手机自动化测试:appium源码分析之bootstrap五
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Swipe代码:
package io.appium.android.bootstrap.handler;
import com.android.uiautomator.core.UiDevice;
import com.android.uiautomator.core.UiObjectNotFoundException;
import io.appium.android.bootstrap.*;
import io.appium.android.bootstrap.exceptions.InvalidCoordinatesException;
import io.appium.android.bootstrap.utils.Point;
import org.json.JSONException;
import java.util.Hashtable;
/**
* This handler is used to swipe.
*
*/
public class Swipe extends CommandHandler {
/*
* @param command The {@link AndroidCommand} used for this handler.
*
* @return {@link AndroidCommandResult}
*
* @throws JSONException
*
* @see io.appium.android.bootstrap.CommandHandler#execute(io.appium.android.
* bootstrap.AndroidCommand)
*/
@Override
public AndroidCommandResult execute(final AndroidCommand command)
throws JSONException {
final Hashtable<String, Object> params = command.params();
final Point start = new Point(params.get("startX"), params.get("startY"));
final Point end = new Point(params.get("endX"), params.get("endY"));
final Integer steps = (Integer) params.get("steps");
final UiDevice device = UiDevice.getInstance();
Point absStartPos = new Point();
Point absEndPos = new Point();
if (command.isElementCommand()) {
try {
final AndroidElement el = command.getElement();
absStartPos = el.getAbsolutePosition(start);
absEndPos = el.getAbsolutePosition(end, false);
} catch (final UiObjectNotFoundException e) {
return getErrorResult(e.getMessage());
} catch (final InvalidCoordinatesException e) {
return getErrorResult(e.getMessage());
} catch (final Exception e) { // handle NullPointerException
return getErrorResult("Unknown error");
}
} else {
try {
absStartPos = getDeviceAbsPos(start);
absEndPos = getDeviceAbsPos(end);
} catch (final InvalidCoordinatesException e) {
return getErrorResult(e.getMessage());
}
}
Logger.debug("Swiping from " + absStartPos.toString() + " to "
+ absEndPos.toString() + " with steps: " + steps.toString());
final boolean rv = device.swipe(absStartPos.x.intValue(),
absStartPos.y.intValue(), absEndPos.x.intValue(),
absEndPos.y.intValue(), steps);
if (!rv) {
return getErrorResult("The swipe did not complete successfully");
}
return getSuccessResult(rv);
}
}
先分析源码:
final Hashtable<String, Object> params = command.params();
final Point start = new Point(params.get("startX"), params.get("startY"));
final Point end = new Point(params.get("endX"), params.get("endY"));
final Integer steps = (Integer) params.get("steps");
final UiDevice device = UiDevice.getInstance();
Point absStartPos = new Point();
Point absEndPos = new Point();
首先从命令里获取参数,后解析出3个变量:起始点start、终点end、步骤steps。然后获得设备对象,定义2个私有Point对象,以备后用。
然后分条件处理,处理控件还是处理坐标。
控件:
final AndroidElement el = command.getElement();
absStartPos = el.getAbsolutePosition(start);
absEndPos = el.getAbsolutePosition(end, false);
首先获取控件对象,再通过getAbsolutePosition传入不同的参数获得在该控件上点击的起始点和结束点。
public Point getAbsolutePosition(final Point point,
final boolean boundsChecking) throws UiObjectNotFoundException,
InvalidCoordinatesException {
final Rect rect = el.getBounds();
final Point pos = new Point();
Logger.debug("Element bounds: " + rect.toShortString());
if (point.x == 0) {
pos.x = rect.width() * 0.5 + rect.left;
} else if (point.x <= 1) {
pos.x = rect.width() * point.x + rect.left;
} else {
pos.x = rect.left + point.x;
}
if (boundsChecking) {
if (pos.x > rect.right || pos.x < rect.left) {
throw new InvalidCoordinatesException("X coordinate ("
+ pos.x.toString() + " is outside of element rect: "
+ rect.toShortString());
}
}
if (point.y == 0) {
pos.y = rect.height() * 0.5 + rect.top;
} else if (point.y <= 1) {
pos.y = rect.height() * point.y + rect.top;
} else {
pos.y = rect.left + point.y;
}
if (boundsChecking) {
if (pos.y > rect.bottom || pos.y < rect.top) {
throw new InvalidCoordinatesException("Y coordinate ("
+ pos.y.toString() + " is outside of element rect: "
+ rect.toShortString());
}
}
return pos;
}
上面的代码首先分析x坐标然后分析y坐标。x和y坐标的判断和处理时一样的
首先判断x坐标是否为0,如果为0,定义初始点的x坐标为控件的中心点的横坐标。如果x的坐标小于1,说明坐标为相对坐标,用百分比来求值,此时就要与宽度做乘积运算得到具体值。如果上面2种情况都不符合,那就是具体坐标值,那就直接元素的x坐标值加上控件的边框左坐标值。
最后根据传入的boolean值来判断是否做一个超出边界的验证。如果超出边界就跑出异常。y坐标的获取方式类似。最后得到坐标值并返回,回到execute方法中。
坐标
absStartPos = getDeviceAbsPos(start);
absEndPos = getDeviceAbsPos(end);
通过调用getDeviceAbsPos()方法得到坐标值来初始化之前声明的私有Point对象.
protected static Point getDeviceAbsPos(final Point point)
throws InvalidCoordinatesException {
final UiDevice d = UiDevice.getInstance();
final Point retPos = new Point(point); // copy inputed point
final Double width = (double) d.getDisplayWidth();
if (point.x < 1) {
retPos.x = width * point.x;
}
if (retPos.x > width || retPos.x < 0) {
throw new InvalidCoordinatesException("X coordinate ("
+ retPos.x.toString() + " is outside of screen width: "
+ width.toString());
}
final Double height = (double) d.getDisplayHeight();
if (point.y < 1) {
retPos.y = height * point.y;
}
if (retPos.y > height || retPos.y < 0) {
throw new InvalidCoordinatesException("Y coordinate ("
+ retPos.y.toString() + " is outside of screen height: "
+ height.toString());
}
return retPos;
}
类似于上面的方法,也是要先判断传过来的坐标值是否小于1,如果小于1,当作百分比来球坐标值。如果超出屏幕的范围抛出异常,最后返回坐标值回到execute方法。
final boolean rv = device.swipe(absStartPos.x.intValue(),
absStartPos.y.intValue(), absEndPos.x.intValue(),
absEndPos.y.intValue(), steps);
最后调用UiDevice.swipe方法来执行命令,判断是否执行成功。
总结
执行swipe命令有2中命令格式
a.控件
b.坐标
坐标又分为相对坐标百分比和绝对坐标两种方法。