@Override
  public void exitOperationProcedureDecl(ResolveParser.OperationProcedureDeclContext ctx) {
    Scope s = symtab.getScope(ctx);
    VCAssertiveBlockBuilder block = assertiveBlocks.pop();
    List<ProgParameterSymbol> paramSyms = s.getSymbolsOfType(ProgParameterSymbol.class);

    PExp corrFnExpEnsures =
        perParameterCorrFnExpSubstitute(
            paramSyms,
            tr.getMathExpASTFor(
                g, ctx.ensuresClause())); // postcondition[params 1..i <-- corr_fn_exp]
    corrFnExpEnsures =
        corrFnExpEnsures.withVCInfo(ctx.getStart(), "Ensures clause of " + ctx.name.getText());
    Token loc = ctx.ensuresClause() != null ? ctx.ensuresClause().getStart() : ctx.getStart();

    List<PExp> paramConsequents = new ArrayList<>();
    Utils.apply(paramSyms, paramConsequents, this::extractConsequentsFromParameter);

    // add verification statements to the assertive context/block
    block.stats(Utils.collect(VCRuleBackedStat.class, ctx.stmt(), stats));

    // add any additional confirms from the parameters, etc
    for (ProgParameterSymbol p : paramSyms) {
      confirmParameterConsequentsForBlock(block, p); // modfies 'block' with additional confims!
    }
    // TODO: Tomorrow look at the verification statements in the assertive context for
    // int_do_nothing, then
    block.finalConfirm(corrFnExpEnsures);
    outputFile.addAssertiveBlock(block.build());
  }
 @Override
 public void exitTypeImplInit(ResolveParser.TypeImplInitContext ctx) {
   PExp typeInitEnsures = g.getTrueExp();
   PExp convention = currentTypeReprSym.getConvention();
   PExp correspondence = currentTypeReprSym.getCorrespondence();
   if (currentTypeReprSym.getDefinition() != null) {
     typeInitEnsures =
         currentTypeReprSym.getDefinition().getProgramType().getInitializationEnsures();
   }
   VCAssertiveBlockBuilder block = assertiveBlocks.pop();
   PExp newInitEnsures =
       typeInitEnsures.substitute(
           currentTypeReprSym.exemplarAsPSymbol(),
           currentTypeReprSym.conceptualExemplarAsPSymbol());
   // block.stats(Utils.collect(VCRuleBackedStat.class, ctx.stmt(), stats));
   // block.confirm(convention);  //order here is important
   block.assume(correspondence);
   throw new UnsupportedOperationException("re-institute the final confirm for this dan");
   // block.finalConfirm(newInitEnsures, "Initialization-ensures clause of " +
   // currentTypeReprSym.getName());
   // outputFile.addAssertiveBlock(block.build());
 }
  @Override
  public void exitTypeRepresentationDecl(ResolveParser.TypeRepresentationDeclContext ctx) {
    PExp constraint = g.getTrueExp();
    PExp correspondence = g.getTrueExp();
    if (currentTypeReprSym == null) return;
    correspondence = currentTypeReprSym.getCorrespondence();

    if (currentTypeReprSym.getDefinition() != null) {
      constraint = currentTypeReprSym.getDefinition().getProgramType().getConstraint();
    }
    VCAssertiveBlockBuilder block = assertiveBlocks.pop();
    PExp newConstraint =
        constraint.substitute(
            currentTypeReprSym.exemplarAsPSymbol(),
            currentTypeReprSym.conceptualExemplarAsPSymbol());
    newConstraint =
        newConstraint.withVCInfo(ctx.getStart(), "Constraint for type: " + ctx.name.getText());
    block.assume(correspondence.splitIntoConjuncts());
    // throw new UnsupportedOperationException("re-institute the final confirm for this dan");
    block.finalConfirm(newConstraint);
    outputFile.addAssertiveBlock(block.build());
  }
  @Override
  public void exitProcedureDecl(ResolveParser.ProcedureDeclContext ctx) {
    Scope scope = symtab.getScope(ctx);
    List<ProgParameterSymbol> paramSyms = scope.getSymbolsOfType(ProgParameterSymbol.class);
    VCAssertiveBlockBuilder block = assertiveBlocks.pop();
    List<ProgParameterSymbol> formalParameters = new ArrayList<>();
    try {
      formalParameters =
          scope.query(new SymbolTypeQuery<ProgParameterSymbol>(ProgParameterSymbol.class));
    } catch (NoSuchModuleException | UnexpectedSymbolException e) {
      e.printStackTrace();
    }

    List<PExp> corrFnExps =
        paramSyms
            .stream()
            .filter(p -> p.getDeclaredType() instanceof PTRepresentation)
            .map(p -> (PTRepresentation) p.getDeclaredType())
            .map(p -> p.getReprTypeSymbol().getCorrespondence())
            .collect(Collectors.toList());
    PExp corrFnExpEnsures =
        perParameterCorrFnExpSubstitute(paramSyms, currentProcOpSym.getEnsures())
            .withVCInfo(ctx.getStart(), "Ensures clause of " + ctx.name.getText());
    // postcondition[params 1..i <-- corr_fn_exp]

    List<PExp> paramConsequents = new ArrayList<>();
    Utils.apply(formalParameters, paramConsequents, this::extractConsequentsFromParameter);

    block
        .stats(Utils.collect(VCRuleBackedStat.class, ctx.stmt(), stats))
        .assume(corrFnExps)
        .confirm(ctx, g.formConjuncts(paramConsequents))
        .finalConfirm(corrFnExpEnsures);

    outputFile.addAssertiveBlock(block.build());
    currentProcOpSym = null;
  }