added example for namespace bracing

[ginac.git] / ginac / symmetry.h

diff --git a/ginac/symmetry.h b/ginac/symmetry.h
index 4ef1cd0db93a9f1f4b64374f6c59bfd06f55bf27..d5a3ca8d21bd77e547693e432ccc4ef81b9e34f3 100644 (file)
--- a/ginac/symmetry.h
+++ b/ginac/symmetry.h
@@ -61,10 +61,6 @@ public:
        /** Create node with two children. */
        symmetry(symmetry_type t, const symmetry &c1, const symmetry &c2);
 
-       // functions overriding virtual functions from base classes
-public:
-       void print(const print_context & c, unsigned level = 0) const;
-
        // non-virtual functions in this class
 public:
        /** Get symmetry type. */
@@ -83,7 +79,11 @@ public:
        void validate(unsigned n);
 
        /** Check whether this node actually represents any kind of symmetry. */
-       bool has_symmetry(void) const {return type != none || !children.empty(); }
+       bool has_symmetry() const {return type != none || !children.empty(); }
+
+protected:
+       void do_print(const print_context & c, unsigned level) const;
+       void do_print_tree(const print_tree & c, unsigned level) const;
 
        // member variables
 private:
@@ -100,22 +100,22 @@ private:
 
 // global functions
 
-inline symmetry sy_none(void) { return symmetry(); }
+inline symmetry sy_none() { return symmetry(); }
 inline symmetry sy_none(const symmetry &c1, const symmetry &c2) { return symmetry(symmetry::none, c1, c2); }
 inline symmetry sy_none(const symmetry &c1, const symmetry &c2, const symmetry &c3) { return symmetry(symmetry::none, c1, c2).add(c3); }
 inline symmetry sy_none(const symmetry &c1, const symmetry &c2, const symmetry &c3, const symmetry &c4) { return symmetry(symmetry::none, c1, c2).add(c3).add(c4); }
 
-inline symmetry sy_symm(void) { symmetry s; s.set_type(symmetry::symmetric); return s; }
+inline symmetry sy_symm() { symmetry s; s.set_type(symmetry::symmetric); return s; }
 inline symmetry sy_symm(const symmetry &c1, const symmetry &c2) { return symmetry(symmetry::symmetric, c1, c2); }
 inline symmetry sy_symm(const symmetry &c1, const symmetry &c2, const symmetry &c3) { return symmetry(symmetry::symmetric, c1, c2).add(c3); }
 inline symmetry sy_symm(const symmetry &c1, const symmetry &c2, const symmetry &c3, const symmetry &c4) { return symmetry(symmetry::symmetric, c1, c2).add(c3).add(c4); }
 
-inline symmetry sy_anti(void) { symmetry s; s.set_type(symmetry::antisymmetric); return s; }
+inline symmetry sy_anti() { symmetry s; s.set_type(symmetry::antisymmetric); return s; }
 inline symmetry sy_anti(const symmetry &c1, const symmetry &c2) { return symmetry(symmetry::antisymmetric, c1, c2); }
 inline symmetry sy_anti(const symmetry &c1, const symmetry &c2, const symmetry &c3) { return symmetry(symmetry::antisymmetric, c1, c2).add(c3); }
 inline symmetry sy_anti(const symmetry &c1, const symmetry &c2, const symmetry &c3, const symmetry &c4) { return symmetry(symmetry::antisymmetric, c1, c2).add(c3).add(c4); }
 
-inline symmetry sy_cycl(void) { symmetry s; s.set_type(symmetry::cyclic); return s; }
+inline symmetry sy_cycl() { symmetry s; s.set_type(symmetry::cyclic); return s; }
 inline symmetry sy_cycl(const symmetry &c1, const symmetry &c2) { return symmetry(symmetry::cyclic, c1, c2); }
 inline symmetry sy_cycl(const symmetry &c1, const symmetry &c2, const symmetry &c3) { return symmetry(symmetry::cyclic, c1, c2).add(c3); }
 inline symmetry sy_cycl(const symmetry &c1, const symmetry &c2, const symmetry &c3, const symmetry &c4) { return symmetry(symmetry::cyclic, c1, c2).add(c3).add(c4); }