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.*;
// A = tag type
import static x30_pkg.x30_util.DynamicObject;
class main {
static class USwitchByBrightness<A> implements IIIRecognizer<A> , IFieldsToList{
NavigableMap<Double, A> brightnessToValue;
USwitchByBrightness() {}
USwitchByBrightness(NavigableMap<Double, A> brightnessToValue) {
this.brightnessToValue = brightnessToValue;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + brightnessToValue + ")"; }public Object[] _fieldsToList() { return new Object[] {brightnessToValue}; }
public void run(
IProbabilisticScheduler scheduler,
IIntegralImage img,
IVF1<A> valueToAction) {
new ProbabilisticDistanceBasedLookup(
scheduler, brightnessToValue,
brightness -> valueToAction.get(brightnessToValue.get(brightness)),
img.averageBrightness())
.run();
}
}
static String shortClassName_dropNumberPrefix(Object o) {
return dropNumberPrefix(shortClassName(o));
}
static String dropNumberPrefix(String s) {
return dropFirst(s, indexOfNonDigit(s));
}
static String shortClassName(Object o) {
if (o == null) return null;
Class c = o instanceof Class ? (Class) o : o.getClass();
String name = c.getName();
return shortenClassName(name);
}
static String[] dropFirst(int n, String[] a) {
return drop(n, a);
}
static String[] dropFirst(String[] a) {
return drop(1, a);
}
static Object[] dropFirst(Object[] a) {
return drop(1, a);
}
static <A> List<A> dropFirst(List<A> l) {
return dropFirst(1, l);
}
static <A> List<A> dropFirst(int n, Iterable<A> i) { return dropFirst(n, toList(i)); }
static <A> List<A> dropFirst(Iterable<A> i) { return dropFirst(toList(i)); }
static <A> List<A> dropFirst(int n, List<A> l) {
return n <= 0 ? l : new ArrayList(l.subList(Math.min(n, l.size()), l.size()));
}
static <A> List<A> dropFirst(List<A> l, int n) {
return dropFirst(n, l);
}
static String dropFirst(int n, String s) { return substring(s, n); }
static String dropFirst(String s, int n) { return substring(s, n); }
static String dropFirst(String s) { return substring(s, 1); }
static int indexOfNonDigit(String s) {
int n = l(s);
for (int i = 0; i < n; i++)
if (!isDigit(s.charAt(i)))
return i;
return -1;
}
static String shortenClassName(String name) {
if (name == null) return null;
int i = lastIndexOf(name, "$");
if (i < 0) i = lastIndexOf(name, ".");
return i < 0 ? name : substring(name, i+1);
}
static String[] drop(int n, String[] a) {
n = Math.min(n, a.length);
String[] b = new String[a.length-n];
System.arraycopy(a, n, b, 0, b.length);
return b;
}
static Object[] drop(int n, Object[] a) {
n = Math.min(n, a.length);
Object[] b = new Object[a.length-n];
System.arraycopy(a, n, b, 0, b.length);
return b;
}
static <A> ArrayList<A> toList(A[] a) { return asList(a); }
static ArrayList<Integer> toList(int[] a) { return asList(a); }
static <A> ArrayList<A> toList(Set<A> s) { return asList(s); }
static <A> ArrayList<A> toList(Iterable<A> s) { return asList(s); }
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 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 boolean isDigit(char c) {
return Character.isDigit(c);
}
static int lastIndexOf(String a, String b) {
return a == null || b == null ? -1 : a.lastIndexOf(b);
}
static int lastIndexOf(String a, char b) {
return a == null ? -1 : a.lastIndexOf(b);
}
// starts searching from i-1
static <A> int lastIndexOf(List<A> l, int i, A a) {
if (l == null) return -1;
for (i = min(l(l), i)-1; i >= 0; i--)
if (eq(l.get(i), a))
return i;
return -1;
}
static <A> int lastIndexOf(List<A> l, A a) {
if (l == null) return -1;
for (int i = l(l)-1; i >= 0; i--)
if (eq(l.get(i), a))
return i;
return -1;
}
// unclear semantics as to whether return null on null
static <A> ArrayList<A> asList(A[] a) {
return a == null ? new ArrayList<A>() : new ArrayList<A>(Arrays.asList(a));
}
static ArrayList<Integer> asList(int[] a) {
if (a == null) return null;
ArrayList<Integer> l = emptyList(a.length);
for (int i : a) l.add(i);
return l;
}
static ArrayList<Long> asList(long[] a) {
if (a == null) return null;
ArrayList<Long> l = emptyList(a.length);
for (long i : a) l.add(i);
return l;
}
static ArrayList<Float> asList(float[] a) {
if (a == null) return null;
ArrayList<Float> l = emptyList(a.length);
for (float i : a) l.add(i);
return l;
}
static ArrayList<Double> asList(double[] a) {
if (a == null) return null;
ArrayList<Double> l = emptyList(a.length);
for (double i : a) l.add(i);
return l;
}
static <A> ArrayList<A> asList(Iterator<A> it) {
ArrayList l = new ArrayList();
if (it != null)
while (it.hasNext())
l.add(it.next());
return l;
}
// disambiguation
static <A> ArrayList<A> asList(IterableIterator<A> s) {
return asList((Iterator) s);
}
static <A> ArrayList<A> asList(Iterable<A> 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 <A> ArrayList<A> asList(Enumeration<A> e) {
ArrayList l = new ArrayList();
if (e != null)
while (e.hasMoreElements())
l.add(e.nextElement());
return l;
}
static int strL(String s) {
return s == null ? 0 : s.length();
}
static int lCharSequence(CharSequence s) {
return s == null ? 0 : s.length();
}
static <A> int iteratorCount_int_close(Iterator<A> 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 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 boolean eq(Object a, Object b) {
return a == b || a != null && b != null && a.equals(b);
}
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 <A> ArrayList<A> emptyList(Class<A> c) {
return new ArrayList();
}
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);
}
static Map<Class, ArrayList<Method>> callF_cache = newDangerousWeakHashMap();
static <A> A callF(F0<A> f) {
return f == null ? null : f.get();
}
static <A, B> B callF(F1<A, B> f, A a) {
return f == null ? null : f.get(a);
}
static <A> A callF(IF0<A> f) {
return f == null ? null : f.get();
}
static <A, B> B callF(IF1<A, B> f, A a) {
return f == null ? null : f.get(a);
}
static <A, B, C> C callF(IF2<A, B, C> f, A a, B b) {
return f == null ? null : f.get(a, b);
}
static <A> void callF(VF1<A> 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<Method> 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<Method> callF_makeCache(Class c) {
ArrayList<Method> 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;
}
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<Method> 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<Method> 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 String str(Object o) {
return o == null ? "null" : o.toString();
}
static String str(char[] c) {
return new String(c);
}
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<Integer> 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 void _handleError(Error e) {
call(javax(), "_handleError", e);
}
static <A, B> Map<A, B> newDangerousWeakHashMap() {
return _registerDangerousWeakMap(synchroMap(new WeakHashMap()));
}
// initFunction: voidfunc(Map) - is called initially, and after clearing the map
static <A, B> Map<A, B> newDangerousWeakHashMap(Object initFunction) {
return _registerDangerousWeakMap(synchroMap(new WeakHashMap()), initFunction);
}
static Object callMCWithVarArgs(String method, Object... args) {
return call_withVarargs(mc(), method, args);
}
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 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 final Map<Class, _MethodCache> 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 <A> String joinWithComma(Collection<A> 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 List<String> classNames(Collection l) {
return getClassNames(l);
}
static List<String> classNames(Object[] l) {
return getClassNames(Arrays.asList(l));
}
static Class javax() {
return getJavaX();
}
static List<Pair> _registerDangerousWeakMap_preList;
static <A> A _registerDangerousWeakMap(A map) {
return _registerDangerousWeakMap(map, null);
}
static <A> A _registerDangerousWeakMap(A map, Object init) {
callF(init, map);
if (init instanceof String) {
final String f = (String) init;
init = new VF1<Map>() { 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 Map synchroMap() {
return synchroHashMap();
}
static <A, B> Map<A, B> synchroMap(Map<A, B> map) {
return Collections.synchronizedMap(map);
}
static Class mc() {
return main.class;
}
static RuntimeException asRuntimeException(Throwable t) {
if (t instanceof Error)
_handleError((Error) t);
return t instanceof RuntimeException ? (RuntimeException) t : new RuntimeException(t);
}
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 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<Object> print_byThread; // special handling by thread - prefers F1<S, Bool>
static volatile Object print_allThreads;
static volatile Object print_preprocess;
static void print() {
print("");
}
static <A> A print(String s, A o) {
print(combinePrintParameters(s, o));
return o;
}
// slightly overblown signature to return original object...
static <A> 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 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 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> A[] arrayOfType(Class<A> type, int n) {
return makeArray(type, n);
}
static <A> A[] arrayOfType(int n, Class<A> type) {
return arrayOfType(type, n);
}
public static <A> String join(String glue, Iterable<A> strings) {
if (strings == null) return "";
if (strings instanceof Collection) {
if (((Collection) strings).size() == 1) return str(first(((Collection) strings)));
}
StringBuilder buf = new StringBuilder();
Iterator<A> 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 <A> String join(Iterable<A> strings) {
return join("", strings);
}
static <A> String join(Iterable<A> 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 List<String> getClassNames(Collection l) {
List<String> out = new ArrayList();
if (l != null) for (Object o : l)
out.add(o == null ? null : getClassName(o));
return out;
}
static AutoCloseable tempInterceptPrintIfNotIntercepted(F1<String, Boolean> f) {
return print_byThread().get() == null ? tempInterceptPrint(f) : null;
}
static Class __javax;
static Class getJavaX() { try {
return __javax;
} catch (Exception __e) { throw rethrow(__e); } }
static HashMap<String, List<Method>> 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<Method> 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 <A> List<A> synchroList() {
return synchroList(new ArrayList<A>());
}
static <A> List<A> synchroList(List<A> l) {
return Collections.synchronizedList(l);
}
static <A, B> Pair<A, B> pair(A a, B b) {
return new Pair(a, b);
}
static <A> Pair<A, A> pair(A a) {
return new Pair(a, a);
}
static <A> A assertNotNull(A a) {
assertTrue(a != null);
return a;
}
static <A> A assertNotNull(String msg, A a) {
assertTrue(msg, a != null);
return a;
}
static Map synchroHashMap() {
return synchronizedMap(new HashMap());
}
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> A getThreadLocal(ThreadLocal<A> tl) {
return tl == null ? null : tl.get();
}
static <A> A getThreadLocal(ThreadLocal<A> tl, A defaultValue) {
return or(getThreadLocal(tl), defaultValue);
}
static ThreadLocal<Object> 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 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 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<String, Set> vm_busListenersByMessage_live_cache;
static Map<String, Set> vm_busListenersByMessage_live() { if (vm_busListenersByMessage_live_cache == null) vm_busListenersByMessage_live_cache = vm_busListenersByMessage_live_load(); return vm_busListenersByMessage_live_cache; }
static Map<String, Set> vm_busListenersByMessage_live_load() {
return vm_generalHashMap("busListenersByMessage");
}
static <A> A[] makeArray(Class<A> type, int n) {
return (A[]) Array.newInstance(type, n);
}
static Object first(Object list) {
return first((Iterable) list);
}
static <A> A first(List<A> list) {
return empty(list) ? null : list.get(0);
}
static <A> A first(A[] bla) {
return bla == null || bla.length == 0 ? null : bla[0];
}
static <A> A first(IterableIterator<A> i) {
return first((Iterator<A>) i);
}
static <A> A first(Iterator<A> i) {
return i == null || !i.hasNext() ? null : i.next();
}
static <A> A first(Iterable<A> i) {
if (i == null) return null;
Iterator<A> 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, B> A first(Pair<A, B> p) {
return p == null ? null : p.a;
}
static <A, B, C> A first(T3<A, B, C> t) {
return t == null ? null : t.a;
}
static Byte first(byte[] l) {
return empty(l) ? null : l[0];
}
static ThreadLocal<Object> 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<String, Boolean> f) {
return tempSetThreadLocal(print_byThread(), f);
}
static List<Class> getClasses(Object[] array) {
List<Class> l = emptyList(l(array));
for (Object o : array) l.add(_getClass(o));
return l;
}
static <A, B> void multiMapPut(Map<A, List<B>> map, A a, B b) {
List<B> l = map.get(a);
if (l == null)
map.put(a, l = new ArrayList());
l.add(b);
}
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 Map synchronizedMap() {
return synchroMap();
}
static <A, B> Map<A, B> synchronizedMap(Map<A, B> map) {
return synchroMap(map);
}
static boolean endsWithLetterOrDigit(String s) {
return s != null && s.length() > 0 && Character.isLetterOrDigit(s.charAt(s.length()-1));
}
//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<Thread, Object> ping_actions = newWeakHashMap();
static ThreadLocal<Boolean> ping_isCleanUpThread = new ThreadLocal();
// always returns true
static boolean ping() {
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 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> 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=<hidden>");
}
static String hideCredentials(Object o) {
return hideCredentials(str(o));
}
static <A> int indexOf(List<A> 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 <A> int indexOf(List<A> l, int startIndex, A a) {
return indexOf(l, a, startIndex);
}
static <A> int indexOf(List<A> 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 <A> 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 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 <A> ArrayList<A> cloneList(Iterable<A> l) {
return l instanceof Collection ? cloneList((Collection) l) : asList(l);
}
static <A> ArrayList<A> cloneList(Collection<A> l) {
if (l == null) return new ArrayList();
synchronized(collectionMutex(l)) {
return new ArrayList<A>(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 <A> AutoCloseable tempSetThreadLocal(final ThreadLocal<A> 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 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 <A, B> Map<A, B> newWeakHashMap() {
return _registerWeakMap(synchroMap(new WeakHashMap()));
}
// 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 final Map<Class, HashMap<S, Field>> 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<Class, HashMap<String, Field>> getOpt_cache = _registerDangerousWeakMap(synchroMap(new getOpt_Map()));
//static final Map<Class, HashMap<S, Field>> 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<String, Field> getOpt_getFieldMap(Object o) {
Class c = _getClass(o);
HashMap<String, Field> 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<String, Field> 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<String, Field> getOpt_makeCache(Class c) {
HashMap<String, Field> 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 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 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 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 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;
}
// get purpose 1: access a list/array/map (safer version of x.get(y))
static <A> A get(List<A> l, int idx) {
return l != null && idx >= 0 && idx < l(l) ? l.get(idx) : null;
}
// seems to conflict with other signatures
/*static <A, B> B get(Map<A, B> map, A key) {
ret map != null ? map.get(key) : null;
}*/
static <A> 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);
}
static Object vm_generalMap_get(Object key) {
return vm_generalMap().get(key);
}
static Object vm_generalMap_put(Object key, Object value) {
return mapPutOrRemove(vm_generalMap(), key, value);
}
static <A> Set<A> syncIdentityHashSet() {
return (Set) synchronizedSet(identityHashSet());
}
static Map syncHashMap() {
return synchroHashMap();
}
static <A> A setThreadLocal(ThreadLocal<A> tl, A value) {
if (tl == null) return null;
A old = tl.get();
tl.set(value);
return old;
}
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 List _registerWeakMap_preList;
static <A> 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 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 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 void clear(Collection c) {
if (c != null) c.clear();
}
static void clear(Map map) {
if (map != null) map.clear();
}
static <A, B> void put(Map<A, B> map, A a, B b) {
if (map != null) map.put(a, b);
}
static <A> void put(List<A> l, int i, A a) {
if (l != null && i >= 0 && i < l(l)) l.set(i, a);
}
static <A, B> B syncMapGet2(Map<A, B> map, A a) {
if (map == null) return null;
synchronized(collectionMutex(map)) {
return map.get(a);
}
}
static <A, B> B syncMapGet2(A a, Map<A, B> 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<String> reflection_classesNotToScan_value = litset(
"jdk.internal.loader.URLClassPath"
);
static Set<String> 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;
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 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 Object getOptDynOnly(DynamicObject o, String field) {
if (o == null || o.fieldValues == null) return null;
return o.fieldValues.get(field);
}
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 <A, B> B mapPutOrRemove(Map<A, B> 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 <A> Set<A> synchronizedSet() {
return synchroHashSet();
}
static <A> Set<A> synchronizedSet(Set<A> set) {
return Collections.synchronizedSet(set);
}
static <A> Set<A> identityHashSet() {
return Collections.newSetFromMap(new IdentityHashMap());
}
static <A extends Throwable> A printException(A e) {
printStackTrace(e);
return e;
}
static <A> HashSet<A> litset(A... items) {
return lithashset(items);
}
static String unnull(String s) {
return s == null ? "" : s;
}
static <A> Collection<A> unnull(Collection<A> l) {
return l == null ? emptyList() : l;
}
static <A> List<A> unnull(List<A> 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 <A, B> Map<A, B> unnull(Map<A, B> l) {
return l == null ? emptyMap() : l;
}
static <A> Iterable<A> unnull(Iterable<A> i) {
return i == null ? emptyList() : i;
}
static <A> 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 <A, B> Pair<A, B> unnull(Pair<A, B> 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 boolean nemptyString(String s) {
return s != null && s.length() > 0;
}
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(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);
}
// TODO: OurSyncCollections
static <A> Set<A> synchroHashSet() {
return Collections.synchronizedSet(new HashSet<A>());
}
static <A extends Throwable> 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 <A> HashSet<A> lithashset(A... items) {
HashSet<A> set = new HashSet();
for (A a : items) set.add(a);
return set;
}
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 Map emptyMap() {
return new HashMap();
}
static Object[] emptyObjectArray_a = new Object[0];
static Object[] emptyObjectArray() { return emptyObjectArray_a; }
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<String, List<Method>> 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<Method> 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<Method> 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<A> implements IVF1<A> {
public abstract void get(A a);
}
// A = tag type
static interface IIIRecognizer<A> {
// Newer version! (Override this)
public default void run(
IProbabilisticScheduler scheduler,
URecognizer.Cell cell,
IVF1<A> valueToAction) { unimplemented(); }
// Clients can use. Don't override
public default void run(
IProbabilisticScheduler scheduler,
IIntegralImage img,
IVF1<A> valueToAction) {
run(scheduler, uCell(img), valueToAction);
}
}
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); }
}
// This object locates a floating-point key in a sorted map.
// Then it calls (probabilistically schedules) an action function
// on keys from the map, starting with the key closest to the
// requested one, then moving further to the left AND to the right
// until (at possibly very low probability) even the keys farthest
// away have been called.
// Probability 1 is used only iff there is an exact match.
// Probabilities fall with increasing distance between
// searched and found key.
static class ProbabilisticDistanceBasedLookup implements IFieldsToList{
IProbabilisticScheduler scheduler;
NavigableMap<Double, ?> map;
IVF1<Double> action;
double key;
ProbabilisticDistanceBasedLookup() {}
ProbabilisticDistanceBasedLookup(IProbabilisticScheduler scheduler, NavigableMap<Double, ?> map, IVF1<Double> action, double key) {
this.key = key;
this.action = action;
this.map = map;
this.scheduler = scheduler;}
public String toString() { return shortClassName_dropNumberPrefix(this) + "(" + scheduler + ", " + map + ", " + action + ", " + key + ")"; }public Object[] _fieldsToList() { return new Object[] {scheduler, map, action, key}; }
transient IF1<Double, Double> distanceToProbability;
double distanceToProbability(double distance) { return distanceToProbability != null ? distanceToProbability.get(distance) : distanceToProbability_base(distance); }
final double distanceToProbability_fallback(IF1<Double, Double> _f, double distance) { return _f != null ? _f.get(distance) : distanceToProbability_base(distance); }
double distanceToProbability_base(double distance) {
return genericDistanceToProbability(distance);
}
public void run() {
Double closest = closestDoubleKey(map, key);
if (closest == null) return;
double p = distanceToProbability(abs(closest-key));
scheduler.at(p, () -> action.get(closest));
scheduler.at(p, () -> walkLeft(closest));
scheduler.at(p, () -> walkRight(closest));
}
void walkLeft(double x) {
Double y = map.lowerKey(x);
if (y == null) return;
double p = distanceToProbability(abs(y-key));
scheduler.at(p, () -> action.get(y));
scheduler.at(p, () -> walkLeft(y));
}
void walkRight(double x) {
Double y = map.higherKey(x);
if (y == null) return;
double p = distanceToProbability(abs(y-key));
scheduler.at(p, () -> action.get(y));
scheduler.at(p, () -> walkRight(y));
}
}
static abstract class F1<A, B> {
abstract B get(A a);
}
// you still need to implement hasNext() and next()
static abstract class IterableIterator<A> implements Iterator<A>, Iterable<A> {
public Iterator<A> iterator() {
return this;
}
public void remove() {
unsupportedOperation();
}
}
static interface IProbabilisticScheduler {
// schedule an action at an absolute probability
void at(double probability, Runnable action);
// schedule an action at a probability relative to
// currentProbability()
default void atRelative(double probability, Runnable action) {
at(currentProbability()*probability, action);
}
double currentProbability();
long stepCount();
}
static interface IFieldsToList {
Object[] _fieldsToList();
}
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 interface IVF1<A> {
void get(A a);
}
static interface IIntegralImage extends MakesBufferedImage {
public int getWidth();
public int getHeight();
// get value for 1 channel
// normal range [0; pixelCount*256)
public double getIntegralValue(int x, int y, int 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(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 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);
}
}
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<A, B> implements Comparable<Pair<A, B>> {
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<A, B> p) {
if (p == null) return 1;
int i = ((Comparable<A>) a).compareTo(p.a);
if (i != 0) return i;
return ((Comparable<B>) b).compareTo(p.b);
}
}
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 interface IF1<A, B> {
B get(A a);
}
// U for stands for the "Ultra-Fast Recognition" family of recognizers
static class URecognizer {
IIntegralImage image;
URecognizer() {}
URecognizer(IIntegralImage image) {
this.image = image;}
URecognizer(BufferedImage image) {
this.image = new IntegralImage(image);
}
// returns 0, 1 or 2
int posterizeToInt(double x) {
return ifloor(clampZeroToOne(x)*3);
}
// returns 0, .5 or 1
double posterizeInPlace(double x) {
return posterizeToInt(x)*.5;
}
class Cell {
// Which part of the image we are looking at (x/y)
// dimension 0 = x, dimension 1 = y
DoubleRange[] clip = new DoubleRange[2];
// color transformations in place
DoubleRange[] colorClips = new DoubleRange[3];
Cell copy() {
return copyTo(new Cell());
}
Cell copyTo(Cell c) {
arrayCopy(clip, c.clip);
arrayCopy(colorClips, c.colorClips);
return c;
}
Rect rectInImage() {
return rectMinSize(1, 1, toRect_floor(doubleRectFromRanges(clip[0], clip[1])));
}
double area() { return rectArea(rectInImage()); }
// get color of cell
double color(int channel) {
double color = ii_averageBrightnessOfArea(image, rectInImage(), channel);
return transformBetweenDoubleRanges(color, colorClips[channel], zeroToOne());
}
// unposterized color of all 3 channels
double[] colors() {
double[] c = new double[3];
for (int i = 0; i < 3; i++)
c[i] = color(i);
return c;
}
RGB averageColor() { return rgb(); }
RGB rgb() {
return new RGB(colors());
}
public String toString() {
return rectInImage() + ", color: " + map(asList(colors()), x -> formatDoubleX(x, 4));
}
int posterizedIntColor(int channel) {
return posterizeToInt(color(channel));
}
// get sub-cells
Cell[] cellArray(int n) {
return new Cell[n];
}
Cell[] split(int dimension) { return split(dimension, 3); }
Cell[] split(int dimension, int n) {
Cell[] cells = cellArray(n);
for (int i = 0; i < n; i++) cells[i] = slice(dimension, doubleRatio(i, n), doubleRatio(i+1, n));
return cells;
}
Cell slice(int dimension, double a, double b) {
Cell c = copy();
c.clip[dimension] = transformBetweenDoubleRanges(new DoubleRange(a, b), zeroToOne(), clip[dimension]);
return c;
}
// index = 0 to 2
Cell third(int dimension, int index) {
return slice(dimension, index/3.0, (index+1)/3.0);
}
// convert to B/W
BWCell channel(int channel) {
BWCell c = new BWCell();
copyTo(c);
c.colorToBW = rgb -> rgb[channel];
return c;
}
BWCell brightness() {
BWCell c = new BWCell();
copyTo(c);
return c;
}
double get() { return averageBrightness(); }
double averageBrightness() {
return brightness().color();
}
double getWidth() { return clip[0].length(); }
double getHeight() { return clip[1].length(); }
}
class BWCell extends Cell {
IF1<double[], Double> colorToBW = rgb -> (rgb[0]+rgb[1]+rgb[2])/3;
double color() {
return colorToBW.get(colors());
}
BWCell copy() {
BWCell c = new BWCell();
copyTo(c);
return c;
}
void copyTo(BWCell c) {
super.copyTo(c);
c.colorToBW = colorToBW;
}
public String toString() {
return rectInImage() + ", Color: " + formatDoubleX(color(), 4);
}
// lift methods
BWCell[] cellArray(int n) {
return new BWCell[n];
}
BWCell slice(int dimension, double a, double b) {
return (BWCell) super.slice(dimension, a, b);
}
BWCell[] split(int dimension) {
return (BWCell[]) super.split(dimension);
}
BWCell third(int dimension, int index) {
return (BWCell) super.third(dimension, index);
}
}
// make the root cell
Cell cell() { return rootCell(); }
Cell rootCell() {
Cell c = new Cell();
c.clip[0] = doubleRange(0, image.getWidth());
c.clip[1] = doubleRange(0, image.getHeight());
for (int i = 0; i < 3; i++) c.colorClips[i] = doubleRange(0, 255);
return c;
}
int outlierPosition(BWCell[] cells) {
double a = cells[0].color();
double b = cells[1].color();
double c = cells[2].color();
double ab = abs(a-b), bc = abs(b-c), ac = abs(a-c);
if (bc < min(ab, ac)) return 0; // b and c close together
if (ac < min(ab, bc)) return 1; // a and c close together
if (ab < min(ac, bc)) return 2; // a and b close together
return -1; // unknown
}
}
static interface MakesBufferedImage extends WidthAndHeight {
BufferedImage getBufferedImage();
public default void drawAt(Graphics2D g, int x, int y) {
g.drawImage(getBufferedImage(), x, y, null);
}
}
// 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.
// We also have IMeta to retrofit foreign classes (rare but
// probably useful)
// generic meta value of any kind (e.g. Map with extra field values
// for the object).
// volatile to avoid synchronization; but you can also synchronize on
// _tempMetaMutex() which is usually the object itself. Still considering
// whether that is actually a good idea.
volatile Object meta;
// ...and the interface methods
public void _setMeta(Object meta) { this.meta = meta; }
public Object _getMeta() { return meta; }
}
final static class DoubleRange {
double start, 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; }
static String _fieldOrder = "start end";
public String toString() { return "[" + start + ";" + end + "]"; }
}
final static class Rect {
int x, y, w, h;
Rect() {}
Rect(Rectangle r) {
x = r.x;
y = r.y;
w = r.width;
h = r.height;
}
Rect(int x, int y, int w, int h) {
this.h = h;
this.w = w;
this.y = y;
this.x = x;}
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 boolean equals(Object o) { return stdEq2(this, o); }
public int hashCode() { return stdHash2(this); }
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; }
}
final static class IntegralImage implements IIntegralImage {
int w, h;
int[] data; // 3 ints per pixel
IntegralImage(RGBImage img) {
init(img);
}
void init(RGBImage img) {
w = img.w();
h = img.h();
if (longMul(w, h) > 8000000) throw fail("Image too big: " + w + "*" + h);
data = new int[w*h*3];
int i = 0;
for (int y = 0; y < h; y++) {
int sumR = 0, sumG = 0, sumB = 0;
for (int x = 0; x < w; x++) {
int rgb = img.getInt(x, y);
sumR += (rgb >> 16) & 0xFF;
sumG += (rgb >> 8) & 0xFF;
sumB += rgb & 0xFF;
data[i] = y > 0 ? sumR + data[i-w*3] : sumR;
data[i+1] = y > 0 ? sumG + data[i-w*3+1] : sumG;
data[i+2] = y > 0 ? sumB + data[i-w*3+2] : sumB;
i += 3;
}
}
}
IntegralImage(MakesBufferedImage img) {
if (img instanceof RGBImage)
init(((RGBImage) img));
else
init(toBufferedImage(img));
}
IntegralImage(BufferedImage img) {
init(img);
}
void init(BufferedImage img) {
w = img.getWidth();
h = img.getHeight();
if (longMul(w, h) > 8000000) throw fail("Image too big: " + w + "*" + h);
int[] pixels = pixelsOfBufferedImage(img);
data = new int[w*h*3];
int i = 0, j = 0, sumR = 0, sumG = 0, sumB = 0;
for (int x = 0; x < w; x++) {
int rgb = pixels[j++];
data[i++] = (sumR += (rgb >> 16) & 0xFF);
data[i++] = (sumG += (rgb >> 8) & 0xFF);
data[i++] = (sumB += rgb & 0xFF);
}
for (int y = 1; y < h; y++) {
sumR = sumG = sumB = 0;
for (int x = 0; x < w; x++) {
int rgb = pixels[j++];
sumR += (rgb >> 16) & 0xFF;
sumG += (rgb >> 8) & 0xFF;
sumB += rgb & 0xFF;
data[i] = sumR + data[i-w*3];
data[i+1] = sumG + data[i-w*3+1];
data[i+2] = sumB + data[i-w*3+2];
i += 3;
}
}
}
// gets the integral value at x/y for given RGB channel
public double get(int x, int y, int channel) { return getIntegralValue(x, y, channel); }
public double getIntegralValue(int x, int y, int channel) {
return x < 0 || y < 0 || x >= w || y >= h ? 0
: data[(y*w+x)*3+channel];
}
// gets sum of the 3 channels
public double get(int x, int y) { return getIntegralValue(x, y); }
public double getIntegralValue(int x, int y) {
if (x < 0 || y < 0 || x >= w || y >= h) return 0;
int i = (y*w+x)*3;
return data[i]+data[i+1]+data[i+2];
}
public String toString() {
return "IntegralImage " + w + "*" + h + ", brightness: " + averageBrightness();
}
public BufferedImage getBufferedImage() { return integralImageToBufferedImage(this); }
public int getWidth() { return w; }
public int getHeight() { return h; }
int w() { return w; }
int h() { return h; }
// serialization
Object _serialize() { return litobjectarray(w, h, data); }
static IntegralImage _deserialize(Object[] l) { return new IntegralImage((int) l[0], (int) l[1], (int[]) l[2]); }
IntegralImage(int w, int h, int[] data) {
this.data = data;
this.h = h;
this.w = w;}
}
static class RegisteredReference<A> implements IRef<A> {
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; }
boolean has() { return value != null; }
boolean set(A a) {
if (a == value) return false;
unindex();
value = a;
index();
return true;
}
void setIfEmpty(A a) {
if (!has()) set(a);
}
void set(IRef<A> ref) { set(ref == null ? null : ref.get()); }
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 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 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 WidthAndHeight {
int getWidth();
int getHeight();
}
static class Pt implements Comparable<Pt> {
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 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 interface IHasBackRefs {
public void _registerBackRef(IRef ref);
public void _unregisterBackRef(IRef ref);
}
static interface IRef<A> extends IF0<A> {
// called by the referencee to atomically replace itself
// Passing oldValue to avoid race conditions
public default void replaceValue(A oldValue, A newValue) {}
}
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();
}
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 interface IF0<A> {
A get();
}
static interface IAutoCloseableF0<A> extends IF0<A>, 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<Class> allInterfacesImplementedBy(Class c) {
if (c == null) return null;
HashSet<Class> set = new HashSet();
allInterfacesImplementedBy_find(c, set);
return set;
}
static void allInterfacesImplementedBy_find(Class c, Set<Class> 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 RuntimeException unimplemented() {
throw fail("TODO");
}
static RuntimeException unimplemented(String msg) {
throw fail("TODO: " + msg);
}
static Class run(String progID, String... args) {
Class main = hotwire(progID);
callMain(main, args);
return main;
}
static URecognizer.Cell uCell(IIntegralImage img) {
return uRoot(img);
}
static URecognizer.Cell uCell(BufferedImage img) {
return uRoot(img);
}
static URecognizer.Cell uCell(MakesBufferedImage img) {
return uRoot(img);
}
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<String> quoteAll(Collection<String> l) {
List<String> 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 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;
}
// properties:
// -yields a proper probability (0<=x<=1)
// -is never zero
// -distance 0 has probability 1
// -function is monotonically decreasing
// (greater distance = lower probability)
// -negative distances are interpreted as positive
static double genericDistanceToProbability(double distance) {
return 1/(1+abs(distance));
}
static Double closestDoubleKey(NavigableMap<Double, ?> map, double key) {
Double a = map.floorKey(key), b = map.ceilingKey(key);
if (b == null) return a;
if (a == null) return b;
return abs(a-key) <= abs(b-key) ? a : b;
}
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 <A> Iterator<A> iterator(Iterable<A> c) {
return c == null ? emptyIterator() : c.iterator();
}
static UnsupportedOperationException unsupportedOperation() {
throw new UnsupportedOperationException();
}
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 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 double doubleRatio(double x, double y) {
return y == 0 ? 0 : x/y;
}
static int hashCodeFor(Object a) {
return a == null ? 0 : a.hashCode();
}
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 ifloor(double d) {
return (int) Math.floor(d);
}
static float clampZeroToOne(float x) {
return x < 0 ? 0 : x > 1 ? 1 : x;
}
static double clampZeroToOne(double x) {
return x < 0 ? 0 : x > 1 ? 1 : x;
}
static void arrayCopy(Object[] a, Object[] b) {
arraycopy(a, b);
}
static void arrayCopy(Object src, int srcPos, Object dest, int destPos, int n) {
arraycopy(src, srcPos, dest, destPos, n);
}
static Rect rectMinSize(int minW, int minH, Rect r) {
return r == null || r.w >= minW && r.h >= minH ? r
: rect(r.x, r.y, max(r.w, minW), max(r.h, minH));
}
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 DoubleRect doubleRectFromRanges(DoubleRange x, DoubleRange y) {
return new DoubleRect(x.start, y.start, x.length(), y.length());
}
static int rectArea(Rect r) {
return r == null ? 0 : r.w*r.h;
}
static double ii_averageBrightnessOfArea(IIntegralImage img, int x1, int y1, int x2, int y2) {
return doubleRatio(img.rectSum(x1, y1, x2, y2), (x2-x1)*(y2-y1)*3);
}
static double ii_averageBrightnessOfArea(IIntegralImage img, int x1, int y1, int x2, int y2, int channel) {
return doubleRatio(img.rectSum(x1, y1, x2, y2, channel), (x2-x1)*(y2-y1));
}
static double ii_averageBrightnessOfArea(IIntegralImage img, Rect r) {
return ii_averageBrightnessOfArea(img, r.x, r.y, r.x2(), r.y2());
}
static double ii_averageBrightnessOfArea(IIntegralImage img, Rect r, int channel) {
return ii_averageBrightnessOfArea(img, r.x, r.y, r.x2(), r.y2(), channel);
}
static double ii_averageBrightnessOfArea(IntegralImage img, int x1, int y1, int x2, int y2) {
return doubleRatio(img.rectSum(x1, y1, x2, y2), (x2-x1)*(y2-y1)*3);
}
static double ii_averageBrightnessOfArea(IntegralImage img, int x1, int y1, int x2, int y2, int channel) {
return doubleRatio(img.rectSum(x1, y1, x2, y2, channel), (x2-x1)*(y2-y1));
}
static double ii_averageBrightnessOfArea(IntegralImage img, Rect r) {
return ii_averageBrightnessOfArea(img, r.x, r.y, r.x2(), r.y2());
}
static double ii_averageBrightnessOfArea(IntegralImage img, Rect r, int channel) {
return ii_averageBrightnessOfArea(img, r.x, r.y, r.x2(), r.y2(), channel);
}
static double transformBetweenDoubleRanges(double x, DoubleRange src, DoubleRange dest) {
return dest.start+dest.length()*doubleRatio(x-src.start, src.length());
}
static DoubleRange transformBetweenDoubleRanges(DoubleRange r, DoubleRange src, DoubleRange dest) {
return r == null ? null :
new DoubleRange(transformBetweenDoubleRanges(r.start, src, dest),
transformBetweenDoubleRanges(r.end, src, dest));
}
static DoubleRange zeroToOne_value = new DoubleRange(0, 1);
static DoubleRange zeroToOne() {
return zeroToOne_value;
}
static RGB rgb(String s) {
return new RGB(s);
}
static RGB rgb(double r, double g, double b) {
return new RGB((float) r, (float) g, (float) b);
}
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 <A, B> List<B> map(Iterable<A> l, F1<A, B> f) { return map(f, l); }
static <A, B> List<B> map(F1<A, B> f, Iterable<A> l) {
List x = emptyList(l);
if (l != null) for (A o : l)
{ ping(); x.add(callF(f, o)); }
return x;
}
static <A, B> List<B> map(IF1<A, B> f, Iterable<A> l) { return map(l, f); }
static <A, B> List<B> map(Iterable<A> l, IF1<A, B> f) {
List x = emptyList(l);
if (l != null) for (A o : l)
{ ping(); x.add(f.get(o)); }
return x;
}
static <A, B> List<B> map(IF1<A, B> f, A[] l) { return map(l, f); }
static <A, B> List<B> map(A[] l, IF1<A, B> 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 <A, B, C> List<C> map(Map<A, B> map, IF2<A, B, C> f) {
return map(map, (Object) f);
}
static String formatDoubleX(double d, int digits) {
return formatDoubleFull(d, digits);
}
static <A> A third(List<A> l) {
return _get(l, 2);
}
static <A> A third(Iterable<A> l) {
if (l == null) return null;
Iterator<A> it = iterator(l);
for (int _repeat_0 = 0; _repeat_0 < 2; _repeat_0++) {
if (!it.hasNext()) return null;
it.next();
}
return it.hasNext() ? it.next() : null;
}
static <A> A third(A[] bla) {
return bla == null || bla.length <= 2 ? null : bla[2];
}
static <A, B, C> C third(T3<A, B, C> t) {
return t == null ? null : t.c;
}
static double averageBrightness(BufferedImage img) {
return new BWImage(img).averageBrightness();
}
static DoubleRange doubleRange(double start, double end) {
return new DoubleRange(start, end);
}
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 boolean contains(Collection c, Object o) {
return c != null && c.contains(o);
}
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 long longMul(long a, long b) {
return a*b;
}
static BufferedImage toBufferedImage(Object o) {
return toBufferedImageOpt(o);
}
static int[] pixelsOfBufferedImage(BufferedImage image) { try {
int width = image.getWidth();
int height = image.getHeight();
int[] pixels = new int[width*height];
PixelGrabber pixelGrabber = new PixelGrabber(image, 0, 0, width, height, pixels, 0, width);
if (!pixelGrabber.grabPixels())
throw fail("Could not grab pixels");
return pixels;
} catch (Exception __e) { throw rethrow(__e); } }
static BufferedImage integralImageToBufferedImage(IntegralImage img) {
if (img == null) return null;
int w = img.w, h = img.h;
BufferedImage out = newBufferedImage(w, h);
for (int y = 0; y < h; y++)
for (int x = 0; x < w; x++)
out.setRGB(x, y, ii_getPixel(img, x, y));
return out;
}
static Object[] litobjectarray(Object... l) {
return litObjectArray(l);
}
static boolean has(String a, String b, String c) {
return false;
}
static boolean has(T3<String, String, String> t) {
return false;
}
static <A> A set(A o, String field, Object value) {
if (o == null) return null;
if (o instanceof Class) set((Class) o, field, value);
else try {
Field f = set_findField(o.getClass(), field);
makeAccessible(f);
smartSet(f, o, value);
} catch (Exception e) {
throw new RuntimeException(e);
}
return o;
}
static void set(Class c, String field, Object value) {
if (c == null) return;
try {
Field f = set_findStaticField(c, field);
makeAccessible(f);
smartSet(f, null, value);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
static Field set_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 set_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 void set(BitSet bs, int idx) {
{ if (bs != null) bs.set(idx); }
}
// We even allow overriding existing interface implementations
static <A> A lookupInterface(Class<A> intrface, Object o) {
return lookupDynamicInterface(intrface, o);
}
static <A> A lookupInterface(Object o, Class<A> intrface) {
return lookupDynamicInterface(o, intrface);
}
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 asInt(Object o) {
return toInt(o);
}
static int iround(double d) {
return (int) Math.round(d);
}
static int iround(Number n) {
return iround(toDouble(n));
}
static int boostHashCombine(int a, int b) {
return a ^ (b + 0x9e3779b9 + (a << 6) + (a >> 2));
}
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 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 limitToUByte(int i) {
return max(0, min(255, i));
}
static void setPixel(BufferedImage img, Pt p, Color color) {
{ if (img != null) img.setRGB(p.x, p.y, colorToIntOpaque(color)); }
}
static Class<?> getClass(String name) {
return _getClass(name);
}
static Class getClass(Object o) {
return _getClass(o);
}
static Class getClass(Object realm, String name) {
return _getClass(realm, name);
}
static Method findMethod_cached(Object o, String method, Object... args) { try {
if (o == null) return null;
if (o instanceof Class) {
_MethodCache cache = callOpt_getCache(((Class) o));
List<Method> methods = cache.cache.get(method);
if (methods != null) for (Method m : methods)
if (isStaticMethod(m) && findMethod_checkArgs(m, args, false))
return m;
return null;
} else {
_MethodCache cache = callOpt_getCache(o.getClass());
List<Method> methods = cache.cache.get(method);
if (methods != null) for (Method m : methods)
if (findMethod_checkArgs(m, args, false))
return m;
return null;
}
} catch (Exception __e) { throw rethrow(__e); } }
// custom mainClass only works with hotwire_here
static Class<?> hotwire(String src) { return hotwire(src, __1 -> mainClassNameForClassLoader(__1)); }
static Class<?> hotwire(String src, IF1<ClassLoader, String> calculateMainClass) {
assertFalse(_inCore());
Class j = getJavaX();
if (isAndroid()) {
synchronized(j) { // hopefully this goes well...
List<File> libraries = new ArrayList<File>();
File srcDir = (File) call(j, "transpileMain", src, libraries);
if (srcDir == null)
throw fail("transpileMain returned null (src=" + quote(src) + ")");
Object androidContext = get(j, "androidContext");
return (Class) call(j, "loadx2android", srcDir, src);
}
} else {
Class c = (Class) (call(j, "hotwire", src));
hotwire_copyOver(c);
return c;
}
}
static <A> A callMain(A c, String... args) {
callOpt(c, "main", new Object[] {args});
return c;
}
static void callMain() {
callMain(mc());
}
static URecognizer.Cell uRoot(IIntegralImage img) {
return new URecognizer(img).rootCell();
}
static URecognizer.Cell uRoot(BufferedImage img) {
return uRoot(new IntegralImage(img));
}
static URecognizer.Cell uRoot(MakesBufferedImage img) {
return uRoot(new IntegralImage(img));
}
static boolean endsWith(String a, String b) {
return a != null && a.endsWith(b);
}
static boolean endsWith(String a, char c) {
return nempty(a) && lastChar(a) == c;
}
static boolean endsWith(String a, String b, Matches m) {
if (!endsWith(a, b)) return false;
m.m = new String[] {dropLast(l(b), a)};
return true;
}
static String quote(Object o) {
if (o == null) return "null";
return quote(str(o));
}
static String quote(String s) {
if (s == null) return "null";
StringBuilder out = new StringBuilder((int) (l(s)*1.5+2));
quote_impl(s, out);
return out.toString();
}
static void quote_impl(String s, StringBuilder out) {
out.append('"');
int l = s.length();
for (int i = 0; i < l; i++) {
char c = s.charAt(i);
if (c == '\\' || c == '"')
out.append('\\').append(c);
else if (c == '\r')
out.append("\\r");
else if (c == '\n')
out.append("\\n");
else if (c == '\t')
out.append("\\t");
else if (c == '\0')
out.append("\\0");
else
out.append(c);
}
out.append('"');
}
static Iterator emptyIterator() {
return Collections.emptyIterator();
}
static Object swingCall(final Object o, final String method, final Object... args) {
return swing(new F0<Object>() { public Object get() { try { return call(o, method, args); } catch (Exception __e) { throw rethrow(__e); } }
public String toString() { return "ret call(o, method, args);"; }});
}
static Rect intersectRects(Rect a, Rect b) {
int x = max(a.x, b.x), y = max(a.y, b.y);
int x2 = min(a.x+a.w, b.x+b.w), y2 = min(a.y+a.h, b.y+b.h);
return new Rect(x, y, x2-x, y2-y);
}
static boolean rectEmpty(Rect r) {
return r == null || r.w <= 0 || r.h <= 0;
}
static Rect rect(int x, int y, int w, int h) {
return new Rect(x, y, w, h);
}
static Rect rect(Pt p, int w, int h) {
return new Rect(p.x, p.y, w, h);
}
static Rect rect(int w, int h) {
return new Rect(0, 0, w, h);
}
static String formatDoubleFull(double d, int digits) {
String format = digits <= 0 ? "0" : "0." + rep(digits, '0');
return new java.text.DecimalFormat(format, new java.text.DecimalFormatSymbols(Locale.ENGLISH)).format(d);
}
static <A> A _get(List<A> l, int idx) {
return l != null && idx >= 0 && idx < l(l) ? l.get(idx) : null;
}
static Object _get(Object o, String field) {
return get(o, field);
}
static Object _get(String field, Object o) {
return get(o, field);
}
static <A> A _get(A[] l, int idx) {
return idx >= 0 && idx < l(l) ? l[idx] : null;
}
static Map<Class, Set<String>> allFields_cache = weakHashMap();
static Set<String> allFields(Object o) {
if (o == null) return emptySet();
Class _c = _getClass(o);
Set<String> fields = allFields_cache.get(_c);
if (fields == null)
allFields_cache.put(_c, fields = asTreeSet(keys(getOpt_getFieldMap(o))));
return fields;
}
static int stdHash(Object a, String... fields) {
if (a == null) return 0;
int hash = getClassName(a).hashCode();
for (String field : fields)
hash = boostHashCombine(hash, hashCode(getOpt(a, field)));
return hash;
}
static String[] toStringArray(Collection<String> c) {
String[] a = new String[l(c)];
Iterator<String> it = c.iterator();
for (int i = 0; i < l(a); i++)
a[i] = it.next();
return a;
}
static String[] toStringArray(Object o) {
if (o instanceof String[])
return (String[]) o;
else if (o instanceof Collection)
return toStringArray((Collection<String>) o);
else
throw fail("Not a collection or array: " + getClassName(o));
}
static BufferedImage toBufferedImageOpt(Object o) {
if (o instanceof BufferedImage) return (BufferedImage) o;
if (o instanceof MakesBufferedImage)
return ((MakesBufferedImage) o).getBufferedImage();
if (o instanceof File)
if (isImageFile(((File) o)))
return loadBufferedImageFile(((File) o));
String c = getClassName(o);
// Keep this because it also works on imported objects
if (eqOneOf(c, "main$BWImage", "main$RGBImage"))
return (BufferedImage) call(o, "getBufferedImage");
if (eq(c, "main$PNGFile"))
return (BufferedImage) call(o, "getImage");
return null;
}
// undefined color, seems to be all black in practice
static BufferedImage newBufferedImage(int w, int h) {
return new BufferedImage(w, h, BufferedImage.TYPE_INT_RGB);
}
static BufferedImage newBufferedImage(int w, int h, RGB rgb) {
return newBufferedImage(w, h, rgb.getColor());
}
static BufferedImage newBufferedImage(int w, int h, Color color) {
BufferedImage img = newBufferedImage(w, h);
Graphics2D g = img.createGraphics();
g.setColor(or(color, Color.white));
g.fillRect(0, 0, w, h);
return img;
}
static BufferedImage newBufferedImage(Pt p, Color color) {
return newBufferedImage(p.x, p.y, color);
}
// assumes coordinates are in range
static int ii_getPixel(IntegralImage img, int x, int y) {
if (img == null) return 0;
int r = iround(img.rectSum(x, y, x+1, y+1, 0));
int g = iround(img.rectSum(x, y, x+1, y+1, 1));
int b = iround(img.rectSum(x, y, x+1, y+1, 2));
return rgbInt(r, g, b);
}
static Object[] litObjectArray(Object... l) {
return l;
}
static void smartSet(Field f, Object o, Object value) throws Exception {
try {
f.set(o, value);
} catch (Exception e) {
Class type = f.getType();
// take care of common case (long to int)
if (type == int.class && value instanceof Long)
{ f.set(o, ((Long) value).intValue()); return; }
if (type == boolean.class && value instanceof String)
{ f.set(o, isTrueOrYes(((String) value))); return; }
if (type == LinkedHashMap.class && value instanceof Map)
{ f.set(o, asLinkedHashMap((Map) value)); return; }
throw e;
}
}
// We even allow overriding existing interface implementations
static <A> A lookupDynamicInterface(Class<A> intrface, Object o) {
if (o instanceof DynamicObject)
{ A a = (A) (mapGet((Map) ((DynamicObject) o).fieldValues, intrface)); if (a != null) return a; }
if (isInstance(intrface, o)) return (A) o;
return null;
}
static <A> A lookupDynamicInterface(Object o, Class<A> intrface) {
return lookupDynamicInterface(intrface, o);
}
static float clamp(float x, float a, float b) {
return x < a ? a : x > b ? b : x;
}
static double clamp(double x, double a, double b) {
return x < a ? a : x > b ? b : x;
}
static int clamp(int x, int a, int b) {
return x < a ? a : x > b ? b : x;
}
static long clamp(long x, long a, long b) {
return x < a ? a : x > b ? b : x;
}
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;
}
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 int colorToIntOpaque(Color c) {
return c.getRGB() | 0xFF000000;
}
static String mainClassNameForClassLoader(ClassLoader cl) {
return or((String) callOpt(cl, "mainClassName"), "main");
}
static void assertFalse(Object o) {
if (!(eq(o, false) /*|| isFalse(pcallF(o))*/))
throw fail(str(o));
}
static boolean assertFalse(boolean b) {
if (b) throw fail("oops");
return b;
}
static boolean assertFalse(String msg, boolean b) {
if (b) throw fail(msg);
return b;
}
static boolean _inCore() {
return false;
}
static List hotwire_copyOver_after = synchroList();
static void hotwire_copyOver(Class c) {
// TODO: make a mechanism for making such "inheritable" fields
for (String field : ll("print_log", "print_silent", "androidContext", "_userHome"))
setOptIfNotNull(c, field, getOpt(mc(), field));
setOptIfNotNull(c, "mainBot" , getMainBot());
setOpt(c, "creator_class" , new WeakReference(mc()));
pcallFAll(hotwire_copyOver_after, c);
}
static Object callOpt(Object o) {
return callF(o);
}
static <A> A callOpt(Object o, String method, Object... args) {
return (A) callOpt_withVarargs(o, method, args);
}
static char lastChar(String s) {
return empty(s) ? '\0' : s.charAt(l(s)-1);
}
static <A> A[] dropLast(A[] a) { return dropLast(a, 1); }
static <A> A[] dropLast(A[] a, int n) {
if (a == null) return null;
n = Math.min(n, a.length);
A[] b = arrayOfSameType(a, a.length-n);
System.arraycopy(a, 0, b, 0, b.length);
return b;
}
static <A> List<A> dropLast(List<A> l) {
return subList(l, 0, l(l)-1);
}
static <A> List<A> dropLast(int n, List<A> l) {
return subList(l, 0, l(l)-n);
}
static <A> List<A> dropLast(Iterable<A> l) {
return dropLast(asList(l));
}
static String dropLast(String s) {
return substring(s, 0, l(s)-1);
}
static String dropLast(String s, int n) {
return substring(s, 0, l(s)-n);
}
static String dropLast(int n, String s) {
return dropLast(s, n);
}
static Object swing(Object f) {
return swingAndWait(f);
}
static <A> A swing(F0<A> f) {
return (A) swingAndWait(f);
}
static <A> A swing(IF0<A> f) {
return (A) swingAndWait(f);
}
static String rep(int n, char c) {
return repeat(c, n);
}
static String rep(char c, int n) {
return repeat(c, n);
}
static <A> List<A> rep(A a, int n) {
return repeat(a, n);
}
static <A> List<A> rep(int n, A a) {
return repeat(n, a);
}
static <A, B> Map<A, B> weakHashMap() {
return newWeakHashMap();
}
static Set emptySet() {
return new HashSet();
}
static <A> TreeSet<A> asTreeSet(Collection<A> set) {
return set == null ? null : set instanceof TreeSet ? (TreeSet) set : new TreeSet(set);
}
static <A, B> Set<A> keys(Map<A, B> map) {
return map == null ? new HashSet() : map.keySet();
}
// convenience shortcut for keys_gen
static Set keys(Object map) {
return keys((Map) map);
}
static int hashCode(Object a) {
return a == null ? 0 : a.hashCode();
}
static boolean isImageFile(File f) {
return isImageFileName(fileName(f));
}
static BufferedImage loadBufferedImageFile(File file) { try {
return isFile(file) ? ImageIO.read(file) : null;
} catch (Exception __e) { throw rethrow(__e); } }
static boolean isTrueOrYes(Object o) {
return isTrueOpt(o) || o instanceof String && (eqicOneOf(((String) o), "1", "t", "true") || isYes(((String) o)));
}
static <A, B> LinkedHashMap<A, B> asLinkedHashMap(Map<A, B> map) {
if (map instanceof LinkedHashMap) return (LinkedHashMap) map;
LinkedHashMap<A, B> m = new LinkedHashMap();
if (map != null) synchronized(collectionMutex(map)) {
m.putAll(map);
}
return m;
}
static <A, B> B mapGet(Map<A, B> map, A a) {
return map == null || a == null ? null : map.get(a);
}
static <A, B> B mapGet(A a, Map<A, B> map) {
return map == null || a == null ? null : map.get(a);
}
static boolean isInstance(Class type, Object arg) {
return type.isInstance(arg);
}
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 double parseDouble(String s) {
return Double.parseDouble(s);
}
static <A> List<A> ll(A... a) {
ArrayList l = new ArrayList(a.length);
if (a != null) for (A x : a) l.add(x);
return l;
}
static void setOptIfNotNull(Object o, String field, Object value) {
if (value != null) setOpt(o, field, value);
}
static Object mainBot;
static Object getMainBot() {
return mainBot;
}
static Field setOpt_findField(Class c, String field) {
HashMap<String, Field> map;
synchronized(getOpt_cache) {
map = getOpt_cache.get(c);
if (map == null)
map = getOpt_makeCache(c);
}
return map.get(field);
}
static void setOpt(Object o, String field, Object value) { try {
if (o == null) return;
Class c = o.getClass();
HashMap<String, Field> map;
if (getOpt_cache == null)
map = getOpt_makeCache(c); // in class init
else synchronized(getOpt_cache) {
map = getOpt_cache.get(c);
if (map == null)
map = getOpt_makeCache(c);
}
if (map == getOpt_special) {
if (o instanceof Class) {
setOpt((Class) o, field, value);
return;
}
// It's probably a subclass of Map. Use raw method
setOpt_raw(o, field, value);
return;
}
Field f = map.get(field);
if (f != null)
{ smartSet(f, o, value); return; } // possible improvement: skip setAccessible
if (o instanceof DynamicObject)
{ setDyn(((DynamicObject) o), field, value); return; }
if (o instanceof IMeta)
setDyn(((IMeta) o), field, value);
} catch (Exception __e) { throw rethrow(__e); } }
static void setOpt(Class c, String field, Object value) {
if (c == null) return;
try {
Field f = setOpt_findStaticField(c, field); // TODO: optimize
if (f != null)
smartSet(f, null, value);
} catch (Exception e) {
throw new RuntimeException(e);
}
}
static Field setOpt_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) {
makeAccessible(f);
return f;
}
_c = _c.getSuperclass();
} while (_c != null);
return null;
}
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 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<Method> 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> A[] arrayOfSameType(A[] a, int n) {
return newObjectArrayOfSameType(a, n);
}
static <A> List<A> subList(List<A> l, int startIndex) {
return subList(l, startIndex, l(l));
}
static <A> List<A> subList(int startIndex, List<A> l) {
return subList(l, startIndex);
}
static <A> List<A> subList(int startIndex, int endIndex, List<A> l) {
return subList(l, startIndex, endIndex);
}
static <A> List<A> subList(List<A> l, int startIndex, int endIndex) {
if (l == null) return null;
int n = l(l);
startIndex = Math.max(0, startIndex);
endIndex = Math.min(n, endIndex);
if (startIndex > endIndex) return ll();
if (startIndex == 0 && endIndex == n) return l;
return l.subList(startIndex, endIndex);
}
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 String repeat(char c, int n) {
n = Math.max(n, 0);
char[] chars = new char[n];
for (int i = 0; i < n; i++)
chars[i] = c;
return new String(chars);
}
static <A> List<A> repeat(A a, int n) {
n = Math.max(n, 0);
List<A> l = new ArrayList(n);
for (int i = 0; i < n; i++)
l.add(a);
return l;
}
static <A> List<A> repeat(int n, A a) {
return repeat(a, n);
}
static boolean isImageFileName(String s) {
return eqicOneOf(fileExtension(s), ".png", ".jpg", ".jpeg", ".gif");
}
static String fileName(File f) {
return f == null ? null : f.getName();
}
static boolean isFile(File f) {
return f != null && f.isFile();
}
static boolean isFile(String path) {
return isFile(newFile(path));
}
static boolean isTrueOpt(Object o) {
if (o instanceof Boolean)
return ((Boolean) o).booleanValue();
return false;
}
static boolean eqicOneOf(String s, String... l) {
for (String x : l) if (eqic(s, x)) return true; return false;
}
static List<String> isYes_yesses = litlist("y", "yes", "yeah", "y", "yup", "yo", "corect", "sure", "ok", "afirmative"); // << collapsed words, so "corect" means "correct"
static boolean isYes(String s) {
return isYes_yesses.contains(collapseWord(toLowerCase(firstWord2(s))));
}
static boolean emptyString(String s) {
return s == null || s.length() == 0;
}
static void setOpt_raw(Object o, String field, Object value) { try {
if (o == null) return;
if (o instanceof Class) setOpt_raw((Class) o, field, value);
else {
Field f = setOpt_raw_findField(o.getClass(), field);
if (f != null) {
makeAccessible(f);
smartSet(f, o, value);
}
}
} catch (Exception __e) { throw rethrow(__e); } }
static void setOpt_raw(Class c, String field, Object value) { try {
if (c == null) return;
Field f = setOpt_raw_findStaticField(c, field);
if (f != null) {
makeAccessible(f);
smartSet(f, null, value);
}
} catch (Exception __e) { throw rethrow(__e); } }
static Field setOpt_raw_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 Field setOpt_raw_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 <A extends DynamicObject> A setDyn(A o, String key, Object value) {
setDynObjectValue(o, key, value);
return o;
}
static void setDyn(IMeta o, String key, Object value) {
metaMapPut(o, key, value);
}
static Object pcallF(Object f, Object... args) {
return pcallFunction(f, args);
}
static <A> A pcallF(F0<A> f) { try {
return f == null ? null : f.get();
} catch (Throwable __e) { return null; } }
static <A, B> B pcallF(F1<A, B> f, A a) { try {
return f == null ? null : f.get(a);
} catch (Throwable __e) { return null; } }
static <A> void pcallF(VF1<A> f, A a) {
try {
{ if (f != null) f.get(a); }
} catch (Throwable __e) { _handleException(__e); }
}
static <A> A pcallF(IF0<A> f) { try {
return f == null ? null : f.get();
} catch (Throwable __e) { return null; } }
static <A, B> B pcallF(IF1<A, B> f, A a) { try {
return f == null ? null : f.get(a);
} catch (Throwable __e) { return null; } }
static <A> A[] newObjectArrayOfSameType(A[] a) { return newObjectArrayOfSameType(a, a.length); }
static <A> A[] newObjectArrayOfSameType(A[] a, int n) {
return (A[]) Array.newInstance(a.getClass().getComponentType(), n);
}
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 String fileExtension(File f) {
if (f == null) return null;
return fileExtension(f.getName());
}
static String fileExtension(String s) {
return substring(s, smartLastIndexOf(s, '.'));
}
static File newFile(File base, String... names) {
for (String name : names) base = new File(base, name);
return base;
}
static File newFile(String name) {
return name == null ? null : new File(name);
}
static File newFile(String base, String... names) {
return newFile(newFile(base), names);
}
static <A> ArrayList<A> litlist(A... a) {
ArrayList l = new ArrayList(a.length);
for (A x : a) l.add(x);
return l;
}
static String collapseWord(String s) {
if (s == null) return "";
StringBuilder buf = new StringBuilder();
for (int i = 0; i < l(s); i++)
if (i == 0 || !charactersEqualIC(s.charAt(i), s.charAt(i-1)))
buf.append(s.charAt(i));
return buf.toString();
}
static List<String> toLowerCase(List<String> strings) {
List<String> x = new ArrayList();
for (String s : strings)
x.add(s.toLowerCase());
return x;
}
static String[] toLowerCase(String[] strings) {
String[] x = new String[l(strings)];
for (int i = 0; i < l(strings); i++)
x[i] = strings[i].toLowerCase();
return x;
}
static String toLowerCase(String s) {
return s == null ? "" : s.toLowerCase();
}
static String firstWord2(String s) {
s = xltrim(s);
if (empty(s)) return "";
if (isLetterOrDigit(first(s)))
return takeCharsWhile(s, "isLetterOrDigit");
else return "" + first(s);
}
static boolean isLetterOrDigit(char c) {
return Character.isLetterOrDigit(c);
}
static void setDynObjectValue(DynamicObject o, String field, Object value) {
dynamicObject_setRawFieldValue(o, field, value);
}
static void metaMapPut(IMeta o, Object key, Object value) {
if (o == null || key == null) return;
Map map = convertObjectMetaToMap(o);
syncMapPutOrRemove(map, key, value);
}
// untested...
static void metaMapPut(IMeta o, Object key, Object value, IMapImplementationPolicy policy) {
if (o == null || key == null) return;
if (policy == null) { metaMapPut(o, key, value); return; }
// no shortcuts in this function, always get mutex & lock
var mutex = tempMetaMutex(o); try {
synchronized(mutex.get()) {
Object meta = o._getMeta();
// create map if necessary
Map map = null;
if (meta instanceof Map)
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);
}
} finally { _close(mutex); }}
static Object pcallFunction(Object f, Object... args) {
try { return callFunction(f, args); } catch (Throwable __e) { _handleException(__e); }
return null;
}
static volatile PersistableThrowable _handleException_lastException;
static List _handleException_onException = synchroList(ll((IVF1<Throwable>) (__1 -> printStackTrace2(__1))));
static boolean _handleException_showThreadCancellations = false;
static void _handleException(Throwable e) {
_handleException_lastException = persistableThrowable(e);
Throwable e2 = innerException(e);
if (e2.getClass() == RuntimeException.class && eq(e2.getMessage(), "Thread cancelled.") || e2 instanceof InterruptedException) {
if (_handleException_showThreadCancellations)
System.out.println(getStackTrace_noRecord(e2));
return;
}
for (Object f : cloneList(_handleException_onException)) try {
callF(f, e);
} catch (Throwable e3) {
try {
printStackTrace2(e3); // not using pcall here - it could lead to endless loops
} catch (Throwable e4) {
System.out.println(getStackTrace(e3));
System.out.println(getStackTrace(e4));
}
}
}
static List<VF1<Map>> _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 int smartLastIndexOf(String s, char c) {
if (s == null) return 0;
int i = s.lastIndexOf(c);
return i >= 0 ? i : l(s);
}
static <A> int smartLastIndexOf(List<A> l, A sub) {
int i = lastIndexOf(l, sub);
return i < 0 ? l(l) : i;
}
static boolean charactersEqualIC(char c1, char c2) {
if (c1 == c2) return true;
char u1 = Character.toUpperCase(c1);
char u2 = Character.toUpperCase(c2);
if (u1 == u2) return true;
return Character.toLowerCase(u1) == Character.toLowerCase(u2);
}
static String xltrim(String s) {
int i = 0;
while (i < s.length() && contains(" \t\r\n", s.charAt(i)))
++i;
return substr(s, i);
}
// pred: char -> bool
static String takeCharsWhile(String s, Object pred) {
int i = 0;
while (i < l(s) && isTrue(callF(pred, s.charAt(i)))) ++i;
return substring(s, 0, i);
}
static String takeCharsWhile(IF1<Character, Boolean> f, String s) {
return takeCharsWhile(s, f);
}
static void dynamicObject_setRawFieldValue(DynamicObject o, Object key, Object value) {
if (o == null) return;
// double sync, but should be OK here because of locking order o > o.fieldValues
synchronized(o) {
o.fieldValues = syncMapPut2_createLinkedHashMap((LinkedHashMap) o.fieldValues, key, value);
}
}
static Map convertObjectMetaToMap(IMeta o) { return convertObjectMetaToMap(o, () -> new LinkedHashMap()); }
static Map convertObjectMetaToMap(IMeta o, IF0<Map> createEmptyMap) {
if (o == null) return null;
// The following shortcut depends on the assumption that a meta field never reverts
// to null when it was a map
Object meta = o._getMeta();
if (meta instanceof Map) return ((Map) meta);
// non-shortcut path (create meta)
var mutex = tempMetaMutex(o); try {
var actualMutex = mutex.get();
synchronized(actualMutex) {
meta = o._getMeta();
if (meta instanceof Map) return ((Map) meta);
Map map = createEmptyMap.get();
if (meta != null) map.put("previousMeta" , meta);
o._setMeta(map);
return map;
}
} finally { _close(mutex); }}
static <A, B> void syncMapPutOrRemove(Map<A, B> map, A key, B value) {
syncMapPut2(map, key, value);
}
static IAutoCloseableF0 tempMetaMutex(IMeta o) {
return o == null ? null : o._tempMetaMutex();
}
static void _close(AutoCloseable c) {
if (c != null) try {
c.close();
} catch (Throwable e) {
// Some classes stupidly throw an exception on double-closing
if (c instanceof javax.imageio.stream.ImageOutputStream)
return;
else throw rethrow(e);
}
}
static Throwable printStackTrace2(Throwable e) {
// we go to system.out now - system.err is nonsense
print(getStackTrace2(e));
return e;
}
static void printStackTrace2() {
printStackTrace2(new Throwable());
}
static void printStackTrace2(String msg) {
printStackTrace2(new Throwable(msg));
}
static Throwable innerException(Throwable e) {
return getInnerException(e);
}
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<VF1<Map>> _threadInheritInfo_retrievers = synchroList();
static void _threadInheritInfo(Object info) {
if (info == null) return;
pcallFAll(_threadInheritInfo_retrievers, (Map) info);
}
static String substr(String s, int x) {
return substring(s, x);
}
static String substr(String s, int x, int y) {
return substring(s, x, y);
}
static <A, B> LinkedHashMap<A, B> syncMapPut2_createLinkedHashMap(LinkedHashMap<A, B> map, A key, B value) {
if (key != null)
if (value != null) {
if (map == null) map = new LinkedHashMap();
synchronized(collectionMutex(map)) { map.put(key, value); }
} else if (map != null) synchronized(collectionMutex(map)) { map.remove(key); }
return map;
}
static <A, B> void syncMapPut2(Map<A, B> map, A key, B value) {
if (map != null && key != null) synchronized(collectionMutex(map)) {
if (value != null) map.put(key, value);
else map.remove(key);
}
}
static String getStackTrace2(Throwable e) {
return hideCredentials(getStackTrace(unwrapTrivialExceptionWraps(e)) + replacePrefix("java.lang.RuntimeException: ", "FAIL: ",
hideCredentials(str(innerException2(e)))) + "\n");
}
static Throwable getInnerException(Throwable e) {
if (e == null) return null;
while (e.getCause() != null)
e = e.getCause();
return e;
}
static Throwable getInnerException(Runnable r) {
return getInnerException(getException(r));
}
static Throwable unwrapTrivialExceptionWraps(Throwable e) {
if (e == null) return e;
while (e.getClass() == RuntimeException.class
&& e.getCause() != null && eq(e.getMessage(), str(e.getCause())))
e = e.getCause();
return e;
}
static String replacePrefix(String prefix, String replacement, String s) {
if (!startsWith(s, prefix)) return s;
return replacement + substring(s, l(prefix));
}
static Throwable innerException2(Throwable e) {
if (e == null) return null;
while (empty(e.getMessage()) && e.getCause() != null)
e = e.getCause();
return e;
}
static Throwable getException(Runnable r) {
try {
callF(r);
return null;
} catch (Throwable e) {
return e;
}
}
static interface IF2<A, B, C> {
C get(A a, B b);
}
static class Var<A> implements IVar<A>, ISetter<A> {
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()); }
}
static abstract class F0<A> {
abstract A get();
}
static interface IMapImplementationPolicy {
public <A, B> Map<A, B> makeSingletonMap(A key, B value);
public <A, B> Map<A, B> put(Map<A, B> map, A key, B value);
public <A, B> Map<A, B> remove(Map<A, B> map, Object key);
}
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;}
public boolean equals(Object o) { return stdEq2(this, o); }
public int hashCode() { return stdHash2(this); }
public String toString() {
return x + "," + y + " / " + w + "," + h;
}
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 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 T3<A, B, C> {
A a;
B b;
C c;
T3() {}
T3(A a, B b, C c) {
this.c = c;
this.b = b;
this.a = a;}
T3(T3<A, B, C> t) { a = t.a; b = t.b; c = t.c; }
public int hashCode() {
return _hashCode(a) + 2*_hashCode(b) - 4*_hashCode(c);
}
public boolean equals(Object o) {
if (o == this) return true;
if (!(o instanceof T3)) return false;
T3 t = (T3) o;
return eq(a, t.a) && eq(b, t.b) && eq(c, t.c);
}
public String toString() {
return "(" + quoteBorderless(a) + ", " + quoteBorderless(b) + ", " + quoteBorderless(c) + ")";
}
}
static interface IBWImage {
int getWidth();
int getHeight();
float getFloatPixel(int x, int y);
}
static interface ISetter<A> {
void set(A a);
}
static interface IVar<A> extends IF0<A> {
void set(A a);
A get();
default boolean has() { return get() != null; }
default void clear() { set(null); }
}
static <A> void remove(List<A> l, int i) {
if (l != null && i >= 0 && i < l(l))
l.remove(i);
}
static <A> void remove(Collection<A> l, A a) {
if (l != null) l.remove(a);
}
static <A, B> B remove(Map<A, B> map, Object a) {
return map == null ? null : map.remove(a);
}
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 int ubyteToInt(byte b) {
return b & 0x0FF;
}
static String quoteBorderless(Object o) {
if (o == null) return "null";
return quoteBorderless(str(o));
}
static String quoteBorderless(String s) {
if (s == null) return "null";
StringBuilder out = new StringBuilder((int) (l(s)*1.5));
quoteBorderless_impl(s, out);
return out.toString();
}
static void quoteBorderless_impl(String s, StringBuilder out) {
int l = s.length();
for (int i = 0; i < l; i++) {
char c = s.charAt(i);
if (c == '\\' || c == '"')
out.append('\\').append(c);
else if (c == '\r')
out.append("\\r");
else if (c == '\n')
out.append("\\n");
else
out.append(c);
}
}
}