(* M2Scaffold.mod declare and create scaffold entities.
Copyright (C) 2022-2025 Free Software Foundation, Inc.
Contributed by Gaius Mulley <gaius.mulley@southwales.ac.uk>.
This file is part of GNU Modula-2.
GNU Modula-2 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 3, or (at your option)
any later version.
GNU Modula-2 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 GNU Modula-2; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. *)
IMPLEMENTATION MODULE M2Scaffold ;
FROM SymbolTable IMPORT NulSym, ProcedureKind, MakeProcedure, PutFunction,
PutPublic, PutCtor, PutParam, IsProcedure,
MakeConstant, PutExtern, MakeArray, PutArray,
MakeSubrange, PutSubrange,
MakeSubscript, PutSubscript, PutArraySubscript,
MakeVar, PutVar, MakeProcedureCtorExtern,
PutMonoName,
GetMainModule, GetModuleCtors, MakeDefImp,
PutModuleCtorExtern, IsDefinitionForC,
ForeachModuleDo, IsDefImp, IsModule,
IsModuleBuiltin, IsImport, IsImportStatement,
GetSymName, StartScope, EndScope,
GetModuleDefImportStatementList,
GetModuleModImportStatementList,
GetImportModule, GetImportStatementList,
PutLibName,
PutProcedureDeclaredTok, PutProcedureParametersDefined,
PutProcedureDefined ;
FROM NameKey IMPORT NulName, Name, MakeKey, makekey, KeyToCharStar ;
FROM M2Base IMPORT Integer, Cardinal ;
FROM M2System IMPORT Address ;
FROM M2LexBuf IMPORT GetTokenNo, BuiltinTokenNo ;
FROM Assertion IMPORT Assert ;
FROM Lists IMPORT List, InitList, IncludeItemIntoList, NoOfItemsInList, GetItemFromList, KillList, IsItemInList ;
FROM M2MetaError IMPORT MetaErrorT0, MetaErrorStringT0 ;
FROM M2Search IMPORT FindSourceDefFile ;
FROM SFIO IMPORT OpenToWrite, WriteS, ReadS, OpenToRead, Exists ;
FROM FIO IMPORT File, EOF, IsNoError, Close ;
FROM FormatStrings IMPORT Sprintf1 ;
FROM M2Options IMPORT GetUselist, ScaffoldStatic, ScaffoldDynamic, GenModuleList,
GetGenModuleFilename, GetUselistFilename, GetUselist, cflag,
SharedFlag, WholeProgram ;
FROM M2Base IMPORT Proc ;
FROM M2Quads IMPORT PushTFtok, PushTtok, PushT, BuildDesignatorArray, BuildAssignment,
BuildProcedureCall ;
FROM M2Batch IMPORT IsModuleKnown, Get ;
FROM M2Printf IMPORT printf0, printf1, printf2, printf3, printf4 ;
FROM FormatStrings IMPORT HandleEscape ;
FROM DynamicStrings IMPORT String, InitString, KillString, ConCat, RemoveWhitePrefix,
EqualArray, Mark, Assign, Fin, InitStringChar, Length, Slice, Equal,
RemoveComment, string, InitStringCharStar ;
FROM M2Graph IMPORT Graph, InitGraph, KillGraph, AddDependent, SortGraph ;
CONST
Comment = '#' ; (* Comment leader *)
Debugging = FALSE ;
VAR
uselistModules,
ctorModules,
ctorGlobals : List ;
ctorArrayType : CARDINAL ;
initialized : BOOLEAN ;
(* The dynamic scaffold takes the form:
static void _M2_init (int argc, char *argv[], char *envp[])
{
M2RTS_ConstructModules (module_name, libname, overrideliborder, argc, argv, envp);
}
static void _M2_fini (int argc, char *argv[], char *envp[])
{
M2RTS_Terminate ();
M2RTS_DeconstructModules (module_name, libname, argc, argv, envp);
}
int
main (int argc, char *argv[], char *envp[])
{
init (argc, argv, envp);
fini (argc, argv, envp);
return (0);
} *)
(*
DeclareCtorArrayType - declare an ARRAY [0..high] OF PROC which will
be used to reference every module ctor.
*)
PROCEDURE DeclareCtorArrayType (tokenno: CARDINAL; high: CARDINAL) : CARDINAL ;
VAR
subscript,
subrange : CARDINAL ;
BEGIN
(* ctorArrayType = ARRAY [0..n] OF PROC ; *)
ctorArrayType := MakeArray (tokenno, MakeKey ('ctorGlobalType')) ;
PutArray (ctorArrayType, Proc) ;
subrange := MakeSubrange (tokenno, NulName) ;
PutSubrange (subrange,
MakeConstant (tokenno, 0),
MakeConstant (tokenno, high),
Cardinal) ;
subscript := MakeSubscript () ;
PutSubscript (subscript, subrange) ;
PutArraySubscript (ctorArrayType, subscript) ;
RETURN ctorArrayType
END DeclareCtorArrayType ;
(*
DeclareCtorGlobal - declare the ctorArray variable.
*)
PROCEDURE DeclareCtorGlobal (tokenno: CARDINAL) ;
VAR
n: CARDINAL ;
BEGIN
n := NoOfItemsInList (ctorGlobals) ;
ctorArrayType := DeclareCtorArrayType (tokenno, n) ;
ctorArray := MakeVar (tokenno, MakeKey ('_M2_ctorArray')) ;
PutVar (ctorArray, ctorArrayType)
END DeclareCtorGlobal ;
(*
ForeachModuleCallInit - is only called when -fscaffold-static is enabled.
precondition: the module list will be ordered.
postcondition: foreach module in the application universe
call _M2_module_init (argc, argv, envp);
*)
PROCEDURE ForeachModuleCallInit (tok: CARDINAL; argc, argv, envp: CARDINAL) ;
VAR
module : CARDINAL ;
i, n : CARDINAL ;
ctor, init,
fini, dep : CARDINAL ;
BEGIN
i := 1 ;
n := NoOfItemsInList (uselistModules) ;
WHILE i <= n DO
module := GetItemFromList (uselistModules, i) ;
IF module # NulSym
THEN
GetModuleCtors (module, ctor, init, fini, dep) ;
IF init # NulSym
THEN
PushTtok (init, tok) ;
PushTtok (argc, tok) ;
PushTtok (argv, tok) ;
PushTtok (envp, tok) ;
PushT (3) ;
BuildProcedureCall (tok)
END
END ;
INC (i)
END
END ForeachModuleCallInit ;
(*
ForeachModuleCallFinish - precondition: the module list will be ordered.
postcondition: foreach module in the application universe
call _M2_module_fini (argc, argv, envp);
*)
PROCEDURE ForeachModuleCallFinish (tok: CARDINAL; argc, argv, envp: CARDINAL) ;
VAR
module : CARDINAL ;
i : CARDINAL ;
ctor, init,
fini, dep : CARDINAL ;
BEGIN
i := NoOfItemsInList (uselistModules) ;
WHILE i >= 1 DO
module := GetItemFromList (uselistModules, i) ;
IF module # NulSym
THEN
GetModuleCtors (module, ctor, init, fini, dep) ;
IF fini # NulSym
THEN
PushTtok (fini, tok) ;
PushTtok (argc, tok) ;
PushTtok (argv, tok) ;
PushTtok (envp, tok) ;
PushT (3) ;
BuildProcedureCall (tok)
END
END ;
DEC (i)
END
END ForeachModuleCallFinish ;
(*
PopulateCtorArray - assign each element of the ctorArray to the external module ctor.
This is only used to force the linker to pull in the ctors from
a library.
*)
PROCEDURE PopulateCtorArray (tok: CARDINAL) ;
VAR
i, n: CARDINAL ;
BEGIN
n := NoOfItemsInList (ctorModules) ;
i := 1 ;
WHILE i <= n DO
PushTFtok (ctorArray, ctorArrayType, tok) ;
PushTtok (MakeConstant (tok, i), tok) ;
BuildDesignatorArray ;
PushTtok (GetItemFromList (ctorModules, i), tok) ;
BuildAssignment (tok) ;
INC (i)
END
END PopulateCtorArray ;
(*
LookupModuleSym - returns a defimp module. It looks up an existing
module and if this does not exist creates a new one.
*)
PROCEDURE LookupModuleSym (tok: CARDINAL; name: Name) : CARDINAL ;
VAR
sym : CARDINAL ;
FileName,
LibName : String ;
BEGIN
sym := Get (name) ;
IF sym = NulSym
THEN
LibName := NIL ;
FileName := NIL ;
IF FindSourceDefFile (InitStringCharStar (KeyToCharStar (name)),
FileName, LibName)
THEN
sym := MakeDefImp (tok, name) ;
PutLibName (sym, makekey (string (LibName))) ;
IF sym # GetMainModule ()
THEN
PutModuleCtorExtern (tok, sym, NOT WholeProgram)
END
ELSE
MetaErrorStringT0 (tok,
Sprintf1 (InitString ('the definition module file for {%%1a} cannot be found'),
name))
END
END ;
RETURN sym
END LookupModuleSym ;
(*
addDependentStatement -
*)
PROCEDURE addDependentStatement (graph: Graph; moduleSym: CARDINAL; list: List) ;
VAR
n1, n2: Name ;
import,
depmod,
i, n : CARDINAL ;
BEGIN
n := NoOfItemsInList (list) ;
i := 1 ;
WHILE i <= n DO
import := GetItemFromList (list, i) ;
Assert (IsImport (import)) ;
depmod := GetImportModule (import) ;
AddDependent (graph, moduleSym, depmod) ;
IF Debugging
THEN
n1 := GetSymName (moduleSym) ;
n2 := GetSymName (depmod) ;
printf2 ("AddDependent (%a, %a)\n",
n1, n2)
END ;
INC (i)
END
END addDependentStatement ;
(*
addDependentImport - adds dependent imports of moduleSym into the graph.
*)
PROCEDURE addDependentImport (graph: Graph; moduleSym: CARDINAL; importList: List) ;
VAR
stmt,
i, n: CARDINAL ;
BEGIN
n := NoOfItemsInList (importList) ;
i := 1 ;
WHILE i <= n DO
stmt := GetItemFromList (importList, i) ;
Assert (IsImportStatement (stmt)) ;
addDependentStatement (graph, moduleSym, GetImportStatementList (stmt)) ;
INC (i)
END
END addDependentImport ;
(*
TopologicallySortList - topologically sort the list based on import graph.
A new list is returned.
*)
PROCEDURE TopologicallySortList (list: List; topModule: CARDINAL) : List ;
VAR
graph : Graph ;
i, n : CARDINAL ;
moduleSym: CARDINAL ;
BEGIN
graph := InitGraph () ;
n := NoOfItemsInList (list) ;
i := 1 ;
WHILE i <= n DO
moduleSym := GetItemFromList (uselistModules, i) ;
addDependentImport (graph, moduleSym, GetModuleDefImportStatementList (moduleSym)) ;
addDependentImport (graph, moduleSym, GetModuleModImportStatementList (moduleSym)) ;
INC (i) ;
END ;
(* Ensure that topModule is also in the graph. *)
IF NOT IsItemInList (list, topModule)
THEN
addDependentImport (graph, topModule, GetModuleDefImportStatementList (topModule)) ;
addDependentImport (graph, topModule, GetModuleModImportStatementList (topModule))
END ;
RETURN SortGraph (graph, topModule)
END TopologicallySortList ;
(*
AddEntry - adds an entry to the ctorGlobals and uselistModules.
*)
PROCEDURE AddEntry (tok: CARDINAL; name: Name) ;
BEGIN
IF ctorGlobals # NIL
THEN
IncludeItemIntoList (ctorGlobals, name)
END ;
IncludeItemIntoList (uselistModules, LookupModuleSym (tok, name))
END AddEntry ;
(*
ReadModules - populate ctorGlobals with the modules specified by -fuse-list=filename.
*)
PROCEDURE ReadModules (tok: CARDINAL; filename: String) ;
VAR
f: File ;
s: String ;
BEGIN
InitList (ctorGlobals) ;
InitList (uselistModules) ;
f := OpenToRead (filename) ;
WHILE NOT EOF (f) DO
s := ReadS (f) ;
s := RemoveComment (RemoveWhitePrefix (s), Comment) ;
IF (NOT Equal (Mark (InitStringChar (Comment)),
Mark (Slice (s, 0, Length (Mark (InitStringChar (Comment)))-1)))) AND
(NOT EqualArray (s, ''))
THEN
AddEntry (tok, makekey (string (s)))
END ;
s := KillString (s)
END ;
Close (f)
END ReadModules ;
VAR
ctorTok: CARDINAL ;
(*
AddModuleToCtor - adds moduleSym to the uselistModules and
sets all modules ctors as extern.
*)
PROCEDURE AddModuleToCtor (moduleSym: CARDINAL) ;
BEGIN
IF IsModule (moduleSym) OR (NOT IsDefinitionForC (moduleSym))
THEN
IF (moduleSym # GetMainModule ()) AND (NOT IsModuleBuiltin (moduleSym))
THEN
PutModuleCtorExtern (ctorTok, moduleSym, NOT WholeProgram) ;
IncludeItemIntoList (uselistModules, moduleSym)
END
END
END AddModuleToCtor ;
(*
WriteList - writes the list to GetGenModuleFilename
providing the filename is not NIL and not '-'.
*)
PROCEDURE WriteList (tok: CARDINAL; list: List) ;
VAR
fo : File ;
name : Name ;
moduleSym: CARDINAL ;
i, n : CARDINAL ;
s : String ;
BEGIN
IF (GetGenModuleFilename () # NIL) AND (NOT EqualArray (GetGenModuleFilename (), '-'))
THEN
fo := OpenToWrite (GetGenModuleFilename ()) ;
IF IsNoError (fo)
THEN
i := 1 ;
n := NoOfItemsInList (list) ;
WHILE i <= n DO
moduleSym := GetItemFromList (list, i) ;
name := GetSymName (moduleSym) ;
s := InitStringCharStar (KeyToCharStar (name)) ;
s := ConCat (s, Mark (InitString ('\n'))) ;
s := HandleEscape (s) ;
s := WriteS (fo, s) ;
s := KillString (s) ;
INC (i)
END ;
Close (fo)
ELSE
s := InitString ("unable to create file containing ctor module list: ") ;
s := ConCat (s, GetGenModuleFilename ()) ;
MetaErrorStringT0 (tok, s)
END
END
END WriteList ;
(*
CreateCtorListFromImports - if GenModuleList then populate
the ctor list from all modules which are
not FOR 'C'.
*)
PROCEDURE CreateCtorListFromImports (tok: CARDINAL) : BOOLEAN ;
VAR
newlist: List ;
i, n : CARDINAL ;
BEGIN
IF GenModuleList
THEN
InitList (uselistModules) ;
ctorTok := tok ;
ForeachModuleDo (AddModuleToCtor) ;
newlist := TopologicallySortList (uselistModules, GetMainModule ()) ;
KillList (uselistModules) ;
uselistModules := newlist ;
(* Now create the ctorGlobals using uselistModules and retain the same order. *)
InitList (ctorGlobals) ;
i := 1 ;
n := NoOfItemsInList (uselistModules) ;
WHILE i <= n DO
IncludeItemIntoList (ctorGlobals, GetSymName (GetItemFromList (uselistModules, i))) ;
INC (i)
END ;
WriteList (tok, uselistModules) ;
RETURN TRUE
END ;
RETURN FALSE
END CreateCtorListFromImports ;
(*
CreateCtorList - uses GetUselistFilename and then reads the list of modules.
*)
PROCEDURE CreateCtorList (tok: CARDINAL) : BOOLEAN ;
VAR
filename: String ;
BEGIN
IF GetUselist ()
THEN
filename := GetUselistFilename () ;
IF filename # NIL
THEN
IF Exists (filename)
THEN
ReadModules (tok, filename) ;
RETURN TRUE
ELSE
IF NOT EqualArray (filename, '-')
THEN
MetaErrorT0 (tok,
'{%E}the filename specified by the -fuse-list= option does not exist') ;
END
END
END ;
RETURN FALSE
ELSE
RETURN CreateCtorListFromImports (tok)
END
END CreateCtorList ;
(*
DeclareModuleExtern - declare the extern _M2_modulename_ctor, _M2_modulename_init,
_M2_modulename_fini, _M2_modulename_dep for each external module.
*)
PROCEDURE DeclareModuleExtern (tokenno: CARDINAL) ;
VAR
n1 : Name ;
init,
fini,
dep,
ctor,
module: CARDINAL ;
n, i : CARDINAL ;
BEGIN
InitList (ctorModules) ;
i := 1 ;
n := NoOfItemsInList (uselistModules) ;
WHILE i <= n DO
module := GetItemFromList (uselistModules, i) ;
IF module # GetMainModule ()
THEN
PutModuleCtorExtern (tokenno, module, NOT WholeProgram)
END ;
GetModuleCtors (module, ctor, init, fini, dep) ;
IncludeItemIntoList (ctorModules, ctor) ;
IF Debugging
THEN
n1 := GetSymName (module) ;
printf1 ("%a_ctor added to ctorModules\n", n1)
END ;
INC (i)
END
END DeclareModuleExtern ;
(*
DeclareScaffoldFunctions - declare main, _M2_init,_M2_finish
and _M2_link to the modula-2
front end.
*)
PROCEDURE DeclareScaffoldFunctions (tokenno: CARDINAL) ;
BEGIN
IF CreateCtorList (tokenno)
THEN
DeclareCtorGlobal (tokenno) ;
DeclareModuleExtern (tokenno) ;
linkFunction := MakeProcedure (tokenno, MakeKey ("_M2_link")) ;
PutMonoName (linkFunction, TRUE) ;
PutProcedureDefined (linkFunction, ProperProcedure) ;
ELSIF ScaffoldDynamic AND (NOT cflag)
THEN
MetaErrorT0 (tokenno,
'{%O}dynamic linking enabled but no module ctor list has been created, hint use -fuse-list=filename or -fgen-module-list=-')
END ;
initFunction := MakeProcedure (tokenno, MakeKey ("_M2_init")) ;
PutMonoName (initFunction, TRUE) ;
PutProcedureDefined (initFunction, ProperProcedure) ;
finiFunction := MakeProcedure (tokenno, MakeKey ("_M2_fini")) ;
PutMonoName (finiFunction, TRUE) ;
PutProcedureDefined (initFunction, ProperProcedure) ;
IF SharedFlag
THEN
PutCtor (initFunction, TRUE) ;
PutCtor (finiFunction, TRUE)
ELSE
DeclareArgEnvParams (tokenno, initFunction) ;
DeclareArgEnvParams (tokenno, finiFunction) ;
mainFunction := MakeProcedure (tokenno, MakeKey ("main")) ;
PutMonoName (mainFunction, TRUE) ;
StartScope (mainFunction) ;
PutFunction (BuiltinTokenNo, mainFunction, ProperProcedure, Integer) ;
DeclareArgEnvParams (tokenno, mainFunction) ;
PutPublic (mainFunction, TRUE) ;
PutProcedureDefined (mainFunction, ProperProcedure) ;
EndScope
END
END DeclareScaffoldFunctions ;
(*
DeclareArgEnvParams - declares (int argc, void *argv, void *envp)
*)
PROCEDURE DeclareArgEnvParams (tokno: CARDINAL; proc: CARDINAL) ;
BEGIN
Assert (IsProcedure (proc)) ;
StartScope (proc) ;
Assert (PutParam (tokno, proc, ProperProcedure, 1, MakeKey ("argc"), Integer, FALSE, tokno)) ;
Assert (PutParam (tokno, proc, ProperProcedure, 2, MakeKey ("argv"), Address, FALSE, tokno)) ;
Assert (PutParam (tokno, proc, ProperProcedure, 3, MakeKey ("envp"), Address, FALSE, tokno)) ;
PutProcedureParametersDefined (proc, ProperProcedure) ;
PutProcedureDeclaredTok (proc, ProperProcedure, tokno) ;
EndScope
END DeclareArgEnvParams ;
(*
DeclareScaffold - declare scaffold related entities.
*)
PROCEDURE DeclareScaffold (tokno: CARDINAL) ;
BEGIN
IF NOT initialized
THEN
initialized := TRUE ;
DeclareScaffoldFunctions (tokno)
END
END DeclareScaffold ;
BEGIN
initialized := FALSE ;
finiFunction := NulSym ;
initFunction := NulSym ;
mainFunction := NulSym ;
linkFunction := NulSym ;
ctorArray := NulSym ;
ctorGlobals := NIL ;
ctorModules := NIL ;
uselistModules := NIL
END M2Scaffold.