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* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
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* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation. Oracle designates this
* particular file as subject to the "Classpath" exception as provided
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*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
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* 2 along with this work; if not, write to the Free Software Foundation,
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*
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package sun.tools.tree;
import sun.tools.java.*;
import sun.tools.asm.Assembler;
import sun.tools.asm.Label;
import sun.tools.asm.TryData;
import sun.tools.asm.CatchData;
import java.io.PrintStream;
import java.util.Hashtable;
import java.util.Enumeration;
WARNING: The contents of this source file are not part of any
supported API. Code that depends on them does so at its own risk:
they are subject to change or removal without notice.
/**
* WARNING: The contents of this source file are not part of any
* supported API. Code that depends on them does so at its own risk:
* they are subject to change or removal without notice.
*/
public
class FinallyStatement extends Statement {
Statement body;
Statement finalbody;
boolean finallyCanFinish; // does finalBody never return?
boolean needReturnSlot; // set by inner return statement
Statement init; // try object expression or declaration from parser
LocalMember tryTemp; // temp holding the try object, if any
Constructor
/**
* Constructor
*/
public FinallyStatement(long where, Statement body, Statement finalbody) {
super(FINALLY, where);
this.body = body;
this.finalbody = finalbody;
}
// /**
// * Constructor for try (init) {body}
// */
// public FinallyStatement(long where, Statement init, Statement body, int junk) {
// this(where, body, null);
// this.init = init;
// }
Check statement
/**
* Check statement
*/
Vset check(Environment env, Context ctx, Vset vset, Hashtable<Object, Object> exp) {
vset = reach(env, vset);
Hashtable<Object, Object> newexp = new Hashtable<>();
// Handle the proposed 'try (init) { stmts } finally { stmts }' syntax.
// This feature has not been adopted, and support is presently disabled.
/*-----------------------------------------------------------*
if (init != null) {
ClassDefinition sourceClass = ctx.field.getClassDefinition();
Expression tryExpr = null;
DeclarationStatement tryDecl = null;
long where = init.getWhere();
// find out whether init is a simple expression or a declaration
if (init.getOp() == EXPRESSION) {
tryExpr = ((ExpressionStatement)init).expr;
init = null; // restore it below
vset = tryExpr.checkValue(env, ctx, vset, exp);
} else if (init.getOp() == DECLARATION) {
tryDecl = (DeclarationStatement) init;
init = null; // restore it below
vset = tryDecl.checkBlockStatement(env, ctx, vset, exp);
if (tryDecl.args.length != 1) {
env.error(where, "invalid.decl");
} else {
LocalMember field =
((VarDeclarationStatement) tryDecl.args[0]).field;
tryExpr = new IdentifierExpression(where, field);
tryExpr.type = field.getType();
}
} else {
env.error(where, "invalid.expr");
vset = init.check(env, ctx, vset, exp);
}
Type type = (tryExpr == null) ? Type.tError : tryExpr.getType();
MemberDefinition tryEnter = null;
MemberDefinition tryExit = null;
if (!type.isType(TC_CLASS)) {
if (!type.isType(TC_ERROR)) {
env.error(where, "invalid.method.invoke", type);
}
} else {
Identifier idTryEnter = Identifier.lookup("tryEnter");
Identifier idTryExit = Identifier.lookup("tryExit");
Type tTryMethod = Type.tMethod(Type.tVoid);
try {
ClassDefinition tryClass = env.getClassDefinition(type);
tryEnter = tryClass.matchMethod(env, sourceClass, idTryEnter);
tryExit = tryClass.matchMethod(env, sourceClass, idTryExit);
if (tryEnter != null && !tryEnter.getType().equals(tTryMethod)) {
tryEnter = null;
}
if (tryExit != null && !tryExit.getType().equals(tTryMethod)) {
tryExit = null;
}
} catch (ClassNotFound ee) {
env.error(where, "class.not.found", ee.name, ctx.field);
} catch (AmbiguousMember ee) {
Identifier id = ee.field1.getName();
env.error(where, "ambig.field", id, ee.field1, ee.field2);
}
}
if (tryEnter == null || tryExit == null) {
// Make a better (more didactic) error here!
env.error(where, "invalid.method.invoke", type);
} else {
tryTemp = new LocalMember(where, sourceClass, 0,
type, Identifier.lookup("<try_object>"));
ctx = new Context(ctx, this);
ctx.declare(env, tryTemp);
Expression e;
e = new IdentifierExpression(where, tryTemp);
e = new AssignExpression(where, e, tryExpr);
e = new MethodExpression(where, e, tryEnter, new Expression[0]);
e.type = Type.tVoid;
Statement enterCall = new ExpressionStatement(where, e);
// store it on the init, for code generation
if (tryDecl != null) {
Statement args2[] = { tryDecl.args[0], enterCall };
tryDecl.args = args2;
init = tryDecl;
} else {
init = enterCall;
}
e = new IdentifierExpression(where, tryTemp);
e = new MethodExpression(where, e, tryExit, new Expression[0]);
e.type = Type.tVoid;
Statement exitCall = new ExpressionStatement(where, e);
finalbody = exitCall;
}
}
*-----------------------------------------------------------*/
// Check the try part. We reach the end of the try part either by
// finishing normally, or doing a break to the label of the try/finally.
// NOTE: I don't think newctx1.vsBreak is ever used -- see TryStatement.
CheckContext newctx1 = new CheckContext(ctx, this);
Vset vset1 = body.check(env, newctx1, vset.copy(), newexp)
.join(newctx1.vsBreak);
// Check the finally part.
CheckContext newctx2 = new CheckContext(ctx, this);
// Should never access this field. The null indicates the finally part.
newctx2.vsContinue = null;
Vset vset2 = finalbody.check(env, newctx2, vset, exp);
finallyCanFinish = !vset2.isDeadEnd();
vset2 = vset2.join(newctx2.vsBreak);
// If !finallyCanFinish, then the only possible exceptions that can
// occur at this point are the ones preceding the try/finally, or
// the ones generated by the finally. Anything in the try is
// irrelevant. Otherwise, we have to merge in all the exceptions
// generated by the body into exp.
if (finallyCanFinish) {
// Add newexp's back into exp; cf. ThrowStatement.check().
for (Enumeration<?> e = newexp.keys() ; e.hasMoreElements() ; ) {
Object def = e.nextElement();
exp.put(def, newexp.get(def));
}
}
return ctx.removeAdditionalVars(vset1.addDAandJoinDU(vset2));
}
Inline
/**
* Inline
*/
public Statement inline(Environment env, Context ctx) {
if (tryTemp != null) {
ctx = new Context(ctx, this);
ctx.declare(env, tryTemp);
}
if (init != null) {
init = init.inline(env, ctx);
}
if (body != null) {
body = body.inline(env, ctx);
}
if (finalbody != null) {
finalbody = finalbody.inline(env, ctx);
}
if (body == null) {
return eliminate(env, finalbody);
}
if (finalbody == null) {
return eliminate(env, body);
}
return this;
}
Create a copy of the statement for method inlining
/**
* Create a copy of the statement for method inlining
*/
public Statement copyInline(Context ctx, boolean valNeeded) {
FinallyStatement s = (FinallyStatement)clone();
if (tryTemp != null) {
s.tryTemp = tryTemp.copyInline(ctx);
}
if (init != null) {
s.init = init.copyInline(ctx, valNeeded);
}
if (body != null) {
s.body = body.copyInline(ctx, valNeeded);
}
if (finalbody != null) {
s.finalbody = finalbody.copyInline(ctx, valNeeded);
}
return s;
}
Compute cost of inlining this statement
/**
* Compute cost of inlining this statement
*/
public int costInline(int thresh, Environment env, Context ctx){
int cost = 4;
if (init != null) {
cost += init.costInline(thresh, env,ctx);
if (cost >= thresh) return cost;
}
if (body != null) {
cost += body.costInline(thresh, env,ctx);
if (cost >= thresh) return cost;
}
if (finalbody != null) {
cost += finalbody.costInline(thresh, env,ctx);
}
return cost;
}
Code
/**
* Code
*/
public void code(Environment env, Context ctx, Assembler asm) {
ctx = new Context(ctx);
Integer num1 = null, num2 = null;
Label endLabel = new Label();
if (tryTemp != null) {
ctx.declare(env, tryTemp);
}
if (init != null) {
CodeContext exprctx = new CodeContext(ctx, this);
init.code(env, exprctx, asm);
}
if (finallyCanFinish) {
LocalMember f1, f2;
ClassDefinition thisClass = ctx.field.getClassDefinition();
if (needReturnSlot) {
Type returnType = ctx.field.getType().getReturnType();
LocalMember localfield = new LocalMember(0, thisClass, 0,
returnType,
idFinallyReturnValue);
ctx.declare(env, localfield);
Environment.debugOutput("Assigning return slot to " + localfield.number);
}
// allocate space for the exception and return address
f1 = new LocalMember(where, thisClass, 0, Type.tObject, null);
f2 = new LocalMember(where, thisClass, 0, Type.tInt, null);
num1 = ctx.declare(env, f1);
num2 = ctx.declare(env, f2);
}
TryData td = new TryData();
td.add(null);
// Main body
CodeContext bodyctx = new CodeContext(ctx, this);
asm.add(where, opc_try, td); // start of protected code
body.code(env, bodyctx, asm);
asm.add(bodyctx.breakLabel);
asm.add(td.getEndLabel()); // end of protected code
// Cleanup afer body
if (finallyCanFinish) {
asm.add(where, opc_jsr, bodyctx.contLabel);
asm.add(where, opc_goto, endLabel);
} else {
// just goto the cleanup code. It will never return.
asm.add(where, opc_goto, bodyctx.contLabel);
}
// Catch code
CatchData cd = td.getCatch(0);
asm.add(cd.getLabel());
if (finallyCanFinish) {
asm.add(where, opc_astore, num1); // store exception
asm.add(where, opc_jsr, bodyctx.contLabel);
asm.add(where, opc_aload, num1); // rethrow exception
asm.add(where, opc_athrow);
} else {
// pop exception off stack. Fall through to finally code
asm.add(where, opc_pop);
}
// The finally part, which is marked by the contLabel. Update
// breakLabel: since break's in the finally are different
// contLabel: to null to indicate no longer in the protected code.
asm.add(bodyctx.contLabel);
bodyctx.contLabel = null;
bodyctx.breakLabel = endLabel;
if (finallyCanFinish) {
asm.add(where, opc_astore, num2); // save the return address
finalbody.code(env, bodyctx, asm); // execute the cleanup code
asm.add(where, opc_ret, num2); // return
} else {
finalbody.code(env, bodyctx, asm); // execute the cleanup code
}
asm.add(endLabel); // breaks come here
}
Print
/**
* Print
*/
public void print(PrintStream out, int indent) {
super.print(out, indent);
out.print("try ");
if (body != null) {
body.print(out, indent);
} else {
out.print("<empty>");
}
out.print(" finally ");
if (finalbody != null) {
finalbody.print(out, indent);
} else {
out.print("<empty>");
}
}
}