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2.2 Compiler options

This section describes the compiler options specific to GNU Modula-2 for generic flags details See (gcc)Invoking GCC.

For any given input file, the file name suffix determines what kind of compilation is done. The following kinds of input file names are supported:

file.mod

Modula-2 implementation or program source files. See the ‘-fmod=’ option if you wish to compile a project which uses a different source file extension.

file.def

Modula-2 definition module source files. Definition modules are not compiled separately, in GNU Modula-2 definition modules are parsed as required when program or implementation modules are compiled. See the ‘-fdef=’ option if you wish to compile a project which uses a different source file extension.

You can specify more than one input file on the gm2 command line,

-g

create debugging information so that debuggers such as gdb can inspect and control executable.

-I

used to specify the search path for definition and implementation modules. An example is: gm2 -g -c -I.:../../libs foo.mod. If this option is not specified then the default path is added which consists of the current directory followed by the appropriate language dialect library directories.

-fauto-init

turns on auto initialization of pointers to NIL. Whenever a block is created all pointers declared within this scope will have their addresses assigned to NIL.

-fbounds

turns on run time subrange, array index and indirection via NIL pointer checking.

-fcase

turns on compile time checking to check whether a CASE statement requires an ELSE clause when on was not specified.

-fcpp

preprocess the source with ‘cpp -lang-asm -traditional-cpp’ For further details about these options See (cpp)Invocation. If ‘-fcpp’ is supplied then all definition modules and implementation modules which are parsed will be prepossessed by ‘cpp’.

-fdebug-builtins

call a real function, rather than the builtin equivalent. This can be useful for debugging parameter values to a builtin function as it allows users to single step code into an intrinsic function.

-fdef=

recognize the specified suffix as a definition module filename. The default implementation and module filename suffix is .def. If this option is used GNU Modula-2 will still fall back to this default if a requested definition module is not found.

-fdump-system-exports

display all inbuilt system items. This is an internal command line option.

-fexceptions

turn on exception handling code. By default this option is on. Exception handling can be disabled by ‘-fno-exceptions’ and no references are made to the run time exception libraries.

-fextended-opaque

allows opaque types to be implemented as any type. This is a GNU Modula-2 extension and it requires that the implementation module defining the opaque type is available so that it can be resolved when compiling the module which imports the opaque type.

-ffloatvalue

turns on run time checking to check whether a floating point number is about to exceed range.

-fgen-module-list=filename

attempt to find all modules when linking and generate a module list. If the filename is ‘-’ then the contents are not written and only used to force the linking of all module ctors. This option cannot be used if ‘-fuse-list=’ is enabled.

-findex

generate code to check whether array index values are out of bounds. Array index checking can be disabled via ‘-fno-index’.

-fiso

turn on ISO standard features. Currently this enables the ISO SYSTEM module and alters the default library search path so that the ISO libraries are searched before the PIM libraries. It also effects the behavior of DIV and MOD operators. See GNU Modula-2 supported dialects.

-flibs=

modifies the default library search path. The libraries supplied are: m2pim, m2iso, m2min, m2log and m2cor. These map onto the Programming in Modula-2 base libraries, ISO standard libraries, minimal library support, Logitech compatible library and Programming in Modula-2 with coroutines. Multiple libraries can be specified and are comma separated with precedence going to the first in the list. It is not necessary to use -flibs=m2pim or -flibs=m2iso if you also specify -fpim, -fpim2, -fpim3, -fpim4 or -fiso. Unless you are using -flibs=m2min you should include m2pim as the they provide the base modules which all other dialects utilize. The option ‘-fno-libs=-’ disables the ‘gm2’ driver from modifying the search and library paths.

-static-libgm2

On systems that provide the m2 runtimes as both shared and static libraries, this option forces the use of the static version.

-fm2-debug-trace=

turn on trace debugging using a comma separated list: ‘line,token,quad,all’. This is an internal command line option.

-fm2-dump=

enable dumping of modula-2 internal representation of data structures using a comma separated list. The list can contain: ‘quad,gimple,decl,all’.

-fm2-dump-decl=filestem

dump the modula-2 representation of a symbol to the filestem specified. This option only takes effect if the ‘-fm2-dump-filter’ is specified.

-fm2-dump-gimple=filestem

dump modula-2 gimple representation to the filestem specified.

-fm2-dump-quad=filestem

dump quadruple representation to the filestem specified.

-fm2-dump-filter=‘rules

filter the language dumps ‘-fdump-lang-decl’, ‘-fdump-lang-gimple’ and‘-fdump-lang-quad’ on ‘rules’. ‘rules’ must be a comma separated list which can take three forms: the full decl textual name of a procedure, ‘[libname.]module.ident’ or ‘[filename:]module.ident’. This is an internal command line option. Currently it only filters on procedure names and regexp matching is not implemented. Three examples of its use following the previous forms could be: -fm2-dump-filter=_M2_hello_init, -fm2-dump-filter=m2pim.StrIO.WriteString and -fm2-dump-filter=StrLib.mod:StrIO.WriteString.

-fm2-file-offset-bits=

force the type SYSTEM.COFF_T to be built using the specified number of bits. If this option is not used then default is CSSIZE_T bits.

-fm2-g

improve the debugging experience for new programmers at the expense of generating nop instructions if necessary to ensure single stepping precision over all code related keywords. An example of this is in termination of a list of nested IF statements where multiple END keywords are mapped onto a sequence of nop instructions.

-fm2-lower-case

render keywords in error messages using lower case.

-fm2-pathname=

specify the module mangled prefix name for all modules in the following include paths.

-fm2-pathnameI

for internal use only: used by the driver to copy the user facing ‘-I’ option.

-fm2-pathname-root=pathroot

add search paths derived from the specified pathroot. See Module Search Path for examples.

-fm2-pathname-rootI

for internal use only: used by the driver to copy every user ‘-fm2-pathname-root=’ facing option in order with all other ‘-I’ options.

-fm2-plugin

insert plugin to identify run time errors at compile time (default on).

-fm2-prefix=

specify the module mangled prefix name. All exported symbols from a definition module will have the prefix name.

-fm2-statistics

generates quadruple information: number of quadruples generated, number of quadruples remaining after optimization and number of source lines compiled.

-fm2-strict-type

experimental flag to turn on the new strict type checker.

-fm2-strict-type-reason

provides more detail why the types are incompatible.

-fm2-whole-program

compile all implementation modules and program module at once. Notice that you need to take care if you are compiling different dialect modules (particularly with the negative operands to modulus). But this option, when coupled together with -O3, can deliver huge performance improvements.

-fmod=

recognize the specified suffix as implementation and module filenames. The default implementation and module filename suffix is .mod. If this option is used GNU Modula-2 will still fall back to this default if it needs to read an implementation module and the specified suffixed filename does not exist.

-fnil

generate code to detect accessing data through a NIL value pointer. Dereferencing checking through a NIL pointer can be disabled by ‘-fno-nil’.

-fpim

turn on PIM standard features. Currently this enables the PIM SYSTEM module and determines which identifiers are pervasive (declared in the base module). If no other ‘-fpim[234]’ switch is used then division and modulus operators behave as defined in PIM4. See GNU Modula-2 supported dialects.

-fpim2

turn on PIM-2 standard features. Currently this removes SIZE from being a pervasive identifier (declared in the base module). It places SIZE in the SYSTEM module. It also effects the behavior of DIV and MOD operators. See GNU Modula-2 supported dialects.

-fpim3

turn on PIM-3 standard features. Currently this only effects the behavior of DIV and MOD operators. See GNU Modula-2 supported dialects.

-fpim4

turn on PIM-4 standard features. Currently this only effects the behavior of DIV and MOD operators. See GNU Modula-2 supported dialects.

-fpositive-mod-floor-div

forces the DIV and MOD operators to behave as defined by PIM4. All modulus results are positive and the results from the division are rounded to the floor. See GNU Modula-2 supported dialects.

-fpthread

link against the pthread library. By default this option is on. It can be disabled by ‘-fno-pthread’. GNU Modula-2 uses the GCC pthread libraries to implement coroutines (see the SYSTEM implementation module).

-frange

generate code to check the assignment range, return value range set range and constructor range. Range checking can be disabled via ‘-fno-range’.

-freturn

generate code to check that functions always exit with a RETURN and do not fall out at the end. Return checking can be disabled via ‘-fno-return’.

-fruntime-modules=

specify, using a comma separated list, the run time modules and their order. These modules will initialized first before any other modules in the application dependency. By default the run time modules list is set to m2iso:RTentity,m2iso:Storage,m2iso:SYSTEM, m2iso:M2RTS,m2iso:RTExceptions,m2iso:IOLink. Note that these modules will only be linked into your executable if they are required. Adding a long list of dependent modules will not effect the size of the executable it merely states the initialization order should they be required.

-fscaffold-dynamic

the option ensures that ‘gm2’ will generate a dynamic scaffold infrastructure when compiling implementation and program modules. By default this option is on. Use ‘-fno-scaffold-dynamic’ to turn it off or select ‘-fno-scaffold-static’.

-fscaffold-c

generate a C source scaffold for the current module being compiled.

-fscaffold-c++

generate a C++ source scaffold for the current module being compiled.

-fscaffold-main

force the generation of the ‘main’ function. This is not necessary if the ‘-c’ is omitted.

-fscaffold-static

the option ensures that ‘gm2’ will generate a static scaffold within the program module. The static scaffold consists of sequences of calls to all dependent module initialization and finalization procedures. The static scaffold is useful for debugging and single stepping the initialization blocks of implementation modules.

-fshared

generate a shared library from the module.

-fsoft-check-all

turns on all run time checks. This is the same as invoking GNU Modula-2 using the command options -fnil -frange -findex -fwholevalue -fwholediv -fcase -freturn.

-fsources

displays the path to the source of each module. This option can be used at compile time to check the correct definition module is being used.

-fswig

generate a swig interface file.

-funbounded-by-reference

enable optimization of unbounded parameters by attempting to pass non VAR unbounded parameters by reference. This optimization avoids the implicit copy inside the callee procedure. GNU Modula-2 will only allow unbounded parameters to be passed by reference if, inside the callee procedure, they are not written to, no address is calculated on the array and it is not passed as a VAR parameter. Note that it is possible to write code to break this optimization, therefore this option should be used carefully. For example it would be possible to take the address of an array, pass the address and the array to a procedure, read from the array in the procedure and write to the location using the address parameter.

Due to the dangerous nature of this option it is not enabled when the ‘-O’ option is specified.

-fuse-list=filename

if ‘-fscaffold-static’ is enabled then use the file filename for the initialization order of modules. Whereas if ‘-fscaffold-dynamic’ is enabled then use this file to force linking of all module ctors. This option cannot be used if ‘-fgen-module-list=’ is enabled.

-fwholediv

generate code to detect whole number division by zero or modulus by zero.

-fwholevalue

generate code to detect whole number overflow and underflow.

-Wcase-enum

generate a warning if a CASE statement selects on an enumerated type expression and the statement is missing one or more CASE labels. No warning is issued if the CASE statement has a default ELSE clause. The option ‘-Wall’ will turn on this flag.

-Wuninit-variable-checking

issue a warning if a variable is used before it is initialized. The checking only occurs in the first basic block in each procedure. It does not check parameters, array types or set types.

-Wuninit-variable-checking=all,known,cond

issue a warning if a variable is used before it is initialized. The checking will only occur in the first basic block in each procedure if ‘known’ is specified. If ‘cond’ or ‘all’ is specified then checking continues into conditional branches of the flow graph. All checking will stop when a procedure call is invoked or the top of a loop is encountered. The option ‘-Wall’ will turn on this flag with ‘-Wuninit-variable-checking=known’. The ‘-Wuninit-variable-checking=all’ will increase compile time.

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