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- [-mmcs51]Generate code for the MCS51 (8051) family of processors.
This is the default processor target.
- [-mds390]Generate code for the DS80C390 processor.
- [-mz80]Generate code for the Z80 family of processors.
- [-mgbz80]Generate code for the GameBoy Z80 processor.
- [-mavr]Generate code for the Atmel AVR processor(In development,
not complete).
- [-mpic14]Generate code for the PIC 14-bit processors(In development,
not complete).
- [-mtlcs900h]Generate code for the Toshiba TLCS-900H processor(In
development, not complete).
- [-I<path>]The additional location where the pre processor
will look for <..h> or ``..h'' files.
- [-D<macro[=value]>]Command line definition of macros.
Passed to the pre processor.
- [-M]Tell the preprocessor to output a rule suitable for make
describing the dependencies of each object file. For each source file,
the preprocessor outputs one make-rule whose target is the object
file name for that source file and whose dependencies are all the
files `#include'd in it. This rule may be a single line or may be
continued with `\'-newline if it is long. The list
of rules is printed on standard output instead of the preprocessed
C program. `-M' implies `-E'.
- [-C]Tell the preprocessor not to discard comments. Used with
the `-E' option.
- [-MM]Like `-M' but the output mentions only the user header
files included with `#include ``file"'. System header
files included with `#include <file>' are omitted.
- [-Aquestion(answer)]Assert the answer answer for question,
in case it is tested with a preprocessor conditional such as `#if
#question(answer)'. `-A-' disables the standard assertions that normally
describe the target machine.
- [-Aquestion](answer) Assert the answer answer for question,
in case it is tested with a preprocessor conditional such as `#if
#question(answer)'. `-A-' disables the standard assertions that normally
describe the target machine.
- [-Umacro]Undefine macro macro. `-U' options are evaluated
after all `-D' options, but before any `-include' and `-imacros' options.
- [-dM]Tell the preprocessor to output only a list of the macro
definitions that are in effect at the end of preprocessing. Used with
the `-E' option.
- [-dD]Tell the preprocessor to pass all macro definitions
into the output, in their proper sequence in the rest of the output.
- [-dN]Like `-dD' except that the macro arguments and contents
are omitted. Only `#define name' is included in the output.
- [-L -lib-path]<absolute path to additional libraries> This
option is passed to the linkage editor's additional libraries search
path. The path name must be absolute. Additional library files may
be specified in the command line. See section Compiling programs for
more details.
- [-xram-loc<Value>]The start location of the external ram,
default value is 0. The value entered can be in Hexadecimal or Decimal
format, e.g.: -xram-loc 0x8000 or -xram-loc 32768.
- [-code-loc<Value>]The start location of the code segment,
default value 0. Note when this option is used the interrupt vector
table is also relocated to the given address. The value entered can
be in Hexadecimal or Decimal format, e.g.: -code-loc 0x8000 or -code-loc
32768.
- [-stack-loc<Value>]The initial value of the stack pointer.
The default value of the stack pointer is 0x07 if only register bank
0 is used, if other register banks are used then the stack pointer
is initialized to the location above the highest register bank used.
eg. if register banks 1 & 2 are used the stack pointer will default
to location 0x18. The value entered can be in Hexadecimal or Decimal
format, eg. -stack-loc 0x20 or -stack-loc 32. If all four register
banks are used the stack will be placed after the data segment (equivalent
to -stack-after-data)
- [-stack-after-data]This option will cause the stack to be
located in the internal ram after the data segment.
- [-data-loc<Value>]The start location of the internal ram
data segment, the default value is 0x30.The value entered can be in
Hexadecimal or Decimal format, eg. -data-loc 0x20 or -data-loc 32.
- [-idata-loc<Value>]The start location of the indirectly
addressable internal ram, default value is 0x80. The value entered
can be in Hexadecimal or Decimal format, eg. -idata-loc 0x88 or -idata-loc
136.
- [-out-fmt-ihx]The linker output (final object code) is in
Intel Hex format. (This is the default option).
- [-out-fmt-s19]The linker output (final object code) is in
Motorola S19 format.
- [-model-large]Generate code for Large model programs see
section Memory Models for more details. If this option is used all
source files in the project should be compiled with this option. In
addition the standard library routines are compiled with small model,
they will need to be recompiled.
- [-model-small]Generate code for Small Model programs see
section Memory Models for more details. This is the default model.
- [-model-flat24]Generate 24-bit flat mode code. This is the
one and only that the ds390 code generator supports right now and
is default when using -mds390. See section Memory Models for
more details.
- [-stack-10bit]Generate code for the 10 bit stack mode of
the Dallas DS80C390 part. This is the one and only that the ds390
code generator supports right now and is default when using -mds390.
In this mode, the stack is located in the lower 1K of the internal
RAM, which is mapped to 0x400000. Note that the support is incomplete,
since it still uses a single byte as the stack pointer. This means
that only the lower 256 bytes of the potential 1K stack space will
actually be used. However, this does allow you to reclaim the precious
256 bytes of low RAM for use for the DATA and IDATA segments. The
compiler will not generate any code to put the processor into 10 bit
stack mode. It is important to ensure that the processor is in this
mode before calling any re-entrant functions compiled with this option.
In principle, this should work with the -stack-auto option,
but that has not been tested. It is incompatible with the -xstack
option. It also only makes sense if the processor is in 24 bit contiguous
addressing mode (see the -model-flat24 option).
- [-nogcse]Will not do global subexpression elimination, this
option may be used when the compiler creates undesirably large stack/data
spaces to store compiler temporaries. A warning message will be generated
when this happens and the compiler will indicate the number of extra
bytes it allocated. It recommended that this option NOT be used, #pragma NOGCSE
can be used to turn off global subexpression elimination for a given
function only.
- [-noinvariant]Will not do loop invariant optimizations,
this may be turned off for reasons explained for the previous option.
For more details of loop optimizations performed see section Loop
Invariants.It recommended that this option NOT be used, #pragma NOINVARIANT
can be used to turn off invariant optimizations for a given function
only.
- [-noinduction]Will not do loop induction optimizations,
see section strength reduction for more details.It is recommended
that this option is NOT used, #pragma NOINDUCTION can be used to
turn off induction optimizations for a given function only.
- [-nojtbound] Will not generate boundary condition check
when switch statements are implemented using jump-tables. See section
Switch Statements for more details. It is recommended that this option
is NOT used, #pragma NOJTBOUND can be used to turn off boundary
checking for jump tables for a given function only.
- [-noloopreverse]Will not do loop reversal optimization.
- [-c -compile-only]will compile and assemble the source,
but will not call the linkage editor.
- [-E]Run only the C preprocessor. Preprocess all the C source
files specified and output the results to standard output.
- [-stack-auto]All functions in the source file will be compiled
as reentrant, i.e. the parameters and local variables will
be allocated on the stack. see section Parameters and Local Variables
for more details. If this option is used all source files in the project
should be compiled with this option.
- [-xstack]Uses a pseudo stack in the first 256 bytes in the
external ram for allocating variables and passing parameters. See
section on external stack for more details.
- [-callee-saves]function1[,function2][,function3]....
The compiler by default uses a caller saves convention for register
saving across function calls, however this can cause unneccessary
register pushing & popping when calling small functions from larger
functions. This option can be used to switch the register saving convention
for the function names specified. The compiler will not save registers
when calling these functions, no extra code will be generated at the
entry & exit for these functions to save & restore the registers
used by these functions, this can SUBSTANTIALLY reduce code & improve
run time performance of the generated code. In the future the compiler
(with interprocedural analysis) will be able to determine the appropriate
scheme to use for each function call. DO NOT use this option for built-in
functions such as _muluint..., if this option is used for a library
function the appropriate library function needs to be recompiled with
the same option. If the project consists of multiple source files
then all the source file should be compiled with the same -callee-saves
option string. Also see #pragma CALLEE-SAVES.
- [-debug]When this option is used the compiler will generate
debug information, that can be used with the SDCDB. The debug information
is collected in a file with .cdb extension. For more information see
documentation for SDCDB.
- [-regextend] This option is obsolete and isn't
supported anymore.
- [-noregparms]This option is obsolete and isn't
supported anymore.
- [-peep-file<filename>]This option can be used to use additional
rules to be used by the peep hole optimizer. See section Peep Hole
optimizations for details on how to write these rules.
- [-S]Stop after the stage of compilation proper; do not assemble.
The output is an assembler code file for the input file specified.
- [-Wa_asmOption[,asmOption]...]Pass the asmOption to
the assembler.
- [-Wl_linkOption[,linkOption]...]Pass the linkOption
to the linker.
- [-int-long-reent] Integer (16 bit) and long (32 bit) libraries
have been compiled as reentrant. Note by default these libraries are
compiled as non-reentrant. See section Installation for more details.
- [-cyclomatic]This option will cause the compiler to generate
an information message for each function in the source file. The message
contains some important information about the function. The
number of edges and nodes the compiler detected in the control flow
graph of the function, and most importantly the cyclomatic complexity
see section on Cyclomatic Complexity for more details.
- [-float-reent] Floating point library is compiled as reentrant.See
section Installation for more details.
- [-nooverlay] The compiler will not overlay parameters and
local variables of any function, see section Parameters and local
variables for more details.
- [-main-return]This option can be used when the code generated
is called by a monitor program. The compiler will generate a 'ret'
upon return from the 'main' function. The default option is to lock
up i.e. generate a 'ljmp '.
- [-no-peep] Disable peep-hole optimization.
- [-peep-asm] Pass the inline assembler code through the peep
hole optimizer. This can cause unexpected changes to inline assembler
code, please go through the peephole optimizer rules defined in the
source file tree '<target>/peeph.def' before using this option.
- [-iram-size<Value>]Causes the linker to check if the interal
ram usage is within limits of the given value.
- [-nostdincl]This will prevent the compiler from passing
on the default include path to the preprocessor.
- [-nostdlib]This will prevent the compiler from passing on
the default library path to the linker.
- [-verbose]Shows the various actions the compiler is performing.
- [-V]Shows the actual commands the compiler is executing.
The following options are provided for the purpose of retargetting
and debugging the compiler. These provided a means to dump the intermediate
code (iCode) generated by the compiler in human readable form at various
stages of the compilation process.
- [-dumpraw]This option will cause the compiler to dump the
intermediate code into a file of named <source filename>.dumpraw
just after the intermediate code has been generated for a function,
i.e. before any optimizations are done. The basic blocks at this stage
ordered in the depth first number, so they may not be in sequence
of execution.
- [-dumpgcse]Will create a dump of iCode's, after global subexpression
elimination, into a file named <source filename>.dumpgcse.
- [-dumpdeadcode]Will create a dump of iCode's, after deadcode
elimination, into a file named <source filename>.dumpdeadcode.
- [-dumploop]Will create a dump of iCode's, after loop optimizations,
into a file named <source filename>.dumploop.
- [-dumprange]Will create a dump of iCode's, after live range
analysis, into a file named <source filename>.dumprange.
- [-dumlrange]Will dump the life ranges for all symbols.
- [-dumpregassign]Will create a dump of iCode's, after register
assignment, into a file named <source filename>.dumprassgn.
- [-dumplrange]Will create a dump of the live ranges of iTemp's
- [-dumpall]Will cause all the above mentioned dumps to be
created.
Next: 3.3 MCS51/DS390 Storage Class
Up: 3. Using SDCC
Previous: 3.1 Compiling
  Contents
  Index
Johan Knol
2001-07-13