7f23bc8b19
Produce the first deliverable of the Candy-Crush vibe pass: a bank of bright, glossy, higher-pitched SFX WAVs under assets/audio/, all in the exact canonical iOS System-Sound format clear.wav uses (mono, 44100 Hz, signed-16-bit PCM). Bank: swap, match, combo1..combo5 (ascending pentatonic run C6 D6 E6 G6 A6), win (ascending arpeggio), lose (descending stinger). Every cue sits above clear.wav's ~784 Hz fundamental; combo1<..<combo5 step strictly upward (1047<1175<1319<1568<1760 Hz). Each loads via AudioServicesCreateSystemSoundID with status 0. Synthesized by the build-time tools/synth_audio.py (pure-Python additive synthesis; the app never runs it) and converted with afconvert. Pitch verified with tools/measure_pitch.py. Provenance (CC0) recorded in LICENSE.txt. No sx code changes — engine wiring is P10.2/P10.3.
194 lines
6.3 KiB
Python
194 lines
6.3 KiB
Python
#!/usr/bin/env python3
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"""Synthesize the m3te candy-vibe SFX bank (P10.1).
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BUILD-TIME TOOL ONLY. The shipped game never runs this; it only loads the
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finished WAVs this script writes under assets/audio/. Pure Python stdlib
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synthesis (no numpy) -> standard 16-bit PCM WAV -> afconvert into the exact
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canonical iOS System-Sound format clear.wav already uses (mono, 44100 Hz,
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LEI16, WAVE_FORMAT_EXTENSIBLE).
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Timbre: a bright glossy bell — fundamental plus a few decaying partials and a
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slightly detuned shimmer top, a fast attack, exponential decay, and a tiny
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upward pitch blip at onset for the "candy pop" feel. Every cue sits well above
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clear.wav's ~784 Hz fundamental. combo1..combo5 climb a pentatonic run.
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Usage: python3 tools/synth_audio.py # writes the whole bank
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python3 tools/synth_audio.py --keep-tmp # leave the intermediate PCM
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"""
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import math
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import os
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import struct
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import subprocess
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import sys
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import tempfile
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import wave
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SR = 44100
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# Equal-tempered note frequencies (A4 = 440 Hz).
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C6, D6, E6, G6, A6, C7 = 1046.50, 1174.66, 1318.51, 1567.98, 1760.00, 2093.00
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OUT_DIR = os.path.join(os.path.dirname(__file__), "..", "assets", "audio")
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# A glossy candy bell: fundamental + gently decaying harmonics + a slightly
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# detuned high partial for shimmer. Kept clean (no harsh odd-only stack).
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GLOSSY = [(1.0, 1.00), (2.0, 0.34), (3.0, 0.13), (4.02, 0.06), (6.01, 0.03)]
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# Softer/darker partial set for the gentle "lose" stinger.
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GENTLE = [(1.0, 1.00), (2.0, 0.22), (3.0, 0.07)]
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def note(freq, dur, partials=GLOSSY, decay=0.18, blip=0.06, blip_tau=0.012,
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attack=0.004):
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"""One glossy bell note as a list of floats (mono, length dur*SR).
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decay: exponential amplitude time-constant (s).
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blip: fractional upward pitch offset at onset, settling with blip_tau.
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"""
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n = int(dur * SR)
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out = [0.0] * n
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phases = [0.0] * len(partials)
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for i in range(n):
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t = i / SR
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# Onset pitch blip: starts ~blip above target, settles fast.
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fmul = 1.0 + blip * math.exp(-t / blip_tau)
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amp = math.exp(-t / decay)
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if t < attack: # linear attack from 0 (no click)
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amp *= t / attack
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s = 0.0
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for k, (ratio, level) in enumerate(partials):
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phases[k] += 2.0 * math.pi * freq * ratio * fmul / SR
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s += level * math.sin(phases[k])
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out[i] = amp * s
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return out
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def mix(layers):
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"""Overlay (freq, start_s, samples) layers onto one buffer."""
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end = max(int(start * SR) + len(buf) for _, start, buf in layers)
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out = [0.0] * end
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for _, start, buf in layers:
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off = int(start * SR)
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for i, v in enumerate(buf):
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out[off + i] += v
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return out
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def finalize(samples, peak=0.89, fade=0.008):
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"""Soft-clip for warmth, normalize, and fade the tail to avoid a click."""
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samples = [math.tanh(1.3 * s) for s in samples]
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m = max(1e-9, max(abs(s) for s in samples))
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g = peak / m
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samples = [s * g for s in samples]
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fn = int(fade * SR)
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n = len(samples)
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for i in range(min(fn, n)): # linear tail fade
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samples[n - 1 - i] *= i / fn
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return samples
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def write_pcm16(path, samples):
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with wave.open(path, "wb") as w:
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w.setnchannels(1)
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w.setsampwidth(2)
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w.setframerate(SR)
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frames = bytearray()
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for s in samples:
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v = int(max(-1.0, min(1.0, s)) * 32767.0)
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frames += struct.pack("<h", v)
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w.writeframes(bytes(frames))
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def to_canonical(tmp_pcm, out_wav):
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# Match clear.wav exactly: WAVE / LEI16 / 44100 / mono via afconvert.
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subprocess.run(
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["afconvert", "-f", "WAVE", "-d", "LEI16@44100", "-c", "1",
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tmp_pcm, out_wav],
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check=True,
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)
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# --- the bank -------------------------------------------------------------
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def glide_note(f0, f1, dur, partials=GLOSSY, decay=0.12, attack=0.004):
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"""A note whose pitch glides f0 -> f1 across its length (whoosh)."""
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n = int(dur * SR)
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out = [0.0] * n
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phases = [0.0] * len(partials)
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for i in range(n):
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t = i / SR
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frac = t / dur
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freq = f0 * (1.0 - frac) + f1 * frac
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amp = math.exp(-t / decay)
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if t < attack:
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amp *= t / attack
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s = 0.0
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for k, (ratio, level) in enumerate(partials):
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phases[k] += 2.0 * math.pi * freq * ratio / SR
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s += level * math.sin(phases[k])
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out[i] = amp * s
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return out
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def build_swap():
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# Soft glossy tick/whoosh: short, gentle attack, a downward pitch glide.
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return finalize(glide_note(D6, C6 * 0.94, 0.13, decay=0.06, attack=0.006,
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partials=[(1.0, 1.0), (2.0, 0.20), (3.0, 0.07)]),
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peak=0.80)
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def build_match():
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# Bright candy pop: punchy E6 with a strong onset blip.
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return finalize(note(E6, 0.17, decay=0.10, blip=0.10, blip_tau=0.010))
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def build_combo(freq):
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# One step of the ascending chime run: glossy, a touch of ring.
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return finalize(note(freq, 0.22, decay=0.16, blip=0.05, blip_tau=0.010))
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def build_win():
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# Triumphant ascending arpeggio C6-E6-G6-C7, notes ring together.
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notes = [(C6, 0.00), (E6, 0.07), (G6, 0.14), (C7, 0.21)]
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layers = [(f, t, note(f, 0.30, decay=0.20, blip=0.04)) for f, t in notes]
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return finalize(mix(layers), peak=0.92)
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def build_lose():
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# Gentle descending stinger G6-E6-C6, soft and dark.
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notes = [(G6, 0.00), (E6, 0.11), (C6, 0.22)]
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layers = [(f, t, note(f, 0.28, partials=GENTLE, decay=0.18, blip=0.0))
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for f, t in notes]
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return finalize(mix(layers), peak=0.72)
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BANK = {
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"swap": build_swap,
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"match": build_match,
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"combo1": lambda: build_combo(C6),
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"combo2": lambda: build_combo(D6),
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"combo3": lambda: build_combo(E6),
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"combo4": lambda: build_combo(G6),
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"combo5": lambda: build_combo(A6),
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"win": build_win,
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"lose": build_lose,
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}
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def main():
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keep = "--keep-tmp" in sys.argv[1:]
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out_dir = os.path.normpath(OUT_DIR)
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for name, build in BANK.items():
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samples = build()
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with tempfile.NamedTemporaryFile(suffix=".wav", delete=False) as tf:
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tmp = tf.name
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write_pcm16(tmp, samples)
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out = os.path.join(out_dir, name + ".wav")
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to_canonical(tmp, out)
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if not keep:
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os.remove(tmp)
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print("wrote %s (%.3f s)" % (out, len(samples) / SR))
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if __name__ == "__main__":
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main()
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