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import java.util.*;
import java.util.zip.*;
import java.util.List;
import java.util.regex.*;
import java.util.concurrent.*;
import java.util.concurrent.atomic.*;
import java.util.concurrent.locks.*;
import javax.swing.*;
import javax.swing.event.*;
import javax.swing.text.*;
import javax.swing.table.*;
import java.io.*;
import java.net.*;
import java.lang.reflect.*;
import java.lang.ref.*;
import java.lang.management.*;
import java.security.*;
import java.security.spec.*;
import java.awt.*;
import java.awt.event.*;
import java.awt.image.*;
import javax.imageio.*;
import java.math.*;
import static x30_pkg.x30_util.DynamicObject;
import java.awt.datatransfer.StringSelection;
import java.text.SimpleDateFormat;
import java.nio.charset.Charset;
import java.text.NumberFormat;
class main {
static class PianoSampler2 extends SlidingWindow {
boolean debug = false;
boolean printFactor = false;
List frequencies() { return frequencies; } List frequencies;
Double fixedFactor;
PianoSampler2(int channels, double sampleRate, IQuerySound sound,
int start, int length) {
this.length = length;
this.start = start;
this.sound = sound;
this.sampleRate = sampleRate;
this.channels = channels;
init();
}
PianoSampler2() { init(); }
void init() {
frequencies = pianoFrequencies88();
}
long haarFeaturesChecked;
// one channel
List measureWindow() {
return measureWindow(bounds());
}
List measureWindow(DoubleRange timeRange) { return measureWindow(timeRange, frequencies()); }
List measureWindow(DoubleRange timeRange, Collection frequencies) {
int channel = 0;
moveToCenter(iround(timeRange.center()));
return map(frequencies(), f -> {
var interval = f.interval()*sampleRate;
int period1 = iceil(doubleRatio(timeRange.start, interval));
int period2 = ifloor(doubleRatio(timeRange.end, interval))-1;
if (period2 <= period1) return complex(0);
int periods = period2-period1;
SumOfVibrations sum = new SumOfVibrations(this, channel, period1*interval, f.get(), periods);
haarFeaturesChecked += periods*2;
return sum.complexSum();
});
}
Frequency lowestFrequency() { return first(frequencies); }
Frequency highestFrequency() { return last(frequencies); }
int minWindowSizeForBase() {
return iceil(sampleRate*lowestFrequency().interval());
}
void makeWindow(DoubleRange r) {
start = ifloor(r.start);
length = iceil(r.end())-start;
grab();
}
void makeWindowAround(double t, double size) {
double start = max(0, t-size)/2;
makeWindow(new DoubleRange(start, start+size));
}
String stats() { return renderVars("haarFeaturesChecked", haarFeaturesChecked); }
IIntegralImage imageColumn(List intensities) {
int n = l(intensities);
double[] col = new double[n];
for (int y = 0; y < n; y++)
col[n-y-1] = abs(intensities.get(y));
double factor = fixedFactor != null ? fixedFactor : normalizationFactor(col, 255);
if (printFactor) printVars("factor", factor, "log" , log10(factor));
double[] col2 = doubleMul(col, factor);
return bwIntegralImageFromFunction(1, n, (x, y) -> ifloor(col2[y]));
}
void loadSound(IQuerySound sound, int channels) {
this.sound = sound;
this.channels = channels;
}
}
static List pianoFrequencies88() {
return countIterator_inclusive_list(__17 -> pianoKeyFrequency(__17), 1, 88);
}
static int iround(double d) {
return (int) Math.round(d);
}
static int iround(Number n) {
return iround(toDouble(n));
}
static List map(Iterable l, Object f) { return map(f, l); }
static List map(Object f, Iterable l) {
List x = emptyList(l);
if (l != null) for (Object o : l)
{ ping(); x.add(callF(f, o)); }
return x;
}
static List map(Iterable l, F1 f) { return map(f, l); }
static List map(F1 f, Iterable l) {
List x = emptyList(l);
if (l != null) for (A o : l)
{ ping(); x.add(callF(f, o)); }
return x;
}
static List map(IF1 f, Iterable l) { return map(l, f); }
static List map(Iterable l, IF1 f) {
List x = emptyList(l);
if (l != null) for (A o : l)
{ ping(); x.add(f.get(o)); }
return x;
}
static List map(IF1 f, A[] l) { return map(l, f); }
static List map(A[] l, IF1 f) {
List x = emptyList(l);
if (l != null) for (A o : l)
{ ping(); x.add(f.get(o)); }
return x;
}
static List map(Object f, Object[] l) { return map(f, asList(l)); }
static List map(Object[] l, Object f) { return map(f, l); }
static List map(Object f, Map map) {
return map(map, f);
}
// map: func(key, value) -> list element
static List map(Map map, Object f) {
List x = new ArrayList();
if (map != null) for (Object _e : map.entrySet()) { ping();
Map.Entry e = (Map.Entry) _e;
x.add(callF(f, e.getKey(), e.getValue()));
}
return x;
}
static List map(Map map, IF2 f) {
return map(map, (Object) f);
}
// new magic alias for mapLL - does it conflict?
static List map(IF1 f, A data1, A... moreData) {
List x = emptyList(l(moreData)+1);
x.add(f.get(data1));
if (moreData != null) for (A o : moreData)
{ ping(); x.add(f.get(o)); }
return x;
}
static int iceil(double d) {
return (int) Math.ceil(d);
}
static double doubleRatio(double x, double y) {
return y == 0 ? 0 : x/y;
}
static int ifloor(double d) {
return (int) Math.floor(d);
}
static Complex complex(double re, double im) {
return new Complex(re, im);
}
static Complex complex(double re) {
return new Complex(re, 0.0);
}
static Object first(Object list) {
return first((Iterable) list);
}
static A first(List list) {
return empty(list) ? null : list.get(0);
}
static A first(A[] bla) {
return bla == null || bla.length == 0 ? null : bla[0];
}
static A first(IterableIterator i) {
return first((Iterator ) i);
}
static A first(Iterator i) {
return i == null || !i.hasNext() ? null : i.next();
}
static A first(Iterable i) {
if (i == null) return null;
Iterator it = i.iterator();
return it.hasNext() ? it.next() : null;
}
static Character first(String s) { return empty(s) ? null : s.charAt(0); }
static Character first(CharSequence s) { return empty(s) ? null : s.charAt(0); }
static A first(Pair p) {
return p == null ? null : p.a;
}
static A first(T3 t) {
return t == null ? null : t.a;
}
static Byte first(byte[] l) {
return empty(l) ? null : l[0];
}
static A first(A[] l, IF1 pred) {
return firstThat(l, pred);
}
static A first(Iterable l, IF1 pred) {
return firstThat(l, pred);
}
static A first(IF1 pred, Iterable l) {
return firstThat(pred, l);
}
static A last(List l) {
return empty(l) ? null : l.get(l.size()-1);
}
static char last(String s) {
return empty(s) ? '#' : s.charAt(l(s)-1);
}
static int last(int[] a) {
return l(a) != 0 ? a[l(a)-1] : 0;
}
static double last(double[] a) {
return l(a) != 0 ? a[l(a)-1] : 0;
}
static A last(A[] a) {
return l(a) != 0 ? a[l(a)-1] : null;
}
static A last(Iterator it) {
A a = null;
while (it.hasNext()) { ping(); a = it.next(); }
return a;
}
static A last(Collection l) {
if (l == null) return null;
if (l instanceof List) return (A) last((List) l);
if (l instanceof SortedSet) return (A) last((SortedSet) l);
Iterator it = iterator(l);
A a = null;
while (it.hasNext()) { ping(); a = it.next(); }
return a;
}
static A last(SortedSet l) {
return l == null ? null : l.last();
}
static int max(int a, int b) { return Math.max(a, b); }
static int max(int a, int b, int c) { return max(max(a, b), c); }
static long max(int a, long b) { return Math.max((long) a, b); }
static long max(long a, long b) { return Math.max(a, b); }
static double max(int a, double b) { return Math.max((double) a, b); }
static float max(float a, float b) { return Math.max(a, b); }
static double max(double a, double b) { return Math.max(a, b); }
static int max(Collection c) {
int x = Integer.MIN_VALUE;
for (int i : c) x = max(x, i);
return x;
}
static double max(double[] c) {
if (c.length == 0) return Double.MIN_VALUE;
double x = c[0];
for (int i = 1; i < c.length; i++) x = Math.max(x, c[i]);
return x;
}
static float max(float[] c) {
if (c.length == 0) return Float.MAX_VALUE;
float x = c[0];
for (int i = 1; i < c.length; i++) x = Math.max(x, c[i]);
return x;
}
static byte max(byte[] c) {
byte x = -128;
for (byte d : c) if (d > x) x = d;
return x;
}
static short max(short[] c) {
short x = -0x8000;
for (short d : c) if (d > x) x = d;
return x;
}
static int max(int[] c) {
int x = Integer.MIN_VALUE;
for (int d : c) if (d > x) x = d;
return x;
}
static JWindow makeWindow(final Component c) {
return swing(new F0() { public JWindow get() { try {
JWindow w = new JWindow();
w.add(wrap(c));
return w;
} catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "new JWindow w;\r\n w.add(wrap(c));\r\n ret w;"; }});
}
// Use like this: renderVars(+x, +y)
// Or like this: renderVars SomeID(+x, +y)
static String renderVars(Object... params) {
return renderVars_str(params);
}
static int l(Object[] a) { return a == null ? 0 : a.length; }
static int l(boolean[] a) { return a == null ? 0 : a.length; }
static int l(byte[] a) { return a == null ? 0 : a.length; }
static int l(short[] a) { return a == null ? 0 : a.length; }
static int l(long[] a) { return a == null ? 0 : a.length; }
static int l(int[] a) { return a == null ? 0 : a.length; }
static int l(float[] a) { return a == null ? 0 : a.length; }
static int l(double[] a) { return a == null ? 0 : a.length; }
static int l(char[] a) { return a == null ? 0 : a.length; }
static int l(Collection c) { return c == null ? 0 : c.size(); }
static int l(Iterator i) { return iteratorCount_int_close(i); } // consumes the iterator && closes it if possible
static int l(Map m) { return m == null ? 0 : m.size(); }
static int l(CharSequence s) { return s == null ? 0 : s.length(); }
static long l(File f) { return f == null ? 0 : f.length(); }
static int l(Object o) {
return o == null ? 0
: o instanceof String ? l((String) o)
: o instanceof Map ? l((Map) o)
: o instanceof Collection ? l((Collection) o)
: o instanceof Object[] ? l((Object[]) o)
: o instanceof boolean[] ? l((boolean[]) o)
: o instanceof byte[] ? l((byte[]) o)
: o instanceof char[] ? l((char[]) o)
: o instanceof short[] ? l((short[]) o)
: o instanceof int[] ? l((int[]) o)
: o instanceof float[] ? l((float[]) o)
: o instanceof double[] ? l((double[]) o)
: o instanceof long[] ? l((long[]) o)
: (Integer) call(o, "size");
}
static double l(DoubleRange r) { return r == null ? 0 : r.length(); }
static int l(HalfLongs l) { return l == null ? 0 : l.size(); }
static float abs(float f) { return Math.abs(f); }
static int abs(int i) { return Math.abs(i); }
static double abs(double d) { return Math.abs(d); }
static double abs(Complex c) { return c.abs(); }
static double normalizationFactor(double[] l) { return normalizationFactor(l, 1); }
static double normalizationFactor(double[] l, double targetMax) {
return doubleRatio(targetMax, doubleMax(l));
}
// Use like this: printVars(+x, +y);
// Or: printVars("bla", +x);
// Or: printVars bla(, +x);
static void printVars(Object... params) {
printVars_str(params);
}
static double log10(double d) {
return Math.log10(d);
}
static double[] doubleMul(double[] l, double factor) {
if (factor == 1) return l;
int n = l(l);
double[] x = new double[n];
for (int i = 0; i < n; i++)
x[i] = l[i]*factor;
return x;
}
// f: (x, y) -> 0..255
// TODO: optimize!!
static BWIntegralImage bwIntegralImageFromFunction(int w, IF2_Int f) { return bwIntegralImageFromFunction(w, w, f); }
static BWIntegralImage bwIntegralImageFromFunction(int w, int h, IF2_Int f) {
byte[] pixels = new byte[w*h];
int i = 0;
for (int y = 0; y < h; y++)
for (int x = 0; x < w; x++)
pixels[i++] = (byte) f.get(x, y);
return new BWIntegralImage(new BWImage(w, h, pixels));
}
static List countIterator_inclusive_list(int b) { return countIterator_inclusive_list(0, b); }
static List countIterator_inclusive_list(int a, int b) {
return countIteratorToList_inclusive(a, b);
}
static List countIterator_inclusive_list(int b, IF1 f) { return countIterator_inclusive_list(0, b, f); }
static List countIterator_inclusive_list(int a, int b, IF1 f) {
return countIteratorToList_inclusive(a, b, f);
}
static List countIterator_inclusive_list(int a, int b, int step) {
return countIteratorToList_inclusive(a, b, step);
}
static List countIterator_inclusive_list(double a, double b, double step, IF1 f) {
return countIteratorToList_inclusive(a, b, step, f);
}
static List countIterator_inclusive_list(double a, double b, double step) {
return countIteratorToList_inclusive(a, b, step);
}
static List countIterator_inclusive_list(IF1 f, double a, double b, double step) {
return countIteratorToList_inclusive(f, a, b, step);
}
static List countIterator_inclusive_list(IF1 f, int a, int b) { return countIterator_inclusive_list(f, a, b, 1); }
static List countIterator_inclusive_list(IF1 f, int a, int b, int step) {
return countIteratorToList_inclusive(f, a, b, step);
}
static Frequency pianoKeyFrequency(double key) {
return toFrequency(440*pow(plusOneSemitone(), key-49));
}
static double toDouble(Object o) {
if (o instanceof Number)
return ((Number) o).doubleValue();
if (o instanceof BigInteger)
return ((BigInteger) o).doubleValue();
if (o instanceof String)
return parseDouble((String) o);
if (o == null) return 0.0;
throw fail(o);
}
static ArrayList emptyList() {
return new ArrayList();
//ret Collections.emptyList();
}
static ArrayList emptyList(int capacity) {
return new ArrayList(max(0, capacity));
}
// Try to match capacity
static ArrayList emptyList(Iterable l) {
return l instanceof Collection ? emptyList(((Collection) l).size()) : emptyList();
}
static ArrayList emptyList(Object[] l) {
return emptyList(l(l));
}
// get correct type at once
static ArrayList emptyList(Class c) {
return new ArrayList();
}
//sbool ping_actions_shareable = true;
static volatile boolean ping_pauseAll = false;
static int ping_sleep = 100; // poll pauseAll flag every 100
static volatile boolean ping_anyActions = false;
static Map ping_actions = newWeakHashMap();
static ThreadLocal ping_isCleanUpThread = new ThreadLocal();
// always returns true
static boolean ping() {
//ifdef useNewPing
newPing();
//endifdef
if (ping_pauseAll || ping_anyActions) ping_impl(true /* XXX */);
//ifndef LeanMode ping_impl(); endifndef
return true;
}
// returns true when it slept
static boolean ping_impl(boolean okInCleanUp) { try {
if (ping_pauseAll && !isAWTThread()) {
do
Thread.sleep(ping_sleep);
while (ping_pauseAll);
return true;
}
if (ping_anyActions) { // don't allow sharing ping_actions
if (!okInCleanUp && !isTrue(ping_isCleanUpThread.get()))
failIfUnlicensed();
Object action = null;
synchronized(ping_actions) {
if (!ping_actions.isEmpty()) {
action = ping_actions.get(currentThread());
if (action instanceof Runnable)
ping_actions.remove(currentThread());
if (ping_actions.isEmpty()) ping_anyActions = false;
}
}
if (action instanceof Runnable)
((Runnable) action).run();
else if (eq(action, "cancelled"))
throw fail("Thread cancelled.");
}
return false;
} catch (Exception __e) { throw rethrow(__e); } }
static Map> callF_cache = newDangerousWeakHashMap();
static A callF(F0 f) {
return f == null ? null : f.get();
}
static B callF(F1 f, A a) {
return f == null ? null : f.get(a);
}
static A callF(IF0 f) {
return f == null ? null : f.get();
}
static B callF(IF1 f, A a) {
return f == null ? null : f.get(a);
}
static C callF(IF2 f, A a, B b) {
return f == null ? null : f.get(a, b);
}
static void callF(VF1 f, A a) {
if (f != null) f.get(a);
}
static Object callF(Runnable r) { { if (r != null) r.run(); } return null; }
static Object callF(Object f, Object... args) {
if (f instanceof String)
return callMCWithVarArgs((String) f, args); // possible SLOWDOWN over callMC
return safeCallF(f, args);
}
static Object safeCallF(Object f, Object... args) {
if (f instanceof Runnable) {
((Runnable) f).run();
return null;
}
if (f == null) return null;
Class c = f.getClass();
ArrayList methods;
synchronized(callF_cache) {
methods = callF_cache.get(c);
if (methods == null)
methods = callF_makeCache(c);
}
int n = l(methods);
if (n == 0) {
throw fail("No get method in " + getClassName(c));
}
if (n == 1) return invokeMethod(methods.get(0), f, args);
for (int i = 0; i < n; i++) {
Method m = methods.get(i);
if (call_checkArgs(m, args, false))
return invokeMethod(m, f, args);
}
throw fail("No matching get method in " + getClassName(c));
}
// used internally
static ArrayList callF_makeCache(Class c) {
ArrayList l = new ArrayList();
Class _c = c;
do {
for (Method m : _c.getDeclaredMethods())
if (m.getName().equals("get")) {
makeAccessible(m);
l.add(m);
}
if (!l.isEmpty()) break;
_c = _c.getSuperclass();
} while (_c != null);
callF_cache.put(c, l);
return l;
}
// unclear semantics as to whether return null on null
static ArrayList asList(A[] a) {
return a == null ? new ArrayList () : new ArrayList (Arrays.asList(a));
}
static ArrayList asList(int[] a) {
if (a == null) return null;
ArrayList l = emptyList(a.length);
for (int i : a) l.add(i);
return l;
}
static ArrayList asList(long[] a) {
if (a == null) return null;
ArrayList l = emptyList(a.length);
for (long i : a) l.add(i);
return l;
}
static ArrayList asList(float[] a) {
if (a == null) return null;
ArrayList l = emptyList(a.length);
for (float i : a) l.add(i);
return l;
}
static ArrayList asList(double[] a) {
if (a == null) return null;
ArrayList l = emptyList(a.length);
for (double i : a) l.add(i);
return l;
}
static ArrayList asList(Iterator it) {
ArrayList l = new ArrayList();
if (it != null)
while (it.hasNext())
l.add(it.next());
return l;
}
// disambiguation
static ArrayList asList(IterableIterator s) {
return asList((Iterator) s);
}
static ArrayList asList(Iterable s) {
if (s instanceof ArrayList) return (ArrayList) s;
ArrayList l = new ArrayList();
if (s != null)
for (A a : s)
l.add(a);
return l;
}
static ArrayList asList(Enumeration e) {
ArrayList l = new ArrayList();
if (e != null)
while (e.hasMoreElements())
l.add(e.nextElement());
return l;
}
static List asList(Pair p) {
return p == null ? null : ll(p.a, p.b);
}
static boolean empty(Collection c) { return c == null || c.isEmpty(); }
static boolean empty(Iterable c) { return c == null || !c.iterator().hasNext(); }
static boolean empty(CharSequence s) { return s == null || s.length() == 0; }
static boolean empty(Map map) { return map == null || map.isEmpty(); }
static boolean empty(Object[] o) { return o == null || o.length == 0; }
static boolean empty(Object o) {
if (o instanceof Collection) return empty((Collection) o);
if (o instanceof String) return empty((String) o);
if (o instanceof Map) return empty((Map) o);
if (o instanceof Object[]) return empty((Object[]) o);
if (o instanceof byte[]) return empty((byte[]) o);
if (o == null) return true;
throw fail("unknown type for 'empty': " + getType(o));
}
static boolean empty(Iterator i) { return i == null || !i.hasNext(); }
static boolean empty(double[] a) { return a == null || a.length == 0; }
static boolean empty(float[] a) { return a == null || a.length == 0; }
static boolean empty(int[] a) { return a == null || a.length == 0; }
static boolean empty(long[] a) { return a == null || a.length == 0; }
static boolean empty(byte[] a) { return a == null || a.length == 0; }
static boolean empty(short[] a) { return a == null || a.length == 0; }
static boolean empty(File f) { return getFileSize(f) == 0; }
static boolean empty(DoubleRange r) { return r == null || r.isEmpty(); }
static boolean empty(Rect r) { return !(r != null && r.w != 0 && r.h != 0); }
static A firstThat(Iterable l, IF1 pred) {
for (A a : unnullForIteration(l))
if (pred.get(a))
return a;
return null;
}
static A firstThat(A[] l, IF1 pred) {
for (A a : unnullForIteration(l))
if (pred.get(a))
return a;
return null;
}
static A firstThat(IF1 pred, Iterable l) {
return firstThat(l, pred);
}
static A firstThat(IF1 pred, A[] l) {
return firstThat(l, pred);
}
static Iterator iterator(Iterable c) {
return c == null ? emptyIterator() : c.iterator();
}
static Object swing(Object f) {
return swingAndWait(f);
}
static A swing(F0 f) {
return (A) swingAndWait(f);
}
static A swing(IF0 f) {
return (A) swingAndWait(f);
}
// get purpose 1: access a list/array/map (safer version of x.get(y))
static A get(List l, int idx) {
return l != null && idx >= 0 && idx < l(l) ? l.get(idx) : null;
}
// seems to conflict with other signatures
/*static B get(Map map, A key) {
ret map != null ? map.get(key) : null;
}*/
static A get(A[] l, int idx) {
return idx >= 0 && idx < l(l) ? l[idx] : null;
}
// default to false
static boolean get(boolean[] l, int idx) {
return idx >= 0 && idx < l(l) ? l[idx] : false;
}
// get purpose 2: access a field by reflection or a map
static Object get(Object o, String field) {
try {
if (o == null) return null;
if (o instanceof Class) return get((Class) o, field);
if (o instanceof Map)
return ((Map) o).get(field);
Field f = getOpt_findField(o.getClass(), field);
if (f != null) {
makeAccessible(f);
return f.get(o);
}
if (o instanceof DynamicObject)
return getOptDynOnly(((DynamicObject) o), field);
} catch (Exception e) {
throw asRuntimeException(e);
}
throw new RuntimeException("Field '" + field + "' not found in " + o.getClass().getName());
}
static Object get_raw(String field, Object o) {
return get_raw(o, field);
}
static Object get_raw(Object o, String field) { try {
if (o == null) return null;
Field f = get_findField(o.getClass(), field);
makeAccessible(f);
return f.get(o);
} catch (Exception __e) { throw rethrow(__e); } }
static Object get(Class c, String field) {
try {
Field f = get_findStaticField(c, field);
makeAccessible(f);
return f.get(null);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
static Field get_findStaticField(Class> c, String field) {
Class _c = c;
do {
for (Field f : _c.getDeclaredFields())
if (f.getName().equals(field) && (f.getModifiers() & java.lang.reflect.Modifier.STATIC) != 0)
return f;
_c = _c.getSuperclass();
} while (_c != null);
throw new RuntimeException("Static field '" + field + "' not found in " + c.getName());
}
static Field get_findField(Class> c, String field) {
Class _c = c;
do {
for (Field f : _c.getDeclaredFields())
if (f.getName().equals(field))
return f;
_c = _c.getSuperclass();
} while (_c != null);
throw new RuntimeException("Field '" + field + "' not found in " + c.getName());
}
static Object get(String field, Object o) {
return get(o, field);
}
static boolean get(BitSet bs, int idx) {
return bs != null && bs.get(idx);
}
// c = Component or something implementing swing()
static JComponent wrap(Object swingable) {
return _recordNewSwingComponent(wrap_2(swingable));
}
static JComponent wrap_2(Object swingable) {
if (swingable == null) return null;
JComponent c;
if (swingable instanceof Component) c = componentToJComponent((Component) swingable);
else c = componentToJComponent((Component) callOpt(swingable, "swing"));
if (c instanceof JTable || c instanceof JList
|| c instanceof JTextArea || c instanceof JEditorPane
|| c instanceof JTextPane || c instanceof JTree)
return jscroll(c);
return c == null ? jlabel(str(swingable)) : c;
}
static RuntimeException rethrow(Throwable t) {
if (t instanceof Error)
_handleError((Error) t);
throw t instanceof RuntimeException ? (RuntimeException) t : new RuntimeException(t);
}
static RuntimeException rethrow(String msg, Throwable t) {
throw new RuntimeException(msg, t);
}
// Use like this: renderVars(+x, +y)
static String renderVars_str(Object... params) {
List l = new ArrayList();
int i = 0;
if (odd(l(params))) {
l.add(strOrNull(first(params)));
++i;
}
for (; i+1 < l(params); i += 2)
l.add(params[i] + "=" + params[i+1]);
return trim(joinWithComma(l));
}
static int iteratorCount_int_close(Iterator i) { try {
int n = 0;
if (i != null) while (i.hasNext()) { i.next(); ++n; }
if (i instanceof AutoCloseable) ((AutoCloseable) i).close();
return n;
} catch (Exception __e) { throw rethrow(__e); } }
static Object call(Object o) {
return callF(o);
}
// varargs assignment fixer for a single string array argument
static Object call(Object o, String method, String[] arg) {
return call(o, method, new Object[] {arg});
}
static Object call(Object o, String method, Object... args) {
//ret call_cached(o, method, args);
return call_withVarargs(o, method, args);
}
static double doubleMax(Iterable l) {
double max = -Double.MAX_VALUE;
for (double d : unnullForIteration(l))
max = Math.max(max, d);
return max;
}
static double doubleMax(double[] l) {
double max = -Double.MAX_VALUE;
for (double d : unnullForIteration(l))
max = Math.max(max, d);
return max;
}
static double doubleMax(double[] l, int from, int to) {
double max = -Double.MAX_VALUE;
for (int i = from; i < to; i++)
max = Math.max(max, l[i]);
return max;
}
// Use like this: printVars_str(+x, +y);
// Or: printVars("bla", +x);
// Or: printVars bla(+x);
static void printVars_str(Object... params) {
print(renderVars_str(params));
}
static List countIteratorToList_inclusive(int b) { return countIteratorToList_inclusive(0, b); }
static List countIteratorToList_inclusive(int a, int b) {
return asList(countIterator_inclusive(a, b));
}
static List countIteratorToList_inclusive(int b, IF1 f) { return countIteratorToList_inclusive(0, b, f); }
static List countIteratorToList_inclusive(int a, int b, IF1 f) {
return asList(countIterator_inclusive(a, b, f));
}
static List countIteratorToList_inclusive(int a, int b, int step) {
return asList(countIterator_inclusive_step(a, b, step));
}
static List countIteratorToList_inclusive(double a, double b, double step, IF1 f) {
return asList(countIterator_inclusive(a, b, step, f));
}
static List countIteratorToList_inclusive(double a, double b, double step) {
return asList(countIterator_inclusive_step(a, b, step));
}
static List countIteratorToList_inclusive(IF1 f, double a, double b, double step) {
return asList(countIterator_inclusive_step(a, b, step, f));
}
static List countIteratorToList_inclusive(IF1 f, int a, int b) { return countIteratorToList_inclusive(f, a, b, 1); }
static List countIteratorToList_inclusive(IF1 f, int a, int b, int step) {
return asList(countIterator_inclusive(a, b, step, f));
}
static Frequency toFrequency(double freq) {
return new Frequency(freq);
}
static double pow(double a, double b) {
return Math.pow(a, b);
}
static float pow(float a, float b) {
return (float) Math.pow(a, b);
}
static BigInteger pow(BigInteger a, int b) {
return a.pow(b);
}
static double plusOneSemitone() {
return nthRoot(12, 2);
}
static double plusOneSemitone(double frequency) {
return plusOneSemitone()*frequency;
}
static double parseDouble(String s) {
return empty(s) ? 0.0 : Double.parseDouble(s);
}
static RuntimeException fail() { throw new RuntimeException("fail"); }
static RuntimeException fail(Throwable e) { throw asRuntimeException(e); }
static RuntimeException fail(Object msg) { throw new RuntimeException(String.valueOf(msg)); }
static RuntimeException fail(Object... objects) { throw new Fail(objects); }
static RuntimeException fail(String msg) { throw new RuntimeException(msg == null ? "" : msg); }
static RuntimeException fail(String msg, Throwable innerException) { throw new RuntimeException(msg, innerException); }
static Map newWeakHashMap() {
return _registerWeakMap(synchroMap(new WeakHashMap()));
}
static void newPing() {
var tl = newPing_actionTL();
Runnable action = tl == null ? null : tl.get();
{ if (action != null) action.run(); }
}
// TODO: test if android complains about this
static boolean isAWTThread() {
if (isAndroid()) return false;
if (isHeadless()) return false;
return isAWTThread_awt();
}
static boolean isAWTThread_awt() {
return SwingUtilities.isEventDispatchThread();
}
static boolean isTrue(Object o) {
if (o instanceof Boolean)
return ((Boolean) o).booleanValue();
if (o == null) return false;
if (o instanceof ThreadLocal) // TODO: remove this
return isTrue(((ThreadLocal) o).get());
throw fail(getClassName(o));
}
static boolean isTrue(Boolean b) {
return b != null && b.booleanValue();
}
static void failIfUnlicensed() {
assertTrue("license off", licensed());
}
static Thread currentThread() {
return Thread.currentThread();
}
static boolean eq(Object a, Object b) {
return a == b || a != null && b != null && a.equals(b);
}
// a little kludge for stuff like eq(symbol, "$X")
static boolean eq(Symbol a, String b) {
return eq(str(a), b);
}
static Map newDangerousWeakHashMap() {
return _registerDangerousWeakMap(synchroMap(new WeakHashMap()));
}
// initFunction: voidfunc(Map) - is called initially, and after clearing the map
static Map newDangerousWeakHashMap(Object initFunction) {
return _registerDangerousWeakMap(synchroMap(new WeakHashMap()), initFunction);
}
static Object callMCWithVarArgs(String method, Object... args) {
return call_withVarargs(mc(), method, args);
}
static String getClassName(Object o) {
return o == null ? "null" : o instanceof Class ? ((Class) o).getName() : o.getClass().getName();
}
static Object invokeMethod(Method m, Object o, Object... args) { try {
try {
return m.invoke(o, args);
} catch (InvocationTargetException e) {
throw rethrow(getExceptionCause(e));
} catch (IllegalArgumentException e) {
throw new IllegalArgumentException(e.getMessage() + " - was calling: " + m + ", args: " + joinWithSpace(classNames(args)));
}
} catch (Exception __e) { throw rethrow(__e); } }
static boolean call_checkArgs(Method m, Object[] args, boolean debug) {
Class>[] types = m.getParameterTypes();
if (types.length != args.length) {
if (debug)
print("Bad parameter length: " + args.length + " vs " + types.length);
return false;
}
for (int i = 0; i < types.length; i++) {
Object arg = args[i];
if (!(arg == null ? !types[i].isPrimitive()
: isInstanceX(types[i], arg))) {
if (debug)
print("Bad parameter " + i + ": " + arg + " vs " + types[i]);
return false;
}
}
return true;
}
static Field makeAccessible(Field f) {
try {
f.setAccessible(true);
} catch (Throwable e) {
// Note: The error reporting only works with Java VM option --illegal-access=deny
vmBus_send("makeAccessible_error", e, f);
}
return f;
}
static Method makeAccessible(Method m) {
try {
m.setAccessible(true);
} catch (Throwable e) {
vmBus_send("makeAccessible_error", e, m);
}
return m;
}
static Constructor makeAccessible(Constructor c) {
try {
c.setAccessible(true);
} catch (Throwable e) {
vmBus_send("makeAccessible_error", e, c);
}
return c;
}
static List ll(A... a) {
ArrayList l = new ArrayList(a.length);
if (a != null) for (A x : a) l.add(x);
return l;
}
static String getType(Object o) {
return getClassName(o);
}
static long getFileSize(String path) {
return path == null ? 0 : new File(path).length();
}
static long getFileSize(File f) {
return f == null ? 0 : f.length();
}
static String unnullForIteration(String s) {
return s == null ? "" : s;
}
static Collection unnullForIteration(Collection l) {
return l == null ? immutableEmptyList() : l;
}
static List unnullForIteration(List l) { return l == null ? immutableEmptyList() : l; }
static int[] unnullForIteration(int[] l) { return l == null ? emptyIntArray() : l; }
static char[] unnullForIteration(char[] l) { return l == null ? emptyCharArray() : l; }
static double[] unnullForIteration(double[] l) { return l == null ? emptyDoubleArray() : l; }
static short[] unnullForIteration(short[] l) { return l == null ? emptyShortArray() : l; }
static Map unnullForIteration(Map l) {
return l == null ? immutableEmptyMap() : l;
}
static Iterable unnullForIteration(Iterable i) {
return i == null ? immutableEmptyList() : i;
}
static A[] unnullForIteration(A[] a) {
return a == null ? (A[]) emptyObjectArray() : a;
}
static BitSet unnullForIteration(BitSet b) {
return b == null ? new BitSet() : b;
}
static Pt unnullForIteration(Pt p) {
return p == null ? new Pt() : p;
}
//ifclass Symbol
static Symbol unnullForIteration(Symbol s) {
return s == null ? emptySymbol() : s;
}
//endif
static Pair unnullForIteration(Pair p) {
return p != null ? p : new Pair(null, null);
}
static long unnullForIteration(Long l) { return l == null ? 0L : l; }
static Iterator emptyIterator() {
return Collections.emptyIterator();
}
static void swingAndWait(Runnable r) { try {
if (isAWTThread())
r.run();
else
EventQueue.invokeAndWait(addThreadInfoToRunnable(r));
} catch (Exception __e) { throw rethrow(__e); } }
static Object swingAndWait(final Object f) {
if (isAWTThread())
return callF(f);
else {
final Var result = new Var();
swingAndWait(new Runnable() { public void run() { try {
result.set(callF(f));
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "result.set(callF(f));"; }});
return result.get();
}
}
static Field getOpt_findField(Class> c, String field) {
Class _c = c;
do {
for (Field f : _c.getDeclaredFields())
if (f.getName().equals(field))
return f;
_c = _c.getSuperclass();
} while (_c != null);
return null;
}
static Object getOptDynOnly(DynamicObject o, String field) {
if (o == null || o.fieldValues == null) return null;
return o.fieldValues.get(field);
}
static RuntimeException asRuntimeException(Throwable t) {
if (t instanceof Error)
_handleError((Error) t);
return t instanceof RuntimeException ? (RuntimeException) t : new RuntimeException(t);
}
static A _recordNewSwingComponent(A c) {
if (c != null)
callF((Object) vm_generalMap_get("newSwingComponentRegistry"), (Object) c);
return c;
}
static JComponent componentToJComponent(Component c) {
if (c instanceof JComponent) return (JComponent) c;
if (c instanceof JFrame) return ((JFrame) c).getRootPane();
if (c == null) return null;
throw fail("boohoo " + getClassName(c));
}
static Object callOpt(Object o) {
return callF(o);
}
static Object callOpt(Object o, String method, Object... args) {
return callOpt_withVarargs(o, method, args);
}
static JScrollPane jscroll(final Component c) {
return swing(new F0() { public JScrollPane get() { try { return new JScrollPane(c); } catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "ret new JScrollPane(c);"; }});
}
static JLabel jlabel(final String text) {
return swingConstruct(BetterLabel.class, text);
}
static JLabel jlabel() {
return jlabel(" ");
}
static String str(Object o) {
return o == null ? "null" : o.toString();
}
static String str(char[] c) {
return new String(c);
}
static void _handleError(Error e) {
call(javax(), "_handleError", e);
}
static boolean odd(int i) {
return (i & 1) != 0;
}
static boolean odd(long i) {
return (i & 1) != 0;
}
static boolean odd(BigInteger i) { return odd(toInt(i)); }
static String strOrNull(Object o) {
return o == null ? null : str(o);
}
static String trim(String s) { return s == null ? null : s.trim(); }
static String trim(StringBuilder buf) { return buf.toString().trim(); }
static String trim(StringBuffer buf) { return buf.toString().trim(); }
static String joinWithComma(Collection c) {
return join(", ", c);
}
static String joinWithComma(String... c) {
return join(", ", c);
}
static String joinWithComma(Pair p) {
return p == null ? "" : joinWithComma(str(p.a), str(p.b));
}
static Object call_withVarargs(Object o, String method, Object... args) { try {
if (o == null) return null;
if (o instanceof Class) {
Class c = (Class) o;
_MethodCache cache = callOpt_getCache(c);
Method me = cache.findStaticMethod(method, args);
if (me != null)
return invokeMethod(me, null, args);
// try varargs
List methods = cache.cache.get(method);
if (methods != null) methodSearch: for (Method m : methods) {
{ if (!(m.isVarArgs())) continue; }
{ if (!(isStaticMethod(m))) continue; }
Object[] newArgs = massageArgsForVarArgsCall(m, args);
if (newArgs != null)
return invokeMethod(m, null, newArgs);
}
throw fail("Method " + c.getName() + "." + method + "(" + joinWithComma(classNames(args)) + ") not found");
} else {
Class c = o.getClass();
_MethodCache cache = callOpt_getCache(c);
Method me = cache.findMethod(method, args);
if (me != null)
return invokeMethod(me, o, args);
// try varargs
List methods = cache.cache.get(method);
if (methods != null) methodSearch: for (Method m : methods) {
{ if (!(m.isVarArgs())) continue; }
Object[] newArgs = massageArgsForVarArgsCall(m, args);
if (newArgs != null)
return invokeMethod(m, o, newArgs);
}
throw fail("Method " + c.getName() + "." + method + "(" + joinWithComma(classNames(args)) + ") not found");
}
} catch (Exception __e) { throw rethrow(__e); } }
static volatile StringBuffer local_log = new StringBuffer(); // not redirected
static volatile Appendable print_log = local_log; // might be redirected, e.g. to main bot
// in bytes - will cut to half that
static volatile int print_log_max = 1024*1024;
static volatile int local_log_max = 100*1024;
static boolean print_silent = false; // total mute if set
static Object print_byThread_lock = new Object();
static volatile ThreadLocal print_byThread; // special handling by thread - prefers F1
static volatile Object print_allThreads;
static volatile Object print_preprocess;
static void print() {
print("");
}
static A print(String s, A o) {
print(combinePrintParameters(s, o));
return o;
}
// slightly overblown signature to return original object...
static A print(A o) {
ping_okInCleanUp();
if (print_silent) return o;
String s = o + "\n";
print_noNewLine(s);
return o;
}
static void print_noNewLine(String s) {
try {
Object f = getThreadLocal(print_byThread_dontCreate());
if (f == null) f = print_allThreads;
if (f != null)
// We do need the general callF machinery here as print_byThread is sometimes shared between modules
if (isFalse(
f instanceof F1 ? ((F1) f).get(s) :
callF(f, s))) return;
} catch (Throwable e) {
System.out.println(getStackTrace(e));
}
print_raw(s);
}
static void print_raw(String s) {
if (print_preprocess != null) s = (String) callF(print_preprocess, s);
s = fixNewLines(s);
Appendable loc = local_log;
Appendable buf = print_log;
int loc_max = print_log_max;
if (buf != loc && buf != null) {
print_append(buf, s, print_log_max);
loc_max = local_log_max;
}
if (loc != null)
print_append(loc, s, loc_max);
System.out.print(s);
vmBus_send("printed", mc(), s);
}
static void print_autoRotate() {
}
static AutoCloseable tempInterceptPrintIfNotIntercepted(F1 f) {
return print_byThread().get() == null ? tempInterceptPrint(f) : null;
}
static IterableIterator countIterator_inclusive(final int a, final int b) {
return countIterator_exclusive(a, b+1);
}
static IterableIterator countIterator_inclusive(int a, int b, IF1 f) { return countIterator_inclusive(a, b, 1, f); }
static IterableIterator countIterator_inclusive(int a, int b, int step, IF1 f) {
return countIterator_inclusive_step(a, b, 1, f);
}
static IterableIterator countIterator_inclusive(double a, double b, double step, IF1 f) {
return countIterator_inclusive_step(a, b, step, f);
}
static IterableIterator countIterator_inclusive_step(int a, final int b, int step) {
assertTrue("step > 0", step > 0);
return new IterableIterator() {
int i = a;
public boolean hasNext() { return i <= b; }
public Integer next() { var j = i; i += step; return j; }
};
}
static IterableIterator countIterator_inclusive_step(double a, double b, double step) {
assertTrue("step > 0", step > 0);
return new IterableIterator() {
double i = a;
public boolean hasNext() { return i <= b; }
public Double next() { var j = i; i += step; return j; }
};
}
static IterableIterator countIterator_inclusive_step(double a, double b, double step, IF1 f) {
return mapI_if1(f, countIterator_inclusive_step(a, b, step));
}
static IterableIterator countIterator_inclusive_step(int a, int b, int step, IF1 f) {
return mapI_if1(f, countIterator_inclusive_step(a, b, step));
}
static double nthRoot(int n, double x) {
return Math.pow(x, 1.0/n);
}
static List _registerWeakMap_preList;
static A _registerWeakMap(A map) {
if (javax() == null) {
// We're in class init
if (_registerWeakMap_preList == null) _registerWeakMap_preList = synchroList();
_registerWeakMap_preList.add(map);
return map;
}
try {
call(javax(), "_registerWeakMap", map);
} catch (Throwable e) {
printException(e);
print("Upgrade JavaX!!");
}
return map;
}
static void _onLoad_registerWeakMap() {
assertNotNull(javax());
if (_registerWeakMap_preList == null) return;
for (Object o : _registerWeakMap_preList)
_registerWeakMap(o);
_registerWeakMap_preList = null;
}
static Map synchroMap() {
return synchroHashMap();
}
static Map synchroMap(Map map) {
return Collections.synchronizedMap(map);
}
static x30_pkg.x30_util.BetterThreadLocal newPing_actionTL;
static x30_pkg.x30_util.BetterThreadLocal newPing_actionTL() {
if (newPing_actionTL == null)
newPing_actionTL = vm_generalMap_getOrCreate("newPing_actionTL",
() -> new x30_pkg.x30_util.BetterThreadLocal());
return newPing_actionTL;
}
static int isAndroid_flag;
static boolean isAndroid() {
if (isAndroid_flag == 0)
isAndroid_flag = System.getProperty("java.vendor").toLowerCase().indexOf("android") >= 0 ? 1 : -1;
return isAndroid_flag > 0;
}
static Boolean isHeadless_cache;
static boolean isHeadless() {
if (isHeadless_cache != null) return isHeadless_cache;
if (isAndroid()) return isHeadless_cache = true;
if (GraphicsEnvironment.isHeadless()) return isHeadless_cache = true;
// Also check if AWT actually works.
// If DISPLAY variable is set but no X server up, this will notice.
try {
SwingUtilities.isEventDispatchThread();
return isHeadless_cache = false;
} catch (Throwable e) { return isHeadless_cache = true; }
}
static void assertTrue(Object o) {
if (!(eq(o, true) /*|| isTrue(pcallF(o))*/))
throw fail(str(o));
}
static boolean assertTrue(String msg, boolean b) {
if (!b)
throw fail(msg);
return b;
}
static boolean assertTrue(boolean b) {
if (!b)
throw fail("oops");
return b;
}
static volatile boolean licensed_yes = true;
static boolean licensed() {
if (!licensed_yes) return false;
ping_okInCleanUp();
return true;
}
static void licensed_off() {
licensed_yes = false;
}
static List _registerDangerousWeakMap_preList;
static A _registerDangerousWeakMap(A map) {
return _registerDangerousWeakMap(map, null);
}
static A _registerDangerousWeakMap(A map, Object init) {
callF(init, map);
if (init instanceof String) {
final String f = (String) init;
init = new VF1() { public void get(Map map) { try { callMC(f, map) ; } catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "callMC(f, map)"; }};
}
if (javax() == null) {
// We're in class init
if (_registerDangerousWeakMap_preList == null) _registerDangerousWeakMap_preList = synchroList();
_registerDangerousWeakMap_preList.add(pair(map, init));
return map;
}
call(javax(), "_registerDangerousWeakMap", map, init);
return map;
}
static void _onLoad_registerDangerousWeakMap() {
assertNotNull(javax());
if (_registerDangerousWeakMap_preList == null) return;
for (Pair p : _registerDangerousWeakMap_preList)
_registerDangerousWeakMap(p.a, p.b);
_registerDangerousWeakMap_preList = null;
}
static Class mc() {
return main.class;
}
static Throwable getExceptionCause(Throwable e) {
Throwable c = e.getCause();
return c != null ? c : e;
}
static String joinWithSpace(Iterable c) {
return join(" ", c);
}
static String joinWithSpace(String... c) {
return join(" ", c);
}
static List classNames(Collection l) {
return getClassNames(l);
}
static List classNames(Object[] l) {
return getClassNames(Arrays.asList(l));
}
static boolean isInstanceX(Class type, Object arg) {
if (type == boolean.class) return arg instanceof Boolean;
if (type == int.class) return arg instanceof Integer;
if (type == long.class) return arg instanceof Long;
if (type == float.class) return arg instanceof Float;
if (type == short.class) return arg instanceof Short;
if (type == char.class) return arg instanceof Character;
if (type == byte.class) return arg instanceof Byte;
if (type == double.class) return arg instanceof Double;
return type.isInstance(arg);
}
static void vmBus_send(String msg, Object... args) {
Object arg = vmBus_wrapArgs(args);
pcallFAll_minimalExceptionHandling(vm_busListeners_live(), msg, arg);
pcallFAll_minimalExceptionHandling(vm_busListenersByMessage_live().get(msg), msg, arg);
}
static void vmBus_send(String msg) {
vmBus_send(msg, (Object) null);
}
static List immutableEmptyList() {
return Collections.emptyList();
}
static int[] emptyIntArray_a = new int[0];
static int[] emptyIntArray() { return emptyIntArray_a; }
static char[] emptyCharArray = new char[0];
static char[] emptyCharArray() { return emptyCharArray; }
static double[] emptyDoubleArray = new double[0];
static double[] emptyDoubleArray() { return emptyDoubleArray; }
static short[] emptyShortArray = new short[0];
static short[] emptyShortArray() { return emptyShortArray; }
static Map immutableEmptyMap() {
return Collections.emptyMap();
}
static Object[] emptyObjectArray_a = new Object[0];
static Object[] emptyObjectArray() { return emptyObjectArray_a; }
static Symbol emptySymbol_value;
static Symbol emptySymbol() {
if (emptySymbol_value == null) emptySymbol_value = symbol("");
return emptySymbol_value;
}
static Runnable addThreadInfoToRunnable(final Object r) {
final Object info = _threadInfo();
return info == null ? asRunnable(r) : new Runnable() { public void run() { try { _inheritThreadInfo(info); callF(r);
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "_inheritThreadInfo(info); callF(r);"; }};
}
static Object vm_generalMap_get(Object key) {
return vm_generalMap().get(key);
}
static Object callOpt_withVarargs(Object o, String method, Object... args) { try {
if (o == null) return null;
if (o instanceof Class) {
Class c = (Class) o;
_MethodCache cache = callOpt_getCache(c);
Method me = cache.findMethod(method, args);
if (me == null) {
// TODO: varargs
return null;
}
if ((me.getModifiers() & Modifier.STATIC) == 0)
return null;
return invokeMethod(me, null, args);
} else {
Class c = o.getClass();
_MethodCache cache = callOpt_getCache(c);
Method me = cache.findMethod(method, args);
if (me != null)
return invokeMethod(me, o, args);
// try varargs
List methods = cache.cache.get(method);
if (methods != null) methodSearch: for (Method m : methods) {
{ if (!(m.isVarArgs())) continue; }
Object[] newArgs = massageArgsForVarArgsCall(m, args);
if (newArgs != null)
return invokeMethod(m, o, newArgs);
}
return null;
}
} catch (Exception __e) { throw rethrow(__e); } }
static A swingConstruct(final Class c, final Object... args) {
return swing(new F0 () { public A get() { try { return nuObject(c, args); } catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "ret nuObject(c, args);"; }});
}
static Class javax() {
return getJavaX();
}
static int toInt(Object o) {
if (o == null) return 0;
if (o instanceof Number)
return ((Number) o).intValue();
if (o instanceof String)
return parseInt((String) o);
if (o instanceof Boolean)
return boolToInt((Boolean) o);
throw fail("woot not int: " + getClassName(o));
}
static int toInt(long l) {
if (l != (int) l) throw fail("Too large for int: " + l);
return (int) l;
}
public static String join(String glue, Iterable strings) {
if (strings == null) return "";
if (strings instanceof Collection) {
if (((Collection) strings).size() == 1) return str(first((Collection) strings));
}
StringBuilder buf = new StringBuilder();
Iterator i = strings.iterator();
if (i.hasNext()) {
buf.append(i.next());
while (i.hasNext())
buf.append(glue).append(i.next());
}
return buf.toString();
}
public static String join(String glue, String... strings) {
return join(glue, Arrays.asList(strings));
}
static String join(Iterable strings) {
return join("", strings);
}
static String join(Iterable strings, String glue) {
return join(glue, strings);
}
public static String join(String[] strings) {
return join("", strings);
}
static String join(String glue, Pair p) {
return p == null ? "" : str(p.a) + glue + str(p.b);
}
static final Map callOpt_cache = newDangerousWeakHashMap();
static Object callOpt_cached(Object o, String methodName, Object... args) { try {
if (o == null) return null;
if (o instanceof Class) {
Class c = (Class) o;
_MethodCache cache = callOpt_getCache(c);
// TODO: (super-rare) case where method exists static and non-static
// with different args
Method me = cache.findMethod(methodName, args);
if (me == null || (me.getModifiers() & Modifier.STATIC) == 0) return null;
return invokeMethod(me, null, args);
} else {
Class c = o.getClass();
_MethodCache cache = callOpt_getCache(c);
Method me = cache.findMethod(methodName, args);
if (me == null) return null;
return invokeMethod(me, o, args);
}
} catch (Exception __e) { throw rethrow(__e); } }
// no longer synchronizes! (see #1102990)
static _MethodCache callOpt_getCache(Class c) {
_MethodCache cache = callOpt_cache.get(c);
if (cache == null)
callOpt_cache.put(c, cache = new _MethodCache(c));
return cache;
}
static boolean isStaticMethod(Method m) {
return methodIsStatic(m);
}
static Object[] massageArgsForVarArgsCall(Method m, Object[] args) {
Class>[] types = m.getParameterTypes();
int n = types.length-1, nArgs = args.length;
if (nArgs < n) return null;
for (int i = 0; i < n; i++)
if (!argumentCompatibleWithType(args[i], types[i]))
return null;
Class varArgType = types[n].getComponentType();
for (int i = n; i < nArgs; i++)
if (!argumentCompatibleWithType(args[i], varArgType))
return null;
Object[] newArgs = new Object[n+1];
arraycopy(args, 0, newArgs, 0, n);
Object[] varArgs = arrayOfType(varArgType, nArgs-n);
arraycopy(args, n, varArgs, 0, nArgs-n);
newArgs[n] = varArgs;
return newArgs;
}
static String combinePrintParameters(String s, Object o) {
return (endsWithLetterOrDigit(s) ? s + ": " : s) + o;
}
static void ping_okInCleanUp() {
if (ping_pauseAll || ping_anyActions)
ping_impl(true);
}
// this syntax should be removed...
static Object getThreadLocal(Object o, String name) {
ThreadLocal t = (ThreadLocal) (getOpt(o, name));
return t != null ? t.get() : null;
}
static A getThreadLocal(ThreadLocal tl) {
return tl == null ? null : tl.get();
}
static A getThreadLocal(ThreadLocal tl, A defaultValue) {
return or(getThreadLocal(tl), defaultValue);
}
static ThreadLocal print_byThread_dontCreate() {
return print_byThread;
}
static boolean isFalse(Object o) {
return eq(false, o);
}
static String getStackTrace(Throwable throwable) {
lastException(throwable);
return getStackTrace_noRecord(throwable);
}
static String getStackTrace_noRecord(Throwable throwable) {
StringWriter writer = new StringWriter();
throwable.printStackTrace(new PrintWriter(writer));
return hideCredentials(writer.toString());
}
static String getStackTrace() {
return getStackTrace_noRecord(new Throwable());
}
static String getStackTrace(String msg) {
return getStackTrace_noRecord(new Throwable(msg));
}
static String fixNewLines(String s) {
int i = indexOf(s, '\r');
if (i < 0) return s;
int l = s.length();
StringBuilder out = new StringBuilder(l);
out.append(s, 0, i);
for (; i < l; i++) {
char c = s.charAt(i);
if (c != '\r')
out.append(c);
else {
out.append('\n');
if (i+1 < l && s.charAt(i+1) == '\n') ++i;
}
}
return out.toString();
}
static void print_append(Appendable buf, String s, int max) { try {
synchronized(buf) {
buf.append(s);
if (buf instanceof StringBuffer)
rotateStringBuffer(((StringBuffer) buf), max);
else if (buf instanceof StringBuilder)
rotateStringBuilder(((StringBuilder) buf), max);
}
} catch (Exception __e) { throw rethrow(__e); } }
static ThreadLocal print_byThread() {
synchronized(print_byThread_lock) {
if (print_byThread == null)
print_byThread = new ThreadLocal();
}
return print_byThread;
}
// f can return false to suppress regular printing
// call print_raw within f to actually print something
static AutoCloseable tempInterceptPrint(F1 f) {
return tempSetThreadLocal(print_byThread(), f);
}
static IterableIterator countIterator_exclusive(int b) { return countIterator_exclusive(0, b); }
static IterableIterator countIterator_exclusive(int a, int b) {
return new IterableIterator() {
int i = a;
public boolean hasNext() { return i < b; }
public Integer next() { return i++; }
};
}
static IterableIterator countIterator_exclusive(int b, IF1 f) { return countIterator_exclusive(0, b, f); }
static IterableIterator countIterator_exclusive(int a, int b, IF1 f) {
return mapI_if1(f, countIterator_exclusive(a, b));
}
static class mapI_if1_It extends IterableIterator {
IF1 f;
Iterator i;
mapI_if1_It() {}
mapI_if1_It(IF1 f, Iterator i) {
this.i = i;
this.f = f;}
public boolean hasNext() {
return i.hasNext();
}
public B next() {
return f.get(i.next());
}
public String toString() {
return formatFunctionCall("mapI_if1", f, i);
}
}
static IterableIterator mapI_if1(IF1 f, Iterable i) {
return new mapI_if1_It(f, i.iterator());
}
static IterableIterator mapI_if1(Iterable i, IF1 f) {
return mapI_if1(f, i);
}
static List synchroList() {
return synchroList(new ArrayList ());
}
static List synchroList(List l) {
return Collections.synchronizedList(l);
}
static A printException(A e) {
printStackTrace(e);
return e;
}
static A assertNotNull(A a) {
assertTrue(a != null);
return a;
}
static A assertNotNull(String msg, A a) {
assertTrue(msg, a != null);
return a;
}
static Map synchroHashMap() {
return synchronizedMap(new HashMap());
}
static A vm_generalMap_getOrCreate(Object key, F0 create) {
return vm_generalMap_getOrCreate(key, f0ToIF0(create));
}
static A vm_generalMap_getOrCreate(Object key, IF0 create) {
Map generalMap = vm_generalMap();
if (generalMap == null) return null; // must be x30 init
synchronized(generalMap) { // should switch to locks here
A a = (A) (vm_generalMap_get(key));
if (a == null)
vm_generalMap_put(key, a = create == null ? null : create.get());
return a;
}
}
static HashMap> callMC_cache = new HashMap();
static String callMC_key;
static Method callMC_value;
// varargs assignment fixer for a single string array argument
static Object callMC(String method, String[] arg) {
return callMC(method, new Object[] {arg});
}
static Object callMC(String method, Object... args) { try {
Method me;
if (callMC_cache == null) callMC_cache = new HashMap(); // initializer time workaround
synchronized(callMC_cache) {
me = method == callMC_key ? callMC_value : null;
}
if (me != null) try {
return invokeMethod(me, null, args);
} catch (IllegalArgumentException e) {
throw new RuntimeException("Can't call " + me + " with arguments " + classNames(args), e);
}
List m;
synchronized(callMC_cache) {
m = callMC_cache.get(method);
}
if (m == null) {
if (callMC_cache.isEmpty()) {
callMC_makeCache();
m = callMC_cache.get(method);
}
if (m == null) throw fail("Method named " + method + " not found in main");
}
int n = m.size();
if (n == 1) {
me = m.get(0);
synchronized(callMC_cache) {
callMC_key = method;
callMC_value = me;
}
try {
return invokeMethod(me, null, args);
} catch (IllegalArgumentException e) {
throw new RuntimeException("Can't call " + me + " with arguments " + classNames(args), e);
}
}
for (int i = 0; i < n; i++) {
me = m.get(i);
if (call_checkArgs(me, args, false))
return invokeMethod(me, null, args);
}
throw fail("No method called " + method + " with arguments (" + joinWithComma(getClasses(args)) + ") found in main");
} catch (Exception __e) { throw rethrow(__e); } }
static void callMC_makeCache() {
synchronized(callMC_cache) {
callMC_cache.clear();
Class _c = (Class) mc(), c = _c;
while (c != null) {
for (Method m : c.getDeclaredMethods())
if ((m.getModifiers() & java.lang.reflect.Modifier.STATIC) != 0) {
makeAccessible(m);
multiMapPut(callMC_cache, m.getName(), m);
}
c = c.getSuperclass();
}
}
}
static Pair pair(A a, B b) {
return new Pair(a, b);
}
static Pair pair(A a) {
return new Pair(a, a);
}
static List getClassNames(Collection l) {
List out = new ArrayList();
if (l != null) for (Object o : l)
out.add(o == null ? null : getClassName(o));
return out;
}
static Object vmBus_wrapArgs(Object... args) {
return empty(args) ? null
: l(args) == 1 ? args[0]
: args;
}
static void pcallFAll_minimalExceptionHandling(Collection l, Object... args) {
if (l != null) for (Object f : cloneList(l)) { ping(); pcallF_minimalExceptionHandling(f, args); }
}
static void pcallFAll_minimalExceptionHandling(Iterator it, Object... args) {
while (it.hasNext()) { ping(); pcallF_minimalExceptionHandling(it.next(), args); }
}
static Set vm_busListeners_live_cache;
static Set vm_busListeners_live() { if (vm_busListeners_live_cache == null) vm_busListeners_live_cache = vm_busListeners_live_load(); return vm_busListeners_live_cache; }
static Set vm_busListeners_live_load() {
return vm_generalIdentityHashSet("busListeners");
}
static Map vm_busListenersByMessage_live_cache;
static Map vm_busListenersByMessage_live() { if (vm_busListenersByMessage_live_cache == null) vm_busListenersByMessage_live_cache = vm_busListenersByMessage_live_load(); return vm_busListenersByMessage_live_cache; }
static Map vm_busListenersByMessage_live_load() {
return vm_generalHashMap("busListenersByMessage");
}
static WeakHasherMap symbol_map = new WeakHasherMap(new Hasher() {
public int hashCode(Symbol symbol) { return symbol.text.hashCode(); }
public boolean equals(Symbol a, Symbol b) {
if (a == null) return b == null;
return b != null && eq(a.text, b.text);
}
});
static Symbol symbol(String s) {
if (s == null) return null;
synchronized(symbol_map) {
// TODO: avoid object creation by passing the string to findKey
Symbol symbol = new Symbol(s, true);
Symbol existingSymbol = symbol_map.findKey(symbol);
if (existingSymbol == null)
symbol_map.put(existingSymbol = symbol, true);
return existingSymbol;
}
}
static Symbol symbol(CharSequence s) {
if (s == null) return null;
if (s instanceof Symbol) return (Symbol) s;
if (s instanceof String) return symbol((String) s);
return symbol(str(s));
}
static Symbol symbol(Object o) {
return symbol((CharSequence) o);
}
static List> _threadInfo_makers = synchroList();
static Object _threadInfo() {
if (empty(_threadInfo_makers)) return null;
HashMap map = new HashMap();
pcallFAll(_threadInfo_makers, map);
return map;
}
static Runnable asRunnable(Object o) {
return toRunnable(o);
}
static void _inheritThreadInfo(Object info) {
_threadInheritInfo(info);
}
static Map vm_generalMap_map;
static Map vm_generalMap() {
if (vm_generalMap_map == null)
vm_generalMap_map = (Map) get(javax(), "generalMap");
return vm_generalMap_map;
}
static Object nuObject(String className, Object... args) { try {
return nuObject(classForName(className), args);
} catch (Exception __e) { throw rethrow(__e); } }
// too ambiguous - maybe need to fix some callers
/*static O nuObject(O realm, S className, O... args) {
ret nuObject(_getClass(realm, className), args);
}*/
static A nuObject(Class c, Object... args) { try {
if (args.length == 0) return nuObjectWithoutArguments(c); // cached!
Constructor m = nuObject_findConstructor(c, args);
makeAccessible(m);
return (A) m.newInstance(args);
} catch (Exception __e) { throw rethrow(__e); } }
static Constructor nuObject_findConstructor(Class c, Object... args) {
for (Constructor m : c.getDeclaredConstructors()) {
if (!nuObject_checkArgs(m.getParameterTypes(), args, false))
continue;
return m;
}
throw fail("Constructor " + c.getName() + getClasses(args) + " not found"
+ (args.length == 0 && (c.getModifiers() & java.lang.reflect.Modifier.STATIC) == 0 ? " - hint: it's a non-static class!" : ""));
}
static boolean nuObject_checkArgs(Class[] types, Object[] args, boolean debug) {
if (types.length != args.length) {
if (debug)
System.out.println("Bad parameter length: " + args.length + " vs " + types.length);
return false;
}
for (int i = 0; i < types.length; i++)
if (!(args[i] == null || isInstanceX(types[i], args[i]))) {
if (debug)
System.out.println("Bad parameter " + i + ": " + args[i] + " vs " + types[i]);
return false;
}
return true;
}
static Class __javax;
static Class getJavaX() { try {
return __javax;
} catch (Exception __e) { throw rethrow(__e); } }
static int parseInt(String s) {
return emptyString(s) ? 0 : Integer.parseInt(s);
}
static int parseInt(char c) {
return Integer.parseInt(str(c));
}
static int boolToInt(boolean b) {
return b ? 1 : 0;
}
static boolean methodIsStatic(Method m) {
return (m.getModifiers() & Modifier.STATIC) != 0;
}
static boolean argumentCompatibleWithType(Object arg, Class type) {
return arg == null ? !type.isPrimitive() : isInstanceX(type, arg);
}
static void arraycopy(Object[] a, Object[] b) {
if (a != null && b != null)
arraycopy(a, 0, b, 0, Math.min(a.length, b.length));
}
static void arraycopy(Object src, int srcPos, Object dest, int destPos, int n) {
if (n != 0)
System.arraycopy(src, srcPos, dest, destPos, n);
}
static A[] arrayOfType(Class type, int n) {
return makeArray(type, n);
}
static A[] arrayOfType(int n, Class type) {
return arrayOfType(type, n);
}
static boolean endsWithLetterOrDigit(String s) {
return s != null && s.length() > 0 && Character.isLetterOrDigit(s.charAt(s.length()-1));
}
static Object getOpt(Object o, String field) {
return getOpt_cached(o, field);
}
static Object getOpt(String field, Object o) {
return getOpt_cached(o, field);
}
static Object getOpt_raw(Object o, String field) { try {
Field f = getOpt_findField(o.getClass(), field);
if (f == null) return null;
makeAccessible(f);
return f.get(o);
} catch (Exception __e) { throw rethrow(__e); } }
// access of static fields is not yet optimized
static Object getOpt(Class c, String field) { try {
if (c == null) return null;
Field f = getOpt_findStaticField(c, field);
if (f == null) return null;
makeAccessible(f);
return f.get(null);
} catch (Exception __e) { throw rethrow(__e); } }
static Field getOpt_findStaticField(Class> c, String field) {
Class _c = c;
do {
for (Field f : _c.getDeclaredFields())
if (f.getName().equals(field) && (f.getModifiers() & java.lang.reflect.Modifier.STATIC) != 0)
return f;
_c = _c.getSuperclass();
} while (_c != null);
return null;
}
static A or(A a, A b) {
return a != null ? a : b;
}
// PersistableThrowable doesn't hold GC-disturbing class references in backtrace
static volatile PersistableThrowable lastException_lastException;
static PersistableThrowable lastException() {
return lastException_lastException;
}
static void lastException(Throwable e) {
lastException_lastException = persistableThrowable(e);
}
static String hideCredentials(URL url) { return url == null ? null : hideCredentials(str(url)); }
static String hideCredentials(String url) {
try {
if (startsWithOneOf(url, "http://", "https://") && isAGIBlueDomain(hostNameFromURL(url))) return url;
} catch (Throwable e) {
print("HideCredentials", e);
}
return url.replaceAll("([&?])(_pass|key|cookie)=[^&\\s\"]*", "$1$2=");
}
static String hideCredentials(Object o) {
return hideCredentials(str(o));
}
static int indexOf(List l, A a, int startIndex) {
if (l == null) return -1;
int n = l(l);
for (int i = startIndex; i < n; i++)
if (eq(l.get(i), a))
return i;
return -1;
}
static int indexOf(List l, int startIndex, A a) {
return indexOf(l, a, startIndex);
}
static int indexOf(List l, A a) {
if (l == null) return -1;
return l.indexOf(a);
}
static int indexOf(String a, String b) {
return a == null || b == null ? -1 : a.indexOf(b);
}
static int indexOf(String a, String b, int i) {
return a == null || b == null ? -1 : a.indexOf(b, i);
}
static int indexOf(String a, char b) {
return a == null ? -1 : a.indexOf(b);
}
static int indexOf(String a, int i, char b) {
return indexOf(a, b, i);
}
static int indexOf(String a, char b, int i) {
return a == null ? -1 : a.indexOf(b, i);
}
static int indexOf(String a, int i, String b) {
return a == null || b == null ? -1 : a.indexOf(b, i);
}
static int indexOf(A[] x, A a) {
int n = l(x);
for (int i = 0; i < n; i++)
if (eq(x[i], a))
return i;
return -1;
}
static void rotateStringBuffer(StringBuffer buf, int max) { try {
if (buf == null) return;
synchronized(buf) {
if (buf.length() <= max) return;
try {
int newLength = max/2;
int ofs = buf.length()-newLength;
String newString = buf.substring(ofs);
buf.setLength(0);
buf.append("[...] ").append(newString);
} catch (Exception e) {
buf.setLength(0);
}
buf.trimToSize();
}
} catch (Exception __e) { throw rethrow(__e); } }
static void rotateStringBuilder(StringBuilder buf, int max) { try {
if (buf == null) return;
synchronized(buf) {
if (buf.length() <= max) return;
try {
int newLength = max/2;
int ofs = buf.length()-newLength;
String newString = buf.substring(ofs);
buf.setLength(0);
buf.append("[...] ").append(newString);
} catch (Exception e) {
buf.setLength(0);
}
buf.trimToSize();
}
} catch (Exception __e) { throw rethrow(__e); } }
static AutoCloseable tempSetThreadLocal(final ThreadLocal tl, A a) {
if (tl == null) return null;
final A prev = setThreadLocal(tl, a);
return new AutoCloseable() { public String toString() { return "tl.set(prev);"; } public void close() throws Exception { tl.set(prev); }};
}
static String formatFunctionCall(String fname, Object... args) {
return fname + "(" + joinWithComma(allToString(args)) + ")";
}
static String formatFunctionCall(String fname, List args) {
return formatFunctionCall(fname, toObjectArray(args));
}
static A printStackTrace(A e) {
// we go to system.out now - system.err is nonsense
print(getStackTrace(e));
return e;
}
static void printStackTrace() {
printStackTrace(new Throwable());
}
static void printStackTrace(String msg) {
printStackTrace(new Throwable(msg));
}
static void printStackTrace(String msg, Throwable e) {
printStackTrace(new Throwable(msg, e));
}
static Map synchronizedMap() {
return synchroMap();
}
static Map synchronizedMap(Map map) {
return synchroMap(map);
}
static IF0 f0ToIF0(F0 f) {
return f == null ? null : () -> f.get();
}
static Object vm_generalMap_put(Object key, Object value) {
return mapPutOrRemove(vm_generalMap(), key, value);
}
static List getClasses(Object[] array) {
List l = emptyList(l(array));
for (Object o : array) l.add(_getClass(o));
return l;
}
static void multiMapPut(Map > map, A a, B b) {
List l = map.get(a);
if (l == null)
map.put(a, l = new ArrayList());
l.add(b);
}
static ArrayList cloneList(Iterable l) {
return l instanceof Collection ? cloneList((Collection) l) : asList(l);
}
static ArrayList cloneList(Collection l) {
if (l == null) return new ArrayList();
synchronized(collectionMutex(l)) {
return new ArrayList (l);
}
}
static Object pcallF_minimalExceptionHandling(Object f, Object... args) {
try {
return callFunction(f, args);
} catch (Throwable e) {
System.out.println(getStackTrace(e));
_storeException(e);
}
return null;
}
static Set vm_generalIdentityHashSet(Object name) {
synchronized(get(javax(), "generalMap")) {
Set set = (Set) (vm_generalMap_get(name));
if (set == null)
vm_generalMap_put(name, set = syncIdentityHashSet());
return set;
}
}
static Map vm_generalHashMap(Object name) {
synchronized(get(javax(), "generalMap")) {
Map m = (Map) (vm_generalMap_get(name));
if (m == null)
vm_generalMap_put(name, m = syncHashMap());
return m;
}
}
static void pcallFAll(Collection l, Object... args) {
if (l != null) for (Object f : cloneList(l)) pcallF(f, args);
}
static void pcallFAll(Iterator it, Object... args) {
while (it.hasNext()) pcallF(it.next(), args);
}
static Runnable toRunnable(final Object o) {
if (o instanceof Runnable) return (Runnable) o;
return new Runnable() { public void run() { try { callF(o) ;
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "callF(o)"; }};
}
static List> _threadInheritInfo_retrievers = synchroList();
static void _threadInheritInfo(Object info) {
if (info == null) return;
pcallFAll(_threadInheritInfo_retrievers, (Map) info);
}
static Map classForName_cache = synchroHashMap();
static Class classForName(String name) { return classForName(name, null); }
static Class classForName(String name, Object classFinder) {
// first clause is when we're in class init
if (classForName_cache == null || classFinder != null)
return classForName_uncached(name, classFinder);
Class c = classForName_cache.get(name);
if (c == null)
classForName_cache.put(name, c = classForName_uncached(name, null));
return c;
}
static Class classForName_uncached(String name, Object classFinder) { try {
if (classFinder != null) return (Class) callF(classFinder, name);
return Class.forName(name);
} catch (Exception __e) { throw rethrow(__e); } }
static Map nuObjectWithoutArguments_cache = newDangerousWeakHashMap();
static Object nuObjectWithoutArguments(String className) { try {
return nuObjectWithoutArguments(classForName(className));
} catch (Exception __e) { throw rethrow(__e); } }
static A nuObjectWithoutArguments(Class c) { try {
if (nuObjectWithoutArguments_cache == null)
// in class init
return (A) nuObjectWithoutArguments_findConstructor(c).newInstance();
Constructor m = nuObjectWithoutArguments_cache.get(c);
if (m == null)
nuObjectWithoutArguments_cache.put(c, m = nuObjectWithoutArguments_findConstructor(c));
return (A) m.newInstance();
} catch (Exception __e) { throw rethrow(__e); } }
static Constructor nuObjectWithoutArguments_findConstructor(Class c) {
for (Constructor m : c.getDeclaredConstructors())
if (empty(m.getParameterTypes())) {
makeAccessible(m);
return m;
}
throw fail("No default constructor found in " + c.getName());
}
static boolean emptyString(String s) {
return s == null || s.length() == 0;
}
static A[] makeArray(Class type, int n) {
return (A[]) Array.newInstance(type, n);
}
//static final Map> getOpt_cache = newDangerousWeakHashMap(f getOpt_special_init);
static class getOpt_Map extends WeakHashMap {
getOpt_Map() {
if (getOpt_special == null) getOpt_special = new HashMap();
clear();
}
public void clear() {
super.clear();
//print("getOpt clear");
put(Class.class, getOpt_special);
put(String.class, getOpt_special);
}
}
static final Map> getOpt_cache = _registerDangerousWeakMap(synchroMap(new getOpt_Map()));
//static final Map> getOpt_cache = _registerWeakMap(synchroMap(new getOpt_Map));
static HashMap getOpt_special; // just a marker
/*static void getOpt_special_init(Map map) {
map.put(Class.class, getOpt_special);
map.put(S.class, getOpt_special);
}*/
static Map getOpt_getFieldMap(Object o) {
Class c = _getClass(o);
HashMap map = getOpt_cache.get(c);
if (map == null)
map = getOpt_makeCache(c);
return map;
}
static Object getOpt_cached(Object o, String field) { try {
if (o == null) return null;
Map map = getOpt_getFieldMap(o);
if (map == getOpt_special) {
if (o instanceof Class)
return getOpt((Class) o, field);
/*if (o instanceof S)
ret getOpt(getBot((S) o), field);*/
if (o instanceof Map)
return ((Map) o).get(field);
}
Field f = map.get(field);
if (f != null) return f.get(o);
if (o instanceof DynamicObject)
return syncMapGet2(((DynamicObject) o).fieldValues, field);
return null;
} catch (Exception __e) { throw rethrow(__e); } }
// used internally - we are in synchronized block
static HashMap getOpt_makeCache(Class c) {
HashMap map;
if (isSubtypeOf(c, Map.class))
map = getOpt_special;
else {
map = new HashMap();
if (!reflection_classesNotToScan().contains(c.getName())) {
Class _c = c;
do {
for (Field f : _c.getDeclaredFields()) {
makeAccessible(f);
String name = f.getName();
if (!map.containsKey(name))
map.put(name, f);
}
_c = _c.getSuperclass();
} while (_c != null);
}
}
if (getOpt_cache != null) getOpt_cache.put(c, map);
return map;
}
static PersistableThrowable persistableThrowable(Throwable e) {
return e == null ? null : new PersistableThrowable(e);
}
static boolean startsWithOneOf(String s, String... l) {
for (String x : l) if (startsWith(s, x)) return true; return false;
}
static boolean startsWithOneOf(String s, Matches m, String... l) {
for (String x : l) if (startsWith(s, x, m)) return true; return false;
}
static boolean isAGIBlueDomain(String domain) {
return domainIsUnder(domain, theAGIBlueDomain());
}
static String hostNameFromURL(String url) { try {
return new URL(url).getHost();
} catch (Exception __e) { throw rethrow(__e); } }
static A setThreadLocal(ThreadLocal tl, A value) {
if (tl == null) return null;
A old = tl.get();
tl.set(value);
return old;
}
static List allToString(Iterable c) {
List l = new ArrayList();
for (Object o : unnull(c)) l.add(str(o));
return l;
}
static List allToString(Object[] c) {
List l = new ArrayList();
for (Object o : unnull(c)) l.add(str(o));
return l;
}
// binary legacy signature
static Object[] toObjectArray(Collection c) {
return toObjectArray((Iterable) c);
}
static Object[] toObjectArray(Iterable c) {
List l = asList(c);
return l.toArray(new Object[l.size()]);
}
static B mapPutOrRemove(Map map, A key, B value) {
if (map != null && key != null)
if (value != null) return map.put(key, value);
else return map.remove(key);
return null;
}
static Class> _getClass(String name) {
try {
return Class.forName(name);
} catch (ClassNotFoundException e) {
return null; // could optimize this
}
}
static Class _getClass(Object o) {
return o == null ? null
: o instanceof Class ? (Class) o : o.getClass();
}
static Class _getClass(Object realm, String name) {
try {
return classLoaderForObject(realm).loadClass(classNameToVM(name));
} catch (ClassNotFoundException e) {
return null; // could optimize this
}
}
static Object collectionMutex(List l) {
return l;
}
static Object collectionMutex(Object o) {
if (o instanceof List) return o;
String c = className(o);
if (eq(c, "java.util.TreeMap$KeySet"))
c = className(o = getOpt(o, "m"));
else if (eq(c, "java.util.HashMap$KeySet"))
c = className(o = get_raw(o, "this$0"));
if (eqOneOf(c, "java.util.TreeMap$AscendingSubMap", "java.util.TreeMap$DescendingSubMap"))
c = className(o = get_raw(o, "m"));
return o;
}
static Object callFunction(Object f, Object... args) {
return callF(f, args);
}
static Throwable _storeException_value;
static void _storeException(Throwable e) {
_storeException_value = e;
}
static Set syncIdentityHashSet() {
return (Set) synchronizedSet(identityHashSet());
}
static Map syncHashMap() {
return synchroHashMap();
}
static Object pcallF(Object f, Object... args) {
return pcallFunction(f, args);
}
static A pcallF(F0 f) { try {
return f == null ? null : f.get();
} catch (Throwable __e) { return null; } }
static B pcallF(F1 f, A a) { try {
return f == null ? null : f.get(a);
} catch (Throwable __e) { return null; } }
static void pcallF(VF1 f, A a) {
try {
{ if (f != null) f.get(a); }
} catch (Throwable __e) { printStackTrace(__e); }
}
static A pcallF(IF0 f) { try {
return f == null ? null : f.get();
} catch (Throwable __e) { return null; } }
static B pcallF(IF1 f, A a) { try {
return f == null ? null : f.get(a);
} catch (Throwable __e) { return null; } }
static void clear(Collection c) {
if (c != null) c.clear();
}
static void clear(Map map) {
if (map != null) map.clear();
}
static void put(Map map, A a, B b) {
if (map != null) map.put(a, b);
}
static void put(List l, int i, A a) {
if (l != null && i >= 0 && i < l(l)) l.set(i, a);
}
static B syncMapGet2(Map map, A a) {
if (map == null) return null;
synchronized(collectionMutex(map)) {
return map.get(a);
}
}
static B syncMapGet2(A a, Map map) {
return syncMapGet2(map, a);
}
static boolean isSubtypeOf(Class a, Class b) {
return b.isAssignableFrom(a); // << always hated that method, let's replace it!
}
static Set reflection_classesNotToScan_value = litset(
"jdk.internal.loader.URLClassPath"
);
static Set reflection_classesNotToScan() {
return reflection_classesNotToScan_value;
}
static boolean startsWith(String a, String b) {
return a != null && a.startsWith(unnull(b));
}
static boolean startsWith(String a, char c) {
return nemptyString(a) && a.charAt(0) == c;
}
static boolean startsWith(String a, String b, Matches m) {
if (!startsWith(a, b)) return false;
if (m != null) m.m = new String[] {substring(a, strL(b))};
return true;
}
static boolean startsWith(List a, List b) {
if (a == null || listL(b) > listL(a)) return false;
for (int i = 0; i < listL(b); i++)
if (neq(a.get(i), b.get(i)))
return false;
return true;
}
static boolean domainIsUnder(String domain, String mainDomain) {
return eqic(domain, mainDomain) || ewic(domain, "." + mainDomain);
}
static String theAGIBlueDomain() {
return "agi.blue";
}
static String unnull(String s) {
return s == null ? "" : s;
}
static Collection unnull(Collection l) {
return l == null ? emptyList() : l;
}
static List unnull(List l) { return l == null ? emptyList() : l; }
static int[] unnull(int[] l) { return l == null ? emptyIntArray() : l; }
static char[] unnull(char[] l) { return l == null ? emptyCharArray() : l; }
static double[] unnull(double[] l) { return l == null ? emptyDoubleArray() : l; }
static Map unnull(Map l) {
return l == null ? emptyMap() : l;
}
static Iterable unnull(Iterable i) {
return i == null ? emptyList() : i;
}
static A[] unnull(A[] a) {
return a == null ? (A[]) emptyObjectArray() : a;
}
static BitSet unnull(BitSet b) {
return b == null ? new BitSet() : b;
}
static Pt unnull(Pt p) {
return p == null ? new Pt() : p;
}
//ifclass Symbol
static Symbol unnull(Symbol s) {
return s == null ? emptySymbol() : s;
}
//endif
static Pair unnull(Pair p) {
return p != null ? p : new Pair(null, null);
}
static int unnull(Integer i) { return i == null ? 0 : i; }
static long unnull(Long l) { return l == null ? 0L : l; }
static double unnull(Double l) { return l == null ? 0.0 : l; }
static ClassLoader classLoaderForObject(Object o) {
if (o instanceof ClassLoader) return ((ClassLoader) o);
if (o == null) return null;
return _getClass(o).getClassLoader();
}
// Note: This is actually broken. Inner classes must stay with a $ separator
static String classNameToVM(String name) {
return name.replace(".", "$");
}
static String className(Object o) {
return getClassName(o);
}
static boolean eqOneOf(Object o, Object... l) {
for (Object x : l) if (eq(o, x)) return true; return false;
}
static Set synchronizedSet() {
return synchroHashSet();
}
static Set synchronizedSet(Set set) {
return Collections.synchronizedSet(set);
}
static Set identityHashSet() {
return Collections.newSetFromMap(new IdentityHashMap());
}
static Object pcallFunction(Object f, Object... args) {
try { return callFunction(f, args); } catch (Throwable __e) { printStackTrace(__e); }
return null;
}
static HashSet litset(A... items) {
return lithashset(items);
}
static boolean nemptyString(String s) {
return s != null && s.length() > 0;
}
static String substring(String s, int x) {
return substring(s, x, strL(s));
}
static String substring(String s, int x, int y) {
if (s == null) return null;
if (x < 0) x = 0;
int n = s.length();
if (y < x) y = x;
if (y > n) y = n;
if (x >= y) return "";
return s.substring(x, y);
}
// convenience method for quickly dropping a prefix
static String substring(String s, CharSequence l) {
return substring(s, lCharSequence(l));
}
static int strL(String s) {
return s == null ? 0 : s.length();
}
static int listL(Collection l) {
return l == null ? 0 : l.size();
}
static boolean neq(Object a, Object b) {
return !eq(a, b);
}
static boolean eqic(String a, String b) {
if ((a == null) != (b == null)) return false;
if (a == null) return true;
return a.equalsIgnoreCase(b);
}
static boolean eqic(Symbol a, Symbol b) {
return eq(a, b);
}
static boolean eqic(Symbol a, String b) {
return eqic(asString(a), b);
}
static boolean eqic(char a, char b) {
if (a == b) return true;
char u1 = Character.toUpperCase(a);
char u2 = Character.toUpperCase(b);
if (u1 == u2) return true;
return Character.toLowerCase(u1) == Character.toLowerCase(u2);
}
static boolean ewic(String a, String b) {
return endsWithIgnoreCase(a, b);
}
static boolean ewic(String a, String b, Matches m) {
return endsWithIgnoreCase(a, b, m);
}
static Map emptyMap() {
return new HashMap();
}
// TODO: OurSyncCollections
static Set synchroHashSet() {
return Collections.synchronizedSet(new HashSet ());
}
static HashSet lithashset(A... items) {
HashSet set = new HashSet();
for (A a : items) set.add(a);
return set;
}
static int lCharSequence(CharSequence s) {
return s == null ? 0 : s.length();
}
static String asString(Object o) {
return o == null ? null : o.toString();
}
static boolean endsWithIgnoreCase(String a, String b) {
int la = l(a), lb = l(b);
return la >= lb && regionMatchesIC(a, la-lb, b, 0, lb);
}
static boolean endsWithIgnoreCase(String a, String b, Matches m) {
if (!endsWithIgnoreCase(a, b)) return false;
if (m != null)
m.m = new String[] { substring(a, 0, l(a)-l(b)) };
return true;
}
static boolean regionMatchesIC(String a, int offsetA, String b, int offsetB, int len) {
return a != null && a.regionMatches(true, offsetA, b, offsetB, len);
}
// immutable, has strong refs
// Do not run in a synchronized block - it goes wrong in the presence
// of elaborate classloaders (like in Gazelle BEA)
// see #1102990 and #1102991
final static class _MethodCache {
final Class c;
final HashMap> cache = new HashMap();
_MethodCache(Class c) {
this.c = c; _init(); }
void _init() {
Class _c = c;
while (_c != null) {
for (Method m : _c.getDeclaredMethods())
if (!isAbstract(m) && !reflection_isForbiddenMethod(m))
multiMapPut(cache, m.getName(), makeAccessible(m));
_c = _c.getSuperclass();
}
// add default methods - this might lead to a duplication
// because the overridden method is also added, but it's not
// a problem except for minimal performance loss.
for (Class intf : allInterfacesImplementedBy(c))
for (Method m : intf.getDeclaredMethods())
if (m.isDefault() && !reflection_isForbiddenMethod(m))
multiMapPut(cache, m.getName(), makeAccessible(m));
}
// Returns only matching methods
Method findMethod(String method, Object[] args) { try {
List m = cache.get(method);
if (m == null) return null;
int n = m.size();
for (int i = 0; i < n; i++) {
Method me = m.get(i);
if (call_checkArgs(me, args, false))
return me;
}
return null;
} catch (Exception __e) { throw rethrow(__e); } }
Method findStaticMethod(String method, Object[] args) { try {
List m = cache.get(method);
if (m == null) return null;
int n = m.size();
for (int i = 0; i < n; i++) {
Method me = m.get(i);
if (isStaticMethod(me) && call_checkArgs(me, args, false))
return me;
}
return null;
} catch (Exception __e) { throw rethrow(__e); } }
}
static abstract class VF1 implements IVF1 {
public abstract void get(A a);
}
static interface IF2_Int {
int get(int a, int b);
}
static class Matches {
String[] m;
Matches() {}
Matches(String... m) {
this.m = m;}
String get(int i) { return i < m.length ? m[i] : null; }
String unq(int i) { return unquote(get(i)); }
String tlc(int i) { return unq(i).toLowerCase(); }
boolean bool(int i) { return "true".equals(unq(i)); }
String rest() { return m[m.length-1]; } // for matchStart
int psi(int i) { return Integer.parseInt(unq(i)); }
public String toString() { return "Matches(" + joinWithComma(quoteAll(asList(m))) + ")"; }
public int hashCode() { return _hashCode(toList(m)); }
public boolean equals(Object o) { return o instanceof Matches && arraysEqual(m, ((Matches) o).m); }
}
// for the version with MasterSymbol (used WAY back in "Smart Bot"!) see #1010608
static class Symbol implements CharSequence {
String text;
Symbol() {}
Symbol(String text, boolean dummy) {
this.text = text;} // weird signature to prevent accidental calling
public int hashCode() { return _hashCode(text); }
public String toString() { return text; }
public boolean equals(Object o) {
return this == o;
}
// implementation of CharSequence methods
public int length() { return text.length(); }
public char charAt(int index) { return text.charAt(index); }
public CharSequence subSequence(int start, int end) {
return text.substring(start, end);
}
}
static class Var implements IVar , ISetter {
Var() {}
Var(A v) {
this.v = v;}
A v; // you can access this directly if you use one thread
public synchronized void set(A a) {
if (v != a) {
v = a;
notifyAll();
}
}
public synchronized A get() { return v; }
public synchronized boolean has() { return v != null; }
public synchronized void clear() { v = null; }
public String toString() { return str(this.get()); }
}
interface IQuerySound {
int channels();
double getSample(int channel, double time);
}
static final class BWImage implements MakesBufferedImage, IBWImage {
int width, height;
byte[] pixels;
// color returned when getPixel is called with a position outside the actual image
float borderColor = 0.0f;
// for unstructure()
BWImage() {}
// BLACK!
BWImage(int width, int height) {
this.height = height;
this.width = width;
pixels = new byte[width*height];
}
BWImage(int width, int height, float brightness) {
this.height = height;
this.width = width;
pixels = new byte[width*height];
fillArrayUnlessZero(pixels, _toByte(brightness));
}
BWImage(int width, int height, float[] pixels) {
this.pixels = new byte[pixels.length];
this.height = height;
this.width = width;
for (int i = 0; i < pixels.length; i++)
this.pixels[i] = _toByte(pixels[i]);
}
public BWImage(int width, int height, byte[] pixels) {
this.height = height;
this.width = width;
this.pixels = pixels;
}
public BWImage(BWImage image) {
width = image.getWidth();
height = image.getHeight();
byte[] pixels = this.pixels = new byte[width*height];
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++)
pixels[y*width+x] = image.getByte(x, y);
}
// TODO: optimize!
BWImage(RGBImage image) {
width = image.getWidth();
height = image.getHeight();
byte[] pixels = this.pixels = new byte[height*width];
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++) {
RGB rgb = image.getRGB(x, y);
pixels[y*width+x] = BWImage._toByte(rgb.getBrightness());
}
}
/*public BWImage(BufferedImage image) {
this(new RGBImage(image));
}*/
BWImage(BufferedImage image) { try {
width = image.getWidth();
height = image.getHeight();
int[] pixels = new int[width*height];
byte[] bytePixels = this.pixels = new byte[width*height];
PixelGrabber pixelGrabber = new PixelGrabber(image, 0, 0, width, height, pixels, 0, width);
if (!pixelGrabber.grabPixels())
throw fail("Could not grab pixels");
int n = width*height;
for (int i = 0; i < n; i++) {
//bytePixels[i] = pixelToByte(pixels[i]);
int packed = pixels[i];
/*float r = ((packed >> 16) & 0xFF)/255f;
float g = ((packed >> 8) & 0xFF)/255f;
float b = (packed & 0xFF)/255f;
bytePixels[i] = (byte) iround((r+g+b)/3.0f*255f);*/
int r = ((packed >> 16) & 0xFF);
int g = ((packed >> 8) & 0xFF);
int b = (packed & 0xFF);
bytePixels[i] = (byte) ((r+g+b+1)/3);
}
} catch (Exception __e) { throw rethrow(__e); } }
// TODO: does it exactly match the other method? (asRGB+getBrightness+_toByte)
static byte pixelToByte(int packed) {
/*int r = (packed >> 16) & 0xFF;
int g = (packed >> 8) & 0xFF;
int b = packed & 0xFF;
ret (byte) ((r+g+b)/3.0f);*/
float r = ((packed >> 16) & 0xFF)/255f;
float g = ((packed >> 8) & 0xFF)/255f;
float b = (packed & 0xFF)/255f;
return (byte) ((r+g+b)/3.0f*255f);
}
public byte getByte(int x, int y) {
return inRange(x, y) ? getByte_noRangeCheck(x, y) : _toByte(borderColor);
}
int getInt(int x, int y) {
return ubyteToInt(getByte(x, y));
}
public double averageBrightness() {
double sum = 0;
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++)
sum += getPixel(x, y);
return (sum/(double) (height*width));
}
public float minimumBrightness() {
float min = 1;
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++)
min = Math.min(min, getPixel(x, y));
return min;
}
public float maximumBrightness() {
float max = 0;
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++)
max = Math.max(max, getPixel(x, y));
return max;
}
float getPixel(int x, int y) {
return inRange(x, y) ? _toFloat(getByte(x,y )) : borderColor;
}
public float getFloatPixel(int x, int y) { return getPixel(x, y); }
float getPixel(Pt p) { return getPixel(p.x, p.y); }
static byte _toByte(float pixel) {
return (byte) (pixel*255f);
}
static float _toFloat(byte pixel) {
return (((int) pixel) & 255)/255f;
}
private boolean inRange(int x, int y) {
return x >= 0 && x < width && y >= 0 && y < height;
}
public int getWidth() { return width; }
int w() { return width; }
public int getHeight() { return height; }
int h() { return height; }
public RGBImage toRGB() {
int[] rgbs = new int[width*height];
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++) {
int b = getByte(x, y) & 0xFF;
rgbs[y*width+x] = 0xFF000000 | b*0x010101;
}
return new RGBImage(width, height, rgbs);
}
public RGBImage toRGB_slow() {
RGB[] rgbs = new RGB[width*height];
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++) {
float p = getPixel(x, y);
rgbs[y*width+x] = new RGB(p, p, p);
}
return new RGBImage(width, height, rgbs);
}
public BWImage clip(int x, int y, int w, int h) {
return clip(new Rectangle(x, y, w, h));
}
private Rectangle fixClipRect(Rectangle r) {
return r.intersection(new Rectangle(0, 0, width, height));
}
BWImage clip(Rect r) {
return clip(r.getRectangle());
}
/** this should be multithread-safe */
public BWImage clip(Rectangle r) {
r = fixClipRect(r);
byte[] newPixels = new byte[r.height*r.width];
for (int y = 0; y < r.height; y++)
for (int x = 0; x < r.width; x++)
newPixels[y*r.width+x] = getByte(r.x+x, r.y+y);
return new BWImage(r.width, r.height, newPixels);
}
public void setPixel(int x, int y, float brightness) {
setByte(x, y, _toByte(fixPixel(brightness)));
}
// i = 0 to 255
public void setInt(int x, int y, int i) {
setByte(x, y, (byte) limitToUByte(i));
}
public void setByte(int x, int y, byte b) {
if (x >= 0 && x < width && y >= 0 && y < height)
pixels[y*width+x] = b;
}
byte getByte_noRangeCheck(int x, int y) {
return pixels[y*width+x];
}
public void setByte(int x, int y, int brightness) {
setByte(x, y, (byte) brightness);
}
private float fixPixel(float pixel) {
return Math.max(0, Math.min(1, pixel));
}
public float getBorderColor() {
return borderColor;
}
public void setBorderColor(float borderColor) {
this.borderColor = borderColor;
}
public boolean anyPixelBrighterThan(double threshold) {
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++)
if (getPixel(x, y) > threshold)
return true;
return false;
}
public BufferedImage getBufferedImage() {
//ret toRGB().getBufferedImage();
// TYPE_BYTE_GRAY is buggy - see #1015235
BufferedImage bufferedImage = new BufferedImage(width, height, /*BufferedImage.TYPE_BYTE_GRAY*/BufferedImage.TYPE_INT_RGB);
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++) {
int b = ((int) getByte(x, y) & 0xFF);
bufferedImage.setRGB(x, y, b*0x010101);
}
return bufferedImage;
}
byte[] getBytes() {
return pixels;
}
}
static class Complex implements IFieldsToList{
static final String _fieldOrder = "re im";
double re;
double im;
Complex() {}
Complex(double re, double im) {
this.im = im;
this.re = re;}
public boolean equals(Object o) {
if (!(o instanceof Complex)) return false;
Complex __1 = (Complex) o;
return re == __1.re && im == __1.im;
}
public int hashCode() {
int h = -1679819632;
h = boostHashCombine(h, _hashCode(re));
h = boostHashCombine(h, _hashCode(im));
return h;
}
public Object[] _fieldsToList() { return new Object[] {re, im}; }
double abs() { return sqrt(re*re+im*im); }
public String toString() {
if (im != 0)
return re == 0 ? im + "i" : re + "+" + im + "i";
else
return str(re);
}
}
// We're a a bit confused about whether the time coordinates are double
// or int. (Probably int.)
static class SlidingWindow implements IAudioSample {
SlidingWindow() {}
// general params
double sampleRate = 48000;
int channels;
// length of window
int length; // in samples per channel
// start of window
int start;
// at which index in data array is our first value?
int boundaryIndex; // in data
// Here they are: the partial sums of the 16 bit audio samples
// in an array of 6-byte integers. Channels are stored interleaved.
HalfLongs data;
// query original sound (channel, time -> short-range)
IQuerySound sound;
public double sampleRate() { return sampleRate; }
public int channels() { return channels; }
public DoubleRange bounds() { return new DoubleRange(start, start+length); }
// result is in the range -32768*(end-start) to 32767*(end-start)
public double sampleSum(int channel, double start, double end) {
// We could do linear interpolation here if we weren't so basic.
int a = ifloor(start-this.start), b = ifloor(end);
return getEntry(channel, b-1)-getEntry(channel, a-1);
}
// Get an entry of the sum table - allow for out-of-bounds
// requests (those just default to silence).
long getEntry(int channel, int i) {
if (i < 0) return 0;
i = min(i, length-1);
// do the shift
i = (i+boundaryIndex) % length;
return data.get(i*channels+channel);
}
void setEntry(int channel, int i, long l) {
// do the shift
i = (i+boundaryIndex) % length;
data.set(i*channels+channel, l);
}
// constructor - perform integration of the raw audio data
SlidingWindow(int channels, double sampleRate, IQuerySound sound,
int start, int length) {
this.length = length;
this.start = start;
this.sound = sound;
this.sampleRate = sampleRate;
this.channels = channels;
grab();
}
short getSample_short(int channel, double relTime) {
return clampToShort(iround(sound.getSample(channel, start+relTime)));
}
void grab() {
assertTrue(length > 0);
if (l(data) != length*channels)
data = new HalfLongs(length*channels);
long[] sums = new long[channels];
for (int i = 0; i < length; i++)
for (int c = 0; c < channels; c++)
setEntry(c, i, sums[c] += getSample_short(c, i));
}
void moveTo(int newStart) {
shiftRight(newStart-start);
}
void moveToCenter(int t) {
moveTo(max(start, t-length/2));
}
void shiftRight() { shiftRight(1); }
void shiftRight(int n) {
if (n == 0) return;
assertTrue(n >= 0);
int oldEnd = ifloor(end());
start += n;
boundaryIndex = mod(boundaryIndex+n, length);
int overlap = max(0, oldEnd-ifloor(start));
if (overlap == 0)
grab();
else
for (int i = overlap; i < length; i++)
try {
for (int c = 0; c < channels; c++)
setEntry(c, i, getEntry(c, i-1) + getSample_short(c, i));
} catch (Throwable _e) {
printVars("i", i, "start", start, "n", n, "length", length);
throw rethrow(_e); }
}
}
/*
* @(#)WeakHashMap.java 1.5 98/09/30
*
* Copyright 1998 by Sun Microsystems, Inc.,
* 901 San Antonio Road, Palo Alto, California, 94303, U.S.A.
* All rights reserved.
*
* This software is the confidential and proprietary information
* of Sun Microsystems, Inc. ("Confidential Information"). You
* shall not disclose such Confidential Information and shall use
* it only in accordance with the terms of the license agreement
* you entered into with Sun.
*/
// From https://github.com/mernst/plume-lib/blob/df0bfafc3c16848d88f4ea0ef3c8bf3367ae085e/java/src/plume/WeakHasherMap.java
static final class WeakHasherMap extends AbstractMap implements Map {
private Hasher hasher = null;
/*@Pure*/
private boolean keyEquals(Object k1, Object k2) {
return (hasher==null ? k1.equals(k2)
: hasher.equals(k1, k2));
}
/*@Pure*/
private int keyHashCode(Object k1) {
return (hasher==null ? k1.hashCode()
: hasher.hashCode(k1));
}
// The WeakKey class can't be static because it depends on the hasher.
// That in turn means that its methods can't be static.
// However, I need to be able to call the methods such as create() that
// were static in the original version of this code.
// This finesses that.
private /*@Nullable*/ WeakKey WeakKeyCreate(K k) {
if (k == null) return null;
else return new WeakKey(k);
}
private /*@Nullable*/ WeakKey WeakKeyCreate(K k, ReferenceQueue super K> q) {
if (k == null) return null;
else return new WeakKey(k, q);
}
// Cannot be a static class: uses keyHashCode() and keyEquals()
private final class WeakKey extends WeakReference {
private int hash; /* Hashcode of key, stored here since the key
may be tossed by the GC */
private WeakKey(K k) {
super(k);
hash = keyHashCode(k);
}
private /*@Nullable*/ WeakKey create(K k) {
if (k == null) return null;
else return new WeakKey(k);
}
private WeakKey(K k, ReferenceQueue super K> q) {
super(k, q);
hash = keyHashCode(k);
}
private /*@Nullable*/ WeakKey create(K k, ReferenceQueue super K> q) {
if (k == null) return null;
else return new WeakKey(k, q);
}
/* A WeakKey is equal to another WeakKey iff they both refer to objects
that are, in turn, equal according to their own equals methods */
/*@Pure*/
@Override
public boolean equals(/*@Nullable*/ Object o) {
if (o == null) return false; // never happens
if (this == o) return true;
// This test is illegal because WeakKey is a generic type,
// so use the getClass hack below instead.
// if (!(o instanceof WeakKey)) return false;
if (!(o.getClass().equals(WeakKey.class))) return false;
Object t = this.get();
@SuppressWarnings("unchecked")
Object u = ((WeakKey)o).get();
if ((t == null) || (u == null)) return false;
if (t == u) return true;
return keyEquals(t, u);
}
/*@Pure*/
@Override
public int hashCode() {
return hash;
}
}
/* Hash table mapping WeakKeys to values */
private HashMap hash;
/* Reference queue for cleared WeakKeys */
private ReferenceQueue super K> queue = new ReferenceQueue();
/* Remove all invalidated entries from the map, that is, remove all entries
whose keys have been discarded. This method should be invoked once by
each public mutator in this class. We don't invoke this method in
public accessors because that can lead to surprising
ConcurrentModificationExceptions. */
@SuppressWarnings("unchecked")
private void processQueue() {
WeakKey wk;
while ((wk = (WeakKey)queue.poll()) != null) { // unchecked cast
hash.remove(wk);
}
}
/* -- Constructors -- */
/**
* Constructs a new, empty WeakHashMap with the given
* initial capacity and the given load factor.
*
* @param initialCapacity the initial capacity of the
* WeakHashMap
*
* @param loadFactor the load factor of the WeakHashMap
*
* @throws IllegalArgumentException If the initial capacity is less than
* zero, or if the load factor is
* nonpositive
*/
public WeakHasherMap(int initialCapacity, float loadFactor) {
hash = new HashMap(initialCapacity, loadFactor);
}
/**
* Constructs a new, empty WeakHashMap with the given
* initial capacity and the default load factor, which is
* 0.75.
*
* @param initialCapacity the initial capacity of the
* WeakHashMap
*
* @throws IllegalArgumentException If the initial capacity is less than
* zero
*/
public WeakHasherMap(int initialCapacity) {
hash = new HashMap(initialCapacity);
}
/**
* Constructs a new, empty WeakHashMap with the default
* capacity and the default load factor, which is 0.75.
*/
public WeakHasherMap() {
hash = new HashMap();
}
/**
* Constructs a new, empty WeakHashMap with the default
* capacity and the default load factor, which is 0.75.
* The WeakHashMap uses the specified hasher for hashing
* keys and comparing them for equality.
* @param h the Hasher to use when hashing values for this map
*/
public WeakHasherMap(Hasher h) {
hash = new HashMap();
hasher = h;
}
/* -- Simple queries -- */
/**
* Returns the number of key-value mappings in this map.
* Note: In contrast to most implementations of the
* Map interface, the time required by this operation is
* linear in the size of the map.
*/
/*@Pure*/
@Override
public int size() {
return entrySet().size();
}
/**
* Returns true if this map contains no key-value mappings.
*/
/*@Pure*/
@Override
public boolean isEmpty() {
return entrySet().isEmpty();
}
/**
* Returns true if this map contains a mapping for the
* specified key.
*
* @param key the key whose presence in this map is to be tested
*/
/*@Pure*/
@Override
public boolean containsKey(Object key) {
@SuppressWarnings("unchecked")
K kkey = (K) key;
return hash.containsKey(WeakKeyCreate(kkey));
}
/* -- Lookup and modification operations -- */
/**
* Returns the value to which this map maps the specified key.
* If this map does not contain a value for this key, then return
* null.
*
* @param key the key whose associated value, if any, is to be returned
*/
/*@Pure*/
@Override
public /*@Nullable*/ V get(Object key) { // type of argument is Object, not K
@SuppressWarnings("unchecked")
K kkey = (K) key;
return hash.get(WeakKeyCreate(kkey));
}
/**
* Updates this map so that the given key maps to the given
* value. If the map previously contained a mapping for
* key then that mapping is replaced and the previous value is
* returned.
*
* @param key the key that is to be mapped to the given
* value
* @param value the value to which the given key is to be
* mapped
*
* @return the previous value to which this key was mapped, or
* null if if there was no mapping for the key
*/
@Override
public V put(K key, V value) {
processQueue();
return hash.put(WeakKeyCreate(key, queue), value);
}
/**
* Removes the mapping for the given key from this map, if
* present.
*
* @param key the key whose mapping is to be removed
*
* @return the value to which this key was mapped, or null if
* there was no mapping for the key
*/
@Override
public V remove(Object key) { // type of argument is Object, not K
processQueue();
@SuppressWarnings("unchecked")
K kkey = (K) key;
return hash.remove(WeakKeyCreate(kkey));
}
/**
* Removes all mappings from this map.
*/
@Override
public void clear() {
processQueue();
hash.clear();
}
/* -- Views -- */
/* Internal class for entries */
// This can't be static, again because of dependence on hasher.
@SuppressWarnings("TypeParameterShadowing")
private final class Entry implements Map.Entry {
private Map.Entry ent;
private K key; /* Strong reference to key, so that the GC
will leave it alone as long as this Entry
exists */
Entry(Map.Entry ent, K key) {
this.ent = ent;
this.key = key;
}
/*@Pure*/
@Override
public K getKey() {
return key;
}
/*@Pure*/
@Override
public V getValue() {
return ent.getValue();
}
@Override
public V setValue(V value) {
return ent.setValue(value);
}
/*@Pure*/
private boolean keyvalEquals(K o1, K o2) {
return (o1 == null) ? (o2 == null) : keyEquals(o1, o2);
}
/*@Pure*/
private boolean valEquals(V o1, V o2) {
return (o1 == null) ? (o2 == null) : o1.equals(o2);
}
/*@Pure*/
@SuppressWarnings("NonOverridingEquals")
public boolean equals(Map.Entry e /* Object o*/) {
// if (! (o instanceof Map.Entry)) return false;
// Map.Entry e = (Map.Entry)o;
return (keyvalEquals(key, e.getKey())
&& valEquals(getValue(), e.getValue()));
}
/*@Pure*/
@Override
public int hashCode() {
V v;
return (((key == null) ? 0 : keyHashCode(key))
^ (((v = getValue()) == null) ? 0 : v.hashCode()));
}
}
/* Internal class for entry sets */
private final class EntrySet extends AbstractSet> {
Set> hashEntrySet = hash.entrySet();
@Override
public Iterator> iterator() {
return new Iterator>() {
Iterator> hashIterator = hashEntrySet.iterator();
Map.Entry next = null;
@Override
public boolean hasNext() {
while (hashIterator.hasNext()) {
Map.Entry ent = hashIterator.next();
WeakKey wk = ent.getKey();
K k = null;
if ((wk != null) && ((k = wk.get()) == null)) {
/* Weak key has been cleared by GC */
continue;
}
next = new Entry(ent, k);
return true;
}
return false;
}
@Override
public Map.Entry next() {
if ((next == null) && !hasNext())
throw new NoSuchElementException();
Map.Entry e = next;
next = null;
return e;
}
@Override
public void remove() {
hashIterator.remove();
}
};
}
/*@Pure*/
@Override
public boolean isEmpty() {
return !(iterator().hasNext());
}
/*@Pure*/
@Override
public int size() {
int j = 0;
for (Iterator> i = iterator(); i.hasNext(); i.next()) j++;
return j;
}
@Override
public boolean remove(Object o) {
processQueue();
if (!(o instanceof Map.Entry,?>)) return false;
@SuppressWarnings("unchecked")
Map.Entry e = (Map.Entry)o; // unchecked cast
Object ev = e.getValue();
WeakKey wk = WeakKeyCreate(e.getKey());
Object hv = hash.get(wk);
if ((hv == null)
? ((ev == null) && hash.containsKey(wk)) : hv.equals(ev)) {
hash.remove(wk);
return true;
}
return false;
}
/*@Pure*/
@Override
public int hashCode() {
int h = 0;
for (Iterator> i = hashEntrySet.iterator(); i.hasNext(); ) {
Map.Entry ent = i.next();
WeakKey wk = ent.getKey();
Object v;
if (wk == null) continue;
h += (wk.hashCode()
^ (((v = ent.getValue()) == null) ? 0 : v.hashCode()));
}
return h;
}
}
private /*@Nullable*/ Set> entrySet = null;
/**
* Returns a Set view of the mappings in this map.
*/
/*@SideEffectFree*/
@Override
public Set> entrySet() {
if (entrySet == null) entrySet = new EntrySet();
return entrySet;
}
// find matching key
K findKey(Object key) {
processQueue();
K kkey = (K) key;
// TODO: use replacement for HashMap to avoid reflection
WeakKey wkey = WeakKeyCreate(kkey);
WeakKey found = hashMap_findKey(hash, wkey);
return found == null ? null : found.get();
}
}
static interface IIntegralImage extends MakesBufferedImage {
public int getWidth();
public int getHeight();
default public Pt getSize() { return pt(getWidth(), getHeight()); }
default public int defaultChannel() { return 0; }
default public int nChannels() { return 3; }
// get value for 1 channel
// normal range [0; pixelCount*256)
public double getIntegralValue(int x, int y, int channel);
default double getIntegralValue(double x, double y, int channel) {
return getIntegralValue(ifloor(x), ifloor(y), channel);
}
// gets value of the 3 channels
// normal range [0; pixelCount*256*3)
default double getIntegralValue(int x, int y) {
return getIntegralValue(x, y, 0)
+ getIntegralValue(x, y, 1)
+ getIntegralValue(x, y, 2);
}
default double rectSum(int x1, int y1, int x2, int y2, int channel) {
double bottomLeft = getIntegralValue(x1-1, y2-1, channel);
double bottomRight = getIntegralValue(x2-1, y2-1, channel);
double topLeft = getIntegralValue(x1-1, y1-1, channel);
double topRight = getIntegralValue(x2-1, y1-1, channel);
return bottomRight+topLeft-topRight-bottomLeft;
}
default double rectSum(double x1, double y1, double x2, double y2, int channel) {
return rectSum(iround(x1), iround(y1), iround(x2), iround(y2), channel);
}
default double rectSum(int x1, int y1, int x2, int y2) {
double bottomLeft = getIntegralValue(x1-1, y2-1);
double bottomRight = getIntegralValue(x2-1, y2-1);
double topLeft = getIntegralValue(x1-1, y1-1);
double topRight = getIntegralValue(x2-1, y1-1);
return bottomRight+topLeft-topRight-bottomLeft;
}
default double rectAverage(int x1, int y1, int x2, int y2, int channel) {
return doubleRatio(rectSum(x1, y1, x2, y2, channel), areaFromPoints(x1, y1, x2, y2));
}
default double rectAverage(Rect r, int channel) {
return doubleRatio(rectSum(r, channel), rectArea(r));
}
default double rectSum(Rect r) {
return rectSum(r.x, r.y, r.x2(), r.y2());
}
default double rectSum(Rect r, int channel) {
return rectSum(r.x, r.y, r.x2(), r.y2(), channel);
}
default double pixelSum(DoubleRect r) {
return rectSum(toRect_floor(r), defaultChannel());
}
default IIntegralImage clip(int x, int y, int w, int h) {
return new IIVirtualClip(this, x, y, w, h);
}
default double averageBrightness() {
int w = getWidth(), h = getHeight();
return doubleRatio(getIntegralValue(w-1, h-1), w*h*3*255.0);
}
// normal range: (0, 255)
default double getPixel(int x, int y, int channel) {
return rectSum(x, y, x+1, y+1, channel);
}
// returns RGB pixel without alpha
default int getPixel(int x, int y) {
int r = iround(rectSum(x, y, x+1, y+1, 0));
int g = iround(rectSum(x, y, x+1, y+1, 1));
int b = iround(rectSum(x, y, x+1, y+1, 2));
return rgbInt(r, g, b);
}
default BufferedImage getBufferedImage() {
int w = getWidth(), h = getHeight();
int[] pixels = new int[w*h];
int i = 0;
for (int y = 0; y < h; y++)
for (int x = 0; x < w; x++)
pixels[i++] = getPixel(x, y) | fullAlphaMask();
return intArrayToBufferedImage(pixels, w, h);
}
// minimum and maximum brightness possible in image
// Better not to use because without this information
// you have a more general recognition algorithm.
//default DoubleRange colorRange(int channel) { ret doubleRange(0, 256); }
}
static class Fail extends RuntimeException implements IFieldsToList{
Object[] objects;
Fail() {}
Fail(Object... objects) {
this.objects = objects;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + objects + ")"; }public Object[] _fieldsToList() { return new Object[] {objects}; }
}
static class Pair implements Comparable> {
A a;
B b;
Pair() {}
Pair(A a, B b) {
this.b = b;
this.a = a;}
public int hashCode() {
return hashCodeFor(a) + 2*hashCodeFor(b);
}
public boolean equals(Object o) {
if (o == this) return true;
if (!(o instanceof Pair)) return false;
Pair t = (Pair) o;
return eq(a, t.a) && eq(b, t.b);
}
public String toString() {
return "<" + a + ", " + b + ">";
}
public int compareTo(Pair p) {
if (p == null) return 1;
int i = ((Comparable ) a).compareTo(p.a);
if (i != 0) return i;
return ((Comparable) b).compareTo(p.b);
}
}
static abstract class F0 {
abstract A get();
}
static abstract class F1 {
abstract B get(A a);
}
// you still need to implement hasNext() and next()
static abstract class IterableIterator implements Iterator , Iterable {
public Iterator iterator() {
return this;
}
public void remove() {
unsupportedOperation();
}
}
// This looks at a number of periods of a given frequency starting at a certain time in the audio
// and returns an intensity value.
// No phase adjustment here, so you have to call this twice to get meaningful (complex) results.
static class SumOfVibrations implements IFieldsToList{
IAudioSample sample;
int channel;
double start;
double freq;
int periods;
SumOfVibrations() {}
SumOfVibrations(IAudioSample sample, int channel, double start, double freq, int periods) {
this.periods = periods;
this.freq = freq;
this.start = start;
this.channel = channel;
this.sample = sample;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + sample + ", " + channel + ", " + start + ", " + freq + ", " + periods + ")"; }public Object[] _fieldsToList() { return new Object[] {sample, channel, start, freq, periods}; }
double period, end;
double rawSum() {
period = sample.sampleRate()/freq;
double sum = 0, t = start;
for (int p = 0; p < periods; p++) {
// Subtract an expected trough from an expected neighboring peak and add to overall sum.
// Nota bene: Trough and peak have the same area (=length), so this is basically a Haar-like feature!
// By the use of which we automatically get around nasty complications like DC offsets in the input data.
sum += sample.sampleSum(channel, t, t+period/2)
- sample.sampleSum(channel, t+period/2, t+period);
t += period;
}
end = t;
return sum;
}
// alternate calculation adjusted for duration
double sumDividedByDuration() {
return rawSum()/(end-start);
}
// Not divided by duration - this seems like the best frequency detector at this point.
// As in a proper FFT/DCT, we return a complex value to represent phase.
// Call abs() to get the desired intensity value.
Complex complexSum() {
SumOfVibrations sum2 = new SumOfVibrations(sample, channel, start+period/4, freq, periods);
return new Complex(rawSum(), sum2.rawSum());
}
double amplitude() { return abs(complexSum()); }
}
static class BetterLabel extends JLabel {
boolean autoToolTip = true;
BetterLabel() {
// Listeners given out to componentPopupMenu must not directly
// reference the outer object (-> weak map problem).
final WeakReference < BetterLabel > me = new WeakReference<>(this);
componentPopupMenu(this, BetterLabel_menuItems(me));
}
BetterLabel(String text) {
this();
this.setText(text);
}
public void setText(String text) {
super.setText(text);
if (autoToolTip)
if (!swic(text, "")) // HTML labels make super-huge, confusing tool tips
setToolTipText(nullIfEmpty(text));
}
}
// moved outside of class for GC reasons (see above)
static VF1 BetterLabel_menuItems(final WeakReference me) {
return new VF1() { public void get(JPopupMenu menu) { try {
addMenuItem(menu, "Copy text to clipboard", new Runnable() { public void run() { try {
copyTextToClipboard(me.get().getText());
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "copyTextToClipboard(me.get().getText());"; }});
} catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "addMenuItem(menu, \"Copy text to clipboard\", r {\r\n copyTextToClipboard(me..."; }};
}
// grayscale, actually
final static class BWIntegralImage extends Meta implements MakesBufferedImage, IBWIntegralImage, IIntegralImage {
int w, h;
int[] data; // 1 entry per pixel
BWIntegralImage() {}
BWIntegralImage(File f) { this(loadImage2(f)); }
BWIntegralImage(MakesBufferedImage img) { this(toBufferedImage(img)); }
//*(BufferedImage img) { this(BWImage(img)); }
BWIntegralImage(BufferedImage image) { try {
alloc(image.getWidth(), image.getHeight());
try {
GrabbableIntPixels gp = grabbableIntPixels(image);
if (gp != null) { grab(gp); return; }
} catch (Throwable __e) { printStackTrace(__e); }
// Use pixelGrabber if quick method fails
PixelGrabber pixelGrabber = new PixelGrabber(image, 0, 0, w, h, data, 0, w);
if (!pixelGrabber.grabPixels())
throw fail("Could not grab pixels");
grab(new GrabbableIntPixels(data, w, h, 0, w));
} catch (Exception __e) { throw rethrow(__e); } }
BWIntegralImage(GrabbableIntPixels gp) {
alloc(gp.w, gp.h);
grab(gp);
}
void grab(GrabbableIntPixels gp) {
int offset = gp.offset;
int[] image = gp.data;
int sum = 0;
for (int x = 0; x < w; x++) {
int packed = image[offset+x];
int brightness = packedToBrightness(packed);
data[x] = (sum += brightness);
}
int scanlineExtra = gp.scanlineStride-w;
int iImage = offset+gp.scanlineStride, i = w;
for (int y = 1; y < h; y++) {
sum = 0;
for (int x = 0; x < w; x++) {
int packed = image[iImage];
int brightness = packedToBrightness(packed);
sum += brightness;
data[i] = sum + data[i-w];
iImage++; i++;
}
iImage += scanlineExtra;
} // for y
}
BWIntegralImage(BWImage img) {
alloc(img.w(), img.h());
data = new int[w*h];
int i = 0;
for (int y = 0; y < h; y++) {
int sum = 0;
for (int x = 0; x < w; x++) {
sum += img.getByte(x, y) & 0xFF;
data[i] = y > 0 ? sum + data[i-w] : sum;
i++;
}
}
}
private void alloc(int w, int h) {
this.w = w;
this.h = h;
if (w*h > 8*1024*1024)
throw fail("Image too large (more than 8 MP): " + w + "*" + h);
data = new int[w*h];
}
// pixels outside of image are considered black
int get(int x, int y) {
return x < 0 || y < 0 ? 0
: data[min(y, h-1)*w+min(x, w-1)];
}
public int getIIValue(int x, int y) { return get(x, y); }
public double getIntegralValue(int x, int y, int channel) {
return get(x, y);
}
public double getPixelAverage(int x1, int y1, int x2, int y2) {
int area = (x2-x1)*(y2-y1);
return doubleRatio(bwIntegralImage_sumRect(this, x1, y1, x2, y2), area);
}
public int getWidth() { return w; }
public int getHeight() { return h; }
// unoptimized
public BufferedImage getBufferedImage() {
return scaleDownUsingIntegralImageBW(this, w).getBufferedImage();
}
int packedToBrightness(int packed) {
int b = (packed & 0xFF);
int r = ((packed >> 16) & 0xFF);
int g = ((packed >> 8) & 0xFF);
return (r+g+b+1)/3;
}
// returns RGB pixel without alpha
public int getPixel(int x, int y) {
int r = iround(rectSum(x, y, x+1, y+1, 0));
int g = iround(rectSum(x, y, x+1, y+1, 1));
int b = iround(rectSum(x, y, x+1, y+1, 2));
return rgbInt(r, g, b);
}
}
final static class DoubleRange implements Comparable {
double start() { return start; } double start;
double end() { return end; } double end;
DoubleRange() {}
DoubleRange(double start, double end) {
this.end = end;
this.start = start;}
public boolean equals(Object o) { return stdEq2(this, o); }
public int hashCode() { return stdHash2(this); }
double length() { return end-start; }
boolean isEmpty() { return start >= end; }
double center() { return (start+end)/2; }
static String _fieldOrder = "start end";
public String toString() { return "[" + start + ";" + end + "]"; }
@Override public int compareTo(DoubleRange r) {
int c = cmp(start, r.start);
if (c != 0) return c;
return cmp(end, r.end);
}
}
static interface IF0 {
A get();
}
static interface Hasher {
int hashCode(A a);
boolean equals(A a, A b);
}
static interface IF2 {
C get(A a, B b);
}
static interface IF1 {
B get(A a);
}
static class PersistableThrowable extends DynamicObject {
String className;
String msg;
String stacktrace;
PersistableThrowable() {}
PersistableThrowable(Throwable e) {
if (e == null)
className = "Crazy Null Error";
else {
className = getClassName(e).replace('/', '.');
msg = e.getMessage();
stacktrace = getStackTrace_noRecord(e);
}
}
public String toString() {
return nempty(msg) ? className + ": " + msg : className;
}
}
static class Frequency implements Comparable , IFieldsToList{
double frequency;
Frequency() {}
public boolean equals(Object o) {
if (!(o instanceof Frequency)) return false;
Frequency __1 = (Frequency) o;
return frequency == __1.frequency;
}
public int hashCode() {
int h = 1933944124;
h = boostHashCombine(h, _hashCode(frequency));
return h;
}
public Object[] _fieldsToList() { return new Object[] {frequency}; }
double interval() { return interval; } double interval;
final double get(){ return frequency(); }
double frequency() { return frequency; }
Frequency(double frequency) {
this.frequency = frequency; interval = doubleRatio(1, frequency); }
public String toString() { return frequency + " Hz"; }
public int compareTo(Frequency f) {
return cmp(frequency, f.frequency);
}
}
// Meta - a "minimal" approach to adding meta-level to Java objects
static class Meta implements IMeta {
// We allocate one extra field for each Java object to make it
// reasoning-compatible. We couldn't go for 0 extra fields and
// there are no half fields in Java... so there you go.
// Also, if you don't use any meta data, you are probably not
// reasoning about anything. The point of reasoning in JavaX is
// to attach information to objects directly used in the program.
// Possible information contained in the meta field:
// Origin, destination, security level, sender, cost center,
// purpose, list of reifications, ...
// So here it is. THE FIELD YOU HAVE BEEN WAITING FOR
// We also have IMeta to retrofit foreign classes (rare but
// probably useful)
////////////
// "meta" //
////////////
// Generic meta value of any kind, but the typical case is it's a
// Map with extra field values for the object etc.
// "meta" is volatile to avoid synchronization; but you can also synchronize on
// _tempMetaMutex() which is usually the object itself. Collections
// and maps are exempt from using the collections's monitor as the meta
// mutex because their monitor tends to be held for long operations
// (e.g. cloneList). For those we use a substantially more complex
// algorithm using a weakMap. Probably overkill. I may reconsider.
volatile Object meta;
// The meta field is not transient, thus by default it will be
// persisted like anything else unless you customize your object
// to suppress or modulate this.
// ...and the interface methods
public void _setMeta(Object meta) { this.meta = meta; }
public Object _getMeta() { return meta; }
// That was layer 1...
// ...and here is the convenience stuff - just use the meta field like a regular map.
final void metaPut(Object key, Object value){ metaSet(key, value); }
void metaSet(Object key, Object value) { metaMapPut(this, key, value); }
Object metaGet(Object key) { return metaMapGet(this, key); }
}
final static class Rect implements IFieldsToList{
static final String _fieldOrder = "x y w h";
int x;
int y;
int w;
int h;
Rect() {}
Rect(int x, int y, int w, int h) {
this.h = h;
this.w = w;
this.y = y;
this.x = x;}
public boolean equals(Object o) {
if (!(o instanceof Rect)) return false;
Rect __1 = (Rect) o;
return x == __1.x && y == __1.y && w == __1.w && h == __1.h;
}
public int hashCode() {
int h = 2543108;
h = boostHashCombine(h, _hashCode(x));
h = boostHashCombine(h, _hashCode(y));
h = boostHashCombine(h, _hashCode(w));
h = boostHashCombine(h, _hashCode(h));
return h;
}
public Object[] _fieldsToList() { return new Object[] {x, y, w, h}; }
Rect(Rectangle r) {
x = r.x;
y = r.y;
w = r.width;
h = r.height;
}
Rect(Pt p, int w, int h) {
this.h = h;
this.w = w; x = p.x; y = p.y; }
Rect(Rect r) { x = r.x; y = r.y; w = r.w; h = r.h; }
Rectangle getRectangle() {
return new Rectangle(x, y, w, h);
}
public String toString() {
return x + "," + y + " / " + w + "," + h;
}
int x1() { return x; }
int y1() { return y; }
int x2() { return x + w; }
int y2() { return y + h; }
boolean contains(Pt p) {
return contains(p.x, p.y);
}
boolean contains(int _x, int _y) {
return _x >= x && _y >= y && _x < x+w && _y < y+h;
}
boolean empty() { return w <= 0 || h <= 0; }
}
static interface IBWImage {
int getWidth();
int getHeight();
float getFloatPixel(int x, int y); // usually between 0 and 1
}
static class Pt implements Comparable {
int x, y;
Pt() {}
Pt(Point p) {
x = p.x;
y = p.y;
}
Pt(int x, int y) {
this.y = y;
this.x = x;}
Point getPoint() {
return new Point(x, y);
}
public boolean equals(Object o) {
return o instanceof Pt && x == ((Pt) o).x && y == ((Pt) o).y;
}
public int hashCode() {
return boostHashCombine(x, y);
}
// compare in scan order
public int compareTo(Pt p) {
if (y != p.y) return cmp(y, p.y);
return cmp(x, p.x);
}
public String toString() {
return x + ", " + y;
}
}
static interface ISetter {
void set(A a);
}
// an array of 6-byte integers
static class HalfLongs {
HalfLongs() {}
short[] data;
int length;
HalfLongs(int length) {
this.length = length;
data = new short[safeToInt(length*3L)];
}
public int size() { return length; }
public void set(int i, long val) {
data[i*3] = (short) val;
data[i*3+1] = (short) (val >> 16);
data[i*3+2] = (short) (val >> 32);
}
public long get(int i) {
return ushortToLong(data[i*3])
| (ushortToLong(data[i*3+1]) << 16)
| (data[i*3+2] << 32);
}
}
static class RGB {
public float r, g, b; // can't be final cause persistence
RGB() {}
public RGB(float r, float g, float b) {
this.r = r;
this.g = g;
this.b = b;
}
public RGB(double r, double g, double b) {
this.r = (float) r;
this.g = (float) g;
this.b = (float) b;
}
public RGB(double[] rgb) {
this(rgb[0], rgb[1], rgb[2]);
}
public RGB(int rgb) {
this(new Color(rgb));
}
public RGB(double brightness) {
this.r = this.g = this.b = max(0f, min(1f, (float) brightness));
}
public RGB(Color color) {
this.r = color.getRed()/255f;
this.g = color.getGreen()/255f;
this.b = color.getBlue()/255f;
}
// TODO: 3-char version
public RGB(String hex) {
int i = l(hex)-6;
r = Integer.parseInt(hex.substring(i, i+2), 16)/255f;
g = Integer.parseInt(hex.substring(i+2, i+4), 16)/255f;
b = Integer.parseInt(hex.substring(i+4, i+6), 16)/255f;
}
public float getComponent(int i) {
return i == 0 ? r : i == 1 ? g : b;
}
public int getInt(int i) {
return i == 0 ? redInt() : i == 1 ? greenInt() : blueInt();
}
public Color getColor() {
return new Color(r, g, b);
}
public static RGB newSafe(float r, float g, float b) {
return new RGB(Math.max(0, Math.min(1, r)), Math.max(0, Math.min(1, g)), Math.max(0, Math.min(1, b)));
}
int asInt() { return getColor().getRGB() & 0xFFFFFF; }
int getInt() { return getColor().getRGB() & 0xFFFFFF; }
int asIntWithAlpha() { return rgbInt(redInt(), greenInt(), blueInt()) | 0xFF000000; }
public float getBrightness() {
return (r+g+b)/3.0f;
}
public String getHexString() {
return Integer.toHexString(asInt() | 0xFF000000).substring(2).toUpperCase();
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (!(o instanceof RGB)) return false;
RGB rgb = (RGB) o;
if (Float.compare(rgb.b, b) != 0) return false;
if (Float.compare(rgb.g, g) != 0) return false;
if (Float.compare(rgb.r, r) != 0) return false;
return true;
}
@Override
public int hashCode() {
int result = (r != +0.0f ? Float.floatToIntBits(r) : 0);
result = 31 * result + (g != +0.0f ? Float.floatToIntBits(g) : 0);
result = 31 * result + (b != +0.0f ? Float.floatToIntBits(b) : 0);
return result;
}
public boolean isBlack() {
return r == 0f && g == 0f && b == 0f;
}
public boolean isWhite() {
return r == 1f && g == 1f && b == 1f;
}
public String toString() {
return getHexString();
}
int redInt() { return iround(r*255); }
int greenInt() { return iround(g*255); }
int blueInt() { return iround(b*255); }
}
static interface MakesBufferedImage extends WidthAndHeight {
BufferedImage getBufferedImage();
public default void drawAt(Graphics2D g, int x, int y) {
g.drawImage(getBufferedImage(), x, y, null);
}
}
static class DoubleRect {
double x, y, w, h;
DoubleRect() {}
DoubleRect(Rectangle r) {
x = r.x;
y = r.y;
w = r.width;
h = r.height;
}
DoubleRect(double x, double y, double w, double h) {
this.h = h;
this.w = w;
this.y = y;
this.x = x;}
// Huh. not implementing equals()/hashCode? Stefan is mysterious
boolean eq(Object o) {
if (!(o instanceof DoubleRect)) return false;
if (o == this) return true;
DoubleRect r = (DoubleRect) o;
return x == r.x && y == r.y && w == r.w && h == r.h;
}
public String toString() {
return x + "," + y + " / " + w + "," + h;
}
double x1() { return x; }
double y1() { return y; }
double x2() { return x + w; }
double y2() { return y + h; }
boolean contains(Pt p) {
return contains(p.x, p.y);
}
boolean contains(double _x, double _y) {
return _x >= x && _y >= y && _x < x+w && _y < y+h;
}
boolean empty() { return w <= 0 || h <= 0; }
}
static class IIVirtualClip extends Meta implements IIntegralImage {
RegisteredReference < IIntegralImage > fullImage = new RegisteredReference<>(this);
int x1, y1, w, h;
IIVirtualClip() {}
IIVirtualClip(IIntegralImage fullImage, int x1, int y1, int w, int h) {
this.fullImage.set(fullImage);
this.h = h;
this.w = w;
this.y1 = y1;
this.x1 = x1;
}
public int getWidth() { return w; }
public int getHeight() { return h; }
public double getIntegralValue(int x, int y, int channel) {
return fullImage.get().getIntegralValue(x+x1, y+y1, channel);
}
public double getIntegralValue(int x, int y) {
return fullImage.get().getIntegralValue(x+x1, y+y1);
}
public BufferedImage getBufferedImage() {
return clipBufferedImage(fullImage.get().getBufferedImage(), x1, y1, w, h);
}
}
static class GrabbableIntPixels implements IFieldsToList{
static final String _fieldOrder = "data w h offset scanlineStride";
int[] data;
int w;
int h;
int offset;
int scanlineStride;
GrabbableIntPixels() {}
GrabbableIntPixels(int[] data, int w, int h, int offset, int scanlineStride) {
this.scanlineStride = scanlineStride;
this.offset = offset;
this.h = h;
this.w = w;
this.data = data;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + data + ", " + w + ", " + h + ", " + offset + ", " + scanlineStride + ")"; }
public boolean equals(Object o) {
if (!(o instanceof GrabbableIntPixels)) return false;
GrabbableIntPixels __1 = (GrabbableIntPixels) o;
return eq(data, __1.data) && w == __1.w && h == __1.h && offset == __1.offset && scanlineStride == __1.scanlineStride;
}
public int hashCode() {
int h = -1183022196;
h = boostHashCombine(h, _hashCode(data));
h = boostHashCombine(h, _hashCode(w));
h = boostHashCombine(h, _hashCode(h));
h = boostHashCombine(h, _hashCode(offset));
h = boostHashCombine(h, _hashCode(scanlineStride));
return h;
}
public Object[] _fieldsToList() { return new Object[] {data, w, h, offset, scanlineStride}; }
}
static interface IBWIntegralImage extends MakesBufferedImage {
public int getWidth();
public int getHeight();
public int getIIValue(int x, int y);
// 0.0 to 255.0
default public double getPixelAverage(int x1, int y1, int x2, int y2) {
int area = (x2-x1)*(y2-y1);
return doubleRatio(getPixelSum(x1, y1, x2, y2), area);
}
default public double getPixelAverage(Rect r) {
return getPixelAverage(r.x, r.y, r.x2(), r.y2());
}
default public int getPixelSum(int x1, int y1, int x2, int y2) {
return bwIntegralImage_sumRect(this, x1, y1, x2, y2);
}
default public int getPixel(int x, int y) {
return getPixelSum(x, y, x+1, y+1);
}
default public int getPixel(Pt p) { return getPixel(p.x, p.y); }
// unoptimized
default public BufferedImage getBufferedImage() {
return scaleDownUsingIntegralImageBW(this, getWidth(), getHeight()).getBufferedImage();
}
}
static interface IFieldsToList {
Object[] _fieldsToList();
}
// It works like this: There is a general interface for accessing an "integrated" audio clip - IAudioSample.
interface IAudioSample {
int channels(); // 1 for mono, 2 for left+right, 3 for center+left+right... or whatever channel model you prefer
DoubleRange bounds(); // our bounding box in samples according to sampleRate
double sampleRate(); // in hertz
default double start() { return bounds().start(); }
default double end() { return bounds().end(); }
default double length() { return l(bounds()); }
// Query the integral.
// Result is in the range -32768*(end-start) to 32767*(end-start)...
// unless you applied too much gain (there is no clipping).
// channel is between 0 and channels()-1 from here on out
double sampleSum(int channel, double start, double end);
// Here the range is -1 to 1 just to spice things up
default double getPixel(int channel, double start, double end) {
return doubleRatio(sampleSum(channel, start, end), (end-start)*32768);
}
// RENDERING FUNCTIONS (visualize audio as BufferedImage)
// [also "acoustic" rendering]
// render audio as black-and-white (grayscale) stripes
// h = height per channel
default BufferedImage stripes() { return stripes(50); }
default BufferedImage stripes(int h) {
int w = iceil(length());
int channels = channels();
return imageFromFunction(w, h*channels, (x, y) -> {
int channel = y/h;
double value = sampleSum(channel, x, x+1);
// lose lower 8 bits and shift to 0 to 255
int digital = ifloor(value/256)+128;
return rgbIntFullAlpha(digital, digital, digital);
});
}
// render audio as graph
// h = height per channel
default BufferedImage graph() { return graph(100); }
default BufferedImage graph(int h) {
int w = iceil(length());
return mergeBufferedImagesVertically(
countIteratorToList(channels(), c ->
simpleGraph(w, h, x -> sampleSum(c, x, x+1), -32768, 32767)));
}
// render audio as stripes + graph (best way to look at it)
default BufferedImage render() { return render(100); }
default BufferedImage render(int h) {
return mergeBufferedImagesVertically(stripes(h/2), graph(h));
}
// in bounds
// all channels
default short[] toShortArray() {
DoubleRange r = bounds();
int i = ifloor(r.start()), j = ifloor(r.end());
int n = max(0, j-i);
var channels = channels();
short[] array = new short[n*channels];
int iArray = 0;
for (; i < j; i++)
for (int c = 0; c < channels; c++)
array[iArray++] = clampToShort(iround(sampleSum(c, i, i+1)));
return array;
}
// END OF RENDERING FUNCTIONS
// find maximum amplitude, going pixel-by-pixel
// (remember: This clip may already have been temporally
// scaled with speedUp(), so a "pixel" may represent the average
// of multiple audio samples.)
default double maxAmplitude() {
int n = iceil(length()), channels = channels();
double max = 0;
for (int i = 0; i < n; i++)
for (int c = 0; c < channels; c++)
max = max(max, abs(sampleSum(c, i, i+1)));
return min(32767, max);
}
// There are various non-destructive virtual transformations
// which you can do on the audio clip (gain, speed-up and time-shift).
// All transformations are affine in time and amplitude and thus
// preserve the "integral image" property.
default IAudioSample gain(double factor) {
return factor == 1 ? this : new AudioSampleOps.Gain(factor, this);
}
// gain to maximum volume possible without clipping
// (even though clipping isn't even a thing in integral audio wonderland,
// so we just define "clipping" as exceeding the 32767 value we are used to from real audio.)
default IAudioSample normalize() {
return gain(doubleRatio(32767, maxAmplitude()));
}
// resample with a factor
public default IAudioSample speedUp(double factor) {
return factor == 1 ? this : new AudioSampleOps.SpeedUp(factor, this);
}
// resample to a target frequency
public default IAudioSample sampleAt(double freq) {
return speedUp(sampleRate()/freq);
}
public default IAudioSample shift(double shift){ return timeShift(shift); }
public default IAudioSample timeShift(double shift) {
return shift == 0 ? this : new AudioSampleOps.TimeShift(shift, this);
}
// For debug-printing. Valued from 0 to 1 this time because why not. First channel only
default List firstPixels() { return firstPixels(20); }
default List firstPixels(int n) {
double[] pixels = new double[n];
for (int i = 0; i < n; i++)
pixels[i] = sampleSum(0, i, i+1)/32768;
return wrapDoubleArrayAsList(pixels);
}
} // end of IAudioSample
static interface IVF1 {
void get(A a);
}
static interface IVar extends IF0 {
void set(A a);
A get();
default boolean has() { return get() != null; }
default void clear() { set(null); }
}
static class RGBImage implements MakesBufferedImage {
transient BufferedImage bufferedImage;
File file;
int width, height;
int[] pixels;
RGBImage() {}
RGBImage(BufferedImage image) {
this(image, null);
}
RGBImage(BufferedImage image, File file) {
this.file = file;
bufferedImage = image;
width = image.getWidth();
height = image.getHeight();
pixels = new int[width*height];
PixelGrabber pixelGrabber = new PixelGrabber(image, 0, 0, width, height, pixels, 0, width);
try {
if (!pixelGrabber.grabPixels())
throw new RuntimeException("Could not grab pixels");
cleanPixels(); // set upper byte to 0
} catch (InterruptedException e) {
throw new RuntimeException(e);
}
}
/** We assume it's a file name to load from */
RGBImage(String file) throws IOException {
this(new File(file));
}
RGBImage(Dimension size, Color color) {
this(size.width, size.height, color);
}
RGBImage(Dimension size, RGB color) {
this(size.width, size.height, color);
}
private void cleanPixels() {
for (int i = 0; i < pixels.length; i++)
pixels[i] &= 0xFFFFFF;
}
RGBImage(int width, int height, int[] pixels) {
this.width = width;
this.height = height;
this.pixels = pixels;
}
RGBImage(int w, int h, RGB[] pixels) {
this.width = w;
this.height = h;
this.pixels = asInts(pixels);
}
public static int[] asInts(RGB[] pixels) {
int[] ints = new int[pixels.length];
for (int i = 0; i < pixels.length; i++)
ints[i] = pixels[i] == null ? 0 : pixels[i].getColor().getRGB();
return ints;
}
public RGBImage(int w, int h) {
this(w, h, Color.black);
}
RGBImage(int w, int h, RGB rgb) {
this.width = w;
this.height = h;
this.pixels = new int[w*h];
int col = rgb.asInt();
if (col != 0)
for (int i = 0; i < pixels.length; i++)
pixels[i] = col;
}
RGBImage(RGBImage image) {
this(image.width, image.height, copyPixels(image.pixels));
}
RGBImage(int width, int height, Color color) {
this(width, height, new RGB(color));
}
RGBImage(File file) throws IOException {
this(javax.imageio.ImageIO.read(file));
}
RGBImage(MakesBufferedImage img) {
this(toBufferedImage(img));
}
private static int[] copyPixels(int[] pixels) {
int[] copy = new int[pixels.length];
System.arraycopy(pixels, 0, copy, 0, pixels.length);
return copy;
}
public int getIntPixel(int x, int y) {
if (inRange(x, y))
return pixels[y * width + x];
else
return 0xFFFFFF;
}
public static RGB asRGB(int packed) {
int r = (packed >> 16) & 0xFF;
int g = (packed >> 8) & 0xFF;
int b = packed & 0xFF;
return new RGB(r / 255f, g / 255f, b / 255f);
}
public RGB getRGB(int x, int y) {
if (inRange(x, y))
return asRGB(pixels[y * width + x]);
else
return new RGB(0xFFFFFF);
}
/** alias of getRGB - I kept typing getPixel instead of getRGB all the time, so I finally created it */
RGB getPixel(int x, int y) {
return getRGB(x, y);
}
RGB getPixel(Pt p) { return getPixel(p.x, p.y); }
public int getWidth() { return width; }
public int getHeight() { return height; }
int w() { return width; }
int h() { return height; }
/** Attention: cached, i.e. does not change when image itself changes */
/** @NotNull */
public BufferedImage getBufferedImage() {
if (bufferedImage == null) {
bufferedImage = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB);
//bufferedImage.setData(Raster.createRaster(new SampleModel()));
for (int y = 0; y < height; y++)
for (int x = 0; x < width; x++)
bufferedImage.setRGB(x, y, pixels[y*width+x]);
}
return bufferedImage;
}
RGBImage clip(Rect r) {
return r == null ? null : clip(r.getRectangle());
}
RGBImage clip(Rectangle r) {
r = fixClipRect(r);
if (r.x == 0 && r.y == 0 && r.width == width && r.height == height) return this;
int[] newPixels;
try {
newPixels = new int[r.width*r.height];
} catch (RuntimeException e) {
System.out.println(r);
throw e;
}
for (int y = 0; y < r.height; y++) {
System.arraycopy(pixels, (y+r.y)*width+r.x, newPixels, y*r.width, r.width);
}
return new RGBImage(r.width, r.height, newPixels);
}
private Rectangle fixClipRect(Rectangle r) {
r = r.intersection(new Rectangle(0, 0, width, height));
if (r.isEmpty())
r = new Rectangle(r.x, r.y, 0, 0);
return r;
}
public File getFile() {
return file;
}
/** can now also do GIF (not just JPEG) */
public static RGBImage load(String fileName) {
return load(new File(fileName));
}
/** can now also do GIF (not just JPEG) */
public static RGBImage load(File file) {
try {
BufferedImage bufferedImage = javax.imageio.ImageIO.read(file);
return new RGBImage(bufferedImage);
} catch (IOException e) {
throw new RuntimeException(e);
}
}
public int getInt(int x, int y) {
return pixels[y * width + x];
}
public void save(File file) throws IOException {
String name = file.getName().toLowerCase();
String type;
if (name.endsWith(".png")) type = "png";
else if (name.endsWith(".jpg") || name.endsWith(".jpeg")) type = "jpeg";
else throw new IOException("Unknown image extension: " + name);
javax.imageio.ImageIO.write(getBufferedImage(), type, file);
}
public static RGBImage dummyImage() {
return new RGBImage(1, 1, new int[] {0xFFFFFF});
}
public int[] getPixels() {
return pixels;
}
void setPixel(int x, int y, int r, int g, int b) {
if (x >= 0 && y >= 0 && x < width && y < height)
pixels[y*width+x] = (limitToUByte(r) << 16) | (limitToUByte(g) << 8) | limitToUByte(b);
}
public void setPixel(int x, int y, RGB rgb) {
if (x >= 0 && y >= 0 && x < width && y < height)
pixels[y*width+x] = rgb.asInt();
}
final public void set(int x, int y, Color color){ setPixel(x, y, color); }
public void setPixel(int x, int y, Color color) {
setPixel(x, y, new RGB(color));
}
void setInt(int x, int y, int rgb) {
setPixel(x, y, rgb);
}
public void setPixel(int x, int y, int rgb) {
if (x >= 0 && y >= 0 && x < width && y < height)
pixels[y*width+x] = rgb;
}
void setPixel(Pt p, RGB rgb) { setPixel(p.x, p.y, rgb); }
void setPixel(Pt p, Color color) { setPixel(p.x, p.y, color); }
public RGBImage copy() {
return new RGBImage(this);
}
public boolean inRange(int x, int y) {
return x >= 0 && y >= 0 && x < width && y < height;
}
public Dimension getSize() {
return new Dimension(width, height);
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
RGBImage rgbImage = (RGBImage) o;
if (height != rgbImage.height) return false;
if (width != rgbImage.width) return false;
if (!Arrays.equals(pixels, rgbImage.pixels)) return false;
return true;
}
@Override
public int hashCode() {
int result = width;
result = 31 * result + height;
result = 31 * result + Arrays.hashCode(pixels);
return result;
}
public String getHex(int x, int y) {
return getPixel(x, y).getHexString();
}
public RGBImage clip(int x, int y, int width, int height) {
return clip(new Rectangle(x, y, width, height));
}
public RGBImage clipLine(int y) {
return clip(0, y, width, 1);
}
public int numPixels() {
return width*height;
}
void uncacheBufferedImage() {
bufferedImage = null;
}
}
static class AudioSampleOps {
// implementation of gain modifier
static class Gain implements IAudioSample , IFieldsToList{
double factor;
IAudioSample original;
Gain() {}
Gain(double factor, IAudioSample original) {
this.original = original;
this.factor = factor;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + factor + ", " + original + ")"; }public Object[] _fieldsToList() { return new Object[] {factor, original}; }
public double sampleRate() { return original.sampleRate(); }
public int channels() { return original.channels(); }
public DoubleRange bounds() { return original.bounds(); }
public double sampleSum(int channel, double start, double end) {
return original.sampleSum(channel, start, end)*factor;
}
// coalesce consecutive gains
public IAudioSample gain(double factor) {
return original.gain(this.factor*factor);
}
}
// Implementation of the time-shift modifier.
// moves the input samples to the left (cuts off beginning).
// Shift can be fractional - we're in integral image (audio) wonderland after all
// where a traditional pixel has no meaning.
static class TimeShift implements IAudioSample , IFieldsToList{
double shift;
IAudioSample original;
TimeShift() {}
TimeShift(double shift, IAudioSample original) {
this.original = original;
this.shift = shift;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + shift + ", " + original + ")"; }public Object[] _fieldsToList() { return new Object[] {shift, original}; }
public double sampleRate() { return original.sampleRate(); }
public int channels() { return original.channels(); }
public DoubleRange bounds() { return shiftDoubleRange(original.bounds(), -shift); }
public double sampleSum(int channel, double start, double end) {
return original.sampleSum(channel, start+shift, end+shift);
}
// coalesce consecutive time-shifts
public IAudioSample timeShift(double shift) {
return original.timeShift(this.shift+shift);
}
}
// Implementation of the speed-up modifier which transforms every frequency f to f*factor.
// This is for convenience, you could also just call sampleSum() directly with larger intervals.
static class SpeedUp implements IAudioSample {
double factor, invFactor;
IAudioSample original;
SpeedUp(double factor, IAudioSample original) {
this.original = original;
this.factor = factor;
if (factor < 1) throw fail("Can't slow down. " + factor);
invFactor = 1/factor;
}
public double sampleRate() { return original.sampleRate()*invFactor; }
public int channels() { return original.channels(); }
public DoubleRange bounds() { return scaleDoubleRange(original.bounds(), invFactor); }
public double sampleSum(int channel, double start, double end) {
return original.sampleSum(channel, start*factor, end*factor)*invFactor;
}
// coalesce consecutive speed-ups
public IAudioSample speedUp(double factor) {
return original.speedUp(this.factor*factor);
}
}
}
static interface IMeta {
// see class "Meta" for the bla bla
public void _setMeta(Object meta);
public Object _getMeta();
default public IAutoCloseableF0 _tempMetaMutex() {
return new IAutoCloseableF0() {
public Object get() { return IMeta.this; }
public void close() {}
};
}
}
static class RegisteredReference implements IRef {
Meta owner; // all we require is a meta field
A value;
RegisteredReference() {
//if (!dynamicObjectIsLoading()) registerRef();
}
/*void registerRef {
vmBus_send registeringReference(this);
}*/
// Note that the single-argument constructor takes an owner, not a value
RegisteredReference(Meta owner) {
this(owner, null);
}
RegisteredReference(Meta owner, A value) {
this.value = value;
this.owner = owner;
index();
//registerRef();
}
// get owning object (source)
Meta owner() { return owner; }
// get target
public A get() { return value; }
public boolean has() { return value != null; }
public boolean set_trueIfChanged(A a) {
if (eq(a, value)) return false;
unindex();
value = a;
index();
return true;
}
public void set(A a) {
set_trueIfChanged(a);
}
void setIfEmpty(A a) {
if (!has()) set(a);
}
public void set(IRef ref) { set(ref == null ? null : ref.get()); }
public void clear() { set((A) null); }
// can override
boolean validRef() { return true; }
// TODO: sync all the indexing and unindexing!?
void index() {
if (!validRef()) return;
var br = lookupInterface(IHasBackRefs.class, get());
{ if (br != null) br._registerBackRef(this); }
}
void unindex() {
if (!validRef()) return;
var br = lookupInterface(IHasBackRefs.class, get());
{ if (br != null) br._unregisterBackRef(this); }
}
// not used yet
void change() {}
public String toString() {
return
str(value);
}
}
static interface WidthAndHeight {
int getWidth();
int getHeight();
}
static interface IHasBackRefs {
public void _registerBackRef(IRef ref);
public void _unregisterBackRef(IRef ref);
}
// could almost add IVar here - but void set() and bool set() are incompatible in some places
static interface IRef extends IF0 {
// called by the referencee to atomically replace itself
// Passing oldValue to avoid race conditions
public default void replaceValue(A oldValue, A newValue) {}
}
static interface IAutoCloseableF0 extends IF0 , AutoCloseable {}
static boolean isAbstract(Class c) {
return (c.getModifiers() & Modifier.ABSTRACT) != 0;
}
static boolean isAbstract(Method m) {
return (m.getModifiers() & Modifier.ABSTRACT) != 0;
}
static boolean reflection_isForbiddenMethod(Method m) {
return m.getDeclaringClass() == Object.class
&& eqOneOf(m.getName(), "finalize", "clone", "registerNatives");
}
static Set allInterfacesImplementedBy(Class c) {
if (c == null) return null;
HashSet set = new HashSet();
allInterfacesImplementedBy_find(c, set);
return set;
}
static void allInterfacesImplementedBy_find(Class c, Set set) {
if (c.isInterface() && !set.add(c)) return;
do {
for (Class intf : c.getInterfaces())
allInterfacesImplementedBy_find(intf, set);
} while ((c = c.getSuperclass()) != null);
}
static Method findMethod(Object o, String method, Object... args) {
return findMethod_cached(o, method, args);
}
static boolean findMethod_checkArgs(Method m, Object[] args, boolean debug) {
Class>[] types = m.getParameterTypes();
if (types.length != args.length) {
if (debug)
System.out.println("Bad parameter length: " + args.length + " vs " + types.length);
return false;
}
for (int i = 0; i < types.length; i++)
if (!(args[i] == null || isInstanceX(types[i], args[i]))) {
if (debug)
System.out.println("Bad parameter " + i + ": " + args[i] + " vs " + types[i]);
return false;
}
return true;
}
static Method findStaticMethod(Class c, String method, Object... args) {
Class _c = c;
while (c != null) {
for (Method m : c.getDeclaredMethods()) {
if (!m.getName().equals(method))
continue;
if ((m.getModifiers() & Modifier.STATIC) == 0 || !findStaticMethod_checkArgs(m, args))
continue;
return m;
}
c = c.getSuperclass();
}
return null;
}
static boolean findStaticMethod_checkArgs(Method m, Object[] args) {
Class>[] types = m.getParameterTypes();
if (types.length != args.length)
return false;
for (int i = 0; i < types.length; i++)
if (!(args[i] == null || isInstanceX(types[i], args[i])))
return false;
return true;
}
static String unquote(String s) {
if (s == null) return null;
if (startsWith(s, '[')) {
int i = 1;
while (i < s.length() && s.charAt(i) == '=') ++i;
if (i < s.length() && s.charAt(i) == '[') {
String m = s.substring(1, i);
if (s.endsWith("]" + m + "]"))
return s.substring(i+1, s.length()-i-1);
}
}
if (s.length() > 1) {
char c = s.charAt(0);
if (c == '\"' || c == '\'') {
int l = endsWith(s, c) ? s.length()-1 : s.length();
StringBuilder sb = new StringBuilder(l-1);
for (int i = 1; i < l; i++) {
char ch = s.charAt(i);
if (ch == '\\') {
char nextChar = (i == l - 1) ? '\\' : s.charAt(i + 1);
// Octal escape?
if (nextChar >= '0' && nextChar <= '7') {
String code = "" + nextChar;
i++;
if ((i < l - 1) && s.charAt(i + 1) >= '0'
&& s.charAt(i + 1) <= '7') {
code += s.charAt(i + 1);
i++;
if ((i < l - 1) && s.charAt(i + 1) >= '0'
&& s.charAt(i + 1) <= '7') {
code += s.charAt(i + 1);
i++;
}
}
sb.append((char) Integer.parseInt(code, 8));
continue;
}
switch (nextChar) {
case '\"': ch = '\"'; break;
case '\\': ch = '\\'; break;
case 'b': ch = '\b'; break;
case 'f': ch = '\f'; break;
case 'n': ch = '\n'; break;
case 'r': ch = '\r'; break;
case 't': ch = '\t'; break;
case '\'': ch = '\''; break;
// Hex Unicode: u????
case 'u':
if (i >= l - 5) {
ch = 'u';
break;
}
int code = Integer.parseInt(
"" + s.charAt(i + 2) + s.charAt(i + 3)
+ s.charAt(i + 4) + s.charAt(i + 5), 16);
sb.append(Character.toChars(code));
i += 5;
continue;
default:
ch = nextChar; // added by Stefan
}
i++;
}
sb.append(ch);
}
return sb.toString();
}
}
return s; // not quoted - return original
}
static List quoteAll(Collection l) {
List x = new ArrayList();
for (String s : l)
x.add(quote(s));
return x;
}
static int _hashCode(Object a) {
return a == null ? 0 : a.hashCode();
}
static ArrayList toList(A[] a) { return asList(a); }
static ArrayList toList(int[] a) { return asList(a); }
static ArrayList toList(Set s) { return asList(s); }
static ArrayList toList(Iterable s) { return asList(s); }
static boolean arraysEqual(Object[] a, Object[] b) {
if (a.length != b.length) return false;
for (int i = 0; i < a.length; i++)
if (neq(a[i], b[i])) return false;
return true;
}
static void fillArrayUnlessZero(byte[] a, byte value) {
if (value != 0) Arrays.fill(a, value);
}
static void fillArrayUnlessZero(int[] a, int value) {
if (value != 0) Arrays.fill(a, value);
}
static void fillArrayUnlessZero(float[] a, float value) {
if (value != 0) Arrays.fill(a, value);
}
static boolean inRange(int x, int n) {
return x >= 0 && x < n;
}
static boolean inRange(int x, int a, int b) {
return x >= a && x < b;
}
static int ubyteToInt(byte b) {
return b & 0x0FF;
}
static int ubyteToInt(char c) {
return c & 0x0FF;
}
static int getPixel(BufferedImage img, int x, int y) {
return img.getRGB(x, y);
}
static int getPixel(BufferedImage img, Pt p) {
return img.getRGB(p.x, p.y);
}
static int limitToUByte(int i) {
return max(0, min(255, i));
}
static int boostHashCombine(int a, int b) {
return a ^ (b + 0x9e3779b9 + (a << 6) + (a >> 2));
}
static double sqrt(double x) {
return Math.sqrt(x);
}
static int min(int a, int b) {
return Math.min(a, b);
}
static long min(long a, long b) {
return Math.min(a, b);
}
static float min(float a, float b) { return Math.min(a, b); }
static float min(float a, float b, float c) { return min(min(a, b), c); }
static double min(double a, double b) {
return Math.min(a, b);
}
static double min(double[] c) {
double x = Double.MAX_VALUE;
for (double d : c) x = Math.min(x, d);
return x;
}
static float min(float[] c) {
float x = Float.MAX_VALUE;
for (float d : c) x = Math.min(x, d);
return x;
}
static byte min(byte[] c) {
byte x = 127;
for (byte d : c) if (d < x) x = d;
return x;
}
static short min(short[] c) {
short x = 0x7FFF;
for (short d : c) if (d < x) x = d;
return x;
}
static int min(int[] c) {
int x = Integer.MAX_VALUE;
for (int d : c) if (d < x) x = d;
return x;
}
static short clampToShort(int i) {
return (short) clamp(i, Short.MIN_VALUE, Short.MAX_VALUE);
}
// better modulo that gives positive numbers always
static int mod(int n, int m) {
return (n % m + m) % m;
}
static long mod(long n, long m) {
return (n % m + m) % m;
}
static BigInteger mod(BigInteger n, int m) {
return n.mod(bigint(m));
}
static double mod(double n, double m) {
return (n % m + m) % m;
}
static Set> entrySet(Map map) {
return _entrySet(map);
}
static void remove(List l, int i) {
if (l != null && i >= 0 && i < l(l))
l.remove(i);
}
static void remove(Collection l, A a) {
if (l != null) l.remove(a);
}
static B remove(Map map, Object a) {
return map == null ? null : map.remove(a);
}
static Method hashMap_findKey_method;
static A hashMap_findKey(HashMap map, Object key) { try {
if (hashMap_findKey_method == null)
hashMap_findKey_method = findMethodNamed(HashMap.class, "getNode");
Map.Entry entry = (Map.Entry) hashMap_findKey_method.invoke(map, hashMap_internalHash(key), key);
// java.util.Map.Entry entry = (java.util.Map.Entry) call(hash, 'getNode, hashMap_internalHash(key), wkey);
return entry == null ? null : entry.getKey();
} catch (Exception __e) { throw rethrow(__e); } }
static Pt pt(int x, int y) {
return new Pt(x, y);
}
static Pt pt(int x) {
return new Pt(x, x);
}
static int getWidth(Component c) {
return c == null ? 0 : (int) swingCall(c, "getWidth");
}
static int getHeight(Component c) {
return c == null ? 0 : (int) swingCall(c, "getHeight");
}
static int areaFromPoints(int x1, int y1, int x2, int y2) {
return (x1-x1)*(y2-y1);
}
static int rectArea(Rect r) {
return r == null ? 0 : r.w*r.h;
}
static Rect toRect_floor(DoubleRect r) {
if (r == null) return null;
int x = ifloor(r.x), y = ifloor(r.y);
return new Rect(x, y, ifloor(r.x2())-x, ifloor(r.y2())-y);
}
static int rgbInt(int r, int g, int b) {
return (clamp(r, 0, 255) << 16) | (clamp(g, 0, 255) << 8) | clamp(b, 0, 255);
}
static int fullAlphaMask() {
return 0xFF000000;
}
// from: https://stackoverflow.com/questions/14416107/int-array-to-bufferedimage
// pixels are RGB pixels
static BufferedImage intArrayToBufferedImage(int[] pixels, int w, int h) {
int[] bitMasks = new int[]{0xFF0000, 0xFF00, 0xFF, 0xFF000000};
SinglePixelPackedSampleModel sm = new SinglePixelPackedSampleModel(DataBuffer.TYPE_INT, w, h, bitMasks);
DataBufferInt db = new DataBufferInt(pixels, pixels.length);
WritableRaster wr = Raster.createWritableRaster(sm, db, new Point());
return new BufferedImage(ColorModel.getRGBdefault(), wr, false, null);
}
static String shortClassName_dropNumberPrefix(Object o) {
return dropNumberPrefix(shortClassName(o));
}
static int hashCodeFor(Object a) {
return a == null ? 0 : a.hashCode();
}
static UnsupportedOperationException unsupportedOperation() {
throw new UnsupportedOperationException();
}
static ThreadLocal componentPopupMenu_mouseEvent;
static void componentPopupMenu_init() {
{ swing(new Runnable() { public void run() { try {
if (componentPopupMenu_mouseEvent == null)
componentPopupMenu_mouseEvent = (ThreadLocal) vm_generalMap_get("mouseEvent");
if (componentPopupMenu_mouseEvent == null)
vm_generalMap_put("componentPopupMenu_mouseEvent" , componentPopupMenu_mouseEvent = new ThreadLocal());
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "if (componentPopupMenu_mouseEvent == null)\r\n componentPopupMenu_mouseEve..."; }}); }
}
// menuMaker = voidfunc(JPopupMenu)
static void componentPopupMenu(final JComponent component, final Object menuMaker) {
if (component == null || menuMaker == null) return;
{ swing(new Runnable() { public void run() { try {
Object adapter = componentPopupMenu_initForComponent(component);
((List) _get(adapter, "maker")).add(menuMaker);
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "Object adapter = componentPopupMenu_initForComponent(component);\r\n ((List)..."; }}); }
}
static Object componentPopupMenu_initForComponent(final JComponent component) {
return component == null ? null : swing(new F0() { public Object get() { try {
componentPopupMenu_init();
Object adapter = findComponentPopupMenuListener_gen(component);
if (adapter == null) {
componentPopupMenu_Adapter a = new componentPopupMenu_Adapter();
//addMouseListener_inFront(component, a);
component.addMouseListener(a);
adapter = a;
}
return adapter;
} catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "componentPopupMenu_init();\r\n O adapter = findComponentPopupMenuListener_ge..."; }});
}
static class componentPopupMenu_Adapter extends MouseAdapter {
List maker = new ArrayList();
boolean internalFrameLeftButtonMagic = false;
boolean allowScrolling = true;
Point pressedAt;
public void mousePressed(MouseEvent e) {
displayMenu(e);
pressedAt = internalFrameLeftButtonMagic && e.getClickCount() == 1 && internalFrameActive(e.getComponent()) ? e.getLocationOnScreen() : null;
}
public void mouseReleased(MouseEvent e) {
// TODO: show a little less often on left mouse click
if (internalFrameLeftButtonMagic && eq(pressedAt, e.getLocationOnScreen()))
displayMenu2(e);
else
displayMenu(e);
}
void displayMenu(MouseEvent e) {
if (e.getSource() instanceof JInternalFrame) return;
if (e.isPopupTrigger()) displayMenu2(e);
}
void populate(JPopupMenu menu, MouseEvent e) {
AutoCloseable __1 = tempSetTL(componentPopupMenu_mouseEvent, e); try {
for (Object menuMaker : maker)
pcallF(menuMaker, menu);
vmBus_send("showingPopupMenu", e.getComponent(), menu);
} finally { _close(__1); }}
void displayMenu2(MouseEvent e) {
JPopupMenu menu = new JPopupMenu();
int emptyCount = menu.getComponentCount();
populate(menu, e);
if (menu.getComponentCount() == emptyCount)
return;
if (allowScrolling) {
menu = new JPopupMenu();
JMenuScroller scroller = JMenuScroller.setScrollerFor(menu);
scroller.fillMenu = new VF1() { public void get(JPopupMenu m) { try { populate(m, e) ; } catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "populate(m, e)"; }};
}
menu.show(e.getComponent(), e.getX(), e.getY());
}
}
static boolean swic(String a, String b) {
return startsWithIgnoreCase(a, b);
}
static boolean swic(String a, String b, Matches m) {
if (!swic(a, b)) return false;
m.m = new String[] {substring(a, l(b))};
return true;
}
static A setToolTipText(final A c, final Object toolTip) {
if (c == null) return null;
{ swing(new Runnable() { public void run() { try {
String s = nullIfEmpty(str(toolTip));
if (neq(s, c.getToolTipText()))
c.setToolTipText(s);
} catch (Exception __e) { throw rethrow(__e); } } public String toString() { return "String s = nullIfEmpty(str(toolTip));\r\n if (neq(s, c.getToolTipText()))\r\n ..."; }}); }
return c;
}
static A setToolTipText(Object toolTip, A c) {
return setToolTipText(c, toolTip);
}
static String nullIfEmpty(String s) {
return isEmpty(s) ? null : s;
}
static Map nullIfEmpty(Map map) {
return isEmpty(map) ? null : map;
}
static List nullIfEmpty(List l) {
return isEmpty(l) ? null : l;
}
static void addMenuItem(JPopupMenu menu, String text, Object action) {
menu.add(jmenuItem(text, action));
}
static void addMenuItem(JPopupMenu menu, JMenuItem menuItem) {
menu.add(menuItem);
}
static void addMenuItem(JMenu menu, String text, Object action) {
menu.add(jmenuItem(text, action));
}
static void addMenuItem(Menu menu, String text, Object action) {
menu.add(menuItem(text, action));
}
static void addMenuItem(JMenu menu, JMenuItem menuItem) {
menu.add(menuItem);
}
static void addMenuItem(JMenuBar menuBar, String text, Runnable action) {
addMenuItem(menuBar, jmenuItem(text, action));
}
static void addMenuItem(JMenuBar menuBar, JMenuItem menuItem) {
addDirectMenuItem(menuBar, menuItem);
}
static String copyTextToClipboard(Object _text) {
String text = str(_text);
StringSelection selection = new StringSelection(text);
Toolkit.getDefaultToolkit().getSystemClipboard().setContents(selection, selection);
vmBus_send("newClipboardContents", text);
return text;
}
static BufferedImage loadImage2(String snippetIDOrURL) {
return loadBufferedImage(snippetIDOrURL);
}
static BufferedImage loadImage2(File file) {
return loadBufferedImage(file);
}
static BufferedImage toBufferedImage(Object o) {
return toBufferedImageOpt(o);
}
static Boolean grabbableIntPixels_succeeded;
static boolean grabbableIntPixels_enable = true;
static GrabbableIntPixels grabbableIntPixels(BufferedImage img) {
if (img == null || !grabbableIntPixels_enable) return null;
try {
var result = grabbableIntPixels_impl(img);
grabbableIntPixels_succeeded = result != null;
return result;
} catch (Throwable _e) {
grabbableIntPixels_succeeded = false;
throw rethrow(_e); }
}
static GrabbableIntPixels grabbableIntPixels_impl(BufferedImage img) {
Raster raster = img.getRaster();
SampleModel _sampleModel = raster.getSampleModel();
if (!(_sampleModel instanceof SinglePixelPackedSampleModel)) return null;
SinglePixelPackedSampleModel sampleModel = (SinglePixelPackedSampleModel) _sampleModel;
DataBufferInt dataBuffer = (DataBufferInt) (raster.getDataBuffer());
assertEquals(1, dataBuffer.getNumBanks());
assertEquals(DataBuffer.TYPE_INT, dataBuffer.getDataType());
// Let's at this point assume the raster data is what we
// think it is... (TODO: test on unusual platforms)
int w = img.getWidth(), h = img.getHeight();
int scanlineStride = sampleModel.getScanlineStride();
int[] pixels = dataBuffer.getData();
int offset = dataBuffer.getOffset();
int translateX = raster.getSampleModelTranslateX();
int translateY = raster.getSampleModelTranslateY();
offset += -translateX-translateY*scanlineStride;
return new GrabbableIntPixels(pixels, w, h, offset, scanlineStride);
}
static int bwIntegralImage_sumRect(BWIntegralImage img, int x1, int y1, int x2, int y2) {
int bottomLeft = img.getIIValue(x1-1, y2-1);
int bottomRight = img.getIIValue(x2-1, y2-1);
int topLeft = img.getIIValue(x1-1, y1-1);
int topRight = img.getIIValue(x2-1, y1-1);
return bottomRight+topLeft-topRight-bottomLeft;
}
static int bwIntegralImage_sumRect(IBWIntegralImage img, int x1, int y1, int x2, int y2) {
int bottomLeft = img.getIIValue(x1-1, y2-1);
int bottomRight = img.getIIValue(x2-1, y2-1);
int topLeft = img.getIIValue(x1-1, y1-1);
int topRight = img.getIIValue(x2-1, y1-1);
return bottomRight+topLeft-topRight-bottomLeft;
}
static BWImage scaleDownUsingIntegralImageBW(int w, BWIntegralImage img) {
return scaleDownUsingIntegralImageBW(img, w);
}
static BWImage scaleDownUsingIntegralImageBW(BWIntegralImage img, int w) {
return scaleDownUsingIntegralImageBW(img, w, iround(w*img.h/(double) img.w));
}
static BWImage scaleDownUsingIntegralImageBW(BWIntegralImage img, int w, int h) {
int w1 = img.w, h1 = img.h;
BWImage out = new BWImage(w, h);
for (int y = 0; y < h; y++)
for (int x = 0; x < w; x++) {
int x1 = x*w1/w, x2 = max(x1+1, (x+1)*w1/w);
int y1 = y*h1/h, y2 = max(y1+1, (y+1)*h1/h);
int area = (x2-x1)*(y2-y1);
int pixel = bwIntegralImage_sumRect(img, x1, y1, x2, y2)/area;
out.setByte(x, y, (byte) pixel);
}
return out;
}
static BWImage scaleDownUsingIntegralImageBW(IBWIntegralImage img, int w) { return scaleDownUsingIntegralImageBW(img, w, iround(w*img.getHeight()/(double) img.getWidth())); }
static BWImage scaleDownUsingIntegralImageBW(IBWIntegralImage img, int w, int h) {
int w1 = img.getWidth(), h1 = img.getHeight();
BWImage out = new BWImage(w, h);
for (int y = 0; y < h; y++)
for (int x = 0; x < w; x++) {
int x1 = x*w1/w, x2 = max(x1+1, (x+1)*w1/w);
int y1 = y*h1/h, y2 = max(y1+1, (y+1)*h1/h);
int area = (x2-x1)*(y2-y1);
int pixel = bwIntegralImage_sumRect(img, x1, y1, x2, y2)/area;
out.setByte(x, y, (byte) pixel);
}
return out;
}
static boolean stdEq2(Object a, Object b) {
if (a == null) return b == null;
if (b == null) return false;
if (a.getClass() != b.getClass()) return false;
for (String field : allFields(a))
if (neq(getOpt(a, field), getOpt(b, field)))
return false;
return true;
}
static int stdHash2(Object a) {
if (a == null) return 0;
return stdHash(a, toStringArray(allFields(a)));
}
static int cmp(Number a, Number b) {
return a == null ? b == null ? 0 : -1 : cmp(a.doubleValue(), b.doubleValue());
}
static int cmp(double a, double b) {
return a < b ? -1 : a == b ? 0 : 1;
}
static int cmp(int a, int b) {
return a < b ? -1 : a == b ? 0 : 1;
}
static int cmp(long a, long b) {
return a < b ? -1 : a == b ? 0 : 1;
}
static int cmp(Object a, Object b) {
if (a == null) return b == null ? 0 : -1;
if (b == null) return 1;
return ((Comparable) a).compareTo(b);
}
static boolean nempty(Collection c) {
return !empty(c);
}
static boolean nempty(CharSequence s) {
return !empty(s);
}
static boolean nempty(Object[] o) { return !empty(o); }
static boolean nempty(byte[] o) { return !empty(o); }
static boolean nempty(int[] o) { return !empty(o); }
static boolean nempty(Map m) {
return !empty(m);
}
static boolean nempty(Iterator i) {
return i != null && i.hasNext();
}
static boolean nempty(Object o) { return !empty(o); }
static boolean nempty(Rect r) { return r != null && r.w != 0 && r.h != 0; }
static void metaMapPut(IMeta o, Object key, Object value) {
if (o == null || key == null) return;
Map map = convertObjectMetaToMap(o);
syncMapPutOrRemove(map, key, value);
}
// untested...
/*svoid metaMapPut(IMeta o, O key, O value, IMapImplementationPolicy policy) {
if (o == null || key == null) ret;
if (policy == null) ret with metaMapPut(o, key, value);
// no shortcuts in this function, always get mutex & lock
temp var mutex = tempMetaMutex(o);
synchronized(mutex!) {
O meta = o._getMeta();
// create map if necessary
Map map = null;
if (meta cast Map)
map = meta;
else if (meta != null)
map = policy.put(map, previousMeta := meta);
// putOrRemove through policy
if (value != null)
map = policy.put(map, key, value);
else
map = policy.remove(map, key);
if (map != meta) o._setMeta(map);
}
}*/
static Object metaMapGet(IMeta o, Object key) {
if (o == null || key == null) return null;
Object meta = o._getMeta();
if (meta instanceof Map) return ((Map) meta).get(key);
return null;
}
static boolean contains(Collection c, Object o) {
return c != null && c.contains(o);
}
static boolean contains(Iterable it, Object a) {
if (it != null)
for (Object o : it)
if (eq(a, o))
return true;
return false;
}
static boolean contains(Object[] x, Object o) {
if (x != null)
for (Object a : x)
if (eq(a, o))
return true;
return false;
}
static boolean contains(String s, char c) {
return s != null && s.indexOf(c) >= 0;
}
static boolean contains(String s, String b) {
return s != null && s.indexOf(b) >= 0;
}
static boolean contains(BitSet bs, int i) {
return bs != null && bs.get(i);
}
static int safeToInt(Object o) {
return toInt(o);
}
static int safeToInt(long l) {
return toInt(l);
}
static long ushortToLong(short i) {
return i & 0xFFFFL;
}
static int asInt(Object o) {
return toInt(o);
}
static BufferedImage clipBufferedImage(BufferedImage src, Rectangle clip) {
return clipBufferedImage(src, new Rect(clip));
}
static BufferedImage clipBufferedImage(BufferedImage src, Rect r) {
if (src == null || r == null) return null;
// fixClipRect
r = intersectRects(r, new Rect(0, 0, src.getWidth(), src.getHeight()));
if (rectEmpty(r)) return null; // can't make zero-sized BufferedImage
return src.getSubimage(r.x, r.y, r.w, r.h);
}
static BufferedImage clipBufferedImage(BufferedImage src, int x, int y, int w, int h) {
return clipBufferedImage(src, new Rect(x, y, w, h));
}
static int length(Object[] array) {
return array == null ? 0 : array.length;
}
static int length(List list) {
return list == null ? 0 : list.size();
}
static int length(String s) {
return s == null ? 0 : s.length();
}
static BufferedImage imageFromFunction(int w, IF2_Int f) { return imageFromFunction(w, w, f); }
static BufferedImage imageFromFunction(int w, int h, IF2_Int f) {
int[] pixels = new int[w*h];
int i = 0;
for (int y = 0; y < h; y++)
for (int x = 0; x < w; x++)
pixels[i++] = f.get(x, y);
return intArrayToBufferedImage(pixels, w, h);
}
static int rgbIntFullAlpha(int r, int g, int b) {
return (clamp(r, 0, 255) << 16) | (clamp(g, 0, 255) << 8) | clamp(b, 0, 255) | fullAlphaMask();
}
static BufferedImage mergeBufferedImagesVertically(BufferedImage... images) {
return mergeBufferedImagesVertically(asList(images));
}
static BufferedImage mergeBufferedImagesVertically(Collection images, Object... __) {
if (l(images) == 1) return first(images);
return mergeImagesVertically(map(__34 -> toRGBImage(__34), images), __).getBufferedImage();
}
static List countIteratorToList(int b) { return countIteratorToList(0, b); }
static List countIteratorToList(int a, int b) {
return asList(countIterator(a, b));
}
static List countIteratorToList(int b, IF1 f) { return countIteratorToList(0, b, f); }
static List countIteratorToList(int a, int b, IF1 f) {
return asList(countIterator(a, b, f));
}
static List countIteratorToList(int a, int b, int step) {
return asList(countIterator(a, b, step));
}
static