Using the GNU Compiler Collection (GCC): RL78 Options |
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-msim
Links in additional target libraries to support operation within a simulator.
-mmul=none
-mmul=g10
-mmul=g13
-mmul=g14
-mmul=rl78
Specifies the type of hardware multiplication and division support to
be used. The simplest is none
, which uses software for both
multiplication and division. This is the default. The g13
value is for the hardware multiply/divide peripheral found on the
RL78/G13 (S2 core) targets. The g14
value selects the use of
the multiplication and division instructions supported by the RL78/G14
(S3 core) parts. The value rl78
is an alias for g14
and
the value mg10
is an alias for none
.
In addition a C preprocessor macro is defined, based upon the setting
of this option. Possible values are: __RL78_MUL_NONE__
,
__RL78_MUL_G13__
or __RL78_MUL_G14__
.
-mcpu=g10
-mcpu=g13
-mcpu=g14
-mcpu=rl78
Specifies the RL78 core to target. The default is the G14 core, also known as an S3 core or just RL78. The G13 or S2 core does not have multiply or divide instructions, instead it uses a hardware peripheral for these operations. The G10 or S1 core does not have register banks, so it uses a different calling convention.
If this option is set it also selects the type of hardware multiply support to use, unless this is overridden by an explicit -mmul=none option on the command line. Thus specifying -mcpu=g13 enables the use of the G13 hardware multiply peripheral and specifying -mcpu=g10 disables the use of hardware multiplications altogether.
Note, although the RL78/G14 core is the default target, specifying -mcpu=g14 or -mcpu=rl78 on the command line does change the behavior of the toolchain since it also enables G14 hardware multiply support. If these options are not specified on the command line then software multiplication routines will be used even though the code targets the RL78 core. This is for backwards compatibility with older toolchains which did not have hardware multiply and divide support.
In addition a C preprocessor macro is defined, based upon the setting
of this option. Possible values are: __RL78_G10__
,
__RL78_G13__
or __RL78_G14__
.
-mg10
-mg13
-mg14
-mrl78
These are aliases for the corresponding -mcpu= option. They are provided for backwards compatibility.
-mallregs
Allow the compiler to use all of the available registers. By default
registers r24..r31
are reserved for use in interrupt handlers.
With this option enabled these registers can be used in ordinary
functions as well.
-m64bit-doubles
-m32bit-doubles
Make the double
data type be 64 bits (-m64bit-doubles)
or 32 bits (-m32bit-doubles) in size. The default is
-m32bit-doubles.
-msave-mduc-in-interrupts
-mno-save-mduc-in-interrupts
Specifies that interrupt handler functions should preserve the MDUC registers. This is only necessary if normal code might use the MDUC registers, for example because it performs multiplication and division operations. The default is to ignore the MDUC registers as this makes the interrupt handlers faster. The target option -mg13 needs to be passed for this to work as this feature is only available on the G13 target (S2 core). The MDUC registers will only be saved if the interrupt handler performs a multiplication or division operation or it calls another function.
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