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-rw-r--r--gdb/doc/ChangeLog5
-rw-r--r--gdb/doc/gdb.texinfo90
-rw-r--r--gdb/doc/gdbint.texinfo2
3 files changed, 51 insertions, 46 deletions
diff --git a/gdb/doc/ChangeLog b/gdb/doc/ChangeLog
index 2f2d8c9..fba2453 100644
--- a/gdb/doc/ChangeLog
+++ b/gdb/doc/ChangeLog
@@ -1,3 +1,8 @@
+2003-10-10 Kei Sakamoto <sakamoto.kei@renesas.com>
+
+ * gdb.texinfo: Replace "Hitachi" and "Mitsubishi" with "Renesas".
+ * gdbint.texinfo: Ditto.
+
2003-10-09 Andrew Cagney <cagney@redhat.com>
From 2003-09-18 David Anderson <davea@sgi.com>:
diff --git a/gdb/doc/gdb.texinfo b/gdb/doc/gdb.texinfo
index c07e025..809d5ad 100644
--- a/gdb/doc/gdb.texinfo
+++ b/gdb/doc/gdb.texinfo
@@ -418,12 +418,12 @@ Fred Fish wrote most of the support for Unix System Vr4.
He also enhanced the command-completion support to cover C@t{++} overloaded
symbols.
-Hitachi America, Ltd. sponsored the support for H8/300, H8/500, and
+Renesas America, Ltd. sponsored the support for H8/300, H8/500, and
Super-H processors.
NEC sponsored the support for the v850, Vr4xxx, and Vr5xxx processors.
-Mitsubishi sponsored the support for D10V, D30V, and M32R/D processors.
+Renesas sponsored the support for D10V, D30V, and M32R/D processors.
Toshiba sponsored the support for the TX39 Mips processor.
@@ -10481,7 +10481,7 @@ specifies a fixed address.
@cindex choosing target byte order
@cindex target byte order
-Some types of processors, such as the MIPS, PowerPC, and Hitachi SH,
+Some types of processors, such as the MIPS, PowerPC, and Renesas SH,
offer the ability to run either big-endian or little-endian byte
orders. Usually the executable or symbol will include a bit to
designate the endian-ness, and you will not need to worry about
@@ -10928,9 +10928,9 @@ For Motorola 680x0 architectures.
@item sh-stub.c
@cindex @file{sh-stub.c}
-@cindex Hitachi
+@cindex Renesas
@cindex SH
-For Hitachi SH architectures.
+For Renesas SH architectures.
@item sparc-stub.c
@cindex @file{sparc-stub.c}
@@ -11782,15 +11782,15 @@ configurations.
@menu
* ARM:: ARM
-* H8/300:: Hitachi H8/300
-* H8/500:: Hitachi H8/500
-* M32R/D:: Mitsubishi M32R/D
+* H8/300:: Renesas H8/300
+* H8/500:: Renesas H8/500
+* M32R/D:: Renesas M32R/D
* M68K:: Motorola M68K
* MIPS Embedded:: MIPS Embedded
* OpenRISC 1000:: OpenRisc 1000
* PA:: HP PA Embedded
* PowerPC: PowerPC
-* SH:: Hitachi SH
+* SH:: Renesas SH
* Sparclet:: Tsqware Sparclet
* Sparclite:: Fujitsu Sparclite
* ST2000:: Tandem ST2000
@@ -11815,50 +11815,50 @@ ARM Demon monitor.
@end table
@node H8/300
-@subsection Hitachi H8/300
+@subsection Renesas H8/300
@table @code
@kindex target hms@r{, with H8/300}
@item target hms @var{dev}
-A Hitachi SH, H8/300, or H8/500 board, attached via serial line to your host.
+A Renesas SH, H8/300, or H8/500 board, attached via serial line to your host.
Use special commands @code{device} and @code{speed} to control the serial
line and the communications speed used.
@kindex target e7000@r{, with H8/300}
@item target e7000 @var{dev}
-E7000 emulator for Hitachi H8 and SH.
+E7000 emulator for Renesas H8 and SH.
@kindex target sh3@r{, with H8/300}
@kindex target sh3e@r{, with H8/300}
@item target sh3 @var{dev}
@itemx target sh3e @var{dev}
-Hitachi SH-3 and SH-3E target systems.
+Renesas SH-3 and SH-3E target systems.
@end table
@cindex download to H8/300 or H8/500
@cindex H8/300 or H8/500 download
-@cindex download to Hitachi SH
-@cindex Hitachi SH download
-When you select remote debugging to a Hitachi SH, H8/300, or H8/500
-board, the @code{load} command downloads your program to the Hitachi
+@cindex download to Renesas SH
+@cindex Renesas SH download
+When you select remote debugging to a Renesas SH, H8/300, or H8/500
+board, the @code{load} command downloads your program to the Renesas
board and also opens it as the current executable target for
@value{GDBN} on your host (like the @code{file} command).
@value{GDBN} needs to know these things to talk to your
-Hitachi SH, H8/300, or H8/500:
+Renesas SH, H8/300, or H8/500:
@enumerate
@item
that you want to use @samp{target hms}, the remote debugging interface
-for Hitachi microprocessors, or @samp{target e7000}, the in-circuit
-emulator for the Hitachi SH and the Hitachi 300H. (@samp{target hms} is
-the default when @value{GDBN} is configured specifically for the Hitachi SH,
+for Renesas microprocessors, or @samp{target e7000}, the in-circuit
+emulator for the Renesas SH and the Renesas 300H. (@samp{target hms} is
+the default when @value{GDBN} is configured specifically for the Renesas SH,
H8/300, or H8/500.)
@item
-what serial device connects your host to your Hitachi board (the first
+what serial device connects your host to your Renesas board (the first
serial device available on your host is the default).
@item
@@ -11866,24 +11866,24 @@ what speed to use over the serial device.
@end enumerate
@menu
-* Hitachi Boards:: Connecting to Hitachi boards.
-* Hitachi ICE:: Using the E7000 In-Circuit Emulator.
-* Hitachi Special:: Special @value{GDBN} commands for Hitachi micros.
+* Renesas Boards:: Connecting to Renesas boards.
+* Renesas ICE:: Using the E7000 In-Circuit Emulator.
+* Renesas Special:: Special @value{GDBN} commands for Renesas micros.
@end menu
-@node Hitachi Boards
-@subsubsection Connecting to Hitachi boards
+@node Renesas Boards
+@subsubsection Connecting to Renesas boards
@c only for Unix hosts
@kindex device
-@cindex serial device, Hitachi micros
+@cindex serial device, Renesas micros
Use the special @code{@value{GDBN}} command @samp{device @var{port}} if you
need to explicitly set the serial device. The default @var{port} is the
first available port on your host. This is only necessary on Unix
hosts, where it is typically something like @file{/dev/ttya}.
@kindex speed
-@cindex serial line speed, Hitachi micros
+@cindex serial line speed, Renesas micros
@code{@value{GDBN}} has another special command to set the communications
speed: @samp{speed @var{bps}}. This command also is only used from Unix
hosts; on DOS hosts, set the line speed as usual from outside @value{GDBN} with
@@ -11891,7 +11891,7 @@ the DOS @code{mode} command (for instance,
@w{@kbd{mode com2:9600,n,8,1,p}} for a 9600@dmn{bps} connection).
The @samp{device} and @samp{speed} commands are available only when you
-use a Unix host to debug your Hitachi microprocessor programs. If you
+use a Unix host to debug your Renesas microprocessor programs. If you
use a DOS host,
@value{GDBN} depends on an auxiliary terminate-and-stay-resident program
called @code{asynctsr} to communicate with the development board
@@ -11901,7 +11901,7 @@ to set up the serial port on the DOS side.
The following sample session illustrates the steps needed to start a
program under @value{GDBN} control on an H8/300. The example uses a
sample H8/300 program called @file{t.x}. The procedure is the same for
-the Hitachi SH and the H8/500.
+the Renesas SH and the H8/500.
First hook up your development board. In this example, we use a
board attached to serial port @code{COM2}; if you use a different serial
@@ -11934,7 +11934,7 @@ connected, you can start up @value{GDBN}. Call @code{@value{GDBP}} with
the name of your program as the argument. @code{@value{GDBN}} prompts
you, as usual, with the prompt @samp{(@value{GDBP})}. Use two special
commands to begin your debugging session: @samp{target hms} to specify
-cross-debugging to the Hitachi board, and the @code{load} command to
+cross-debugging to the Renesas board, and the @code{load} command to
download your program to the board. @code{load} displays the names of
the program's sections, and a @samp{*} for each 2K of data downloaded.
(If you want to refresh @value{GDBN} data on symbols or on the
@@ -11984,12 +11984,12 @@ to detect program completion.
In either case, @value{GDBN} sees the effect of a @sc{reset} on the
development board as a ``normal exit'' of your program.
-@node Hitachi ICE
+@node Renesas ICE
@subsubsection Using the E7000 in-circuit emulator
-@kindex target e7000@r{, with Hitachi ICE}
+@kindex target e7000@r{, with Renesas ICE}
You can use the E7000 in-circuit emulator to develop code for either the
-Hitachi SH or the H8/300H. Use one of these forms of the @samp{target
+Renesas SH or the H8/300H. Use one of these forms of the @samp{target
e7000} command to connect @value{GDBN} to your E7000:
@table @code
@@ -12004,8 +12004,8 @@ If your E7000 is installed as a host on a TCP/IP network, you can just
specify its hostname; @value{GDBN} uses @code{telnet} to connect.
@end table
-@node Hitachi Special
-@subsubsection Special @value{GDBN} commands for Hitachi micros
+@node Renesas Special
+@subsubsection Special @value{GDBN} commands for Renesas micros
Some @value{GDBN} commands are available only for the H8/300:
@@ -12038,13 +12038,13 @@ memory}. The accepted values for @var{mod} are @code{small},
@end table
@node M32R/D
-@subsection Mitsubishi M32R/D
+@subsection Renesas M32R/D
@table @code
@kindex target m32r
@item target m32r @var{dev}
-Mitsubishi M32R/D ROM monitor.
+Renesas M32R/D ROM monitor.
@end table
@@ -12391,25 +12391,25 @@ W89K monitor, running on a Winbond HPPA board.
@end table
@node SH
-@subsection Hitachi SH
+@subsection Renesas SH
@table @code
-@kindex target hms@r{, with Hitachi SH}
+@kindex target hms@r{, with Renesas SH}
@item target hms @var{dev}
-A Hitachi SH board attached via serial line to your host. Use special
+A Renesas SH board attached via serial line to your host. Use special
commands @code{device} and @code{speed} to control the serial line and
the communications speed used.
-@kindex target e7000@r{, with Hitachi SH}
+@kindex target e7000@r{, with Renesas SH}
@item target e7000 @var{dev}
-E7000 emulator for Hitachi SH.
+E7000 emulator for Renesas SH.
@kindex target sh3@r{, with SH}
@kindex target sh3e@r{, with SH}
@item target sh3 @var{dev}
@item target sh3e @var{dev}
-Hitachi SH-3 and SH-3E target systems.
+Renesas SH-3 and SH-3E target systems.
@end table
diff --git a/gdb/doc/gdbint.texinfo b/gdb/doc/gdbint.texinfo
index 385541e..e65dd97 100644
--- a/gdb/doc/gdbint.texinfo
+++ b/gdb/doc/gdbint.texinfo
@@ -2505,7 +2505,7 @@ However, architectures with smaller word sizes are often cramped for
address space, so they may choose a pointer representation that breaks this
identity, and allows a larger code address space.
-For example, the Mitsubishi D10V is a 16-bit VLIW processor whose
+For example, the Renesas D10V is a 16-bit VLIW processor whose
instructions are 32 bits long@footnote{Some D10V instructions are
actually pairs of 16-bit sub-instructions. However, since you can't
jump into the middle of such a pair, code addresses can only refer to