Ovaj članak govori o tome kako stvoriti dijagram toka u Javi. Uključuje algoritam korak po korak i isječak koda koji se može izvoditi za razvoj izrađivača dijagrama toka u Javi. Nadalje, možete poboljšati proces manipuliranjem sheme, broja oblika, veza i drugih svojstava kako biste stvorili flowchart prema svojim zahtjevima.
Koraci za stvaranje dijagrama toka u Javi
- Pripremite okruženje instaliranjem Aspose.Diagram API-ja za izradu dijagrama toka
- Razvijte shemu za dijagram toka
- Napravite objekt klase Diagram i učitajte glavne oblike za umetanje oblika
- Postavite izgled dijagrama toka i izvezite generirani dijagram toka pomoću metode spremanja Save
Ovi koraci pokazuju proces razvoja generatora dijagrama toka u Javi. Prvo napravite shemu za postavljanje različitih uloga, oznaka i drugih svojstava. Nakon toga upotrijebite glavne oblike za dodavanje različitih oblika poput pravokutnika, spojnica itd. prije postavljanja izgleda i spremanja izlaznog dijagrama toka.
Kod za stvaranje generatora dijagrama toka u Javi
import com.aspose.diagram.*; | |
public class Main | |
{ | |
public static void main(String[] args) throws Exception // Create flowchart in Java | |
{ | |
// Set the licenses | |
new License().setLicense("License.lic"); | |
// Create a new diagram | |
int pageNumber = 0; | |
String MasterRectangle = "Process", decisionMaster = "Decision", connectorMaster = "Dynamic connector"; | |
com.aspose.diagram.Diagram diagram = new com.aspose.diagram.Diagram("XANFLOWCHARTNEW.vss"); | |
double widthparam = 1, heightparam = 1, pinX = 4, pinY = 10; | |
long process1 = diagram.addShape(pinX, pinY, widthparam, heightparam, MasterRectangle, 0); | |
Shape processShape1 = diagram.getPages().getPage(pageNumber).getShapes().getShape(process1); | |
processShape1.getText().getValue().add(new Txt("PROCESS")); | |
processShape1.setName("PROCESS"); | |
processShape1.getXForm().getLocPinX().getUfe().setF("Width*0.5"); | |
processShape1.getXForm().getLocPinY().getUfe().setF("Height*0.5"); | |
pinY = pinY - 2; | |
long decision1 = diagram.addShape(pinX, pinY, widthparam, heightparam, decisionMaster, 0); | |
Shape decisionShape1 = diagram.getPages().getPage(pageNumber).getShapes().getShape(decision1); | |
decisionShape1.getText().getValue().add(new Txt("DECISION")); | |
decisionShape1.setName("DECISION"); | |
decisionShape1.getXForm().getLocPinX().getUfe().setF("Width*0.5"); | |
decisionShape1.getXForm().getLocPinY().getUfe().setF("Height*0.5"); | |
pinY = pinY - 2; | |
long process2 = diagram.addShape(pinX, pinY, widthparam, heightparam, MasterRectangle, 0); | |
Shape processShape2 = diagram.getPages().getPage(pageNumber).getShapes().getShape(process2); | |
processShape2.getText().getValue().add(new Txt("PROCESS")); | |
processShape2.setName("PROCESS"); | |
processShape2.getXForm().getLocPinX().getUfe().setF("Width*0.5"); | |
processShape2.getXForm().getLocPinY().getUfe().setF("Height*0.5"); | |
pinY = pinY - 2; | |
long process3 = diagram.addShape(pinX, pinY, widthparam, heightparam, MasterRectangle, 0); | |
Shape processShape3 = diagram.getPages().getPage(pageNumber).getShapes().getShape(process3); | |
processShape3.getText().getValue().add(new Txt("PROCESS")); | |
processShape3.setName("PROCESS"); | |
processShape3.getXForm().getLocPinX().getUfe().setF("Width*0.5"); | |
processShape3.getXForm().getLocPinY().getUfe().setF("Height*0.5"); | |
pinY = pinY - 2; | |
long process4 = diagram.addShape(pinX, pinY, widthparam, heightparam, MasterRectangle, 0); | |
Shape processShape4 = diagram.getPages().getPage(pageNumber).getShapes().getShape(process4); | |
processShape4.getText().getValue().add(new Txt("PROCESS")); | |
processShape4.setName("PROCESS"); | |
processShape4.getXForm().getLocPinX().getUfe().setF("Width*0.5"); | |
processShape4.getXForm().getLocPinY().getUfe().setF("Height*0.5"); | |
long connecterId = diagram.addShape(new Shape(), connectorMaster, 0); | |
diagram.getPages().getPage(pageNumber).connectShapesViaConnector(process1, ConnectionPointPlace.BOTTOM, | |
decision1, ConnectionPointPlace.TOP, connecterId); | |
long connecterId1 = diagram.addShape(new Shape(), connectorMaster, 0); | |
diagram.getPages().getPage(pageNumber).connectShapesViaConnector(decision1, ConnectionPointPlace.BOTTOM, | |
process2, ConnectionPointPlace.TOP, connecterId1); | |
long connecterId2 = diagram.addShape(new Shape(), connectorMaster, 0); | |
diagram.getPages().getPage(pageNumber).connectShapesViaConnector(process2, ConnectionPointPlace.BOTTOM, | |
process3, ConnectionPointPlace.TOP, connecterId2); | |
long connecterId3 = diagram.addShape(new Shape(), connectorMaster, 0); | |
diagram.getPages().getPage(pageNumber).connectShapesViaConnector(process3, ConnectionPointPlace.BOTTOM, | |
process4, ConnectionPointPlace.TOP, connecterId3); | |
long connecterId4 = diagram.addShape(new Shape(), connectorMaster, 0); | |
diagram.getPages().getPage(pageNumber).connectShapesViaConnector(decision1, ConnectionPointPlace.RIGHT, | |
process4, ConnectionPointPlace.TOP, connecterId4); | |
// Set automatic layout options | |
com.aspose.diagram.LayoutOptions layoutOptions = new com.aspose.diagram.LayoutOptions(); | |
layoutOptions.setLayoutStyle(com.aspose.diagram.LayoutStyle.FLOW_CHART); | |
layoutOptions.setDirection(com.aspose.diagram.LayoutDirection.BOTTOM_TO_TOP); diagram.layout(layoutOptions); | |
com.aspose.diagram.DiagramSaveOptions options = new com.aspose.diagram.DiagramSaveOptions(com.aspose.diagram.SaveFileFormat.VSDX); | |
diagram.save( "flowchart.vsdx", options); | |
System.out.println("Done"); | |
} | |
} |
Ovaj isječak koda osnovna je verzija za crtanje dijagrama toka u Javi. Klasa Diagram koristi se za učitavanje nekih glavnih oblika, određivanje izgleda i izvoz izlaznog dijagrama toka. Međutim, neke se prilagođene klase također koriste za stvaranje različitih konektora i raznih oblika, koje možete dodatno improvizirati kako biste ispunili svoje zahtjeve.
Ovaj vodič sakupio je informacije za izradu sastavljača dijagrama toka u Javi. Osim toga, ako trebate pretvoriti slike u Visio dijagrame, idite na članak na kako pretvoriti sliku u Visio u Javi.