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PlantUML is a component that allows to quickly write diagrams from text.
// THIS FILE HAS BEEN GENERATED BY A PREPROCESSOR.
/* +=======================================================================
* |
* | PlantUML : a free UML diagram generator
* |
* +=======================================================================
*
* (C) Copyright 2009-2024, Arnaud Roques
*
* Project Info: https://plantuml.com
*
* If you like this project or if you find it useful, you can support us at:
*
* https://plantuml.com/patreon (only 1$ per month!)
* https://plantuml.com/liberapay (only 1€ per month!)
* https://plantuml.com/paypal
*
*
* PlantUML is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License V2.
*
* THE ACCOMPANYING PROGRAM IS PROVIDED UNDER THE TERMS OF THIS ECLIPSE PUBLIC
* LICENSE ("AGREEMENT"). [GNU General Public License V2]
*
* ANY USE, REPRODUCTION OR DISTRIBUTION OF THE PROGRAM CONSTITUTES
* RECIPIENT'S ACCEPTANCE OF THIS AGREEMENT.
*
* You may obtain a copy of the License at
*
* https://www.gnu.org/licenses/old-licenses/gpl-2.0.html
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* PlantUML can occasionally display sponsored or advertising messages. Those
* messages are usually generated on welcome or error images and never on
* functional diagrams.
* See https://plantuml.com/professional if you want to remove them
*
* Images (whatever their format : PNG, SVG, EPS...) generated by running PlantUML
* are owned by the author of their corresponding sources code (that is, their
* textual description in PlantUML language). Those images are not covered by
* this GPL v2 license.
*
* The generated images can then be used without any reference to the GPL v2 license.
* It is not even necessary to stipulate that they have been generated with PlantUML,
* although this will be appreciated by the PlantUML team.
*
* There is an exception : if the textual description in PlantUML language is also covered
* by any license, then the generated images are logically covered
* by the very same license.
*
* This is the IGY distribution (Install GraphViz by Yourself).
* You have to install GraphViz and to setup the GRAPHVIZ_DOT environment variable
* (see https://plantuml.com/graphviz-dot )
*
* Icons provided by OpenIconic : https://useiconic.com/open
* Archimate sprites provided by Archi : http://www.archimatetool.com
* Stdlib AWS provided by https://github.com/milo-minderbinder/AWS-PlantUML
* Stdlib Icons provided https://github.com/tupadr3/plantuml-icon-font-sprites
* ASCIIMathML (c) Peter Jipsen http://www.chapman.edu/~jipsen
* ASCIIMathML (c) David Lippman http://www.pierce.ctc.edu/dlippman
* CafeUndZopfli ported by Eugene Klyuchnikov https://github.com/eustas/CafeUndZopfli
* Brotli (c) by the Brotli Authors https://github.com/google/brotli
* Themes (c) by Brett Schwarz https://github.com/bschwarz/puml-themes
* Twemoji (c) by Twitter at https://twemoji.twitter.com/
*
*/
package net.sourceforge.plantuml.svek;
import java.util.EnumSet;
import net.sourceforge.plantuml.decoration.symbol.USymbol;
import net.sourceforge.plantuml.decoration.symbol.USymbols;
import net.sourceforge.plantuml.klimt.UPath;
import net.sourceforge.plantuml.klimt.UShape;
import net.sourceforge.plantuml.klimt.UTranslate;
import net.sourceforge.plantuml.klimt.drawing.UGraphic;
import net.sourceforge.plantuml.klimt.geom.XDimension2D;
import net.sourceforge.plantuml.klimt.shape.ULine;
import net.sourceforge.plantuml.klimt.shape.UPolygon;
import net.sourceforge.plantuml.klimt.shape.URectangle;
public enum PackageStyle {
FOLDER, RECTANGLE, NODE, FRAME, CLOUD, DATABASE, AGENT, STORAGE, COMPONENT1, COMPONENT2, ARTIFACT, CARD;
public static PackageStyle fromString(String value) {
for (PackageStyle p : EnumSet.allOf(PackageStyle.class)) {
if (p.toString().equalsIgnoreCase(value)) {
return p;
}
}
if ("rect".equalsIgnoreCase(value)) {
return RECTANGLE;
}
return null;
}
public USymbol toUSymbol() {
if (this == NODE)
return USymbols.NODE;
if (this == CARD)
return USymbols.CARD;
if (this == DATABASE)
return USymbols.DATABASE;
if (this == CLOUD)
return USymbols.CLOUD;
if (this == FRAME)
return USymbols.FRAME;
if (this == RECTANGLE)
return USymbols.RECTANGLE;
if (this == FOLDER)
return USymbols.PACKAGE;
return null;
}
public void drawU(UGraphic ug, XDimension2D dim, XDimension2D titleDim, boolean shadowing) {
if (titleDim == null) {
titleDim = new XDimension2D(0, 0);
}
final double width = dim.getWidth();
final double height = dim.getHeight();
if (this == DATABASE) {
drawDatabase(ug, width, height, shadowing);
} else if (this == FOLDER) {
drawFolder(ug, width, height, shadowing);
} else if (this == FRAME) {
drawFrame(ug, width, height, titleDim, shadowing);
} else if (this == CLOUD) {
drawCloud(ug, width, height, shadowing);
} else if (this == RECTANGLE) {
drawRect(ug, width, height, shadowing);
} else if (this == COMPONENT1) {
drawComponent1(ug, width, height, shadowing);
} else if (this == COMPONENT2) {
drawComponent2(ug, width, height, shadowing);
} else if (this == STORAGE) {
drawStorage(ug, width, height, shadowing);
} else if (this == AGENT) {
drawRect(ug, width, height, shadowing);
} else if (this == ARTIFACT) {
drawArtifact(ug, width, height, shadowing);
} else {
// drawNode(ug, xTheoricalPosition, yTheoricalPosition, width, height,
// shadowing);
throw new UnsupportedOperationException();
}
}
private void drawArtifact(UGraphic ug, double width, double height, boolean shadowing) {
final UPolygon polygon = new UPolygon();
polygon.addPoint(0, 0);
polygon.addPoint(0, height);
polygon.addPoint(width, height);
final int cornersize = 10;
polygon.addPoint(width, cornersize);
polygon.addPoint(width - cornersize, 0);
polygon.addPoint(0, 0);
if (shadowing) {
polygon.setDeltaShadow(3.0);
}
ug.draw(polygon);
ug.apply(UTranslate.dx(width - cornersize)).draw(ULine.vline(cornersize));
ug.apply(new UTranslate(width, cornersize)).draw(ULine.hline(-cornersize));
}
private void drawStorage(UGraphic ug, double width, double height, boolean shadowing) {
final URectangle shape = URectangle.build(width, height).rounded(70);
if (shadowing) {
shape.setDeltaShadow(3.0);
}
ug.draw(shape);
}
private void drawComponent1(UGraphic ug, double widthTotal, double heightTotal, boolean shadowing) {
final URectangle form = URectangle.build(widthTotal, heightTotal);
if (shadowing) {
form.setDeltaShadow(4);
}
final UShape small = URectangle.build(10, 5);
ug.draw(form);
// UML 1 Component Notation
ug.apply(new UTranslate(-5, 5)).draw(small);
ug.apply(new UTranslate(-5, heightTotal - 10)).draw(small);
}
private void drawComponent2(UGraphic ug, double widthTotal, double heightTotal, boolean shadowing) {
final URectangle form = URectangle.build(widthTotal, heightTotal);
if (shadowing) {
form.setDeltaShadow(4);
}
final UShape small = URectangle.build(15, 10);
final UShape tiny = URectangle.build(4, 2);
ug.draw(form);
// UML 2 Component Notation
ug.apply(new UTranslate(widthTotal - 20, 5)).draw(small);
ug.apply(new UTranslate(widthTotal - 22, 7)).draw(tiny);
ug.apply(new UTranslate(widthTotal - 22, 11)).draw(tiny);
}
private void drawRect(UGraphic ug, double width, double height, boolean shadowing) {
final URectangle shape = URectangle.build(width, height);
if (shadowing) {
shape.setDeltaShadow(3.0);
}
ug.draw(shape);
}
private void drawCloud(UGraphic ug, double width, double height, boolean shadowing) {
final UPath shape = getSpecificFrontierForCloud(width, height);
if (shadowing) {
shape.setDeltaShadow(3.0);
}
ug.apply(new UTranslate(3, -3)).draw(shape);
}
private UPath getSpecificFrontierForCloud(double width, double height) {
final UPath path = UPath.none();
path.moveTo(0, 10);
double x = 0;
for (int i = 0; i < width - 9; i += 10) {
path.cubicTo(i, -3 + 10, 2 + i, -5 + 10, 5 + i, -5 + 10);
path.cubicTo(8 + i, -5 + 10, 10 + i, -3 + 10, 10 + i, 10);
x = i + 10;
}
double y = 0;
for (int j = 10; j < height - 9; j += 10) {
path.cubicTo(x + 3, j, x + 5, 2 + j, x + 5, 5 + j);
path.cubicTo(x + 5, 8 + j, x + 3, 10 + j, x, 10 + j);
y = j + 10;
}
for (int i = 0; i < width - 9; i += 10) {
path.cubicTo(x - i, y + 3, x - 3 - i, y + 5, x - 5 - i, y + 5);
path.cubicTo(x - 8 - i, y + 5, x - 10 - i, y + 3, x - 10 - i, y);
}
for (int j = 0; j < height - 9 - 10; j += 10) {
path.cubicTo(-3, y - j, -5, y - 2 - j, -5, y - 5 - j);
path.cubicTo(-5, y - 8 - j, -3, y - 10 - j, 0, y - 10 - j);
}
return path;
}
private void drawFrame(UGraphic ug, double width, double height, XDimension2D dimTitle, boolean shadowing) {
final URectangle shape = URectangle.build(width, height);
if (shadowing) {
shape.setDeltaShadow(3.0);
}
ug.draw(shape);
final double textWidth;
final double textHeight;
final int cornersize;
if (dimTitle.getWidth() == 0) {
textWidth = width / 3;
textHeight = 12;
cornersize = 7;
} else {
textWidth = dimTitle.getWidth() + 10;
textHeight = dimTitle.getHeight() + 3;
cornersize = 10;
}
final UPath polygon = UPath.none();
polygon.moveTo(textWidth, 1);
polygon.lineTo(textWidth, textHeight - cornersize);
polygon.lineTo(textWidth - cornersize, textHeight);
polygon.lineTo(0, textHeight);
ug.draw(polygon);
}
private void drawFolder(UGraphic ug, double width, double height, boolean shadowing) {
final double wtitle = Math.max(30, width / 4);
final UPolygon shape = new UPolygon();
shape.addPoint(0, 0);
shape.addPoint(wtitle, 0);
final double htitle = 10;
final double marginTitleX3 = 7;
shape.addPoint(wtitle + marginTitleX3, htitle);
shape.addPoint(width, htitle);
shape.addPoint(width, height);
shape.addPoint(0, height);
shape.addPoint(0, 0);
if (shadowing) {
shape.setDeltaShadow(3.0);
}
ug.draw(shape);
ug.apply(UTranslate.dy(htitle)).draw(ULine.hline(wtitle + marginTitleX3));
}
private void drawDatabase(UGraphic ug, double width, double height, boolean shadowing) {
final UPath shape = UPath.none();
if (shadowing) {
shape.setDeltaShadow(3.0);
}
shape.moveTo(0, 10);
shape.cubicTo(10, 0, width / 2 - 10, 0, width / 2, 0);
shape.cubicTo(width / 2 + 10, 0, width - 10, 0, width, 10);
shape.lineTo(width, height - 10);
shape.cubicTo(width - 10, height, width / 2 - 10, height, width / 2, height);
shape.cubicTo(width / 2 + 10, height, 10, height, 0, height - 10);
shape.lineTo(0, 10);
ug.draw(shape);
final UPath closing = UPath.none();
closing.moveTo(0, 10);
closing.cubicTo(10, 20, width / 2 - 10, 20, width / 2, 20);
closing.cubicTo(width / 2 + 10, 20, width - 10, 20, width, 10);
ug.draw(closing);
}
private void drawNode(UGraphic ug, double xTheoricalPosition, double yTheoricalPosition, double width,
double height, boolean shadowing) {
final UPolygon shape = new UPolygon();
shape.addPoint(0, 10);
shape.addPoint(10, 0);
shape.addPoint(width, 0);
shape.addPoint(width, height - 10);
shape.addPoint(width - 10, height);
shape.addPoint(0, height);
shape.addPoint(0, 10);
if (shadowing) {
shape.setDeltaShadow(2);
}
ug.apply(new UTranslate(xTheoricalPosition, yTheoricalPosition)).draw(shape);
ug.apply(new UTranslate(xTheoricalPosition + width - 10, yTheoricalPosition + 10)).draw(new ULine(9, -9));
final UPath path = UPath.none();
path.moveTo(0, 0);
path.lineTo(width - 10, 0);
path.lineTo(width - 10, height - 10);
ug.apply(new UTranslate(xTheoricalPosition, yTheoricalPosition + 10)).draw(path);
}
}