PPCBUG-040: decoder.rs sh64() assembled the XS-form shift amount as
(SH[4:0] << 1) | SH[5] instead of (SH[5] << 5) | SH[4:0]. Every
`sradi` with shift N ∈ 1..=62 executed with a completely wrong shift
count (e.g. shift=32 executed as shift=1).
PPCBUG-560: disasm_goldens.rs rldicl() test helper was encoding sh[5:1]
at PPC bits 16-20 and sh[0] at PPC bit 30 — exactly backwards. The wrong
encoder and wrong decoder cancelled out, hiding PPCBUG-040 from tests.
Fix both together so tests validate ISA-correct encodings.
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
Split the monolithic interpreter into cohesive modules: dedicated
decoder (decoder.rs) producing 8-byte DecodedInstr; opcode tables
(opcode.rs); explicit traps (trap.rs); FPSCR helpers (fpscr.rs);
overflow/carry helpers (overflow.rs); a 4 KiB-page-versioned decode
cache and basic-block cache (block_cache.rs); and a full VMX/VMX128
implementation (vmx.rs) covering AltiVec + Xenon's 128-bit extensions.
Add the parallel-execution substrate behind --parallel: a 7-party
phaser (phaser.rs) for round-based barrier sync, ReservationTable
(reservation.rs) for guest LL/SC, and the per-HW-thread scheduler
core (scheduler.rs) that owns ThreadRefs, runqueues, and pending IRQs.
Disassembler is now the single source of truth: disasm.rs gains the
full base + extended + VMX128 mnemonic set, with golden JSON fixtures
and a disasm_goldens test suite. Add a criterion-style interpreter
bench. context.rs grows the per-thread state the new modules need
(reservation slot, FPSCR, vector regs).
Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
