core/java/android/view/ViewHierarchyEncoder.java - platform/frameworks/base - Git at Google

 package android.view;

 import android.annotation.NonNull;
 import android.annotation.Nullable;

 import java.io.ByteArrayOutputStream;
 import java.io.DataOutputStream;
 import java.io.IOException;
 import java.nio.charset.Charset;
 import java.util.HashMap;
 import java.util.Map;

 /**
  * {@link ViewHierarchyEncoder} is a serializer that is tailored towards writing out
  * view hierarchies (the view tree, along with the properties for each view) to a stream.
  *
  * It is typically used as follows:
  * <pre>
  *   ViewHierarchyEncoder e = new ViewHierarchyEncoder();
  *
  *   for (View view : views) {
  *      e.beginObject(view);
  *      e.addProperty("prop1", value);
  *      ...
  *      e.endObject();
  *   }
  *
  *   // repeat above snippet for each view, finally end with:
  *   e.endStream();
  * </pre>
  *
  * <p>On the stream, a snippet such as the above gets encoded as a series of Map's (one
  * corresponding to each view) with the property name as the key and the property value
  * as the value.
  *
  * <p>Since the property names are practically the same across all views, rather than using
  * the property name directly as the key, we use a short integer id corresponding to each
  * property name as the key. A final map is added at the end which contains the mapping
  * from the integer to its property name.
  *
  * <p>A value is encoded as a single byte type identifier followed by the encoding of the
  * value. Only primitive types are supported as values, in addition to the Map type.
  *
  * @hide
  */
 public class ViewHierarchyEncoder {
     // Prefixes for simple primitives. These match the JNI definitions.
     private static final byte SIG_BOOLEAN = 'Z';
     private static final byte SIG_BYTE = 'B';
     private static final byte SIG_SHORT = 'S';
     private static final byte SIG_INT = 'I';
     private static final byte SIG_LONG = 'J';
     private static final byte SIG_FLOAT = 'F';
     private static final byte SIG_DOUBLE = 'D';

     // Prefixes for some commonly used objects
     private static final byte SIG_STRING = 'R';

     private static final byte SIG_MAP = 'M'; // a map with an short key
     private static final short SIG_END_MAP = 0;

     private final DataOutputStream mStream;

     private final Map<String,Short> mPropertyNames = new HashMap<String, Short>(200);
     private short mPropertyId = 1;
     private Charset mCharset = Charset.forName("utf-8");

     public ViewHierarchyEncoder(@NonNull ByteArrayOutputStream stream) {
         mStream = new DataOutputStream(stream);
     }

     public void beginObject(@NonNull Object o) {
         startPropertyMap();
         addProperty("meta:__name__", o.getClass().getName());
         addProperty("meta:__hash__", o.hashCode());
     }

     public void endObject() {
         endPropertyMap();
     }

     public void endStream() {
         // write out the string table
         startPropertyMap();
         addProperty("__name__", "propertyIndex");
         for (Map.Entry<String,Short> entry : mPropertyNames.entrySet()) {
             writeShort(entry.getValue());
             writeString(entry.getKey());
         }
         endPropertyMap();
     }

     public void addProperty(@NonNull String name, boolean v) {
         writeShort(createPropertyIndex(name));
         writeBoolean(v);
     }

     public void addProperty(@NonNull String name, short s) {
         writeShort(createPropertyIndex(name));
         writeShort(s);
     }

     public void addProperty(@NonNull String name, int v) {
         writeShort(createPropertyIndex(name));
         writeInt(v);
     }

     public void addProperty(@NonNull String name, float v) {
         writeShort(createPropertyIndex(name));
         writeFloat(v);
     }

     public void addProperty(@NonNull String name, @Nullable String s) {
         writeShort(createPropertyIndex(name));
         writeString(s);
     }

     /**
      * Writes the given name as the property name, and leaves it to the callee
      * to fill in value for this property.
      */
     public void addPropertyKey(@NonNull String name) {
         writeShort(createPropertyIndex(name));
     }

     private short createPropertyIndex(@NonNull String name) {
         Short index = mPropertyNames.get(name);
         if (index == null) {
             index = mPropertyId++;
             mPropertyNames.put(name, index);
         }

         return index;
     }

     private void startPropertyMap() {
         try {
             mStream.write(SIG_MAP);
         } catch (IOException e) {
             // does not happen since the stream simply wraps a ByteArrayOutputStream
         }
     }

     private void endPropertyMap() {
         writeShort(SIG_END_MAP);
     }

     private void writeBoolean(boolean v) {
         try {
             mStream.write(SIG_BOOLEAN);
             mStream.write(v ? 1 : 0);
         } catch (IOException e) {
             // does not happen since the stream simply wraps a ByteArrayOutputStream
         }
     }

     private void writeShort(short s) {
         try {
             mStream.write(SIG_SHORT);
             mStream.writeShort(s);
         } catch (IOException e) {
             // does not happen since the stream simply wraps a ByteArrayOutputStream
         }
     }

     private void writeInt(int i) {
         try {
             mStream.write(SIG_INT);
             mStream.writeInt(i);
         } catch (IOException e) {
             // does not happen since the stream simply wraps a ByteArrayOutputStream
         }
     }

     private void writeFloat(float v) {
         try {
             mStream.write(SIG_FLOAT);
             mStream.writeFloat(v);
         } catch (IOException e) {
             // does not happen since the stream simply wraps a ByteArrayOutputStream
         }
     }

     private void writeString(@Nullable String s) {
         if (s == null) {
             s = "";
         }

         try {
             mStream.write(SIG_STRING);
             byte[] bytes = s.getBytes(mCharset);

             short len = (short)Math.min(bytes.length, Short.MAX_VALUE);
             mStream.writeShort(len);

             mStream.write(bytes, 0, len);
         } catch (IOException e) {
             // does not happen since the stream simply wraps a ByteArrayOutputStream
         }
     }
 }
	package android.view;

	import android.annotation.NonNull;
	import android.annotation.Nullable;

	import java.io.ByteArrayOutputStream;
	import java.io.DataOutputStream;
	import java.io.IOException;
	import java.nio.charset.Charset;
	import java.util.HashMap;
	import java.util.Map;

	/**
	* {@link ViewHierarchyEncoder} is a serializer that is tailored towards writing out
	* view hierarchies (the view tree, along with the properties for each view) to a stream.
	*
	* It is typically used as follows:
	* <pre>
	* ViewHierarchyEncoder e = new ViewHierarchyEncoder();
	*
	* for (View view : views) {
	* e.beginObject(view);
	* e.addProperty("prop1", value);
	* ...
	* e.endObject();
	* }
	*
	* // repeat above snippet for each view, finally end with:
	* e.endStream();
	* </pre>
	*
	* <p>On the stream, a snippet such as the above gets encoded as a series of Map's (one
	* corresponding to each view) with the property name as the key and the property value
	* as the value.
	*
	* <p>Since the property names are practically the same across all views, rather than using
	* the property name directly as the key, we use a short integer id corresponding to each
	* property name as the key. A final map is added at the end which contains the mapping
	* from the integer to its property name.
	*
	* <p>A value is encoded as a single byte type identifier followed by the encoding of the
	* value. Only primitive types are supported as values, in addition to the Map type.
	*
	* @hide
	*/
	public class ViewHierarchyEncoder {
	// Prefixes for simple primitives. These match the JNI definitions.
	private static final byte SIG_BOOLEAN = 'Z';
	private static final byte SIG_BYTE = 'B';
	private static final byte SIG_SHORT = 'S';
	private static final byte SIG_INT = 'I';
	private static final byte SIG_LONG = 'J';
	private static final byte SIG_FLOAT = 'F';
	private static final byte SIG_DOUBLE = 'D';

	// Prefixes for some commonly used objects
	private static final byte SIG_STRING = 'R';

	private static final byte SIG_MAP = 'M'; // a map with an short key
	private static final short SIG_END_MAP = 0;

	private final DataOutputStream mStream;

	private final Map<String,Short> mPropertyNames = new HashMap<String, Short>(200);
	private short mPropertyId = 1;
	private Charset mCharset = Charset.forName("utf-8");

	public ViewHierarchyEncoder(@NonNull ByteArrayOutputStream stream) {
	mStream = new DataOutputStream(stream);
	}

	public void beginObject(@NonNull Object o) {
	startPropertyMap();
	addProperty("meta:__name__", o.getClass().getName());
	addProperty("meta:__hash__", o.hashCode());
	}

	public void endObject() {
	endPropertyMap();
	}

	public void endStream() {
	// write out the string table
	startPropertyMap();
	addProperty("__name__", "propertyIndex");
	for (Map.Entry<String,Short> entry : mPropertyNames.entrySet()) {
	writeShort(entry.getValue());
	writeString(entry.getKey());
	}
	endPropertyMap();
	}

	public void addProperty(@NonNull String name, boolean v) {
	writeShort(createPropertyIndex(name));
	writeBoolean(v);
	}

	public void addProperty(@NonNull String name, short s) {
	writeShort(createPropertyIndex(name));
	writeShort(s);
	}

	public void addProperty(@NonNull String name, int v) {
	writeShort(createPropertyIndex(name));
	writeInt(v);
	}

	public void addProperty(@NonNull String name, float v) {
	writeShort(createPropertyIndex(name));
	writeFloat(v);
	}

	public void addProperty(@NonNull String name, @Nullable String s) {
	writeShort(createPropertyIndex(name));
	writeString(s);
	}

	/**
	* Writes the given name as the property name, and leaves it to the callee
	* to fill in value for this property.
	*/
	public void addPropertyKey(@NonNull String name) {
	writeShort(createPropertyIndex(name));
	}

	private short createPropertyIndex(@NonNull String name) {
	Short index = mPropertyNames.get(name);
	if (index == null) {
	index = mPropertyId++;
	mPropertyNames.put(name, index);
	}

	return index;
	}

	private void startPropertyMap() {
	try {
	mStream.write(SIG_MAP);
	} catch (IOException e) {
	// does not happen since the stream simply wraps a ByteArrayOutputStream
	}
	}

	private void endPropertyMap() {
	writeShort(SIG_END_MAP);
	}

	private void writeBoolean(boolean v) {
	try {
	mStream.write(SIG_BOOLEAN);
	mStream.write(v ? 1 : 0);
	} catch (IOException e) {
	// does not happen since the stream simply wraps a ByteArrayOutputStream
	}
	}

	private void writeShort(short s) {
	try {
	mStream.write(SIG_SHORT);
	mStream.writeShort(s);
	} catch (IOException e) {
	// does not happen since the stream simply wraps a ByteArrayOutputStream
	}
	}

	private void writeInt(int i) {
	try {
	mStream.write(SIG_INT);
	mStream.writeInt(i);
	} catch (IOException e) {
	// does not happen since the stream simply wraps a ByteArrayOutputStream
	}
	}

	private void writeFloat(float v) {
	try {
	mStream.write(SIG_FLOAT);
	mStream.writeFloat(v);
	} catch (IOException e) {
	// does not happen since the stream simply wraps a ByteArrayOutputStream
	}
	}

	private void writeString(@Nullable String s) {
	if (s == null) {
	s = "";
	}

	try {
	mStream.write(SIG_STRING);
	byte[] bytes = s.getBytes(mCharset);

	short len = (short)Math.min(bytes.length, Short.MAX_VALUE);
	mStream.writeShort(len);

	mStream.write(bytes, 0, len);
	} catch (IOException e) {
	// does not happen since the stream simply wraps a ByteArrayOutputStream
	}
	}
	}