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- <a name="Flags"></a>
- <div class="header">
- <p>
- Next: <a href="Machine-Modes.html#Machine-Modes" accesskey="n" rel="next">Machine Modes</a>, Previous: <a href="Special-Accessors.html#Special-Accessors" accesskey="p" rel="prev">Special Accessors</a>, Up: <a href="RTL.html#RTL" accesskey="u" rel="up">RTL</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="Flags-in-an-RTL-Expression"></a>
- <h3 class="section">14.5 Flags in an RTL Expression</h3>
- <a name="index-flags-in-RTL-expression"></a>
-
- <p>RTL expressions contain several flags (one-bit bit-fields)
- that are used in certain types of expression. Most often they
- are accessed with the following macros, which expand into lvalues.
- </p>
- <dl compact="compact">
- <dd><a name="index-CROSSING_005fJUMP_005fP"></a>
- <a name="index-jump_005finsn-and-_002fj"></a>
- </dd>
- <dt><code>CROSSING_JUMP_P (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>jump_insn</code> if it crosses between hot and cold sections,
- which could potentially be very far apart in the executable. The presence
- of this flag indicates to other optimizations that this branching instruction
- should not be “collapsed” into a simpler branching construct. It is used
- when the optimization to partition basic blocks into hot and cold sections
- is turned on.
- </p>
- <a name="index-CONSTANT_005fPOOL_005fADDRESS_005fP"></a>
- <a name="index-symbol_005fref-and-_002fu"></a>
- <a name="index-unchanging_002c-in-symbol_005fref"></a>
- </dd>
- <dt><code>CONSTANT_POOL_ADDRESS_P (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>symbol_ref</code> if it refers to part of the current
- function’s constant pool. For most targets these addresses are in a
- <code>.rodata</code> section entirely separate from the function, but for
- some targets the addresses are close to the beginning of the function.
- In either case GCC assumes these addresses can be addressed directly,
- perhaps with the help of base registers.
- Stored in the <code>unchanging</code> field and printed as ‘<samp>/u</samp>’.
- </p>
- <a name="index-INSN_005fANNULLED_005fBRANCH_005fP"></a>
- <a name="index-jump_005finsn-and-_002fu"></a>
- <a name="index-call_005finsn-and-_002fu"></a>
- <a name="index-insn-and-_002fu"></a>
- <a name="index-unchanging_002c-in-jump_005finsn_002c-call_005finsn-and-insn"></a>
- </dd>
- <dt><code>INSN_ANNULLED_BRANCH_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>jump_insn</code>, <code>call_insn</code>, or <code>insn</code> indicates
- that the branch is an annulling one. See the discussion under
- <code>sequence</code> below. Stored in the <code>unchanging</code> field and
- printed as ‘<samp>/u</samp>’.
- </p>
- <a name="index-INSN_005fDELETED_005fP"></a>
- <a name="index-insn-and-_002fv"></a>
- <a name="index-call_005finsn-and-_002fv"></a>
- <a name="index-jump_005finsn-and-_002fv"></a>
- <a name="index-code_005flabel-and-_002fv"></a>
- <a name="index-jump_005ftable_005fdata-and-_002fv"></a>
- <a name="index-barrier-and-_002fv"></a>
- <a name="index-note-and-_002fv"></a>
- <a name="index-volatil_002c-in-insn_002c-call_005finsn_002c-jump_005finsn_002c-code_005flabel_002c-jump_005ftable_005fdata_002c-barrier_002c-and-note"></a>
- </dd>
- <dt><code>INSN_DELETED_P (<var>x</var>)</code></dt>
- <dd><p>In an <code>insn</code>, <code>call_insn</code>, <code>jump_insn</code>, <code>code_label</code>,
- <code>jump_table_data</code>, <code>barrier</code>, or <code>note</code>,
- nonzero if the insn has been deleted. Stored in the
- <code>volatil</code> field and printed as ‘<samp>/v</samp>’.
- </p>
- <a name="index-INSN_005fFROM_005fTARGET_005fP"></a>
- <a name="index-insn-and-_002fs"></a>
- <a name="index-jump_005finsn-and-_002fs"></a>
- <a name="index-call_005finsn-and-_002fs"></a>
- <a name="index-in_005fstruct_002c-in-insn-and-jump_005finsn-and-call_005finsn"></a>
- </dd>
- <dt><code>INSN_FROM_TARGET_P (<var>x</var>)</code></dt>
- <dd><p>In an <code>insn</code> or <code>jump_insn</code> or <code>call_insn</code> in a delay
- slot of a branch, indicates that the insn
- is from the target of the branch. If the branch insn has
- <code>INSN_ANNULLED_BRANCH_P</code> set, this insn will only be executed if
- the branch is taken. For annulled branches with
- <code>INSN_FROM_TARGET_P</code> clear, the insn will be executed only if the
- branch is not taken. When <code>INSN_ANNULLED_BRANCH_P</code> is not set,
- this insn will always be executed. Stored in the <code>in_struct</code>
- field and printed as ‘<samp>/s</samp>’.
- </p>
- <a name="index-LABEL_005fPRESERVE_005fP"></a>
- <a name="index-code_005flabel-and-_002fi"></a>
- <a name="index-note-and-_002fi"></a>
- <a name="index-in_005fstruct_002c-in-code_005flabel-and-note"></a>
- </dd>
- <dt><code>LABEL_PRESERVE_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>code_label</code> or <code>note</code>, indicates that the label is referenced by
- code or data not visible to the RTL of a given function.
- Labels referenced by a non-local goto will have this bit set. Stored
- in the <code>in_struct</code> field and printed as ‘<samp>/s</samp>’.
- </p>
- <a name="index-LABEL_005fREF_005fNONLOCAL_005fP"></a>
- <a name="index-label_005fref-and-_002fv"></a>
- <a name="index-reg_005flabel-and-_002fv"></a>
- <a name="index-volatil_002c-in-label_005fref-and-reg_005flabel"></a>
- </dd>
- <dt><code>LABEL_REF_NONLOCAL_P (<var>x</var>)</code></dt>
- <dd><p>In <code>label_ref</code> and <code>reg_label</code> expressions, nonzero if this is
- a reference to a non-local label.
- Stored in the <code>volatil</code> field and printed as ‘<samp>/v</samp>’.
- </p>
- <a name="index-MEM_005fKEEP_005fALIAS_005fSET_005fP"></a>
- <a name="index-mem-and-_002fj"></a>
- <a name="index-jump_002c-in-mem"></a>
- </dd>
- <dt><code>MEM_KEEP_ALIAS_SET_P (<var>x</var>)</code></dt>
- <dd><p>In <code>mem</code> expressions, 1 if we should keep the alias set for this
- mem unchanged when we access a component. Set to 1, for example, when we
- are already in a non-addressable component of an aggregate.
- Stored in the <code>jump</code> field and printed as ‘<samp>/j</samp>’.
- </p>
- <a name="index-MEM_005fVOLATILE_005fP"></a>
- <a name="index-mem-and-_002fv"></a>
- <a name="index-asm_005finput-and-_002fv"></a>
- <a name="index-asm_005foperands-and-_002fv"></a>
- <a name="index-volatil_002c-in-mem_002c-asm_005foperands_002c-and-asm_005finput"></a>
- </dd>
- <dt><code>MEM_VOLATILE_P (<var>x</var>)</code></dt>
- <dd><p>In <code>mem</code>, <code>asm_operands</code>, and <code>asm_input</code> expressions,
- nonzero for volatile memory references.
- Stored in the <code>volatil</code> field and printed as ‘<samp>/v</samp>’.
- </p>
- <a name="index-MEM_005fNOTRAP_005fP"></a>
- <a name="index-mem-and-_002fc"></a>
- <a name="index-call_002c-in-mem"></a>
- </dd>
- <dt><code>MEM_NOTRAP_P (<var>x</var>)</code></dt>
- <dd><p>In <code>mem</code>, nonzero for memory references that will not trap.
- Stored in the <code>call</code> field and printed as ‘<samp>/c</samp>’.
- </p>
- <a name="index-MEM_005fPOINTER"></a>
- <a name="index-mem-and-_002ff"></a>
- <a name="index-frame_005frelated_002c-in-mem"></a>
- </dd>
- <dt><code>MEM_POINTER (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>mem</code> if the memory reference holds a pointer.
- Stored in the <code>frame_related</code> field and printed as ‘<samp>/f</samp>’.
- </p>
- <a name="index-MEM_005fREADONLY_005fP"></a>
- <a name="index-mem-and-_002fu"></a>
- <a name="index-unchanging_002c-in-mem"></a>
- </dd>
- <dt><code>MEM_READONLY_P (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>mem</code>, if the memory is statically allocated and read-only.
- </p>
- <p>Read-only in this context means never modified during the lifetime of the
- program, not necessarily in ROM or in write-disabled pages. A common
- example of the later is a shared library’s global offset table. This
- table is initialized by the runtime loader, so the memory is technically
- writable, but after control is transferred from the runtime loader to the
- application, this memory will never be subsequently modified.
- </p>
- <p>Stored in the <code>unchanging</code> field and printed as ‘<samp>/u</samp>’.
- </p>
- <a name="index-PREFETCH_005fSCHEDULE_005fBARRIER_005fP"></a>
- <a name="index-prefetch-and-_002fv"></a>
- <a name="index-volatile_002c-in-prefetch"></a>
- </dd>
- <dt><code>PREFETCH_SCHEDULE_BARRIER_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>prefetch</code>, indicates that the prefetch is a scheduling barrier.
- No other INSNs will be moved over it.
- Stored in the <code>volatil</code> field and printed as ‘<samp>/v</samp>’.
- </p>
- <a name="index-REG_005fFUNCTION_005fVALUE_005fP"></a>
- <a name="index-reg-and-_002fi"></a>
- <a name="index-return_005fval_002c-in-reg"></a>
- </dd>
- <dt><code>REG_FUNCTION_VALUE_P (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>reg</code> if it is the place in which this function’s
- value is going to be returned. (This happens only in a hard
- register.) Stored in the <code>return_val</code> field and printed as
- ‘<samp>/i</samp>’.
- </p>
- <a name="index-REG_005fPOINTER"></a>
- <a name="index-reg-and-_002ff"></a>
- <a name="index-frame_005frelated_002c-in-reg"></a>
- </dd>
- <dt><code>REG_POINTER (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>reg</code> if the register holds a pointer. Stored in the
- <code>frame_related</code> field and printed as ‘<samp>/f</samp>’.
- </p>
- <a name="index-REG_005fUSERVAR_005fP"></a>
- <a name="index-reg-and-_002fv"></a>
- <a name="index-volatil_002c-in-reg"></a>
- </dd>
- <dt><code>REG_USERVAR_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>reg</code>, nonzero if it corresponds to a variable present in
- the user’s source code. Zero for temporaries generated internally by
- the compiler. Stored in the <code>volatil</code> field and printed as
- ‘<samp>/v</samp>’.
- </p>
- <p>The same hard register may be used also for collecting the values of
- functions called by this one, but <code>REG_FUNCTION_VALUE_P</code> is zero
- in this kind of use.
- </p>
- <a name="index-RTL_005fCONST_005fCALL_005fP"></a>
- <a name="index-call_005finsn-and-_002fu-1"></a>
- <a name="index-unchanging_002c-in-call_005finsn"></a>
- </dd>
- <dt><code>RTL_CONST_CALL_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>call_insn</code> indicates that the insn represents a call to a
- const function. Stored in the <code>unchanging</code> field and printed as
- ‘<samp>/u</samp>’.
- </p>
- <a name="index-RTL_005fPURE_005fCALL_005fP"></a>
- <a name="index-call_005finsn-and-_002fi"></a>
- <a name="index-return_005fval_002c-in-call_005finsn"></a>
- </dd>
- <dt><code>RTL_PURE_CALL_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>call_insn</code> indicates that the insn represents a call to a
- pure function. Stored in the <code>return_val</code> field and printed as
- ‘<samp>/i</samp>’.
- </p>
- <a name="index-RTL_005fCONST_005fOR_005fPURE_005fCALL_005fP"></a>
- <a name="index-call_005finsn-and-_002fu-or-_002fi"></a>
- </dd>
- <dt><code>RTL_CONST_OR_PURE_CALL_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>call_insn</code>, true if <code>RTL_CONST_CALL_P</code> or
- <code>RTL_PURE_CALL_P</code> is true.
- </p>
- <a name="index-RTL_005fLOOPING_005fCONST_005fOR_005fPURE_005fCALL_005fP"></a>
- <a name="index-call_005finsn-and-_002fc"></a>
- <a name="index-call_002c-in-call_005finsn"></a>
- </dd>
- <dt><code>RTL_LOOPING_CONST_OR_PURE_CALL_P (<var>x</var>)</code></dt>
- <dd><p>In a <code>call_insn</code> indicates that the insn represents a possibly
- infinite looping call to a const or pure function. Stored in the
- <code>call</code> field and printed as ‘<samp>/c</samp>’. Only true if one of
- <code>RTL_CONST_CALL_P</code> or <code>RTL_PURE_CALL_P</code> is true.
- </p>
- <a name="index-RTX_005fFRAME_005fRELATED_005fP"></a>
- <a name="index-insn-and-_002ff"></a>
- <a name="index-call_005finsn-and-_002ff"></a>
- <a name="index-jump_005finsn-and-_002ff"></a>
- <a name="index-barrier-and-_002ff"></a>
- <a name="index-set-and-_002ff"></a>
- <a name="index-frame_005frelated_002c-in-insn_002c-call_005finsn_002c-jump_005finsn_002c-barrier_002c-and-set"></a>
- </dd>
- <dt><code>RTX_FRAME_RELATED_P (<var>x</var>)</code></dt>
- <dd><p>Nonzero in an <code>insn</code>, <code>call_insn</code>, <code>jump_insn</code>,
- <code>barrier</code>, or <code>set</code> which is part of a function prologue
- and sets the stack pointer, sets the frame pointer, or saves a register.
- This flag should also be set on an instruction that sets up a temporary
- register to use in place of the frame pointer.
- Stored in the <code>frame_related</code> field and printed as ‘<samp>/f</samp>’.
- </p>
- <p>In particular, on RISC targets where there are limits on the sizes of
- immediate constants, it is sometimes impossible to reach the register
- save area directly from the stack pointer. In that case, a temporary
- register is used that is near enough to the register save area, and the
- Canonical Frame Address, i.e., DWARF2’s logical frame pointer, register
- must (temporarily) be changed to be this temporary register. So, the
- instruction that sets this temporary register must be marked as
- <code>RTX_FRAME_RELATED_P</code>.
- </p>
- <p>If the marked instruction is overly complex (defined in terms of what
- <code>dwarf2out_frame_debug_expr</code> can handle), you will also have to
- create a <code>REG_FRAME_RELATED_EXPR</code> note and attach it to the
- instruction. This note should contain a simple expression of the
- computation performed by this instruction, i.e., one that
- <code>dwarf2out_frame_debug_expr</code> can handle.
- </p>
- <p>This flag is required for exception handling support on targets with RTL
- prologues.
- </p>
- <a name="index-SCHED_005fGROUP_005fP"></a>
- <a name="index-insn-and-_002fs-1"></a>
- <a name="index-call_005finsn-and-_002fs-1"></a>
- <a name="index-jump_005finsn-and-_002fs-1"></a>
- <a name="index-jump_005ftable_005fdata-and-_002fs"></a>
- <a name="index-in_005fstruct_002c-in-insn_002c-call_005finsn_002c-jump_005finsn-and-jump_005ftable_005fdata"></a>
- </dd>
- <dt><code>SCHED_GROUP_P (<var>x</var>)</code></dt>
- <dd><p>During instruction scheduling, in an <code>insn</code>, <code>call_insn</code>,
- <code>jump_insn</code> or <code>jump_table_data</code>, indicates that the
- previous insn must be scheduled together with this insn. This is used to
- ensure that certain groups of instructions will not be split up by the
- instruction scheduling pass, for example, <code>use</code> insns before
- a <code>call_insn</code> may not be separated from the <code>call_insn</code>.
- Stored in the <code>in_struct</code> field and printed as ‘<samp>/s</samp>’.
- </p>
- <a name="index-SET_005fIS_005fRETURN_005fP"></a>
- <a name="index-insn-and-_002fj"></a>
- <a name="index-jump_002c-in-insn"></a>
- </dd>
- <dt><code>SET_IS_RETURN_P (<var>x</var>)</code></dt>
- <dd><p>For a <code>set</code>, nonzero if it is for a return.
- Stored in the <code>jump</code> field and printed as ‘<samp>/j</samp>’.
- </p>
- <a name="index-SIBLING_005fCALL_005fP"></a>
- <a name="index-call_005finsn-and-_002fj"></a>
- <a name="index-jump_002c-in-call_005finsn"></a>
- </dd>
- <dt><code>SIBLING_CALL_P (<var>x</var>)</code></dt>
- <dd><p>For a <code>call_insn</code>, nonzero if the insn is a sibling call.
- Stored in the <code>jump</code> field and printed as ‘<samp>/j</samp>’.
- </p>
- <a name="index-STRING_005fPOOL_005fADDRESS_005fP"></a>
- <a name="index-symbol_005fref-and-_002ff"></a>
- <a name="index-frame_005frelated_002c-in-symbol_005fref"></a>
- </dd>
- <dt><code>STRING_POOL_ADDRESS_P (<var>x</var>)</code></dt>
- <dd><p>For a <code>symbol_ref</code> expression, nonzero if it addresses this function’s
- string constant pool.
- Stored in the <code>frame_related</code> field and printed as ‘<samp>/f</samp>’.
- </p>
- <a name="index-SUBREG_005fPROMOTED_005fUNSIGNED_005fP"></a>
- <a name="index-subreg-and-_002fu-and-_002fv"></a>
- <a name="index-unchanging_002c-in-subreg"></a>
- <a name="index-volatil_002c-in-subreg"></a>
- </dd>
- <dt><code>SUBREG_PROMOTED_UNSIGNED_P (<var>x</var>)</code></dt>
- <dd><p>Returns a value greater then zero for a <code>subreg</code> that has
- <code>SUBREG_PROMOTED_VAR_P</code> nonzero if the object being referenced is kept
- zero-extended, zero if it is kept sign-extended, and less then zero if it is
- extended some other way via the <code>ptr_extend</code> instruction.
- Stored in the <code>unchanging</code>
- field and <code>volatil</code> field, printed as ‘<samp>/u</samp>’ and ‘<samp>/v</samp>’.
- This macro may only be used to get the value it may not be used to change
- the value. Use <code>SUBREG_PROMOTED_UNSIGNED_SET</code> to change the value.
- </p>
- <a name="index-SUBREG_005fPROMOTED_005fUNSIGNED_005fSET"></a>
- <a name="index-subreg-and-_002fu"></a>
- <a name="index-unchanging_002c-in-subreg-1"></a>
- <a name="index-volatil_002c-in-subreg-1"></a>
- </dd>
- <dt><code>SUBREG_PROMOTED_UNSIGNED_SET (<var>x</var>)</code></dt>
- <dd><p>Set the <code>unchanging</code> and <code>volatil</code> fields in a <code>subreg</code>
- to reflect zero, sign, or other extension. If <code>volatil</code> is
- zero, then <code>unchanging</code> as nonzero means zero extension and as
- zero means sign extension. If <code>volatil</code> is nonzero then some
- other type of extension was done via the <code>ptr_extend</code> instruction.
- </p>
- <a name="index-SUBREG_005fPROMOTED_005fVAR_005fP"></a>
- <a name="index-subreg-and-_002fs"></a>
- <a name="index-in_005fstruct_002c-in-subreg"></a>
- </dd>
- <dt><code>SUBREG_PROMOTED_VAR_P (<var>x</var>)</code></dt>
- <dd><p>Nonzero in a <code>subreg</code> if it was made when accessing an object that
- was promoted to a wider mode in accord with the <code>PROMOTED_MODE</code> machine
- description macro (see <a href="Storage-Layout.html#Storage-Layout">Storage Layout</a>). In this case, the mode of
- the <code>subreg</code> is the declared mode of the object and the mode of
- <code>SUBREG_REG</code> is the mode of the register that holds the object.
- Promoted variables are always either sign- or zero-extended to the wider
- mode on every assignment. Stored in the <code>in_struct</code> field and
- printed as ‘<samp>/s</samp>’.
- </p>
- <a name="index-SYMBOL_005fREF_005fUSED"></a>
- <a name="index-used_002c-in-symbol_005fref"></a>
- </dd>
- <dt><code>SYMBOL_REF_USED (<var>x</var>)</code></dt>
- <dd><p>In a <code>symbol_ref</code>, indicates that <var>x</var> has been used. This is
- normally only used to ensure that <var>x</var> is only declared external
- once. Stored in the <code>used</code> field.
- </p>
- <a name="index-SYMBOL_005fREF_005fWEAK"></a>
- <a name="index-symbol_005fref-and-_002fi"></a>
- <a name="index-return_005fval_002c-in-symbol_005fref"></a>
- </dd>
- <dt><code>SYMBOL_REF_WEAK (<var>x</var>)</code></dt>
- <dd><p>In a <code>symbol_ref</code>, indicates that <var>x</var> has been declared weak.
- Stored in the <code>return_val</code> field and printed as ‘<samp>/i</samp>’.
- </p>
- <a name="index-SYMBOL_005fREF_005fFLAG"></a>
- <a name="index-symbol_005fref-and-_002fv"></a>
- <a name="index-volatil_002c-in-symbol_005fref"></a>
- </dd>
- <dt><code>SYMBOL_REF_FLAG (<var>x</var>)</code></dt>
- <dd><p>In a <code>symbol_ref</code>, this is used as a flag for machine-specific purposes.
- Stored in the <code>volatil</code> field and printed as ‘<samp>/v</samp>’.
- </p>
- <p>Most uses of <code>SYMBOL_REF_FLAG</code> are historic and may be subsumed
- by <code>SYMBOL_REF_FLAGS</code>. Certainly use of <code>SYMBOL_REF_FLAGS</code>
- is mandatory if the target requires more than one bit of storage.
- </p></dd>
- </dl>
-
- <p>These are the fields to which the above macros refer:
- </p>
- <dl compact="compact">
- <dd><a name="index-call"></a>
- <a name="index-_002fc-in-RTL-dump"></a>
- </dd>
- <dt><code>call</code></dt>
- <dd><p>In a <code>mem</code>, 1 means that the memory reference will not trap.
- </p>
- <p>In a <code>call</code>, 1 means that this pure or const call may possibly
- infinite loop.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/c</samp>’.
- </p>
- <a name="index-frame_005frelated"></a>
- <a name="index-_002ff-in-RTL-dump"></a>
- </dd>
- <dt><code>frame_related</code></dt>
- <dd><p>In an <code>insn</code> or <code>set</code> expression, 1 means that it is part of
- a function prologue and sets the stack pointer, sets the frame pointer,
- saves a register, or sets up a temporary register to use in place of the
- frame pointer.
- </p>
- <p>In <code>reg</code> expressions, 1 means that the register holds a pointer.
- </p>
- <p>In <code>mem</code> expressions, 1 means that the memory reference holds a pointer.
- </p>
- <p>In <code>symbol_ref</code> expressions, 1 means that the reference addresses
- this function’s string constant pool.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/f</samp>’.
- </p>
- <a name="index-in_005fstruct"></a>
- <a name="index-_002fs-in-RTL-dump"></a>
- </dd>
- <dt><code>in_struct</code></dt>
- <dd><p>In <code>reg</code> expressions, it is 1 if the register has its entire life
- contained within the test expression of some loop.
- </p>
- <p>In <code>subreg</code> expressions, 1 means that the <code>subreg</code> is accessing
- an object that has had its mode promoted from a wider mode.
- </p>
- <p>In <code>label_ref</code> expressions, 1 means that the referenced label is
- outside the innermost loop containing the insn in which the <code>label_ref</code>
- was found.
- </p>
- <p>In <code>code_label</code> expressions, it is 1 if the label may never be deleted.
- This is used for labels which are the target of non-local gotos. Such a
- label that would have been deleted is replaced with a <code>note</code> of type
- <code>NOTE_INSN_DELETED_LABEL</code>.
- </p>
- <p>In an <code>insn</code> during dead-code elimination, 1 means that the insn is
- dead code.
- </p>
- <p>In an <code>insn</code> or <code>jump_insn</code> during reorg for an insn in the
- delay slot of a branch,
- 1 means that this insn is from the target of the branch.
- </p>
- <p>In an <code>insn</code> during instruction scheduling, 1 means that this insn
- must be scheduled as part of a group together with the previous insn.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/s</samp>’.
- </p>
- <a name="index-return_005fval"></a>
- <a name="index-_002fi-in-RTL-dump"></a>
- </dd>
- <dt><code>return_val</code></dt>
- <dd><p>In <code>reg</code> expressions, 1 means the register contains
- the value to be returned by the current function. On
- machines that pass parameters in registers, the same register number
- may be used for parameters as well, but this flag is not set on such
- uses.
- </p>
- <p>In <code>symbol_ref</code> expressions, 1 means the referenced symbol is weak.
- </p>
- <p>In <code>call</code> expressions, 1 means the call is pure.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/i</samp>’.
- </p>
- <a name="index-jump"></a>
- <a name="index-_002fj-in-RTL-dump"></a>
- </dd>
- <dt><code>jump</code></dt>
- <dd><p>In a <code>mem</code> expression, 1 means we should keep the alias set for this
- mem unchanged when we access a component.
- </p>
- <p>In a <code>set</code>, 1 means it is for a return.
- </p>
- <p>In a <code>call_insn</code>, 1 means it is a sibling call.
- </p>
- <p>In a <code>jump_insn</code>, 1 means it is a crossing jump.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/j</samp>’.
- </p>
- <a name="index-unchanging"></a>
- <a name="index-_002fu-in-RTL-dump"></a>
- </dd>
- <dt><code>unchanging</code></dt>
- <dd><p>In <code>reg</code> and <code>mem</code> expressions, 1 means
- that the value of the expression never changes.
- </p>
- <p>In <code>subreg</code> expressions, it is 1 if the <code>subreg</code> references an
- unsigned object whose mode has been promoted to a wider mode.
- </p>
- <p>In an <code>insn</code> or <code>jump_insn</code> in the delay slot of a branch
- instruction, 1 means an annulling branch should be used.
- </p>
- <p>In a <code>symbol_ref</code> expression, 1 means that this symbol addresses
- something in the per-function constant pool.
- </p>
- <p>In a <code>call_insn</code> 1 means that this instruction is a call to a const
- function.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/u</samp>’.
- </p>
- <a name="index-used"></a>
- </dd>
- <dt><code>used</code></dt>
- <dd><p>This flag is used directly (without an access macro) at the end of RTL
- generation for a function, to count the number of times an expression
- appears in insns. Expressions that appear more than once are copied,
- according to the rules for shared structure (see <a href="Sharing.html#Sharing">Sharing</a>).
- </p>
- <p>For a <code>reg</code>, it is used directly (without an access macro) by the
- leaf register renumbering code to ensure that each register is only
- renumbered once.
- </p>
- <p>In a <code>symbol_ref</code>, it indicates that an external declaration for
- the symbol has already been written.
- </p>
- <a name="index-volatil"></a>
- <a name="index-_002fv-in-RTL-dump"></a>
- </dd>
- <dt><code>volatil</code></dt>
- <dd><a name="index-volatile-memory-references"></a>
- <p>In a <code>mem</code>, <code>asm_operands</code>, or <code>asm_input</code>
- expression, it is 1 if the memory
- reference is volatile. Volatile memory references may not be deleted,
- reordered or combined.
- </p>
- <p>In a <code>symbol_ref</code> expression, it is used for machine-specific
- purposes.
- </p>
- <p>In a <code>reg</code> expression, it is 1 if the value is a user-level variable.
- 0 indicates an internal compiler temporary.
- </p>
- <p>In an <code>insn</code>, 1 means the insn has been deleted.
- </p>
- <p>In <code>label_ref</code> and <code>reg_label</code> expressions, 1 means a reference
- to a non-local label.
- </p>
- <p>In <code>prefetch</code> expressions, 1 means that the containing insn is a
- scheduling barrier.
- </p>
- <p>In an RTL dump, this flag is represented as ‘<samp>/v</samp>’.
- </p></dd>
- </dl>
-
- <hr>
- <div class="header">
- <p>
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