IppAnnotNote.java
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/*
* Decompiled with CFR 0_118.
*/
package com.scene7.is.ipp.messages;
import com.scene7.is.ipp.messages.Ipp;
import com.scene7.is.ipp.messages.IppAnnotInfo;
import com.scene7.is.ipp.messages.IppByte;
import com.scene7.is.ipp.messages.IppInt;
import com.scene7.is.ipp.messages.IppLongString;
import com.scene7.is.ipp.messages.Offset;
import java.io.IOException;
import java.io.UnsupportedEncodingException;
import java.io.Writer;
public class IppAnnotNote {
private IppAnnotInfo info_;
private int xPos_;
private int yPos_;
private String text_;
public IppAnnotNote(IppAnnotInfo info, int xPos, int yPos, String text) {
this.info_ = info;
this.xPos_ = xPos;
this.yPos_ = yPos;
this.text_ = text;
}
public String toString() {
StringBuffer buffer = new StringBuffer();
buffer.append("[");
buffer.append("info: ").append(String.valueOf(this.info_)).append(" ");
buffer.append("xPos: ").append(String.valueOf(this.xPos_)).append(" ");
buffer.append("yPos: ").append(String.valueOf(this.yPos_)).append(" ");
buffer.append("text: ").append(String.valueOf(this.text_)).append(" ");
buffer.append("]");
return buffer.toString();
}
public boolean equals(Object o) {
if (!(o instanceof IppAnnotNote)) {
return false;
}
IppAnnotNote e = (IppAnnotNote)o;
if (!this.info_.equals(e.info_)) {
return false;
}
if (this.xPos_ != e.xPos_) {
return false;
}
if (this.yPos_ != e.yPos_) {
return false;
}
if (!this.text_.equals(e.text_)) {
return false;
}
return true;
}
public static IppAnnotNote Unstuff(byte[] arr, Offset arrayPos) {
Ipp.Assert((arrayPos.val & 7) == 0, "IppAnnotNote align");
IppAnnotInfo info = IppAnnotInfo.Unstuff(arr, arrayPos);
int xPos = IppInt.Unstuff(arr, arrayPos);
int yPos = IppInt.Unstuff(arr, arrayPos);
String text = IppLongString.Unstuff(arr, arrayPos);
IppByte.UnstuffFixedArray(arr, arrayPos, 4);
return new IppAnnotNote(info, xPos, yPos, text);
}
public static IppAnnotNote[] UnstuffArray(byte[] arr, Offset arrayPos) {
Ipp.Assert((arrayPos.val & 3) == 0, "IppAnnotNote alignemt");
int count = IppInt.Unstuff(arr, arrayPos);
int size = IppInt.Unstuff(arr, arrayPos);
Ipp.Assert(count == 0 || size >= 32, "IppAnnotNote count");
Offset roff = new Offset(IppInt.Unstuff(arr, arrayPos));
Offset loff = new Offset(roff.val);
IppAnnotNote[] result = new IppAnnotNote[count];
for (int i = 0; i < count; ++i) {
loff.val = roff.val;
result[i] = IppAnnotNote.Unstuff(arr, loff);
roff.val += size;
}
return result;
}
public static IppAnnotNote[] UnstuffFixedArray(byte[] arr, Offset arrayPos, int count) {
IppAnnotNote[] result = new IppAnnotNote[count];
for (int i = 0; i < count; ++i) {
result[i] = IppAnnotNote.Unstuff(arr, arrayPos);
}
return result;
}
public static void Stuff(byte[] arr, Offset arrayPos, Offset varPos, IppAnnotNote val) {
Ipp.Assert((arrayPos.val & 7) == 0, "IppAnnotNote align");
if (val != null) {
IppAnnotInfo.Stuff(arr, arrayPos, varPos, val.info());
IppInt.Stuff(arr, arrayPos, varPos, val.xPos());
IppInt.Stuff(arr, arrayPos, varPos, val.yPos());
IppLongString.Stuff(arr, arrayPos, varPos, val.text());
Ipp.StuffNullBytes(arr, arrayPos, 4);
} else {
Ipp.StuffNullBytes(arr, arrayPos, 32);
}
}
public static void StuffArray(byte[] arr, Offset arrayPos, Offset varPos, IppAnnotNote[] val) {
Ipp.Assert((arrayPos.val & 3) == 0, "IppAnnotNote stuffarray align");
int len = val != null ? val.length : 0;
IppInt.Stuff(arr, arrayPos, varPos, len);
IppInt.Stuff(arr, arrayPos, varPos, 32);
Ipp.StuffOffset(arr, arrayPos, varPos, len > 0 ? 8 : 1);
Offset varvarPos = new Offset(varPos.val + 32 * len);
for (int i = 0; i < len; ++i) {
IppAnnotNote.Stuff(arr, varPos, varvarPos, val[i]);
}
varPos.val = varvarPos.val;
}
public static void StuffFixedArray(byte[] arr, Offset arrayPos, Offset varPos, int count, IppAnnotNote[] val) {
Ipp.Assert(val.length == count, "IppAnnotNote count");
for (int i = 0; i < count; ++i) {
IppAnnotNote.Stuff(arr, arrayPos, varPos, val[i]);
}
}
public static void Print(Writer tf, String label, IppAnnotNote it) throws IOException {
String ll = label + "IppAnnotNote: ";
if (it == null) {
tf.write(ll + "NULL!!\n");
return;
}
tf.write(ll + "\n");
IppAnnotInfo.Print(tf, ll + "info: ", it.info());
IppInt.Print(tf, ll + "xPos: ", it.xPos());
IppInt.Print(tf, ll + "yPos: ", it.yPos());
IppLongString.Print(tf, ll + "text: ", it.text());
}
public static void PrintArray(Writer tf, String label, IppAnnotNote[] it) throws IOException {
String ll = label + "IppAnnotNote Array, length: ";
tf.write(ll);
if (it == null) {
tf.write("NULL!!!\n");
return;
}
tf.write("" + it.length + "\n");
for (int i = 0; i < it.length; ++i) {
ll = label + "IppAnnotNote[" + String.valueOf(i) + "]: ";
IppAnnotNote.Print(tf, ll, it[i]);
}
}
public void adjustVarPos(Offset varPos) {
try {
varPos.val += this.text_.getBytes("UTF-8").length + 1;
}
catch (UnsupportedEncodingException e) {
throw new AssertionError(e);
}
}
public IppAnnotInfo info() {
return this.info_;
}
public int xPos() {
return this.xPos_;
}
public int yPos() {
return this.yPos_;
}
public String text() {
return this.text_;
}
}