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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Mon, 25 May 2020 18:13:55 +0900 |
| parents | 1830386684a0 |
| children |
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------------------------------------------------------------------------------ -- -- -- GNAT COMPILER COMPONENTS -- -- -- -- I N L I N E -- -- -- -- S p e c -- -- -- -- Copyright (C) 1992-2019, Free Software Foundation, Inc. -- -- -- -- GNAT is free software; you can redistribute it and/or modify it under -- -- terms of the GNU General Public License as published by the Free Soft- -- -- ware Foundation; either version 3, or (at your option) any later ver- -- -- sion. GNAT is distributed in the hope that it will be useful, but WITH- -- -- OUT 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 distributed with GNAT; see file COPYING3. If not, go to -- -- http://www.gnu.org/licenses for a complete copy of the license. -- -- -- -- GNAT was originally developed by the GNAT team at New York University. -- -- Extensive contributions were provided by Ada Core Technologies Inc. -- -- -- ------------------------------------------------------------------------------ -- This module handles four kinds of inlining activity: -- a) Instantiation of generic bodies. This is done unconditionally, after -- analysis and expansion of the main unit. -- b) Compilation of unit bodies that contain the bodies of inlined sub- -- programs. This is done only if inlining is enabled (-gnatn). Full inlining -- requires that a) and b) be mutually recursive, because each step may -- generate another generic expansion and further inlined calls. -- c) Front-end inlining for Inline_Always subprograms. This is primarily an -- expansion activity that is performed for performance reasons, and when the -- target does not use the GCC back end. -- d) Front-end inlining for GNATprove, to perform source transformations -- to simplify formal verification. The machinery used is the same as for -- Inline_Always subprograms, but there are fewer restrictions on the source -- of subprograms. with Opt; use Opt; with Sem; use Sem; with Types; use Types; with Warnsw; use Warnsw; package Inline is -------------------------------- -- Generic Body Instantiation -- -------------------------------- -- The bodies of generic instantiations are built after semantic analysis -- of the main unit is complete. Generic instantiations are saved in a -- global data structure, and the bodies constructed by means of a separate -- analysis and expansion step. -- See full description in body of Sem_Ch12 for more details type Pending_Body_Info is record Act_Decl : Node_Id; -- Declaration for package or subprogram spec for instantiation Config_Switches : Config_Switches_Type; -- Capture the values of configuration switches Current_Sem_Unit : Unit_Number_Type; -- The semantic unit within which the instantiation is found. Must be -- restored when compiling the body, to insure that internal entities -- use the same counter and are unique over spec and body. Expander_Status : Boolean; -- If the body is instantiated only for semantic checking, expansion -- must be inhibited. Inst_Node : Node_Id; -- Node for instantiation that requires the body Scope_Suppress : Suppress_Record; Local_Suppress_Stack_Top : Suppress_Stack_Entry_Ptr; -- Save suppress information at the point of instantiation. Used to -- properly inherit check status active at this point (see RM 11.5 -- (7.2/2), AI95-00224-01): -- -- "If a checking pragma applies to a generic instantiation, then the -- checking pragma also applies to the instance. If a checking pragma -- applies to a call to a subprogram that has a pragma Inline applied -- to it, then the checking pragma also applies to the inlined -- subprogram body". -- -- This means we have to capture this information from the current scope -- at the point of instantiation. Warnings : Warning_Record; -- Capture values of warning flags end record; ----------------- -- Subprograms -- ----------------- procedure Initialize; -- Initialize internal tables procedure Lock; -- Lock internal tables before calling backend procedure Instantiate_Bodies; -- This procedure is called after semantic analysis is complete, to -- instantiate the bodies of generic instantiations that appear in the -- compilation unit. procedure Add_Inlined_Body (E : Entity_Id; N : Node_Id); -- E is an inlined subprogram appearing in a call, either explicitly or in -- a discriminant check for which gigi builds a call or an at-end handler. -- Add E's enclosing unit to Inlined_Bodies so that E can be subsequently -- retrieved and analyzed. N is the node giving rise to the call to E. procedure Add_Pending_Instantiation (Inst : Node_Id; Act_Decl : Node_Id); -- Add an entry in the table of generic bodies to be instantiated. procedure Analyze_Inlined_Bodies; -- At end of compilation, analyze the bodies of all units that contain -- inlined subprograms that are actually called. procedure Build_Body_To_Inline (N : Node_Id; Spec_Id : Entity_Id); -- If a subprogram has pragma Inline and inlining is active, use generic -- machinery to build an unexpanded body for the subprogram. This body is -- subsequently used for inline expansions at call sites. If subprogram can -- be inlined (depending on size and nature of local declarations) the -- template body is created. Otherwise subprogram body is treated normally -- and calls are not inlined in the frontend. If proper warnings are -- enabled and the subprogram contains a construct that cannot be inlined, -- the problematic construct is flagged accordingly. function Call_Can_Be_Inlined_In_GNATprove_Mode (N : Node_Id; Subp : Entity_Id) return Boolean; -- Returns False if the call in node N to subprogram Subp cannot be inlined -- in GNATprove mode, because it may lead to missing a check on type -- conversion of input parameters otherwise. Returns True otherwise. function Can_Be_Inlined_In_GNATprove_Mode (Spec_Id : Entity_Id; Body_Id : Entity_Id) return Boolean; -- Returns True if the subprogram identified by Spec_Id and Body_Id can -- be inlined in GNATprove mode. One but not both of Spec_Id and Body_Id -- can be Empty. Body_Id is Empty when doing a partial check on a call -- to a subprogram whose body has not been seen yet, to know whether this -- subprogram could possibly be inlined. GNATprove relies on this to adapt -- its treatment of the subprogram. procedure Cannot_Inline (Msg : String; N : Node_Id; Subp : Entity_Id; Is_Serious : Boolean := False); -- This procedure is called if the node N, an instance of a call to -- subprogram Subp, cannot be inlined. Msg is the message to be issued, -- which ends with ? (it does not end with ?p?, this routine takes care of -- the need to change ? to ?p?). The behavior of this routine depends on -- the value of Back_End_Inlining: -- -- * If Back_End_Inlining is not set (ie. legacy frontend inlining model) -- then if Subp has a pragma Always_Inlined, then an error message is -- issued (by removing the last character of Msg). If Subp is not -- Always_Inlined, then a warning is issued if the flag Ineffective_ -- Inline_Warnings is set, adding ?p to the msg, and if not, the call -- has no effect. -- -- * If Back_End_Inlining is set then: -- - If Is_Serious is true, then an error is reported (by removing the -- last character of Msg); -- -- - otherwise: -- -- * Compiling without optimizations if Subp has a pragma -- Always_Inlined, then an error message is issued; if Subp is -- not Always_Inlined, then a warning is issued if the flag -- Ineffective_Inline_Warnings is set (adding p?), and if not, -- the call has no effect. -- -- * Compiling with optimizations then a warning is issued if the -- flag Ineffective_Inline_Warnings is set (adding p?); otherwise -- no effect since inlining may be performed by the backend. procedure Check_And_Split_Unconstrained_Function (N : Node_Id; Spec_Id : Entity_Id; Body_Id : Entity_Id); -- Spec_Id and Body_Id are the entities of the specification and body of -- the subprogram body N. If N can be inlined by the frontend (supported -- cases documented in Check_Body_To_Inline) then build the body-to-inline -- associated with N and attach it to the declaration node of Spec_Id. procedure Check_Package_Body_For_Inlining (N : Node_Id; P : Entity_Id); -- If front-end inlining is enabled and a package declaration contains -- inlined subprograms, load and compile the package body to collect the -- bodies of these subprograms, so they are available to inline calls. -- N is the compilation unit for the package. procedure Expand_Inlined_Call (N : Node_Id; Subp : Entity_Id; Orig_Subp : Entity_Id); -- If called subprogram can be inlined by the front-end, retrieve the -- analyzed body, replace formals with actuals and expand call in place. -- Generate thunks for actuals that are expressions, and insert the -- corresponding constant declarations before the call. If the original -- call is to a derived operation, the return type is the one of the -- derived operation, but the body is that of the original, so return -- expressions in the body must be converted to the desired type (which -- is simply not noted in the tree without inline expansion). function Has_Excluded_Declaration (Subp : Entity_Id; Decls : List_Id) return Boolean; -- Check a list of declarations, Decls, that make the inlining of Subp not -- worthwhile function Has_Excluded_Statement (Subp : Entity_Id; Stats : List_Id) return Boolean; -- Check a list of statements, Stats, that make inlining of Subp not -- worthwhile, including any tasking statement, nested at any level. procedure List_Inlining_Info; -- Generate listing of calls inlined by the frontend plus listing of -- calls to inline subprograms passed to the backend. procedure Remove_Dead_Instance (N : Node_Id); -- If an instantiation appears in unreachable code, delete the pending -- body instance. end Inline;