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CCOM(1) |
FreeBSD General Commands Manual |
CCOM(1) |
ccom |
[-gkpsv ] [-f
features] [-m
options] [-W
warnings] [-X
flags] [-x
settings] [-Z
flags] [infile] [outfile] |
The ccom utility provides a C compiler. The frontend is
usually
pcc(1). It
is not intended to be run directly.
ccom reads the C source from
infile or standard input and writes the assembler source
to outfile or to standard output.
The options are as follows:
-f
feature
- Enable language features. Multiple
-f options can
be given, the following features are supported:
- stack-protector
- Enable stack smashing protection. Currently the same as
stack-protector-all.
- stack-protector-all
- Enable stack smashing protection for all functions.
- pack-struct[=n]
- Specify maximum alignment for structure members, similar to a #pragma
pack statement at the start of the file. If no value is given, the
default is 1.
- freestanding
- Emit code for a freestanding environment. Currently not
implemented.
-g
- Include debugging information in the output code for use by symbolic and
source-level debuggers. Currently this uses the stabs
format, encoding information in symbol
table entries.
-k
- Generate PIC code.
-m
option
- Target-specific options, used in machine-dependent code. Multiple
-m options can be given, the following options are
supported:
- AMD64
-
- ARM
- little-endian, big-endian,
fpe=fpa, fpe=vpf,
soft-float, arch=armv1,
arch=armv2, arch=armv2a,
arch=armv3, arch=armv4,
arch=armv4t, arch=armv4tej,
arch=armv5, arch=armv5te,
arch=armv5tej, arch=armv6,
arch=armv6t2, arch=armv6kz,
arch=armv6k &
arch=armv7.
- HPPA
-
- i386
-
- M16C
-
- MIPS
- little-endian &
big-endian.
- NOVA
-
- PDP-10
-
- PDP-11
-
- PowerPC
- little-endian, big-endian,
soft-float &
hard-float.
- Sparc64
-
- VAX
-
-p
- Generate profiling code.
-s
- Print statistics to standard error when complete. This includes: name
table entries, name string size, permanent allocated memory, temporary
allocated memory, lost memory, argument list unions, dimension/function
unions, struct/union/enum blocks, inline node count, inline control
blocks, and permanent symtab entries.
-v
- Display version.
-W
warning
- Do some basic checks and emit warnings about possible coding problems.
Multiple
-W options can be given, the following
warnings are supported:
- error[=warning]
- Enable warning, and treat it as an error
condition. If a specific warning is not given, producing any warning
will cause an error.
- deprecated-declarations
- Report whenever a symbol marked with the ‘deprecated’
attribute is used. This warning is enabled by default.
- implicit-function-declaration
- (TODO) Require explicit prototypes for all called functions.
- implicit-int
- (TODO) Warn when a function declaration lacks a type.
- missing-prototypes
- Require explicit prototypes for all global function definitions.
- pointer-sign
- Warn when pointer operations are done with mismatched signed and
unsigned values.
- sign-compare
- (TODO) Warn about comparisons between signed and unsigned values.
- strict-prototypes
- (TODO) Require that function prototypes are strictly C99.
- shadow
- Report when a local variable shadows something from a higher
scope.
- truncate
- Report when integer values may be implicitly truncated to fit a
smaller type.
- unknown-pragmas
- Report unhandled pragma statements.
- unreachable-code
- Report statements that cannot be executed.
Any of the above may be prefixed with “no-” in
order to disable the effect.
-X
flags
- C specific debugging where flags is one or more of
the following:
- b
- Building of parse trees
- d
- Declarations (using multiple d flags gives more
output)
- e
- Pass1 trees at exit
- i
- Initializations
- n
- Memory allocations
- o
- Turn off optimisations
- p
- Prototypes
- s
- Inlining
- t
- Type conversions
- x
- Target-specific flag, used in machine-dependent code
-x
setting
- Enable setting in the compiler. Multiple
-x options can be given, the following settings
are supported:
- ccp
- Apply sparse conditional constant propagation techniques for
optimization. Currently not implemented.
- dce
- Do dead code elimination.
- deljumps
- Delete redundant jumps and dead code.
- gnu89
-
- gnu99
- Use GNU C semantics rather than C99 for some things. Currently only
inline.
- inline
- Replace calls to functions marked with an inline specifier with a copy
of the actual function.
- ssa
- Convert statements into static single assignment form for
optimization. Not yet finished.
- tailcall
- Enable optimization of tail-recursion functions. Currently not
implemented.
- temps
- Locate automatic variables into registers where possible, for further
optimization by the register allocator.
- uchar
- Treat character constants as unsigned values.
-Z
flags
- Code generator (pass2) specific debugging where
flags is one or more of the following:
- b
- Basic block and SSA building
- c
- Code printout
- e
- Trees when entering pass2
- f
- Instruction matcher, may provide much output
- g
- Print flow graphs
- n
- Memory allocation
- o
- Instruction generator
- r
- Register allocator
- s
- Shape matching in instruction generator
- t
- Type matching in instruction generator
- u
- Sethi-Ullman computations
- x
- Target-specific flag, used in machine-dependent code
Input lines starting with a “#pragma” directive can be used to
modify behaviour of ccom during compilation. All
tokens up to the first unescaped newline are considered part of the pragma
command, with the following operations being recognized:
- STDC
- Standard C99 operator follows. Currently no C99 operations are
implemented, and any directives starting with this token will be silently
ignored.
- GCC diagnostic effect
“option”
- GNU C compatibility. Alter the effects of compiler diagnostics. The
required effect should be stated as
warning, error or
ignored, followed by the compiler diagnostic
option in double quotes. For example, to force
unknown pragmas to always generate an error, a standard header might
include
#pragma GCC diagnostic error "-Wunknown-pragmas"
- GCC poison identifier ...
- GNU C compatibility. Cause an error if any of the following
identifiers subsequently appear in the code (but not
in any macro expansions). Currently not implemented.
- GCC system_header
- GNU C compatibility. Currently not implemented.
- GCC visibility
- GNU C compatibility. Currently not implemented.
- pack([n])
- Set the default maximum alignment for structures and unions, such that
members will have their natural alignment requirements clamped at this
value and may be stored misaligned. If n is not
given, the alignment is reset to the target default.
- pack(push[,
n])
- Push the current pack setting onto an internal stack then, if
n is given, change the default alignment for
structures and unions. Currently not implemented.
- pack(pop)
- Change the pack setting to the most recently pushed value, and remove that
setting from the stack. Currently not implemented.
- packed [n]
- Set the maximum alignment for the structure or union defined in the
current statement. If n is not given, the default
value of 1 is used. (Currently this works except n is not
used)
- aligned [n]
- Set the minimum alignment for the structure or union defined in the
current statement.
- rename name
- Provide an alternative name which will be used to
reference the object declared in the current statement.
- weak
name[=alias]
- Mark name as a weak rather than a global symbol, to
allow its definition to be overridden at link time. If an
alias is given, this will be used as the default
value of name.
- ident
- Currently not implemented.
and the following target-specific operations are handled by
machine-dependent code:
- tls
- For AMD64 and i386 targets, the variable declared in the current statement
will be referenced via the “thread-local storage”
mechanism.
- init
- For AMD64, ARM, HPPA, i386, MIPS and PowerPC targets, when the current
statement is a function declaration, generate a reference in the
.ctors section, enabling library code to call the
function prior to entering
main ().
- fini
- For AMD64, ARM, HPPA, i386, MIPS and PowerPC targets, when the current
statement is a function declaration, generate a reference in the
.dtors section, enabling library code to call the
function when
main () returns or the
exit () function is called.
- section name
- For AMD64, ARM, HPPA and i386 targets, place the subsequent code in the
named section. (This is currently broken).
- alias name
- For AMD64, HPPA and i386 targets, emit assembler instructions providing an
alias for the symbol defined by the current statement.
- stdcall
- For i386 targets, enable “stdcall” semantics during code
generation, where function arguments are passed on the stack in
right-to-left order, and the callee is responsible for adjusting the stack
pointer before returning. Any function result is passed in the EAX
register. On win32, the function name is postfixed with an
“@” and the size of the stack adjustment.
- cdecl
- For i386 targets, enable “cdecl” semantics during code
generation, where function arguments are passed on the stack in
right-to-left order, and the caller is responsible for cleaning up the
stack after the function returns. Any function result is passed in the EAX
register. This is the default.
- fastcall
- For i386-win32 targets, enable “fastcall” semantics during
code generation. (Currently this is equivalent to
stdcall, which is likely wrong).
- dllimport
- For i386-win32 targets, references to the external symbol defined by the
current statement will be made via indirect access through a location
identified by the symbol name prefixed with “__imp_”.
- dllexport
- For i386-win32 targets, the external symbol declared by the current
statement will be exported as an indirect reference to be accessed with
dllimport. The global locator will be the symbol name
prefixed with “__imp_”. Currently this is not completely
implemented.
Any unknown “#pragma” directives will be ignored
unless the -Wunknown-pragmas diagnostic is in
effect.
The ccom compiler is based on the original Portable C
Compiler by S. C. Johnson, written in the late 70's.
Even though much of the compiler has been rewritten (about 50% of the frontend
code and 80% of the backend), some of the basics still remain. Most is written
by Anders Magnusson, with the exception of the
data-flow analysis part and the SSA conversion code which is written by
Peter A Jonsson, and the Mips port that were written
as part of a project by undergraduate students at Lulea University of
Technology.
This product includes software developed or owned by Caldera
International, Inc.
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