1 files changed, 1243 insertions, 0 deletions

diff --git a/lib/config/config_parser.yy b/lib/config/config_parser.yy
new file mode 100644
index 0000000..939681e
--- /dev/null
+++ b/lib/config/config_parser.yy
@@ -0,0 +1,1243 @@
+%{
+#define YYDEBUG 1
+
+/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */
+
+#include "config/i2-config.hpp"
+#include "config/configcompiler.hpp"
+#include "config/expression.hpp"
+#include "config/applyrule.hpp"
+#include "config/objectrule.hpp"
+#include "base/value.hpp"
+#include "base/utility.hpp"
+#include "base/exception.hpp"
+#include "base/configtype.hpp"
+#include "base/exception.hpp"
+#include <sstream>
+#include <stack>
+
+#define YYLTYPE icinga::CompilerDebugInfo
+#define YYERROR_VERBOSE
+
+#define YYLLOC_DEFAULT(Current, Rhs, N)					\
+do {									\
+	if (N) {							\
+		(Current).Path = YYRHSLOC(Rhs, 1).Path;			\
+		(Current).FirstLine = YYRHSLOC(Rhs, 1).FirstLine;	\
+		(Current).FirstColumn = YYRHSLOC(Rhs, 1).FirstColumn;	\
+		(Current).LastLine = YYRHSLOC(Rhs, N).LastLine;		\
+		(Current).LastColumn = YYRHSLOC(Rhs, N).LastColumn;	\
+	} else {							\
+		(Current).Path = YYRHSLOC(Rhs, 0).Path;			\
+		(Current).FirstLine = (Current).LastLine =		\
+		YYRHSLOC(Rhs, 0).LastLine;				\
+		(Current).FirstColumn = (Current).LastColumn =		\
+		YYRHSLOC(Rhs, 0).LastColumn;				\
+	}								\
+} while (0)
+
+#define YY_LOCATION_PRINT(file, loc)			\
+do {							\
+	std::ostringstream msgbuf;			\
+	msgbuf << loc;					\
+	std::string str = msgbuf.str();			\
+	fputs(str.c_str(), file);			\
+} while (0)
+
+#define YYINITDEPTH 10000
+
+using namespace icinga;
+
+template<typename T>
+static void MakeRBinaryOp(Expression** result, Expression *left, Expression *right, const DebugInfo& diLeft, const DebugInfo& diRight)
+{
+	*result = new T(std::unique_ptr<Expression>(left), std::unique_ptr<Expression>(right), DebugInfoRange(diLeft, diRight));
+}
+
+%}
+
+%pure-parser
+
+%locations
+%defines
+%error-verbose
+%glr-parser
+
+%parse-param { std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> > *llist }
+%parse-param { ConfigCompiler *context }
+%lex-param { void *scanner }
+
+%union {
+	String *text;
+	double num;
+	bool boolean;
+	icinga::Expression *expr;
+	icinga::DictExpression *dexpr;
+	CombinedSetOp csop;
+	std::vector<String> *slist;
+	std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> > *llist;
+	std::vector<std::unique_ptr<Expression> > *elist;
+	std::vector<std::pair<std::unique_ptr<Expression>, std::unique_ptr<Expression> > > *ebranchlist;
+	std::pair<std::unique_ptr<Expression>, std::unique_ptr<Expression> > *ebranch;
+	std::pair<String, std::unique_ptr<Expression> > *cvitem;
+	std::map<String, std::unique_ptr<Expression> > *cvlist;
+	icinga::ScopeSpecifier scope;
+}
+
+%token T_NEWLINE "new-line"
+%token <text> T_STRING
+%token <text> T_STRING_ANGLE
+%token <num> T_NUMBER
+%token <boolean> T_BOOLEAN
+%token T_NULL
+%token <text> T_IDENTIFIER
+
+%token <csop> T_SET "= (T_SET)"
+%token <csop> T_SET_ADD "+= (T_SET_ADD)"
+%token <csop> T_SET_SUBTRACT "-= (T_SET_SUBTRACT)"
+%token <csop> T_SET_MULTIPLY "*= (T_SET_MULTIPLY)"
+%token <csop> T_SET_DIVIDE "/= (T_SET_DIVIDE)"
+%token <csop> T_SET_MODULO "%= (T_SET_MODULO)"
+%token <csop> T_SET_XOR "^= (T_SET_XOR)"
+%token <csop> T_SET_BINARY_AND "&= (T_SET_BINARY_AND)"
+%token <csop> T_SET_BINARY_OR "|= (T_SET_BINARY_OR)"
+
+%token T_SHIFT_LEFT "<< (T_SHIFT_LEFT)"
+%token T_SHIFT_RIGHT ">> (T_SHIFT_RIGHT)"
+%token T_EQUAL "== (T_EQUAL)"
+%token T_NOT_EQUAL "!= (T_NOT_EQUAL)"
+%token T_IN "in (T_IN)"
+%token T_NOT_IN "!in (T_NOT_IN)"
+%token T_LOGICAL_AND "&& (T_LOGICAL_AND)"
+%token T_LOGICAL_OR "|| (T_LOGICAL_OR)"
+%token T_LESS_THAN_OR_EQUAL "<= (T_LESS_THAN_OR_EQUAL)"
+%token T_GREATER_THAN_OR_EQUAL ">= (T_GREATER_THAN_OR_EQUAL)"
+%token T_PLUS "+ (T_PLUS)"
+%token T_MINUS "- (T_MINUS)"
+%token T_MULTIPLY "* (T_MULTIPLY)"
+%token T_DIVIDE_OP "/ (T_DIVIDE_OP)"
+%token T_MODULO "% (T_MODULO)"
+%token T_XOR "^ (T_XOR)"
+%token T_BINARY_AND "& (T_BINARY_AND)"
+%token T_BINARY_OR "| (T_BINARY_OR)"
+%token T_LESS_THAN "< (T_LESS_THAN)"
+%token T_GREATER_THAN "> (T_GREATER_THAN)"
+
+%token T_VAR "var (T_VAR)"
+%token T_GLOBALS "globals (T_GLOBALS)"
+%token T_LOCALS "locals (T_LOCALS)"
+%token T_CONST "const (T_CONST)"
+%token T_DEFAULT "default (T_DEFAULT)"
+%token T_IGNORE_ON_ERROR "ignore_on_error (T_IGNORE_ON_ERROR)"
+%token T_CURRENT_FILENAME "current_filename (T_CURRENT_FILENAME)"
+%token T_CURRENT_LINE "current_line (T_CURRENT_LINE)"
+%token T_DEBUGGER "debugger (T_DEBUGGER)"
+%token T_NAMESPACE "namespace (T_NAMESPACE)"
+%token T_USE "use (T_USE)"
+%token T_USING "using (T_USING)"
+%token T_OBJECT "object (T_OBJECT)"
+%token T_TEMPLATE "template (T_TEMPLATE)"
+%token T_INCLUDE "include (T_INCLUDE)"
+%token T_INCLUDE_RECURSIVE "include_recursive (T_INCLUDE_RECURSIVE)"
+%token T_INCLUDE_ZONES "include_zones (T_INCLUDE_ZONES)"
+%token T_LIBRARY "library (T_LIBRARY)"
+%token T_APPLY "apply (T_APPLY)"
+%token T_TO "to (T_TO)"
+%token T_WHERE "where (T_WHERE)"
+%token T_IMPORT "import (T_IMPORT)"
+%token T_ASSIGN "assign (T_ASSIGN)"
+%token T_IGNORE "ignore (T_IGNORE)"
+%token T_FUNCTION "function (T_FUNCTION)"
+%token T_RETURN "return (T_RETURN)"
+%token T_BREAK "break (T_BREAK)"
+%token T_CONTINUE "continue (T_CONTINUE)"
+%token T_FOR "for (T_FOR)"
+%token T_IF "if (T_IF)"
+%token T_ELSE "else (T_ELSE)"
+%token T_WHILE "while (T_WHILE)"
+%token T_THROW "throw (T_THROW)"
+%token T_TRY "try (T_TRY)"
+%token T_EXCEPT "except (T_EXCEPT)"
+%token T_FOLLOWS "=> (T_FOLLOWS)"
+%token T_NULLARY_LAMBDA_BEGIN "{{ (T_NULLARY_LAMBDA_BEGIN)"
+%token T_NULLARY_LAMBDA_END "}} (T_NULLARY_LAMBDA_END)"
+
+%type <text> identifier
+%type <elist> rterm_items
+%type <elist> rterm_items_inner
+%type <slist> identifier_items
+%type <slist> identifier_items_inner
+%type <csop> combined_set_op
+%type <llist> statements
+%type <llist> lterm_items
+%type <llist> lterm_items_inner
+%type <expr> rterm
+%type <expr> rterm_array
+%type <dexpr> rterm_dict
+%type <dexpr> rterm_scope_require_side_effect
+%type <dexpr> rterm_scope
+%type <ebranchlist> else_if_branches
+%type <ebranch> else_if_branch
+%type <expr> rterm_side_effect
+%type <expr> rterm_no_side_effect
+%type <expr> rterm_no_side_effect_no_dict
+%type <expr> lterm
+%type <expr> object
+%type <expr> apply
+%type <expr> optional_rterm
+%type <text> target_type_specifier
+%type <boolean> default_specifier
+%type <boolean> ignore_specifier
+%type <cvlist> use_specifier
+%type <cvlist> use_specifier_items
+%type <cvitem> use_specifier_item
+%type <num> object_declaration
+
+%right T_FOLLOWS
+%right T_INCLUDE T_INCLUDE_RECURSIVE T_INCLUDE_ZONES T_OBJECT T_TEMPLATE T_APPLY T_IMPORT T_ASSIGN T_IGNORE T_WHERE
+%right T_FUNCTION T_FOR
+%left T_SET T_SET_ADD T_SET_SUBTRACT T_SET_MULTIPLY T_SET_DIVIDE T_SET_MODULO T_SET_XOR T_SET_BINARY_AND T_SET_BINARY_OR
+%right '?' ':'
+%left T_LOGICAL_OR
+%left T_LOGICAL_AND
+%left T_RETURN T_BREAK T_CONTINUE
+%left T_IDENTIFIER
+%left T_BINARY_OR
+%left T_XOR
+%left T_BINARY_AND
+%nonassoc T_EQUAL T_NOT_EQUAL
+%left T_IN T_NOT_IN
+%nonassoc T_LESS_THAN T_LESS_THAN_OR_EQUAL T_GREATER_THAN T_GREATER_THAN_OR_EQUAL
+%left T_SHIFT_LEFT T_SHIFT_RIGHT
+%left T_PLUS T_MINUS
+%left T_MULTIPLY T_DIVIDE_OP T_MODULO
+%left UNARY_MINUS UNARY_PLUS
+%right REF_OP DEREF_OP
+%right '!' '~'
+%left '.' '(' '['
+%left T_VAR T_THIS T_GLOBALS T_LOCALS
+%right ';' ','
+%right T_NEWLINE
+%{
+
+int yylex(YYSTYPE *lvalp, YYLTYPE *llocp, void *scanner);
+
+extern int yydebug;
+
+void yyerror(const YYLTYPE *locp, std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> > *, ConfigCompiler *context, const char *err)
+{
+	bool incomplete = context && context->m_Eof && (context->m_OpenBraces > 0);
+	BOOST_THROW_EXCEPTION(ScriptError(err, *locp, incomplete));
+}
+
+int yyparse(std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> > *llist, ConfigCompiler *context);
+
+static void BeginFlowControlBlock(ConfigCompiler *compiler, int allowedTypes, bool inherit)
+{
+	if (inherit)
+		allowedTypes |= compiler->m_FlowControlInfo.top();
+
+	compiler->m_FlowControlInfo.push(allowedTypes);
+}
+
+static void EndFlowControlBlock(ConfigCompiler *compiler)
+{
+	compiler->m_FlowControlInfo.pop();
+}
+
+static void UseFlowControl(ConfigCompiler *compiler, FlowControlType type, const CompilerDebugInfo& location)
+{
+	int fci = compiler->m_FlowControlInfo.top();
+
+	if ((type & fci) != type)
+		BOOST_THROW_EXCEPTION(ScriptError("Invalid flow control statement.", location));
+}
+
+std::unique_ptr<Expression> ConfigCompiler::Compile()
+{
+	std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> > llist;
+
+	//yydebug = 1;
+
+	m_IgnoreNewlines.push(false);
+	BeginFlowControlBlock(this, 0, false);
+
+	if (yyparse(&llist, this) != 0)
+		return NULL;
+
+	EndFlowControlBlock(this);
+	m_IgnoreNewlines.pop();
+
+	std::vector<std::unique_ptr<Expression> > dlist;
+	decltype(llist.size()) num = 0;
+	for (auto& litem : llist) {
+		if (!litem.second.SideEffect && num != llist.size() - 1) {
+			yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used.");
+		}
+		dlist.emplace_back(std::move(litem.first));
+		num++;
+	}
+
+	std::unique_ptr<DictExpression> expr{new DictExpression(std::move(dlist))};
+	expr->MakeInline();
+	return std::move(expr);
+}
+
+#define scanner (context->GetScanner())
+
+%}
+
+%%
+script: statements
+	{
+		llist->swap(*$1);
+		delete $1;
+	}
+	;
+
+statements: optional_newlines lterm_items
+	{
+		$$ = $2;
+	}
+	;
+
+lterm_items: /* empty */
+	{
+		$$ = new std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> >();
+	}
+	| lterm_items_inner
+	| lterm_items_inner sep
+	;
+
+lterm_items_inner: lterm %dprec 2
+	{
+		$$ = new std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> >();
+		$$->emplace_back(std::unique_ptr<Expression>($1), EItemInfo{true, @1});
+	}
+	| rterm_no_side_effect
+	{
+		$$ = new std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> >();
+		$$->emplace_back(std::unique_ptr<Expression>($1), EItemInfo{false, @1});
+	}
+	| lterm_items_inner sep lterm %dprec 1
+	{
+		if ($1)
+			$$ = $1;
+		else
+			$$ = new std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> >();
+
+		if ($3) {
+			$$->emplace_back(std::unique_ptr<Expression>($3), EItemInfo{true, @3});
+		}
+	}
+	| lterm_items_inner sep rterm_no_side_effect %dprec 1
+	{
+		if ($1)
+			$$ = $1;
+		else
+			$$ = new std::vector<std::pair<std::unique_ptr<Expression>, EItemInfo> >();
+
+		if ($3) {
+			$$->emplace_back(std::unique_ptr<Expression>($3), EItemInfo{false, @3});
+		}
+	}
+	;
+
+identifier: T_IDENTIFIER
+	| T_STRING
+	;
+
+object:
+	{
+		context->m_ObjectAssign.push(true);
+		context->m_SeenAssign.push(false);
+		context->m_SeenIgnore.push(false);
+		context->m_Assign.push(0);
+		context->m_Ignore.push(0);
+	}
+	object_declaration rterm optional_rterm use_specifier default_specifier ignore_specifier
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope_require_side_effect
+	{
+		EndFlowControlBlock(context);
+
+		context->m_ObjectAssign.pop();
+
+		bool abstract = $2;
+		bool defaultTmpl = $6;
+
+		if (!abstract && defaultTmpl)
+			BOOST_THROW_EXCEPTION(ScriptError("'default' keyword is invalid for object definitions", @6));
+
+		bool seen_assign = context->m_SeenAssign.top();
+		context->m_SeenAssign.pop();
+
+		bool seen_ignore = context->m_SeenIgnore.top();
+		context->m_SeenIgnore.pop();
+
+		std::unique_ptr<Expression> ignore{std::move(context->m_Ignore.top())};
+		context->m_Ignore.pop();
+
+		std::unique_ptr<Expression> assign{std::move(context->m_Assign.top())};
+		context->m_Assign.pop();
+
+		std::unique_ptr<Expression> filter;
+
+		if (seen_assign) {
+			if (ignore) {
+				std::unique_ptr<Expression> rex{new LogicalNegateExpression(std::move(ignore), DebugInfoRange(@2, @5))};
+
+				filter.reset(new LogicalAndExpression(std::move(assign), std::move(rex), DebugInfoRange(@2, @5)));
+			} else
+				filter.swap(assign);
+		} else if (seen_ignore) {
+			BOOST_THROW_EXCEPTION(ScriptError("object rule 'ignore where' cannot be used without 'assign where'", DebugInfoRange(@2, @4)));
+		}
+
+		$$ = new ObjectExpression(abstract, std::unique_ptr<Expression>($3), std::unique_ptr<Expression>($4),
+			std::move(filter), context->GetZone(), context->GetPackage(), std::move(*$5), $6, $7,
+			std::unique_ptr<Expression>($9), DebugInfoRange(@2, @7));
+		delete $5;
+	}
+	;
+
+object_declaration: T_OBJECT
+	{
+		$$ = false;
+	}
+	| T_TEMPLATE
+	{
+		$$ = true;
+	}
+	;
+
+identifier_items: /* empty */
+	{
+		$$ = new std::vector<String>();
+	}
+	| identifier_items_inner
+	| identifier_items_inner ','
+	;
+
+identifier_items_inner: identifier
+	{
+		$$ = new std::vector<String>();
+		$$->emplace_back(std::move(*$1));
+		delete $1;
+	}
+	| identifier_items_inner ',' identifier
+	{
+		if ($1)
+			$$ = $1;
+		else
+			$$ = new std::vector<String>();
+
+		$$->emplace_back(std::move(*$3));
+		delete $3;
+	}
+	;
+
+combined_set_op: T_SET
+	| T_SET_ADD
+	| T_SET_SUBTRACT
+	| T_SET_MULTIPLY
+	| T_SET_DIVIDE
+	| T_SET_MODULO
+	| T_SET_XOR
+	| T_SET_BINARY_AND
+	| T_SET_BINARY_OR
+	;
+
+optional_var: /* empty */
+	| T_VAR
+	;
+
+lterm: T_LIBRARY rterm
+	{
+		$$ = new LibraryExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| rterm combined_set_op rterm
+	{
+		$$ = new SetExpression(std::unique_ptr<Expression>($1), $2, std::unique_ptr<Expression>($3), @$);
+	}
+	| T_INCLUDE rterm
+	{
+		$$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr<Expression>($2), NULL, NULL, IncludeRegular, false, context->GetZone(), context->GetPackage(), @$);
+	}
+	| T_INCLUDE T_STRING_ANGLE
+	{
+		$$ = new IncludeExpression(Utility::DirName(context->GetPath()), MakeLiteral(std::move(*$2)), NULL, NULL, IncludeRegular, true, context->GetZone(), context->GetPackage(), @$);
+		delete $2;
+	}
+	| T_INCLUDE_RECURSIVE rterm
+	{
+		$$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr<Expression>($2), MakeLiteral("*.conf"), NULL, IncludeRecursive, false, context->GetZone(), context->GetPackage(), @$);
+	}
+	| T_INCLUDE_RECURSIVE rterm ',' rterm
+	{
+		$$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr<Expression>($2), std::unique_ptr<Expression>($4), NULL, IncludeRecursive, false, context->GetZone(), context->GetPackage(), @$);
+	}
+	| T_INCLUDE_ZONES rterm ',' rterm
+	{
+		$$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr<Expression>($4), MakeLiteral("*.conf"), std::unique_ptr<Expression>($2), IncludeZones, false, context->GetZone(), context->GetPackage(), @$);
+	}
+	| T_INCLUDE_ZONES rterm ',' rterm ',' rterm
+	{
+		$$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr<Expression>($4), std::unique_ptr<Expression>($6), std::unique_ptr<Expression>($2), IncludeZones, false, context->GetZone(), context->GetPackage(), @$);
+	}
+	| T_IMPORT rterm
+	{
+		$$ = new ImportExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| T_ASSIGN T_WHERE
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope %dprec 2
+	{
+		EndFlowControlBlock(context);
+
+		if ((context->m_Apply.empty() || !context->m_Apply.top()) && (context->m_ObjectAssign.empty() || !context->m_ObjectAssign.top()))
+			BOOST_THROW_EXCEPTION(ScriptError("'assign' keyword not valid in this context.", @$));
+
+		context->m_SeenAssign.top() = true;
+
+		if (context->m_Assign.top())
+			context->m_Assign.top() = new LogicalOrExpression(std::unique_ptr<Expression>(context->m_Assign.top()), std::unique_ptr<Expression>($4), @$);
+		else
+			context->m_Assign.top() = $4;
+
+		$$ = MakeLiteralRaw();
+	}
+	| T_ASSIGN T_WHERE rterm %dprec 1
+	{
+		ASSERT(!dynamic_cast<DictExpression *>($3));
+
+		if ((context->m_Apply.empty() || !context->m_Apply.top()) && (context->m_ObjectAssign.empty() || !context->m_ObjectAssign.top()))
+			BOOST_THROW_EXCEPTION(ScriptError("'assign' keyword not valid in this context.", @$));
+
+		context->m_SeenAssign.top() = true;
+
+		if (context->m_Assign.top())
+			context->m_Assign.top() = new LogicalOrExpression(std::unique_ptr<Expression>(context->m_Assign.top()), std::unique_ptr<Expression>($3), @$);
+		else
+			context->m_Assign.top() = $3;
+
+		$$ = MakeLiteralRaw();
+	}
+	| T_IGNORE T_WHERE
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope %dprec 2
+	{
+		EndFlowControlBlock(context);
+
+		if ((context->m_Apply.empty() || !context->m_Apply.top()) && (context->m_ObjectAssign.empty() || !context->m_ObjectAssign.top()))
+			BOOST_THROW_EXCEPTION(ScriptError("'ignore' keyword not valid in this context.", @$));
+
+		context->m_SeenIgnore.top() = true;
+
+		if (context->m_Ignore.top())
+			context->m_Ignore.top() = new LogicalOrExpression(std::unique_ptr<Expression>(context->m_Ignore.top()), std::unique_ptr<Expression>($4), @$);
+		else
+			context->m_Ignore.top() = $4;
+
+		$$ = MakeLiteralRaw();
+	}
+	| T_IGNORE T_WHERE rterm %dprec 1
+	{
+		ASSERT(!dynamic_cast<DictExpression *>($3));
+
+		if ((context->m_Apply.empty() || !context->m_Apply.top()) && (context->m_ObjectAssign.empty() || !context->m_ObjectAssign.top()))
+			BOOST_THROW_EXCEPTION(ScriptError("'ignore' keyword not valid in this context.", @$));
+
+		context->m_SeenIgnore.top() = true;
+
+		if (context->m_Ignore.top())
+			context->m_Ignore.top() = new LogicalOrExpression(std::unique_ptr<Expression>(context->m_Ignore.top()), std::unique_ptr<Expression>($3), @$);
+		else
+			context->m_Ignore.top() = $3;
+
+		$$ = MakeLiteralRaw();
+	}
+	| T_RETURN optional_rterm
+	{
+		UseFlowControl(context, FlowControlReturn, @$);
+		$$ = new ReturnExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| T_BREAK
+	{
+		UseFlowControl(context, FlowControlBreak, @$);
+		$$ = new BreakExpression(@$);
+	}
+	| T_CONTINUE
+	{
+		UseFlowControl(context, FlowControlContinue, @$);
+		$$ = new ContinueExpression(@$);
+	}
+	| T_DEBUGGER
+	{
+		$$ = new BreakpointExpression(@$);
+	}
+	| T_NAMESPACE rterm
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope_require_side_effect
+	{
+		EndFlowControlBlock(context);
+
+		std::unique_ptr<Expression> expr{$2};
+		BindToScope(expr, ScopeGlobal);
+		$$ = new SetExpression(std::move(expr), OpSetLiteral, std::unique_ptr<Expression>(new NamespaceExpression(std::unique_ptr<Expression>($4), @$)), @$);
+	}
+	| T_USING rterm
+	{
+		Expression::Ptr expr{$2};
+		context->AddImport(std::move(expr));
+		$$ = MakeLiteralRaw();
+	}
+	| apply
+	| object
+	| T_FOR '(' optional_var identifier T_FOLLOWS optional_var identifier T_IN rterm ')'
+	{
+		BeginFlowControlBlock(context, FlowControlContinue | FlowControlBreak, true);
+	}
+	rterm_scope_require_side_effect
+	{
+		EndFlowControlBlock(context);
+
+		$$ = new ForExpression(std::move(*$4), std::move(*$7), std::unique_ptr<Expression>($9), std::unique_ptr<Expression>($12), @$);
+		delete $4;
+		delete $7;
+	}
+	| T_FOR '(' optional_var identifier T_IN rterm ')'
+	{
+		BeginFlowControlBlock(context, FlowControlContinue | FlowControlBreak, true);
+	}
+	rterm_scope_require_side_effect
+	{
+		EndFlowControlBlock(context);
+
+		$$ = new ForExpression(std::move(*$4), "", std::unique_ptr<Expression>($6), std::unique_ptr<Expression>($9), @$);
+		delete $4;
+	}
+	| T_FUNCTION identifier '(' identifier_items ')' use_specifier
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope
+	{
+		EndFlowControlBlock(context);
+
+		std::unique_ptr<FunctionExpression> fexpr{new FunctionExpression(*$2, std::move(*$4), std::move(*$6), std::unique_ptr<Expression>($8), @$)};
+		delete $4;
+		delete $6;
+
+		$$ = new SetExpression(MakeIndexer(ScopeThis, std::move(*$2)), OpSetLiteral, std::move(fexpr), @$);
+		delete $2;
+	}
+	| T_CONST T_IDENTIFIER T_SET rterm
+	{
+		$$ = new SetConstExpression(std::move(*$2), std::unique_ptr<Expression>($4), @$);
+		delete $2;
+	}
+	| T_VAR rterm
+	{
+		std::unique_ptr<Expression> expr{$2};
+		BindToScope(expr, ScopeLocal);
+		$$ = new SetExpression(std::move(expr), OpSetLiteral, MakeLiteral(), @$);
+	}
+	| T_VAR rterm combined_set_op rterm
+	{
+		std::unique_ptr<Expression> expr{$2};
+		BindToScope(expr, ScopeLocal);
+		$$ = new SetExpression(std::move(expr), $3, std::unique_ptr<Expression>($4), @$);
+	}
+	| T_WHILE '(' rterm ')'
+	{
+		BeginFlowControlBlock(context, FlowControlContinue | FlowControlBreak, true);
+	}
+	rterm_scope
+	{
+		EndFlowControlBlock(context);
+
+		$$ = new WhileExpression(std::unique_ptr<Expression>($3), std::unique_ptr<Expression>($6), @$);
+	}
+	| T_THROW rterm
+	{
+		$$ = new ThrowExpression(std::unique_ptr<Expression>($2), false, @$);
+	}
+	| T_TRY rterm_scope T_EXCEPT rterm_scope
+	{
+		$$ = new TryExceptExpression(std::unique_ptr<Expression>($2), std::unique_ptr<Expression>($4), @$);
+	}
+	| rterm_side_effect
+	;
+
+rterm_items: /* empty */
+	{
+		$$ = new std::vector<std::unique_ptr<Expression> >();
+	}
+	| rterm_items_inner
+	| rterm_items_inner ',' optional_newlines
+	| rterm_items_inner newlines
+	;
+
+rterm_items_inner: rterm
+	{
+		$$ = new std::vector<std::unique_ptr<Expression> >();
+		$$->emplace_back($1);
+	}
+	| rterm_items_inner ',' optional_newlines rterm
+	{
+		$$ = $1;
+		$$->emplace_back($4);
+	}
+	;
+
+rterm_array: '['
+	{
+		context->m_OpenBraces++;
+	}
+	optional_newlines rterm_items ']'
+	{
+		context->m_OpenBraces--;
+		$$ = new ArrayExpression(std::move(*$4), @$);
+		delete $4;
+	}
+	;
+
+rterm_dict: '{'
+	{
+		BeginFlowControlBlock(context, 0, false);
+		context->m_IgnoreNewlines.push(false);
+		context->m_OpenBraces++;
+	}
+	statements '}'
+	{
+		EndFlowControlBlock(context);
+		context->m_OpenBraces--;
+		context->m_IgnoreNewlines.pop();
+		std::vector<std::unique_ptr<Expression> > dlist;
+		for (auto& litem : *$3) {
+			if (!litem.second.SideEffect)
+				yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used.");
+			dlist.emplace_back(std::move(litem.first));
+		}
+		delete $3;
+		$$ = new DictExpression(std::move(dlist), @$);
+	}
+	;
+
+rterm_scope_require_side_effect: '{'
+	{
+		context->m_IgnoreNewlines.push(false);
+		context->m_OpenBraces++;
+	}
+	statements '}'
+	{
+		context->m_OpenBraces--;
+		context->m_IgnoreNewlines.pop();
+		std::vector<std::unique_ptr<Expression> > dlist;
+		for (auto& litem : *$3) {
+			if (!litem.second.SideEffect)
+				yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used.");
+			dlist.emplace_back(std::move(litem.first));
+		}
+		delete $3;
+		$$ = new DictExpression(std::move(dlist), @$);
+		$$->MakeInline();
+	}
+	;
+
+rterm_scope: '{'
+	{
+		context->m_IgnoreNewlines.push(false);
+		context->m_OpenBraces++;
+	}
+	statements '}'
+	{
+		context->m_OpenBraces--;
+		context->m_IgnoreNewlines.pop();
+		std::vector<std::unique_ptr<Expression> > dlist;
+		decltype($3->size()) num = 0;
+		for (auto& litem : *$3) {
+			if (!litem.second.SideEffect && num != $3->size() - 1)
+				yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used.");
+			dlist.emplace_back(std::move(litem.first));
+			num++;
+		}
+		delete $3;
+		$$ = new DictExpression(std::move(dlist), @$);
+		$$->MakeInline();
+	}
+	;
+
+else_if_branch: T_ELSE T_IF '(' rterm ')' rterm_scope
+	{
+		$$ = new std::pair<std::unique_ptr<Expression>, std::unique_ptr<Expression> >(std::unique_ptr<Expression>($4), std::unique_ptr<Expression>($6));
+	}
+	;
+
+else_if_branches: /* empty */
+	{
+		$$ = new std::vector<std::pair<std::unique_ptr<Expression>, std::unique_ptr<Expression> > >();
+	}
+	| else_if_branches else_if_branch
+	{
+		$$ = $1;
+		$$->emplace_back(std::move(*$2));
+		delete $2;
+	}
+	;
+
+rterm_side_effect: rterm '(' rterm_items ')'
+	{
+		$$ = new FunctionCallExpression(std::unique_ptr<Expression>($1), std::move(*$3), @$);
+		delete $3;
+	}
+	| T_IF '(' rterm ')' rterm_scope else_if_branches
+	{
+		std::vector<std::pair<std::unique_ptr<Expression>, std::unique_ptr<Expression> > > ebranches;
+		$6->swap(ebranches);
+		delete $6;
+
+		std::unique_ptr<Expression> afalse;
+
+		for (int i = ebranches.size() - 1; i >= 0; i--) {
+			auto& ebranch = ebranches[i];
+			afalse.reset(new ConditionalExpression(std::move(ebranch.first), std::move(ebranch.second), std::move(afalse), @6));
+		}
+
+		$$ = new ConditionalExpression(std::unique_ptr<Expression>($3), std::unique_ptr<Expression>($5), std::move(afalse), @$);
+	}
+	| T_IF '(' rterm ')' rterm_scope else_if_branches T_ELSE rterm_scope
+	{
+		std::vector<std::pair<std::unique_ptr<Expression>, std::unique_ptr<Expression> > > ebranches;
+		$6->swap(ebranches);
+		delete $6;
+
+		$8->MakeInline();
+
+		std::unique_ptr<Expression> afalse{$8};
+
+		for (int i = ebranches.size() - 1; i >= 0; i--) {
+			auto& ebranch = ebranches[i];
+			afalse.reset(new ConditionalExpression(std::move(ebranch.first), std::move(ebranch.second), std::move(afalse), @6));
+		}
+
+		$$ = new ConditionalExpression(std::unique_ptr<Expression>($3), std::unique_ptr<Expression>($5), std::move(afalse), @$);
+	}
+	| rterm '?' rterm ':' rterm
+	{
+		$$ = new ConditionalExpression(std::unique_ptr<Expression>($1), std::unique_ptr<Expression>($3), std::unique_ptr<Expression>($5), @$);
+	}
+	;
+
+rterm_no_side_effect_no_dict: T_STRING
+	{
+		$$ = MakeLiteralRaw(std::move(*$1));
+		delete $1;
+	}
+	| T_NUMBER
+	{
+		$$ = MakeLiteralRaw($1);
+	}
+	| T_BOOLEAN
+	{
+		$$ = MakeLiteralRaw($1);
+	}
+	| T_NULL
+	{
+		$$ = MakeLiteralRaw();
+	}
+	| rterm '.' T_IDENTIFIER %dprec 2
+	{
+		$$ = new IndexerExpression(std::unique_ptr<Expression>($1), MakeLiteral(std::move(*$3)), @$);
+		delete $3;
+	}
+	| rterm '[' rterm ']'
+	{
+		$$ = new IndexerExpression(std::unique_ptr<Expression>($1), std::unique_ptr<Expression>($3), @$);
+	}
+	| T_IDENTIFIER
+	{
+		$$ = new VariableExpression(std::move(*$1), context->GetImports(), @1);
+		delete $1;
+	}
+	| T_MULTIPLY rterm %prec DEREF_OP
+	{
+		$$ = new DerefExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| T_BINARY_AND rterm %prec REF_OP
+	{
+		$$ = new RefExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| '!' rterm
+	{
+		$$ = new LogicalNegateExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| '~' rterm
+	{
+		$$ = new NegateExpression(std::unique_ptr<Expression>($2), @$);
+	}
+	| T_PLUS rterm %prec UNARY_PLUS
+	{
+		$$ = $2;
+	}
+	| T_MINUS rterm %prec UNARY_MINUS
+	{
+		$$ = new SubtractExpression(MakeLiteral(0), std::unique_ptr<Expression>($2), @$);
+	}
+	| T_THIS
+	{
+		$$ = new GetScopeExpression(ScopeThis);
+	}
+	| T_GLOBALS
+	{
+		$$ = new GetScopeExpression(ScopeGlobal);
+	}
+	| T_LOCALS
+	{
+		$$ = new GetScopeExpression(ScopeLocal);
+	}
+	| T_CURRENT_FILENAME
+	{
+		$$ = MakeLiteralRaw(@$.Path);
+	}
+	| T_CURRENT_LINE
+	{
+		$$ = MakeLiteralRaw(@$.FirstLine);
+	}
+	| identifier T_FOLLOWS
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope %dprec 2
+	{
+		EndFlowControlBlock(context);
+
+		std::vector<String> args;
+		args.emplace_back(std::move(*$1));
+		delete $1;
+
+		$$ = new FunctionExpression("<anonymous>", std::move(args), {}, std::unique_ptr<Expression>($4), @$);
+	}
+	| identifier T_FOLLOWS rterm %dprec 1
+	{
+		ASSERT(!dynamic_cast<DictExpression *>($3));
+
+		std::vector<String> args;
+		args.emplace_back(std::move(*$1));
+		delete $1;
+
+		$$ = new FunctionExpression("<anonymous>", std::move(args), {}, std::unique_ptr<Expression>($3), @$);
+	}
+	| '(' identifier_items ')' use_specifier T_FOLLOWS
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope %dprec 2
+	{
+		EndFlowControlBlock(context);
+
+		$$ = new FunctionExpression("<anonymous>", std::move(*$2), std::move(*$4), std::unique_ptr<Expression>($7), @$);
+		delete $2;
+		delete $4;
+	}
+	| '(' identifier_items ')' use_specifier T_FOLLOWS rterm %dprec 1
+	{
+		ASSERT(!dynamic_cast<DictExpression *>($6));
+
+		$$ = new FunctionExpression("<anonymous>", std::move(*$2), std::move(*$4), std::unique_ptr<Expression>($6), @$);
+		delete $2;
+		delete $4;
+	}
+	| rterm_array
+	| '('
+	{
+		context->m_OpenBraces++;
+	}
+	rterm ')'
+	{
+		context->m_OpenBraces--;
+		$$ = $3;
+	}
+	| rterm T_LOGICAL_OR rterm { MakeRBinaryOp<LogicalOrExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_LOGICAL_AND rterm { MakeRBinaryOp<LogicalAndExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_BINARY_OR rterm { MakeRBinaryOp<BinaryOrExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_BINARY_AND rterm { MakeRBinaryOp<BinaryAndExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_IN rterm { MakeRBinaryOp<InExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_NOT_IN rterm { MakeRBinaryOp<NotInExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_EQUAL rterm { MakeRBinaryOp<EqualExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_NOT_EQUAL rterm { MakeRBinaryOp<NotEqualExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_LESS_THAN rterm { MakeRBinaryOp<LessThanExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_LESS_THAN_OR_EQUAL rterm { MakeRBinaryOp<LessThanOrEqualExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_GREATER_THAN rterm { MakeRBinaryOp<GreaterThanExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_GREATER_THAN_OR_EQUAL rterm { MakeRBinaryOp<GreaterThanOrEqualExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_SHIFT_LEFT rterm { MakeRBinaryOp<ShiftLeftExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_SHIFT_RIGHT rterm { MakeRBinaryOp<ShiftRightExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_PLUS rterm { MakeRBinaryOp<AddExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_MINUS rterm { MakeRBinaryOp<SubtractExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_MULTIPLY rterm { MakeRBinaryOp<MultiplyExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_DIVIDE_OP rterm { MakeRBinaryOp<DivideExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_MODULO rterm { MakeRBinaryOp<ModuloExpression>(&$$, $1, $3, @1, @3); }
+	| rterm T_XOR rterm { MakeRBinaryOp<XorExpression>(&$$, $1, $3, @1, @3); }
+	| T_FUNCTION '(' identifier_items ')' use_specifier
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope
+	{
+		EndFlowControlBlock(context);
+
+		$$ = new FunctionExpression("<anonymous>", std::move(*$3), std::move(*$5), std::unique_ptr<Expression>($7), @$);
+		delete $3;
+		delete $5;
+	}
+	| T_NULLARY_LAMBDA_BEGIN
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	statements T_NULLARY_LAMBDA_END
+	{
+		EndFlowControlBlock(context);
+
+		std::vector<std::unique_ptr<Expression> > dlist;
+		decltype(dlist.size()) num = 0;
+		for (auto& litem : *$3) {
+			if (!litem.second.SideEffect && num != $3->size() - 1)
+				yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used.");
+			dlist.emplace_back(std::move(litem.first));
+			num++;
+		}
+		delete $3;
+		std::unique_ptr<DictExpression> aexpr{new DictExpression(std::move(dlist), @$)};
+		aexpr->MakeInline();
+
+		$$ = new FunctionExpression("<anonymous>", {}, {}, std::move(aexpr), @$);
+	}
+	;
+
+rterm_no_side_effect:
+	rterm_no_side_effect_no_dict %dprec 1
+	| rterm_dict %dprec 2
+	{
+		std::unique_ptr<Expression> expr{$1};
+		BindToScope(expr, ScopeThis);
+		$$ = expr.release();
+	}
+	;
+
+rterm:
+	rterm_side_effect %dprec 2
+	| rterm_no_side_effect %dprec 1
+	;
+
+target_type_specifier: /* empty */
+	{
+		$$ = new String();
+	}
+	| T_TO identifier
+	{
+		$$ = $2;
+	}
+	;
+
+default_specifier: /* empty */
+	{
+		$$ = false;
+	}
+	| T_DEFAULT
+	{
+		$$ = true;
+	}
+	;
+
+ignore_specifier: /* empty */
+	{
+		$$ = false;
+	}
+	| T_IGNORE_ON_ERROR
+	{
+		$$ = true;
+	}
+	;
+
+use_specifier: /* empty */
+	{
+		$$ = new std::map<String, std::unique_ptr<Expression> >();
+	}
+	| T_USE '(' use_specifier_items ')'
+	{
+		$$ = $3;
+	}
+	;
+
+use_specifier_items: use_specifier_item
+	{
+		$$ = new std::map<String, std::unique_ptr<Expression> >();
+		$$->emplace(std::move(*$1));
+		delete $1;
+	}
+	| use_specifier_items ',' use_specifier_item
+	{
+		$$ = $1;
+		$$->emplace(std::move(*$3));
+		delete $3;
+	}
+	;
+
+use_specifier_item: identifier
+	{
+		std::unique_ptr<Expression> var (new VariableExpression(*$1, context->GetImports(), @1));
+		$$ = new std::pair<String, std::unique_ptr<Expression> >(std::move(*$1), std::move(var));
+		delete $1;
+	}
+	| identifier T_SET rterm
+	{
+		$$ = new std::pair<String, std::unique_ptr<Expression> >(std::move(*$1), std::unique_ptr<Expression>($3));
+		delete $1;
+	}
+	;
+
+apply_for_specifier: /* empty */
+	| T_FOR '(' optional_var identifier T_FOLLOWS optional_var identifier T_IN rterm ')'
+	{
+		context->m_FKVar.top() = std::move(*$4);
+		delete $4;
+
+		context->m_FVVar.top() = std::move(*$7);
+		delete $7;
+
+		context->m_FTerm.top() = $9;
+	}
+	| T_FOR '(' optional_var identifier T_IN rterm ')'
+	{
+		context->m_FKVar.top() = std::move(*$4);
+		delete $4;
+
+		context->m_FVVar.top() = "";
+
+		context->m_FTerm.top() = $6;
+	}
+	;
+
+optional_rterm: /* empty */
+	{
+		$$ = MakeLiteralRaw();
+	}
+	| rterm
+	;
+
+apply:
+	{
+		context->m_Apply.push(true);
+		context->m_SeenAssign.push(false);
+		context->m_SeenIgnore.push(false);
+		context->m_Assign.push(NULL);
+		context->m_Ignore.push(NULL);
+		context->m_FKVar.push("");
+		context->m_FVVar.push("");
+		context->m_FTerm.push(NULL);
+	}
+	T_APPLY identifier optional_rterm apply_for_specifier target_type_specifier use_specifier ignore_specifier
+	{
+		BeginFlowControlBlock(context, FlowControlReturn, false);
+	}
+	rterm_scope_require_side_effect
+	{
+		EndFlowControlBlock(context);
+
+		context->m_Apply.pop();
+
+		String type = std::move(*$3);
+		delete $3;
+		String target = std::move(*$6);
+		delete $6;
+
+		if (!ApplyRule::IsValidSourceType(type))
+			BOOST_THROW_EXCEPTION(ScriptError("'apply' cannot be used with type '" + type + "'", @3));
+
+		if (!ApplyRule::IsValidTargetType(type, target)) {
+			if (target == "") {
+				auto& types (ApplyRule::GetTargetTypes(type));
+				String typeNames;
+
+				for (std::vector<String>::size_type i = 0; i < types.size(); i++) {
+					if (typeNames != "") {
+						if (i == types.size() - 1)
+							typeNames += " or ";
+						else
+							typeNames += ", ";
+					}
+
+					typeNames += "'" + types[i] + "'";
+				}
+
+				BOOST_THROW_EXCEPTION(ScriptError("'apply' target type is ambiguous (can be one of " + typeNames + "): use 'to' to specify a type", DebugInfoRange(@2, @3)));
+			} else
+				BOOST_THROW_EXCEPTION(ScriptError("'apply' target type '" + target + "' is invalid", @6));
+		}
+
+		bool seen_assign = context->m_SeenAssign.top();
+		context->m_SeenAssign.pop();
+
+		// assign && !ignore
+		if (!seen_assign && !context->m_FTerm.top())
+			BOOST_THROW_EXCEPTION(ScriptError("'apply' is missing 'assign'/'for'", DebugInfoRange(@2, @3)));
+
+		std::unique_ptr<Expression> ignore{context->m_Ignore.top()};
+		context->m_Ignore.pop();
+
+		std::unique_ptr<Expression> assign;
+
+		if (!seen_assign)
+			assign = MakeLiteral(true);
+		else
+			assign.reset(context->m_Assign.top());
+
+		context->m_Assign.pop();
+
+		std::unique_ptr<Expression> filter;
+
+		if (ignore) {
+			std::unique_ptr<Expression>rex{new LogicalNegateExpression(std::move(ignore), DebugInfoRange(@2, @5))};
+
+			filter.reset(new LogicalAndExpression(std::move(assign), std::move(rex), DebugInfoRange(@2, @5)));
+		} else
+			filter.swap(assign);
+
+		String fkvar = std::move(context->m_FKVar.top());
+		context->m_FKVar.pop();
+
+		String fvvar = std::move(context->m_FVVar.top());
+		context->m_FVVar.pop();
+
+		std::unique_ptr<Expression> fterm{context->m_FTerm.top()};
+		context->m_FTerm.pop();
+
+		$$ = new ApplyExpression(std::move(type), std::move(target), std::unique_ptr<Expression>($4), std::move(filter), context->GetPackage(), std::move(fkvar), std::move(fvvar), std::move(fterm), std::move(*$7), $8, std::unique_ptr<Expression>($10), DebugInfoRange(@2, @8));
+		delete $7;
+	}
+	;
+
+newlines: T_NEWLINE
+	| T_NEWLINE newlines
+	;
+
+optional_newlines: /* empty */
+	| newlines
+	;
+
+/* required separator */
+sep: ',' optional_newlines
+	| ';' optional_newlines
+	| newlines
+	;
+
+%%