//
// inlines the function called by 'call' at that call site
//
static void
inlineCall(FnSymbol* fn, CallExpr* call, Vec<FnSymbol*>& canRemoveRefTempSet) {
  INT_ASSERT(call->isResolved() == fn);
  SET_LINENO(call);

  Expr* stmt = call->getStmtExpr();

  //
  // calculate a map from actual symbols to formal symbols
  //
  SymbolMap map;
  for_formals_actuals(formal, actual, call) {
    SymExpr* se = toSymExpr(actual);
    INT_ASSERT(se);
    if ((formal->intent & INTENT_REF) && canRemoveRefTempSet.set_in(fn)) {
      if (se->var->hasFlag(FLAG_REF_TEMP)) {
        if (CallExpr* move = findRefTempInit(se)) {
          SymExpr* origSym = NULL;
          if (CallExpr* addrOf = toCallExpr(move->get(2))) {
            INT_ASSERT(addrOf->isPrimitive(PRIM_ADDR_OF));
            origSym = toSymExpr(addrOf->get(1));
          } else {
            origSym = toSymExpr(move->get(2));
          }
          INT_ASSERT(origSym);
          map.put(formal, origSym->var);
          se->var->defPoint->remove();
          move->remove();
          continue;
        }
      }
    }
    map.put(formal, se->var);
  }
Beispiel #2
0
static void addDefAndMap(Expr* aInit, SymbolMap& map, ShadowVarSymbol* svar,
                         VarSymbol* currVar)
{
  if (currVar->type == dtNothing) {
    INT_ASSERT(currVar->firstSymExpr() == NULL);
    return;
  }
  aInit->insertBefore(new DefExpr(currVar));
  map.put(svar, currVar);
}
//
// inlines the function called by 'call' at that call site
//
static void
inlineCall(FnSymbol* fn, CallExpr* call) {
  INT_ASSERT(call->isResolved() == fn);
  SET_LINENO(call);

  Expr* stmt = call->getStmtExpr();

  //
  // calculate a map from actual symbols to formal symbols
  //
  SymbolMap map;
  for_formals_actuals(formal, actual, call) {
    SymExpr* se = toSymExpr(actual);
    INT_ASSERT(se);
    map.put(formal, se->var);
  }
Beispiel #4
0
static void
findOuterVars(FnSymbol* fn, SymbolMap& uses) {
  std::vector<BaseAST*> asts;

  collect_asts(fn, asts);

  for_vector(BaseAST, ast, asts) {
    if (SymExpr* symExpr = toSymExpr(ast)) {
      Symbol* sym = symExpr->symbol();

      if (isLcnSymbol(sym)) {
        if (!isCorrespCoforallIndex(fn, sym) && isOuterVar(sym, fn))
          uses.put(sym, markUnspecified);
      }
    }
  }
}
Beispiel #5
0
CallExpr* ParamForLoop::foldForResolve()
{
  SymExpr*   idxExpr   = indexExprGet();
  SymExpr*   lse       = lowExprGet();
  SymExpr*   hse       = highExprGet();
  SymExpr*   sse       = strideExprGet();

  if (!lse             || !hse             || !sse)
    USR_FATAL(this, "param for loop must be defined over a bounded param range");

  VarSymbol* lvar      = toVarSymbol(lse->var);
  VarSymbol* hvar      = toVarSymbol(hse->var);
  VarSymbol* svar      = toVarSymbol(sse->var);

  CallExpr*  noop      = new CallExpr(PRIM_NOOP);

  if (!lvar            || !hvar            || !svar)
    USR_FATAL(this, "param for loop must be defined over a bounded param range");

  if (!lvar->immediate || !hvar->immediate || !svar->immediate)
    USR_FATAL(this, "param for loop must be defined over a bounded param range");

  Symbol*      idxSym  = idxExpr->var;
  Symbol*      continueSym = continueLabelGet();
  Type*        idxType = indexType();
  IF1_int_type idxSize = (get_width(idxType) == 32) ? INT_SIZE_32 : INT_SIZE_64;

  // Insert an "insertion marker" for loop unrolling
  insertAfter(noop);

  if (is_int_type(idxType))
  {
    int64_t low    = lvar->immediate->to_int();
    int64_t high   = hvar->immediate->to_int();
    int64_t stride = svar->immediate->to_int();

    if (stride <= 0)
    {
      for (int64_t i = high; i >= low; i += stride)
      {
        SymbolMap map;

        map.put(idxSym, new_IntSymbol(i, idxSize));
        copyBodyHelper(noop, i, &map, this, continueSym);
      }
    }
    else
    {
      for (int64_t i = low; i <= high; i += stride)
      {
        SymbolMap map;

        map.put(idxSym, new_IntSymbol(i, idxSize));

        copyBodyHelper(noop, i, &map, this, continueSym);
      }
    }
  }
  else
  {
    INT_ASSERT(is_uint_type(idxType) || is_bool_type(idxType));

    uint64_t low    = lvar->immediate->to_uint();
    uint64_t high   = hvar->immediate->to_uint();
    int64_t  stride = svar->immediate->to_int();

    if (stride <= 0)
    {
      for (uint64_t i = high; i >= low; i += stride)
      {
        SymbolMap map;

        map.put(idxSym, new_UIntSymbol(i, idxSize));

        copyBodyHelper(noop, i, &map, this, continueSym);
      }
    }
    else
    {
      for (uint64_t i = low; i <= high; i += stride)
      {
        SymbolMap map;

        map.put(idxSym, new_UIntSymbol(i, idxSize));

        copyBodyHelper(noop, i, &map, this, continueSym);
      }
    }
  }

  // Remove the "insertion marker"
  noop->remove();

  // Replace the paramLoop with the NO-OP
  replace(noop);

  return noop;
}