Example 11 with Point
use of com.codename1.ui.geom.Point in project CodenameOne by codenameone.
the class XYChart method draw.
/**
* The graphical representation of the XY chart.
*
* @param canvas the canvas to paint to
* @param x the top left x value of the view to draw to
* @param y the top left y value of the view to draw to
* @param width the width of the view to draw to
* @param height the height of the view to draw to
* @param paint the paint
*/
public void draw(Canvas canvas, int x, int y, int width, int height, Paint paint) {
paint.setAntiAlias(mRenderer.isAntialiasing());
int legendSize = getLegendSize(mRenderer, height / 5, mRenderer.getAxisTitleTextSize());
int[] margins = mRenderer.getMargins();
int left = x + margins[1] + (int) mRenderer.getAxisTitleTextSize() + (mRenderer.isShowLabels() ? (int) mRenderer.getLabelsTextSize() : 0);
int top = y + margins[0];
int right = x + width - margins[3];
int sLength = mDataset.getSeriesCount();
String[] titles = new String[sLength];
for (int i = 0; i < sLength; i++) {
titles[i] = mDataset.getSeriesAt(i).getTitle();
}
if (mRenderer.isFitLegend() && mRenderer.isShowLegend()) {
legendSize = drawLegend(canvas, mRenderer, titles, left, right, y, width, height, legendSize, paint, true);
}
int bottom = y + height - margins[2] - legendSize - (int) mRenderer.getAxisTitleTextSize() - (mRenderer.isShowLabels() ? (int) mRenderer.getLabelsTextSize() : 0);
if (mScreenR == null) {
mScreenR = new Rectangle();
}
mScreenR.setBounds(left, top, right - left, bottom - top);
drawBackground(mRenderer, canvas, x, y, width, height, paint, false, DefaultRenderer.NO_COLOR);
if (paint.getTypeface() == null || (mRenderer.getTextTypeface() != null && paint.getTypeface().equals(mRenderer.getTextTypeface())) || !paint.getTypeface().toString().equals(mRenderer.getTextTypefaceName()) || paint.getTypeface().getStyle() != mRenderer.getTextTypefaceStyle()) {
if (mRenderer.getTextTypeface() != null) {
paint.setTypeface(mRenderer.getTextTypeface());
} else {
paint.setTypeface(Font.createSystemFont(mRenderer.getTextTypefaceName(), mRenderer.getTextTypefaceStyle(), Font.SIZE_SMALL));
}
}
Orientation or = mRenderer.getOrientation();
if (or == Orientation.VERTICAL) {
right -= legendSize;
bottom += legendSize - 20;
}
int angle = or.getAngle();
boolean rotate = angle == 90;
mScale = (float) (height) / width;
mTranslate = Math.abs(width - height) / 2;
if (mScale < 1) {
mTranslate *= -1;
}
mCenter = new Point((x + width) / 2, (y + height) / 2);
if (rotate) {
transform(canvas, angle, false);
}
int maxScaleNumber = -Integer.MAX_VALUE;
for (int i = 0; i < sLength; i++) {
maxScaleNumber = Math.max(maxScaleNumber, mDataset.getSeriesAt(i).getScaleNumber());
}
maxScaleNumber++;
if (maxScaleNumber < 0) {
return;
}
double[] minX = new double[maxScaleNumber];
double[] maxX = new double[maxScaleNumber];
double[] minY = new double[maxScaleNumber];
double[] maxY = new double[maxScaleNumber];
boolean[] isMinXSet = new boolean[maxScaleNumber];
boolean[] isMaxXSet = new boolean[maxScaleNumber];
boolean[] isMinYSet = new boolean[maxScaleNumber];
boolean[] isMaxYSet = new boolean[maxScaleNumber];
for (int i = 0; i < maxScaleNumber; i++) {
minX[i] = mRenderer.getXAxisMin(i);
maxX[i] = mRenderer.getXAxisMax(i);
minY[i] = mRenderer.getYAxisMin(i);
maxY[i] = mRenderer.getYAxisMax(i);
isMinXSet[i] = mRenderer.isMinXSet(i);
isMaxXSet[i] = mRenderer.isMaxXSet(i);
isMinYSet[i] = mRenderer.isMinYSet(i);
isMaxYSet[i] = mRenderer.isMaxYSet(i);
if (mCalcRange.get(i) == null) {
mCalcRange.put(i, new double[4]);
}
}
double[] xPixelsPerUnit = new double[maxScaleNumber];
double[] yPixelsPerUnit = new double[maxScaleNumber];
for (int i = 0; i < sLength; i++) {
XYSeries series = mDataset.getSeriesAt(i);
int scale = series.getScaleNumber();
if (series.getItemCount() == 0) {
continue;
}
if (!isMinXSet[scale]) {
double minimumX = series.getMinX();
if (minimumX != MathHelper.NULL_VALUE) {
minX[scale] = minX[scale] == MathHelper.NULL_VALUE ? minimumX : Math.min(minX[scale], minimumX);
mCalcRange.get(scale)[0] = minX[scale];
} else {
minX[scale] = 0;
mCalcRange.get(scale)[0] = 0;
}
}
if (!isMaxXSet[scale]) {
double maximumX = series.getMaxX();
if (maximumX != MathHelper.NULL_VALUE) {
maxX[scale] = maxX[scale] == MathHelper.NULL_VALUE ? maximumX : Math.max(maxX[scale], maximumX);
mCalcRange.get(scale)[1] = maxX[scale];
} else {
maxX[scale] = minX[scale] + 1;
mCalcRange.get(scale)[1] = maxX[scale];
}
}
if (!isMinYSet[scale]) {
double minimumY = series.getMinY();
if (minimumY != MathHelper.NULL_VALUE) {
minY[scale] = minY[scale] == MathHelper.NULL_VALUE ? minimumY : Math.min(minY[scale], (float) minimumY);
mCalcRange.get(scale)[2] = minY[scale];
} else {
minY[scale] = 0;
mCalcRange.get(scale)[2] = 0;
}
}
if (!isMaxYSet[scale]) {
double maximumY = series.getMaxY();
if (maximumY != MathHelper.NULL_VALUE) {
maxY[scale] = maxY[scale] == MathHelper.NULL_VALUE ? maximumY : Math.max(maxY[scale], (float) maximumY);
mCalcRange.get(scale)[3] = maxY[scale];
} else {
maxY[scale] = minY[scale] + 1;
mCalcRange.get(scale)[3] = maxY[scale];
}
}
}
for (int i = 0; i < maxScaleNumber; i++) {
if (maxX[i] - minX[i] != 0) {
xPixelsPerUnit[i] = (right - left) / (maxX[i] - minX[i]);
}
if (maxY[i] - minY[i] != 0) {
yPixelsPerUnit[i] = (float) ((bottom - top) / (maxY[i] - minY[i]));
}
// the X axis on multiple scales was wrong without this fix
if (i > 0) {
xPixelsPerUnit[i] = xPixelsPerUnit[0];
minX[i] = minX[0];
maxX[i] = maxX[0];
}
}
boolean hasValues = false;
// use a linked list for these reasons:
// 1) Avoid a large contiguous memory allocation
// 2) We don't need random seeking, only sequential reading/writing, so
// linked list makes sense
clickableAreas = new HashMap<Integer, List<ClickableArea>>();
for (int i = 0; i < sLength; i++) {
XYSeries series = mDataset.getSeriesAt(i);
int scale = series.getScaleNumber();
if (series.getItemCount() == 0) {
continue;
}
hasValues = true;
XYSeriesRenderer seriesRenderer = (XYSeriesRenderer) mRenderer.getSeriesRendererAt(i);
// int originalValuesLength = series.getItemCount();
// int valuesLength = originalValuesLength;
// int length = valuesLength * 2;
List<Float> points = new ArrayList<Float>();
List<Double> values = new ArrayList<Double>();
float yAxisValue = Math.min(bottom, (float) (bottom + yPixelsPerUnit[scale] * minY[scale]));
LinkedList<ClickableArea> clickableArea = new LinkedList<ClickableArea>();
clickableAreas.put(i, clickableArea);
synchronized (series) {
SortedMap<Double, Double> range = series.getRange(minX[scale], maxX[scale], seriesRenderer.isDisplayBoundingPoints());
int startIndex = -1;
for (Double value : range.keySet()) {
double xValue = value;
Double rValue = range.get(value);
double yValue = rValue.doubleValue();
if (startIndex < 0 && (!isNullValue(yValue) || isRenderNullValues())) {
startIndex = series.getIndexForKey(xValue);
}
// points.add((float) (left + xPixelsPerUnit[scale]
// * (value.getKey().floatValue() - minX[scale])));
// points.add((float) (bottom - yPixelsPerUnit[scale]
// * (value.getValue().floatValue() - minY[scale])));
values.add(value);
values.add(rValue);
if (!isNullValue(yValue)) {
points.add((float) (left + xPixelsPerUnit[scale] * (xValue - minX[scale])));
points.add((float) (bottom - yPixelsPerUnit[scale] * (yValue - minY[scale])));
} else if (isRenderNullValues()) {
points.add((float) (left + xPixelsPerUnit[scale] * (xValue - minX[scale])));
points.add((float) (bottom - yPixelsPerUnit[scale] * (-minY[scale])));
} else {
if (points.size() > 0) {
drawSeries(series, canvas, paint, points, seriesRenderer, yAxisValue, i, or, startIndex);
ClickableArea[] clickableAreasForSubSeries = clickableAreasForPoints(points, values, yAxisValue, i, startIndex);
clickableArea.addAll(Arrays.asList(clickableAreasForSubSeries));
points.clear();
values.clear();
startIndex = -1;
}
clickableArea.add(null);
}
}
int count = series.getAnnotationCount();
if (count > 0) {
paint.setColor(seriesRenderer.getAnnotationsColor());
paint.setTextSize(seriesRenderer.getAnnotationsTextSize());
paint.setTextAlign(seriesRenderer.getAnnotationsTextAlign());
Rectangle2D bound = new Rectangle2D();
for (int j = 0; j < count; j++) {
float xS = (float) (left + xPixelsPerUnit[scale] * (series.getAnnotationX(j) - minX[scale]));
float yS = (float) (bottom - yPixelsPerUnit[scale] * (series.getAnnotationY(j) - minY[scale]));
paint.getTextBounds(series.getAnnotationAt(j), 0, series.getAnnotationAt(j).length(), bound);
if (xS < (xS + bound.getWidth()) && yS < canvas.getHeight()) {
drawString(canvas, series.getAnnotationAt(j), xS, yS, paint);
}
}
}
if (points.size() > 0) {
drawSeries(series, canvas, paint, points, seriesRenderer, yAxisValue, i, or, startIndex);
ClickableArea[] clickableAreasForSubSeries = clickableAreasForPoints(points, values, yAxisValue, i, startIndex);
clickableArea.addAll(Arrays.asList(clickableAreasForSubSeries));
}
}
}
// draw stuff over the margins such as data doesn't render on these areas
drawBackground(mRenderer, canvas, x, bottom, width, height - bottom, paint, true, mRenderer.getMarginsColor());
drawBackground(mRenderer, canvas, x, y, width, margins[0], paint, true, mRenderer.getMarginsColor());
if (or == Orientation.HORIZONTAL) {
drawBackground(mRenderer, canvas, x, y, left - x, height - y, paint, true, mRenderer.getMarginsColor());
drawBackground(mRenderer, canvas, right, y, margins[3], height - y, paint, true, mRenderer.getMarginsColor());
} else if (or == Orientation.VERTICAL) {
drawBackground(mRenderer, canvas, right, y, width - right, height - y, paint, true, mRenderer.getMarginsColor());
drawBackground(mRenderer, canvas, x, y, left - x, height - y, paint, true, mRenderer.getMarginsColor());
}
boolean showLabels = mRenderer.isShowLabels() && hasValues;
boolean showGridX = mRenderer.isShowGridX();
boolean showTickMarks = mRenderer.isShowTickMarks();
// boolean showCustomTextGridX = mRenderer.isShowCustomTextGridX();
boolean showCustomTextGridY = mRenderer.isShowCustomTextGridY();
if (showLabels || showGridX) {
List<Double> xLabels = getValidLabels(getXLabels(minX[0], maxX[0], mRenderer.getXLabels()));
Map<Integer, List<Double>> allYLabels = getYLabels(minY, maxY, maxScaleNumber);
int xLabelsLeft = left;
if (showLabels) {
paint.setColor(mRenderer.getXLabelsColor());
paint.setTextSize(mRenderer.getLabelsTextSize());
paint.setTextAlign(mRenderer.getXLabelsAlign());
// if (mRenderer.getXLabelsAlign() == Align.LEFT) {
// xLabelsLeft += mRenderer.getLabelsTextSize() / 4;
// }
}
drawXLabels(xLabels, mRenderer.getXTextLabelLocations(), canvas, paint, xLabelsLeft, top, bottom, xPixelsPerUnit[0], minX[0], maxX[0]);
drawYLabels(allYLabels, canvas, paint, maxScaleNumber, left, right, bottom, yPixelsPerUnit, minY);
if (showLabels) {
paint.setColor(mRenderer.getLabelsColor());
for (int i = 0; i < maxScaleNumber; i++) {
int axisAlign = mRenderer.getYAxisAlign(i);
Double[] yTextLabelLocations = mRenderer.getYTextLabelLocations(i);
for (Double location : yTextLabelLocations) {
if (minY[i] <= location && location <= maxY[i]) {
float yLabel = (float) (bottom - yPixelsPerUnit[i] * (location.doubleValue() - minY[i]));
String label = mRenderer.getYTextLabel(location, i);
paint.setColor(mRenderer.getYLabelsColor(i));
paint.setTextAlign(mRenderer.getYLabelsAlign(i));
if (or == Orientation.HORIZONTAL) {
if (axisAlign == Align.LEFT) {
if (showTickMarks) {
canvas.drawLine(left + getLabelLinePos(axisAlign), yLabel, left, yLabel, paint);
}
drawText(canvas, label, left - mRenderer.getYLabelsPadding(), yLabel - mRenderer.getYLabelsVerticalPadding(), paint, mRenderer.getYLabelsAngle());
} else {
if (showTickMarks) {
canvas.drawLine(right, yLabel, right + getLabelLinePos(axisAlign), yLabel, paint);
}
drawText(canvas, label, right - mRenderer.getYLabelsPadding(), yLabel - mRenderer.getYLabelsVerticalPadding(), paint, mRenderer.getYLabelsAngle());
}
if (showCustomTextGridY) {
paint.setColor(mRenderer.getGridColor(i));
canvas.drawLine(left, yLabel, right, yLabel, paint);
}
} else {
if (showTickMarks) {
canvas.drawLine(right - getLabelLinePos(axisAlign), yLabel, right, yLabel, paint);
}
drawText(canvas, label, right + 10, yLabel - mRenderer.getYLabelsVerticalPadding(), paint, mRenderer.getYLabelsAngle());
if (showCustomTextGridY) {
paint.setColor(mRenderer.getGridColor(i));
canvas.drawLine(right, yLabel, left, yLabel, paint);
}
}
}
}
}
}
if (showLabels) {
paint.setColor(mRenderer.getLabelsColor());
float size = mRenderer.getAxisTitleTextSize();
paint.setTextSize(size);
paint.setTextAlign(Align.CENTER);
if (or == Orientation.HORIZONTAL) {
drawText(canvas, mRenderer.getXTitle(), x + width / 2, bottom + mRenderer.getLabelsTextSize() * 4 / 3 + mRenderer.getXLabelsPadding() + size, paint, 0);
for (int i = 0; i < maxScaleNumber; i++) {
int axisAlign = mRenderer.getYAxisAlign(i);
if (axisAlign == Align.LEFT) {
drawText(canvas, mRenderer.getYTitle(i), x + size, y + height / 2, paint, -90);
} else {
drawText(canvas, mRenderer.getYTitle(i), x + width, y + height / 2, paint, -90);
}
}
paint.setTextSize(mRenderer.getChartTitleTextSize());
drawText(canvas, mRenderer.getChartTitle(), x + width / 2, y + mRenderer.getChartTitleTextSize(), paint, 0);
} else if (or == Orientation.VERTICAL) {
drawText(canvas, mRenderer.getXTitle(), x + width / 2, y + height - size + mRenderer.getXLabelsPadding(), paint, -90);
drawText(canvas, mRenderer.getYTitle(), right + 20, y + height / 2, paint, 0);
paint.setTextSize(mRenderer.getChartTitleTextSize());
drawText(canvas, mRenderer.getChartTitle(), x + size, top + height / 2, paint, 0);
}
}
}
if (or == Orientation.HORIZONTAL) {
drawLegend(canvas, mRenderer, titles, left, right, y + (int) mRenderer.getXLabelsPadding(), width, height, legendSize, paint, false);
} else if (or == Orientation.VERTICAL) {
transform(canvas, angle, true);
drawLegend(canvas, mRenderer, titles, left, right, y + (int) mRenderer.getXLabelsPadding(), width, height, legendSize, paint, false);
transform(canvas, angle, false);
}
if (mRenderer.isShowAxes()) {
paint.setColor(mRenderer.getXAxisColor());
canvas.drawLine(left, bottom, right, bottom, paint);
paint.setColor(mRenderer.getYAxisColor());
boolean rightAxis = false;
for (int i = 0; i < maxScaleNumber && !rightAxis; i++) {
rightAxis = mRenderer.getYAxisAlign(i) == Align.RIGHT;
}
if (or == Orientation.HORIZONTAL) {
canvas.drawLine(left, top, left, bottom, paint);
if (rightAxis) {
canvas.drawLine(right, top, right, bottom, paint);
}
} else if (or == Orientation.VERTICAL) {
canvas.drawLine(right, top, right, bottom, paint);
}
}
if (rotate) {
transform(canvas, angle, true);
}
}
Also used :
XYSeries(com.codename1.charts.models.XYSeries)
Rectangle(com.codename1.ui.geom.Rectangle)
ArrayList(java.util.ArrayList)
ArrayList(java.util.ArrayList)
LinkedList(java.util.LinkedList)
List(java.util.List)
Rectangle2D(com.codename1.ui.geom.Rectangle2D)
Point(com.codename1.charts.models.Point)
Orientation(com.codename1.charts.renderers.XYMultipleSeriesRenderer.Orientation)
Point(com.codename1.charts.models.Point)
Paint(com.codename1.charts.compat.Paint)
LinkedList(java.util.LinkedList)
XYSeriesRenderer(com.codename1.charts.renderers.XYSeriesRenderer)
Example 12 with Point
use of com.codename1.ui.geom.Point in project CodenameOne by codenameone.
the class InteractionDialog method showPopupDialog.
/**
* A popup dialog is shown with the context of a component and its selection, it is disposed seamlessly if the back button is pressed
* or if the user touches outside its bounds. It can optionally provide an arrow in the theme to point at the context component. The popup
* dialog has the PopupDialog style by default.
*
* @param rect the screen rectangle to which the popup should point
*/
public void showPopupDialog(Rectangle rect) {
disposed = false;
if (getUIID().equals("Dialog")) {
setUIID("PopupDialog");
if (getTitleComponent().getUIID().equals("DialogTitle")) {
getTitleComponent().setUIID("PopupDialogTitle");
}
getContentPane().setUIID("PopupContentPane");
}
Component contentPane = getContentPane();
Label title = getTitleComponent();
UIManager manager = getUIManager();
String dialogTitle = title.getText();
// preferred size logic of the dialog won't work with large title borders
if ((dialogTitle != null || dialogTitle.length() == 0) && manager.isThemeConstant("hideEmptyTitleBool", false)) {
boolean b = getTitle().length() > 0;
titleArea.setVisible(b);
getTitleComponent().setVisible(b);
if (!b && manager.isThemeConstant("shrinkPopupTitleBool", true)) {
getTitleComponent().setPreferredSize(new Dimension(0, 0));
getTitleComponent().getStyle().setBorder(null);
titleArea.setPreferredSize(new Dimension(0, 0));
if (getContentPane().getClientProperty("$ENLARGED_POP") == null) {
getContentPane().putClientProperty("$ENLARGED_POP", Boolean.TRUE);
int cpPaddingTop = getContentPane().getStyle().getPaddingTop();
int titlePT = getTitleComponent().getStyle().getPaddingTop();
byte[] pu = getContentPane().getStyle().getPaddingUnit();
if (pu == null) {
pu = new byte[4];
}
pu[0] = Style.UNIT_TYPE_PIXELS;
getContentPane().getStyle().setPaddingUnit(pu);
int pop = Display.getInstance().convertToPixels(manager.getThemeConstant("popupNoTitleAddPaddingInt", 1), false);
getContentPane().getStyle().setPadding(TOP, pop + cpPaddingTop + titlePT);
}
}
}
// allows a text area to recalculate its preferred size if embedded within a dialog
revalidate();
Style contentPaneStyle = getStyle();
boolean restoreArrow = false;
if (manager.isThemeConstant(getUIID() + "ArrowBool", false)) {
Image t = manager.getThemeImageConstant(getUIID() + "ArrowTopImage");
Image b = manager.getThemeImageConstant(getUIID() + "ArrowBottomImage");
Image l = manager.getThemeImageConstant(getUIID() + "ArrowLeftImage");
Image r = manager.getThemeImageConstant(getUIID() + "ArrowRightImage");
Border border = contentPaneStyle.getBorder();
if (border != null) {
border.setImageBorderSpecialTile(t, b, l, r, rect);
restoreArrow = true;
}
}
calcPreferredSize();
int prefHeight = getPreferredH();
int prefWidth = getPreferredW();
if (contentPaneStyle.getBorder() != null) {
prefWidth = Math.max(contentPaneStyle.getBorder().getMinimumWidth(), prefWidth);
prefHeight = Math.max(contentPaneStyle.getBorder().getMinimumHeight(), prefHeight);
}
Form f = Display.getInstance().getCurrent();
int availableHeight = getLayeredPane(f).getParent().getHeight();
int availableWidth = getLayeredPane(f).getParent().getWidth();
int width = Math.min(availableWidth, prefWidth);
int x = 0;
int y = 0;
boolean showPortrait = Display.getInstance().isPortrait();
// if we don't have enough space then disregard device orientation
if (showPortrait) {
if (availableHeight < (availableWidth - rect.getWidth()) / 2) {
showPortrait = false;
}
} else {
if (availableHeight / 2 > availableWidth - rect.getWidth()) {
showPortrait = true;
}
}
if (showPortrait) {
if (width < availableWidth) {
int idealX = rect.getX() - width / 2 + rect.getSize().getWidth() / 2;
// if the ideal position is less than 0 just use 0
if (idealX > 0) {
// if the idealX is too far to the right just align to the right
if (idealX + width > availableWidth) {
x = availableWidth - width;
} else {
x = idealX;
}
}
}
if (rect.getY() < availableHeight / 2) {
// popup downwards
y = rect.getY();
int height = Math.min(prefHeight, availableHeight - y);
show(y, Math.max(0, availableHeight - height - y), x, Math.max(0, availableWidth - width - x));
} else {
// popup upwards
int height = Math.min(prefHeight, rect.getY() - getLayeredPane(f).getAbsoluteY());
y = rect.getY() - height - getLayeredPane(f).getAbsoluteY();
show(y, Math.max(0, getLayeredPane(f).getComponentForm().getHeight() - rect.getY()), x, Math.max(0, availableWidth - width - x));
}
} else {
int height = Math.min(prefHeight, availableHeight);
if (height < availableHeight) {
int idealY = rect.getY() - height / 2 + rect.getSize().getHeight() / 2;
// if the ideal position is less than 0 just use 0
if (idealY > 0) {
// if the idealY is too far up just align to the top
if (idealY + height > availableHeight) {
y = availableHeight - height;
} else {
y = idealY;
}
}
}
if (prefWidth > rect.getX()) {
// popup right
x = rect.getX() + rect.getSize().getWidth();
if (x + prefWidth > availableWidth) {
x = availableWidth - prefWidth;
}
width = Math.min(prefWidth, availableWidth - x);
show(y, availableHeight - height - y, Math.max(0, x), Math.max(0, availableWidth - width - x));
} else {
// popup left
width = Math.min(prefWidth, availableWidth - (availableWidth - rect.getX()));
x = rect.getX() - width;
show(y, availableHeight - height - y, Math.max(0, x), Math.max(0, availableWidth - width - x));
}
}
/*if(restoreArrow) {
contentPaneStyle.getBorder().clearImageBorderSpecialTile();
}*/
}Example 13 with Point
use of com.codename1.ui.geom.Point in project CodenameOne by codenameone.
the class InteractionDialog method showPopupDialog.
/**
* A popup dialog is shown with the context of a component and its selection, it is disposed seamlessly if the back button is pressed
* or if the user touches outside its bounds. It can optionally provide an arrow in the theme to point at the context component. The popup
* dialog has the PopupDialog style by default.
*
* @param c the context component which is used to position the dialog and can also be pointed at
*/
public void showPopupDialog(Component c) {
disposed = false;
Rectangle componentPos = c.getSelectedRect();
componentPos.setX(componentPos.getX() - c.getScrollX());
componentPos.setY(componentPos.getY() - c.getScrollY());
showPopupDialog(componentPos);
}
Also used :
Rectangle(com.codename1.ui.geom.Rectangle)
Example 14 with Point
use of com.codename1.ui.geom.Point in project CodenameOne by codenameone.
the class CubicLineChart method drawPath.
@Override
protected void drawPath(Canvas canvas, List<Float> points, Paint paint, boolean circular) {
GeneralPath p = new GeneralPath();
float x = points.get(0);
float y = points.get(1);
p.moveTo(x, y);
int length = points.size();
if (circular) {
length -= 4;
}
Point p1 = new Point();
Point p2 = new Point();
Point p3 = new Point();
for (int i = 0; i < length; i += 2) {
int nextIndex = i + 2 < length ? i + 2 : i;
int nextNextIndex = i + 4 < length ? i + 4 : nextIndex;
calc(points, p1, i, nextIndex, mSecondMultiplier);
p2.setX(points.get(nextIndex));
p2.setY(points.get(nextIndex + 1));
calc(points, p3, nextIndex, nextNextIndex, mFirstMultiplier);
// From last point, approaching x1/y1 and x2/y2 and ends up at x3/y3
p.curveTo(p1.getX(), p1.getY(), p2.getX(), p2.getY(), p3.getX(), p3.getY());
}
mPathMeasure = new PathMeasure(p, false);
if (circular) {
for (int i = length; i < length + 4; i += 2) {
p.lineTo(points.get(i), points.get(i + 1));
}
p.lineTo(points.get(0), points.get(1));
}
canvas.drawPath(p, paint);
}
Also used :
GeneralPath(com.codename1.ui.geom.GeneralPath)
PathMeasure(com.codename1.charts.compat.PathMeasure)
Point(com.codename1.charts.models.Point)
Point(com.codename1.charts.models.Point)
Paint(com.codename1.charts.compat.Paint)
Example 15 with Point
use of com.codename1.ui.geom.Point in project CodenameOne by codenameone.
the class ChartComponent method pointerReleased.
@Override
public void pointerReleased(int x, int y) {
dragStart = null;
zoomStartBBox = null;
dragStartBBox = null;
dragTransformStart = null;
zoomStart = null;
zoomDistStart = 0;
zoomTransformStart = null;
Point chartCoord = screenToChartCoord(x, y);
SeriesSelection sel = chart.getSeriesAndPointForScreenCoordinate(chartCoord);
if (sel == null) {
super.pointerReleased(x, y);
return;
}
seriesReleased(sel);
// To change body of generated methods, choose Tools | Templates.
super.pointerReleased(x, y);
}
Also used :
SeriesSelection(com.codename1.charts.models.SeriesSelection)
Point(com.codename1.charts.models.Point)
Aggregations
Point (com.codename1.ui.geom.Point)11
Point (com.codename1.charts.models.Point)10
Coord (com.codename1.maps.Coord)9
Paint (com.codename1.charts.compat.Paint)7
Component (com.codename1.ui.Component)5
TextArea (com.codename1.ui.TextArea)3
Dimension (com.codename1.ui.geom.Dimension)3
GeneralPath (com.codename1.ui.geom.GeneralPath)3
Rectangle (com.codename1.ui.geom.Rectangle)3
Border (com.codename1.ui.plaf.Border)3
ArrayList (java.util.ArrayList)3
SeriesSelection (com.codename1.charts.models.SeriesSelection)2
Container (com.codename1.ui.Container)2
EncodedImage (com.codename1.ui.EncodedImage)2
Form (com.codename1.ui.Form)2
Image (com.codename1.ui.Image)2
Label (com.codename1.ui.Label)2
ActionEvent (com.codename1.ui.events.ActionEvent)2
ActionListener (com.codename1.ui.events.ActionListener)2
Style (com.codename1.ui.plaf.Style)2
