Spelling fixes

Mostly comments.
One user-visible string ("Evalutated to ") changed in the debug_eval_tree case.

elab_expr.cc

@@ -4723,8 +4723,8 @@ NetExpr* PENewClass::elaborate_expr_constructor_(Design*des, NetScope*scope,
 						 NetExpr*obj, unsigned /*flags*/) const
 {
 	// If there is an initializer function, then pass the object
-	// through that function first. Note tha the initializer
-	// function has no arguments other then the object itself.
+	// through that function first. Note that the initializer
+	// function has no arguments other than the object itself.
       if (NetScope*new1_scope = ctype->method_from_name(perm_string::literal("new@"))) {
 	    NetFuncDef*def1 = new1_scope->func_def();
 	    ivl_assert(*this, def1);
@@ -4866,7 +4866,7 @@ NetExpr* PENewCopy::elaborate_expr(Design*des, NetScope*scope, ivl_type_t obj_ty
 
 /*
  * A "null" expression represents class objects/handles. This brings
- * up a ton of special cases, but we handle it here bu setting the
+ * up a ton of special cases, but we handle it here by setting the
  * expr_type_ and expr_width_ to fixed values.
  */
 unsigned PENull::test_width(Design*, NetScope*, width_mode_t&)

elab_sig.cc

@@ -1260,7 +1260,7 @@ NetNet* PWire::elaborate_sig(Design*des, NetScope*scope) const
 	      // The trick here is that the parray type has an
 	      // arbitrary sub-type, and not just a scalar bit...
 	    netparray_t*use_type = elaborate_parray_type(des, scope, parray_type);
-	      // Should not be getting packed dimensions other then
+	      // Should not be getting packed dimensions other than
 	      // through the parray type declaration.
 	    ivl_assert(*this, packed_dimensions.empty());
 

elab_type.cc

@@ -83,7 +83,7 @@ ivl_type_s* class_type_t::elaborate_type_raw(Design*, NetScope*scope) const
 /*
  * elaborate_type_raw for enumerations is actually mostly performed
  * during scope elaboration so that the enumeration literals are
- * available at the right time. At tha time, the netenum_t* object is
+ * available at the right time. At that time, the netenum_t* object is
  * stashed in the scope so that I can retrieve it here.
  */
 ivl_type_s* enum_type_t::elaborate_type_raw(Design*des, NetScope*scope) const

elaborate.cc

@@ -3051,7 +3051,7 @@ NetProc* PChainConstructor::elaborate(Design*des, NetScope*scope) const
       NetNet*var_this = scope->find_signal(perm_string::literal("@"));
 
 	// If super.new is an implicit constructor, then there are no
-	// arguments (other then "this" to worry about, so make a
+	// arguments (other than "this" to worry about, so make a
 	// NetEUFunc and there we go.
       if (NetScope*new_scope = class_super->method_from_name(perm_string::literal("new@"))) {
 	    NetESignal*eres = new NetESignal(var_this);

lexor.lex

@@ -341,7 +341,7 @@ TU [munpf]
 	    }
       }
 
-	/* If this identifer names a previously declared package, then
+	/* If this identifier names a previously declared package, then
 	   return this as a PACKAGE_IDENTIFIER instead. */
       if (rc == IDENTIFIER && gn_system_verilog()) {
 	    if (PPackage*pkg = pform_test_package_identifier(yylval.text)) {

net_func_eval.cc

@@ -138,7 +138,7 @@ NetExpr* NetFuncDef::evaluate_function(const LineInfo&loc, const std::vector<Net
       if (flag) {
 	    if (debug_eval_tree) {
 		  cerr << loc.get_fileline() << ": NetFuncDef::evaluate_function: "
-		       << "Evalutated to ";
+		       << "Evaluated to ";
 		  if (res) cerr << *res;
 		  else cerr << "<nil>";
 		  cerr << endl;

netlist.cc

@@ -755,7 +755,7 @@ const netclass_t* NetNet::class_type(void) const
 
 /*
  * "depth" is the number of index expressions that the user is using
- * to index this identifer. So consider if Net was declared like so:
+ * to index this identifier. So consider if Net was declared like so:
  *
  *   reg [5:0][3:0] foo;
  *

netmisc.cc

@@ -1309,7 +1309,7 @@ NetExpr*collapse_array_exprs(Design*des, NetScope*scope,
 /*
  * Given a list of indices, treat them as packed indices and convert
  * them to an expression that normalizes the list to a single index
- * expression over a canonical equivilent 1-dimensional array.
+ * expression over a canonical equivalent 1-dimensional array.
  */
 NetExpr*collapse_array_indices(Design*des, NetScope*scope, NetNet*net,
 			       const list<index_component_t>&indices)

pform.cc

@@ -555,7 +555,7 @@ data_type_t* pform_test_type_identifier(const char*txt)
 	      // First look to see if this identifier is imported from
 	      // a package. If it is, see if it is a type in that
 	      // package. If it is, then great. If imported as
-	      // something other then a type, then give up now becase
+	      // something other than a type, then give up now because
 	      // the name has at least shadowed any other possible
 	      // meaning for this name.
 	    map<perm_string,PPackage*>::iterator cur_pkg;

synth2.cc

@@ -232,7 +232,7 @@ bool NetCase::synth_async(Design*des, NetScope*scope,
 
       unsigned mux_size = max_guard_value + 1;
 
-	// If the sel_width can select more then just the explicit
+	// If the sel_width can select more than just the explicit
 	// guard values, and there is a default statement, then adjust
 	// the mux size to allow for the implicit selections.
       if (statement_default && ((1U<<sel_width) > mux_size)) {

tgt-pcb/footprint.cc

@@ -45,7 +45,7 @@ int load_footprints(void)
 }
 
 /*
- * The fpparse funciton calls back the callback_fp_element function
+ * The fpparse function calls back the callback_fp_element function
  * for each Element that it parses. The check_footprint function
  * stores in the cur_footprint variable the name of the footprint that
  * we are trying to find in the file. The callback uses that name to

vhdlpp/expression_emit.cc

@@ -566,7 +566,7 @@ int ExpFunc::emit(ostream&out, Entity*ent, Architecture*arc)
 	    out << ")";
 
       } else {
-	      // If this function has an elaborated defintion, and if
+	      // If this function has an elaborated definition, and if
 	      // that definition is in a package, then include the
 	      // package name as a scope qualifier. This assures that
 	      // the SV elaborator finds the correct VHDL elaborated

vvp/class_type.h

@@ -52,7 +52,7 @@ class class_type : public __vpiHandle {
       void set_property(size_t idx, const std::string&name, const std::string&type);
 
 	// This method is called after all the properties are
-	// defined. This calculates information about the defintion.
+	// defined. This calculates information about the definition.
       void finish_setup(void);
 
     public:

vvp/opcodes.txt

@@ -873,7 +873,7 @@ includes an implicit pop, but sometimes it is necessary to pop
 explicitly.
 
 The <skip> is the number of top positions on the stack to keep,
-beforing starting to pop. This allows for popping positions other then
+beforing starting to pop. This allows for popping positions other than
 the top of the stack.
 
 * %pow <bit-l>, <bit-r>, <wid>