private void atSwitchStmnt(Stmnt st) throws CompileError { compileExpr(st.head()); ArrayList prevBreakList = breakList; breakList = new ArrayList(); int opcodePc = bytecode.currentPc(); bytecode.addOpcode(LOOKUPSWITCH); int npads = 3 - (opcodePc & 3); while (npads-- > 0) bytecode.add(0); Stmnt body = (Stmnt) st.tail(); int npairs = 0; for (ASTList list = body; list != null; list = list.tail()) if (((Stmnt) list.head()).getOperator() == CASE) ++npairs; // opcodePc2 is the position at which the default jump offset is. int opcodePc2 = bytecode.currentPc(); bytecode.addGap(4); bytecode.add32bit(npairs); bytecode.addGap(npairs * 8); long[] pairs = new long[npairs]; int ipairs = 0; int defaultPc = -1; for (ASTList list = body; list != null; list = list.tail()) { Stmnt label = (Stmnt) list.head(); int op = label.getOperator(); if (op == DEFAULT) defaultPc = bytecode.currentPc(); else if (op != CASE) fatal(); else { pairs[ipairs++] = ((long) computeLabel(label.head()) << 32) + ((long) (bytecode.currentPc() - opcodePc) & 0xffffffff); } hasReturned = false; ((Stmnt) label.tail()).accept(this); } Arrays.sort(pairs); int pc = opcodePc2 + 8; for (int i = 0; i < npairs; ++i) { bytecode.write32bit(pc, (int) (pairs[i] >>> 32)); bytecode.write32bit(pc + 4, (int) pairs[i]); pc += 8; } if (defaultPc < 0 || breakList.size() > 0) hasReturned = false; int endPc = bytecode.currentPc(); if (defaultPc < 0) defaultPc = endPc; bytecode.write32bit(opcodePc2, defaultPc - opcodePc); patchGoto(breakList, endPc); breakList = prevBreakList; }
private void atForStmnt(Stmnt st) throws CompileError { ArrayList prevBreakList = breakList; ArrayList prevContList = continueList; breakList = new ArrayList(); continueList = new ArrayList(); Stmnt init = (Stmnt) st.head(); ASTList p = st.tail(); ASTree expr = p.head(); p = p.tail(); Stmnt update = (Stmnt) p.head(); Stmnt body = (Stmnt) p.tail(); if (init != null) init.accept(this); int pc = bytecode.currentPc(); int pc2 = 0; if (expr != null) { if (compileBooleanExpr(false, expr)) { // in case of "for (...; false; ...)" continueList = prevContList; breakList = prevBreakList; hasReturned = false; return; } pc2 = bytecode.currentPc(); bytecode.addIndex(0); } if (body != null) body.accept(this); int pc3 = bytecode.currentPc(); if (update != null) update.accept(this); bytecode.addOpcode(Opcode.GOTO); bytecode.addIndex(pc - bytecode.currentPc() + 1); int pc4 = bytecode.currentPc(); if (expr != null) bytecode.write16bit(pc2, pc4 - pc2 + 1); patchGoto(breakList, pc4); patchGoto(continueList, pc3); continueList = prevContList; breakList = prevBreakList; hasReturned = false; }
public void atMethodDecl(MethodDecl method) throws CompileError { ASTList mods = method.getModifiers(); setMaxLocals(1); while (mods != null) { Keyword k = (Keyword) mods.head(); mods = mods.tail(); if (k.get() == STATIC) { setMaxLocals(0); inStaticMethod = true; } } ASTList params = method.getParams(); while (params != null) { atDeclarator((Declarator) params.head()); params = params.tail(); } Stmnt s = method.getBody(); atMethodBody(s, method.isConstructor(), method.getReturn().getType() == VOID); }
public void atStmnt(Stmnt st) throws CompileError { if (st == null) return; // empty int op = st.getOperator(); if (op == EXPR) { ASTree expr = st.getLeft(); doTypeCheck(expr); if (expr instanceof AssignExpr) atAssignExpr((AssignExpr) expr, false); else if (isPlusPlusExpr(expr)) { Expr e = (Expr) expr; atPlusPlus(e.getOperator(), e.oprand1(), e, false); } else { expr.accept(this); if (is2word(exprType, arrayDim)) bytecode.addOpcode(POP2); else if (exprType != VOID) bytecode.addOpcode(POP); } } else if (op == DECL || op == BLOCK) { ASTList list = st; while (list != null) { ASTree h = list.head(); list = list.tail(); if (h != null) h.accept(this); } } else if (op == IF) atIfStmnt(st); else if (op == WHILE || op == DO) atWhileStmnt(st, op == WHILE); else if (op == FOR) atForStmnt(st); else if (op == BREAK || op == CONTINUE) atBreakStmnt(st, op == BREAK); else if (op == TokenId.RETURN) atReturnStmnt(st); else if (op == THROW) atThrowStmnt(st); else if (op == TRY) atTryStmnt(st); else if (op == SWITCH) atSwitchStmnt(st); else if (op == SYNCHRONIZED) atSyncStmnt(st); else { // LABEL, SWITCH label stament might be null?. hasReturned = false; throw new CompileError("sorry, not supported statement: TokenId " + op); } }