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StringDict.java
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package processing.data;
import java.io.*;
import java.util.HashMap;
import java.util.Iterator;
import java.util.NoSuchElementException;
import processing.core.PApplet;
/**
* A simple table class to use a String as a lookup for another String value.
*
* @webref data:composite
* @see IntDict
* @see FloatDict
*/
public class StringDict {
/** Number of elements in the table */
protected int count;
protected String[] keys;
protected String[] values;
/** Internal implementation for faster lookups */
private HashMap<String, Integer> indices = new HashMap<>();
public StringDict() {
count = 0;
keys = new String[10];
values = new String[10];
}
/**
* Create a new lookup pre-allocated to a specific length. This will not
* change the size(), but is more efficient than not specifying a length.
* Use it when you know the rough size of the thing you're creating.
*
* @nowebref
*/
public StringDict(int length) {
count = 0;
keys = new String[length];
values = new String[length];
}
/**
* Read a set of entries from a Reader that has each key/value pair on
* a single line, separated by a tab.
*
* @nowebref
*/
public StringDict(BufferedReader reader) {
String[] lines = PApplet.loadStrings(reader);
keys = new String[lines.length];
values = new String[lines.length];
for (int i = 0; i < lines.length; i++) {
String[] pieces = PApplet.split(lines[i], '\t');
if (pieces.length == 2) {
keys[count] = pieces[0];
values[count] = pieces[1];
indices.put(keys[count], count);
count++;
}
}
}
/**
* @nowebref
*/
public StringDict(String[] keys, String[] values) {
if (keys.length != values.length) {
throw new IllegalArgumentException("key and value arrays must be the same length");
}
this.keys = keys;
this.values = values;
count = keys.length;
for (int i = 0; i < count; i++) {
indices.put(keys[i], i);
}
}
/**
* Constructor to allow (more intuitive) inline initialization, e.g.:
* <pre>
* new StringDict(new String[][] {
* { "key1", "value1" },
* { "key2", "value2" }
* });
* </pre>
* It's no Python, but beats a static { } block with HashMap.put() statements.
*/
public StringDict(String[][] pairs) {
count = pairs.length;
this.keys = new String[count];
this.values = new String[count];
for (int i = 0; i < count; i++) {
keys[i] = pairs[i][0];
values[i] = pairs[i][1];
indices.put(keys[i], i);
}
}
/**
* Create a dictionary that maps between column titles and cell entries
* in a TableRow. If two columns have the same name, the later column's
* values will override the earlier values.
*/
public StringDict(TableRow row) {
this(row.getColumnCount());
String[] titles = row.getColumnTitles();
if (titles == null) {
titles = new StringList(IntList.fromRange(row.getColumnCount())).array();
}
for (int col = 0; col < row.getColumnCount(); col++) {
set(titles[col], row.getString(col));
}
// remove unused and overwritten entries
crop();
}
/**
* @webref stringdict:method
* @brief Returns the number of key/value pairs
*/
public int size() {
return count;
}
/**
* Resize the internal data, this can only be used to shrink the list.
* Helpful for situations like sorting and then grabbing the top 50 entries.
*/
public void resize(int length) {
if (length > count) {
throw new IllegalArgumentException("resize() can only be used to shrink the dictionary");
}
if (length < 1) {
throw new IllegalArgumentException("resize(" + length + ") is too small, use 1 or higher");
}
String[] newKeys = new String[length];
String[] newValues = new String[length];
PApplet.arrayCopy(keys, newKeys, length);
PApplet.arrayCopy(values, newValues, length);
keys = newKeys;
values = newValues;
count = length;
resetIndices();
}
/**
* Remove all entries.
*
* @webref stringdict:method
* @brief Remove all entries
*/
public void clear() {
count = 0;
indices = new HashMap<>();
}
private void resetIndices() {
indices = new HashMap<>(count);
for (int i = 0; i < count; i++) {
indices.put(keys[i], i);
}
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
public class Entry {
public String key;
public String value;
Entry(String key, String value) {
this.key = key;
this.value = value;
}
}
public Iterable<Entry> entries() {
return new Iterable<Entry>() {
public Iterator<Entry> iterator() {
return entryIterator();
}
};
}
public Iterator<Entry> entryIterator() {
return new Iterator<Entry>() {
int index = -1;
public void remove() {
removeIndex(index);
index--;
}
public Entry next() {
++index;
Entry e = new Entry(keys[index], values[index]);
return e;
}
public boolean hasNext() {
return index+1 < size();
}
};
}
// . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
public String key(int index) {
return keys[index];
}
protected void crop() {
if (count != keys.length) {
keys = PApplet.subset(keys, 0, count);
values = PApplet.subset(values, 0, count);
}
}
public Iterable<String> keys() {
return new Iterable<String>() {
@Override
public Iterator<String> iterator() {
return keyIterator();
}
};
}
// Use this to iterate when you want to be able to remove elements along the way
public Iterator<String> keyIterator() {
return new Iterator<String>() {
int index = -1;
public void remove() {
removeIndex(index);
index--;
}
public String next() {
return key(++index);
}
public boolean hasNext() {
return index+1 < size();
}
};
}
/**
* Return a copy of the internal keys array. This array can be modified.
*
* @webref stringdict:method
* @brief Return a copy of the internal keys array
*/
public String[] keyArray() {
crop();
return keyArray(null);
}
public String[] keyArray(String[] outgoing) {
if (outgoing == null || outgoing.length != count) {
outgoing = new String[count];
}
System.arraycopy(keys, 0, outgoing, 0, count);
return outgoing;
}
public String value(int index) {
return values[index];
}
/**
* @webref stringdict:method
* @brief Return the internal array being used to store the values
*/
public Iterable<String> values() {
return new Iterable<String>() {
@Override
public Iterator<String> iterator() {
return valueIterator();
}
};
}
public Iterator<String> valueIterator() {
return new Iterator<String>() {
int index = -1;
public void remove() {
removeIndex(index);
index--;
}
public String next() {
return value(++index);
}
public boolean hasNext() {
return index+1 < size();
}
};
}
/**
* Create a new array and copy each of the values into it.
*
* @webref stringdict:method
* @brief Create a new array and copy each of the values into it
*/
public String[] valueArray() {
crop();
return valueArray(null);
}
/**
* Fill an already-allocated array with the values (more efficient than
* creating a new array each time). If 'array' is null, or not the same
* size as the number of values, a new array will be allocated and returned.
*/
public String[] valueArray(String[] array) {
if (array == null || array.length != size()) {
array = new String[count];
}
System.arraycopy(values, 0, array, 0, count);
return array;
}
/**
* Return a value for the specified key.
*
* @webref stringdict:method
* @brief Return a value for the specified key
*/
public String get(String key) {
int index = index(key);
if (index == -1) return null;
return values[index];
}
public String get(String key, String alternate) {
int index = index(key);
if (index == -1) return alternate;
return values[index];
}
/**
* @webref stringdict:method
* @brief Create a new key/value pair or change the value of one
*/
public void set(String key, String value) {
int index = index(key);
if (index == -1) {
create(key, value);
} else {
values[index] = value;
}
}
public void setIndex(int index, String key, String value) {
if (index < 0 || index >= count) {
throw new ArrayIndexOutOfBoundsException(index);
}
keys[index] = key;
values[index] = value;
}
public int index(String what) {
Integer found = indices.get(what);
return (found == null) ? -1 : found.intValue();
}
/**
* @webref stringdict:method
* @brief Check if a key is a part of the data structure
*/
public boolean hasKey(String key) {
return index(key) != -1;
}
protected void create(String key, String value) {
if (count == keys.length) {
keys = PApplet.expand(keys);
values = PApplet.expand(values);
}
indices.put(key, Integer.valueOf(count));
keys[count] = key;
values[count] = value;
count++;
}
/**
* @webref stringdict:method
* @brief Remove a key/value pair
*/
public String remove(String key) {
int index = index(key);
if (index == -1) {
throw new NoSuchElementException("'" + key + "' not found");
}
String value = values[index];
removeIndex(index);
return value;
}
public String removeIndex(int index) {
if (index < 0 || index >= count) {
throw new ArrayIndexOutOfBoundsException(index);
}
String value = values[index];
indices.remove(keys[index]);
for (int i = index; i < count-1; i++) {
keys[i] = keys[i+1];
values[i] = values[i+1];
indices.put(keys[i], i);
}
count--;
keys[count] = null;
values[count] = null;
return value;
}
public void swap(int a, int b) {
String tkey = keys[a];
String tvalue = values[a];
keys[a] = keys[b];
values[a] = values[b];
keys[b] = tkey;
values[b] = tvalue;
// indices.put(keys[a], Integer.valueOf(a));
// indices.put(keys[b], Integer.valueOf(b));
}
/**
* Sort the keys alphabetically (ignoring case). Uses the value as a
* tie-breaker (only really possible with a key that has a case change).
*
* @webref stringdict:method
* @brief Sort the keys alphabetically
*/
public void sortKeys() {
sortImpl(true, false);
}
/**
* @webref stringdict:method
* @brief Sort the keys alphabetically in reverse
*/
public void sortKeysReverse() {
sortImpl(true, true);
}
/**
* Sort by values in descending order (largest value will be at [0]).
*
* @webref stringdict:method
* @brief Sort by values in ascending order
*/
public void sortValues() {
sortImpl(false, false);
}
/**
* @webref stringdict:method
* @brief Sort by values in descending order
*/
public void sortValuesReverse() {
sortImpl(false, true);
}
protected void sortImpl(final boolean useKeys, final boolean reverse) {
Sort s = new Sort() {
@Override
public int size() {
return count;
}
@Override
public int compare(int a, int b) {
int diff = 0;
if (useKeys) {
diff = keys[a].compareToIgnoreCase(keys[b]);
if (diff == 0) {
diff = values[a].compareToIgnoreCase(values[b]);
}
} else { // sort values
diff = values[a].compareToIgnoreCase(values[b]);
if (diff == 0) {
diff = keys[a].compareToIgnoreCase(keys[b]);
}
}
return reverse ? -diff : diff;
}
@Override
public void swap(int a, int b) {
StringDict.this.swap(a, b);
}
};
s.run();
// Set the indices after sort/swaps (performance fix 160411)
resetIndices();
}
/** Returns a duplicate copy of this object. */
public StringDict copy() {
StringDict outgoing = new StringDict(count);
System.arraycopy(keys, 0, outgoing.keys, 0, count);
System.arraycopy(values, 0, outgoing.values, 0, count);
for (int i = 0; i < count; i++) {
outgoing.indices.put(keys[i], i);
}
outgoing.count = count;
return outgoing;
}
public void print() {
for (int i = 0; i < size(); i++) {
System.out.println(keys[i] + " = " + values[i]);
}
}
/**
* Save tab-delimited entries to a file (TSV format, UTF-8 encoding)
*/
public void save(File file) {
PrintWriter writer = PApplet.createWriter(file);
write(writer);
writer.close();
}
/**
* Write tab-delimited entries to a PrintWriter
*/
public void write(PrintWriter writer) {
for (int i = 0; i < count; i++) {
writer.println(keys[i] + "\t" + values[i]);
}
writer.flush();
}
/**
* Return this dictionary as a String in JSON format.
*/
public String toJSON() {
StringList items = new StringList();
for (int i = 0; i < count; i++) {
items.append(JSONObject.quote(keys[i])+ ": " + JSONObject.quote(values[i]));
}
return "{ " + items.join(", ") + " }";
}
@Override
public String toString() {
return getClass().getSimpleName() + " size=" + size() + " " + toJSON();
}
}