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chore: add migration/ bundle for cross-machine setup

Browse Source 
Bundles state that lives OUTSIDE the xenia-rs repo so a fresh clone on
another machine can be brought up to identical configuration via
migration/setup.sh:

  - claude-memory/             ~/.claude/projects/-home-fabi-RE-Project-Sylpheed/memory/
                               (103 files, 1.1 MB - MEMORY.md + every
                                project_xenia_rs_*.md from audits
                                addis_signext through audit-058)
  - project-root/dot-claude/   <project-root>/.claude/settings.json
                               (Stop hook + permissions)
  - project-root/ppc-manual/   <project-root>/ppc-manual/
                               (PowerPC reference docs, 397 files, 3.7 MB)
  - project-root/run-canary.sh <project-root>/run-canary.sh
  - README.md                  Human-readable setup checklist
  - setup.sh                   Idempotent installer (also reclones
                               xenia-canary at pinned HEAD 6de80dffe)
  - MANIFEST.md                Per-file mapping + per-file-not-bundled
                               restoration recipe

Excluded from bundle (not shippable via git):
  - Sylpheed ISO (7.8 GB; copyright; manual copy required)
  - sylpheed.db (395 MB; regenerable from XEX via analysis tooling)
  - target/ build artifacts (rebuild on target)
  - audit-runs probe firehoses (.log/.stdout/.stderr ~11 GB; rerun if needed)
  - audit-runs memory dumps (.bin ~4.5 GB; rerun audit-026/027/029 if needed)
  - xenia-canary checkout (setup.sh reclones from
    git.mc02.dev/fabi/Xenia-Canary.git at HEAD 6de80dffe)

Co-Authored-By: Claude Opus 4.7 (1M context) <noreply@anthropic.com>
This commit is contained in:
MechaCat02
2026-05-10 21:38:38 +02:00
parent 8e709b0a24
commit e6d43a23ac
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# `faddsx` — Floating Add Single
> **Category:** [Floating-Point](../categories/fpu.md) · **Form:** [A](../forms/A.md) · **Opcode:** `0xec00002a`
<!-- GENERATED: BEGIN -->
## Assembler Mnemonics
| Mnemonic | XML entry | Flags | Description |
| --- | --- | --- | --- |
| `fadds` | `faddsx` | — | Floating Add Single |
| `fadds.` | `faddsx` | Rc=1 | Floating Add Single |
## Syntax
```asm
fadds[Rc] [FD], [FA], [FB]
```
## Encoding
### `faddsx` — form `A`
- **Opcode word:** `0xec00002a`
- **Primary opcode (bits 05):** `59`
- **Extended opcode:** `21`
- **Synchronising:** no
| Bits | Field | Meaning |
| --- | --- | --- |
| 05 | `OPCD` | primary opcode (59 or 63) |
| 610 | `FRT` | destination FPR |
| 1115 | `FRA` | source A FPR |
| 1620 | `FRB` | source B FPR |
| 2125 | `FRC` | source C FPR (multiplier for madd-style ops) |
| 2630 | `XO` | extended opcode (5 bits) |
| 31 | `Rc` | record-form flag (updates CR1) |
## Operands
| Field | Role | Description |
| --- | --- | --- |
| `FA` | faddsx: read | Source A floating-point register (`fr0``fr31`). |
| `FB` | faddsx: read | Source B floating-point register. |
| `FD` | faddsx: write | Destination floating-point register. |
| `CR` | faddsx: write (conditional) | Condition-register update. When `Rc=1`, CR field 0 (or CR6 for vector compares, CR1 for FPU) is updated from the result. |
| `FPSCR` | faddsx: write | Floating-Point Status and Control Register. |
## Register Effects
### `faddsx`
- **Reads (always):** `FA`, `FB`
- **Reads (conditional):** _none_
- **Writes (always):** `FD`, `FPSCR`
- **Writes (conditional):** `CR`
## Status-Register Effects
- `faddsx`: **CR1** ← FPSCR[FX, FEX, VX, OX] when `Rc=1`.; **FPSCR** updated per IEEE-754 flags (FX, FEX, FPRF, FR, FI, exceptions).
## Operation (pseudocode)
```
FRT <- RoundToSingle(FRA + FRB) ; single-precision
```
## C Translation Example
```c
/* C translation: the xenia-rs interpreter arm below in */
/* Implementation References is the authoritative semantic */
/* snapshot. Translate it line-by-line: */
/* - ctx.gpr[N] -> r[N] (or f[]/v[] for FPRs/VRs) */
/* - mem.read_u*/write_u* -> mem_read_u*_be / mem_write_u*_be */
/* - ctx.update_cr_signed(fld, v) -> update_cr_signed(fld, v) */
/* - ctx.xer_ca / xer_ov / xer_so -> xer.CA / xer.OV / xer.SO */
/* The Register Effects and Status-Register Effects tables above */
/* enumerate every side effect a faithful translation must emit. */
```
## Implementation References
**`faddsx`**
- xenia-canary XML: [`tools/ppc-instructions.xml` — search for `mnem="faddsx"`](../../xenia-canary/tools/ppc-instructions.xml)
- xenia-canary emit: [`src/xenia/cpu/ppc/ppc_emit_fpu.cc:46`](../../xenia-canary/src/xenia/cpu/ppc/ppc_emit_fpu.cc#L46)
- xenia-rs opcode: [`crates/xenia-cpu/src/opcode.rs:27`](../../xenia-rs/crates/xenia-cpu/src/opcode.rs#L27)
- xenia-rs decoder: [`crates/xenia-cpu/src/decoder.rs:388`](../../xenia-rs/crates/xenia-cpu/src/decoder.rs#L388)
- xenia-rs interpreter: [`crates/xenia-cpu/src/interpreter.rs:2565-2574`](../../xenia-rs/crates/xenia-cpu/src/interpreter.rs#L2565-L2574)
<details><summary>xenia-rs interpreter body (frozen snapshot)</summary>
```rust
PpcOpcode::faddsx => {
let a = ctx.fpr[instr.ra()];
let b = ctx.fpr[instr.rb()];
fpscr::check_invalid_add(ctx, a, b, false);
let result = to_single(ctx, a + b);
ctx.fpr[instr.rd()] = result;
fpscr::update_after_op(ctx, result, a.is_finite() && b.is_finite());
if instr.rc_bit() { update_cr1_from_fpscr(ctx); }
ctx.pc += 4;
}
```
</details>
<!-- GENERATED: END -->
## Special Cases & Edge Conditions
- **Single precision via double FPRs.** The trailing `s` in the mnemonic means the result is rounded to IEEE-754 binary32 after the addition, then re-encoded into the 64-bit FPR using the binary64 representation of that single-precision value. The host computes `to_single(a + b)`; both source operands are read as full binary64.
- **FPSCR side effects.** Hardware updates `FPRF` (result class), `FR`/`FI` (rounding info), `FX`, and the exception bits — `OX` on overflow, `UX` on underflow, `XX` on inexact, `VXISI` on `±∞ ±∞`, `VXSNAN` on a signalling-NaN input. xenia-rs does **not** maintain FPSCR in the interpreter snapshot — call this out as a xenia quirk if you depend on cross-instruction FPSCR observation.
- **`Rc=1` (`fadds.`)** copies `FPSCR[FX, FEX, VX, OX]` into CR1. xenia models this via `update_cr1_from_fpscr()`.
- **NaN propagation.** Any NaN input yields a quiet NaN result; signalling NaNs are quietened (signalling bit cleared) per PowerISA. Host-native `f64 +` may not perform that quietening on every platform.
- **`±∞ ±∞` after rounding.** Although `+`-shaped, opposite-signed infinities still produce `QNaN(VXISI)`.
- **`FPSCR[NI]` (non-IEEE / flush-to-zero)** is set at Xenon boot, so denormal results normally flush to zero. Xenia inherits host semantics, which is IEEE-compliant by default; titles tuned around flush-to-zero may see slightly different denormal rounding under xenia.
- **Rounding mode** uses `FPSCR[RN]` (00 nearest-even, 01 toward 0, 10 toward +∞, 11 toward −∞). Default is nearest-even and is rarely changed.
- **A-form encoding ignores `FRC`.** Bits 2125 are don't-care for the add family.
## Related Instructions
- [`faddx`](faddx.md) — double-precision sibling.
- [`fsubsx`](fsubsx.md), [`fmulsx`](fmulsx.md), [`fdivsx`](fdivsx.md) — other single-precision arithmetic ops.
- [`fmaddsx`](fmaddsx.md), [`fmsubsx`](fmsubsx.md), [`fnmaddsx`](fnmaddsx.md), [`fnmsubsx`](fnmsubsx.md) — fused multiply-add single-precision family (single rounding step).
- [`frspx`](frspx.md) — explicit double→single rounding helper; `fadds` is essentially `frsp(fadd)` fused into one rounding.
- [`mffsx`](mffsx.md), [`mtfsfx`](mtfsfx.md) — read/write FPSCR for rounding-mode and exception control.
## IBM Reference
- [AIX 7.3 — `fadds` (Floating Add Single)](https://www.ibm.com/docs/en/aix/7.3.0?topic=set-fadds-floating-add-single-instruction)
- [PowerISA v2.07B, Book I, Chapter 4 — Floating-Point Processor](https://openpowerfoundation.org/specifications/isa/) (single-precision rounding rules and FPSCR side effects).