%{ #define YYDEBUG 1 /****************************************************************************** * Icinga 2 * * Copyright (C) 2012-2018 Icinga Development Team (https://www.icinga.com/) * * * * This program is free software; you can redistribute it and/or * * modify it under the terms of the GNU General Public License * * as published by the Free Software Foundation; either version 2 * * of the License, or (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #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 #include #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 static void MakeRBinaryOp(Expression** result, Expression *left, Expression *right, const DebugInfo& diLeft, const DebugInfo& diRight) { *result = new T(std::unique_ptr(left), std::unique_ptr(right), DebugInfoRange(diLeft, diRight)); } %} %pure-parser %locations %defines %error-verbose %glr-parser %parse-param { std::vector, 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 *slist; std::vector, EItemInfo> > *llist; std::vector > *elist; std::vector, std::unique_ptr > > *ebranchlist; std::pair, std::unique_ptr > *ebranch; std::pair > *cvitem; std::map > *cvlist; icinga::ScopeSpecifier scope; } %token T_NEWLINE "new-line" %token T_STRING %token T_STRING_ANGLE %token T_NUMBER %token T_BOOLEAN %token T_NULL %token T_IDENTIFIER %token T_SET "= (T_SET)" %token T_SET_ADD "+= (T_SET_ADD)" %token T_SET_SUBTRACT "-= (T_SET_SUBTRACT)" %token T_SET_MULTIPLY "*= (T_SET_MULTIPLY)" %token T_SET_DIVIDE "/= (T_SET_DIVIDE)" %token T_SET_MODULO "%= (T_SET_MODULO)" %token T_SET_XOR "^= (T_SET_XOR)" %token T_SET_BINARY_AND "&= (T_SET_BINARY_AND)" %token 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_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 identifier %type rterm_items %type rterm_items_inner %type identifier_items %type identifier_items_inner %type combined_set_op %type statements %type lterm_items %type lterm_items_inner %type rterm %type rterm_array %type rterm_dict %type rterm_scope_require_side_effect %type rterm_scope %type else_if_branches %type else_if_branch %type rterm_side_effect %type rterm_no_side_effect %type rterm_no_side_effect_no_dict %type lterm %type object %type apply %type optional_rterm %type target_type_specifier %type default_specifier %type ignore_specifier %type use_specifier %type use_specifier_items %type use_specifier_item %type 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 %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 '!' '~' %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, 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, 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 ConfigCompiler::Compile() { std::vector, 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 > 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.push_back(std::move(litem.first)); num++; } std::unique_ptr expr{new DictExpression(std::move(dlist))}; expr->MakeInline(); return std::move(expr); } #define scanner (context->GetScanner()) %} %% script: statements { llist->swap(*$1); delete $1; } ; statements: newlines lterm_items { $$ = $2; } | lterm_items ; lterm_items: /* empty */ { $$ = new std::vector, EItemInfo> >(); } | lterm_items_inner | lterm_items_inner sep ; lterm_items_inner: lterm %dprec 2 { $$ = new std::vector, EItemInfo> >(); EItemInfo info = { true, @1 }; $$->emplace_back(std::unique_ptr($1), info); } | rterm_no_side_effect { $$ = new std::vector, EItemInfo> >(); EItemInfo info = { false, @1 }; $$->emplace_back(std::unique_ptr($1), info); } | lterm_items_inner sep lterm %dprec 1 { if ($1) $$ = $1; else $$ = new std::vector, EItemInfo> >(); if ($3) { EItemInfo info = { true, @3 }; $$->emplace_back(std::unique_ptr($3), info); } } | lterm_items_inner sep rterm_no_side_effect %dprec 1 { if ($1) $$ = $1; else $$ = new std::vector, EItemInfo> >(); if ($3) { EItemInfo info = { false, @3 }; $$->emplace_back(std::unique_ptr($3), info); } } ; 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 ignore{std::move(context->m_Ignore.top())}; context->m_Ignore.pop(); std::unique_ptr assign{std::move(context->m_Assign.top())}; context->m_Assign.pop(); std::unique_ptr filter; if (seen_assign) { if (ignore) { std::unique_ptr 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))); } $$ = new ObjectExpression(abstract, std::unique_ptr($3), std::unique_ptr($4), std::move(filter), context->GetZone(), context->GetPackage(), std::move(*$5), $6, $7, std::unique_ptr($9), DebugInfoRange(@2, @7)); delete $5; } ; object_declaration: T_OBJECT { $$ = false; } | T_TEMPLATE { $$ = true; } ; identifier_items: /* empty */ { $$ = new std::vector(); } | identifier_items_inner | identifier_items_inner ',' ; identifier_items_inner: identifier { $$ = new std::vector(); $$->push_back(*$1); delete $1; } | identifier_items_inner ',' identifier { if ($1) $$ = $1; else $$ = new std::vector(); $$->push_back(*$3); delete $3; } ; combined_set_op: T_SET | T_SET_ADD | T_SET_SUBTRACT | T_SET_MULTIPLY | T_SET_DIVIDE | T_SET_MODULO | T_SET_XOR | T_SET_BINARY_AND | T_SET_BINARY_OR ; lterm: T_LIBRARY rterm { $$ = new LibraryExpression(std::unique_ptr($2), @$); } | rterm combined_set_op rterm { $$ = new SetExpression(std::unique_ptr($1), $2, std::unique_ptr($3), @$); } | T_INCLUDE rterm { $$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr($2), NULL, NULL, IncludeRegular, false, context->GetZone(), context->GetPackage(), @$); } | T_INCLUDE T_STRING_ANGLE { $$ = new IncludeExpression(Utility::DirName(context->GetPath()), MakeLiteral(*$2), NULL, NULL, IncludeRegular, true, context->GetZone(), context->GetPackage(), @$); delete $2; } | T_INCLUDE_RECURSIVE rterm { $$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr($2), MakeLiteral("*.conf"), NULL, IncludeRecursive, false, context->GetZone(), context->GetPackage(), @$); } | T_INCLUDE_RECURSIVE rterm ',' rterm { $$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr($2), std::unique_ptr($4), NULL, IncludeRecursive, false, context->GetZone(), context->GetPackage(), @$); } | T_INCLUDE_ZONES rterm ',' rterm { $$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr($4), MakeLiteral("*.conf"), std::unique_ptr($2), IncludeZones, false, context->GetZone(), context->GetPackage(), @$); } | T_INCLUDE_ZONES rterm ',' rterm ',' rterm { $$ = new IncludeExpression(Utility::DirName(context->GetPath()), std::unique_ptr($4), std::unique_ptr($6), std::unique_ptr($2), IncludeZones, false, context->GetZone(), context->GetPackage(), @$); } | T_IMPORT rterm { $$ = new ImportExpression(std::unique_ptr($2), @$); } | 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(context->m_Assign.top()), std::unique_ptr($4), @$); else context->m_Assign.top() = $4; $$ = MakeLiteralRaw(); } | T_ASSIGN T_WHERE rterm %dprec 1 { ASSERT(!dynamic_cast($3)); if ((context->m_Apply.empty() || !context->m_Apply.top()) && (context->m_ObjectAssign.empty() || !context->m_ObjectAssign.top())) BOOST_THROW_EXCEPTION(ScriptError("'assign' keyword not valid in this context.", @$)); context->m_SeenAssign.top() = true; if (context->m_Assign.top()) context->m_Assign.top() = new LogicalOrExpression(std::unique_ptr(context->m_Assign.top()), std::unique_ptr($3), @$); else context->m_Assign.top() = $3; $$ = 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(context->m_Ignore.top()), std::unique_ptr($4), @$); else context->m_Ignore.top() = $4; $$ = MakeLiteralRaw(); } | T_IGNORE T_WHERE rterm %dprec 1 { ASSERT(!dynamic_cast($3)); if ((context->m_Apply.empty() || !context->m_Apply.top()) && (context->m_ObjectAssign.empty() || !context->m_ObjectAssign.top())) BOOST_THROW_EXCEPTION(ScriptError("'ignore' keyword not valid in this context.", @$)); context->m_SeenIgnore.top() = true; if (context->m_Ignore.top()) context->m_Ignore.top() = new LogicalOrExpression(std::unique_ptr(context->m_Ignore.top()), std::unique_ptr($3), @$); else context->m_Ignore.top() = $3; $$ = MakeLiteralRaw(); } | T_RETURN optional_rterm { UseFlowControl(context, FlowControlReturn, @$); $$ = new ReturnExpression(std::unique_ptr($2), @$); } | T_BREAK { UseFlowControl(context, FlowControlBreak, @$); $$ = new BreakExpression(@$); } | T_CONTINUE { UseFlowControl(context, FlowControlContinue, @$); $$ = new ContinueExpression(@$); } | T_DEBUGGER { $$ = new BreakpointExpression(@$); } | T_USING rterm { $$ = new UsingExpression(std::unique_ptr($2), @$); } | apply | object | T_FOR '(' identifier T_FOLLOWS identifier T_IN rterm ')' { BeginFlowControlBlock(context, FlowControlContinue | FlowControlBreak, true); } rterm_scope_require_side_effect { EndFlowControlBlock(context); $$ = new ForExpression(*$3, *$5, std::unique_ptr($7), std::unique_ptr($10), @$); delete $3; delete $5; } | T_FOR '(' identifier T_IN rterm ')' { BeginFlowControlBlock(context, FlowControlContinue | FlowControlBreak, true); } rterm_scope_require_side_effect { EndFlowControlBlock(context); $$ = new ForExpression(*$3, "", std::unique_ptr($5), std::unique_ptr($8), @$); delete $3; } | T_FUNCTION identifier '(' identifier_items ')' use_specifier { BeginFlowControlBlock(context, FlowControlReturn, false); } rterm_scope { EndFlowControlBlock(context); std::unique_ptr fexpr{new FunctionExpression(*$2, *$4, std::move(*$6), std::unique_ptr($8), @$)}; delete $4; delete $6; $$ = new SetExpression(MakeIndexer(ScopeThis, *$2), OpSetLiteral, std::move(fexpr), @$); delete $2; } | T_CONST T_IDENTIFIER T_SET rterm { $$ = new SetExpression(MakeIndexer(ScopeGlobal, *$2), OpSetLiteral, std::unique_ptr($4)); delete $2; } | T_VAR rterm { std::unique_ptr expr{$2}; BindToScope(expr, ScopeLocal); $$ = new SetExpression(std::move(expr), OpSetLiteral, MakeLiteral(), @$); } | T_VAR rterm combined_set_op rterm { std::unique_ptr expr{$2}; BindToScope(expr, ScopeLocal); $$ = new SetExpression(std::move(expr), $3, std::unique_ptr($4), @$); } | T_WHILE '(' rterm ')' { BeginFlowControlBlock(context, FlowControlContinue | FlowControlBreak, true); } rterm_scope { EndFlowControlBlock(context); $$ = new WhileExpression(std::unique_ptr($3), std::unique_ptr($6), @$); } | T_THROW rterm { $$ = new ThrowExpression(std::unique_ptr($2), false, @$); } | T_TRY rterm_scope T_EXCEPT rterm_scope { $$ = new TryExceptExpression(std::unique_ptr($2), std::unique_ptr($4), @$); } | rterm_side_effect ; rterm_items: /* empty */ { $$ = new std::vector >(); } | rterm_items_inner | rterm_items_inner ',' | rterm_items_inner ',' newlines | rterm_items_inner newlines ; rterm_items_inner: rterm { $$ = new std::vector >(); $$->emplace_back($1); } | rterm_items_inner arraysep rterm { $$ = $1; $$->emplace_back($3); } ; rterm_array: '[' { context->m_OpenBraces++; } newlines rterm_items ']' { context->m_OpenBraces--; $$ = new ArrayExpression(std::move(*$4), @$); delete $4; } | '[' { context->m_OpenBraces++; } rterm_items ']' { context->m_OpenBraces--; $$ = new ArrayExpression(std::move(*$3), @$); delete $3; } ; rterm_dict: '{' { BeginFlowControlBlock(context, 0, false); context->m_IgnoreNewlines.push(false); context->m_OpenBraces++; } statements '}' { EndFlowControlBlock(context); context->m_OpenBraces--; context->m_IgnoreNewlines.pop(); std::vector > dlist; for (auto& litem : *$3) { if (!litem.second.SideEffect) yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used."); dlist.push_back(std::move(litem.first)); } delete $3; $$ = 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 > dlist; for (auto& litem : *$3) { if (!litem.second.SideEffect) yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used."); dlist.push_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 > 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.push_back(std::move(litem.first)); num++; } delete $3; $$ = new DictExpression(std::move(dlist), @$); $$->MakeInline(); } ; else_if_branch: T_ELSE T_IF '(' rterm ')' rterm_scope { $$ = new std::pair, std::unique_ptr >(std::unique_ptr($4), std::unique_ptr($6)); } ; else_if_branches: /* empty */ { $$ = new std::vector, std::unique_ptr > >(); } | else_if_branches else_if_branch { $$ = $1; $$->push_back(std::move(*$2)); delete $2; } ; rterm_side_effect: rterm '(' rterm_items ')' { $$ = new FunctionCallExpression(std::unique_ptr($1), std::move(*$3), @$); delete $3; } | T_IF '(' rterm ')' rterm_scope else_if_branches { std::vector, std::unique_ptr > > ebranches; $6->swap(ebranches); delete $6; std::unique_ptr afalse; for (int i = ebranches.size() - 1; i >= 0; i--) { auto& ebranch = ebranches[i]; afalse.reset(new ConditionalExpression(std::move(ebranch.first), std::move(ebranch.second), std::move(afalse), @6)); } $$ = new ConditionalExpression(std::unique_ptr($3), std::unique_ptr($5), std::move(afalse), @$); } | T_IF '(' rterm ')' rterm_scope else_if_branches T_ELSE rterm_scope { std::vector, std::unique_ptr > > ebranches; $6->swap(ebranches); delete $6; $8->MakeInline(); std::unique_ptr 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)); } $$ = new ConditionalExpression(std::unique_ptr($3), std::unique_ptr($5), std::move(afalse), @$); } ; rterm_no_side_effect_no_dict: T_STRING { $$ = MakeLiteralRaw(*$1); delete $1; } | T_NUMBER { $$ = MakeLiteralRaw($1); } | T_BOOLEAN { $$ = MakeLiteralRaw($1); } | T_NULL { $$ = MakeLiteralRaw(); } | rterm '.' T_IDENTIFIER %dprec 2 { $$ = new IndexerExpression(std::unique_ptr($1), MakeLiteral(*$3), @$); delete $3; } | rterm '[' rterm ']' { $$ = new IndexerExpression(std::unique_ptr($1), std::unique_ptr($3), @$); } | T_IDENTIFIER { $$ = new VariableExpression(*$1, @1); delete $1; } | '!' rterm { $$ = new LogicalNegateExpression(std::unique_ptr($2), @$); } | '~' rterm { $$ = new NegateExpression(std::unique_ptr($2), @$); } | T_PLUS rterm %prec UNARY_PLUS { $$ = $2; } | T_MINUS rterm %prec UNARY_MINUS { $$ = new SubtractExpression(MakeLiteral(0), std::unique_ptr($2), @$); } | T_THIS { $$ = new GetScopeExpression(ScopeThis); } | T_GLOBALS { $$ = new GetScopeExpression(ScopeGlobal); } | T_LOCALS { $$ = new GetScopeExpression(ScopeLocal); } | T_CURRENT_FILENAME { $$ = MakeLiteralRaw(@$.Path); } | T_CURRENT_LINE { $$ = MakeLiteralRaw(@$.FirstLine); } | identifier T_FOLLOWS { BeginFlowControlBlock(context, FlowControlReturn, false); } rterm_scope %dprec 2 { EndFlowControlBlock(context); std::vector args; args.push_back(*$1); delete $1; $$ = new FunctionExpression("", args, {}, std::unique_ptr($4), @$); } | identifier T_FOLLOWS rterm %dprec 1 { ASSERT(!dynamic_cast($3)); std::vector args; args.push_back(*$1); delete $1; $$ = new FunctionExpression("", args, {}, std::unique_ptr($3), @$); } | '(' identifier_items ')' T_FOLLOWS { BeginFlowControlBlock(context, FlowControlReturn, false); } rterm_scope %dprec 2 { EndFlowControlBlock(context); $$ = new FunctionExpression("", *$2, {}, std::unique_ptr($6), @$); delete $2; } | '(' identifier_items ')' T_FOLLOWS rterm %dprec 1 { ASSERT(!dynamic_cast($5)); $$ = new FunctionExpression("", *$2, {}, std::unique_ptr($5), @$); delete $2; } | rterm_array | '(' { context->m_OpenBraces++; } rterm ')' { context->m_OpenBraces--; $$ = $3; } | rterm T_LOGICAL_OR rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_LOGICAL_AND rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_BINARY_OR rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_BINARY_AND rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_IN rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_NOT_IN rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_EQUAL rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_NOT_EQUAL rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_LESS_THAN rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_LESS_THAN_OR_EQUAL rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_GREATER_THAN rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_GREATER_THAN_OR_EQUAL rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_SHIFT_LEFT rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_SHIFT_RIGHT rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_PLUS rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_MINUS rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_MULTIPLY rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_DIVIDE_OP rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_MODULO rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | rterm T_XOR rterm { MakeRBinaryOp(&$$, $1, $3, @1, @3); } | T_FUNCTION '(' identifier_items ')' use_specifier { BeginFlowControlBlock(context, FlowControlReturn, false); } rterm_scope { EndFlowControlBlock(context); $$ = new FunctionExpression("", *$3, std::move(*$5), std::unique_ptr($7), @$); delete $3; delete $5; } | T_NULLARY_LAMBDA_BEGIN { BeginFlowControlBlock(context, FlowControlReturn, false); } statements T_NULLARY_LAMBDA_END { EndFlowControlBlock(context); std::vector > dlist; decltype(dlist.size()) num = 0; for (auto& litem : *$3) { if (!litem.second.SideEffect && num != $3->size() - 1) yyerror(&litem.second.DebugInfo, NULL, NULL, "Value computed is not used."); dlist.push_back(std::move(litem.first)); num++; } delete $3; std::unique_ptr aexpr{new DictExpression(std::move(dlist), @$)}; aexpr->MakeInline(); $$ = new FunctionExpression("", {}, {}, std::move(aexpr), @$); } ; rterm_no_side_effect: rterm_no_side_effect_no_dict %dprec 1 | rterm_dict %dprec 2 { std::unique_ptr 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 >(); } | T_USE '(' use_specifier_items ')' { $$ = $3; } ; use_specifier_items: use_specifier_item { $$ = new std::map >(); $$->insert(std::move(*$1)); delete $1; } | use_specifier_items ',' use_specifier_item { $$ = $1; $$->insert(std::move(*$3)); delete $3; } ; use_specifier_item: identifier { $$ = new std::pair >(*$1, std::unique_ptr(new VariableExpression(*$1, @1))); delete $1; } | identifier T_SET rterm { $$ = new std::pair >(*$1, std::unique_ptr($3)); delete $1; } ; apply_for_specifier: /* empty */ | T_FOR '(' identifier T_FOLLOWS identifier T_IN rterm ')' { context->m_FKVar.top() = *$3; delete $3; context->m_FVVar.top() = *$5; delete $5; context->m_FTerm.top() = $7; } | T_FOR '(' identifier T_IN rterm ')' { context->m_FKVar.top() = *$3; delete $3; context->m_FVVar.top() = ""; context->m_FTerm.top() = $5; } ; optional_rterm: /* empty */ { $$ = 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 = *$3; delete $3; String target = *$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 == "") { std::vector types = ApplyRule::GetTargetTypes(type); String typeNames; for (std::vector::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 ignore{context->m_Ignore.top()}; context->m_Ignore.pop(); std::unique_ptr assign; if (!seen_assign) assign = MakeLiteral(true); else assign.reset(context->m_Assign.top()); context->m_Assign.pop(); std::unique_ptr filter; if (ignore) { std::unique_ptrrex{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 = context->m_FKVar.top(); context->m_FKVar.pop(); String fvvar = context->m_FVVar.top(); context->m_FVVar.pop(); std::unique_ptr fterm{context->m_FTerm.top()}; context->m_FTerm.pop(); $$ = new ApplyExpression(type, target, std::unique_ptr($4), std::move(filter), context->GetPackage(), fkvar, fvvar, std::move(fterm), std::move(*$7), $8, std::unique_ptr($10), DebugInfoRange(@2, @8)); delete $7; } ; newlines: T_NEWLINE | T_NEWLINE newlines ; /* required separator */ sep: ',' newlines | ',' | ';' newlines | ';' | newlines ; arraysep: ',' newlines | ',' ; %%