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author | Jiangshuai Li <jiangshuai_li@c-sky.com> | 2022-06-28 11:05:30 +0800 |
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committer | Jiangshuai Li <jiangshuai_li@c-sky.com> | 2022-06-28 11:05:30 +0800 |
commit | e3940312c14b1857a92e4e282419402e36ac4cc6 (patch) | |
tree | 3e8bf8203309ba4735cb4232b515d50a662d64a3 /gdb/i386-darwin-nat.c | |
parent | PR29293, elfnn-aarch64.c: def_protected member unintialized (diff) | |
download | binutils-gdb-e3940312c14b1857a92e4e282419402e36ac4cc6.tar.gz binutils-gdb-e3940312c14b1857a92e4e282419402e36ac4cc6.tar.bz2 binutils-gdb-e3940312c14b1857a92e4e282419402e36ac4cc6.zip |
gdb:csky add pseudo regs for float and vector regs
In the existing CSKY architecture, there are at most 32 floating
and 16 vector registers. Float registers's count can be configured
as 16 or 32. In the future, the vector registers's count may be
extended to 32.
The bit width of floating-point register is 64bits, and the bit
width of vector register is 128bit.
Special points: in fr0~fr15 and vr0~vr15, each FRx is the lower
64 bits of the corresponding VRx.
Here, we will split each floating-point and vector register to
32bits wide, add the corresponding pseudo registers, and finally
use them for the dwarf registers.
There are 128 pseudo registers in total, s0~s127, including:
1. s0 and s1 correspond to fr0, s4 and s5 correspond to fr1, and so on.
Every two separated pseudo registers correspond to a float register.
2. s0, s1, s2 and s3 correspond to vr0; s4, s5, s6 and s7 correspond to vr1,
and so on. Every four pseudo registers corresponds to a vector register.
Therefore, in s64~s127, there are general registers that are not actually
used. This part is to prepare for the expansion of vector registers to 32
Therefore, in s64~s127, half of the registers are actually unused. This
part is to prepare for the expansion of the vector register to 32.
Diffstat (limited to 'gdb/i386-darwin-nat.c')
0 files changed, 0 insertions, 0 deletions