net.sourceforge.plantuml.braille.BrailleGrid Maven / Gradle / Ivy
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PlantUML is a component that allows to quickly write diagrams from text.
// THIS FILE HAS BEEN GENERATED BY A PREPROCESSOR.
package net.sourceforge.plantuml.braille;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import net.sourceforge.plantuml.klimt.geom.XCubicCurve2D;
import net.sourceforge.plantuml.klimt.geom.XPoint2D;
import net.sourceforge.plantuml.klimt.shape.DotPath;
public class BrailleGrid {
private int minX;
private int minY;
private int maxX;
private int maxY;
private final double quanta;
private final Set on = new HashSet<>();
public BrailleGrid(double quanta) {
this.quanta = quanta;
}
public boolean getState(int x, int y) {
final Coords coords = new Coords(x, y);
return on.contains(coords);
}
private void setStateDouble(double x, double y, boolean state) {
setState(toInt(x), toInt(y), state);
}
public void setState(int x, int y, boolean state) {
final Coords coords = new Coords(x, y);
if (state) {
on.add(coords);
} else {
on.remove(coords);
}
minX = Math.min(minX, x);
maxX = Math.max(maxX, x);
minY = Math.min(minY, y);
maxY = Math.max(maxY, y);
}
public int getMinX() {
return minX;
}
public int getMinY() {
return minY;
}
public int getMaxX() {
return maxX;
}
public int getMaxY() {
return maxY;
}
public void rectangle(double x, double y, double width, double height) {
hline(y, x, x + width);
hline(y + height, x, x + width);
vline(x, y, y + height);
vline(x + width, y, y + height);
}
private void vline(double x, double y1, double y2) {
final int i = toInt(x);
final int j1 = toInt(y1);
final int j2 = toInt(y2);
for (int j = j1; j <= j2; j++) {
setState(i, j, true);
}
}
private void hline(double y, double x1, double x2) {
final int j = toInt(y);
final int i1 = toInt(x1);
final int i2 = toInt(x2);
for (int i = i1; i <= i2; i++) {
setState(i, j, true);
}
}
public int toInt(double value) {
return (int) Math.round(value / quanta);
}
public void line(double x1, double y1, double x2, double y2) {
if (x1 == x2) {
vline(x1, y1, y2);
} else if (y1 == y2) {
hline(y1, x1, x2);
} else {
System.err.println("warning line");
}
}
public double getQuanta() {
return quanta;
}
public void drawDotPath(double x, double y, DotPath shape) {
for (XCubicCurve2D bez : shape.getBeziers()) {
drawCubic(x, y, bez);
}
}
private void drawCubic(double x, double y, XCubicCurve2D bez) {
drawPointInternal(x, y, bez.getP1());
drawPointInternal(x, y, bez.getP2());
if (bez.getP1().distance(bez.getP2()) > quanta) {
final XCubicCurve2D part1 = XCubicCurve2D.none();
final XCubicCurve2D part2 = XCubicCurve2D.none();
bez.subdivide(part1, part2);
drawCubic(x, y, part1);
drawCubic(x, y, part2);
}
}
private void drawPointInternal(double x, double y, XPoint2D pt) {
setStateDouble(x + pt.getX(), y + pt.getY(), true);
}
public void drawPolygon(List points) {
for (int i = 0; i < points.size() - 1; i++) {
drawLineInternal(points.get(i), points.get(i + 1));
}
drawLineInternal(points.get(points.size() - 1), points.get(0));
}
private void drawLineInternal(XPoint2D a, XPoint2D b) {
drawPointInternal(0, 0, a);
drawPointInternal(0, 0, b);
if (a.distance(b) > quanta) {
final XPoint2D middle = new XPoint2D((a.getX() + b.getX()) / 2, (a.getY() + b.getY()) / 2);
drawLineInternal(a, middle);
drawLineInternal(middle, b);
}
}
}