com.sun.javafx.scene.paint.GradientUtils Maven / Gradle / Ivy
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* accompanied this code).
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package com.sun.javafx.scene.paint;
import java.util.LinkedList;
import java.util.List;
import javafx.scene.paint.Color;
import javafx.scene.paint.Stop;
public class GradientUtils {
public static String lengthToString(double value, boolean proportional) {
if (proportional) {
return (value * 100) + "%";
} else {
return value + "px";
}
}
public static class Point {
public static final Point MIN = new Point(0, true);
public static final Point MAX = new Point(1, true);
public double value;
public boolean proportional;
@Override
public String toString() {
return "value = " + value + ", proportional = " + proportional;
}
public Point(double value, boolean proportional) {
this.value = value;
this.proportional = proportional;
}
public Point() {
}
}
public static class Parser {
private int index;
private String[] tokens;
private boolean proportional;
private boolean proportionalSet = false;
private interface Delimiter {
public boolean isDelimiter(char value);
}
private String[] splitString(String string, Delimiter delimiter, boolean canRepeat) {
List tokenList = new LinkedList();
StringBuilder token = new StringBuilder();
int i = 0;
char[] input = string.toCharArray();
while (i < input.length) {
char currentChar = input[i];
if (delimiter.isDelimiter(currentChar)) {
if (!canRepeat || token.length() > 0) {
tokenList.add(token.toString());
}
token.setLength(0);
} else if (currentChar == '(') {
while (i < input.length) {
token.append(input[i]);
if (input[i] == ')') {
break;
}
i++;
}
} else {
token.append(input[i]);
}
i++;
}
if (!canRepeat || token.length() > 0) {
tokenList.add(token.toString());
}
return tokenList.toArray(new String[tokenList.size()]);
}
public Parser(String content) {
tokens = splitString(content, value -> (value == ','), false);
index = 0;
}
public int getSize() {
return tokens.length;
}
public void shift() {
index++;
}
public String getCurrentToken() {
String currentToken = tokens[index].trim();
if (currentToken.isEmpty()) {
throw new IllegalArgumentException("Invalid gradient specification: "
+ "found empty token.");
}
return currentToken;
}
public String[] splitCurrentToken() {
return getCurrentToken().split("\\s");
}
public static void checkNumberOfArguments(String[] tokens, int count) {
if (tokens.length < count + 1) {
throw new IllegalArgumentException("Invalid gradient specification: "
+ "parameter '"+ tokens[0] + "' needs " + count + " argument(s).");
}
}
public static double parseAngle(String value) {
double angle = 0;
if (value.endsWith("deg")) {
value = value.substring(0, value.length() - 3);
angle = Double.parseDouble(value);
} else if (value.endsWith("grad")) {
value = value.substring(0, value.length() - 4);
angle = Double.parseDouble(value);
angle = angle * 9 / 10;
} else if (value.endsWith("rad")) {
value = value.substring(0, value.length() - 3);
angle = Double.parseDouble(value);
angle = angle * 180 / Math.PI;
} else if (value.endsWith("turn")) {
value = value.substring(0, value.length() - 4);
angle = Double.parseDouble(value);
angle = angle * 360;
} else {
throw new IllegalArgumentException("Invalid gradient specification:"
+ "angle must end in deg, rad, grad, or turn");
}
return angle;
}
public static double parsePercentage(String value) {
double percentage;
if (value.endsWith("%")) {
value = value.substring(0, value.length() - 1);
percentage = Double.parseDouble(value) / 100;
} else {
throw new IllegalArgumentException("Invalid gradient specification: "
+ "focus-distance must be specified as percentage");
}
return percentage;
}
public Point parsePoint(String value) {
Point p = new Point();
if (value.endsWith("%")) {
p.proportional = true;
value = value.substring(0, value.length() - 1);
} else if (value.endsWith("px")) {
value = value.substring(0, value.length() - 2);
}
p.value = Double.parseDouble(value);
if (p.proportional) {
p.value /= 100;
}
if (proportionalSet && proportional != p.proportional) {
throw new IllegalArgumentException("Invalid gradient specification:"
+ "cannot mix proportional and non-proportional values");
}
proportionalSet = true;
proportional = p.proportional;
return p;
}
// length specifies the length of gradient line used when recalculating
// non-proportional color-stops
public Stop[] parseStops(boolean proportional, double length) {
int stopsCount = tokens.length - index;
Color[] colors = new Color[stopsCount];
double[] offsets = new double[stopsCount];
Stop[] stops = new Stop[stopsCount];
for (int i = 0; i < stopsCount; i++) {
String stopString = tokens[i + index].trim();
String[] stopTokens = splitString(stopString, value -> Character.isWhitespace(value), true);
if (stopTokens.length == 0) {
throw new IllegalArgumentException("Invalid gradient specification, "
+ "empty stop found");
}
String currentToken = stopTokens[0];
double offset = -1;
Color c = Color.web(currentToken);
if (stopTokens.length == 2) {
// parsing offset
String o = stopTokens[1];
if (o.endsWith("%")) {
o = o.substring(0, o.length() - 1);
offset = Double.parseDouble(o) / 100;
} else if (!proportional) {
if (o.endsWith("px")) {
o = o.substring(0, o.length() - 2);
}
offset = Double.parseDouble(o) / length;
} else {
throw new IllegalArgumentException("Invalid gradient specification, "
+ "non-proportional stops not permited in proportional gradient: " + o);
}
} else if (stopTokens.length > 2) {
throw new IllegalArgumentException("Invalid gradient specification, "
+ "unexpected content in stop specification: " + stopTokens[2]);
}
colors[i] = c;
offsets[i] = offset;
}
// normalize based on CSS specification
// If the first color-stop does not have a position, set its position to 0%.
// If the last color-stop does not have a position, set its position to 100%.
if (offsets[0] < 0) {
offsets[0] = 0;
}
if (offsets[offsets.length - 1] < 0) {
offsets[offsets.length - 1] = 1;
}
// If a color-stop has a position that is less than the specified position
// of any color-stop before it in the list, set its position to be equal
// to the largest specified position of any color-stop before it.
double max = offsets[0];
for (int i = 1; i < offsets.length; i++) {
if (offsets[i] < max && offsets[i] > 0) {
offsets[i] = max;
} else {
max = offsets[i];
}
}
// If any color-stop still does not have a position, then,
// for each run of adjacent color-stops without positions,
// set their positions so that they are evenly spaced
// between the preceding and following color-stops with positions.
int firstIndex = -1;
for (int i = 1; i < offsets.length; i++) {
double offset = offsets[i];
if (offset < 0 && firstIndex < 0) {
firstIndex = i;
} else if (offset >= 0 && firstIndex > 0) {
int n = i - firstIndex + 1;
double part = (offsets[i] - offsets[firstIndex - 1]) / n;
for (int j = 0; j < n - 1; j++) {
offsets[firstIndex + j] = offsets[firstIndex - 1] + part * (j + 1);
}
}
}
for (int i = 0; i < stops.length; i++) {
Stop stop = new Stop(offsets[i], colors[i]);
stops[i] = stop;
}
return stops;
}
}
}
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