C++ (Cpp) tree_attr_int Beispiele

Beispiel #1

static tree_t rewrite_refs(tree_t t, void *context)
{
   rewrite_params_t *params = context;

   if (tree_kind(t) != T_REF)
      return t;

   tree_t decl = tree_ref(t);

   for (int i = 0; i < params->count; i++) {
      if (decl != params->formals[i])
         continue;

      // Do not rewrite references if they appear as formal names
      if (tree_attr_int(t, formal_i, 0))
         continue;

      // Skip assignments to OPEN ports
      if (params->actuals[i] == NULL)
         continue;

      switch (tree_kind(params->actuals[i])) {
      case T_SIGNAL_DECL:
      case T_ENUM_LIT:
         tree_set_ref(t, params->actuals[i]);
         tree_set_type(t, tree_type(params->actuals[i]));
         return t;
      case T_LITERAL:
      case T_AGGREGATE:
      case T_REF:
      case T_ARRAY_SLICE:
      case T_ARRAY_REF:
      case T_FCALL:
      case T_CONCAT:
         return params->actuals[i];
      case T_TYPE_CONV:
         // XXX: this only works in trivial cases
         return tree_value(tree_param(params->actuals[i], 0));
      default:
         fatal_at(tree_loc(params->actuals[i]), "cannot handle tree kind %s "
                  "in rewrite_refs",
                  tree_kind_str(tree_kind(params->actuals[i])));
      }
   }

   return t;
}

Beispiel #2

Datei: vcd.c Projekt: SnookEE/nvc

void vcd_restart(void)
{
   if (vcd_file == NULL)
      return;

   vcd_emit_header();

   int next_key = 0;
   const int ndecls = tree_decls(vcd_top);
   for (int i = 0; i < ndecls; i++) {
      tree_t d = tree_decl(vcd_top, i);
      switch (tree_kind(d)) {
      case T_HIER:
         fprintf(vcd_file, "$scope module %s $end\n", istr(tree_ident(d)));
         break;
      case T_SIGNAL_DECL:
         if (wave_should_dump(d))
            vcd_process_signal(d, &next_key);
         break;
      default:
         break;
      }

      int npop = tree_attr_int(d, ident_new("scope_pop"), 0);
      while (npop-- > 0)
         fprintf(vcd_file, "$upscope $end\n");
   }

   fprintf(vcd_file, "$enddefinitions $end\n");

   fprintf(vcd_file, "$dumpvars\n");

   last_time = UINT64_MAX;

   for (int i = 0; i < ndecls; i++) {
      tree_t d = tree_decl(vcd_top, i);
      if (tree_kind(d) == T_SIGNAL_DECL) {
         vcd_data_t *data = tree_attr_ptr(d, vcd_data_i);
         if (likely(data != NULL))
            vcd_event_cb(0, d, data->watch, data);
      }
   }

   fprintf(vcd_file, "$end\n");
}

Beispiel #3

Datei: cover.c Projekt: a4a881d4/nvc

static void cover_report_stmts_fn(tree_t t, void *context)
{
   const int32_t *counts = context;

   const int tag = tree_attr_int(t, stmt_tag_i, -1);
   if (tag == -1)
      return;

   const loc_t *loc = tree_loc(t);
   cover_file_t *file = cover_file(loc);
   if (file == NULL)
      return;

   assert(loc->first_line < file->n_lines);

   cover_line_t *l = &(file->lines[loc->first_line - 1]);
   l->hits = MAX(counts[tag], l->hits);
}

Beispiel #4

Datei: group.c Projekt: nickg/nvc

void group_nets(tree_t top)
{
   const int nnets = tree_attr_int(top, nnets_i, 0);

   group_nets_ctx_t ctx;
   group_init_context(&ctx, nnets);
   tree_visit(top, group_nets_visit_fn, &ctx);

   group_write_netdb(top, &ctx);

   if (opt_get_int("verbose")) {
      int ngroups = 0;
      for (group_t *it = ctx.groups; it != NULL; it = it->next)
         ngroups++;

      notef("%d nets, %d groups", nnets, ngroups);
      notef("nets:groups ratio %.3f", (float)nnets / (float)ngroups);
   }

   group_free_list(ctx.groups);
   group_free_list(ctx.free_list);
   free(ctx.lookup);
}

Beispiel #5

Datei: fst.c Projekt: SnookEE/nvc

void fst_restart(void)
{
   if (fst_ctx == NULL)
      return;

   const int ndecls = tree_decls(fst_top);
   for (int i = 0; i < ndecls; i++) {
      tree_t d = tree_decl(fst_top, i);

      switch (tree_kind(d)) {
      case T_SIGNAL_DECL:
         if (wave_should_dump(d))
            fst_process_signal(d);
         break;
      case T_HIER:
         fst_process_hier(d);
         break;
      default:
         break;
      }

      int npop = tree_attr_int(d, ident_new("scope_pop"), 0);
      while (npop-- > 0)
         fstWriterSetUpscope(fst_ctx);
   }

   last_time = UINT64_MAX;

   for (int i = 0; i < ndecls; i++) {
      tree_t d = tree_decl(fst_top, i);
      if (tree_kind(d) == T_SIGNAL_DECL) {
         fst_data_t *data = tree_attr_ptr(d, fst_data_i);
         if (likely(data != NULL))
            fst_event_cb(0, d, data->watch, data);
      }
   }
}

Beispiel #6

Datei: fst.c Projekt: SnookEE/nvc

static void fst_process_signal(tree_t d)
{
   type_t type = tree_type(d);
   type_t base = type_base_recur(type);

   fst_data_t *data = xmalloc(sizeof(fst_data_t));
   memset(data, '\0', sizeof(fst_data_t));

   int msb = 0, lsb = 0;

   enum fstVarType vt;
   enum fstSupplementalDataType sdt;
   if (type_is_array(type)) {
      if (type_dims(type) > 1) {
         warn_at(tree_loc(d), "cannot represent multidimensional arrays "
                 "in FST format");
         free(data);
         return;
      }

      range_t r = type_dim(type, 0);

      int64_t low, high;
      range_bounds(r, &low, &high);

      data->dir  = r.kind;
      data->size = high - low + 1;

      msb = assume_int(r.left);
      lsb = assume_int(r.right);

      type_t elem = type_elem(type);
      if (!fst_can_fmt_chars(elem, data, &vt, &sdt)) {
         warn_at(tree_loc(d), "cannot represent arrays of type %s "
                 "in FST format", type_pp(elem));
         free(data);
         return;
      }
      else {
         ident_t ident = type_ident(base);
         if (ident == unsigned_i)
            sdt = FST_SDT_VHDL_UNSIGNED;
         else if (ident == signed_i)
            sdt = FST_SDT_VHDL_SIGNED;
      }
   }
   else {
      switch (type_kind(base)) {
      case T_INTEGER:
         {
            ident_t ident = type_ident(type);
            if (ident == natural_i)
               sdt = FST_SDT_VHDL_NATURAL;
            else if (ident == positive_i)
               sdt = FST_SDT_VHDL_POSITIVE;
            else
               sdt = FST_SDT_VHDL_INTEGER;

            int64_t low, high;
            range_bounds(type_dim(type, 0), &low, &high);

            vt = FST_VT_VCD_INTEGER;
            data->size = ilog2(high - low + 1);
            data->fmt  = fst_fmt_int;
         }
         break;

      case T_ENUM:
         if (!fst_can_fmt_chars(type, data, &vt, &sdt)) {
            ident_t ident = type_ident(base);
            if (ident == std_bool_i)
               sdt = FST_SDT_VHDL_BOOLEAN;
            else if (ident == std_char_i)
               sdt = FST_SDT_VHDL_CHARACTER;
            else
               sdt = FST_SDT_NONE;

            vt = FST_VT_GEN_STRING;
            data->size = 0;
            data->fmt  = fst_fmt_enum;
         }
         else
            data->size = 1;
         break;

      case T_PHYSICAL:
         {
            sdt = FST_SDT_NONE;
            vt  = FST_VT_GEN_STRING;
            data->size = 0;
            data->type.units = fst_make_unit_map(type);
            data->fmt = fst_fmt_physical;
         }
         break;

      default:
         warn_at(tree_loc(d), "cannot represent type %s in FST format",
                 type_pp(type));
         free(data);
         return;
      }
   }

   enum fstVarDir dir = FST_VD_IMPLICIT;

   switch (tree_attr_int(d, fst_dir_i, -1)) {
   case PORT_IN: dir = FST_VD_INPUT; break;
   case PORT_OUT: dir = FST_VD_OUTPUT; break;
   case PORT_INOUT: dir = FST_VD_INOUT; break;
   case PORT_BUFFER: dir = FST_VD_BUFFER; break;
   }

   const char *name_base = strrchr(istr(tree_ident(d)), ':') + 1;
   const size_t base_len = strlen(name_base);
   char name[base_len + 64];
   strncpy(name, name_base, base_len + 64);
   if (type_is_array(type))
      snprintf(name + base_len, 64, "[%d:%d]\n", msb, lsb);

   data->handle = fstWriterCreateVar2(
      fst_ctx,
      vt,
      dir,
      data->size,
      name,
      0,
      type_pp(type),
      FST_SVT_VHDL_SIGNAL,
      sdt);

   tree_add_attr_ptr(d, fst_data_i, data);

   data->watch = rt_set_event_cb(d, fst_event_cb, data, true);
}