Commit 399086f2 authored by Michael Munday's avatar Michael Munday

cmd/compile/internal/ssa/gen: add comment on SB-addressing on s390x

During the review of CL 38801 it was noted that it would be nice
to have a bit more clarity on how-and-why SB addressing is handled
strangely on s390x. This additional comment should hopefully help.

In general SB is handled differently because not all instructions
have variants that use relative addressing.

Change-Id: I3379012ae3f167478c191c435939c3b876c645ed
Reviewed-on: https://go-review.googlesource.com/38952Reviewed-by: 's avatarKeith Randall <khr@golang.org>
parent ebcb9cdf
......@@ -15,14 +15,38 @@ import "strings"
// - When doing sub-register operations, we try to write the whole
// destination register to avoid a partial-register write.
// - Unused portions of AuxInt (or the Val portion of ValAndOff) are
// filled by sign-extending the used portion. Users of AuxInt which interpret
// filled by sign-extending the used portion. Users of AuxInt which interpret
// AuxInt as unsigned (e.g. shifts) must be careful.
// Suffixes encode the bit width of various instructions.
// D (double word) = 64 bit (frequently omitted)
// W (word) = 32 bit
// H (half word) = 16 bit
// B (byte) = 8 bit
// - The SB 'register' is implemented using instruction-relative addressing. This
// places some limitations on when and how memory operands that are addressed
// relative to SB can be used:
//
// 1. Pseudo-instructions do not always map to a single machine instruction when
// using the SB 'register' to address data. This is because many machine
// instructions do not have relative long (RL suffix) equivalents. For example,
// ADDload, which is assembled as AG.
//
// 2. Loads and stores using relative addressing require the data be aligned
// according to its size (8-bytes for double words, 4-bytes for words
// and so on).
//
// We can always work around these by inserting LARL instructions (load address
// relative long) in the assembler, but typically this results in worse code
// generation because the address can't be re-used. Inserting instructions in the
// assembler also means clobbering the temp register and it is a long-term goal
// to prevent the compiler doing this so that it can be allocated as a normal
// register.
//
// For more information about the z/Architecture, the instruction set and the
// addressing modes it supports take a look at the z/Architecture Principles of
// Operation: http://publibfp.boulder.ibm.com/epubs/pdf/dz9zr010.pdf
//
// Suffixes encode the bit width of pseudo-instructions.
// D (double word) = 64 bit (frequently omitted)
// W (word) = 32 bit
// H (half word) = 16 bit
// B (byte) = 8 bit
// S (single prec.) = 32 bit (double precision is omitted)
// copied from ../../s390x/reg.go
var regNamesS390X = []string{
......
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