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- <a name="SH-Options"></a>
- <div class="header">
- <p>
- Next: <a href="Solaris-2-Options.html#Solaris-2-Options" accesskey="n" rel="next">Solaris 2 Options</a>, Previous: <a href="Score-Options.html#Score-Options" accesskey="p" rel="prev">Score Options</a>, Up: <a href="Submodel-Options.html#Submodel-Options" accesskey="u" rel="up">Submodel Options</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
- </div>
- <hr>
- <a name="SH-Options-1"></a>
- <h4 class="subsection">3.19.48 SH Options</h4>
-
- <p>These ‘<samp>-m</samp>’ options are defined for the SH implementations:
- </p>
- <dl compact="compact">
- <dt><code>-m1</code></dt>
- <dd><a name="index-m1"></a>
- <p>Generate code for the SH1.
- </p>
- </dd>
- <dt><code>-m2</code></dt>
- <dd><a name="index-m2"></a>
- <p>Generate code for the SH2.
- </p>
- </dd>
- <dt><code>-m2e</code></dt>
- <dd><p>Generate code for the SH2e.
- </p>
- </dd>
- <dt><code>-m2a-nofpu</code></dt>
- <dd><a name="index-m2a_002dnofpu"></a>
- <p>Generate code for the SH2a without FPU, or for a SH2a-FPU in such a way
- that the floating-point unit is not used.
- </p>
- </dd>
- <dt><code>-m2a-single-only</code></dt>
- <dd><a name="index-m2a_002dsingle_002donly"></a>
- <p>Generate code for the SH2a-FPU, in such a way that no double-precision
- floating-point operations are used.
- </p>
- </dd>
- <dt><code>-m2a-single</code></dt>
- <dd><a name="index-m2a_002dsingle"></a>
- <p>Generate code for the SH2a-FPU assuming the floating-point unit is in
- single-precision mode by default.
- </p>
- </dd>
- <dt><code>-m2a</code></dt>
- <dd><a name="index-m2a"></a>
- <p>Generate code for the SH2a-FPU assuming the floating-point unit is in
- double-precision mode by default.
- </p>
- </dd>
- <dt><code>-m3</code></dt>
- <dd><a name="index-m3"></a>
- <p>Generate code for the SH3.
- </p>
- </dd>
- <dt><code>-m3e</code></dt>
- <dd><a name="index-m3e"></a>
- <p>Generate code for the SH3e.
- </p>
- </dd>
- <dt><code>-m4-nofpu</code></dt>
- <dd><a name="index-m4_002dnofpu"></a>
- <p>Generate code for the SH4 without a floating-point unit.
- </p>
- </dd>
- <dt><code>-m4-single-only</code></dt>
- <dd><a name="index-m4_002dsingle_002donly"></a>
- <p>Generate code for the SH4 with a floating-point unit that only
- supports single-precision arithmetic.
- </p>
- </dd>
- <dt><code>-m4-single</code></dt>
- <dd><a name="index-m4_002dsingle"></a>
- <p>Generate code for the SH4 assuming the floating-point unit is in
- single-precision mode by default.
- </p>
- </dd>
- <dt><code>-m4</code></dt>
- <dd><a name="index-m4"></a>
- <p>Generate code for the SH4.
- </p>
- </dd>
- <dt><code>-m4-100</code></dt>
- <dd><a name="index-m4_002d100"></a>
- <p>Generate code for SH4-100.
- </p>
- </dd>
- <dt><code>-m4-100-nofpu</code></dt>
- <dd><a name="index-m4_002d100_002dnofpu"></a>
- <p>Generate code for SH4-100 in such a way that the
- floating-point unit is not used.
- </p>
- </dd>
- <dt><code>-m4-100-single</code></dt>
- <dd><a name="index-m4_002d100_002dsingle"></a>
- <p>Generate code for SH4-100 assuming the floating-point unit is in
- single-precision mode by default.
- </p>
- </dd>
- <dt><code>-m4-100-single-only</code></dt>
- <dd><a name="index-m4_002d100_002dsingle_002donly"></a>
- <p>Generate code for SH4-100 in such a way that no double-precision
- floating-point operations are used.
- </p>
- </dd>
- <dt><code>-m4-200</code></dt>
- <dd><a name="index-m4_002d200"></a>
- <p>Generate code for SH4-200.
- </p>
- </dd>
- <dt><code>-m4-200-nofpu</code></dt>
- <dd><a name="index-m4_002d200_002dnofpu"></a>
- <p>Generate code for SH4-200 without in such a way that the
- floating-point unit is not used.
- </p>
- </dd>
- <dt><code>-m4-200-single</code></dt>
- <dd><a name="index-m4_002d200_002dsingle"></a>
- <p>Generate code for SH4-200 assuming the floating-point unit is in
- single-precision mode by default.
- </p>
- </dd>
- <dt><code>-m4-200-single-only</code></dt>
- <dd><a name="index-m4_002d200_002dsingle_002donly"></a>
- <p>Generate code for SH4-200 in such a way that no double-precision
- floating-point operations are used.
- </p>
- </dd>
- <dt><code>-m4-300</code></dt>
- <dd><a name="index-m4_002d300"></a>
- <p>Generate code for SH4-300.
- </p>
- </dd>
- <dt><code>-m4-300-nofpu</code></dt>
- <dd><a name="index-m4_002d300_002dnofpu"></a>
- <p>Generate code for SH4-300 without in such a way that the
- floating-point unit is not used.
- </p>
- </dd>
- <dt><code>-m4-300-single</code></dt>
- <dd><a name="index-m4_002d300_002dsingle"></a>
- <p>Generate code for SH4-300 in such a way that no double-precision
- floating-point operations are used.
- </p>
- </dd>
- <dt><code>-m4-300-single-only</code></dt>
- <dd><a name="index-m4_002d300_002dsingle_002donly"></a>
- <p>Generate code for SH4-300 in such a way that no double-precision
- floating-point operations are used.
- </p>
- </dd>
- <dt><code>-m4-340</code></dt>
- <dd><a name="index-m4_002d340"></a>
- <p>Generate code for SH4-340 (no MMU, no FPU).
- </p>
- </dd>
- <dt><code>-m4-500</code></dt>
- <dd><a name="index-m4_002d500"></a>
- <p>Generate code for SH4-500 (no FPU). Passes <samp>-isa=sh4-nofpu</samp> to the
- assembler.
- </p>
- </dd>
- <dt><code>-m4a-nofpu</code></dt>
- <dd><a name="index-m4a_002dnofpu"></a>
- <p>Generate code for the SH4al-dsp, or for a SH4a in such a way that the
- floating-point unit is not used.
- </p>
- </dd>
- <dt><code>-m4a-single-only</code></dt>
- <dd><a name="index-m4a_002dsingle_002donly"></a>
- <p>Generate code for the SH4a, in such a way that no double-precision
- floating-point operations are used.
- </p>
- </dd>
- <dt><code>-m4a-single</code></dt>
- <dd><a name="index-m4a_002dsingle"></a>
- <p>Generate code for the SH4a assuming the floating-point unit is in
- single-precision mode by default.
- </p>
- </dd>
- <dt><code>-m4a</code></dt>
- <dd><a name="index-m4a"></a>
- <p>Generate code for the SH4a.
- </p>
- </dd>
- <dt><code>-m4al</code></dt>
- <dd><a name="index-m4al"></a>
- <p>Same as <samp>-m4a-nofpu</samp>, except that it implicitly passes
- <samp>-dsp</samp> to the assembler. GCC doesn’t generate any DSP
- instructions at the moment.
- </p>
- </dd>
- <dt><code>-mb</code></dt>
- <dd><a name="index-mb"></a>
- <p>Compile code for the processor in big-endian mode.
- </p>
- </dd>
- <dt><code>-ml</code></dt>
- <dd><a name="index-ml-1"></a>
- <p>Compile code for the processor in little-endian mode.
- </p>
- </dd>
- <dt><code>-mdalign</code></dt>
- <dd><a name="index-mdalign"></a>
- <p>Align doubles at 64-bit boundaries. Note that this changes the calling
- conventions, and thus some functions from the standard C library do
- not work unless you recompile it first with <samp>-mdalign</samp>.
- </p>
- </dd>
- <dt><code>-mrelax</code></dt>
- <dd><a name="index-mrelax-6"></a>
- <p>Shorten some address references at link time, when possible; uses the
- linker option <samp>-relax</samp>.
- </p>
- </dd>
- <dt><code>-mbigtable</code></dt>
- <dd><a name="index-mbigtable"></a>
- <p>Use 32-bit offsets in <code>switch</code> tables. The default is to use
- 16-bit offsets.
- </p>
- </dd>
- <dt><code>-mbitops</code></dt>
- <dd><a name="index-mbitops-1"></a>
- <p>Enable the use of bit manipulation instructions on SH2A.
- </p>
- </dd>
- <dt><code>-mfmovd</code></dt>
- <dd><a name="index-mfmovd"></a>
- <p>Enable the use of the instruction <code>fmovd</code>. Check <samp>-mdalign</samp> for
- alignment constraints.
- </p>
- </dd>
- <dt><code>-mrenesas</code></dt>
- <dd><a name="index-mrenesas"></a>
- <p>Comply with the calling conventions defined by Renesas.
- </p>
- </dd>
- <dt><code>-mno-renesas</code></dt>
- <dd><a name="index-mno_002drenesas"></a>
- <p>Comply with the calling conventions defined for GCC before the Renesas
- conventions were available. This option is the default for all
- targets of the SH toolchain.
- </p>
- </dd>
- <dt><code>-mnomacsave</code></dt>
- <dd><a name="index-mnomacsave"></a>
- <p>Mark the <code>MAC</code> register as call-clobbered, even if
- <samp>-mrenesas</samp> is given.
- </p>
- </dd>
- <dt><code>-mieee</code></dt>
- <dt><code>-mno-ieee</code></dt>
- <dd><a name="index-mieee-1"></a>
- <a name="index-mno_002dieee"></a>
- <p>Control the IEEE compliance of floating-point comparisons, which affects the
- handling of cases where the result of a comparison is unordered. By default
- <samp>-mieee</samp> is implicitly enabled. If <samp>-ffinite-math-only</samp> is
- enabled <samp>-mno-ieee</samp> is implicitly set, which results in faster
- floating-point greater-equal and less-equal comparisons. The implicit settings
- can be overridden by specifying either <samp>-mieee</samp> or <samp>-mno-ieee</samp>.
- </p>
- </dd>
- <dt><code>-minline-ic_invalidate</code></dt>
- <dd><a name="index-minline_002dic_005finvalidate"></a>
- <p>Inline code to invalidate instruction cache entries after setting up
- nested function trampolines.
- This option has no effect if <samp>-musermode</samp> is in effect and the selected
- code generation option (e.g. <samp>-m4</samp>) does not allow the use of the <code>icbi</code>
- instruction.
- If the selected code generation option does not allow the use of the <code>icbi</code>
- instruction, and <samp>-musermode</samp> is not in effect, the inlined code
- manipulates the instruction cache address array directly with an associative
- write. This not only requires privileged mode at run time, but it also
- fails if the cache line had been mapped via the TLB and has become unmapped.
- </p>
- </dd>
- <dt><code>-misize</code></dt>
- <dd><a name="index-misize-1"></a>
- <p>Dump instruction size and location in the assembly code.
- </p>
- </dd>
- <dt><code>-mpadstruct</code></dt>
- <dd><a name="index-mpadstruct"></a>
- <p>This option is deprecated. It pads structures to multiple of 4 bytes,
- which is incompatible with the SH ABI.
- </p>
- </dd>
- <dt><code>-matomic-model=<var>model</var></code></dt>
- <dd><a name="index-matomic_002dmodel_003dmodel"></a>
- <p>Sets the model of atomic operations and additional parameters as a comma
- separated list. For details on the atomic built-in functions see
- <a href="_005f_005fatomic-Builtins.html#g_t_005f_005fatomic-Builtins">__atomic Builtins</a>. The following models and parameters are supported:
- </p>
- <dl compact="compact">
- <dt>‘<samp>none</samp>’</dt>
- <dd><p>Disable compiler generated atomic sequences and emit library calls for atomic
- operations. This is the default if the target is not <code>sh*-*-linux*</code>.
- </p>
- </dd>
- <dt>‘<samp>soft-gusa</samp>’</dt>
- <dd><p>Generate GNU/Linux compatible gUSA software atomic sequences for the atomic
- built-in functions. The generated atomic sequences require additional support
- from the interrupt/exception handling code of the system and are only suitable
- for SH3* and SH4* single-core systems. This option is enabled by default when
- the target is <code>sh*-*-linux*</code> and SH3* or SH4*. When the target is SH4A,
- this option also partially utilizes the hardware atomic instructions
- <code>movli.l</code> and <code>movco.l</code> to create more efficient code, unless
- ‘<samp>strict</samp>’ is specified.
- </p>
- </dd>
- <dt>‘<samp>soft-tcb</samp>’</dt>
- <dd><p>Generate software atomic sequences that use a variable in the thread control
- block. This is a variation of the gUSA sequences which can also be used on
- SH1* and SH2* targets. The generated atomic sequences require additional
- support from the interrupt/exception handling code of the system and are only
- suitable for single-core systems. When using this model, the ‘<samp>gbr-offset=</samp>’
- parameter has to be specified as well.
- </p>
- </dd>
- <dt>‘<samp>soft-imask</samp>’</dt>
- <dd><p>Generate software atomic sequences that temporarily disable interrupts by
- setting <code>SR.IMASK = 1111</code>. This model works only when the program runs
- in privileged mode and is only suitable for single-core systems. Additional
- support from the interrupt/exception handling code of the system is not
- required. This model is enabled by default when the target is
- <code>sh*-*-linux*</code> and SH1* or SH2*.
- </p>
- </dd>
- <dt>‘<samp>hard-llcs</samp>’</dt>
- <dd><p>Generate hardware atomic sequences using the <code>movli.l</code> and <code>movco.l</code>
- instructions only. This is only available on SH4A and is suitable for
- multi-core systems. Since the hardware instructions support only 32 bit atomic
- variables access to 8 or 16 bit variables is emulated with 32 bit accesses.
- Code compiled with this option is also compatible with other software
- atomic model interrupt/exception handling systems if executed on an SH4A
- system. Additional support from the interrupt/exception handling code of the
- system is not required for this model.
- </p>
- </dd>
- <dt>‘<samp>gbr-offset=</samp>’</dt>
- <dd><p>This parameter specifies the offset in bytes of the variable in the thread
- control block structure that should be used by the generated atomic sequences
- when the ‘<samp>soft-tcb</samp>’ model has been selected. For other models this
- parameter is ignored. The specified value must be an integer multiple of four
- and in the range 0-1020.
- </p>
- </dd>
- <dt>‘<samp>strict</samp>’</dt>
- <dd><p>This parameter prevents mixed usage of multiple atomic models, even if they
- are compatible, and makes the compiler generate atomic sequences of the
- specified model only.
- </p>
- </dd>
- </dl>
-
- </dd>
- <dt><code>-mtas</code></dt>
- <dd><a name="index-mtas"></a>
- <p>Generate the <code>tas.b</code> opcode for <code>__atomic_test_and_set</code>.
- Notice that depending on the particular hardware and software configuration
- this can degrade overall performance due to the operand cache line flushes
- that are implied by the <code>tas.b</code> instruction. On multi-core SH4A
- processors the <code>tas.b</code> instruction must be used with caution since it
- can result in data corruption for certain cache configurations.
- </p>
- </dd>
- <dt><code>-mprefergot</code></dt>
- <dd><a name="index-mprefergot"></a>
- <p>When generating position-independent code, emit function calls using
- the Global Offset Table instead of the Procedure Linkage Table.
- </p>
- </dd>
- <dt><code>-musermode</code></dt>
- <dt><code>-mno-usermode</code></dt>
- <dd><a name="index-musermode"></a>
- <a name="index-mno_002dusermode"></a>
- <p>Don’t allow (allow) the compiler generating privileged mode code. Specifying
- <samp>-musermode</samp> also implies <samp>-mno-inline-ic_invalidate</samp> if the
- inlined code would not work in user mode. <samp>-musermode</samp> is the default
- when the target is <code>sh*-*-linux*</code>. If the target is SH1* or SH2*
- <samp>-musermode</samp> has no effect, since there is no user mode.
- </p>
- </dd>
- <dt><code>-multcost=<var>number</var></code></dt>
- <dd><a name="index-multcost_003dnumber"></a>
- <p>Set the cost to assume for a multiply insn.
- </p>
- </dd>
- <dt><code>-mdiv=<var>strategy</var></code></dt>
- <dd><a name="index-mdiv_003dstrategy"></a>
- <p>Set the division strategy to be used for integer division operations.
- <var>strategy</var> can be one of:
- </p>
- <dl compact="compact">
- <dt>‘<samp>call-div1</samp>’</dt>
- <dd><p>Calls a library function that uses the single-step division instruction
- <code>div1</code> to perform the operation. Division by zero calculates an
- unspecified result and does not trap. This is the default except for SH4,
- SH2A and SHcompact.
- </p>
- </dd>
- <dt>‘<samp>call-fp</samp>’</dt>
- <dd><p>Calls a library function that performs the operation in double precision
- floating point. Division by zero causes a floating-point exception. This is
- the default for SHcompact with FPU. Specifying this for targets that do not
- have a double precision FPU defaults to <code>call-div1</code>.
- </p>
- </dd>
- <dt>‘<samp>call-table</samp>’</dt>
- <dd><p>Calls a library function that uses a lookup table for small divisors and
- the <code>div1</code> instruction with case distinction for larger divisors. Division
- by zero calculates an unspecified result and does not trap. This is the default
- for SH4. Specifying this for targets that do not have dynamic shift
- instructions defaults to <code>call-div1</code>.
- </p>
- </dd>
- </dl>
-
- <p>When a division strategy has not been specified the default strategy is
- selected based on the current target. For SH2A the default strategy is to
- use the <code>divs</code> and <code>divu</code> instructions instead of library function
- calls.
- </p>
- </dd>
- <dt><code>-maccumulate-outgoing-args</code></dt>
- <dd><a name="index-maccumulate_002doutgoing_002dargs"></a>
- <p>Reserve space once for outgoing arguments in the function prologue rather
- than around each call. Generally beneficial for performance and size. Also
- needed for unwinding to avoid changing the stack frame around conditional code.
- </p>
- </dd>
- <dt><code>-mdivsi3_libfunc=<var>name</var></code></dt>
- <dd><a name="index-mdivsi3_005flibfunc_003dname"></a>
- <p>Set the name of the library function used for 32-bit signed division to
- <var>name</var>.
- This only affects the name used in the ‘<samp>call</samp>’ division strategies, and
- the compiler still expects the same sets of input/output/clobbered registers as
- if this option were not present.
- </p>
- </dd>
- <dt><code>-mfixed-range=<var>register-range</var></code></dt>
- <dd><a name="index-mfixed_002drange-2"></a>
- <p>Generate code treating the given register range as fixed registers.
- A fixed register is one that the register allocator cannot use. This is
- useful when compiling kernel code. A register range is specified as
- two registers separated by a dash. Multiple register ranges can be
- specified separated by a comma.
- </p>
- </dd>
- <dt><code>-mbranch-cost=<var>num</var></code></dt>
- <dd><a name="index-mbranch_002dcost_003dnum"></a>
- <p>Assume <var>num</var> to be the cost for a branch instruction. Higher numbers
- make the compiler try to generate more branch-free code if possible.
- If not specified the value is selected depending on the processor type that
- is being compiled for.
- </p>
- </dd>
- <dt><code>-mzdcbranch</code></dt>
- <dt><code>-mno-zdcbranch</code></dt>
- <dd><a name="index-mzdcbranch"></a>
- <a name="index-mno_002dzdcbranch"></a>
- <p>Assume (do not assume) that zero displacement conditional branch instructions
- <code>bt</code> and <code>bf</code> are fast. If <samp>-mzdcbranch</samp> is specified, the
- compiler prefers zero displacement branch code sequences. This is
- enabled by default when generating code for SH4 and SH4A. It can be explicitly
- disabled by specifying <samp>-mno-zdcbranch</samp>.
- </p>
- </dd>
- <dt><code>-mcbranch-force-delay-slot</code></dt>
- <dd><a name="index-mcbranch_002dforce_002ddelay_002dslot"></a>
- <p>Force the usage of delay slots for conditional branches, which stuffs the delay
- slot with a <code>nop</code> if a suitable instruction cannot be found. By default
- this option is disabled. It can be enabled to work around hardware bugs as
- found in the original SH7055.
- </p>
- </dd>
- <dt><code>-mfused-madd</code></dt>
- <dt><code>-mno-fused-madd</code></dt>
- <dd><a name="index-mfused_002dmadd-4"></a>
- <a name="index-mno_002dfused_002dmadd-4"></a>
- <p>Generate code that uses (does not use) the floating-point multiply and
- accumulate instructions. These instructions are generated by default
- if hardware floating point is used. The machine-dependent
- <samp>-mfused-madd</samp> option is now mapped to the machine-independent
- <samp>-ffp-contract=fast</samp> option, and <samp>-mno-fused-madd</samp> is
- mapped to <samp>-ffp-contract=off</samp>.
- </p>
- </dd>
- <dt><code>-mfsca</code></dt>
- <dt><code>-mno-fsca</code></dt>
- <dd><a name="index-mfsca"></a>
- <a name="index-mno_002dfsca"></a>
- <p>Allow or disallow the compiler to emit the <code>fsca</code> instruction for sine
- and cosine approximations. The option <samp>-mfsca</samp> must be used in
- combination with <samp>-funsafe-math-optimizations</samp>. It is enabled by default
- when generating code for SH4A. Using <samp>-mno-fsca</samp> disables sine and cosine
- approximations even if <samp>-funsafe-math-optimizations</samp> is in effect.
- </p>
- </dd>
- <dt><code>-mfsrra</code></dt>
- <dt><code>-mno-fsrra</code></dt>
- <dd><a name="index-mfsrra"></a>
- <a name="index-mno_002dfsrra"></a>
- <p>Allow or disallow the compiler to emit the <code>fsrra</code> instruction for
- reciprocal square root approximations. The option <samp>-mfsrra</samp> must be used
- in combination with <samp>-funsafe-math-optimizations</samp> and
- <samp>-ffinite-math-only</samp>. It is enabled by default when generating code for
- SH4A. Using <samp>-mno-fsrra</samp> disables reciprocal square root approximations
- even if <samp>-funsafe-math-optimizations</samp> and <samp>-ffinite-math-only</samp> are
- in effect.
- </p>
- </dd>
- <dt><code>-mpretend-cmove</code></dt>
- <dd><a name="index-mpretend_002dcmove"></a>
- <p>Prefer zero-displacement conditional branches for conditional move instruction
- patterns. This can result in faster code on the SH4 processor.
- </p>
- </dd>
- <dt><code>-mfdpic</code></dt>
- <dd><a name="index-fdpic"></a>
- <p>Generate code using the FDPIC ABI.
- </p>
- </dd>
- </dl>
-
- <hr>
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- <p>
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