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With inspiration from other libraries
package org.mvel2.util;
import org.mvel2.CompileException;
import org.mvel2.ParserContext;
import org.mvel2.ast.ASTNode;
import org.mvel2.ast.EndOfStatement;
import org.mvel2.ast.Proto;
import org.mvel2.compiler.ExecutableStatement;
import java.util.*;
import static org.mvel2.util.ParseTools.*;
public class ProtoParser {
private char[] expr;
private ParserContext pCtx;
private int endOffset;
private int cursor;
private String protoName;
String tk1 = null;
String tk2 = null;
private Class type;
private String name;
private String deferredName;
private boolean interpreted = false;
private ExecutionStack splitAccumulator;
private static ThreadLocal> deferred = new ThreadLocal>();
public ProtoParser(char[] expr, int offset, int offsetEnd, String protoName, ParserContext pCtx, int fields,
ExecutionStack splitAccumulator) {
this.expr = expr;
this.cursor = offset;
this.endOffset = offsetEnd;
this.protoName = protoName;
this.pCtx = pCtx;
this.interpreted = (ASTNode.COMPILE_IMMEDIATE & fields) == 0;
this.splitAccumulator = splitAccumulator;
}
public Proto parse() {
Proto proto = new Proto(protoName, pCtx);
Mainloop:
while (cursor < endOffset) {
cursor = ParseTools.skipWhitespace(expr, cursor);
int start = cursor;
if (tk2 == null) {
while (cursor < endOffset && isIdentifierPart(expr[cursor])) cursor++;
if (cursor > start) {
tk1 = new String(expr, start, cursor - start);
if ("def".equals(tk1) || "function".equals(tk1)) {
cursor++;
cursor = ParseTools.skipWhitespace(expr, cursor);
start = cursor;
while (cursor < endOffset && isIdentifierPart(expr[cursor])) cursor++;
if (start == cursor) {
throw new CompileException("attempt to declare an anonymous function as a prototype member",
expr, start);
}
FunctionParser parser =
new FunctionParser(new String(expr, start, cursor - start),
cursor, endOffset, expr, 0, pCtx, null);
proto.declareReceiver(parser.getName(), parser.parse());
cursor = parser.getCursor() + 1;
tk1 = null;
continue;
}
}
cursor = ParseTools.skipWhitespace(expr, cursor);
}
if (cursor > endOffset) {
throw new CompileException("unexpected end of statement in proto declaration: " + protoName,
expr, start);
}
switch (expr[cursor]) {
case ';':
cursor++;
calculateDecl();
if (interpreted && type == DeferredTypeResolve.class) {
/**
* If this type could not be immediately resolved, it may be a look-ahead case, so
* we defer resolution of the type until later and place it in the wait queue.
*/
enqueueReceiverForLateResolution(deferredName,
proto.declareReceiver(name, Proto.ReceiverType.DEFERRED, null), null);
}
else {
proto.declareReceiver(name, type, null);
}
break;
case '=':
cursor++;
cursor = ParseTools.skipWhitespace(expr, cursor);
start = cursor;
Loop:
while (cursor < endOffset) {
switch (expr[cursor]) {
case '{':
case '[':
case '(':
case '\'':
case '"':
cursor = balancedCaptureWithLineAccounting(expr, cursor, endOffset, expr[cursor], pCtx);
break;
case ';':
break Loop;
}
cursor++;
}
calculateDecl();
String initString = new String(expr, start, cursor++ - start);
if (interpreted && type == DeferredTypeResolve.class) {
enqueueReceiverForLateResolution(deferredName,
proto.declareReceiver(name, Proto.ReceiverType.DEFERRED, null), initString);
}
else {
proto.declareReceiver(name, type, (ExecutableStatement)
subCompileExpression(initString, pCtx));
}
break;
default:
start = cursor;
while (cursor < endOffset && isIdentifierPart(expr[cursor])) cursor++;
if (cursor > start) {
tk2 = new String(expr, start, cursor - start);
}
}
}
cursor++;
/**
* Check if the function is manually terminated.
*/
if (splitAccumulator != null && ParseTools.isStatementNotManuallyTerminated(expr, cursor)) {
/**
* Add an EndOfStatement to the split accumulator in the parser.
*/
splitAccumulator.add(new EndOfStatement(pCtx));
}
return proto;
}
private void calculateDecl() {
if (tk2 != null) {
try {
if (pCtx.hasProtoImport(tk1)) {
type = Proto.class;
}
else {
type = ParseTools.findClass(null, tk1, pCtx);
}
name = tk2;
}
catch (ClassNotFoundException e) {
if (interpreted) {
type = DeferredTypeResolve.class;
deferredName = tk1;
name = tk2;
}
else {
throw new CompileException("could not resolve class: " + tk1, expr, cursor, e);
}
}
}
else {
type = Object.class;
name = tk1;
}
tk1 = null;
tk2 = null;
}
private interface DeferredTypeResolve {
public boolean isWaitingFor(Proto proto);
public String getName();
}
private void enqueueReceiverForLateResolution(final String name, final Proto.Receiver receiver, final String initializer) {
Queue recv = deferred.get();
if (recv == null) {
deferred.set(recv = new LinkedList());
}
recv.add(new DeferredTypeResolve() {
public boolean isWaitingFor(Proto proto) {
if (name.equals(proto.getName())) {
receiver.setType(Proto.ReceiverType.PROPERTY);
receiver.setInitValue((ExecutableStatement) subCompileExpression(initializer, pCtx));
return true;
}
return false;
}
public String getName() {
return name;
}
});
}
public static void notifyForLateResolution(final Proto proto) {
if (deferred.get() != null) {
Queue recv = deferred.get();
Set remove = new HashSet();
for (DeferredTypeResolve r : recv) {
if (r.isWaitingFor(proto)) {
remove.add(r);
}
}
for (DeferredTypeResolve r : remove) {
recv.remove(r);
}
}
}
public int getCursor() {
return cursor;
}
/**
* This is such a horrible hack, but it's more performant than any other horrible hack I can think of
* right now.
*
* @param expr
* @param cursor
* @param pCtx
*/
public static void checkForPossibleUnresolvedViolations(char[] expr, int cursor, ParserContext pCtx) {
if (isUnresolvedWaiting()) {
LinkedHashMap imports =
(LinkedHashMap) pCtx.getParserConfiguration().getImports();
Object o = imports.values().toArray()[imports.size() - 1];
if (o instanceof Proto) {
Proto proto = (Proto) o;
int last = proto.getCursorEnd();
cursor--;
/**
* We walk backwards to ensure that the last valid statement was a proto declaration.
*/
while (cursor > last && ParseTools.isWhitespace(expr[cursor])) cursor--;
while (cursor > last && ParseTools.isIdentifierPart(expr[cursor])) cursor--;
while (cursor > last && (ParseTools.isWhitespace(expr[cursor]) || expr[cursor] == ';')) cursor--;
if (cursor != last) {
throw new CompileException("unresolved reference (possible illegal forward-reference?): " +
ProtoParser.getNextUnresolvedWaiting(), expr, proto.getCursorStart());
}
}
}
}
public static boolean isUnresolvedWaiting() {
return deferred.get() != null && !deferred.get().isEmpty();
}
public static String getNextUnresolvedWaiting() {
if (deferred.get() != null && !deferred.get().isEmpty()) {
return deferred.get().poll().getName();
}
return null;
}
}