@ -316,7 +316,7 @@ struct
(* search the label into the hashtbl - create a fake node eventually *)
(* search the label into the hashtbl - create a fake node eventually *)
(* connect that node with this stmt *)
(* connect that node with this stmt *)
let gotoStmt_trans trans_state stmt_info label_name =
let gotoStmt_trans trans_state stmt_info label_name =
let sil_loc = CLocation . get_sil_location stmt_info trans_state . parent_line_number trans_state . context in
let sil_loc = CLocation . get_sil_location stmt_info trans_state . context in
let root_node' = GotoLabel . find_goto_label trans_state . context label_name sil_loc in
let root_node' = GotoLabel . find_goto_label trans_state . context label_name sil_loc in
{ empty_res_trans with root_nodes = [ root_node' ] ; leaf_nodes = trans_state . succ_nodes }
{ empty_res_trans with root_nodes = [ root_node' ] ; leaf_nodes = trans_state . succ_nodes }
@ -355,8 +355,7 @@ struct
let _ , _ , type_ptr = get_info_from_decl_ref decl_ref in
let _ , _ , type_ptr = get_info_from_decl_ref decl_ref in
let typ = CTypes_decl . type_ptr_to_sil_type context . tenv type_ptr in
let typ = CTypes_decl . type_ptr_to_sil_type context . tenv type_ptr in
let procname = Cfg . Procdesc . get_proc_name context . procdesc in
let procname = Cfg . Procdesc . get_proc_name context . procdesc in
let pln = trans_state . parent_line_number in
let sil_loc = CLocation . get_sil_location stmt_info context in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let pvar = CVar_decl . sil_var_of_decl_ref context decl_ref procname in
let pvar = CVar_decl . sil_var_of_decl_ref context decl_ref procname in
CContext . add_block_static_var context procname ( pvar , typ ) ;
CContext . add_block_static_var context procname ( pvar , typ ) ;
let e = Sil . Lvar pvar in
let e = Sil . Lvar pvar in
@ -424,8 +423,7 @@ struct
let cxxThisExpr_trans trans_state stmt_info expr_info =
let cxxThisExpr_trans trans_state stmt_info expr_info =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let sil_loc = CLocation . get_sil_location stmt_info context in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let tp = expr_info . Clang_ast_t . ei_type_ptr in
let tp = expr_info . Clang_ast_t . ei_type_ptr in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let name = CFrontend_config . this in
let name = CFrontend_config . this in
@ -443,8 +441,7 @@ struct
instruction trans_state stmt
instruction trans_state stmt
| _ -> assert false (* expected a stmt or at most a compoundstmt *) in
| _ -> assert false (* expected a stmt or at most a compoundstmt *) in
(* create the label root node into the hashtbl *)
(* create the label root node into the hashtbl *)
let sil_loc =
let sil_loc = CLocation . get_sil_location stmt_info trans_state . context in
CLocation . get_sil_location stmt_info trans_state . parent_line_number trans_state . context in
let root_node' = GotoLabel . find_goto_label trans_state . context label_name sil_loc in
let root_node' = GotoLabel . find_goto_label trans_state . context label_name sil_loc in
Cfg . Node . set_succs_exn root_node' res_trans . root_nodes [] ;
Cfg . Node . set_succs_exn root_node' res_trans . root_nodes [] ;
{ empty_res_trans with root_nodes = [ root_node' ] ; leaf_nodes = trans_state . succ_nodes }
{ empty_res_trans with root_nodes = [ root_node' ] ; leaf_nodes = trans_state . succ_nodes }
@ -520,10 +517,8 @@ struct
| [ a ; i ] -> a , i (* Assumption: the statement list contains 2 elements,
| [ a ; i ] -> a , i (* Assumption: the statement list contains 2 elements,
the first is the array expr and the second the index * )
the first is the array expr and the second the index * )
| _ -> assert false ) in (* Let's get notified if the assumption is wrong... *)
| _ -> assert false ) in (* Let's get notified if the assumption is wrong... *)
let line_number = CLocation . get_line stmt_info trans_state . parent_line_number in
let res_trans_a = instruction trans_state array_stmt in
let trans_state' = { trans_state with parent_line_number = line_number } in
let res_trans_idx = instruction trans_state idx_stmt in
let res_trans_a = instruction trans_state' array_stmt in
let res_trans_idx = instruction trans_state' idx_stmt in
let ( a_exp , a_typ ) = extract_exp_from_list res_trans_a . exps
let ( a_exp , a_typ ) = extract_exp_from_list res_trans_a . exps
" WARNING: In ArraySubscriptExpr there was a problem in translating array exp. \n " in
" WARNING: In ArraySubscriptExpr there was a problem in translating array exp. \n " in
let ( i_exp , i_typ ) = extract_exp_from_list res_trans_idx . exps
let ( i_exp , i_typ ) = extract_exp_from_list res_trans_idx . exps
@ -562,17 +557,15 @@ struct
Printing . log_out " priority node free = '%s' \n @. "
Printing . log_out " priority node free = '%s' \n @. "
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
let context = trans_state . context in
let context = trans_state . context in
let parent_line_number = trans_state . parent_line_number in
let sil_loc = CLocation . get_sil_location stmt_info context in
let sil_loc = CLocation . get_sil_location stmt_info parent_line_number context in
let typ = CTypes_decl . type_ptr_to_sil_type context . CContext . tenv expr_info . Clang_ast_t . ei_type_ptr in
let typ = CTypes_decl . type_ptr_to_sil_type context . CContext . tenv expr_info . Clang_ast_t . ei_type_ptr in
( match stmt_list with
( match stmt_list with
| [ s1 ; ImplicitCastExpr ( stmt , [ CompoundLiteralExpr ( cle_stmt_info , stmts , expr_info ) ] , _ , cast_expr_info ) ] ->
| [ s1 ; ImplicitCastExpr ( stmt , [ CompoundLiteralExpr ( cle_stmt_info , stmts , expr_info ) ] , _ , cast_expr_info ) ] ->
let decl_ref , line_number = get_decl_ref_info s1 parent_line_number in
let decl_ref = get_decl_ref_info s1 in
let line_number = CLocation . get_line cle_stmt_info line_number in
let trans_state' = { trans_state with parent_line_number = line_number } in
let pvar = CVar_decl . sil_var_of_decl_ref context decl_ref procname in
let pvar = CVar_decl . sil_var_of_decl_ref context decl_ref procname in
let var_res_trans = { empty_res_trans with exps = [ ( Sil . Lvar pvar , typ ) ] } in
let var_res_trans = { empty_res_trans with exps = [ ( Sil . Lvar pvar , typ ) ] } in
let res_trans_tmp = initListExpr_trans trans_state' var_res_trans stmt_info expr_info stmts in
let res_trans_tmp =
initListExpr_trans trans_state var_res_trans stmt_info expr_info stmts in
{ res_trans_tmp with leaf_nodes = [] }
{ res_trans_tmp with leaf_nodes = [] }
| [ s1 ; s2 ] -> (* Assumption: We expect precisely 2 stmt corresponding to the 2 operands *)
| [ s1 ; s2 ] -> (* Assumption: We expect precisely 2 stmt corresponding to the 2 operands *)
let rhs_owning_method = CTrans_utils . is_owning_method s2 in
let rhs_owning_method = CTrans_utils . is_owning_method s2 in
@ -580,12 +573,11 @@ struct
(* becomes the successor of the nodes that may be created when *)
(* becomes the successor of the nodes that may be created when *)
(* translating the operands. *)
(* translating the operands. *)
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let line_number = CLocation . get_line stmt_info parent_line_number in
let trans_state' = { trans_state_pri with succ_nodes = [] } in
let trans_state'' = { trans_state_pri with parent_line_number = line_number ; succ_nodes = [] } in
let res_trans_e1 = exec_with_self_exception instruction trans_state' s1 in
let res_trans_e1 = exec_with_self_exception instruction trans_state'' s1 in
let res_trans_e2 =
let res_trans_e2 =
(* translation of s2 is done taking care of block special case *)
(* translation of s2 is done taking care of block special case *)
exec_with_block_priority_exception ( exec_with_self_exception instruction ) trans_state' ' s2 stmt_info in
exec_with_block_priority_exception ( exec_with_self_exception instruction ) trans_state' s2 stmt_info in
let ( sil_e1 , sil_typ1 ) = extract_exp_from_list res_trans_e1 . exps " \n WARNING: Missing LHS operand in BinOp. Returning -1. Fix needed... \n " in
let ( sil_e1 , sil_typ1 ) = extract_exp_from_list res_trans_e1 . exps " \n WARNING: Missing LHS operand in BinOp. Returning -1. Fix needed... \n " in
let ( sil_e2 , sil_typ2 ) = extract_exp_from_list res_trans_e2 . exps " \n WARNING: Missing RHS operand in BinOp. Returning -1. Fix needed... \n " in
let ( sil_e2 , sil_typ2 ) = extract_exp_from_list res_trans_e2 . exps " \n WARNING: Missing RHS operand in BinOp. Returning -1. Fix needed... \n " in
let exp_op , instr_bin , ids_bin =
let exp_op , instr_bin , ids_bin =
@ -623,27 +615,25 @@ struct
| _ -> assert false ) (* Binary operator should have two operands *)
| _ -> assert false ) (* Binary operator should have two operands *)
and callExpr_trans trans_state si stmt_list expr_info =
and callExpr_trans trans_state si stmt_list expr_info =
let pln = trans_state . parent_line_number in
let context = trans_state . context in
let context = trans_state . context in
let function_type = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let function_type = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let sil_loc = CLocation . get_sil_location si pln context in
let sil_loc = CLocation . get_sil_location si context in
(* First stmt is the function expr and the rest are params *)
(* First stmt is the function expr and the rest are params *)
let fun_exp_stmt , params_stmt = ( match stmt_list with
let fun_exp_stmt , params_stmt = ( match stmt_list with
| fe :: params -> fe , params
| fe :: params -> fe , params
| _ -> assert false ) in
| _ -> assert false ) in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state si in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state si in
(* claim priority if no ancestors has claimed priority before *)
(* claim priority if no ancestors has claimed priority before *)
let line_number = CLocation . get_line si pln in
let context_callee = { context with CContext . is_callee_expression = true } in
let context_callee = { context with CContext . is_callee_expression = true } in
let trans_state_callee = { trans_state_pri with context = context_callee ; parent_line_number = line_number ; succ_nodes = [] } in
let trans_state_callee = { trans_state_pri with context = context_callee ; succ_nodes = [] } in
let is_call_to_block = objc_exp_of_type_block fun_exp_stmt in
let is_call_to_block = objc_exp_of_type_block fun_exp_stmt in
let res_trans_callee = instruction trans_state_callee fun_exp_stmt in
let res_trans_callee = instruction trans_state_callee fun_exp_stmt in
(* As we may have nodes coming from different parameters we need to *)
(* As we may have nodes coming from different parameters we need to *)
(* call instruction for each parameter and collect the results *)
(* call instruction for each parameter and collect the results *)
(* afterwards. The 'instructions' function does not do that *)
(* afterwards. The 'instructions' function does not do that *)
let trans_state_param =
let trans_state_param =
{ trans_state_pri with parent_line_number = line_number ; succ_nodes = [] } in
{ trans_state_pri with succ_nodes = [] } in
let ( sil_fe , typ_fe ) = extract_exp_from_list res_trans_callee . exps
let ( sil_fe , typ_fe ) = extract_exp_from_list res_trans_callee . exps
" WARNING: The translation of fun_exp did not return an expression. Returning -1. NEED TO BE FIXED " in
" WARNING: The translation of fun_exp did not return an expression. Returning -1. NEED TO BE FIXED " in
let callee_pname_opt =
let callee_pname_opt =
@ -716,11 +706,9 @@ struct
and cxx_method_construct_call_trans trans_state_pri result_trans_callee fun_stmt params_stmt
and cxx_method_construct_call_trans trans_state_pri result_trans_callee fun_stmt params_stmt
si function_type =
si function_type =
let open CContext in
let open CContext in
let pln = trans_state_pri . parent_line_number in
let line_number = CLocation . get_line si pln in
let context = trans_state_pri . context in
let context = trans_state_pri . context in
let procname = Cfg . Procdesc . get_proc_name context . procdesc in
let procname = Cfg . Procdesc . get_proc_name context . procdesc in
let sil_loc = CLocation . get_sil_location si pln context in
let sil_loc = CLocation . get_sil_location si context in
(* first for method address, second for 'this' expression *)
(* first for method address, second for 'this' expression *)
assert ( ( IList . length result_trans_callee . exps ) = 2 ) ;
assert ( ( IList . length result_trans_callee . exps ) = 2 ) ;
let ( sil_method , typ_method ) = IList . hd result_trans_callee . exps in
let ( sil_method , typ_method ) = IList . hd result_trans_callee . exps in
@ -732,7 +720,7 @@ struct
(* call instruction for each parameter and collect the results *)
(* call instruction for each parameter and collect the results *)
(* afterwards. The 'instructions' function does not do that *)
(* afterwards. The 'instructions' function does not do that *)
let trans_state_param =
let trans_state_param =
{ trans_state_pri with parent_line_number = line_number ; succ_nodes = [] } in
{ trans_state_pri with succ_nodes = [] } in
let result_trans_subexprs =
let result_trans_subexprs =
let instruction' = exec_with_self_exception ( exec_with_lvalue_as_reference instruction ) in
let instruction' = exec_with_self_exception ( exec_with_lvalue_as_reference instruction ) in
let res_trans_p = IList . map ( instruction' trans_state_param ) params_stmt in
let res_trans_p = IList . map ( instruction' trans_state_param ) params_stmt in
@ -760,7 +748,6 @@ struct
| _ -> assert false (* by construction of red_id, we cannot be in this case *)
| _ -> assert false (* by construction of red_id, we cannot be in this case *)
and cxxMemberCallExpr_trans trans_state si stmt_list expr_info =
and cxxMemberCallExpr_trans trans_state si stmt_list expr_info =
let pln = trans_state . parent_line_number in
let context = trans_state . context in
let context = trans_state . context in
(* Structure is the following: *)
(* Structure is the following: *)
(* CXXMemberCallExpr: first stmt is method+this expr and the rest are normal params *)
(* CXXMemberCallExpr: first stmt is method+this expr and the rest are normal params *)
@ -771,10 +758,7 @@ struct
| _ -> assert false ) in
| _ -> assert false ) in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state si in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state si in
(* claim priority if no ancestors has claimed priority before *)
(* claim priority if no ancestors has claimed priority before *)
let line_number = CLocation . get_line si pln in
let trans_state_callee = { trans_state_pri with succ_nodes = [] } in
let trans_state_callee = { trans_state_pri with
parent_line_number = line_number ;
succ_nodes = [] } in
let result_trans_callee = instruction trans_state_callee fun_exp_stmt in
let result_trans_callee = instruction trans_state_callee fun_exp_stmt in
let function_type = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let function_type = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
cxx_method_construct_call_trans trans_state_pri result_trans_callee fun_exp_stmt params_stmt
cxx_method_construct_call_trans trans_state_pri result_trans_callee fun_exp_stmt params_stmt
@ -841,13 +825,10 @@ struct
Printing . log_out " priority node free = '%s' \n @. "
Printing . log_out " priority node free = '%s' \n @. "
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
let context = trans_state . context in
let context = trans_state . context in
let parent_line_number = trans_state . parent_line_number in
let sil_loc = CLocation . get_sil_location si context in
let line_number = CLocation . get_line si parent_line_number in
let sil_loc = CLocation . get_sil_location si parent_line_number context in
let method_type = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let method_type = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state si in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state si in
let trans_state_param =
let trans_state_param = { trans_state_pri with succ_nodes = [] } in
{ trans_state_pri with parent_line_number = line_number ; succ_nodes = [] } in
let obj_c_message_expr_info , res_trans_subexpr_list =
let obj_c_message_expr_info , res_trans_subexpr_list =
objCMessageExpr_deal_with_static_self trans_state_param stmt_list obj_c_message_expr_info in
objCMessageExpr_deal_with_static_self trans_state_param stmt_list obj_c_message_expr_info in
let subexpr_exprs = collect_exprs res_trans_subexpr_list in
let subexpr_exprs = collect_exprs res_trans_subexpr_list in
@ -910,31 +891,25 @@ struct
let pvar = Sil . mk_pvar ( Mangled . from_string v ) procname in
let pvar = Sil . mk_pvar ( Mangled . from_string v ) procname in
let typ = CTypes_decl . type_ptr_to_sil_type trans_state . context . CContext . tenv tp in
let typ = CTypes_decl . type_ptr_to_sil_type trans_state . context . CContext . tenv tp in
( pvar , typ ) ) vars_to_register in
( pvar , typ ) ) vars_to_register in
let loc = CLocation . get_sil_location stmt_info trans_state . parent_line_number trans_state . context in
let loc = CLocation . get_sil_location stmt_info trans_state . context in
let res_state = instruction trans_state transformed_stmt in
let res_state = instruction trans_state transformed_stmt in
let preds = IList . flatten ( IList . map ( fun n -> Cfg . Node . get_preds n ) trans_state . succ_nodes ) in
let preds = IList . flatten ( IList . map ( fun n -> Cfg . Node . get_preds n ) trans_state . succ_nodes ) in
IList . iter ( declare_nullify_vars loc res_state res_state . root_nodes preds ) pvars_types ;
IList . iter ( declare_nullify_vars loc res_state res_state . root_nodes preds ) pvars_types ;
res_state
res_state
and compoundStmt_trans trans_state stmt_info stmt_list =
and compoundStmt_trans trans_state stmt_info stmt_list =
let line_number = CLocation . get_line stmt_info trans_state . parent_line_number in
instructions trans_state ( IList . rev stmt_list )
let trans_state' = { trans_state with parent_line_number = line_number } in
instructions trans_state' ( IList . rev stmt_list )
and conditionalOperator_trans trans_state stmt_info stmt_list expr_info =
and conditionalOperator_trans trans_state stmt_info stmt_list expr_info =
let context = trans_state . context in
let context = trans_state . context in
let parent_line_number = trans_state . parent_line_number in
let succ_nodes = trans_state . succ_nodes in
let succ_nodes = trans_state . succ_nodes in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let mk_temp_var id =
let mk_temp_var id =
Sil . mk_pvar ( Mangled . from_string ( " SIL_temp_conditional___ " ^ ( string_of_int id ) ) ) procname in
Sil . mk_pvar ( Mangled . from_string ( " SIL_temp_conditional___ " ^ ( string_of_int id ) ) ) procname in
let sil_loc = CLocation . get_sil_location stmt_info parent_line_number context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let line_number = CLocation . get_line stmt_info parent_line_number in
let do_branch branch stmt var_typ prune_nodes join_node pvar =
let do_branch branch stmt var_typ prune_nodes join_node pvar =
let trans_state_pri = PriorityNode . force_claim_priority_node trans_state stmt_info in
let trans_state_pri = PriorityNode . force_claim_priority_node trans_state stmt_info in
let trans_state' = { trans_state_pri with
let trans_state' = { trans_state_pri with succ_nodes = [] } in
succ_nodes = [] ;
parent_line_number = line_number } in
let res_trans_b = instruction trans_state' stmt in
let res_trans_b = instruction trans_state' stmt in
let ( e' , e'_typ ) = extract_exp_from_list res_trans_b . exps
let ( e' , e'_typ ) = extract_exp_from_list res_trans_b . exps
" \n WARNING: Missing branch expression for Conditional operator. Need to be fixed \n " in
" \n WARNING: Missing branch expression for Conditional operator. Need to be fixed \n " in
@ -959,7 +934,7 @@ struct
Cfg . Node . set_succs_exn join_node succ_nodes [] ;
Cfg . Node . set_succs_exn join_node succ_nodes [] ;
let pvar = mk_temp_var ( Cfg . Node . get_id join_node ) in
let pvar = mk_temp_var ( Cfg . Node . get_id join_node ) in
let continuation' = mk_cond_continuation trans_state . continuation in
let continuation' = mk_cond_continuation trans_state . continuation in
let trans_state' = { trans_state with continuation = continuation' ; parent_line_number = line_number ; succ_nodes = [] } in
let trans_state' = { trans_state with continuation = continuation' ; succ_nodes = [] } in
let res_trans_cond = exec_with_priority_exception trans_state' cond cond_trans in
let res_trans_cond = exec_with_priority_exception trans_state' cond cond_trans in
(* Note: by contruction prune nodes are leafs_nodes_cond *)
(* Note: by contruction prune nodes are leafs_nodes_cond *)
do_branch true exp1 var_typ res_trans_cond . leaf_nodes join_node pvar ;
do_branch true exp1 var_typ res_trans_cond . leaf_nodes join_node pvar ;
@ -982,9 +957,8 @@ struct
(* the prune nodes. Moreover these are always the leaf nodes of the translation. *)
(* the prune nodes. Moreover these are always the leaf nodes of the translation. *)
and cond_trans trans_state cond =
and cond_trans trans_state cond =
let context = trans_state . context in
let context = trans_state . context in
let parent_line_number = trans_state . parent_line_number in
let si , _ = Clang_ast_proj . get_stmt_tuple cond in
let si , _ = Clang_ast_proj . get_stmt_tuple cond in
let sil_loc = CLocation . get_sil_location si parent_line_number context in
let sil_loc = CLocation . get_sil_location si context in
let mk_prune_node b e ids ins =
let mk_prune_node b e ids ins =
create_prune_node b e ids ins sil_loc ( Sil . Ik_if ) context in
create_prune_node b e ids ins sil_loc ( Sil . Ik_if ) context in
let extract_exp el =
let extract_exp el =
@ -1062,13 +1036,11 @@ struct
and ifStmt_trans trans_state stmt_info stmt_list =
and ifStmt_trans trans_state stmt_info stmt_list =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let succ_nodes = trans_state . succ_nodes in
let succ_nodes = trans_state . succ_nodes in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let line_number = CLocation . get_line stmt_info pln in
let join_node = create_node ( Cfg . Node . Join_node ) [] [] sil_loc context in
let join_node = create_node ( Cfg . Node . Join_node ) [] [] sil_loc context in
Cfg . Node . set_succs_exn join_node succ_nodes [] ;
Cfg . Node . set_succs_exn join_node succ_nodes [] ;
let trans_state' = { trans_state with parent_line_number = line_number ; succ_nodes = [ join_node ] } in
let trans_state' = { trans_state with succ_nodes = [ join_node ] } in
let do_branch branch stmt_branch prune_nodes =
let do_branch branch stmt_branch prune_nodes =
(* leaf nodes are ignored here as they will be already attached to join_node *)
(* leaf nodes are ignored here as they will be already attached to join_node *)
let res_trans_b = instruction trans_state' stmt_branch in
let res_trans_b = instruction trans_state' stmt_branch in
@ -1085,8 +1057,7 @@ struct
let continuation' = mk_cond_continuation trans_state . continuation in
let continuation' = mk_cond_continuation trans_state . continuation in
let trans_state'' = { trans_state with
let trans_state'' = { trans_state with
continuation = continuation' ;
continuation = continuation' ;
succ_nodes = [] ;
succ_nodes = []
parent_line_number = line_number
} in
} in
let res_trans_cond = cond_trans trans_state'' cond in
let res_trans_cond = cond_trans trans_state'' cond in
let res_trans_decl = declStmt_in_condition_trans trans_state decl_stmt res_trans_cond in
let res_trans_decl = declStmt_in_condition_trans trans_state decl_stmt res_trans_cond in
@ -1105,10 +1076,9 @@ struct
(* Assumption: the CompoundStmt can be made of different stmts, not just CaseStmts *)
(* Assumption: the CompoundStmt can be made of different stmts, not just CaseStmts *)
and switchStmt_trans trans_state stmt_info switch_stmt_list =
and switchStmt_trans trans_state stmt_info switch_stmt_list =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let succ_nodes = trans_state . succ_nodes in
let succ_nodes = trans_state . succ_nodes in
let continuation = trans_state . continuation in
let continuation = trans_state . continuation in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let open Clang_ast_t in
let open Clang_ast_t in
match switch_stmt_list with
match switch_stmt_list with
| [ decl_stmt ; cond ; CompoundStmt ( stmt_info , stmt_list ) ] ->
| [ decl_stmt ; cond ; CompoundStmt ( stmt_info , stmt_list ) ] ->
@ -1190,7 +1160,7 @@ struct
| [ ( head , typ ) ] -> head
| [ ( head , typ ) ] -> head
| _ -> assert false in
| _ -> assert false in
let sil_eq_cond = Sil . BinOp ( Sil . Eq , switch_e_cond' , e_const' ) in
let sil_eq_cond = Sil . BinOp ( Sil . Eq , switch_e_cond' , e_const' ) in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let true _ prune_node =
let true _ prune_node =
create_prune_node true [ ( sil_eq_cond , switch_e_cond'_typ ) ]
create_prune_node true [ ( sil_eq_cond , switch_e_cond'_typ ) ]
res_trans_case_const . ids res_trans_case_const . instrs
res_trans_case_const . ids res_trans_case_const . instrs
@ -1212,7 +1182,7 @@ struct
Cfg . Node . set_succs_exn prune_node_f last_prune_nodes [] ;
Cfg . Node . set_succs_exn prune_node_f last_prune_nodes [] ;
case_entry_point , [ prune_node_t ; prune_node_f ]
case_entry_point , [ prune_node_t ; prune_node_f ]
| DefaultStmt ( stmt_info , default_content ) :: rest ->
| DefaultStmt ( stmt_info , default_content ) :: rest ->
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let placeholder_entry_point =
let placeholder_entry_point =
create_node ( Cfg . Node . Stmt_node " DefaultStmt_placeholder " ) [] [] sil_loc context in
create_node ( Cfg . Node . Stmt_node " DefaultStmt_placeholder " ) [] [] sil_loc context in
let last_nodes , last_prune_nodes = translate_and_connect_cases rest next_nodes [ placeholder_entry_point ] in
let last_nodes , last_prune_nodes = translate_and_connect_cases rest next_nodes [ placeholder_entry_point ] in
@ -1240,7 +1210,7 @@ struct
(* takes the value of the last subexpression. *)
(* takes the value of the last subexpression. *)
(* Exp returned by StmtExpr is always a RValue. So we need to assign to a temp and return the temp. *)
(* Exp returned by StmtExpr is always a RValue. So we need to assign to a temp and return the temp. *)
let id = Ident . create_fresh Ident . knormal in
let id = Ident . create_fresh Ident . knormal in
let loc = CLocation . get_sil_location stmt_info trans_state. parent_line_number context in
let loc = CLocation . get_sil_location stmt_info context in
let instr' = Sil . Letderef ( id , last , typ , loc ) in
let instr' = Sil . Letderef ( id , last , typ , loc ) in
{ root_nodes = res_trans_stmt . root_nodes ;
{ root_nodes = res_trans_stmt . root_nodes ;
leaf_nodes = res_trans_stmt . leaf_nodes ;
leaf_nodes = res_trans_stmt . leaf_nodes ;
@ -1252,10 +1222,8 @@ struct
and loop_instruction trans_state loop_kind stmt_info =
and loop_instruction trans_state loop_kind stmt_info =
let outer_continuation = trans_state . continuation in
let outer_continuation = trans_state . continuation in
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let succ_nodes = trans_state . succ_nodes in
let succ_nodes = trans_state . succ_nodes in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let line_number = CLocation . get_line stmt_info pln in
let join_node = create_node Cfg . Node . Join_node [] [] sil_loc context in
let join_node = create_node Cfg . Node . Join_node [] [] sil_loc context in
let continuation = Some { break = succ_nodes ; continue = [ join_node ] ; return_temp = false } in
let continuation = Some { break = succ_nodes ; continue = [ join_node ] ; return_temp = false } in
(* set the flat to inform that we are translating a condition of a if *)
(* set the flat to inform that we are translating a condition of a if *)
@ -1267,18 +1235,15 @@ struct
trans_state with
trans_state with
succ_nodes = [ join_node ] ;
succ_nodes = [ join_node ] ;
continuation = continuation ;
continuation = continuation ;
parent_line_number = line_number ;
} in
} in
let res_trans_init = instruction trans_state' init in
let res_trans_init = instruction trans_state' init in
let res_trans_incr = instruction trans_state' incr in
let res_trans_incr = instruction trans_state' incr in
Some ( res_trans_init . root_nodes , res_trans_incr . root_nodes )
Some ( res_trans_init . root_nodes , res_trans_incr . root_nodes )
| _ -> None in
| _ -> None in
let cond_stmt = Loops . get_cond loop_kind in
let cond_stmt = Loops . get_cond loop_kind in
let cond_line_number = CLocation . get_line ( fst ( Clang_ast_proj . get_stmt_tuple cond_stmt ) ) line_number in
let trans_state_cond = {
let trans_state_cond = {
trans_state with
trans_state with
continuation = continuation_cond ;
continuation = continuation_cond ;
parent_line_number = cond_line_number ;
succ_nodes = [] ;
succ_nodes = [] ;
} in
} in
let res_trans_cond = cond_trans trans_state_cond cond_stmt in
let res_trans_cond = cond_trans trans_state_cond cond_stmt in
@ -1304,8 +1269,7 @@ struct
let trans_state_body =
let trans_state_body =
{ trans_state with
{ trans_state with
succ_nodes = body_succ_nodes ;
succ_nodes = body_succ_nodes ;
continuation = body_continuation ;
continuation = body_continuation } in
parent_line_number = line_number } in
instruction trans_state_body ( Loops . get_body loop_kind ) in
instruction trans_state_body ( Loops . get_body loop_kind ) in
let join_succ_nodes =
let join_succ_nodes =
match loop_kind with
match loop_kind with
@ -1411,7 +1375,7 @@ struct
{ empty_res_trans with root_nodes = succ_nodes }
{ empty_res_trans with root_nodes = succ_nodes }
) else (
) else (
(* Creating new instructions by assigning right hand side to left hand side expressions *)
(* Creating new instructions by assigning right hand side to left hand side expressions *)
let sil_loc = CLocation . get_sil_location stmt_info trans_state_pri. parent_line_number context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let big_zip = IList . map
let big_zip = IList . map
( fun ( ( lh_exp , lh_t ) , ( _ , _ , rh_exp , is_method_call , rhs_owning_method , rh_t ) ) ->
( fun ( ( lh_exp , lh_t ) , ( _ , _ , rh_exp , is_method_call , rhs_owning_method , rh_t ) ) ->
let is_pointer_object = ObjcInterface_decl . is_pointer_to_objc_class context . CContext . tenv rh_t in
let is_pointer_object = ObjcInterface_decl . is_pointer_to_objc_class context . CContext . tenv rh_t in
@ -1469,17 +1433,13 @@ struct
| Some ie -> (* For init expr, translate how to compute it and assign to the var *)
| Some ie -> (* For init expr, translate how to compute it and assign to the var *)
let stmt_info , _ = Clang_ast_proj . get_stmt_tuple ie in
let stmt_info , _ = Clang_ast_proj . get_stmt_tuple ie in
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let sil_loc = CLocation . get_sil_location stmt_info context in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let var_exp , var_typ = extract_exp_from_list var_res_trans . exps
let var_exp , var_typ = extract_exp_from_list var_res_trans . exps
" WARNING: init_expr_trans expects one variable expression " in
" WARNING: init_expr_trans expects one variable expression " in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state var_stmt_info in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state var_stmt_info in
let line_number = CLocation . get_line stmt_info pln in
(* if ie is a block the translation need to be done with the block special cases by exec_with_block_priority *)
(* if ie is a block the translation need to be done with the block special cases by exec_with_block_priority *)
let res_trans_ie =
let res_trans_ie =
let trans_state' = { trans_state_pri with
let trans_state' = { trans_state_pri with succ_nodes = [] } in
succ_nodes = [] ;
parent_line_number = line_number } in
let instruction' =
let instruction' =
exec_with_self_exception ( exec_with_lvalue_as_reference instruction ) in
exec_with_self_exception ( exec_with_lvalue_as_reference instruction ) in
exec_with_block_priority_exception instruction' trans_state' ie var_stmt_info in
exec_with_block_priority_exception instruction' trans_state' ie var_stmt_info in
@ -1538,16 +1498,14 @@ struct
(* the init expression. We use the latter info. *)
(* the init expression. We use the latter info. *)
and declStmt_trans trans_state decl_list stmt_info =
and declStmt_trans trans_state decl_list stmt_info =
let succ_nodes = trans_state . succ_nodes in
let succ_nodes = trans_state . succ_nodes in
let line_number = CLocation . get_line stmt_info trans_state . parent_line_number in
let trans_state' = { trans_state with parent_line_number = line_number } in
let res_trans =
let res_trans =
let open Clang_ast_t in
let open Clang_ast_t in
match decl_list with
match decl_list with
| VarDecl _ :: _ -> (* Case for simple variable declarations *)
| VarDecl _ :: _ -> (* Case for simple variable declarations *)
collect_all_decl trans_state ' decl_list succ_nodes stmt_info
collect_all_decl trans_state decl_list succ_nodes stmt_info
| CXXRecordDecl _ :: _ (* C++/C record decl treated in the same way *)
| CXXRecordDecl _ :: _ (* C++/C record decl treated in the same way *)
| RecordDecl _ :: _ -> (* Case for struct *)
| RecordDecl _ :: _ -> (* Case for struct *)
collect_all_decl trans_state ' decl_list succ_nodes stmt_info
collect_all_decl trans_state decl_list succ_nodes stmt_info
| _ ->
| _ ->
Printing . log_stats
Printing . log_stats
" WARNING: In DeclStmt found an unknown declaration type. RETURNING empty list of declaration. NEED TO BE FIXED " ;
" WARNING: In DeclStmt found an unknown declaration type. RETURNING empty list of declaration. NEED TO BE FIXED " ;
@ -1583,15 +1541,13 @@ struct
(* to translate the CallToSetter which is how x.f = a is actually implemented by the runtime. *)
(* to translate the CallToSetter which is how x.f = a is actually implemented by the runtime. *)
and pseudoObjectExpr_trans trans_state stmt_info stmt_list =
and pseudoObjectExpr_trans trans_state stmt_info stmt_list =
let open Clang_ast_t in
let open Clang_ast_t in
let line_number = CLocation . get_line stmt_info trans_state . parent_line_number in
let trans_state' = { trans_state with parent_line_number = line_number } in
Printing . log_out " priority node free = '%s' \n @. "
Printing . log_out " priority node free = '%s' \n @. "
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
let rec do_semantic_elements el =
let rec do_semantic_elements el =
let open Clang_ast_t in
let open Clang_ast_t in
match el with
match el with
| OpaqueValueExpr _ :: el' -> do_semantic_elements el'
| OpaqueValueExpr _ :: el' -> do_semantic_elements el'
| stmt :: _ -> instruction trans_state ' stmt
| stmt :: _ -> instruction trans_state stmt
| _ -> assert false in
| _ -> assert false in
match stmt_list with
match stmt_list with
| syntactic_form :: semantic_form ->
| syntactic_form :: semantic_form ->
@ -1601,15 +1557,12 @@ struct
(* Cast expression are treated the same apart from the cast operation kind *)
(* Cast expression are treated the same apart from the cast operation kind *)
and cast_exprs_trans trans_state stmt_info stmt_list expr_info cast_expr_info is_objc_bridged =
and cast_exprs_trans trans_state stmt_info stmt_list expr_info cast_expr_info is_objc_bridged =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
Printing . log_out " priority node free = '%s' \n @. "
Printing . log_out " priority node free = '%s' \n @. "
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
( string_of_bool ( PriorityNode . is_priority_free trans_state ) ) ;
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let stmt = extract_stmt_from_singleton stmt_list
let stmt = extract_stmt_from_singleton stmt_list
" WARNING: In CastExpr There must be only one stmt defining the expression to be cast. \n " in
" WARNING: In CastExpr There must be only one stmt defining the expression to be cast. \n " in
let line_number = CLocation . get_line stmt_info pln in
let res_trans_stmt = instruction trans_state stmt in
let trans_state' = { trans_state with parent_line_number = line_number } in
let res_trans_stmt = instruction trans_state' stmt in
let typ = CTypes_decl . type_ptr_to_sil_type context . CContext . tenv expr_info . Clang_ast_t . ei_type_ptr in
let typ = CTypes_decl . type_ptr_to_sil_type context . CContext . tenv expr_info . Clang_ast_t . ei_type_ptr in
let cast_kind = cast_expr_info . Clang_ast_t . cei_cast_kind in
let cast_kind = cast_expr_info . Clang_ast_t . cei_cast_kind in
(* This gives the differnece among cast operations kind *)
(* This gives the differnece among cast operations kind *)
@ -1638,13 +1591,11 @@ struct
and unaryOperator_trans trans_state stmt_info expr_info stmt_list unary_operator_info =
and unaryOperator_trans trans_state stmt_info expr_info stmt_list unary_operator_info =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let sil_loc = CLocation . get_sil_location stmt_info context in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let line_number = CLocation . get_line stmt_info pln in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let stmt = extract_stmt_from_singleton stmt_list
let stmt = extract_stmt_from_singleton stmt_list
" WARNING: We expect only one element in stmt list defining the operand in UnaryOperator. NEED FIXING \n " in
" WARNING: We expect only one element in stmt list defining the operand in UnaryOperator. NEED FIXING \n " in
let trans_state' = { trans_state_pri with succ_nodes = [] ; parent_line_number = line_number } in
let trans_state' = { trans_state_pri with succ_nodes = [] } in
let res_trans_stmt = instruction trans_state' stmt in
let res_trans_stmt = instruction trans_state' stmt in
(* Assumption: the operand does not create a cfg node *)
(* Assumption: the operand does not create a cfg node *)
let ( sil_e' , _ ) = extract_exp_from_list res_trans_stmt . exps " \n WARNING: Missing operand in unary operator. NEED FIXING. \n " in
let ( sil_e' , _ ) = extract_exp_from_list res_trans_stmt . exps " \n WARNING: Missing operand in unary operator. NEED FIXING. \n " in
@ -1660,10 +1611,8 @@ struct
and returnStmt_trans trans_state stmt_info stmt_list =
and returnStmt_trans trans_state stmt_info stmt_list =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let succ_nodes = trans_state . succ_nodes in
let succ_nodes = trans_state . succ_nodes in
let sil_loc = CLocation . get_sil_location stmt_info pln context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let line_number = CLocation . get_line stmt_info pln in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let mk_ret_node ids instrs =
let mk_ret_node ids instrs =
let ret_node = create_node ( Cfg . Node . Stmt_node " Return Stmt " ) ids instrs sil_loc context in
let ret_node = create_node ( Cfg . Node . Stmt_node " Return Stmt " ) ids instrs sil_loc context in
@ -1671,9 +1620,7 @@ struct
ret_node in
ret_node in
let trans_result = ( match stmt_list with
let trans_result = ( match stmt_list with
| [ stmt ] -> (* return exp; *)
| [ stmt ] -> (* return exp; *)
let trans_state' = { trans_state_pri with
let trans_state' = { trans_state_pri with succ_nodes = [] } in
succ_nodes = [] ;
parent_line_number = line_number } in
let res_trans_stmt = exec_with_self_exception instruction trans_state' stmt in
let res_trans_stmt = exec_with_self_exception instruction trans_state' stmt in
let ( sil_expr , sil_typ ) = extract_exp_from_list res_trans_stmt . exps
let ( sil_expr , sil_typ ) = extract_exp_from_list res_trans_stmt . exps
" WARNING: There should be only one return expression. \n " in
" WARNING: There should be only one return expression. \n " in
@ -1701,11 +1648,9 @@ struct
(* For ParenExpression we translate its body composed by the stmt_list. *)
(* For ParenExpression we translate its body composed by the stmt_list. *)
(* In paren expression there should be only one stmt that defines the expression *)
(* In paren expression there should be only one stmt that defines the expression *)
and parenExpr_trans trans_state stmt_info stmt_list =
and parenExpr_trans trans_state stmt_info stmt_list =
let line_number = CLocation . get_line stmt_info trans_state . parent_line_number in
let trans_state' = { trans_state with parent_line_number = line_number } in
let stmt = extract_stmt_from_singleton stmt_list
let stmt = extract_stmt_from_singleton stmt_list
" WARNING: In ParenExpression there should be only one stmt. \n " in
" WARNING: In ParenExpression there should be only one stmt. \n " in
instruction trans_state ' stmt
instruction trans_state stmt
and objCBoxedExpr_trans trans_state info sel stmt_info stmts =
and objCBoxedExpr_trans trans_state info sel stmt_info stmts =
let typ = CTypes_decl . class_from_pointer_type trans_state . context . CContext . tenv info . Clang_ast_t . ei_type_ptr in
let typ = CTypes_decl . class_from_pointer_type trans_state . context . CContext . tenv info . Clang_ast_t . ei_type_ptr in
@ -1745,7 +1690,7 @@ struct
ignored when checking for memory leaks . When the end of the block autoreleasepool is reached ,
ignored when checking for memory leaks . When the end of the block autoreleasepool is reached ,
then those objects are released and the autorelease flag is removed . * )
then those objects are released and the autorelease flag is removed . * )
and objcAutoreleasePool_trans trans_state stmt_info stmts =
and objcAutoreleasePool_trans trans_state stmt_info stmts =
let sil_loc = CLocation . get_sil_location stmt_info trans_state . parent_line_number trans_state . context in
let sil_loc = CLocation . get_sil_location stmt_info trans_state . context in
let fname = SymExec . ModelBuiltins . __objc_release_autorelease_pool in
let fname = SymExec . ModelBuiltins . __objc_release_autorelease_pool in
let ret_id = Ident . create_fresh Ident . knormal in
let ret_id = Ident . create_fresh Ident . knormal in
let autorelease_pool_vars = CVar_decl . compute_autorelease_pool_vars trans_state . context stmts in
let autorelease_pool_vars = CVar_decl . compute_autorelease_pool_vars trans_state . context stmts in
@ -1767,11 +1712,10 @@ struct
and blockExpr_trans trans_state stmt_info expr_info decl =
and blockExpr_trans trans_state stmt_info expr_info decl =
let context = trans_state . context in
let context = trans_state . context in
let pln = trans_state . parent_line_number in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let procname = Cfg . Procdesc . get_proc_name context . CContext . procdesc in
let loc =
let loc =
( match stmt_info . Clang_ast_t . si_source_range with ( l1 , l2 ) ->
( match stmt_info . Clang_ast_t . si_source_range with ( l1 , l2 ) ->
CLocation . clang_to_sil_location l1 pln ( Some context . CContext . procdesc ) ) in
CLocation . clang_to_sil_location l1 ( Some context . CContext . procdesc ) ) in
(* Given a captured var, return the instruction to assign it to a temp *)
(* Given a captured var, return the instruction to assign it to a temp *)
let assign_captured_var ( cvar , typ ) =
let assign_captured_var ( cvar , typ ) =
let id = Ident . create_fresh Ident . knormal in
let id = Ident . create_fresh Ident . knormal in
@ -1806,7 +1750,7 @@ struct
and cxxNewExpr_trans trans_state stmt_info expr_info =
and cxxNewExpr_trans trans_state stmt_info expr_info =
let context = trans_state . context in
let context = trans_state . context in
let typ = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let typ = CTypes_decl . get_type_from_expr_info expr_info context . CContext . tenv in
let sil_loc = CLocation . get_sil_location stmt_info trans_state. parent_line_number context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
cpp_new_trans trans_state_pri sil_loc stmt_info typ
cpp_new_trans trans_state_pri sil_loc stmt_info typ
(* TODOs 7912220 - no usable information in json as of right now *)
(* TODOs 7912220 - no usable information in json as of right now *)
@ -1815,7 +1759,7 @@ struct
and cxxDeleteExpr_trans trans_state stmt_info stmt_list expr_info =
and cxxDeleteExpr_trans trans_state stmt_info stmt_list expr_info =
let context = trans_state . context in
let context = trans_state . context in
let sil_loc = CLocation . get_sil_location stmt_info trans_state. parent_line_number context in
let sil_loc = CLocation . get_sil_location stmt_info context in
let fname = SymExec . ModelBuiltins . __delete in
let fname = SymExec . ModelBuiltins . __delete in
let param = match stmt_list with [ p ] -> p | _ -> assert false in
let param = match stmt_list with [ p ] -> p | _ -> assert false in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
let trans_state_pri = PriorityNode . try_claim_priority_node trans_state stmt_info in
@ -2105,7 +2049,6 @@ struct
context = context ;
context = context ;
succ_nodes = [] ;
succ_nodes = [] ;
continuation = None ;
continuation = None ;
parent_line_number = - 1 ;
priority = Free ;
priority = Free ;
} in
} in
let res_trans_stmt = instruction trans_state stmt in
let res_trans_stmt = instruction trans_state stmt in
@ -2116,7 +2059,6 @@ struct
context = context ;
context = context ;
succ_nodes = [ exit_node ] ;
succ_nodes = [ exit_node ] ;
continuation = None ;
continuation = None ;
parent_line_number = - 1 ;
priority = Free ;
priority = Free ;
} in
} in
let clang_ast_trans = get_clang_stmt_trans clang_stmt_list in
let clang_ast_trans = get_clang_stmt_trans clang_stmt_list in