[v3,12/12] LoongArch Port: Add doc.

Message ID 20211210074359.988056-13-xuchenghua@loongson.cn
State New
Headers
Series Add LoongArch support. |

Commit Message

Chenghua Xu Dec. 10, 2021, 7:43 a.m. UTC
  From: chenglulu <chenglulu@loongson.cn>

	* contrib/config-list.mk: Add LoongArch triplet.
	* gcc/doc/install.texi: Add LoongArch options section.
	* gcc/doc/invoke.texi: Add LoongArch options section.
	* gcc/doc/md.texi: Add LoongArch options section.
---
 contrib/config-list.mk |   5 +-
 gcc/doc/install.texi   |  47 +++++++++-
 gcc/doc/invoke.texi    | 201 +++++++++++++++++++++++++++++++++++++++++
 gcc/doc/md.texi        |  55 +++++++++++
 4 files changed, 302 insertions(+), 6 deletions(-)
  

Patch

diff --git a/contrib/config-list.mk b/contrib/config-list.mk
index 3e1d1321861..ba6f12e4693 100644
--- a/contrib/config-list.mk
+++ b/contrib/config-list.mk
@@ -57,7 +57,10 @@  LIST = aarch64-elf aarch64-linux-gnu aarch64-rtems \
   i686-wrs-vxworksae \
   i686-cygwinOPT-enable-threads=yes i686-mingw32crt ia64-elf \
   ia64-freebsd6 ia64-linux ia64-hpux ia64-hp-vms iq2000-elf lm32-elf \
-  lm32-rtems lm32-uclinux m32c-rtems m32c-elf m32r-elf m32rle-elf \
+  lm32-rtems lm32-uclinux \
+  loongarch64-linux-gnu loongarch64-linux-gnuf64 \
+  loongarch64-linux-gnuf32 loongarch64-linux-gnusf \
+  m32c-rtems m32c-elf m32r-elf m32rle-elf \
   m68k-elf m68k-netbsdelf \
   m68k-uclinux m68k-linux m68k-rtems \
   mcore-elf microblaze-linux microblaze-elf \
diff --git a/gcc/doc/install.texi b/gcc/doc/install.texi
index 6f999a2fd5a..9ba714ff7b0 100644
--- a/gcc/doc/install.texi
+++ b/gcc/doc/install.texi
@@ -752,9 +752,9 @@  Here are the possible CPU types:
 @quotation
 aarch64, aarch64_be, alpha, alpha64, amdgcn, arc, arceb, arm, armeb, avr, bfin,
 bpf, cr16, cris, csky, epiphany, fido, fr30, frv, ft32, h8300, hppa, hppa2.0,
-hppa64, i486, i686, ia64, iq2000, lm32, m32c, m32r, m32rle, m68k, mcore,
-microblaze, microblazeel, mips, mips64, mips64el, mips64octeon, mips64orion,
-mips64vr, mipsel, mipsisa32, mipsisa32r2, mipsisa64, mipsisa64r2,
+hppa64, i486, i686, ia64, iq2000, lm32, loongarch64, m32c, m32r, m32rle, m68k,
+mcore, microblaze, microblazeel, mips, mips64, mips64el, mips64octeon,
+mips64orion, mips64vr, mipsel, mipsisa32, mipsisa32r2, mipsisa64, mipsisa64r2,
 mipsisa64r2el, mipsisa64sb1, mipsisa64sr71k, mipstx39, mmix, mn10300, moxie,
 msp430, nds32be, nds32le, nios2, nvptx, or1k, pdp11, powerpc, powerpc64,
 powerpc64le, powerpcle, pru, riscv32, riscv32be, riscv64, riscv64be, rl78, rx,
@@ -1171,8 +1171,9 @@  sysv, aix.
 @itemx --without-multilib-list
 Specify what multilibs to build.  @var{list} is a comma separated list of
 values, possibly consisting of a single value.  Currently only implemented
-for aarch64*-*-*, arm*-*-*, riscv*-*-*, sh*-*-* and x86-64-*-linux*.  The
-accepted values and meaning for each target is given below.
+for aarch64*-*-*, arm*-*-*, loongarch64-*-*, riscv*-*-*, sh*-*-* and
+x86-64-*-linux*.  The accepted values and meaning for each target is given
+below.
 
 @table @code
 @item aarch64*-*-*
@@ -1259,6 +1260,14 @@  profile.  The union of these options is considered when specifying both
 @code{-mfloat-abi=hard}
 @end multitable
 
+@item loongarch*-*-*
+@var{list} is a comma-separated list of the following ABI identifiers:
+@code{lp64d[/base]} @code{lp64f[/base]} @code{lp64d[/base]}, where the
+@code{/base} suffix may be omitted, to enable their respective run-time
+libraries.  If @var{list} is empty, @code{default}
+or @option{--with-multilib-list} is not specified, then the default ABI
+as specified by @option{--with-abi} or implied by @option{--target} is selected.
+
 @item riscv*-*-*
 @var{list} is a single ABI name.  The target architecture must be either
 @code{rv32gc} or @code{rv64gc}.  This will build a single multilib for the
@@ -4434,6 +4443,34 @@  This configuration is intended for embedded systems.
 Lattice Mico32 processor.
 This configuration is intended for embedded systems running uClinux.
 
+@html
+<hr />
+@end html
+@anchor{loongarch}
+@heading LoongArch
+LoongArch processor.
+The following LoongArch targets are available:
+@table @code
+@item loongarch64-linux-gnu*
+LoongArch processor running GNU/Linux.  This target triplet may be coupled
+with a small set of possible suffixes to identify their default ABI type:
+@table @code
+@item f64
+Uses @code{lp64d/base} ABI by default.
+@item f32
+Uses @code{lp64f/base} ABI by default.
+@item sf
+Uses @code{lp64s/base} ABI by default.
+@end table
+
+@item loongarch64-linux-gnu
+Same as @code{loongarch64-linux-gnuf64}, but may be used with
+@option{--with-abi=*} to configure the default ABI type.
+@end table
+
+More information about LoongArch can be found at
+@uref{https://github.com/loongson/LoongArch-Documentation}.
+
 @html
 <hr />
 @end html
diff --git a/gcc/doc/invoke.texi b/gcc/doc/invoke.texi
index d6858d834f9..65041ec68d2 100644
--- a/gcc/doc/invoke.texi
+++ b/gcc/doc/invoke.texi
@@ -990,6 +990,16 @@  Objective-C and Objective-C++ Dialects}.
 @gccoptlist{-mbarrel-shift-enabled  -mdivide-enabled  -mmultiply-enabled @gol
 -msign-extend-enabled  -muser-enabled}
 
+@emph{LoongArch Options}
+@gccoptlist{-march=@var{cpu-type}  -mtune=@var{cpu-type} -mabi=@var{base-abi-type} @gol
+-mfpu=@var{fpu-type} -msoft-float -msingle-float -mdouble-float @gol
+-mbranch-cost=@var{n}  -mcheck-zero-division -mno-check-zero-division @gol
+-mcond-move-int  -mno-cond-move-int @gol
+-mcond-move-float  -mno-cond-move-float @gol
+-memcpy  -mno-memcpy -mstrict-align @gol
+-mmax-inline-memcpy-size=@var{n} @gol
+-mlra -mcmodel=@var{code-model}}
+
 @emph{M32R/D Options}
 @gccoptlist{-m32r2  -m32rx  -m32r @gol
 -mdebug @gol
@@ -18601,6 +18611,7 @@  platform.
 * HPPA Options::
 * IA-64 Options::
 * LM32 Options::
+* LoongArch Options::
 * M32C Options::
 * M32R/D Options::
 * M680x0 Options::
@@ -24092,6 +24103,196 @@  Enable user-defined instructions.
 
 @end table
 
+@node LoongArch Options
+@subsection LoongArch Options
+@cindex LoongArch Options
+
+These command-line options are defined for LoongArch targets:
+
+@table @gcctabopt
+@item -march=@var{cpu-type}
+@opindex -march
+Generate instructions for the machine type @var{cpu-type}.  In contrast to
+@option{-mtune=@var{cpu-type}}, which merely tunes the generated code
+for the specified @var{cpu-type}, @option{-march=@var{cpu-type}} allows GCC
+to generate code that may not run at all on processors other than the one
+indicated.  Specifying @option{-march=@var{cpu-type}} implies
+@option{-mtune=@var{cpu-type}}, except where noted otherwise.
+
+The choices for @var{cpu-type} are:
+
+@table @samp
+@item native
+This selects the CPU to generate code for at compilation time by determining
+the processor type of the compiling machine.  Using @option{-march=native}
+enables all instruction subsets supported by the local machine (hence
+the result might not run on different machines).  Using @option{-mtune=native}
+produces code optimized for the local machine under the constraints
+of the selected instruction set.
+@item loongarch64
+A generic CPU with 64-bit extensions.
+@item la464
+LoongArch LA464 CPU with LBT, LSX, LASX, LVZ.
+@end table
+
+
+@item -mtune=@var{cpu-type}
+@opindex mtune
+Optimize the output for the given processor, specified by microarchitecture
+name.
+
+@item -mabi=@var{base-abi-type}
+@opindex mabi
+Generate code for the specified calling convention. @gol
+Set base ABI to one of: @gol
+@table @samp
+@item lp64d
+Uses 64-bit general purpose registers and 32/64-bit floating-point
+registers for parameter passing.  Data model is LP64, where int
+is 32 bits, while long int and pointers are 64 bits.
+@item lp64f
+Uses 64-bit general purpose registers and 32-bit floating-point
+registers for parameter passing.  Data model is LP64, where int
+is 32 bits, while long int and pointers are 64 bits.
+@item lp64s
+Uses 64-bit general purpose registers and no floating-point
+registers for parameter passing.  Data model is LP64, where int
+is 32 bits, while long int and pointers are 64 bits.
+@end table
+
+
+@item -mfpu=@var{fpu-type}
+@opindex mfpu
+Generating code for the specified FPU type: @gol
+@table @samp
+@item 64
+Allow the use of hardware floating-point instructions for 32-bit
+and 64-bit operations.
+@item 32
+Allow the use of hardware floating-point instructions for 32-bit
+operations.
+@item none
+@item 0
+Prevent the use of hardware floating-point instructions.
+@end table
+
+
+@item -msoft-float
+@opindex msoft-float
+Force @option{-mfpu=none} and prevents the use of floating-point
+registers for parameter passing.  This option may change the target
+ABI.
+
+@item -msingle-float
+@opindex -msingle-float
+Force @option{-mfpu=32} and allow the use of 32-bit floating-point
+registers for parameter passing.  This option may change the target
+ABI.
+
+@item -mdouble-float
+@opindex -mdouble-float
+Force @option{-mfpu=64} and allow the use of 32/64-bit floating-point
+registers for parameter passing.  This option may change the target
+ABI.
+
+
+@item -mbranch-cost=@var{n}
+@opindex -mbranch-cost
+Set the cost of branches to roughly n instructions.
+
+@item -mcheck-zero-division
+@itemx -mno-check-zero-divison
+@opindex -mcheck-zero-division
+Trap (do not trap) on integer division by zero. The default is '-mcheck-zero-
+division'.
+
+
+@item -mcond-move-int
+@itemx -mno-cond-move-int
+@opindex -mcond-move-int
+Conditional moves for floating point are enabled (disabled). The default is
+'-mcond-move-float'.
+
+@item -mmemcpy
+@itemx -mno-memcpy
+@opindex -mmemcpy
+Force (do not force) the use of memcpy for non-trivial block moves. The default
+is '-mno-memcpy', which allows GCC to inline most constant-sized copies.
+
+
+@item -mlra
+@opindex -mlra
+Use the new LRA register allocator. By default, the LRA is used.
+
+@item -mstrict-align
+@itemx -mno-strict-align
+@opindex -mstrict-align
+Avoid or allow generating memory accesses that may not be aligned on a natural
+object boundary as described in the architecture specification.
+
+@item -msmall-data-limit=@var{number}
+@opindex -msmall-data-limit
+Put global and static data smaller than @code{number} bytes into a special section (on some targets).
+Default value is 0.
+
+
+@item -mmax-inline-memcpy-size=@var{n}
+@opindex -mmax-inline-memcpy-size
+Set the max size n of memcpy to inline, default n is 1024.
+
+@item -mcmodel=@var{code-model}
+Default code model is normal.
+Set the code model to one of:
+@table @samp
+@item tiny-static
+@itemize @bullet
+@item
+local symbol and global strong symbol: The data section must be within +/-2MiB addressing space.
+The text section must be within +/-128MiB addressing space.
+@item
+global weak symbol: The got table must be within +/-2GiB addressing space.
+@end itemize
+
+@item tiny
+@itemize @bullet
+@item
+local symbol: The data section must be within +/-2MiB addressing space.
+The text section must be within +/-128MiB
+addressing space.
+@item
+global symbol: The got table must be within +/-2GiB addressing space.
+@end itemize
+
+@item normal
+@itemize @bullet
+@item
+local symbol: The data section must be within +/-2GiB addressing space.
+The text section must be within +/-128MiB addressing space.
+@item
+global symbol: The got table must be within +/-2GiB addressing space.
+@end itemize
+
+@item large
+@itemize @bullet
+@item
+local symbol: The data section must be within +/-2GiB addressing space.
+The text section must be within +/-128GiB addressing space.
+@item
+global symbol: The got table must be within +/-2GiB addressing space.
+@end itemize
+
+@item extreme(Not implemented yet)
+@itemize @bullet
+@item
+local symbol: The data and text section must be within +/-8EiB addressing space.
+@item
+global symbol: The data got table must be within +/-8EiB addressing space.
+@end itemize
+@end table
+@end table
+
+
+
 @node M32C Options
 @subsection M32C Options
 @cindex M32C options
diff --git a/gcc/doc/md.texi b/gcc/doc/md.texi
index 8fd0f8d2fe1..21a98db019c 100644
--- a/gcc/doc/md.texi
+++ b/gcc/doc/md.texi
@@ -2747,6 +2747,61 @@  Memory addressed using the small base register ($sb).
 $r1h
 @end table
 
+@item LoongArch---@file{config/loongarch/constraints.md}
+@table @code
+@item a
+A constant call global and noplt address.
+@item c
+A constant call local address.
+@item e
+A register that is used as function call.
+@item f
+A floating-point register (if available).
+@item h
+A constant call plt address.
+@item j
+A rester that is used as sibing call.
+@item l
+A signed 16-bit constant.
+@item m
+A memory operand whose address is formed by a base register and offset
+that is suitable for use in instructions with the same addressing mode
+as @code{st.w} and @code{ld.w}.
+@item q
+A general-purpose register except for $r0 and $r1 for csr instructions.
+@item t
+A constant call weak address.
+@item u
+A signed 52bit constant and low 32-bit is zero (for logic instructions).
+@item v
+A nsigned 64-bit constant and low 44-bit is zero (for logic instructions).
+@item z
+A floating-point condition code register.
+@item G
+Floating-point zero.
+@item I
+A signed 12-bit constant (for arithmetic instructions).
+@item J
+Integer zero.
+@item K
+An unsigned 12-bit constant (for logic instructions).
+@item Q
+A 12-bit constant used for logical operations.
+@item W
+A memory address based on a member of @code{BASE_REG_CLASS}.  This is
+true for allreferences.
+@item Yd
+A constant @code{move_operand} that can be safely loaded using
+@code{la}.
+@item ZB
+An address that is held in a general-purpose register.
+The offset is zero.
+@item ZC
+A memory operand whose address is formed by a base register and offset
+that is suitable for use in instructions with the same addressing mode
+as @code{ll.w} and @code{sc.w}.
+@end table
+
 @item MicroBlaze---@file{config/microblaze/constraints.md}
 @table @code
 @item d