@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());
}