U-DESKTOP-SPFP6AQ\twistedtechre 9f6b84cf33 core: audio determinism fix and pipeline cleanup
Audit pass 6 - audio path. The libretro core only ever outputs 16-bit
stereo, so the question was whether anything in the audio pipeline is
either non-deterministic or pointlessly busy given that constraint.

DETERMINISM BUG FIX

src/filter.c's `sexyfilter_acc1` and `sexyfilter_acc2` are file-scope
int64_t IIR accumulators. They're saved/restored with the rest of the
sound state (sound.c "FAC1"/"FAC2" SFORMAT entries), but they were
NOT reset by FCEUSND_Power on cart load. So a second cart loaded in
the same process inherited the first cart's IIR state - audibly
minor (a few samples of transient before the IIR re-converges) but
non-deterministic across load orders.

`SexyFilter2`'s lowpass accumulator was even worse: a function-local
`static int64_t acc = 0` that no other code could touch. Its first-
load value was 0; from then on it just accumulated forever, with no
way to reset it. Same load-order-dependence problem, plus it wasn't
even savestate'd.

Fix:

  - Lift SexyFilter2's local static to file scope as `sexyfilter2_acc`.
  - Add `void SexyFilter_Reset(void)` that zeros all three accumulators.
  - Call SexyFilter_Reset() from FCEUSND_Power.
  - Add `sexyfilter2_acc` to the SFORMAT savestate list as "FAC3" so
    runahead/replay/netplay restore it alongside FAC1/FAC2.

`mrindex` (filter.c file-scope, NeoFilterSound's input cursor) is
already reset in MakeFilters, which FCEUI_Sound calls on every cart
load, so it doesn't need explicit handling. `mrratio` is set in the
same path. Documented in the new SexyFilter_Reset comment.

PIPELINE CLEANUPS

(1) WaveHi memset bound. The HQ-mode flush was clearing the entire
    WaveHi[40000] (160 KB) past `left` every frame, but channels only
    write into [left, SOUNDTS) - everything past SOUNDTS is already
    zero from the previous frame's clear (or FCEUSND_Power on the
    first frame). Tightened the memset to (SOUNDTS - left) * 4 bytes
    instead of sizeof(WaveHi) - left * 4. SOUNDTS is bounded by NES
    cycles per frame (~30000 NTSC), so this saves ~40 KB of
    pointless memset every HQ frame. The (SOUNDTS > left) guard
    handles the degenerate case of a very short frame where SOUNDTS
    might not have advanced past the coefficient history.

(2) RDoSQLQ silent-channel branch. When both square channels are
    inactive, `amp[x]` is forced to 0 (line 634), which propagates
    through `ttable[x]` to make `totalout = wlookup1[0] = 0`. The
    previous code looped (end - start) iterations adding 0 to
    Wave[V>>4] - genuinely no-op for ~30000 NES cycles per frame
    when nothing is playing. Removed the loop body.

(3) LQ dispatch deduplication. `RDoSQLQ` mixes both squares in a
    single call; `RDoTriangleNoisePCMLQ` mixes triangle/noise/PCM
    in a single call. The previous code pointed DoSQ1 and DoSQ2
    both at RDoSQLQ, and DoTriangle/DoNoise/DoPCM all at
    RDoTriangleNoisePCMLQ. The first call did the work; the
    subsequent calls entered the function only to be rejected by
    the `if (end <= start) return;` guard at the top. Now point
    DoSQ1/DoTriangle at the real workers and DoSQ2/DoNoise/DoPCM
    at Dummyfunc - same behaviour, no redundant call+early-return
    on every frame.

(4) stereo_filter_apply_delay copy loop -> memcpy. The element-by-
    element copy `samples[i+pos] = sound_buffer[i]` is trivially
    equivalent to memcpy for non-overlapping int32_t blocks; memcpy
    lets the compiler/libc dispatch SIMD where available.

(5) Dead code in filter.c. Removed the `#ifdef moo` and `#if 0`
    blocks (legacy commented-out lowpass formula attempts that
    have been dead since the original blargg import) and the
    `<math.h>` include, which is no longer needed once those
    blocks are gone.

ARCHITECTURAL NOTES (not changed - documented for future passes)

- Per-frame sample count varies by +/-1 (e.g. 798/799 at 48000Hz
  60Hz NTSC). This is required by libretro's variable-batch audio
  model and is fundamental to the deterministic phase accumulator
  (`soundtsoffs` carries the fractional remainder across frames).
  Same input -> same count sequence. Replay/netplay-stable.

- The `stereo_filter_apply_null` post-pass exists to convert
  in-place from int32 mono samples to int32 stereo-packed
  ((s<<16)|(s&0xFFFF)) format that, when the buffer is cast to
  int16_t*, reads correctly as L,R,L,R pairs. Could be folded
  into SexyFilter's clamp step to save one full-buffer pass
  (~190 KB/s of redundant memory traffic) but requires sound.c
  to know about the libretro frontend's stereo filter selection.
  Too much frontend/core coupling to chase for a modest cache
  win; left as-is.

- HQ path runs 5 in-place passes through WaveFinal[] per frame
  (NeoFilterSound, SexyFilter, optional SexyFilter2,
  stereo_filter_apply, audio_batch_cb read). LQ path runs 4.
  Each pass is ~3.2 KB at 48000Hz - ~1 MB/s of buffer traffic
  total. Modest; not worth restructuring.

- WaveHi[40000] is BSS-allocated (160 KB) even when in LQ mode
  where it's never written. Cost is zero - BSS pages don't
  materialise until first write - so making it conditional has
  no runtime benefit, only adds complexity.

- stereo_filter_delay uses a linear buffer with memmove on each
  frame to slide consumed samples back to position 0. A circular
  buffer would eliminate the memmove but only matters when the
  user opts into the delay filter (off by default).

Build clean under -std=gnu11 with -Wno-write-strings -Wsign-compare
-Wundef -Wmissing-prototypes; zero errors, zero warnings.

audit_determinism.py: no rand/time/long double/threads issues.
2026-05-04 05:08:11 +02:00
2024-09-23 05:55:21 -07:00
2023-01-02 19:47:36 +01:00
2026-04-02 10:14:04 +01:00
Fix
2017-12-21 20:40:28 +09:00
2014-12-23 09:50:29 +01:00
2015-08-06 13:28:43 +02:00
2025-09-03 16:20:50 +02:00
2019-06-28 23:44:06 +02:00

Build Status Build status

FCE Ultra mappers modified

FCEU "mappers modified" is an unofficial build of FCEU Ultra by CaH4e3, which supports a lot of new mappers including some obscure mappers such as one for unlicensed NES ROM's.

Sequential targets Light Guns support added

Support for Sequential targets Light Guns has been added. "Gun Aux A" serves as light sensor logic input.

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