These options are defined for the MSP430:
-masm-hex
¶Force assembly output to always use hex constants. Normally such constants are signed decimals, but this option is available for testsuite and/or aesthetic purposes.
-mmcu=
¶Select the MCU to target. This is used to create a C preprocessor symbol based upon the MCU name, converted to upper case and pre- and post-fixed with ‘__’. This in turn is used by the msp430.h header file to select an MCU-specific supplementary header file.
The option also sets the ISA to use. If the MCU name is one that is known to only support the 430 ISA then that is selected, otherwise the 430X ISA is selected. A generic MCU name of ‘msp430’ can also be used to select the 430 ISA. Similarly the generic ‘msp430x’ MCU name selects the 430X ISA.
In addition an MCU-specific linker script is added to the linker
command line. The script’s name is the name of the MCU with
.ld appended. Thus specifying -mmcu=xxx on the gcc
command line defines the C preprocessor symbol __XXX__
and
cause the linker to search for a script called xxx.ld.
This option is also passed on to the assembler.
-mwarn-mcu
¶-mno-warn-mcu
This option enables or disables warnings about conflicts between the MCU name specified by the -mmcu option and the ISA set by the -mcpu option and/or the hardware multiply support set by the -mhwmult option. It also toggles warnings about unrecognized MCU names. This option is on by default.
-mcpu=
¶Specifies the ISA to use. Accepted values are ‘msp430’, ‘msp430x’ and ‘msp430xv2’. This option is deprecated. The -mmcu= option should be used to select the ISA.
-msim
¶Link to the simulator runtime libraries and linker script. Overrides any scripts that would be selected by the -mmcu= option.
-mlarge
¶Use large-model addressing (20-bit pointers, 32-bit size_t
).
-msmall
¶Use small-model addressing (16-bit pointers, 16-bit size_t
).
-mrelax
¶This option is passed to the assembler and linker, and allows the linker to perform certain optimizations that cannot be done until the final link.
mhwmult=
¶Describes the type of hardware multiply supported by the target.
Accepted values are ‘none’ for no hardware multiply, ‘16bit’
for the original 16-bit-only multiply supported by early MCUs.
‘32bit’ for the 16/32-bit multiply supported by later MCUs and
‘f5series’ for the 16/32-bit multiply supported by F5-series MCUs.
A value of ‘auto’ can also be given. This tells GCC to deduce
the hardware multiply support based upon the MCU name provided by the
-mmcu option. If no -mmcu option is specified or if
the MCU name is not recognized then no hardware multiply support is
assumed. auto
is the default setting.
Hardware multiplies are normally performed by calling a library routine. This saves space in the generated code. When compiling at -O3 or higher however the hardware multiplier is invoked inline. This makes for bigger, but faster code.
The hardware multiply routines disable interrupts whilst running and restore the previous interrupt state when they finish. This makes them safe to use inside interrupt handlers as well as in normal code.
-minrt
¶Enable the use of a minimum runtime environment - no static initializers or constructors. This is intended for memory-constrained devices. The compiler includes special symbols in some objects that tell the linker and runtime which code fragments are required.
-mcode-region=
¶-mdata-region=
These options tell the compiler where to place functions and data that
do not have one of the lower
, upper
, either
or
section
attributes. Possible values are lower
,
upper
, either
or any
. The first three behave
like the corresponding attribute. The fourth possible value -
any
- is the default. It leaves placement entirely up to the
linker script and how it assigns the standard sections
(.text
, .data
, etc) to the memory regions.
-msilicon-errata=
¶This option passes on a request to assembler to enable the fixes for the named silicon errata.
-msilicon-errata-warn=
¶This option passes on a request to the assembler to enable warning messages when a silicon errata might need to be applied.