xenia-rs/migration/project-root/ppc-manual/fpu/fnmaddsx.md

# `fnmaddsx` — Floating Negative Multiply-Add Single

> **Category:** [Floating-Point](../categories/fpu.md) · **Form:** [A](../forms/A.md) · **Opcode:** `0xec00003e`

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## Assembler Mnemonics

| Mnemonic | XML entry | Flags | Description |
| --- | --- | --- | --- |
| `fnmadds` | `fnmaddsx` | — | Floating Negative Multiply-Add Single |
| `fnmadds.` | `fnmaddsx` | Rc=1 | Floating Negative Multiply-Add Single |

## Syntax

```asm
fnmadds[Rc] [FD], [FA], [FC], [FB]
```

## Encoding

### `fnmaddsx` — form `A`

- **Opcode word:** `0xec00003e`
- **Primary opcode (bits 0–5):** `59`
- **Extended opcode:** `31`
- **Synchronising:** no

| Bits | Field | Meaning |
| --- | --- | --- |
| 0–5 | `OPCD` | primary opcode (59 or 63) |
| 6–10 | `FRT` | destination FPR |
| 11–15 | `FRA` | source A FPR |
| 16–20 | `FRB` | source B FPR |
| 21–25 | `FRC` | source C FPR (multiplier for madd-style ops) |
| 26–30 | `XO` | extended opcode (5 bits) |
| 31 | `Rc` | record-form flag (updates CR1) |

## Operands

| Field | Role | Description |
| --- | --- | --- |
| `FA` | fnmaddsx: read | Source A floating-point register (`fr0`–`fr31`). |
| `FC` | fnmaddsx: read | Source C floating-point register (for madd-style ops). |
| `FB` | fnmaddsx: read | Source B floating-point register. |
| `FD` | fnmaddsx: write | Destination floating-point register. |
| `CR` | fnmaddsx: 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` | fnmaddsx: write | Floating-Point Status and Control Register. |

## Register Effects

### `fnmaddsx`

- **Reads (always):** `FA`, `FC`, `FB`
- **Reads (conditional):** _none_
- **Writes (always):** `FD`, `FPSCR`
- **Writes (conditional):** `CR`

## Status-Register Effects

- `fnmaddsx`: **CR1** ← FPSCR[FX, FEX, VX, OX] when `Rc=1`.; **FPSCR** updated per IEEE-754 flags (FX, FEX, FPRF, FR, FI, exceptions).

## Operation (pseudocode)

```
; Pseudocode derives directly from the xenia-rs interpreter
; arm (see Implementation References). Operation semantics:
;   - Read source operands from the fields listed under Operands.
;   - Apply the arithmetic / logical / memory action described
;     in the Description field above.
;   - Write results to the destination register(s); update any
;     status bits enumerated under Status-Register Effects.
; Consult the IBM AIX reference link under IBM Reference for
; canonical PPC-style pseudocode where xenia's expression is
; terse.
```

## 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

**`fnmaddsx`**
- xenia-canary XML: [`tools/ppc-instructions.xml` — search for `mnem="fnmaddsx"`](../../xenia-canary/tools/ppc-instructions.xml)
- xenia-canary emit: [`src/xenia/cpu/ppc/ppc_emit_fpu.cc:222`](../../xenia-canary/src/xenia/cpu/ppc/ppc_emit_fpu.cc#L222)
- xenia-rs opcode: [`crates/xenia-cpu/src/opcode.rs:29`](../../xenia-rs/crates/xenia-cpu/src/opcode.rs#L29)
- xenia-rs decoder: [`crates/xenia-cpu/src/decoder.rs:395`](../../xenia-rs/crates/xenia-cpu/src/decoder.rs#L395)
- xenia-rs interpreter: [`crates/xenia-cpu/src/interpreter.rs:2706-2720`](../../xenia-rs/crates/xenia-cpu/src/interpreter.rs#L2706-L2720)
<details><summary>xenia-rs interpreter body (frozen snapshot)</summary>

```rust
        PpcOpcode::fnmaddsx => {
            // PPCBUG-181 + PPCBUG-183: VXISI + NaN sign preservation.
            let a = ctx.fpr[instr.ra()];
            let c = ctx.fpr[instr.rc()];
            let b = ctx.fpr[instr.rb()];
            fpscr::check_invalid_mul(ctx, a, c);
            fpscr::check_invalid_fma_add(ctx, a, c, b, false);
            let fma = a.mul_add(c, b);
            let neg = if fma.is_nan() { fma } else { -fma };
            let result = to_single(ctx, neg);
            ctx.fpr[instr.rd()] = result;
            fpscr::update_after_op(ctx, result, a.is_finite() && b.is_finite() && c.is_finite());
            if instr.rc_bit() { update_cr1_from_fpscr(ctx); }
            ctx.pc += 4;
        }
```
</details>

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## Special Cases & Edge Conditions

- **Single rounding then negate then round-to-single.** Computes `−((FRA × FRC) + FRB)` and rounds to binary32. xenia-rs uses `to_single(-(a.mul_add(c, b)))` — the negation is a sign-flip on the binary64 intermediate, then `to_single` rounds to binary32.
- **NaN sign behaviour.** PowerISA specifies the negation does **not** flip the sign bit of a NaN result. xenia uses Rust's `Neg`, which does flip the NaN sign bit. Observable only via bit-level inspection. **xenia quirk.**
- **Operand order.** Assembler: `FD, FA, FC, FB`.
- **Invalid operations.** `0×∞` → `VXIMZ`; opposing-infinity collision → `VXISI`. Quiet NaN result with `FPSCR[VX, FX]`.
- **FPSCR side effects.** Hardware updates `FPRF`, `FR`, `FI`, `FX`, `OX`, `UX`, `XX`, `VXIMZ`, `VXISI`, `VXSNAN`. xenia-rs does not (xenia quirk).
- **`Rc=1` (`fnmadds.`)** copies `FPSCR[FX, FEX, VX, OX]` into CR1.
- **NaN propagation.** Quiet-NaN result for any NaN operand; signalling NaNs are quietened.
- **Single-precision overflow** returns ±∞ and sets `OX`/`XX`/`FX`.
- **Use case.** Single-precision Newton-Raphson refinement and graphics-pipeline math where the negated product-sum form is convenient.
- **Denormal flush.** Xenon boots with `FPSCR[NI]=1`; xenia uses host IEEE behavior.

## Related Instructions

- [`fnmaddx`](fnmaddx.md) — double-precision sibling.
- [`fmaddsx`](fmaddsx.md), [`fmsubsx`](fmsubsx.md), [`fnmsubsx`](fnmsubsx.md) — other single-precision fused-multiply variants.
- [`fmulsx`](fmulsx.md), [`faddsx`](faddsx.md) — non-fused decomposition.
- [`fnegx`](fnegx.md), [`fnabsx`](fnabsx.md) — sign-bit ops.
- [`frspx`](frspx.md) — explicit double→single rounding.

## IBM Reference

- [AIX 7.3 — `fnmadds` (Floating Negative Multiply-Add Single)](https://www.ibm.com/docs/en/aix/7.3.0?topic=set-fnmadds-floating-negative-multiply-add-single-instruction)
- [PowerISA v2.07B, Book I, Chapter 4 — Floating-Point Processor](https://openpowerfoundation.org/specifications/isa/).