalent of a
* 2D reqular expression (which uses custom syntax to make things more
* visual, but standard syntax is also possible).
*
* The custom syntax is:
* . means anything
* b means any boundary (any of - = / \ + | :)
* ! means not boundary (none of - = / \ + | :)
* - means - or =
* | means | or :
* [ means not | nor :
* ~ means not - nor =
* ^ means a boundary but not - nor =
* ( means a boundary but not | nor :
* s means a straight boundary (one of - = + | :)
* S means not a straight boundary (none of - = + | :)
*
* 1 means a cell that has entry point 1
* 2 means a cell that has entry point 2
* 3 means a cell that has entry point 3 etc. up to number 8
*
* %1 means a cell that does not have entry point 1 etc.
*
* See below for an explanation of entry points
*
* +, \, / and the space are literal (as is any other character)
*
*
* Entry points
*
*
* 1 2 3
* *--*--*
* | |
* 8* *4
* | |
* *--*--*
* 7 6 5
*
*
* We number the entry points for each cell as in the diagram
* above. If a cell is occupied by a character, we define as
* entry points the points of the above diagram that the character
* can touch with the end of its lines. For example - has
* entry points 8 and 4, | and : have entry points 2 and 6,
* / has 3 and 7, \ has 1 and 5, + has 2, 6, 8 and 4 etc.
*
*
* @author Efstathios Sideris
*/
public class GridPattern extends TextGrid {
private ArrayList regExps = new ArrayList(); //TODO optimise: store as PatternS
private boolean regExpsAreValid = false;
private static final boolean DEBUG = false;
private boolean usesStandardSyntax = false;
public GridPattern(){
super(3, 3);
}
public GridPattern(String row1, String row2, String row3){
super(Math.max(Math.max(row1.length(), row2.length()), row3.length()), 3);
setTo(row1, row2, row3);
regExpsAreValid = false;
}
public boolean usesStandardSyntax() {
return usesStandardSyntax;
}
public void setUsesStandardSyntax(boolean b) {
usesStandardSyntax = b;
regExpsAreValid = false;
}
public boolean isMatchedBy(TextGrid grid){
/*if(grid.getHeight() != this.getHeight()
|| grid.getWidth() != this.getWidth()) return false;*/
if(!regExpsAreValid) prepareRegExps();
for(int i = 0; i < grid.getHeight(); i++) {
String row = grid.getRow(i).toString();
Pattern regexp = regExps.get(i);
if(!regexp.matcher(row).matches()) {
if(DEBUG)
System.out.println(row+" does not match "+regexp);
return false;
}
}
return true;
}
private void prepareRegExps(){
regExpsAreValid = true;
regExps.clear();
if (DEBUG)
System.out.println("Trying to match:");
if(!usesStandardSyntax){
Iterator it = getRows().iterator();
while (it.hasNext()) {
String row = it.next().toString();
regExps.add(Pattern.compile(makeRegExp(row)));
if(DEBUG)
System.out.println(row+" becomes "+makeRegExp(row));
}
} else {
Iterator it = getRows().iterator();
while (it.hasNext()) {
String row = it.next().toString();
regExps.add(Pattern.compile(row));
}
}
}
private String makeRegExp(String pattern){
StringBuilder result = new StringBuilder();
int tokensHandled = 0;
for(int i = 0; i < pattern.length() && tokensHandled < 3; i++){
char c = pattern.charAt(i);
if(c == '[') {
result.append("[^|:]");
} else if(c == '|') {
result.append("[|:]");
} else if(c == '-') {
result.append("-");
} else if(c == '!') {
result.append("[^-=\\/\\\\+|:]");
} else if(c == 'b') {
result.append("[-=\\/\\\\+|:]");
} else if(c == '^') {
result.append("[\\/\\\\+|:]");
} else if(c == '(') {
result.append("[-=\\/\\\\+]");
} else if(c == '~') {
result.append(".");
} else if(c == '+') {
result.append("\\+");
} else if(c == '\\') {
result.append("\\\\");
} else if(c == 's') {
result.append("[-=+|:]");
} else if(c == 'S') {
result.append("[\\/\\\\]");
} else if(c == '*') {
result.append("\\*");
//entry points
} else if(c == '1') {
result.append("[\\\\]");
} else if(c == '2') {
result.append("[|:+\\/\\\\]");
} else if(c == '3') {
result.append("[\\/]");
} else if(c == '4') {
result.append("[-=+\\/\\\\]");
} else if(c == '5') {
result.append("[\\\\]");
} else if(c == '6') {
result.append("[|:+\\/\\\\]");
} else if(c == '7') {
result.append("[\\/]");
} else if(c == '8') {
result.append("[-=+\\/\\\\]");
//entry point negations
} else if(c == '%') {
if(i+1 > pattern.length()){
throw new RuntimeException("Invalid pattern, found % at the end");
}
c = pattern.charAt(++i);
if(c == '1') {
result.append("[^\\\\]");
} else if(c == '2') {
result.append("[^|:+\\/\\\\]");
} else if(c == '3') {
result.append("[^\\/]");
} else if(c == '4') {
result.append("[^-=+\\/\\\\]");
} else if(c == '5') {
result.append("[^\\\\]");
} else if(c == '6') {
result.append("[^|:+\\/\\\\]");
} else if(c == '7') {
result.append("[^\\/]");
} else if(c == '8') {
result.append("[^-=+\\/\\\\]");
}
} else result.append(String.valueOf(c));
tokensHandled++;
}
return result.toString();
}
public void setTo(String row1, String row2, String row3){
if(getHeight() != 3) throw new RuntimeException("This method can only be called for GridPatternS with height 3");
regExpsAreValid = false;
writeStringTo(0, 0, row1);
writeStringTo(0, 1, row2);
writeStringTo(0, 2, row3);
//don't use setRow() here!
}
public static void main(String[] args) {
TextGrid grid = new TextGrid(3, 3);
// grid.setRow(0, " ");
// grid.setRow(1, "-\\ ");
// grid.setRow(2, " | ");
//
// if(GridPatternGroup.corner2Criteria.isAnyMatchedBy(grid)){
// System.out.println("Grid is corner 2");
// } else {
// System.out.println("Grid is not corner 2");
// }
//
// if(grid.isCorner2(grid.new Cell(1,1))){
// System.out.println("Grid is corner 2");
// } else {
// System.out.println("Grid is not corner 2");
// }
//
//
// grid.setRow(0, "-+ ");
// grid.setRow(1, " | ");
// grid.setRow(2, "-+ ");
//
// if(GridPatternGroup.cornerCriteria.isAnyMatchedBy(grid)){
// System.out.println("Grid is corner");
// } else {
// System.out.println("Grid is not corner");
// }
//
// if(grid.isCorner(grid.new Cell(1,1))){
// System.out.println("Grid is corner");
// } else {
// System.out.println("Grid is not corner");
// }
grid.setRow(0, "---");
grid.setRow(1, " / ");
grid.setRow(2, "---");
grid.printDebug();
if(GridPatternGroup.loneDiagonalCriteria.isAnyMatchedBy(grid)){
System.out.println("Grid is lone diagonal");
} else {
System.out.println("Grid is not lone diagonal");
}
grid.setRow(0, "--/");
grid.setRow(1, " / ");
grid.setRow(2, "---");
grid.printDebug();
if(GridPatternGroup.loneDiagonalCriteria.isAnyMatchedBy(grid)){
System.out.println("Grid is lone diagonal");
} else {
System.out.println("Grid is not lone diagonal");
}
grid.setRow(0, "-- ");
grid.setRow(1, " \\ ");
grid.setRow(2, "---");
grid.printDebug();
if(GridPatternGroup.loneDiagonalCriteria.isAnyMatchedBy(grid)){
System.out.println("Grid is lone diagonal");
} else {
System.out.println("Grid is not lone diagonal");
}
grid.setRow(0, "-- ");
grid.setRow(1, " \\ ");
grid.setRow(2, "--\\");
grid.printDebug();
if(GridPatternGroup.loneDiagonalCriteria.isAnyMatchedBy(grid)){
System.out.println("Grid is lone diagonal");
} else {
System.out.println("Grid is not lone diagonal");
}
grid.setRow(0, " ");
grid.setRow(1, "-\\/");
grid.setRow(2, " ||");
grid.printDebug();
if(GridPatternGroup.loneDiagonalCriteria.isAnyMatchedBy(grid)){
System.out.println("Grid is lone diagonal");
} else {
System.out.println("Grid is not lone diagonal");
}
}
}