/*
* uDig - User Friendly Desktop Internet GIS client
* http://udig.refractions.net
* (C) 2012, Refractions Research Inc.
*
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* (http://www.eclipse.org/legal/epl-v10.html), and the Refractions BSD
* License v1.0 (http://udig.refractions.net/files/bsd3-v10.html).
*/
package org.locationtech.udig.printing.ui.pdf;
import java.awt.Color;
import java.awt.Font;
import java.awt.Point;
import java.util.ArrayList;
import java.util.List;
import org.locationtech.udig.mapgraphic.MapGraphic;
import org.locationtech.udig.mapgraphic.MapGraphicContext;
import org.locationtech.udig.mapgraphic.MapGraphicPlugin;
import org.locationtech.udig.mapgraphic.grid.GridStyle;
import org.locationtech.udig.mapgraphic.internal.Messages;
import org.locationtech.udig.project.ILayer;
import org.locationtech.udig.ui.graphics.ViewportGraphics;
import org.geotools.referencing.CRS;
import org.geotools.referencing.crs.DefaultGeographicCRS;
import org.opengis.referencing.FactoryException;
import org.opengis.referencing.crs.CoordinateReferenceSystem;
import org.opengis.referencing.operation.MathTransform;
import com.vividsolutions.jts.geom.Coordinate;
import com.vividsolutions.jts.geom.Envelope;
/**
*
* A grid that labels grid lines based on the current CRS
* <p>
*
* </p>
* @author brocka
* @since 1.1.0
*/
public class CRSGridMapGraphic implements MapGraphic {
public void draw( MapGraphicContext context ) {
boolean showLabels = true;
Color gridColor = Color.black;
Font font = new Font("Times", Font.PLAIN, 8);
Envelope bounds = context.getViewportModel().getBounds();
List<Double>[] gridLines = chooseGridLines(bounds);
ViewportGraphics graphics = context.getGraphics();
int mapPixelWidth = context.getMapDisplay().getWidth();
int mapPixelHeight = context.getMapDisplay().getHeight();
graphics.setColor(gridColor);
List<Double> xCoords = gridLines[0];
List<Double> yCoords = gridLines[1];
//draw vert lines
for (int i = 0; i < xCoords.size(); i++) {
double x = xCoords.get(i).doubleValue();
for (int j = 0; j < yCoords.size() - 1; j++) {
double y1 = yCoords.get(j).doubleValue();
Coordinate lastCoord = new Coordinate(x, y1);
double y2 = yCoords.get(j+1).doubleValue();
Coordinate thisCoord = new Coordinate(x, y2);
Point lastPixel = context.worldToPixel(lastCoord);
Point thisPixel = context.worldToPixel(thisCoord);
graphics.drawLine(lastPixel.x,
lastPixel.y,
thisPixel.x,
thisPixel.y);
}
}
//draw horiz lines
for (int i = 0; i < yCoords.size(); i++) {
double y = yCoords.get(i).doubleValue();
for (int j = 0; j < xCoords.size() - 1; j++) {
double x1 = xCoords.get(j).doubleValue();
Coordinate lastCoord = new Coordinate(x1, y);
double x2 = xCoords.get(j+1).doubleValue();
Coordinate thisCoord = new Coordinate(x2, y);
Point lastPixel = context.worldToPixel(lastCoord);
Point thisPixel = context.worldToPixel(thisCoord);
graphics.drawLine(lastPixel.x,
lastPixel.y,
thisPixel.x,
thisPixel.y);
}
}
//cover the right side and bottom of map with thin strips
final int RIGHT_STRIP_WIDTH = (int)(mapPixelWidth * 0.05);
final int BOTTOM_STRIP_HEIGHT = (int)(mapPixelHeight * 0.05);
final int GRID_LINE_EXTENSION = (int)(RIGHT_STRIP_WIDTH * 0.1);
graphics.setColor(Color.white);
graphics.fillRect(mapPixelWidth - RIGHT_STRIP_WIDTH,
0,
RIGHT_STRIP_WIDTH,
mapPixelHeight);
graphics.fillRect(0,
mapPixelHeight - BOTTOM_STRIP_HEIGHT,
mapPixelWidth,
BOTTOM_STRIP_HEIGHT);
//outline the map
graphics.setStroke(ViewportGraphics.LINE_SOLID, 1);
graphics.setColor(Color.BLACK);
graphics.drawRect(1,
1,
mapPixelWidth - RIGHT_STRIP_WIDTH - 1,
mapPixelHeight - BOTTOM_STRIP_HEIGHT - 1);
//draw labels
graphics.setFont(font);
if (showLabels) {
graphics.setColor(gridColor);
for (int i = 1; i < yCoords.size() - 1; i++) {
double y = yCoords.get(i).doubleValue();
double x = xCoords.get(xCoords.size() - 1).doubleValue();
Point pixel = context.worldToPixel(new Coordinate(x,y));
//line is covered by white overlay
if (pixel.y > mapPixelHeight - BOTTOM_STRIP_HEIGHT)
break;
graphics.drawString((int)(y)+"",
mapPixelWidth - RIGHT_STRIP_WIDTH + GRID_LINE_EXTENSION,
pixel.y,
ViewportGraphics.ALIGN_LEFT,
ViewportGraphics.ALIGN_MIDDLE);
}
for (int i = 1; i < xCoords.size() - 1; i++) {
double x = xCoords.get(i).doubleValue();
double y = yCoords.get(yCoords.size() - 1).doubleValue();
Point pixel = context.worldToPixel(new Coordinate(x,y));
//line is covered by white overlay
if (pixel.x > mapPixelWidth - RIGHT_STRIP_WIDTH)
break;
graphics.drawString((int)(x)+"",
pixel.x,
mapPixelHeight - BOTTOM_STRIP_HEIGHT + GRID_LINE_EXTENSION,
ViewportGraphics.ALIGN_MIDDLE,
ViewportGraphics.ALIGN_TOP);
}
} //showlabels
}
/*
* returns a two element array, where each element is list.
* the first list represents x-coordinates of vertical grid lines, and
* the second list represents y coordinates of horizintal grid lines.
*/
private List<Double>[] chooseGridLines(Envelope bounds) {
double[] gridSizeChoices = { 1, 2, 5, 10, 25, 50, 100, 500, 1000, 5000, 10000, 50000, 100000, 500000, 1000000 };
int preferredNumberOfGridLines = 2; //approximately, but +/- a couple is okay
double xSizeGuess = (bounds.getMaxX() - bounds.getMinX()) / preferredNumberOfGridLines;
double xSize = findClosest(gridSizeChoices, xSizeGuess);
double ySizeGuess = (bounds.getMaxY() - bounds.getMinY()) / preferredNumberOfGridLines;
double ySize = findClosest(gridSizeChoices, ySizeGuess);
double max = Math.max(xSize, ySize);
xSize = max;
ySize = max;
// make list of all the x-coordinates (vertical grid lines)
double firstX = Math.round(bounds.getMinX() / xSize) * xSize;
if (firstX > bounds.getMinX()){
firstX -= xSize;
}
List xList = new ArrayList();
double xCoord = firstX;
while (xCoord < bounds.getMaxX() + xSize) {
xList.add(xCoord);
xCoord += xSize;
}
// make list of all the y-coordinates (hortizontal grid lines)
double firstY = Math.round(bounds.getMaxY() / ySize) * ySize;
if (firstY < bounds.getMaxY()){
firstY += ySize;
}
List yList = new ArrayList();
double yCoord = firstY;
while (yCoord > bounds.getMinY() - ySize) {
yList.add(yCoord);
yCoord -= ySize;
}
List[] result = {xList, yList};
return result;
}
private double findClosest(double[] choices, double val) {
if (val < choices[0])
return choices[0];
for (int i = 0; i < choices.length -1; i++) {
if (val > choices[i] && val < choices[i+1])
return choices[i];
}
return choices[choices.length - 1];
}
/**
* Draws grid similarly to the "world" version, but with some changes:
* - Center the grid on the screen
* - label the grid lines in CRS units
* - outline the grid
*
* @param context
* @param showLabels is true, the bottom and right edges of the map are covered with
* white strips, and labels for the grid lines are placed in the white strips.
*/
private void drawGrid( MapGraphicContext context, boolean showLabels ) {
GridStyle style = getStyle(context.getLayer());
double[] gridSize=style.getGridSize();
try{
MathTransform mt = CRS.findMathTransform(DefaultGeographicCRS.WGS84, context.getCRS(), true);
if( !mt.isIdentity() ){
double x=gridSize[0]/2.0;
double y=gridSize[1]/2.0;
double[] toTransform=new double[]{-x,-y,x,y};
double[] dest=new double[4];
mt.transform(toTransform,0,dest,0,2);
gridSize=new double[]{Math.abs(dest[2]-dest[0]), Math.abs(dest[3]-dest[1])};
}
}catch (Exception e) {
MapGraphicPlugin.log("",e); //$NON-NLS-1$
}
Envelope bounds = context.getViewportModel().getBounds();
Coordinate centerCoord = bounds.centre();
gridSize = style.getGridSize();
Coordinate topLeftCenterCoord = new Coordinate(centerCoord.x - gridSize[0]/2,
centerCoord.y + gridSize[1]/2);
Coordinate topLeftMostCoord = new Coordinate(topLeftCenterCoord);
while (topLeftMostCoord.x - gridSize[0] > bounds.getMinX()) {
topLeftMostCoord.x -= gridSize[0];
}
while (topLeftMostCoord.y + gridSize[1] < bounds.getMaxY()) {
topLeftMostCoord.y += gridSize[1];
}
Coordinate coord = topLeftMostCoord;
ViewportGraphics graphics = context.getGraphics();
int mapPixelWidth = context.getMapDisplay().getWidth();
int mapPixelHeight = context.getMapDisplay().getHeight();
//cover the right side and bottom of map with thin strips
final int RIGHT_STRIP_WIDTH = (int)(mapPixelWidth * 0.05);
final int BOTTOM_STRIP_HEIGHT = (int)(mapPixelHeight * 0.03);
final int GRID_LINE_EXTENSION = (int)(RIGHT_STRIP_WIDTH * 0.1);
graphics.setColor(Color.white);
graphics.fillRect(mapPixelWidth - RIGHT_STRIP_WIDTH,
0,
RIGHT_STRIP_WIDTH,
mapPixelHeight);
graphics.fillRect(0,
mapPixelHeight - BOTTOM_STRIP_HEIGHT,
mapPixelWidth,
BOTTOM_STRIP_HEIGHT);
//draw grid lines
graphics.setColor(style.getColor());
Point pixel = null;
while(true){
pixel = context.worldToPixel(coord);
coord.x+=gridSize[0];
coord.y-=gridSize[1];
Point next=context.worldToPixel(coord);
if( next.x-pixel.x<2 || next.y-pixel.y<2 ){
context.getLayer().setStatus(ILayer.WARNING);
context.getLayer().setStatusMessage(Messages.GridMapGraphic_grids_too_close);
break;
}
if( (pixel.x>=mapPixelWidth && pixel.y>=mapPixelHeight) )
break;
//draw vertical lines and labels
if( pixel.x<mapPixelWidth)
graphics.drawLine(pixel.x,
0,
pixel.x,
mapPixelHeight - BOTTOM_STRIP_HEIGHT + GRID_LINE_EXTENSION);
if (showLabels) {
graphics.drawString((int)(coord.y)+"",
pixel.x,
mapPixelHeight - BOTTOM_STRIP_HEIGHT + GRID_LINE_EXTENSION,
ViewportGraphics.ALIGN_MIDDLE,
ViewportGraphics.ALIGN_TOP);
}
//draw horizontal lines and labels
if( pixel.y<mapPixelHeight)
graphics.drawLine(0,
pixel.y,
mapPixelWidth - RIGHT_STRIP_WIDTH + GRID_LINE_EXTENSION,
pixel.y);
if (showLabels) {
graphics.drawString((int)(coord.x)+"",
mapPixelWidth - RIGHT_STRIP_WIDTH + GRID_LINE_EXTENSION,
pixel.y,
ViewportGraphics.ALIGN_LEFT,
ViewportGraphics.ALIGN_MIDDLE);
}
pixel=next;
}
//outline the map
graphics.drawRect(0,
0,
mapPixelWidth - RIGHT_STRIP_WIDTH,
mapPixelHeight - BOTTOM_STRIP_HEIGHT);
}
private GridStyle getStyle( ILayer layer ) {
GridStyle gridStyle = (GridStyle) layer.getStyleBlackboard().get(GridStyle.ID);
if( gridStyle==null ){
return GridStyle.DEFAULT_STYLE;
}
return gridStyle;
}
/**
* calculates the closest point to x,y.
*
* @param x x coord in screen coords
* @param y y coord in screen coords
* @param layer layer containing this map graphic
* @return the closest point on the grid in map coords
* @throws FactoryException
*/
public double[] closest( int x, int y, ILayer layer ) throws FactoryException {
switch( getStyle(layer).getType() ) {
case SCREEN:
return screenClosest(x,y,layer);
case WORLD:
return worldClosest(x, y,layer);
default:
AssertionError e=new AssertionError("Should be impossible to reach here: "+getStyle(layer).getType());
MapGraphicPlugin.log(null, e );
throw e;
}
}
private double[] screenClosest( int x, int y, ILayer layer ) {
double[] gridSize = getStyle(layer).getGridSize();
double newx = Math.round(x/gridSize[0])*gridSize[0];
double newy = Math.round(y/gridSize[1])*gridSize[1];
Coordinate result = layer.getMap().getViewportModel().pixelToWorld((int)newx, (int)newy);
return new double[]{result.x, result.y};
}
private double[] worldClosest( int x1, int y1, ILayer layer ) throws FactoryException {
Coordinate coord = layer.getMap().getViewportModel().pixelToWorld(x1, y1);
CoordinateReferenceSystem crs = layer.getMap().getViewportModel().getCRS();
MathTransform mt = CRS.findMathTransform(DefaultGeographicCRS.WGS84, crs);
double[] gridSize = getStyle(layer).getGridSize();
try{
if( !mt.isIdentity() ){
double tx=gridSize[0]/2.0;
double ty=gridSize[1]/2.0;
double[] toTransform=new double[]{-tx,-ty,tx,ty};
double[] dest=new double[4];
mt.transform(toTransform,0,dest,0,2);
gridSize=new double[]{Math.abs(dest[2]-dest[0]), Math.abs(dest[3]-dest[1])};
}
}catch (Exception e) {
MapGraphicPlugin.log("",e); //$NON-NLS-1$
}
double newx = Math.round(coord.x/gridSize[0])*gridSize[0];
double newy = Math.round(coord.y/gridSize[1])*gridSize[1];
return new double[]{newx,newy};
}
}