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/* NSC -- new scala compiler
* Copyright 2005 LAMP/EPFL
* @author Martin Odersky
*/
// $Id$
package scala.tools.nsc.symtab;
trait Scopes requires SymbolTable {
class ScopeEntry(val sym: Symbol, val owner: Scope) {
/** the next entry in the hash bucket
*/
var tail: ScopeEntry = _;
/** the next entry in this scope
*/
var next: ScopeEntry = null;
override def hashCode(): int = sym.name.start;
override def toString(): String = sym.toString();
}
def newScopeEntry(sym: Symbol, owner: Scope): ScopeEntry = {
val e = new ScopeEntry(sym, owner);
e.next = owner.elems;
owner.elems = e;
e
}
object NoScopeEntry extends ScopeEntry(NoSymbol, null);
class Scope(initElems: ScopeEntry) {
var elems: ScopeEntry = initElems;
/** The number of times this scope is neted in another
*/
private var nestinglevel = 0;
/** the hash table
*/
private var hashtable: Array[ScopeEntry] = null;
/** a cache for all elements, to be used by symbol iterator.
*/
private var elemsCache: List[Symbol] = null;
/** size and mask of hash tables
* todo: make hashtables grow?
*/
private val HASHSIZE = 0x80;
private val HASHMASK = 0x7f;
/** the threshold number of entries from which a hashtable is constructed.
*/
private val MIN_HASH = 8;
if (size >= MIN_HASH) createHash;
def this() = this(null: ScopeEntry);
def this(base: Scope) = {
this(base.elems);
/*
if (base.hashtable != null) {
this.hashtable = new Array[ScopeEntry](HASHSIZE);
System.arraycopy(base.hashtable, 0, this.hashtable, 0, HASHSIZE);
}
*/
nestinglevel = base.nestinglevel + 1
}
def this(decls: List[Symbol]) = {
this();
decls foreach enter
}
/** Returns a new scope with the same content as this one. */
def cloneScope: Scope = {
val clone = new Scope();
this.toList foreach clone.enter;
clone
}
/** is the scope empty? */
def isEmpty: boolean = elems == null;
/** the number of entries in this scope */
def size: int = {
var s = 0;
var e = elems;
while (e != null) {
s = s + 1;
e = e.next
}
s
}
/** enter a scope entry
*/
def enter(e: ScopeEntry): unit = {
elemsCache = null;
if (hashtable != null) {
val i = e.sym.name.start & HASHMASK;
elems.tail = hashtable(i);
hashtable(i) = elems;
} else if (size >= MIN_HASH) {
createHash;
}
}
/** enter a symbol
*/
def enter(sym: Symbol): unit = enter(newScopeEntry(sym, this));
/** enter a symbol, asserting that no symbol with same name exists in scope
*/
def enterUnique(sym: Symbol): unit = {
assert(lookup(sym.name) == NoSymbol);
enter(sym);
}
private def createHash: unit = {
hashtable = new Array[ScopeEntry](HASHSIZE);
enterInHash(elems);
}
private def enterInHash(e: ScopeEntry): unit = {
if (e != null) {
enterInHash(e.next);
val i = e.sym.name.start & HASHMASK;
e.tail = hashtable(i);
hashtable(i) = e;
}
}
/** remove entry
*/
def unlink(e: ScopeEntry): unit = {
if (elems == e) {
elems = e.next;
} else {
var e1 = elems;
while (e1.next != e) e1 = e1.next;
e1.next = e.next;
}
if (hashtable != null) {
var e1 = hashtable(e.sym.name.start & HASHMASK);
if (e1 == e) {
hashtable(e.sym.name.start & HASHMASK) = e.tail;
} else {
while (e1.tail != e) e1 = e1.tail;
e1.tail = e.tail;
}
}
elemsCache = null
}
/** remove symbol */
def unlink(sym: Symbol): unit = {
var e = lookupEntry(sym.name);
while (e != null) {
if (e.sym == sym) unlink(e);
e = lookupNextEntry(e)
}
}
/** lookup a symbol
*/
def lookup(name: Name): Symbol = {
val e = lookupEntry(name);
if (e == null) NoSymbol else e.sym;
}
/** lookup a symbol entry matching given name
*/
def lookupEntry(name: Name): ScopeEntry = {
var e: ScopeEntry = null;
if (false & hashtable != null) {
e = hashtable(name.start & HASHMASK);
while (e != null && e.sym.name != name) e = e.tail;
} else {
e = elems;
while (e != null && e.sym.name != name) e = e.next;
}
e
}
/** lookup next entry with same name as this one */
def lookupNextEntry(entry: ScopeEntry): ScopeEntry = {
var e = entry;
if (hashtable != null) //debug
do { e = e.tail } while (e != null && e.sym.name != entry.sym.name)
else
do { e = e.next } while (e != null && e.sym.name != entry.sym.name);
e
}
/** Return all symbols as a list in the order they were entered in this scope.
*/
def toList: List[Symbol] = {
if (elemsCache == null) {
elemsCache = Nil;
var e = elems;
while (e != null && e.owner == this) {
elemsCache = e.sym :: elemsCache;
e = e.next
}
}
elemsCache
}
/** Return all symbols as an interator in the order they were entered in this scope.
*/
def elements: Iterator[Symbol] = toList.elements;
def filter(p: Symbol => boolean): Scope =
if (!(toList forall p)) new Scope(toList filter p) else this
def mkString(start: String, sep: String, end: String) =
toList.map(.defString).mkString(start, sep, end);
override def toString(): String = mkString("{\n ", ";\n ", "\n}");
/** Return the nesting level of this scope, i.e. the number of times this scope
* was nested in another */
def nestingLevel = nestinglevel;
}
/** The empty scope (immutable).
*/
object EmptyScope extends Scope {
override def enter(e: ScopeEntry): unit =
throw new Error("EmptyScope.enter");
}
/** The error scope.
*/
class ErrorScope(owner: Symbol) extends Scope(null: ScopeEntry) {
override def lookupEntry(name: Name): ScopeEntry = {
val e = super.lookupEntry(name);
if (e != NoSymbol) e
else {
enter(if (name.isTermName) owner.newErrorValue(name)
else owner.newErrorClass(name));
super.lookupEntry(name);
}
}
}
}
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