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Vaadin is a web application framework for Rich Internet Applications (RIA). Vaadin enables easy development and maintenance of fast and secure rich web applications with a stunning look and feel and a wide browser support. It features a server-side architecture with the majority of the logic running on the server. Ajax technology is used at the browser-side to ensure a rich and interactive user experience.

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/*
 * Copyright 2000-2016 Vaadin Ltd.
 *
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not
 * use this file except in compliance with the License. You may obtain a copy of
 * the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * 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.
 */

package com.vaadin.client;

import java.io.Serializable;
import java.util.HashMap;
import java.util.Map;
import java.util.logging.Logger;

import com.google.gwt.core.client.JavaScriptObject;
import com.google.gwt.core.client.Scheduler;
import com.google.gwt.core.client.Scheduler.ScheduledCommand;
import com.google.gwt.dom.client.AnchorElement;
import com.google.gwt.dom.client.DivElement;
import com.google.gwt.dom.client.Document;
import com.google.gwt.dom.client.Element;
import com.google.gwt.dom.client.NativeEvent;
import com.google.gwt.dom.client.Node;
import com.google.gwt.dom.client.NodeList;
import com.google.gwt.dom.client.Style;
import com.google.gwt.dom.client.Style.Unit;
import com.google.gwt.dom.client.Touch;
import com.google.gwt.event.dom.client.KeyEvent;
import com.google.gwt.regexp.shared.MatchResult;
import com.google.gwt.regexp.shared.RegExp;
import com.google.gwt.user.client.Command;
import com.google.gwt.user.client.DOM;
import com.google.gwt.user.client.Event;
import com.google.gwt.user.client.EventListener;
import com.google.gwt.user.client.Window;
import com.google.gwt.user.client.ui.RootPanel;
import com.google.gwt.user.client.ui.Widget;
import com.vaadin.shared.util.SharedUtil;

/**
 * Utility methods which are related to client side code only
 */
public class WidgetUtil {

    /**
     * Helper method for debugging purposes.
     *
     * Stops execution on firefox browsers on a breakpoint.
     *
     */
    public static native void browserDebugger()
    /*-{
        if($wnd.console)
            debugger;
    }-*/;

    /**
     * Redirects the browser to the given url or refreshes the page if url is
     * null
     *
     * @since 7.6
     * @param url
     *            The url to redirect to or null to refresh
     */
    public static native void redirect(String url)
    /*-{
        if (url) {
                $wnd.location = url;
        } else {
                $wnd.location.reload(false);
        }
    }-*/;

    /**
     * Helper method for a bug fix #14041. For mozilla getKeyCode return 0 for
     * space bar (because space is considered as char). If return 0 use
     * getCharCode.
     *
     * @param event
     * @return return key code
     * @since 7.2.4
     */
    public static int getKeyCode(KeyEvent event) {
        int keyCode = event.getNativeEvent().getKeyCode();
        if (keyCode == 0) {
            keyCode = event.getNativeEvent().getCharCode();
        }
        return keyCode;
    }

    /**
     *
     * Returns the topmost element of from given coordinates.
     *
     * TODO fix crossplat issues clientX vs pageX. See quircksmode. Not critical
     * for vaadin as we scroll div istead of page.
     *
     * @param x
     * @param y
     * @return the element at given coordinates
     */
    public static native Element getElementFromPoint(int clientX, int clientY)
    /*-{
        var el = $wnd.document.elementFromPoint(clientX, clientY);
        if(el != null && el.nodeType == 3) {
            el = el.parentNode;
        }
        return el;
    }-*/;

    public static float parseRelativeSize(String size) {
        if (size == null || !size.endsWith("%")) {
            return -1;
        }

        try {
            return Float.parseFloat(size.substring(0, size.length() - 1));
        } catch (Exception e) {
            getLogger().warning("Unable to parse relative size");
            return -1;
        }
    }

    private static final Element escapeHtmlHelper = DOM.createDiv();

    /**
     * Converts html entities to text.
     *
     * @param html
     * @return escaped string presentation of given html
     */
    public static String escapeHTML(String html) {
        DOM.setInnerText(escapeHtmlHelper, html);
        String escapedText = DOM.getInnerHTML(escapeHtmlHelper);
        return escapedText;
    }

    /**
     * Escapes the string so it is safe to write inside an HTML attribute.
     *
     * @param attribute
     *            The string to escape
     * @return An escaped version of attribute.
     */
    public static String escapeAttribute(String attribute) {
        if (attribute == null) {
            return "";
        }
        attribute = attribute.replace("\"", """);
        attribute = attribute.replace("'", "'");
        attribute = attribute.replace(">", ">");
        attribute = attribute.replace("<", "<");
        attribute = attribute.replace("&", "&");
        return attribute;
    }

    /**
     * Clones given element as in JavaScript.
     *
     * Deprecate this if there appears similar method into GWT someday.
     *
     * @param element
     * @param deep
     *            clone child tree also
     * @return
     */
    public static native Element cloneNode(Element element, boolean deep)
    /*-{
        return element.cloneNode(deep);
    }-*/;

    public static int measureHorizontalPaddingAndBorder(Element element,
            int paddingGuess) {
        String originalWidth = DOM.getStyleAttribute(element, "width");

        int originalOffsetWidth = element.getOffsetWidth();
        int widthGuess = (originalOffsetWidth - paddingGuess);
        if (widthGuess < 1) {
            widthGuess = 1;
        }
        element.getStyle().setWidth(widthGuess, Unit.PX);
        int padding = element.getOffsetWidth() - widthGuess;

        element.getStyle().setProperty("width", originalWidth);

        return padding;
    }

    public static int measureVerticalPaddingAndBorder(Element element,
            int paddingGuess) {
        String originalHeight = DOM.getStyleAttribute(element, "height");
        int originalOffsetHeight = element.getOffsetHeight();
        int widthGuess = (originalOffsetHeight - paddingGuess);
        if (widthGuess < 1) {
            widthGuess = 1;
        }
        element.getStyle().setHeight(widthGuess, Unit.PX);
        int padding = element.getOffsetHeight() - widthGuess;

        element.getStyle().setProperty("height", originalHeight);
        return padding;
    }

    public static int measureHorizontalBorder(Element element) {
        int borders;

        if (BrowserInfo.get().isIE()) {
            String width = element.getStyle().getProperty("width");
            String height = element.getStyle().getProperty("height");

            int offsetWidth = element.getOffsetWidth();
            int offsetHeight = element.getOffsetHeight();
            if (offsetHeight < 1) {
                offsetHeight = 1;
            }
            if (offsetWidth < 1) {
                offsetWidth = 10;
            }
            element.getStyle().setPropertyPx("height", offsetHeight);
            element.getStyle().setPropertyPx("width", offsetWidth);

            borders = element.getOffsetWidth() - element.getClientWidth();

            element.getStyle().setProperty("width", width);
            element.getStyle().setProperty("height", height);
        } else {
            borders = element.getOffsetWidth()
                    - element.getPropertyInt("clientWidth");
        }
        assert borders >= 0;

        return borders;
    }

    public static int measureVerticalBorder(Element element) {
        int borders;
        if (BrowserInfo.get().isIE()) {
            String width = element.getStyle().getProperty("width");
            String height = element.getStyle().getProperty("height");

            int offsetWidth = element.getOffsetWidth();
            int offsetHeight = element.getOffsetHeight();
            if (offsetHeight < 1) {
                offsetHeight = 1;
            }
            if (offsetWidth < 1) {
                offsetWidth = 10;
            }
            element.getStyle().setPropertyPx("width", offsetWidth);

            element.getStyle().setPropertyPx("height", offsetHeight);

            borders = element.getOffsetHeight()
                    - element.getPropertyInt("clientHeight");

            element.getStyle().setProperty("height", height);
            element.getStyle().setProperty("width", width);
        } else {
            borders = element.getOffsetHeight()
                    - element.getPropertyInt("clientHeight");
        }
        assert borders >= 0;

        return borders;
    }

    public static int measureMarginLeft(Element element) {
        return element.getAbsoluteLeft()
                - element.getParentElement().getAbsoluteLeft();
    }

    public static int setHeightExcludingPaddingAndBorder(Widget widget,
            String height, int paddingBorderGuess) {
        if (height.equals("")) {
            setHeight(widget, "");
            return paddingBorderGuess;
        } else if (height.endsWith("px")) {
            int pixelHeight = Integer
                    .parseInt(height.substring(0, height.length() - 2));
            return setHeightExcludingPaddingAndBorder(widget.getElement(),
                    pixelHeight, paddingBorderGuess, false);
        } else {
            // Set the height in unknown units
            setHeight(widget, height);
            // Use the offsetWidth
            return setHeightExcludingPaddingAndBorder(widget.getElement(),
                    widget.getOffsetHeight(), paddingBorderGuess, true);
        }
    }

    private static void setWidth(Widget widget, String width) {
        widget.getElement().getStyle().setProperty("width", width);
    }

    private static void setHeight(Widget widget, String height) {
        widget.getElement().getStyle().setProperty("height", height);
    }

    public static int setWidthExcludingPaddingAndBorder(Widget widget,
            String width, int paddingBorderGuess) {
        if (width.equals("")) {
            setWidth(widget, "");
            return paddingBorderGuess;
        } else if (width.endsWith("px")) {
            int pixelWidth = Integer
                    .parseInt(width.substring(0, width.length() - 2));
            return setWidthExcludingPaddingAndBorder(widget.getElement(),
                    pixelWidth, paddingBorderGuess, false);
        } else {
            setWidth(widget, width);
            return setWidthExcludingPaddingAndBorder(widget.getElement(),
                    widget.getOffsetWidth(), paddingBorderGuess, true);
        }
    }

    public static int setWidthExcludingPaddingAndBorder(Element element,
            int requestedWidth, int horizontalPaddingBorderGuess,
            boolean requestedWidthIncludesPaddingBorder) {

        int widthGuess = requestedWidth - horizontalPaddingBorderGuess;
        if (widthGuess < 0) {
            widthGuess = 0;
        }

        element.getStyle().setWidth(widthGuess, Unit.PX);
        int captionOffsetWidth = DOM.getElementPropertyInt(element,
                "offsetWidth");

        int actualPadding = captionOffsetWidth - widthGuess;

        if (requestedWidthIncludesPaddingBorder) {
            actualPadding += actualPadding;
        }

        if (actualPadding != horizontalPaddingBorderGuess) {
            int w = requestedWidth - actualPadding;
            if (w < 0) {
                // Cannot set negative width even if we would want to
                w = 0;
            }
            element.getStyle().setWidth(w, Unit.PX);

        }

        return actualPadding;

    }

    public static int setHeightExcludingPaddingAndBorder(Element element,
            int requestedHeight, int verticalPaddingBorderGuess,
            boolean requestedHeightIncludesPaddingBorder) {

        int heightGuess = requestedHeight - verticalPaddingBorderGuess;
        if (heightGuess < 0) {
            heightGuess = 0;
        }

        element.getStyle().setHeight(heightGuess, Unit.PX);
        int captionOffsetHeight = DOM.getElementPropertyInt(element,
                "offsetHeight");

        int actualPadding = captionOffsetHeight - heightGuess;

        if (requestedHeightIncludesPaddingBorder) {
            actualPadding += actualPadding;
        }

        if (actualPadding != verticalPaddingBorderGuess) {
            int h = requestedHeight - actualPadding;
            if (h < 0) {
                // Cannot set negative height even if we would want to
                h = 0;
            }
            element.getStyle().setHeight(h, Unit.PX);

        }

        return actualPadding;

    }

    public static void setFloat(Element element, String value) {
        if (BrowserInfo.get().isIE()) {
            element.getStyle().setProperty("styleFloat", value);
        } else {
            element.getStyle().setProperty("cssFloat", value);
        }
    }

    private static int detectedScrollbarSize = -1;
    private static int detectedSubPixelRoundingFactor = -1;

    public static int getNativeScrollbarSize() {
        if (detectedScrollbarSize < 0) {
            Element scroller = DOM.createDiv();
            scroller.getStyle().setProperty("width", "50px");
            scroller.getStyle().setProperty("height", "50px");
            scroller.getStyle().setProperty("overflow", "scroll");
            scroller.getStyle().setProperty("position", "absolute");
            scroller.getStyle().setProperty("marginLeft", "-5000px");
            RootPanel.getBodyElement().appendChild(scroller);
            detectedScrollbarSize = scroller.getOffsetWidth()
                    - scroller.getPropertyInt("clientWidth");

            RootPanel.getBodyElement().removeChild(scroller);
        }
        return detectedScrollbarSize;
    }

    /**
     * Defers the execution of {@link #runWebkitOverflowAutoFix(Element)}
     *
     * @since 7.2.6
     * @param elem
     *            with overflow auto
     */
    public static void runWebkitOverflowAutoFixDeferred(final Element elem) {
        Scheduler.get().scheduleDeferred(new Command() {

            @Override
            public void execute() {
                WidgetUtil.runWebkitOverflowAutoFix(elem);
            }
        });

    }

    /**
     * Run workaround for webkits overflow auto issue.
     *
     * See: our bug #2138 and https://bugs.webkit.org/show_bug.cgi?id=21462
     *
     * @param elem
     *            with overflow auto
     */
    public static void runWebkitOverflowAutoFix(final Element elem) {
        // Add max version if fix lands sometime to Webkit
        // Starting from Opera 11.00, also a problem in Opera
        if (BrowserInfo.get().requiresOverflowAutoFix()) {
            final String originalOverflow = elem.getStyle()
                    .getProperty("overflow");
            final String originalOverflowX = elem.getStyle()
                    .getProperty("overflowX");
            final String originalOverflowY = elem.getStyle()
                    .getProperty("overflowY");
            if ("hidden".equals(originalOverflow)
                    || "hidden".equals(originalOverflowX)
                    || "hidden".equals(originalOverflowY)) {
                return;
            }

            // check the scrolltop value before hiding the element
            final int scrolltop = elem.getScrollTop();
            final int scrollleft = elem.getScrollLeft();
            elem.getStyle().setProperty("overflow", "hidden");

            Scheduler.get().scheduleDeferred(new Command() {
                @Override
                public void execute() {
                    // Dough, Safari scroll auto means actually just a moped
                    elem.getStyle().setProperty("overflow", originalOverflow);
                    if (!originalOverflowX.isEmpty()) {
                        elem.getStyle().setProperty("overflowX",
                                originalOverflowX);
                    }
                    if (!originalOverflowY.isEmpty()) {
                        elem.getStyle().setProperty("overflowY",
                                originalOverflowY);
                    }

                    if (scrolltop > 0 || elem.getScrollTop() > 0) {
                        int scrollvalue = scrolltop;
                        if (scrollvalue == 0) {
                            // mysterious are the ways of webkits scrollbar
                            // handling. In some cases webkit reports bad (0)
                            // scrolltop before hiding the element temporary,
                            // sometimes after.
                            scrollvalue = elem.getScrollTop();
                        }
                        // fix another bug where scrollbar remains in wrong
                        // position
                        elem.setScrollTop(scrollvalue - 1);
                        elem.setScrollTop(scrollvalue);
                    }

                    // fix for #6940 : Table horizontal scroll sometimes not
                    // updated when collapsing/expanding columns
                    // Also appeared in Safari 5.1 with webkit 534 (#7667)
                    if ((BrowserInfo.get().isChrome() || (BrowserInfo.get()
                            .isSafari()
                            && BrowserInfo.get().getWebkitVersion() >= 534))
                            && (scrollleft > 0 || elem.getScrollLeft() > 0)) {
                        int scrollvalue = scrollleft;

                        if (scrollvalue == 0) {
                            // mysterious are the ways of webkits scrollbar
                            // handling. In some cases webkit may report a bad
                            // (0) scrollleft before hiding the element
                            // temporary, sometimes after.
                            scrollvalue = elem.getScrollLeft();
                        }
                        // fix another bug where scrollbar remains in wrong
                        // position
                        elem.setScrollLeft(scrollvalue - 1);
                        elem.setScrollLeft(scrollvalue);
                    }
                }
            });
        }

    }

    public static void alert(String string) {
        if (true) {
            Window.alert(string);
        }
    }

    /**
     * Gets the border-box width for the given element, i.e. element width +
     * border + padding. Always rounds up to nearest integer.
     *
     * @param element
     *            The element to check
     * @return The border-box width for the element
     */
    public static int getRequiredWidth(
            com.google.gwt.dom.client.Element element) {
        int reqWidth = getRequiredWidthBoundingClientRect(element);
        if (BrowserInfo.get().isIE()) {
            int csSize = getRequiredWidthComputedStyle(element);
            if (csSize == reqWidth + 1) {
                // If computed style reports one pixel larger than requiredWidth
                // we would be rounding in the wrong direction in IE9. Round up
                // instead.
                // We do not always use csSize as it e.g. for 100% wide Labels
                // in GridLayouts produces senseless values (see e.g.
                // ThemeTestUI with Runo).
                return csSize;
            }
        }
        return reqWidth;
    }

    /**
     * Gets the border-box width for the given element, i.e. element width +
     * border + padding.
     *
     * @since 7.5.1
     * @param element
     *            The element to check
     * @return The border-box width for the element
     */
    public static double getRequiredWidthDouble(
            com.google.gwt.dom.client.Element element) {
        double reqWidth = getRequiredWidthBoundingClientRectDouble(element);
        if (BrowserInfo.get().isIE()) {
            double csWidth = getRequiredWidthComputedStyleDouble(element);
            if (csWidth > reqWidth && csWidth <= (reqWidth + 1)) {
                // IE9 rounds reqHeight to integers BUT sometimes reports wrong
                // csHeight it seems, so we only use csHeight if it is within a
                // rounding error

                return csWidth;
            }
        }
        return reqWidth;
    }

    /**
     * Gets the border-box height for the given element, i.e. element height +
     * border + padding. Always rounds up to nearest integer.
     *
     * @param element
     *            The element to check
     * @return The border-box height for the element
     */
    public static int getRequiredHeight(
            com.google.gwt.dom.client.Element element) {
        int reqHeight = getRequiredHeightBoundingClientRect(element);
        if (BrowserInfo.get().isIE()) {
            int csSize = getRequiredHeightComputedStyle(element);
            if (csSize == reqHeight + 1) {
                // If computed style reports one pixel larger than
                // requiredHeight we would be rounding in the wrong direction in
                // IE9. Round up instead.
                // We do not always use csSize as it e.g. for 100% wide Labels
                // in GridLayouts produces senseless values (see e.g.
                // ThemeTestUI with Runo).
                return csSize;
            }
        }
        return reqHeight;
    }

    /**
     * Gets the border-box height for the given element, i.e. element height +
     * border + padding.
     *
     * @since 7.5.1
     * @param element
     *            The element to check
     * @return The border-box height for the element
     */
    public static double getRequiredHeightDouble(
            com.google.gwt.dom.client.Element element) {
        double reqHeight = getRequiredHeightBoundingClientRectDouble(element);
        if (BrowserInfo.get().isIE()) {
            double csHeight = getRequiredHeightComputedStyleDouble(element);
            if (csHeight > reqHeight && csHeight <= (reqHeight + 1)) {
                // IE9 rounds reqHeight to integers BUT sometimes reports wrong
                // csHeight it seems, so we only use csHeight if it is within a
                // rounding error

                // Although sometimes it also happens that IE9 returns an
                // incorrectly rounded down requiredHeight and a computed height
                // which is exactly one larger, hence the "<="...
                return csHeight;
            }
        }
        return reqHeight;
    }

    /**
     * Calculates the width of the element's bounding rectangle.
     * 

* In case the browser doesn't support bounding rectangles, the returned * value is the offset width. * * @param element * the element of which to calculate the width * @return the width of the element */ public static int getRequiredWidthBoundingClientRect( com.google.gwt.dom.client.Element element) { return (int) Math .ceil(getRequiredWidthBoundingClientRectDouble(element)); } /** * Calculates the width of the element's bounding rectangle to subpixel * precision. *

* In case the browser doesn't support bounding rectangles, the returned * value is the offset width. * * @param element * the element of which to calculate the width * @return the subpixel-accurate width of the element * @since 7.4 */ public static native double getRequiredWidthBoundingClientRectDouble( com.google.gwt.dom.client.Element element) /*-{ if (element.getBoundingClientRect) { var rect = element.getBoundingClientRect(); return rect.right - rect.left; } else { return element.offsetWidth; } }-*/; public static int getRequiredHeightComputedStyle( com.google.gwt.dom.client.Element element) { return (int) Math.ceil(getRequiredHeightComputedStyleDouble(element)); } public static native double getRequiredHeightComputedStyleDouble( com.google.gwt.dom.client.Element element) /*-{ var cs = element.ownerDocument.defaultView.getComputedStyle(element); var heightPx = cs.height; if(heightPx == 'auto'){ // Fallback for inline elements return @com.vaadin.client.WidgetUtil::getRequiredHeightBoundingClientRectDouble(Lcom/google/gwt/dom/client/Element;)(element); } var height = parseFloat(heightPx); // Will automatically skip "px" suffix var border = parseFloat(cs.borderTopWidth) + parseFloat(cs.borderBottomWidth); // Will automatically skip "px" suffix var padding = parseFloat(cs.paddingTop) + parseFloat(cs.paddingBottom); // Will automatically skip "px" suffix return height+border+padding; }-*/; public static int getRequiredWidthComputedStyle( com.google.gwt.dom.client.Element element) { return (int) Math.ceil(getRequiredWidthComputedStyleDouble(element)); } public static native int getRequiredWidthComputedStyleDouble( com.google.gwt.dom.client.Element element) /*-{ var cs = element.ownerDocument.defaultView.getComputedStyle(element); var widthPx = cs.width; if(widthPx == 'auto'){ // Fallback for inline elements return @com.vaadin.client.WidgetUtil::getRequiredWidthBoundingClientRectDouble(Lcom/google/gwt/dom/client/Element;)(element); } var width = parseFloat(widthPx); // Will automatically skip "px" suffix var border = parseFloat(cs.borderLeftWidth) + parseFloat(cs.borderRightWidth); // Will automatically skip "px" suffix var padding = parseFloat(cs.paddingLeft) + parseFloat(cs.paddingRight); // Will automatically skip "px" suffix return width+border+padding; }-*/; /** * Calculates the height of the element's bounding rectangle. *

* In case the browser doesn't support bounding rectangles, the returned * value is the offset height. * * @param element * the element of which to calculate the height * @return the height of the element */ public static int getRequiredHeightBoundingClientRect( com.google.gwt.dom.client.Element element) { return (int) Math .ceil(getRequiredHeightBoundingClientRectDouble(element)); } /** * Calculates the height of the element's bounding rectangle to subpixel * precision. *

* In case the browser doesn't support bounding rectangles, the returned * value is the offset height. * * @param element * the element of which to calculate the height * @return the subpixel-accurate height of the element * @since 7.4 */ public static native double getRequiredHeightBoundingClientRectDouble( com.google.gwt.dom.client.Element element) /*-{ var height; if (element.getBoundingClientRect != null) { var rect = element.getBoundingClientRect(); height = rect.bottom - rect.top; } else { height = element.offsetHeight; } return height; }-*/; public static int getRequiredWidth(Widget widget) { return getRequiredWidth(widget.getElement()); } public static int getRequiredHeight(Widget widget) { return getRequiredHeight(widget.getElement()); } /** * Detects what is currently the overflow style attribute in given element. * * @param pe * the element to detect * @return true if auto or scroll */ public static boolean mayHaveScrollBars( com.google.gwt.dom.client.Element pe) { String overflow = getComputedStyle(pe, "overflow"); if (overflow != null) { if (overflow.equals("auto") || overflow.equals("scroll")) { return true; } else { return false; } } else { return false; } } /** * A simple helper method to detect "computed style" (aka style sheets + * element styles). Values returned differ a lot depending on browsers. * Always be very careful when using this. * * @param el * the element from which the style property is detected * @param p * the property to detect * @return String value of style property */ private static native String getComputedStyle( com.google.gwt.dom.client.Element el, String p) /*-{ try { if (el.currentStyle) { // IE return el.currentStyle[p]; } else if (window.getComputedStyle) { // Sa, FF, Opera var view = el.ownerDocument.defaultView; return view.getComputedStyle(el,null).getPropertyValue(p); } else { // fall back for non IE, Sa, FF, Opera return ""; } } catch (e) { return ""; } }-*/; /** * Will (attempt) to focus the given DOM Element. * * @param el * the element to focus */ public static native void focus(Element el) /*-{ try { el.focus(); } catch (e) { } }-*/; /** * Helper method to find first instance of given Widget type found by * traversing DOM upwards from given element. *

* Note: If {@code element} is inside some widget {@code W} * , and {@code W} in turn is wrapped in a {@link Composite} * {@code C}, this method will not find {@code W}. It returns either * {@code C} or null, depending on whether the class parameter matches. This * may also be the case with other Composite-like classes that hijack the * event handling of their child widget(s). * * @param element * the element where to start seeking of Widget * @param class1 * the Widget type to seek for */ @SuppressWarnings("unchecked") public static T findWidget(Element element, Class class1) { if (element != null) { /* First seek for the first EventListener (~Widget) from dom */ EventListener eventListener = null; while (eventListener == null && element != null) { eventListener = Event.getEventListener(element); if (eventListener == null) { element = element.getParentElement(); } } if (eventListener instanceof Widget) { /* * Then find the first widget of type class1 from widget * hierarchy */ Widget w = (Widget) eventListener; while (w != null) { if (class1 == null || w.getClass() == class1) { return (T) w; } w = w.getParent(); } } } return null; } /** * Force webkit to redraw an element * * @param element * The element that should be redrawn */ public static void forceWebkitRedraw(Element element) { Style style = element.getStyle(); String s = style.getProperty("webkitTransform"); if (s == null || s.length() == 0) { style.setProperty("webkitTransform", "scale(1)"); } else { style.setProperty("webkitTransform", ""); } } /** * Performs a hack to trigger a re-layout in the IE browser. This is usually * necessary in cases where IE "forgets" to update child elements when they * resize. * * @since 7.3 * @param e * The element to perform the hack on */ public static void forceIERedraw(Element e) { if (BrowserInfo.get().isIE()) { setStyleTemporarily(e, "zoom", "1"); } } /** * Detaches and re-attaches the element from its parent. The element is * reattached at the same position in the DOM as it was before. * * Does nothing if the element is not attached to the DOM. * * @param element * The element to detach and re-attach */ public static void detachAttach(Element element) { if (element == null) { return; } Node nextSibling = element.getNextSibling(); Node parent = element.getParentNode(); if (parent == null) { return; } parent.removeChild(element); if (nextSibling == null) { parent.appendChild(element); } else { parent.insertBefore(element, nextSibling); } } public static void sinkOnloadForImages(Element element) { NodeList imgElements = element .getElementsByTagName("img"); for (int i = 0; i < imgElements.getLength(); i++) { DOM.sinkEvents(imgElements.getItem(i), Event.ONLOAD); } } /** * Returns the index of the childElement within its parent. * * @param subElement * @return */ public static int getChildElementIndex(Element childElement) { int idx = 0; Node n = childElement; while ((n = n.getPreviousSibling()) != null) { idx++; } return idx; } /** * Temporarily sets the {@code styleProperty} to {@code tempValue} and then * resets it to its current value. Used mainly to work around rendering * issues in IE (and possibly in other browsers) * * @param element * The target element * @param styleProperty * The name of the property to set * @param tempValue * The temporary value */ public static void setStyleTemporarily(Element element, final String styleProperty, String tempValue) { final Style style = element.getStyle(); final String currentValue = style.getProperty(styleProperty); style.setProperty(styleProperty, tempValue); // Read a style-based property to force the browser to recalculate the // element's dimensions with the temporary style. element.getOffsetWidth(); style.setProperty(styleProperty, currentValue); } /** * A helper method to return the client position from an event. Returns * position from either first changed touch (if touch event) or from the * event itself. * * @param event * @return */ public static int getTouchOrMouseClientX(Event event) { if (isTouchEvent(event)) { return event.getChangedTouches().get(0).getClientX(); } else { return event.getClientX(); } } /** * Find the element corresponding to the coordinates in the passed mouse * event. Please note that this is not always the same as the target of the * event e.g. if event capture is used. * * @param event * the mouse event to get coordinates from * @return the element at the coordinates of the event */ public static Element getElementUnderMouse(NativeEvent event) { int pageX = getTouchOrMouseClientX(event); int pageY = getTouchOrMouseClientY(event); return getElementFromPoint(pageX, pageY); } /** * A helper method to return the client position from an event. Returns * position from either first changed touch (if touch event) or from the * event itself. * * @param event * @return */ public static int getTouchOrMouseClientY(Event event) { if (isTouchEvent(event)) { return event.getChangedTouches().get(0).getClientY(); } else { return event.getClientY(); } } /** * * @see #getTouchOrMouseClientY(Event) * @param currentGwtEvent * @return */ public static int getTouchOrMouseClientY(NativeEvent currentGwtEvent) { return getTouchOrMouseClientY(Event.as(currentGwtEvent)); } /** * @see #getTouchOrMouseClientX(Event) * * @param event * @return */ public static int getTouchOrMouseClientX(NativeEvent event) { return getTouchOrMouseClientX(Event.as(event)); } public static boolean isTouchEvent(Event event) { return event.getType().contains("touch"); } public static boolean isTouchEvent(NativeEvent event) { return isTouchEvent(Event.as(event)); } public static void simulateClickFromTouchEvent(Event touchevent, Widget widget) { Touch touch = touchevent.getChangedTouches().get(0); final NativeEvent createMouseUpEvent = Document.get() .createMouseUpEvent(0, touch.getScreenX(), touch.getScreenY(), touch.getClientX(), touch.getClientY(), false, false, false, false, NativeEvent.BUTTON_LEFT); final NativeEvent createMouseDownEvent = Document.get() .createMouseDownEvent(0, touch.getScreenX(), touch.getScreenY(), touch.getClientX(), touch.getClientY(), false, false, false, false, NativeEvent.BUTTON_LEFT); final NativeEvent createMouseClickEvent = Document.get() .createClickEvent(0, touch.getScreenX(), touch.getScreenY(), touch.getClientX(), touch.getClientY(), false, false, false, false); /* * Get target with element from point as we want the actual element, not * the one that sunk the event. */ final Element target = getElementFromPoint(touch.getClientX(), touch.getClientY()); /* * Fixes infocusable form fields in Safari of iOS 5.x and some Android * browsers. */ Widget targetWidget = findWidget(target, null); if (targetWidget instanceof com.google.gwt.user.client.ui.Focusable) { final com.google.gwt.user.client.ui.Focusable toBeFocusedWidget = (com.google.gwt.user.client.ui.Focusable) targetWidget; toBeFocusedWidget.setFocus(true); } else if (targetWidget instanceof Focusable) { ((Focusable) targetWidget).focus(); } Scheduler.get().scheduleDeferred(new ScheduledCommand() { @Override public void execute() { try { target.dispatchEvent(createMouseDownEvent); target.dispatchEvent(createMouseUpEvent); target.dispatchEvent(createMouseClickEvent); } catch (Exception e) { } } }); } /** * Gets the currently focused element. * * @return The active element or null if no active element could be found. */ public native static Element getFocusedElement() /*-{ if ($wnd.document.activeElement) { return $wnd.document.activeElement; } return null; }-*/; /** * Gets currently focused element and checks if it's editable * * @since 7.4 * * @return true if focused element is editable */ public static boolean isFocusedElementEditable() { Element focusedElement = WidgetUtil.getFocusedElement(); if (focusedElement != null) { String tagName = focusedElement.getTagName(); String contenteditable = focusedElement .getAttribute("contenteditable"); return "textarea".equalsIgnoreCase(tagName) || "input".equalsIgnoreCase(tagName) || "true".equalsIgnoreCase(contenteditable); } return false; } /** * Kind of stronger version of isAttached(). In addition to std isAttached, * this method checks that this widget nor any of its parents is hidden. Can * be e.g used to check whether component should react to some events or * not. * * @param widget * @return true if attached and displayed */ public static boolean isAttachedAndDisplayed(Widget widget) { if (widget.isAttached()) { /* * Failfast using offset size, then by iterating the widget tree */ boolean notZeroSized = widget.getOffsetHeight() > 0 || widget.getOffsetWidth() > 0; return notZeroSized || checkVisibilityRecursively(widget); } else { return false; } } private static boolean checkVisibilityRecursively(Widget widget) { if (widget.isVisible()) { Widget parent = widget.getParent(); if (parent == null) { return true; // root panel } else { return checkVisibilityRecursively(parent); } } else { return false; } } /** * Scrolls an element into view vertically only. Modified version of * Element.scrollIntoView. * * @param elem * The element to scroll into view */ public static native void scrollIntoViewVertically(Element elem) /*-{ var top = elem.offsetTop; var height = elem.offsetHeight; if (elem.parentNode != elem.offsetParent) { top -= elem.parentNode.offsetTop; } var cur = elem.parentNode; while (cur && (cur.nodeType == 1)) { if (top < cur.scrollTop) { cur.scrollTop = top; } if (top + height > cur.scrollTop + cur.clientHeight) { cur.scrollTop = (top + height) - cur.clientHeight; } var offsetTop = cur.offsetTop; if (cur.parentNode != cur.offsetParent) { offsetTop -= cur.parentNode.offsetTop; } top += offsetTop - cur.scrollTop; cur = cur.parentNode; } }-*/; /** * Checks if the given event is either a touch event or caused by the left * mouse button * * @param event * @return true if the event is a touch event or caused by the left mouse * button, false otherwise */ public static boolean isTouchEventOrLeftMouseButton(Event event) { boolean touchEvent = WidgetUtil.isTouchEvent(event); return touchEvent || event.getButton() == Event.BUTTON_LEFT; } /** * Resolve a relative URL to an absolute URL based on the current document's * location. * * @param url * a string with the relative URL to resolve * @return the corresponding absolute URL as a string */ public static String getAbsoluteUrl(String url) { AnchorElement a = Document.get().createAnchorElement(); a.setHref(url); return a.getHref(); } /** * Sets the selection range of an input element. * * We need this JSNI function to set selection range so that we can use the * optional direction attribute to set the anchor to the end and the focus * to the start. This makes Firefox work the same way as other browsers * (#13477) * * @param elem * the html input element. * @param pos * the index of the first selected character. * @param length * the selection length. * @param direction * a string indicating the direction in which the selection was * performed. This may be "forward" or "backward", or "none" if * the direction is unknown or irrelevant. * * @since 7.3 */ public native static void setSelectionRange(Element elem, int pos, int length, String direction) /*-{ try { elem.setSelectionRange(pos, pos + length, direction); } catch (e) { // Firefox throws exception if TextBox is not visible, even if attached } }-*/; /** * JavaScript hack to prevent text selection in various browsers. * * @since 7.6 * @param e * element for enabling or disabling text selection * @param enable * true if selection is enabled; false * if not */ public native static void setTextSelectionEnabled(Element e, boolean enable) /*-{ if (!enable) { e.ondrag = function () { return false; }; e.onselectstart = function () { return false; }; e.style.webkitUserSelect = "none"; } else { e.ondrag = null; e.onselectstart = null; e.style.webkitUserSelect = "text"; } }-*/; /** * JavaScript hack to clear text selection in various browsers. * * @since 7.6 */ public native static void clearTextSelection() /*-{ if ($wnd.getSelection) { $wnd.getSelection().removeAllRanges(); } }-*/; /** * The allowed value inaccuracy when comparing two double-typed pixel * values. *

* Since we're comparing pixels on a screen, epsilon must be less than 1. * 0.49 was deemed a perfectly fine and beautifully round number. */ public static final double PIXEL_EPSILON = 0.49d; /** * Compares two double values with the error margin of * {@link #PIXEL_EPSILON} (i.e. {@value #PIXEL_EPSILON}) * * @param num1 * the first value for which to compare equality * @param num2 * the second value for which to compare equality * @since 7.4 * * @return true if the values are considered equals; false otherwise */ public static boolean pixelValuesEqual(final double num1, final double num2) { return Math.abs(num1 - num2) <= PIXEL_EPSILON; } public static native TextRectangle getBoundingClientRect(Element e) /*-{ return e.getBoundingClientRect(); }-*/; public static final class TextRectangle extends JavaScriptObject { protected TextRectangle() { } public native double getBottom() /*-{ return this.bottom; }-*/; public native double getHeight() /*-{ return this.height; }-*/; public native double getLeft() /*-{ return this.left; }-*/; public native double getRight() /*-{ return this.right; }-*/; public native double getTop() /*-{ return this.top; }-*/; public native double getWidth() /*-{ return this.width; }-*/; } /** * Wrap a css size value and its unit and translate back and forth to the * string representation.
* Eg. 50%, 123px, ... * * @since 7.2.6 * @author Vaadin Ltd */ @SuppressWarnings("serial") public static class CssSize implements Serializable { /* * Map the size units with their type. */ private static Map type2Unit = new HashMap<>(); static { for (Unit unit : Unit.values()) { type2Unit.put(unit.getType(), unit); } } /** * Gets the unit value by its type. * * @param type * the type of the unit as found in the style. * @return the unit value. */ public static Unit unitByType(String type) { return type2Unit.get(type); } /* * Regex to parse the size. */ private static final RegExp sizePattern = RegExp .compile(SharedUtil.SIZE_PATTERN); /** * Parse the size from string format to {@link CssSize}. * * @param s * the size as string. * @return a {@link CssSize} object. */ public static CssSize fromString(String s) { if (s == null) { return null; } s = s.trim(); if ("".equals(s)) { return null; } float size = 0; Unit unit = null; MatchResult matcher = sizePattern.exec(s); if (matcher.getGroupCount() > 1) { size = Float.parseFloat(matcher.getGroup(1)); if (size < 0) { size = -1; unit = Unit.PX; } else { String symbol = matcher.getGroup(2); unit = unitByType(symbol); } } else { throw new IllegalArgumentException( "Invalid size argument: \"" + s + "\" (should match " + sizePattern.getSource() + ")"); } return new CssSize(size, unit); } /** * Creates a {@link CssSize} using a value and its measurement unit. * * @param value * the value. * @param unit * the unit. * @return the {@link CssSize} object. */ public static CssSize fromValueUnit(float value, Unit unit) { return new CssSize(value, unit); } /* * The value. */ private final float value; /* * The measure unit. */ private final Unit unit; private CssSize(float value, Unit unit) { this.value = value; this.unit = unit; } /** * Gets the value for this css size. * * @return the value. */ public float getValue() { return value; } /** * Gets the measurement unit for this css size. * * @return the unit. */ public Unit getUnit() { return unit; } @Override public String toString() { return value + unit.getType(); } @Override public boolean equals(Object obj) { if (obj instanceof CssSize) { CssSize size = (CssSize) obj; return size.value == value && size.unit == unit; } return false; } /** * Check whether the two sizes are equals. * * @param cssSize1 * the first size to compare. * @param cssSize2 * the other size to compare with the first one. * @return true if the two sizes are equals, otherwise false. */ public static boolean equals(String cssSize1, String cssSize2) { return CssSize.fromString(cssSize1) .equals(CssSize.fromString(cssSize2)); } } private static Logger getLogger() { return Logger.getLogger(WidgetUtil.class.getName()); } /** * Returns the thickness of the given element's top border. *

* The value is determined using computed style when available and * calculated otherwise. * * @since 7.5.0 * @param element * the element to measure * @return the top border thickness */ public static double getBorderTopThickness(Element element) { return getBorderThickness(element, new String[] { "borderTopWidth" }); } /** * Returns the thickness of the given element's bottom border. *

* The value is determined using computed style when available and * calculated otherwise. * * @since 7.5.0 * @param element * the element to measure * @return the bottom border thickness */ public static double getBorderBottomThickness(Element element) { return getBorderThickness(element, new String[] { "borderBottomWidth" }); } /** * Returns the combined thickness of the given element's top and bottom * borders. *

* The value is determined using computed style when available and * calculated otherwise. * * @since 7.5.0 * @param element * the element to measure * @return the top and bottom border thickness */ public static double getBorderTopAndBottomThickness(Element element) { return getBorderThickness(element, new String[] { "borderTopWidth", "borderBottomWidth" }); } /** * Returns the thickness of the given element's left border. *

* The value is determined using computed style when available and * calculated otherwise. * * @since 7.5.0 * @param element * the element to measure * @return the left border thickness */ public static double getBorderLeftThickness(Element element) { return getBorderThickness(element, new String[] { "borderLeftWidth" }); } /** * Returns the thickness of the given element's right border. *

* The value is determined using computed style when available and * calculated otherwise. * * @since 7.5.0 * @param element * the element to measure * @return the right border thickness */ public static double getBorderRightThickness(Element element) { return getBorderThickness(element, new String[] { "borderRightWidth" }); } /** * Returns the thickness of the given element's left and right borders. *

* The value is determined using computed style when available and * calculated otherwise. * * @since 7.5.0 * @param element * the element to measure * @return the top border thickness */ public static double getBorderLeftAndRightThickness(Element element) { return getBorderThickness(element, new String[] { "borderLeftWidth", "borderRightWidth" }); } private static native double getBorderThickness( com.google.gwt.dom.client.Element element, String[] borderNames) /*-{ if (typeof $wnd.getComputedStyle === 'function') { var computedStyle = $wnd.getComputedStyle(element); var width = 0; for (i=0; i< borderNames.length; i++) { var borderWidth = computedStyle[borderNames[i]]; width += parseFloat(borderWidth); } return width; } else { var parentElement = element.offsetParent; var cloneElement = element.cloneNode(false); cloneElement.style.boxSizing ="content-box"; parentElement.appendChild(cloneElement); var heightWithBorder = cloneElement.offsetHeight; for (i=0; i< borderNames.length; i++) { cloneElement.style[borderNames[i]] = "0"; } var heightWithoutBorder = cloneElement.offsetHeight; parentElement.removeChild(cloneElement); return heightWithBorder - heightWithoutBorder; } }-*/; /** * Rounds the given size up to a value which the browser will accept. * * Safari/WebKit uses 1/64th of a pixel to enable using integer math * (http://trac.webkit.org/wiki/LayoutUnit). * * Firefox uses 1/60th of a pixel because it is divisible by three * (https://bugzilla.mozilla.org/show_bug.cgi?id=1070940) * * @since 7.5.1 * @param size * the value to round * @return the rounded value */ public static double roundSizeUp(double size) { return roundSize(size, true); } /** * Rounds the given size down to a value which the browser will accept. * * Safari/WebKit uses 1/64th of a pixel to enable using integer math * (http://trac.webkit.org/wiki/LayoutUnit). * * Firefox uses 1/60th of a pixel because it is divisible by three * (https://bugzilla.mozilla.org/show_bug.cgi?id=1070940) * * IE9+ uses 1/100th of a pixel * * @since 7.5.1 * @param size * the value to round * @return the rounded value */ public static double roundSizeDown(double size) { return roundSize(size, false); } private static double roundSize(double size, boolean roundUp) { double factor = getSubPixelRoundingFactor(); if (factor < 0 || size < 0) { return size; } if (roundUp) { return roundSizeUp(size, factor); } else { return roundSizeDown(size, factor); } } /** * Returns the factor used by browsers to round subpixel values * * @since 7.5.1 * @return the factor N used by the browser when storing subpixels as X+Y/N */ private static double getSubPixelRoundingFactor() { // Detects how the browser does subpixel rounding // Currently Firefox uses 1/60th pixels // and Safari uses 1/64th pixels // IE 1/100th pixels if (detectedSubPixelRoundingFactor != -1) { return detectedSubPixelRoundingFactor; } double probeSize = 0.999999; DivElement div = Document.get().createDivElement(); Document.get().getBody().appendChild(div); div.getStyle().setHeight(probeSize, Unit.PX); ComputedStyle computedStyle = new ComputedStyle(div); double computedHeight = computedStyle.getHeight(); if (computedHeight < probeSize) { // Rounded down by browser, all browsers but Firefox do this // today detectedSubPixelRoundingFactor = (int) Math .round(1.0 / (1.0 - computedHeight)); } else { // Rounded up / to nearest by browser probeSize = 1; while (computedStyle.getHeight() != 0.0) { computedHeight = computedStyle.getHeight(); probeSize /= 2.0; div.getStyle().setHeight(probeSize, Unit.PX); } detectedSubPixelRoundingFactor = (int) Math .round(1.0 / computedHeight); } div.removeFromParent(); return detectedSubPixelRoundingFactor; } private static double roundSizeUp(double size, double divisor) { // In: 12.51, 60.0 // 12 double integerPart = (int) size; // (12.51 - 12) * 60 = 30.6 double nrFractions = (size - integerPart) * divisor; // 12 + ceil(30.6) / 60 = 12 + 31/60 = 12.51666 return integerPart + (Math.ceil(nrFractions)) / divisor; } private static double roundSizeDown(double size, double divisor) { // In: 12.51, 60.0 // 12 double integerPart = (int) size; // (12.51 - 12) * 60 = 30.6 double nrFractions = (size - integerPart) * divisor; // 12 + int(30.6) / 60 = 12 + 30/60 = 12.5 return integerPart + ((int) nrFractions) / divisor; } }





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