From 5e527213a2430bb3018e5eebd909aef294edf9b5 Mon Sep 17 00:00:00 2001
From: Karen Arutyunov <karen@codesynthesis.com>
Date: Fri, 18 Dec 2020 18:48:46 +0300
Subject: Switch to build2

---
 xsd/xsd/cxx/parser/state-processor.cxx | 319 +++++++++++++++++++++++++++++++++
 1 file changed, 319 insertions(+)
 create mode 100644 xsd/xsd/cxx/parser/state-processor.cxx

(limited to 'xsd/xsd/cxx/parser/state-processor.cxx')

diff --git a/xsd/xsd/cxx/parser/state-processor.cxx b/xsd/xsd/cxx/parser/state-processor.cxx
new file mode 100644
index 0000000..b380895
--- /dev/null
+++ b/xsd/xsd/cxx/parser/state-processor.cxx
@@ -0,0 +1,319 @@
+// file      : xsd/cxx/parser/state-processor.cxx
+// license   : GNU GPL v2 + exceptions; see accompanying LICENSE file
+
+#include <vector>
+#include <iostream>
+
+#include <xsd/cxx/parser/state-processor.hxx>
+
+#include <xsd/cxx/parser/elements.hxx>
+
+#include <libxsd-frontend/semantic-graph.hxx>
+#include <libxsd-frontend/traversal.hxx>
+
+using namespace std;
+
+namespace CXX
+{
+  namespace Parser
+  {
+    namespace
+    {
+      typedef vector<SemanticGraph::Particle*> Particles;
+
+      /*
+      void
+      print (Particles const& p)
+      {
+        using std::wcerr;
+        using std::endl;
+
+        wcerr << "prefixes: " << endl;
+
+        for (Particles::const_iterator i (p.begin ()); i != p.end (); ++i)
+        {
+          if (SemanticGraph::Element* e =
+              dynamic_cast<SemanticGraph::Element*> (*i))
+          {
+            wcerr << e->name () << endl;
+          }
+          else
+          {
+            wcerr << "<any>" << endl;
+          }
+        }
+
+        wcerr << endl;
+      }
+      */
+
+      //
+      //
+      struct Particle: Traversal::All,
+                       Traversal::Choice,
+                       Traversal::Sequence
+      {
+        Particle (size_t& all,
+                  size_t& choice,
+                  size_t& sequence,
+                  size_t& depth)
+            : all_ (all),
+              choice_ (choice),
+              sequence_ (sequence),
+              depth_ (depth)
+        {
+        }
+
+        virtual void
+        traverse (SemanticGraph::All& a)
+        {
+          using SemanticGraph::Compositor;
+
+          // Go over particles, collecting "prefix" particles in prefixes_,
+          // assigning state numbers and calculating effective minOccurs.
+          // If all prefixes of this compositor have minOccurs = 0, then
+          // the compositor itself effectively has minOccurs = 0 regardless
+          // of the actual value specified in the schema.
+          //
+          // Note that we don't need to care about depth since the 'all'
+          // compositor cannot contain any nested compositors.
+          //
+
+          size_t state (0);
+          size_t min (0);
+
+          for (Compositor::ContainsIterator ci (a.contains_begin ());
+               ci != a.contains_end (); ++ci)
+          {
+            SemanticGraph::Particle& p (ci->particle ());
+
+            // The 'all' compositor can only include elements.
+            //
+            prefixes_.push_back (&p);
+
+            if (min == 0 && ci->min () != 0)
+              min = 1;
+
+            p.context ().set ("prefix", true);
+            p.context ().set ("state", state++);
+          }
+
+          if (!prefixes_.empty ())
+          {
+            a.context ().set ("comp-number", choice_++);
+            a.context ().set ("prefixes", prefixes_);
+            a.context ().set ("state-count", size_t (prefixes_.size ()));
+
+            // effective-min = min * actual-min
+            //
+            if (min == 1)
+              min = a.min ();
+
+            a.context ().set ("effective-min", min);
+
+            // print (prefixes_);
+          }
+        }
+
+        virtual void
+        traverse (SemanticGraph::Choice& c)
+        {
+          using SemanticGraph::Compositor;
+
+          // Go over particles, collecting "prefix" particles in prefixes_,
+          // assigning state numbers and calculating effective minOccurs.
+          // If any prefix of this compositor have minOccurs = 0, then the
+          // compositor itself effectively has minOccurs = 0 regardless of
+          // the actual value specified in the schema.
+          //
+
+          size_t state (0);
+          size_t min (1);
+
+          for (Compositor::ContainsIterator ci (c.contains_begin ());
+               ci != c.contains_end (); ++ci)
+          {
+            SemanticGraph::Particle& p (ci->particle ());
+
+            if (p.is_a<SemanticGraph::Element> () ||
+                p.is_a<SemanticGraph::Any> ())
+            {
+              prefixes_.push_back (&p);
+
+              if (min == 1 && ci->min () == 0)
+                min = 0;
+            }
+            else
+            {
+              size_t depth (0);
+              Particle t (all_, choice_, sequence_, depth);
+              t.dispatch (p);
+
+              if (t.prefixes_.empty ())
+                continue; // Skip empty compositors.
+
+              if (++depth > depth_) // One for this compositor.
+                depth_ = depth;
+
+              prefixes_.insert (prefixes_.end (),
+                                t.prefixes_.begin ().base (),
+                                t.prefixes_.end ().base ());
+
+              if (min == 1 &&
+                  p.context ().get<size_t> ("effective-min") == 0)
+                min = 0;
+            }
+
+            p.context ().set ("prefix", true);
+            p.context ().set ("state", state++);
+          }
+
+          if (!prefixes_.empty ())
+          {
+            c.context ().set ("comp-number", choice_++);
+            c.context ().set ("prefixes", prefixes_);
+
+            // effective-min = min * actual-min
+            //
+            if (min == 1)
+              min = c.min ();
+
+            c.context ().set ("effective-min", min);
+
+            // print (prefixes_);
+          }
+        }
+
+        virtual void
+        traverse (SemanticGraph::Sequence& s)
+        {
+          using SemanticGraph::Compositor;
+
+          // Go over particles, collecting "prefix" particles in prefixes_,
+          // assigning state numbers and calculating effective minOccurs.
+          // If all prefixes of this compositor have minOccurs = 0, then
+          // the compositor itself effectively has minOccurs = 0 regardless
+          // of the actual value specified in the schema.
+          //
+
+          bool prefix (true);
+          size_t state (0);
+          size_t min (0);
+
+          for (Compositor::ContainsIterator ci (s.contains_begin ());
+               ci != s.contains_end (); ++ci)
+          {
+            SemanticGraph::Particle& p (ci->particle ());
+
+            if (p.is_a<SemanticGraph::Element> () ||
+                p.is_a<SemanticGraph::Any> ())
+            {
+              if (prefix)
+              {
+                prefixes_.push_back (&p);
+
+                if (ci->min () != 0)
+                  min = 1;
+              }
+            }
+            else
+            {
+              size_t depth (0);
+              Particle t (all_, choice_, sequence_, depth);
+              t.dispatch (p);
+
+              if (t.prefixes_.empty ())
+                continue; // Skip empty compositors.
+
+              if (++depth > depth_) // One for this compositor.
+                depth_ = depth;
+
+              if (prefix)
+              {
+                prefixes_.insert (prefixes_.end (),
+                                  t.prefixes_.begin ().base (),
+                                  t.prefixes_.end ().base ());
+
+                if (p.context ().get<size_t> ("effective-min") != 0)
+                  min = 1;
+              }
+            }
+
+            p.context ().set ("state", state++);
+
+            if (prefix)
+              p.context ().set ("prefix", true);
+
+            if (prefix && min != 0)
+              prefix = false;
+          }
+
+          if (!prefixes_.empty ())
+          {
+            s.context ().set ("comp-number", sequence_++);
+            s.context ().set ("prefixes", prefixes_);
+
+            // effective-min = min * actual-min
+            //
+            if (min == 1)
+              min = s.min ();
+
+            s.context ().set ("effective-min", min);
+
+            // print (prefixes_);
+          }
+        }
+
+      private:
+        Particles prefixes_;
+
+        size_t& all_;
+        size_t& choice_;
+        size_t& sequence_;
+
+        size_t& depth_;
+      };
+
+
+      //
+      //
+      struct Complex: Traversal::Complex
+      {
+        virtual void
+        traverse (Type& c)
+        {
+          if (c.contains_compositor_p ())
+          {
+            size_t all (0), choice (0), sequence (0), depth (0);
+            Particle t (all, choice, sequence, depth);
+            t.dispatch (c.contains_compositor ().compositor ());
+
+            // Set the maximum stack depth for this type. Used to
+            // allocate fixed-size state stack.
+            //
+            c.context ().set ("depth", depth + 1);
+          }
+        }
+      };
+    }
+
+    void StateProcessor::
+    process (SemanticGraph::Schema& tu, SemanticGraph::Path const&)
+    {
+      Traversal::Schema schema;
+      Sources sources;
+      Traversal::Names schema_names;
+      Traversal::Namespace ns;
+      Traversal::Names ns_names;
+
+      schema >> sources >> schema;
+      schema >> schema_names >> ns >> ns_names;
+
+      Complex complex_type;
+
+      ns_names >> complex_type;
+
+      schema.dispatch (tu);
+    }
+  }
+}
-- 
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