gas/doc/c-cris.texi - binutils-gdb - Git at Google

 @c Copyright (C) 2002-2021 Free Software Foundation, Inc.
 @c This is part of the GAS manual.
 @c For copying conditions, see the file as.texinfo.
 @c CRIS description contributed by Axis Communications.
 @ifset GENERIC
 @page
 @node CRIS-Dependent
 @chapter CRIS Dependent Features
 @end ifset
 @ifclear GENERIC
 @node Machine Dependencies
 @chapter CRIS Dependent Features
 @end ifclear

 @cindex CRIS support
 @menu
 * CRIS-Opts::              Command-line Options
 * CRIS-Expand::            Instruction expansion
 * CRIS-Symbols::           Symbols
 * CRIS-Syntax::            Syntax
 @end menu

 @node CRIS-Opts
 @section Command-line Options

 @cindex options, CRIS
 @cindex CRIS options
 The CRIS version of @code{@value{AS}} has these
 machine-dependent command-line options.

 @cindex @option{--emulation=criself} command-line option, CRIS
 @cindex @option{--emulation=crisaout} command-line option, CRIS
 @cindex CRIS @option{--emulation=criself} command-line option
 @cindex CRIS @option{--emulation=crisaout} command-line option

 The format of the generated object files can be either ELF or
 a.out, specified by the command-line options
 @option{--emulation=crisaout} and @option{--emulation=criself}.
 The default is ELF (criself), unless @code{@value{AS}} has been
 configured specifically for a.out by using the configuration
 name @code{cris-axis-aout}.

 @cindex @option{--underscore} command-line option, CRIS
 @cindex @option{--no-underscore} command-line option, CRIS
 @cindex CRIS @option{--underscore} command-line option
 @cindex CRIS @option{--no-underscore} command-line option
 There are two different link-incompatible ELF object file
 variants for CRIS, for use in environments where symbols are
 expected to be prefixed by a leading @samp{_} character and for
 environments without such a symbol prefix.  The variant used for
 GNU/Linux port has no symbol prefix.  Which variant to produce
 is specified by either of the options @option{--underscore} and
 @option{--no-underscore}.  The default is @option{--underscore}.
 Since symbols in CRIS a.out objects are expected to have a
 @samp{_} prefix, specifying @option{--no-underscore} when
 generating a.out objects is an error.  Besides the object format
 difference, the effect of this option is to parse register names
 differently (@pxref{crisnous}).  The @option{--no-underscore}
 option makes a @samp{$} register prefix mandatory.

 @cindex @option{--pic} command-line option, CRIS
 @cindex CRIS @option{--pic} command-line option
 @cindex Position-independent code, CRIS
 @cindex CRIS position-independent code
 The option @option{--pic} must be passed to @code{@value{AS}} in
 order to recognize the symbol syntax used for ELF (SVR4 PIC)
 position-independent-code (@pxref{crispic}).  This will also
 affect expansion of instructions.  The expansion with
 @option{--pic} will use PC-relative rather than (slightly
 faster) absolute addresses in those expansions.  This option is only
 valid when generating ELF format object files.

 @cindex @option{--march=@var{architecture}} command-line option, CRIS
 @cindex CRIS @option{--march=@var{architecture}} command-line option
 @cindex Architecture variant option, CRIS
 @cindex CRIS architecture variant option
 The option @option{--march=@var{architecture}}
 @anchor{march-option}specifies the recognized instruction set
 and recognized register names.  It also controls the
 architecture type of the object file.  Valid values for
 @var{architecture} are:
 @table @code

 @item v0_v10
 All instructions and register names for any architecture variant
 in the set v0@dots{}v10 are recognized.  This is the
 default if the target is configured as cris-*.

 @item v10
 Only instructions and register names for CRIS v10 (as found in
 ETRAX 100 LX) are recognized.  This is the default if the target
 is configured as crisv10-*.

 @item v32
 Only instructions and register names for CRIS v32 (code name
 Guinness) are recognized.  This is the default if the target is
 configured as crisv32-*.  This value implies
 @option{--no-mul-bug-abort}.  (A subsequent
 @option{--mul-bug-abort} will turn it back on.)

 @item common_v10_v32
 Only instructions with register names and addressing modes with
 opcodes common to the v10 and v32 are recognized.
 @end table

 @cindex @option{-N} command-line option, CRIS
 @cindex CRIS @option{-N} command-line option
 When @option{-N} is specified, @code{@value{AS}} will emit a
 warning when a 16-bit branch instruction is expanded into a
 32-bit multiple-instruction construct (@pxref{CRIS-Expand}).

 @cindex @option{--no-mul-bug-abort} command-line option, CRIS
 @cindex @option{--mul-bug-abort} command-line option, CRIS
 @cindex CRIS @option{--no-mul-bug-abort} command-line option
 @cindex CRIS @option{--mul-bug-abort} command-line option

 Some versions of the CRIS v10, for example in the Etrax 100 LX,
 contain a bug that causes destabilizing memory accesses when a
 multiply instruction is executed with certain values in the
 first operand just before a cache-miss.  When the
 @option{--mul-bug-abort} command-line option is active (the
 default value), @code{@value{AS}} will refuse to assemble a file
 containing a multiply instruction at a dangerous offset, one
 that could be the last on a cache-line, or is in a section with
 insufficient alignment.  This placement checking does not catch
 any case where the multiply instruction is dangerously placed
 because it is located in a delay-slot.  The
 @option{--mul-bug-abort} command-line option turns off the
 checking.

 @node CRIS-Expand
 @section Instruction expansion

 @cindex instruction expansion, CRIS
 @cindex CRIS instruction expansion
 @code{@value{AS}} will silently choose an instruction that fits
 the operand size for @samp{[register+constant]} operands.  For
 example, the offset @code{127} in @code{move.d [r3+127],r4} fits
 in an instruction using a signed-byte offset.  Similarly,
 @code{move.d [r2+32767],r1} will generate an instruction using a
 16-bit offset.  For symbolic expressions and constants that do
 not fit in 16 bits including the sign bit, a 32-bit offset is
 generated.

 For branches, @code{@value{AS}} will expand from a 16-bit branch
 instruction into a sequence of instructions that can reach a
 full 32-bit address.  Since this does not correspond to a single
 instruction, such expansions can optionally be warned about.
 @xref{CRIS-Opts}.

 If the operand is found to fit the range, a @code{lapc} mnemonic
 will translate to a @code{lapcq} instruction.  Use @code{lapc.d}
 to force the 32-bit @code{lapc} instruction.

 Similarly, the @code{addo} mnemonic will translate to the
 shortest fitting instruction of @code{addoq}, @code{addo.w} and
 @code{addo.d}, when used with a operand that is a constant known
 at assembly time.

 @node CRIS-Symbols
 @section Symbols
 @cindex Symbols, built-in, CRIS
 @cindex Symbols, CRIS, built-in
 @cindex CRIS built-in symbols
 @cindex Built-in symbols, CRIS

 Some symbols are defined by the assembler.  They're intended to
 be used in conditional assembly, for example:
 @smallexample
  .if ..asm.arch.cris.v32
  @var{code for CRIS v32}
  .elseif ..asm.arch.cris.common_v10_v32
  @var{code common to CRIS v32 and CRIS v10}
  .elseif ..asm.arch.cris.v10 | ..asm.arch.cris.any_v0_v10
  @var{code for v10}
  .else
  .error "Code needs to be added here."
  .endif
 @end smallexample

 These symbols are defined in the assembler, reflecting
 command-line options, either when specified or the default.
 They are always defined, to 0 or 1.
 @table @code

 @item ..asm.arch.cris.any_v0_v10
 This symbol is non-zero when @option{--march=v0_v10} is specified
 or the default.

 @item ..asm.arch.cris.common_v10_v32
 Set according to the option @option{--march=common_v10_v32}.

 @item ..asm.arch.cris.v10
 Reflects the option @option{--march=v10}.

 @item ..asm.arch.cris.v32
 Corresponds to @option{--march=v10}.
 @end table

 Speaking of symbols, when a symbol is used in code, it can have
 a suffix modifying its value for use in position-independent
 code. @xref{CRIS-Pic}.

 @node CRIS-Syntax
 @section Syntax

 There are different aspects of the CRIS assembly syntax.

 @menu
 * CRIS-Chars::		        Special Characters
 * CRIS-Pic::			Position-Independent Code Symbols
 * CRIS-Regs::			Register Names
 * CRIS-Pseudos::		Assembler Directives
 @end menu

 @node CRIS-Chars
 @subsection Special Characters
 @cindex line comment characters, CRIS
 @cindex CRIS line comment characters

 The character @samp{#} is a line comment character.  It starts a
 comment if and only if it is placed at the beginning of a line.

 A @samp{;} character starts a comment anywhere on the line,
 causing all characters up to the end of the line to be ignored.

 A @samp{@@} character is handled as a line separator equivalent
 to a logical new-line character (except in a comment), so
 separate instructions can be specified on a single line.

 @node CRIS-Pic
 @subsection Symbols in position-independent code
 @cindex Symbols in position-independent code, CRIS
 @cindex CRIS symbols in position-independent code
 @cindex Position-independent code, symbols in, CRIS

 When generating @anchor{crispic}position-independent code (SVR4
 PIC) for use in cris-axis-linux-gnu or crisv32-axis-linux-gnu
 shared libraries, symbol
 suffixes are used to specify what kind of run-time symbol lookup
 will be used, expressed in the object as different
 @emph{relocation types}.  Usually, all absolute symbol values
 must be located in a table, the @emph{global offset table},
 leaving the code position-independent; independent of values of
 global symbols and independent of the address of the code.  The
 suffix modifies the value of the symbol, into for example an
 index into the global offset table where the real symbol value
 is entered, or a PC-relative value, or a value relative to the
 start of the global offset table.  All symbol suffixes start
 with the character @samp{:} (omitted in the list below).  Every
 symbol use in code or a read-only section must therefore have a
 PIC suffix to enable a useful shared library to be created.
 Usually, these constructs must not be used with an additive
 constant offset as is usually allowed, i.e.@: no 4 as in
 @code{symbol + 4} is allowed.  This restriction is checked at
 link-time, not at assembly-time.

 @table @code
 @item GOT

 Attaching this suffix to a symbol in an instruction causes the
 symbol to be entered into the global offset table.  The value is
 a 32-bit index for that symbol into the global offset table.
 The name of the corresponding relocation is
 @samp{R_CRIS_32_GOT}.  Example: @code{move.d
 [$r0+extsym:GOT],$r9}

 @item GOT16

 Same as for @samp{GOT}, but the value is a 16-bit index into the
 global offset table.  The corresponding relocation is
 @samp{R_CRIS_16_GOT}.  Example: @code{move.d
 [$r0+asymbol:GOT16],$r10}

 @item PLT

 This suffix is used for function symbols.  It causes a
 @emph{procedure linkage table}, an array of code stubs, to be
 created at the time the shared object is created or linked
 against, together with a global offset table entry.  The value
 is a pc-relative offset to the corresponding stub code in the
 procedure linkage table.  This arrangement causes the run-time
 symbol resolver to be called to look up and set the value of the
 symbol the first time the function is called (at latest;
 depending environment variables).  It is only safe to leave the
 symbol unresolved this way if all references are function calls.
 The name of the relocation is @samp{R_CRIS_32_PLT_PCREL}.
 Example: @code{add.d fnname:PLT,$pc}

 @item PLTG

 Like PLT, but the value is relative to the beginning of the
 global offset table.  The relocation is
 @samp{R_CRIS_32_PLT_GOTREL}.  Example: @code{move.d
 fnname:PLTG,$r3}

 @item GOTPLT

 Similar to @samp{PLT}, but the value of the symbol is a 32-bit
 index into the global offset table.  This is somewhat of a mix
 between the effect of the @samp{GOT} and the @samp{PLT} suffix;
 the difference to @samp{GOT} is that there will be a procedure
 linkage table entry created, and that the symbol is assumed to
 be a function entry and will be resolved by the run-time
 resolver as with @samp{PLT}.  The relocation is
 @samp{R_CRIS_32_GOTPLT}.  Example: @code{jsr
 [$r0+fnname:GOTPLT]}

 @item GOTPLT16

 A variant of @samp{GOTPLT} giving a 16-bit value.  Its
 relocation name is @samp{R_CRIS_16_GOTPLT}.  Example: @code{jsr
 [$r0+fnname:GOTPLT16]}

 @item GOTOFF

 This suffix must only be attached to a local symbol, but may be
 used in an expression adding an offset.  The value is the
 address of the symbol relative to the start of the global offset
 table.  The relocation name is @samp{R_CRIS_32_GOTREL}.
 Example: @code{move.d [$r0+localsym:GOTOFF],r3}
 @end table

 @node CRIS-Regs
 @subsection Register names
 @cindex register names, CRIS
 @cindex CRIS register names

 A @samp{$} character may always prefix a general or special
 register name in an instruction operand but is mandatory when
 the option @option{--no-underscore} is specified or when the
 @code{.syntax register_prefix} directive is in effect
 (@pxref{crisnous}).  Register names are case-insensitive.

 @node CRIS-Pseudos
 @subsection Assembler Directives
 @cindex assembler directives, CRIS
 @cindex pseudo-ops, CRIS
 @cindex CRIS assembler directives
 @cindex CRIS pseudo-ops

 There are a few CRIS-specific pseudo-directives in addition to
 the generic ones.  @xref{Pseudo Ops}.  Constants emitted by
 pseudo-directives are in little-endian order for CRIS.  There is
 no support for floating-point-specific directives for CRIS.

 @table @code
 @item .dword EXPRESSIONS
 @cindex assembler directive .dword, CRIS
 @cindex pseudo-op .dword, CRIS
 @cindex CRIS assembler directive .dword
 @cindex CRIS pseudo-op .dword

 The @code{.dword} directive is a synonym for @code{.int},
 expecting zero or more EXPRESSIONS, separated by commas.  For
 each expression, a 32-bit little-endian constant is emitted.

 @item .syntax ARGUMENT
 @cindex assembler directive .syntax, CRIS
 @cindex pseudo-op .syntax, CRIS
 @cindex CRIS assembler directive .syntax
 @cindex CRIS pseudo-op .syntax
 The @code{.syntax} directive takes as @var{ARGUMENT} one of the
 following case-sensitive choices.

 @table @code
 @item no_register_prefix

 The @code{.syntax no_register_prefix} @anchor{crisnous}directive
 makes a @samp{$} character prefix on all registers optional.  It
 overrides a previous setting, including the corresponding effect
 of the option @option{--no-underscore}.  If this directive is
 used when ordinary symbols do not have a @samp{_} character
 prefix, care must be taken to avoid ambiguities whether an
 operand is a register or a symbol; using symbols with names the
 same as general or special registers then invoke undefined
 behavior.

 @item register_prefix

 This directive makes a @samp{$} character prefix on all
 registers mandatory.  It overrides a previous setting, including
 the corresponding effect of the option @option{--underscore}.

 @item leading_underscore

 This is an assertion directive, emitting an error if the
 @option{--no-underscore} option is in effect.

 @item no_leading_underscore

 This is the opposite of the @code{.syntax leading_underscore}
 directive and emits an error if the option @option{--underscore}
 is in effect.
 @end table

 @item .arch ARGUMENT
 @cindex assembler directive .arch, CRIS
 @cindex pseudo-op .arch, CRIS
 @cindex CRIS assembler directive .arch
 @cindex CRIS pseudo-op .arch
 This is an assertion directive, giving an error if the specified
 @var{ARGUMENT} is not the same as the specified or default value
 for the @option{--march=@var{architecture}} option
 (@pxref{march-option}).

 @c If you compare with md_pseudo_table, you see that we don't
 @c document ".file" and ".loc" here.  This is because we're just
 @c wrapping the corresponding ELF function and emitting an error for
 @c a.out.
 @end table
	@c Copyright (C) 2002-2021 Free Software Foundation, Inc.
	@c This is part of the GAS manual.
	@c For copying conditions, see the file as.texinfo.
	@c CRIS description contributed by Axis Communications.
	@ifset GENERIC
	@page
	@node CRIS-Dependent
	@chapter CRIS Dependent Features
	@end ifset
	@ifclear GENERIC
	@node Machine Dependencies
	@chapter CRIS Dependent Features
	@end ifclear

	@cindex CRIS support
	@menu
	* CRIS-Opts:: Command-line Options
	* CRIS-Expand:: Instruction expansion
	* CRIS-Symbols:: Symbols
	* CRIS-Syntax:: Syntax
	@end menu

	@node CRIS-Opts
	@section Command-line Options

	@cindex options, CRIS
	@cindex CRIS options
	The CRIS version of @code{@value{AS}} has these
	machine-dependent command-line options.

	@cindex @option{--emulation=criself} command-line option, CRIS
	@cindex @option{--emulation=crisaout} command-line option, CRIS
	@cindex CRIS @option{--emulation=criself} command-line option
	@cindex CRIS @option{--emulation=crisaout} command-line option

	The format of the generated object files can be either ELF or
	a.out, specified by the command-line options
	@option{--emulation=crisaout} and @option{--emulation=criself}.
	The default is ELF (criself), unless @code{@value{AS}} has been
	configured specifically for a.out by using the configuration
	name @code{cris-axis-aout}.

	@cindex @option{--underscore} command-line option, CRIS
	@cindex @option{--no-underscore} command-line option, CRIS
	@cindex CRIS @option{--underscore} command-line option
	@cindex CRIS @option{--no-underscore} command-line option
	There are two different link-incompatible ELF object file
	variants for CRIS, for use in environments where symbols are
	expected to be prefixed by a leading @samp{_} character and for
	environments without such a symbol prefix. The variant used for
	GNU/Linux port has no symbol prefix. Which variant to produce
	is specified by either of the options @option{--underscore} and
	@option{--no-underscore}. The default is @option{--underscore}.
	Since symbols in CRIS a.out objects are expected to have a
	@samp{_} prefix, specifying @option{--no-underscore} when
	generating a.out objects is an error. Besides the object format
	difference, the effect of this option is to parse register names
	differently (@pxref{crisnous}). The @option{--no-underscore}
	option makes a @samp{$} register prefix mandatory.

	@cindex @option{--pic} command-line option, CRIS
	@cindex CRIS @option{--pic} command-line option
	@cindex Position-independent code, CRIS
	@cindex CRIS position-independent code
	The option @option{--pic} must be passed to @code{@value{AS}} in
	order to recognize the symbol syntax used for ELF (SVR4 PIC)
	position-independent-code (@pxref{crispic}). This will also
	affect expansion of instructions. The expansion with
	@option{--pic} will use PC-relative rather than (slightly
	faster) absolute addresses in those expansions. This option is only
	valid when generating ELF format object files.

	@cindex @option{--march=@var{architecture}} command-line option, CRIS
	@cindex CRIS @option{--march=@var{architecture}} command-line option
	@cindex Architecture variant option, CRIS
	@cindex CRIS architecture variant option
	The option @option{--march=@var{architecture}}
	@anchor{march-option}specifies the recognized instruction set
	and recognized register names. It also controls the
	architecture type of the object file. Valid values for
	@var{architecture} are:
	@table @code

	@item v0_v10
	All instructions and register names for any architecture variant
	in the set v0@dots{}v10 are recognized. This is the
	default if the target is configured as cris-*.

	@item v10
	Only instructions and register names for CRIS v10 (as found in
	ETRAX 100 LX) are recognized. This is the default if the target
	is configured as crisv10-*.

	@item v32
	Only instructions and register names for CRIS v32 (code name
	Guinness) are recognized. This is the default if the target is
	configured as crisv32-*. This value implies
	@option{--no-mul-bug-abort}. (A subsequent
	@option{--mul-bug-abort} will turn it back on.)

	@item common_v10_v32
	Only instructions with register names and addressing modes with
	opcodes common to the v10 and v32 are recognized.
	@end table

	@cindex @option{-N} command-line option, CRIS
	@cindex CRIS @option{-N} command-line option
	When @option{-N} is specified, @code{@value{AS}} will emit a
	warning when a 16-bit branch instruction is expanded into a
	32-bit multiple-instruction construct (@pxref{CRIS-Expand}).

	@cindex @option{--no-mul-bug-abort} command-line option, CRIS
	@cindex @option{--mul-bug-abort} command-line option, CRIS
	@cindex CRIS @option{--no-mul-bug-abort} command-line option
	@cindex CRIS @option{--mul-bug-abort} command-line option

	Some versions of the CRIS v10, for example in the Etrax 100 LX,
	contain a bug that causes destabilizing memory accesses when a
	multiply instruction is executed with certain values in the
	first operand just before a cache-miss. When the
	@option{--mul-bug-abort} command-line option is active (the
	default value), @code{@value{AS}} will refuse to assemble a file
	containing a multiply instruction at a dangerous offset, one
	that could be the last on a cache-line, or is in a section with
	insufficient alignment. This placement checking does not catch
	any case where the multiply instruction is dangerously placed
	because it is located in a delay-slot. The
	@option{--mul-bug-abort} command-line option turns off the
	checking.

	@node CRIS-Expand
	@section Instruction expansion

	@cindex instruction expansion, CRIS
	@cindex CRIS instruction expansion
	@code{@value{AS}} will silently choose an instruction that fits
	the operand size for @samp{[register+constant]} operands. For
	example, the offset @code{127} in @code{move.d [r3+127],r4} fits
	in an instruction using a signed-byte offset. Similarly,
	@code{move.d [r2+32767],r1} will generate an instruction using a
	16-bit offset. For symbolic expressions and constants that do
	not fit in 16 bits including the sign bit, a 32-bit offset is
	generated.

	For branches, @code{@value{AS}} will expand from a 16-bit branch
	instruction into a sequence of instructions that can reach a
	full 32-bit address. Since this does not correspond to a single
	instruction, such expansions can optionally be warned about.
	@xref{CRIS-Opts}.

	If the operand is found to fit the range, a @code{lapc} mnemonic
	will translate to a @code{lapcq} instruction. Use @code{lapc.d}
	to force the 32-bit @code{lapc} instruction.

	Similarly, the @code{addo} mnemonic will translate to the
	shortest fitting instruction of @code{addoq}, @code{addo.w} and
	@code{addo.d}, when used with a operand that is a constant known
	at assembly time.

	@node CRIS-Symbols
	@section Symbols
	@cindex Symbols, built-in, CRIS
	@cindex Symbols, CRIS, built-in
	@cindex CRIS built-in symbols
	@cindex Built-in symbols, CRIS

	Some symbols are defined by the assembler. They're intended to
	be used in conditional assembly, for example:
	@smallexample
	.if ..asm.arch.cris.v32
	@var{code for CRIS v32}
	.elseif ..asm.arch.cris.common_v10_v32
	@var{code common to CRIS v32 and CRIS v10}
	.elseif ..asm.arch.cris.v10 \| ..asm.arch.cris.any_v0_v10
	@var{code for v10}
	.else
	.error "Code needs to be added here."
	.endif
	@end smallexample

	These symbols are defined in the assembler, reflecting
	command-line options, either when specified or the default.
	They are always defined, to 0 or 1.
	@table @code

	@item ..asm.arch.cris.any_v0_v10
	This symbol is non-zero when @option{--march=v0_v10} is specified
	or the default.

	@item ..asm.arch.cris.common_v10_v32
	Set according to the option @option{--march=common_v10_v32}.

	@item ..asm.arch.cris.v10
	Reflects the option @option{--march=v10}.

	@item ..asm.arch.cris.v32
	Corresponds to @option{--march=v10}.
	@end table

	Speaking of symbols, when a symbol is used in code, it can have
	a suffix modifying its value for use in position-independent
	code. @xref{CRIS-Pic}.

	@node CRIS-Syntax
	@section Syntax

	There are different aspects of the CRIS assembly syntax.

	@menu
	* CRIS-Chars:: Special Characters
	* CRIS-Pic:: Position-Independent Code Symbols
	* CRIS-Regs:: Register Names
	* CRIS-Pseudos:: Assembler Directives
	@end menu

	@node CRIS-Chars
	@subsection Special Characters
	@cindex line comment characters, CRIS
	@cindex CRIS line comment characters

	The character @samp{#} is a line comment character. It starts a
	comment if and only if it is placed at the beginning of a line.

	A @samp{;} character starts a comment anywhere on the line,
	causing all characters up to the end of the line to be ignored.

	A @samp{@@} character is handled as a line separator equivalent
	to a logical new-line character (except in a comment), so
	separate instructions can be specified on a single line.

	@node CRIS-Pic
	@subsection Symbols in position-independent code
	@cindex Symbols in position-independent code, CRIS
	@cindex CRIS symbols in position-independent code
	@cindex Position-independent code, symbols in, CRIS

	When generating @anchor{crispic}position-independent code (SVR4
	PIC) for use in cris-axis-linux-gnu or crisv32-axis-linux-gnu
	shared libraries, symbol
	suffixes are used to specify what kind of run-time symbol lookup
	will be used, expressed in the object as different
	@emph{relocation types}. Usually, all absolute symbol values
	must be located in a table, the @emph{global offset table},
	leaving the code position-independent; independent of values of
	global symbols and independent of the address of the code. The
	suffix modifies the value of the symbol, into for example an
	index into the global offset table where the real symbol value
	is entered, or a PC-relative value, or a value relative to the
	start of the global offset table. All symbol suffixes start
	with the character @samp{:} (omitted in the list below). Every
	symbol use in code or a read-only section must therefore have a
	PIC suffix to enable a useful shared library to be created.
	Usually, these constructs must not be used with an additive
	constant offset as is usually allowed, i.e.@: no 4 as in
	@code{symbol + 4} is allowed. This restriction is checked at
	link-time, not at assembly-time.

	@table @code
	@item GOT

	Attaching this suffix to a symbol in an instruction causes the
	symbol to be entered into the global offset table. The value is
	a 32-bit index for that symbol into the global offset table.
	The name of the corresponding relocation is
	@samp{R_CRIS_32_GOT}. Example: @code{move.d
	[$r0+extsym:GOT],$r9}

	@item GOT16

	Same as for @samp{GOT}, but the value is a 16-bit index into the
	global offset table. The corresponding relocation is
	@samp{R_CRIS_16_GOT}. Example: @code{move.d
	[$r0+asymbol:GOT16],$r10}

	@item PLT

	This suffix is used for function symbols. It causes a
	@emph{procedure linkage table}, an array of code stubs, to be
	created at the time the shared object is created or linked
	against, together with a global offset table entry. The value
	is a pc-relative offset to the corresponding stub code in the
	procedure linkage table. This arrangement causes the run-time
	symbol resolver to be called to look up and set the value of the
	symbol the first time the function is called (at latest;
	depending environment variables). It is only safe to leave the
	symbol unresolved this way if all references are function calls.
	The name of the relocation is @samp{R_CRIS_32_PLT_PCREL}.
	Example: @code{add.d fnname:PLT,$pc}

	@item PLTG

	Like PLT, but the value is relative to the beginning of the
	global offset table. The relocation is
	@samp{R_CRIS_32_PLT_GOTREL}. Example: @code{move.d
	fnname:PLTG,$r3}

	@item GOTPLT

	Similar to @samp{PLT}, but the value of the symbol is a 32-bit
	index into the global offset table. This is somewhat of a mix
	between the effect of the @samp{GOT} and the @samp{PLT} suffix;
	the difference to @samp{GOT} is that there will be a procedure
	linkage table entry created, and that the symbol is assumed to
	be a function entry and will be resolved by the run-time
	resolver as with @samp{PLT}. The relocation is
	@samp{R_CRIS_32_GOTPLT}. Example: @code{jsr
	[$r0+fnname:GOTPLT]}

	@item GOTPLT16

	A variant of @samp{GOTPLT} giving a 16-bit value. Its
	relocation name is @samp{R_CRIS_16_GOTPLT}. Example: @code{jsr
	[$r0+fnname:GOTPLT16]}

	@item GOTOFF

	This suffix must only be attached to a local symbol, but may be
	used in an expression adding an offset. The value is the
	address of the symbol relative to the start of the global offset
	table. The relocation name is @samp{R_CRIS_32_GOTREL}.
	Example: @code{move.d [$r0+localsym:GOTOFF],r3}
	@end table

	@node CRIS-Regs
	@subsection Register names
	@cindex register names, CRIS
	@cindex CRIS register names

	A @samp{$} character may always prefix a general or special
	register name in an instruction operand but is mandatory when
	the option @option{--no-underscore} is specified or when the
	@code{.syntax register_prefix} directive is in effect
	(@pxref{crisnous}). Register names are case-insensitive.

	@node CRIS-Pseudos
	@subsection Assembler Directives
	@cindex assembler directives, CRIS
	@cindex pseudo-ops, CRIS
	@cindex CRIS assembler directives
	@cindex CRIS pseudo-ops

	There are a few CRIS-specific pseudo-directives in addition to
	the generic ones. @xref{Pseudo Ops}. Constants emitted by
	pseudo-directives are in little-endian order for CRIS. There is
	no support for floating-point-specific directives for CRIS.

	@table @code
	@item .dword EXPRESSIONS
	@cindex assembler directive .dword, CRIS
	@cindex pseudo-op .dword, CRIS
	@cindex CRIS assembler directive .dword
	@cindex CRIS pseudo-op .dword

	The @code{.dword} directive is a synonym for @code{.int},
	expecting zero or more EXPRESSIONS, separated by commas. For
	each expression, a 32-bit little-endian constant is emitted.

	@item .syntax ARGUMENT
	@cindex assembler directive .syntax, CRIS
	@cindex pseudo-op .syntax, CRIS
	@cindex CRIS assembler directive .syntax
	@cindex CRIS pseudo-op .syntax
	The @code{.syntax} directive takes as @var{ARGUMENT} one of the
	following case-sensitive choices.

	@table @code
	@item no_register_prefix

	The @code{.syntax no_register_prefix} @anchor{crisnous}directive
	makes a @samp{$} character prefix on all registers optional. It
	overrides a previous setting, including the corresponding effect
	of the option @option{--no-underscore}. If this directive is
	used when ordinary symbols do not have a @samp{_} character
	prefix, care must be taken to avoid ambiguities whether an
	operand is a register or a symbol; using symbols with names the
	same as general or special registers then invoke undefined
	behavior.

	@item register_prefix

	This directive makes a @samp{$} character prefix on all
	registers mandatory. It overrides a previous setting, including
	the corresponding effect of the option @option{--underscore}.

	@item leading_underscore

	This is an assertion directive, emitting an error if the
	@option{--no-underscore} option is in effect.

	@item no_leading_underscore

	This is the opposite of the @code{.syntax leading_underscore}
	directive and emits an error if the option @option{--underscore}
	is in effect.
	@end table

	@item .arch ARGUMENT
	@cindex assembler directive .arch, CRIS
	@cindex pseudo-op .arch, CRIS
	@cindex CRIS assembler directive .arch
	@cindex CRIS pseudo-op .arch
	This is an assertion directive, giving an error if the specified
	@var{ARGUMENT} is not the same as the specified or default value
	for the @option{--march=@var{architecture}} option
	(@pxref{march-option}).

	@c If you compare with md_pseudo_table, you see that we don't
	@c document ".file" and ".loc" here. This is because we're just
	@c wrapping the corresponding ELF function and emitting an error for
	@c a.out.
	@end table