mirror of
https://github.com/golang/go
synced 2024-11-25 22:17:58 -07:00
Implement if, for (modulo ranges), break, continue, increment,
and decrement. blockCompilers now form a tree the mimics the nesting of scopes and provide convenient ways to enter and exit scopes. blockCompilers also track the break and continue PC for the current block. The statement testing interface now works in lists of statements, which simplifies a bunch of things. R=rsc APPROVED=rsc DELTA=401 (335 added, 44 deleted, 22 changed) OCL=32308 CL=32317
This commit is contained in:
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483e4fc409
commit
709e75e3a1
@ -65,10 +65,24 @@ type blockCompiler struct {
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*funcCompiler;
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scope *Scope;
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returned bool;
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// The PC break statements should jump to, or nil if a break
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// statement is invalid.
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breakPC *uint;
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// The PC continue statements should jump to, or nil if a
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// continue statement is invalid.
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continuePC *uint;
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// The blockCompiler for the block enclosing this one, or nil
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// for a function-level block.
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parent *blockCompiler;
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// The blockCompiler for the nested block currently being
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// compiled, or nil if compilation is not in a nested block.
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child *blockCompiler;
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}
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func (a *blockCompiler) compileBlock(body *ast.BlockStmt)
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func (a *blockCompiler) compileStmt(s ast.Stmt)
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func (a *blockCompiler) compileStmts(body *ast.BlockStmt)
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func (a *blockCompiler) enterChild() *blockCompiler
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func (a *blockCompiler) exit()
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// An exprContext stores information used throughout the compilation
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// of a single expression. It does not embed funcCompiler because
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@ -62,6 +62,10 @@ func (b *codeBuf) push(instr func(*vm)) {
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b.instrs[n] = instr;
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}
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func (b *codeBuf) nextPC() uint {
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return uint(len(b.instrs));
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}
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func (b *codeBuf) get() code {
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// Freeze this buffer into an array of exactly the right size
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a := make(code, len(b.instrs));
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@ -5,6 +5,7 @@
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package eval
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import (
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"bignum";
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"eval";
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"log";
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"os";
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@ -54,7 +55,6 @@ func (a *stmtCompiler) DoLabeledStmt(s *ast.LabeledStmt) {
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}
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func (a *stmtCompiler) DoExprStmt(s *ast.ExprStmt) {
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// TODO(austin) Permit any 0 or more valued function call
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e := a.compileExpr(a.scope, s.X, false);
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if e == nil {
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return;
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@ -73,7 +73,55 @@ func (a *stmtCompiler) DoExprStmt(s *ast.ExprStmt) {
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}
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func (a *stmtCompiler) DoIncDecStmt(s *ast.IncDecStmt) {
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log.Crash("Not implemented");
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l := a.compileExpr(a.scope, s.X, false);
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if l == nil {
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return;
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}
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if l.evalAddr == nil {
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l.diag("cannot assign to %s", l.desc);
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return;
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}
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if !(l.t.isInteger() || l.t.isFloat()) {
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l.diagOpType(s.Tok, l.t);
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return;
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}
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effect, l := l.extractEffect();
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one := l.copy();
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one.pos = s.Pos();
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one.t = IdealIntType;
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one.evalIdealInt = func() *bignum.Integer { return bignum.Int(1) };
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var op token.Token;
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switch s.Tok {
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case token.INC:
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op = token.ADD;
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case token.DEC:
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op = token.SUB;
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default:
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log.Crashf("Unexpected IncDec token %v", s.Tok);
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}
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binop := l.copy();
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binop.pos = s.Pos();
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binop.doBinaryExpr(op, l, one);
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if binop.t == nil {
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return;
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}
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assign := a.compileAssign(s.Pos(), l.t, []*exprCompiler{binop}, "", "");
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if assign == nil {
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log.Crashf("compileAssign type check failed");
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}
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lf := l.evalAddr;
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a.push(func(v *vm) {
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effect(v.f);
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assign(lf(v.f), v.f);
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});
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a.err = false;
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}
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func (a *stmtCompiler) doAssign(s *ast.AssignStmt) {
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@ -329,6 +377,11 @@ func (a *stmtCompiler) DoDeferStmt(s *ast.DeferStmt) {
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}
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func (a *stmtCompiler) DoReturnStmt(s *ast.ReturnStmt) {
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if a.fnType == nil {
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a.diag("cannot return at the top level");
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return;
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}
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// Supress return errors even if we fail to compile this
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// return statement.
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a.returned = true;
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@ -379,27 +432,127 @@ func (a *stmtCompiler) DoReturnStmt(s *ast.ReturnStmt) {
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}
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func (a *stmtCompiler) DoBranchStmt(s *ast.BranchStmt) {
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log.Crash("Not implemented");
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switch s.Tok {
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case token.BREAK:
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if s.Label != nil {
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log.Crash("break with label not implemented");
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}
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bc := a.blockCompiler;
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for ; bc != nil; bc = bc.parent {
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if bc.breakPC != nil {
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pc := bc.breakPC;
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a.push(func(v *vm) { v.pc = *pc });
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a.err = false;
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return;
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}
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}
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a.diag("break outside for loop, switch, or select");
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case token.CONTINUE:
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if s.Label != nil {
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log.Crash("continue with label not implemented");
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}
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bc := a.blockCompiler;
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for ; bc != nil; bc = bc.parent {
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if bc.continuePC != nil {
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pc := bc.continuePC;
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a.push(func(v *vm) { v.pc = *pc });
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a.err = false;
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return;
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}
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}
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a.diag("continue outside for loop");
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case token.GOTO:
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log.Crash("goto not implemented");
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case token.FALLTHROUGH:
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log.Crash("fallthrough not implemented");
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default:
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log.Crash("Unexpected branch token %v", s.Tok);
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}
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}
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func (a *stmtCompiler) DoBlockStmt(s *ast.BlockStmt) {
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blockScope := a.scope.Fork();
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bc := &blockCompiler{a.funcCompiler, blockScope, false};
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a.push(func(v *vm) {
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v.f = blockScope.NewFrame(v.f);
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});
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bc.compileBlock(s);
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a.push(func(v *vm) {
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v.f = v.f.Outer;
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});
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bc := a.enterChild();
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bc.compileStmts(s);
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bc.exit();
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a.returned = a.returned || bc.returned;
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a.err = false;
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}
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func (a *stmtCompiler) DoIfStmt(s *ast.IfStmt) {
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log.Crash("Not implemented");
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// The scope of any variables declared by [the init] statement
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// extends to the end of the "if" statement and the variables
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// are initialized once before the statement is entered.
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//
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// XXX(Spec) What this really wants to say is that there's an
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// implicit scope wrapping every if, for, and switch
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// statement. This is subtly different from what it actually
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// says when there's a non-block else clause, because that
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// else claus has to execute in a scope that is *not* the
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// surrounding scope.
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bc := a.blockCompiler;
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bc = bc.enterChild();
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defer bc.exit();
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// Compile init statement, if any
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if s.Init != nil {
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bc.compileStmt(s.Init);
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}
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var elsePC, endPC uint;
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// Compile condition, if any. If there is no condition, we
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// fall through to the body.
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bad := false;
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if s.Cond != nil {
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e := bc.compileExpr(bc.scope, s.Cond, false);
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switch {
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case e == nil:
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bad = true;
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case !e.t.isBoolean():
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e.diag("'if' condition must be boolean\n\t%v", e.t);
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bad = true;
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default:
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eval := e.asBool();
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a.push(func(v *vm) {
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if !eval(v.f) {
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v.pc = elsePC;
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}
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});
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}
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}
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// Compile body
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body := bc.enterChild();
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body.compileStmts(s.Body);
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body.exit();
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// Compile else
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if s.Else != nil {
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// Skip over else if we executed the body
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a.push(func(v *vm) {
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v.pc = endPC;
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});
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elsePC = a.nextPC();
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bc.compileStmt(s.Else);
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if body.returned && bc.returned {
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a.returned = true;
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}
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} else {
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elsePC = a.nextPC();
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}
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endPC = a.nextPC();
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if !bad {
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a.err = false;
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}
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}
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func (a *stmtCompiler) DoCaseClause(s *ast.CaseClause) {
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@ -427,21 +580,130 @@ func (a *stmtCompiler) DoSelectStmt(s *ast.SelectStmt) {
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}
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func (a *stmtCompiler) DoForStmt(s *ast.ForStmt) {
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log.Crash("Not implemented");
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// Compile init statement, if any
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bc := a.blockCompiler;
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if s.Init != nil {
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bc = bc.enterChild();
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defer bc.exit();
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bc.compileStmt(s.Init);
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}
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var bodyPC, checkPC, endPC uint;
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// Jump to condition check. We generate slightly less code by
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// placing the condition check after the body.
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a.push(func(v *vm) { v.pc = checkPC });
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// Compile body
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bodyPC = a.nextPC();
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body := bc.enterChild();
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body.breakPC = &endPC;
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body.continuePC = &checkPC;
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body.compileStmts(s.Body);
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body.exit();
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// Compile post, if any
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if s.Post != nil {
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// TODO(austin) Does the parser disallow short
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// declarations in s.Post?
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bc.compileStmt(s.Post);
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}
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// Compile condition check, if any
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bad := false;
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checkPC = a.nextPC();
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if s.Cond == nil {
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// If the condition is absent, it is equivalent to true.
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a.push(func(v *vm) { v.pc = bodyPC });
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} else {
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e := bc.compileExpr(bc.scope, s.Cond, false);
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switch {
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case e == nil:
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bad = true;
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case !e.t.isBoolean():
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a.diag("'for' condition must be boolean\n\t%v", e.t);
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bad = true;
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default:
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eval := e.asBool();
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a.push(func(v *vm) {
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if eval(v.f) {
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v.pc = bodyPC;
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}
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});
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}
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}
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endPC = a.nextPC();
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if !bad {
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a.err = false;
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}
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}
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func (a *stmtCompiler) DoRangeStmt(s *ast.RangeStmt) {
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log.Crash("Not implemented");
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}
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func (a *blockCompiler) compileBlock(block *ast.BlockStmt) {
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/*
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* Block compiler
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*/
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func (a *blockCompiler) compileStmt(s ast.Stmt) {
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if a.child != nil {
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log.Crash("Child scope still entered");
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}
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sc := &stmtCompiler{a, s.Pos(), true};
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s.Visit(sc);
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if a.child != nil {
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log.Crash("Forgot to exit child scope");
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}
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a.err = a.err || sc.err;
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}
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func (a *blockCompiler) compileStmts(block *ast.BlockStmt) {
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for i, sub := range block.List {
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sc := &stmtCompiler{a, sub.Pos(), true};
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sub.Visit(sc);
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a.err = a.err || sc.err;
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a.compileStmt(sub);
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}
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}
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func (a *blockCompiler) enterChild() *blockCompiler {
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if a.child != nil {
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log.Crash("Failed to exit child block before entering another child");
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}
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blockScope := a.scope.Fork();
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bc := &blockCompiler{
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funcCompiler: a.funcCompiler,
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scope: blockScope,
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returned: false,
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parent: a,
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};
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a.child = bc;
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a.push(func(v *vm) {
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v.f = blockScope.NewFrame(v.f);
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});
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return bc;
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}
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func (a *blockCompiler) exit() {
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if a.parent == nil {
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log.Crash("Cannot exit top-level block");
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}
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if a.parent.child != a {
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log.Crash("Double exit of block");
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}
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if a.child != nil {
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log.Crash("Exit of parent block without exit of child block");
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}
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a.push(func(v *vm) {
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v.f = v.f.Outer;
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});
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a.parent.child = nil;
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}
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/*
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* Function compiler
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*/
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func (a *compiler) compileFunc(scope *Scope, decl *FuncDecl, body *ast.BlockStmt) (func (f *Frame) Func) {
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// Create body scope
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//
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@ -465,17 +727,23 @@ func (a *compiler) compileFunc(scope *Scope, decl *FuncDecl, body *ast.BlockStmt
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if len(decl.OutNames) > 0 && decl.OutNames[0] != nil {
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fc.outVarsNamed = true;
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}
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bc := &blockCompiler{fc, bodyScope, false};
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bc := &blockCompiler{
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funcCompiler: fc,
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scope: bodyScope,
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returned: false,
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};
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// Compile body
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bc.compileBlock(body);
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bc.compileStmts(body);
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// TODO(austin) Check that all gotos were linked?
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if fc.err {
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return nil;
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}
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// TODO(austin) Check that all gotos were linked?
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// Check that the body returned if necessary
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// Check that the body returned if necessary. We only check
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// this if there were no errors compiling the body.
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if len(decl.Type.Out) > 0 && !bc.returned {
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// XXX(Spec) Not specified.
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a.diagAt(&body.Rbrace, "function ends without a return statement");
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@ -498,14 +766,19 @@ func (s *Stmt) Exec(f *Frame) {
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s.f(f);
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}
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func CompileStmt(scope *Scope, stmt ast.Stmt) (*Stmt, os.Error) {
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func CompileStmts(scope *Scope, stmts []ast.Stmt) (*Stmt, os.Error) {
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errors := scanner.NewErrorVector();
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cc := &compiler{errors};
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fc := &funcCompiler{cc, nil, false, newCodeBuf(), false};
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bc := &blockCompiler{fc, scope, false};
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sc := &stmtCompiler{bc, stmt.Pos(), true};
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stmt.Visit(sc);
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fc.err = fc.err || sc.err;
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bc := &blockCompiler{
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funcCompiler: fc,
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scope: scope,
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returned: false
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};
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out := make([]*Stmt, len(stmts));
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for i, stmt := range stmts {
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bc.compileStmt(stmt);
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}
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if fc.err {
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return nil, errors.GetError(scanner.Sorted);
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}
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