+ SetForScope<unsigned> set(scope_level, scope_level+1);
+ if(scope_level>1)
+ return Visitor::visit(block);
+
+ NodeList<Statement>::iterator struct_insert_point = block.body.end();
+ NodeList<Statement>::iterator variable_insert_point = block.body.end();
+ NodeList<Statement>::iterator function_insert_point = block.body.end();
+ unsigned unordered_func_count = 0;
+ bool ordered_any_funcs = false;
+
+ for(NodeList<Statement>::iterator i=block.body.begin(); i!=block.body.end(); )
+ {
+ kind = NO_DECLARATION;
+ (*i)->visit(*this);
+
+ bool moved = false;
+ if(kind==STRUCT && struct_insert_point!=block.body.end())
+ {
+ block.body.insert(struct_insert_point, *i);
+ moved = true;
+ }
+ else if(kind>STRUCT && struct_insert_point==block.body.end())
+ struct_insert_point = i;
+
+ if(kind==VARIABLE && variable_insert_point!=block.body.end())
+ {
+ block.body.insert(variable_insert_point, *i);
+ moved = true;
+ }
+ else if(kind>VARIABLE && variable_insert_point==block.body.end())
+ variable_insert_point = i;
+
+ if(kind==FUNCTION)
+ {
+ if(function_insert_point==block.body.end())
+ function_insert_point = i;
+
+ if(needed_funcs.empty())
+ {
+ ordered_funcs.insert(i->get());
+ if(i!=function_insert_point)
+ {
+ block.body.insert(function_insert_point, *i);
+ moved = true;
+ }
+ else
+ ++function_insert_point;
+ ordered_any_funcs = true;
+ }
+ else
+ ++unordered_func_count;
+ }
+
+ if(moved)
+ {
+ if(function_insert_point==i)
+ ++function_insert_point;
+ block.body.erase(i++);
+ }
+ else
+ ++i;
+
+ if(i==block.body.end() && unordered_func_count)
+ {
+ if(!ordered_any_funcs)
+ // A subset of the remaining functions forms a recursive loop
+ /* TODO pick a function and move it up, adding any necessary
+ declarations */
+ break;
+
+ i = function_insert_point;
+ unordered_func_count = 0;
+ }
+ }
+}
+
+void ProgramCompiler::DeclarationReorderer::visit(ProgramSyntax::VariableDeclaration &var)
+{
+ Visitor::visit(var);
+ kind = VARIABLE;
+}
+
+void ProgramCompiler::DeclarationReorderer::visit(FunctionDeclaration &func)
+{
+ needed_funcs.clear();
+ func.body.visit(*this);
+ needed_funcs.erase(&func);
+ kind = FUNCTION;
+}
+
+
+ProgramCompiler::InlineableFunctionLocator::InlineableFunctionLocator():
+ in_function(0)
+{ }
+
+void ProgramCompiler::InlineableFunctionLocator::visit(FunctionCall &call)
+{
+ FunctionDeclaration *def = call.declaration;
+ if(def && def->definition!=def)
+ def = def->definition;
+
+ if(def)
+ {
+ unsigned &count = refcounts[def];
+ ++count;
+ if(count>1 || def==in_function)
+ inlineable.erase(def);
+ }
+
+ TraversingVisitor::visit(call);
+}
+
+void ProgramCompiler::InlineableFunctionLocator::visit(FunctionDeclaration &func)
+{
+ unsigned &count = refcounts[func.definition];
+ if(!count && func.parameters.empty())
+ inlineable.insert(func.definition);
+
+ SetForScope<FunctionDeclaration *> set(in_function, &func);
+ TraversingVisitor::visit(func);
+}
+
+
+ProgramCompiler::FunctionInliner::FunctionInliner():
+ extract_result(0)
+{ }
+
+ProgramCompiler::FunctionInliner::FunctionInliner(const set<FunctionDeclaration *> &in):
+ inlineable(in),
+ extract_result(0)
+{ }
+
+void ProgramCompiler::FunctionInliner::visit_and_inline(RefPtr<Expression> &ptr)
+{
+ inline_result = 0;
+ ptr->visit(*this);
+ if(inline_result)
+ ptr = inline_result;
+}
+
+void ProgramCompiler::FunctionInliner::visit(Block &block)
+{
+ if(extract_result)
+ --extract_result;
+
+ for(NodeList<Statement>::iterator i=block.body.begin(); i!=block.body.end(); ++i)
+ {
+ (*i)->visit(*this);
+ if(extract_result)
+ --extract_result;
+ }
+}
+
+void ProgramCompiler::FunctionInliner::visit(UnaryExpression &unary)
+{
+ visit_and_inline(unary.expression);
+ inline_result = 0;
+}
+
+void ProgramCompiler::FunctionInliner::visit(BinaryExpression &binary)
+{
+ visit_and_inline(binary.left);
+ visit_and_inline(binary.right);
+ inline_result = 0;
+}
+
+void ProgramCompiler::FunctionInliner::visit(MemberAccess &memacc)
+{
+ visit_and_inline(memacc.left);
+ inline_result = 0;
+}
+
+void ProgramCompiler::FunctionInliner::visit(FunctionCall &call)
+{
+ for(NodeArray<Expression>::iterator i=call.arguments.begin(); i!=call.arguments.end(); ++i)
+ visit_and_inline(*i);
+
+ FunctionDeclaration *def = call.declaration;
+ if(def && def->definition!=def)
+ def = def->definition;
+
+ if(def && inlineable.count(def))
+ {
+ extract_result = 2;
+ def->visit(*this);
+ }
+ else
+ inline_result = 0;
+}
+
+void ProgramCompiler::FunctionInliner::visit(VariableDeclaration &var)
+{
+ if(var.init_expression)
+ visit_and_inline(var.init_expression);
+ inline_result = 0;
+}
+
+void ProgramCompiler::FunctionInliner::visit(Return &ret)
+{
+ TraversingVisitor::visit(ret);
+
+ if(extract_result)
+ inline_result = ret.expression->clone();