+2008-01-30 Thiago Jung Bauermann <bauerman@br.ibm.com>
+
+ * gdb.texinfo: (Decimal Floating Point): Mention pseudo-registers
+ available in PowerPC architecture.
+ (Embedded Processors): Change node name of PowerPC item in menu.
+ (PowerPC): Rename to...
+ (PowerPC Embedded): this.
+ (Architectures): Add new PowerPC item in menu.
+ (PowerPC): New node.
+
2008-01-30 Daniel Jacobowitz <dan@codesourcery.com>
* gdb.texinfo (Multi-Process Mode for gdbserver): Use @kbd for
point computations, error checking in decimal float operations ignores
underflow, overflow and divide by zero exceptions.
+In the PowerPC architecture, @value{GDBN} provides a set of pseudo-registers
+to inspect @code{_Decimal128} values stored in floating point registers. See
+@ref{PowerPC,,PowerPC} for more details.
+
@node Objective-C
@subsection Objective-C
* MIPS Embedded:: MIPS Embedded
* OpenRISC 1000:: OpenRisc 1000
* PA:: HP PA Embedded
-* PowerPC:: PowerPC
+* PowerPC Embedded:: PowerPC Embedded
* Sparclet:: Tsqware Sparclet
* Sparclite:: Fujitsu Sparclite
* Z8000:: Zilog Z8000
@end table
-@node PowerPC
-@subsection PowerPC
+@node PowerPC Embedded
+@subsection PowerPC Embedded
@value{GDBN} provides the following PowerPC-specific commands:
* MIPS::
* HPPA:: HP PA architecture
* SPU:: Cell Broadband Engine SPU architecture
+* PowerPC::
@end menu
@node i386
@end table
+@node PowerPC
+@subsection PowerPC
+@cindex PowerPC architecture
+
+When @value{GDBN} is debugging the PowerPC architecture, it provides a set of
+pseudo-registers to enable inspection of 128-bit wide Decimal Floating Point
+numbers stored in the floating point registers. These values must be stored
+in two consecutive registers, always starting at an even register like
+@code{f0} or @code{f2}.
+
+The pseudo-registers go from @code{$dl0} through @code{$dl15}, and are formed
+by joining the even/odd register pairs @code{f0} and @code{f1} for @code{$dl0},
+@code{f2} and @code{f3} for @code{$dl1} and so on.
+
@node Controlling GDB
@chapter Controlling @value{GDBN}