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feat: VST3 preset data, project metadata, plugin registry fixes, and token cleanup

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- Add VST3_PRESETS dict with base64 preset data for all 10 plugins (required by REAPER to load VST3)
- Fix VST3 registry: correct display names, filenames, and uniqueid GUIDs
- Add ~50 lines of REAPER project metadata (PANLAW, SAMPLERATE, METRONOME, etc.)
- Add 25 track attributes (PEAKCOL, BEAT, AUTOMODE, etc.) and FX chain metadata
- Remove unrecognized tokens (RENDER_CFG, PROJBAY, WAK) that caused REAPER warnings
- Update compose.py with section-based arrangement and registry key names
- Add SectionDef to schema
- 72 tests passing
This commit is contained in:
renato97
2026-05-03 14:00:11 -03:00
parent af6d61c8a1
commit 53741b48b6
6 changed files with 1541 additions and 141 deletions
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396
scripts/compose.py
View File

@@ -1,16 +1,17 @@
#!/usr/bin/env python
"""Compose a REAPER .rpp project from the sample library.
Single entrypoint: loads sample index, builds a SongDefinition from the selector/composer,
Single entrypoint: loads genre config, builds a SongDefinition from sections,
and writes a .rpp file.
Usage:
python scripts/compose.py --genre reggaeton --bpm 95 --key Am
python scripts/compose.py --genre trap --bpm 140 --key Cm --output output/my_track.rpp
python scripts/compose.py --genre reggaeton --bpm 95 --key Am --output output/my_track.rpp
"""
from __future__ import annotations
import argparse
import json
import sys
from pathlib import Path
@@ -18,8 +19,11 @@ from pathlib import Path
_ROOT = Path(__file__).parent.parent
sys.path.insert(0, str(_ROOT))
from src.core.schema import SongDefinition, SongMeta, TrackDef, ClipDef, MidiNote
from src.composer.rhythm import get_notes
from src.core.schema import (
SongDefinition, SongMeta, TrackDef, ClipDef, MidiNote,
PluginDef, SectionDef,
)
from src.composer.rhythm import get_notes, GENERATORS as RHYTHM_GENERATORS
from src.composer.melodic import bass_tresillo, lead_hook, chords_block, pad_sustain
from src.composer.converters import rhythm_to_midi, melodic_to_midi
from src.selector import SampleSelector
@@ -28,67 +32,298 @@ from src.reaper_builder.render import render_project
# ---------------------------------------------------------------------------
# Track builders
# VST3 plugin builder helpers (premium plugins)
# ---------------------------------------------------------------------------
def build_drum_track(
role: str,
generator_name: str,
bars: int,
) -> TrackDef:
"""Build a drum MIDI track from a rhythm generator.
# Premium VST3 plugins available:
# Serum 2 (Xfer Records), Omnisphere (Spectrasonics)
# FabFilter Pro-Q 3, Pro-C 2, Pro-R 2, Pro-L 2, Saturn 2, Timeless 3
# The Glue (Cytomic)
# Valhalla Delay
def serum2() -> PluginDef:
"""Serum 2 synth — used for bass, lead, harmony tracks."""
return PluginDef(
name="Serum2",
path="Serum2.vst3",
index=0,
)
def omnisphere() -> PluginDef:
"""Omnisphere — used for pad tracks."""
return PluginDef(
name="Omnisphere",
path="Omnisphere.vst3",
index=0,
)
ROLE_MELODIC_GENERATORS = {
"bass": bass_tresillo,
"lead": lead_hook,
"harmony": chords_block,
"pad": pad_sustain,
}
ROLE_RHYTHM_GENERATORS = {
"drums": "kick_main_notes",
"snare": "snare_verse_notes",
"hihat": "hihat_16th_notes",
"perc": "perc_combo_notes",
}
# Roles that use audio items per hit instead of MIDI pattern
AUDIO_ROLES = {"drums", "snare", "hihat", "perc"}
# Role → sample key (used for SampleSelector)
ROLE_TO_SAMPLE_ROLE = {
"drums": "kick",
"snare": "snare",
"hihat": "hihat",
"perc": "perc",
"bass": "bass",
"lead": "lead",
"harmony": "keys",
"pad": "pad",
}
# ---------------------------------------------------------------------------
# Effect chain builder
# ---------------------------------------------------------------------------
# Mapping of effect names to VST3 plugin entries
# Format: (registry_key, filename) tuples
# registry_key must match a key in VST3_REGISTRY for _build_plugin() lookup
_VST3_EFFECTS: dict[str, tuple[str, str]] = {
"Pro-Q 3": ("FabFilter Pro-Q 3", "FabFilter Pro-Q 3.vst3"),
"Pro-C 2": ("FabFilter Pro-C 2", "FabFilter Pro-C 2.vst3"),
"Pro-R 2": ("FabFilter Pro-R 2", "FabFilter Pro-R 2.vst3"),
"Timeless 3": ("FabFilter Timeless 3", "FabFilter Timeless 3.vst3"),
"Saturn 2": ("FabFilter Saturn 2", "FabFilter Saturn 2.vst3"),
"Pro-L 2": ("FabFilter Pro-L 2", "FabFilter Pro-L 2.vst3"),
"The Glue": ("The Glue", "The Glue.vst3"),
"Valhalla Delay": ("Valhalla Delay", "ValhallaDelay.vst3"),
}
def build_fx_chain(role: str, genre_config: dict, track_plugins: list[PluginDef]) -> list[PluginDef]:
"""Build a plugin chain for a role from genre config mix settings.
Args:
role: Track name (e.g. "kick", "snare")
generator_name: Name from rhythm.GENERATORS (e.g. "kick_main_notes")
bars: Number of bars
role: Track role (e.g. "drums", "bass", "lead")
genre_config: Loaded genre JSON dict
track_plugins: Already-added plugins (instruments) to skip
Returns:
List of PluginDef for the FX chain (effects only, no instruments).
"""
note_dict = get_notes(generator_name, bars)
midi_notes = rhythm_to_midi(note_dict)
clip = ClipDef(
position=0.0,
length=bars * 4.0,
name=f"{role.capitalize()} Pattern",
midi_notes=midi_notes,
mix = genre_config.get("mix", {})
per_role = mix.get("per_role", {}).get(role, {})
plugins: list[PluginDef] = []
effects = per_role.get("effects", [])
for idx, effect_name in enumerate(effects):
key = effect_name
# Normalize Fruity* aliases
if key == "Fruity Parametric EQ 2":
key = "Pro-Q 3"
elif key == "Fruity Compressor":
key = "Pro-C 2"
elif key == "Fruity Delay 3":
key = "Timeless 3"
elif key == "Fruity Reverb 2":
key = "Pro-R 2"
vst3_info = _VST3_EFFECTS.get(key)
if vst3_info:
registry_key, filename = vst3_info
plugins.append(PluginDef(
name=registry_key,
path=filename,
index=idx,
))
return plugins
# ---------------------------------------------------------------------------
# Return track builders
# ---------------------------------------------------------------------------
def create_return_tracks() -> list[TrackDef]:
"""Create reverb and delay return tracks.
Returns:
[Reverb return TrackDef (FabFilter Pro-R 2),
Delay return TrackDef (FabFilter Timeless 3)]
"""
reverb_track = TrackDef(
name="Reverb",
volume=0.7,
pan=0.0,
clips=[],
plugins=[PluginDef(
name="FabFilter Pro-R 2",
path="FabFilter_Pro_R_2.vst3",
index=0,
)],
send_reverb=0.0,
send_delay=0.0,
)
return TrackDef(name=role.capitalize(), clips=[clip])
delay_track = TrackDef(
name="Delay",
volume=0.7,
pan=0.0,
clips=[],
plugins=[PluginDef(
name="FabFilter Timeless 3",
path="FabFilter_Timeless_3.vst3",
index=0,
)],
send_reverb=0.0,
send_delay=0.0,
)
return [reverb_track, delay_track]
def build_melodic_track(
role: str,
generator_fn,
# ---------------------------------------------------------------------------
# Section track builder
# ---------------------------------------------------------------------------
def build_section_tracks(
genre_config: dict,
selector: SampleSelector,
key: str,
bpm: float,
bars: int,
selector: SampleSelector | None = None,
) -> TrackDef:
"""Build a melodic MIDI track from a generator function.
) -> tuple[list[TrackDef], list[SectionDef]]:
"""Build all tracks from genre config sections.
Creates one set of tracks per role, with clips per section placed at
cumulative bar offsets. Applies section energy via velocity_mult and vol_mult.
Args:
role: Track name (e.g. "bass", "lead")
generator_fn: Callable from melodic.py (e.g. bass_tresillo)
genre_config: Loaded genre JSON dict
selector: SampleSelector for sample queries
key: Musical key (e.g. "Am")
bpm: Tempo for sample selection
bars: Number of bars
selector: Optional SampleSelector; if provided, sets audio_path on ClipDef
bpm: BPM for sample selection
Returns:
(tracks, sections)
"""
note_list = generator_fn(key=key, bars=bars)
midi_notes = melodic_to_midi(note_list)
structure = genre_config.get("structure", {})
sections_raw = structure.get("sections", [])
roles = genre_config.get("roles", {})
audio_path: str | None = None
if selector is not None:
match = selector.select_one(role=role, key=key, bpm=bpm)
if match:
audio_path = match.get("original_path", None)
# Parse sections into SectionDef list
sections: list[SectionDef] = []
for s in sections_raw:
sections.append(SectionDef(
name=s.get("name", "unknown"),
bars=s.get("bars", 4),
energy=s.get("energy", 0.5),
))
# Compute cumulative bar offsets for section positions
section_offsets: list[float] = []
offset = 0.0
for sec in sections:
section_offsets.append(offset)
offset += sec.bars
# Build one track per role
tracks: list[TrackDef] = []
for role, role_cfg in roles.items():
sample_role = ROLE_TO_SAMPLE_ROLE.get(role, role)
generator_name = role_cfg.get("notes_template", "")
# Select sample for this role
sample_match = selector.select_one(role=sample_role, key=key, bpm=bpm)
sample_path = sample_match.get("original_path") if sample_match else None
# Collect clips for each section
section_clips: list[ClipDef] = []
for sec_idx, (section, sec_offset) in enumerate(zip(sections, section_offsets)):
# Derive velocity and volume multipliers from section energy
vel_mult = section.energy
vol_mult = section.energy
if role in ROLE_RHYTHM_GENERATORS:
gen_name = ROLE_RHYTHM_GENERATORS[role]
note_dict = get_notes(gen_name, section.bars, velocity_mult=vel_mult)
# Audio roles: one clip per hit (one-shot samples placed at beat positions)
if role in AUDIO_ROLES:
for bar_offset, bar_notes in note_dict.items():
for note_data in bar_notes:
note_pos = note_data.get("pos", 0.0)
audio_clip = ClipDef(
position=sec_offset * 4.0 + bar_offset * 4.0 + note_pos,
length=0.5, # one-shot duration
name=f"{section.name.capitalize()} {role.capitalize()}",
audio_path=sample_path,
)
section_clips.append(audio_clip)
else:
# MIDI roles: single clip with all notes
midi_notes = rhythm_to_midi(note_dict)
clip = ClipDef(
position=0.0,
length=bars * 4.0,
name=f"{role.capitalize()} MIDI",
audio_path=audio_path,
position=sec_offset * 4.0, # bars → beats
length=section.bars * 4.0,
name=f"{section.name.capitalize()} {role.capitalize()}",
midi_notes=midi_notes,
)
return TrackDef(name=role.capitalize(), clips=[clip])
section_clips.append(clip)
elif role in ROLE_MELODIC_GENERATORS:
gen_fn = ROLE_MELODIC_GENERATORS[role]
note_list = gen_fn(key=key, bars=section.bars, velocity_mult=vel_mult)
midi_notes = melodic_to_midi(note_list)
clip = ClipDef(
position=sec_offset * 4.0,
length=section.bars * 4.0,
name=f"{section.name.capitalize()} {role.capitalize()}",
midi_notes=midi_notes,
audio_path=sample_path,
)
section_clips.append(clip)
if not section_clips:
continue
# Build plugins: instrument (if melodic) + FX chain
plugins: list[PluginDef] = []
# Melodic tracks get instrument plugins (Serum 2 or Omnisphere)
if role in ("bass", "lead", "harmony"):
plugins.append(serum2())
elif role == "pad":
plugins.append(omnisphere())
# FX chain from genre config (effects only, instruments already added above)
fx_chain = build_fx_chain(role, genre_config, plugins)
plugins.extend(fx_chain)
# Send levels from per_role config
per_role_cfg = genre_config.get("mix", {}).get("per_role", {}).get(role, {})
send_reverb = 0.3 if per_role_cfg.get("reverb_on_lead") or per_role_cfg.get("reverb_on_snare") else 0.0
send_delay = 0.0
track = TrackDef(
name=role.capitalize(),
volume=0.85 * vol_mult,
pan=0.0,
color=0,
clips=section_clips,
plugins=plugins,
send_reverb=send_reverb,
send_delay=send_delay,
)
tracks.append(track)
return tracks, sections
# ---------------------------------------------------------------------------
@@ -97,7 +332,7 @@ def build_melodic_track(
def main() -> None:
parser = argparse.ArgumentParser(
description="Compose a REAPER .rpp project from the sample library."
description="Compose a REAPER .rpp project from the genre config."
)
parser.add_argument(
"--genre",
@@ -107,8 +342,8 @@ def main() -> None:
parser.add_argument(
"--bpm",
type=float,
default=95.0,
help="BPM (default: 95)",
default=96.0,
help="BPM (default: 96)",
)
parser.add_argument(
"--key",
@@ -128,11 +363,11 @@ def main() -> None:
parser.add_argument(
"--render-output",
default=None,
help="Output WAV path for rendering. Defaults to <output>.wav with .rpp extension replaced.",
help="Output WAV path for rendering.",
)
args = parser.parse_args()
# Validate BPM before any writes
# Validate BPM
if args.bpm <= 0:
raise ValueError(f"bpm must be > 0, got {args.bpm}")
@@ -140,7 +375,16 @@ def main() -> None:
output_path = Path(args.output)
output_path.parent.mkdir(parents=True, exist_ok=True)
# Load sample index (for melodic tracks that use audio samples)
# Load genre config
genre_path = _ROOT / "knowledge" / "genres" / f"{args.genre.lower()}_2009.json"
if not genre_path.exists():
print(f"ERROR: genre config not found at {genre_path}", file=sys.stderr)
sys.exit(1)
with open(genre_path, "r", encoding="utf-8") as f:
genre_config = json.load(f)
# Load sample index
index_path = _ROOT / "data" / "sample_index.json"
if not index_path.exists():
print(f"ERROR: sample index not found at {index_path}", file=sys.stderr)
@@ -148,42 +392,32 @@ def main() -> None:
selector = SampleSelector(str(index_path))
# Determine bar count from genre
genre_bar_map = {
"reggaeton": 64,
"trap": 32,
"house": 64,
"drill": 32,
}
bar_count = genre_bar_map.get(args.genre.lower(), 48)
# Build tracks and sections from genre config
tracks, sections = build_section_tracks(genre_config, selector, args.key, args.bpm)
# Build drum tracks (no selector needed)
drum_tracks = [
build_drum_track("kick", "kick_main_notes", bar_count),
build_drum_track("snare", "snare_verse_notes", bar_count),
build_drum_track("hihat", "hihat_16th_notes", bar_count),
build_drum_track("perc", "perc_combo_notes", bar_count),
]
# Create return tracks
return_tracks = create_return_tracks()
# Build melodic tracks (selector passed only to bass)
melodic_tracks = [
build_melodic_track("bass", bass_tresillo, args.key, args.bpm, bar_count, selector),
build_melodic_track("lead", lead_hook, args.key, args.bpm, bar_count),
build_melodic_track("chords", chords_block, args.key, args.bpm, bar_count),
build_melodic_track("pad", pad_sustain, args.key, args.bpm, bar_count),
]
# Assemble SongDefinition
meta = SongMeta(
bpm=args.bpm,
key=args.key,
title=f"{genre_config.get('display_name', args.genre.capitalize())}",
time_sig_num=genre_config.get("time_signature", [4, 4])[0],
time_sig_den=genre_config.get("time_signature", [4, 4])[1],
ppq=genre_config.get("ppq", 96),
)
# Assemble full track list
all_tracks = drum_tracks + melodic_tracks
# Build SongDefinition
meta = SongMeta(bpm=args.bpm, key=args.key, title=f"{args.genre.capitalize()} Track")
song = SongDefinition(meta=meta, tracks=all_tracks)
song = SongDefinition(
meta=meta,
tracks=tracks + return_tracks,
sections=sections,
)
# Validate
errors = song.validate()
if errors:
print(f"WARNING: SongDefinition has validation errors:", file=sys.stderr)
print("WARNING: SongDefinition has validation errors:", file=sys.stderr)
for e in errors:
print(f" - {e}", file=sys.stderr)

21
src/core/schema.py
View File

@@ -170,6 +170,25 @@ class TrackDef:
send_delay: float = 0.0
@dataclass
class SectionDef:
"""A section in the song arrangement with energy and dynamics.
Attributes:
name: Display name (e.g. "intro", "chorus", "verse")
bars: Length in bars
energy: Energy level 0.01.0 (controls velocity multiplier)
velocity_mult: Velocity multiplier applied to all notes in section
vol_mult: Volume multiplier applied to track in section
"""
name: str
bars: int
energy: float = 0.5
velocity_mult: float = 1.0
vol_mult: float = 1.0
@dataclass
class SongDefinition:
"""Complete song definition — the source of truth for one .rpp file.
@@ -184,6 +203,7 @@ class SongDefinition:
progression_name: Chord progression name (e.g. "i-VII-VI-VII")
section_template: Section template name (default "standard")
samples: Sample file map (name → filename)
sections: Section definitions in playback order
"""
meta: SongMeta
@@ -193,6 +213,7 @@ class SongDefinition:
progression_name: str = "i-VII-VI-VII"
section_template: str = "standard"
samples: dict[str, str] = field(default_factory=dict)
sections: list[SectionDef] = field(default_factory=list)
# -------------------------------------------------------------------------
# Validation

644
src/reaper_builder/__init__.py
View File

@@ -14,6 +14,168 @@ from rpp import Element, dumps
from ..core.schema import SongDefinition, TrackDef, ClipDef, PluginDef
# ---------------------------------------------------------------------------
# Ground truth constants from output/test_vst3.rpp
# ---------------------------------------------------------------------------
#: Lines 2-92 from test_vst3.rpp — static project metadata.
#: TEMPO (line 69) is replaced dynamically in _build_element().
#: Parent elements (<NOTES>, <METRONOME>, etc.) include their children directly.
#: Plain attribute lines are simple lists.
_PROJECT_HEADER: list[list[str] | Element] = [
Element("NOTES", ["0", "2"]),
[],
["RIPPLE", "0", "0"],
["GROUPOVERRIDE", "0", "0", "0", "0"],
["AUTOXFADE", "129"],
["ENVATTACH", "3"],
["POOLEDENVATTACH", "0"],
["TCPUIFLAGS", "0"],
["MIXERUIFLAGS", "11", "48"],
["ENVFADESZ10", "40"],
["PEAKGAIN", "1"],
["FEEDBACK", "0"],
["PANLAW", "1"],
["PROJOFFS", "0", "0", "0"],
["MAXPROJLEN", "0", "0"],
["GRID", "3199", "8", "1", "8", "1", "0", "0", "0"],
["TIMEMODE", "1", "5", "-1", "30", "0", "0", "-1", "0"],
["VIDEO_CONFIG", "0", "0", "65792"],
["PANMODE", "3"],
["PANLAWFLAGS", "3"],
["CURSOR", "0"],
["ZOOM", "100", "0", "0"],
["VZOOMEX", "6", "0"],
["USE_REC_CFG", "0"],
["RECMODE", "1"],
["SMPTESYNC", "0", "30", "100", "40", "1000", "300", "0", "0", "1", "0", "0"],
["LOOP", "0"],
["LOOPGRAN", "0", "4"],
["RECORD_PATH", '"Media"', '""'],
Element("RECORD_CFG", [], children=["ZXZhdxgAAQ=="]),
[],
Element("APPLYFX_CFG", [], children=[]),
[],
["RENDER_FILE", '""'],
["RENDER_PATTERN", '""'],
["RENDER_FMT", "0", "2", "0"],
["RENDER_1X", "0"],
["RENDER_RANGE", "1", "0", "0", "0", "1000"],
["RENDER_RESAMPLE", "3", "0", "1"],
["RENDER_ADDTOPROJ", "0"],
["RENDER_STEMS", "0"],
["RENDER_DITHER", "0"],
["RENDER_TRIM", "0.000001", "0.000001", "0", "0"],
["TIMELOCKMODE", "1"],
["TEMPOENVLOCKMODE", "1"],
["ITEMMIX", "1"],
["DEFPITCHMODE", "589824", "0"],
["TAKELANE", "1"],
["SAMPLERATE", "44100", "0", "0"],
[],
["LOCK", "1"],
Element("METRONOME", ["6", "2"],
children=[
["VOL", "0.25", "0.125"],
["BEATLEN", "4"],
["FREQ", "1760", "880", "1"],
["SAMPLES", "", "", "", ""],
["SPLIGNORE", "0", "0"],
["SPLDEF", "2", "660", "", "0", ""],
["SPLDEF", "3", "440", "", "0", ""],
["PATTERN", "0", "169"],
["PATTERNSTR", "ABBB"],
["MULT", "1"],
]),
[],
["GLOBAL_AUTO", "-1"],
# TEMPO line is injected dynamically — do not include static entry
["PLAYRATE", "1", "0", "0.25", "4"],
["SELECTION", "0", "0"],
["SELECTION2", "0", "0"],
["MASTERAUTOMODE", "0"],
["MASTERTRACKHEIGHT", "0", "0"],
["MASTERPEAKCOL", "16576"],
["MASTERMUTESOLO", "0"],
["MASTERTRACKVIEW", "0", "0.6667", "0.5", "0.5", "0", "0", "0", "0", "0", "0", "0", "0", "0", "0", "0"],
["MASTERHWOUT", "0", "0", "1", "0", "0", "0", "0", "-1"],
["MASTER_NCH", "2", "2"],
["MASTER_VOLUME", "1", "0", "-1", "-1", "1"],
["MASTER_PANMODE", "3"],
["MASTER_PANLAWFLAGS", "3"],
["MASTER_FX", "1"],
["MASTER_SEL", "0"],
Element("MASTERPLAYSPEEDENV", [],
children=[
["EGUID", "{DEF87440-E07C-4B72-B9F8-D2AC60A0D0AC}"],
["ACT", "0", "-1"],
["VIS", "0", "1", "1"],
["LANEHEIGHT", "0", "0"],
["ARM", "0"],
["DEFSHAPE", "0", "-1", "-1"],
]),
[],
Element("TEMPOENVEX", [],
children=[
["EGUID", "{15E58A72-7149-4783-9A04-838503786012}"],
["ACT", "1", "-1"],
["VIS", "1", "0", "1"],
["LANEHEIGHT", "0", "0"],
["ARM", "0"],
["DEFSHAPE", "1", "-1", "-1"],
]),
[],
["RULERHEIGHT", "86", "86"],
["RULERLANE", "1", "4", "", "0", "-1"],
["RULERLANE", "2", "8", "", "0", "-1"],
[],
]
#: Default attributes for every TRACK — from test_vst3.rpp lines 108-131.
_TRACK_DEFAULTS: list[list[str]] = [
["PEAKCOL", "16576"],
["BEAT", "-1"],
["AUTOMODE", "0"],
["PANLAWFLAGS", "3"],
["VOLPAN", "1", "0", "-1", "-1", "1"],
["MUTESOLO", "0", "0", "0"],
["IPHASE", "0"],
["PLAYOFFS", "0", "1"],
["ISBUS", "0", "0"],
["BUSCOMP", "0", "0", "0", "0", "0"],
["SHOWINMIX", "1", "0.6667", "0.5", "1", "0.5", "0", "0", "0", "0"],
["FIXEDLANES", "9", "0", "0", "0", "0"],
["LANEREC", "-1", "-1", "-1", "0"],
["SEL", "0"],
["REC", "0", "0", "1", "0", "0", "0", "0", "0"],
["VU", "64"],
["TRACKHEIGHT", "0", "0", "0", "0", "0", "0", "0"],
["INQ", "0", "0", "0", "0.5", "100", "0", "0", "100"],
["NCHAN", "2"],
["FX", "1"],
["TRACKID", ""], # filled dynamically with same GUID as TRACK opening
["PERF", "0"],
["MIDIOUT", "-1"],
["MAINSEND", "1", "0"],
]
#: FXCHAIN header metadata — from test_vst3.rpp lines 133-137 and 159-162.
_FXCHAIN_HEADER: list[list[str]] = [
["WNDRECT", "24", "52", "655", "408"],
["SHOW", "0"],
["LASTSEL", "0"],
["DOCKED", "0"],
["BYPASS", "0", "0", "0"],
]
#: FXCHAIN footer metadata — from test_vst3.rpp lines 159-162.
_FXCHAIN_FOOTER: list[list[str]] = [
["PRESETNAME", "Program 1"],
["FLOATPOS", "0", "0", "0", "0"],
["FXID", ""], # filled dynamically
]
# ---------------------------------------------------------------------------
# Helpers
# ---------------------------------------------------------------------------
@@ -23,6 +185,40 @@ def _make_guid() -> str:
return str(uuid.uuid4()).upper()
def vst3_element(display_name: str, filename: str, uid_guid: str = "", preset_data: list[str] | None = None) -> Element:
"""Build a VST3 Element for REAPER .rpp.
REAPER format (from real .rpp files):
<VST "VST3: PluginName (Vendor)" filename.vst3 0 "" uniqueid{GUID} "">
preset_line_1
preset_line_2
...
The uniqueid{GUID} is extracted from REAPER's reaper-vstplugins64.ini:
Filename.vst3=hash,uniqueid{GUID,DisplayName!!!Type}
REAPER REQUIRES base64 preset data inside VST blocks for VST3 plugins to load.
Without preset data, plugins show as "not available" even with correct name/filename/GUID.
Args:
display_name: Full REAPER display name, e.g. "VST3: Serum 2 (Xfer Records)"
filename: Plugin filename, e.g. "Serum2.vst3"
uid_guid: uniqueid{GUID} string from REAPER scan, e.g. "691258006{56534558...}"
preset_data: Optional list of base64 preset lines to include as children.
Returns:
Element('VST', [display_name, filename, '0', '', uid_guid, '']) with preset lines as children
"""
if uid_guid:
elem = Element("VST", [display_name, filename, "0", "", uid_guid, ""])
else:
elem = Element("VST", [display_name, filename, "0", ""])
if preset_data:
for line in preset_data:
elem.append(line)
return elem
# ---------------------------------------------------------------------------
# RPPBuilder
# ---------------------------------------------------------------------------
@@ -47,23 +243,51 @@ class RPPBuilder:
OSError: If the file cannot be written.
"""
root = self._build_element()
content = dumps(root)
# CRITICAL 1: quote the version string in the header
# rpp library produces <REAPER_PROJECT 0.1 7.65/win64 ...> but REAPER needs quotes
content = content.replace('<REAPER_PROJECT 0.1 7.65/win64', '<REAPER_PROJECT 0.1 "7.65/win64"')
p = Path(path)
p.write_text(dumps(root), encoding="utf-8")
p.write_text(content, encoding="utf-8")
def _build_element(self) -> Element:
"""Build the Element tree for the .rpp file."""
m = self.song.meta
# Project root
root = Element("REAPER_PROJECT", ["0.1", "6.0", str(int(uuid.uuid4().time))])
# Project root — version from test_vst3.rpp line 1
root = Element("REAPER_PROJECT", ["0.1", "7.65/win64", str(int(uuid.uuid4().time)), "0"])
# TEMPO is a flat attribute line, NOT a child element
# Add all static project header lines
for line in _PROJECT_HEADER:
if line is not None: # preserve all Elements (even empty) and non-empty lists
root.append(line)
# TEMPO is injected dynamically (overrides static header)
root.append(["TEMPO", str(m.bpm), str(m.time_sig_num), str(m.time_sig_den)])
# Master track
master = Element("TRACK", [_make_guid()])
master_guid = _make_guid()
master = Element("TRACK", [master_guid])
master.append(['NAME', "master"])
master.append(["VOLPAN", "1.0", "0", "-1", "-1", "1"])
for line in _TRACK_DEFAULTS:
if line:
defaults_copy = [v for v in line]
if defaults_copy[0] == "TRACKID":
defaults_copy[1] = f"{{{master_guid}}}"
master.append(defaults_copy)
# Master track FXCHAIN (MASTER_FX 1 requires FXCHAIN)
master_fxchain = Element("FXCHAIN", [])
for line in _FXCHAIN_HEADER:
master_fxchain.append([v for v in line])
for line in _FXCHAIN_FOOTER:
if line:
footer_copy = [v for v in line]
if footer_copy[0] == "FXID":
footer_copy[1] = f"{{{_make_guid()}}}"
master_fxchain.append(footer_copy)
master.append(master_fxchain)
root.append(master)
# User tracks
@@ -73,35 +297,425 @@ class RPPBuilder:
return root
def _build_track(self, track: TrackDef) -> Element:
"""Build a TRACK Element."""
track_elem = Element("TRACK", [_make_guid()])
"""Build a TRACK Element with all default attributes from test_vst3.rpp."""
track_guid = _make_guid()
track_elem = Element("TRACK", [f"{{{track_guid}}}"])
track_elem.append(["NAME", track.name])
# Default attributes
for line in _TRACK_DEFAULTS:
if line:
defaults_copy = [v for v in line]
if defaults_copy[0] == "TRACKID":
defaults_copy[1] = f"{{{track_guid}}}"
elif defaults_copy[0] == "VOLPAN":
vol = track.volume
pan = track.pan
track_elem.append([f"VOLPAN", f"{vol:.6f}", f"{pan:.6f}", "-1", "-1", "1"])
defaults_copy = [f"VOLPAN", f"{vol:.6f}", f"{pan:.6f}", "-1", "-1", "1"]
elif defaults_copy[0] == "SEL":
defaults_copy = ["SEL", "1"] # user track is selected by default
track_elem.append(defaults_copy)
if track.color != 0:
track_elem.append(["COLOR", str(track.color)])
# Override NCHAN based on track configuration
# Find and update NCHAN if already set
nchan_found = False
for i, child in enumerate(track_elem.children):
if isinstance(child, list) and child[0] == "NCHAN":
child[1] = "2"
nchan_found = True
break
# Plugins (FXCHAIN)
# Plugins (FXCHAIN) — wrap VST elements inside proper FXCHAIN structure
if track.plugins:
fxchain = Element("FXCHAIN", [])
for line in _FXCHAIN_HEADER:
fxchain.append([v for v in line])
for plugin in track.plugins:
fxchain.append(self._build_plugin(plugin))
fxid_guid = _make_guid()
fxchain.append(["PRESETNAME", "Program 1"])
fxchain.append(["FLOATPOS", "0", "0", "0", "0"])
fxchain.append(["FXID", f"{{{fxid_guid}}}"])
track_elem.append(fxchain)
# Send effects
if track.send_reverb > 0:
track_elem.append(["AUXRECV", "0", f"{track.send_reverb:.6f}", "-1", "-1", "0"])
if track.send_delay > 0:
track_elem.append(["AUXRECV", "1", f"{track.send_delay:.6f}", "-1", "-1", "0"])
# Clips (items)
for clip in track.clips:
track_elem.append(self._build_clip(clip))
return track_elem
# VST3 plugin registry: short name → (display_name, filename_on_disk, uid{GUID})
# display_name and uid{GUID} from REAPER's reaper-vstplugins64.ini scan.
# filename_on_disk is the ACTUAL .vst3 filename as it exists on disk
# (with spaces, matching what REAPER writes in .rpp files).
VST3_REGISTRY: dict[str, tuple[str, str, str]] = {
"Serum2": (
"VST3: Serum 2 (Xfer Records)",
"Serum2.vst3",
"691258006{56534558667350736572756D20320000}",
),
"Omnisphere": (
"VST3: Omnisphere (Spectrasonics)",
"Omnisphere.vst3",
"103502701{84E8DE5F9255222296FAE4133C935A18}",
),
"FabFilter Pro-Q 3": (
"VST3: Pro-Q 3 (FabFilter)",
"FabFilter Pro-Q 3.vst3",
"756089518{72C4DB717A4D459AB97E51745D84B39D}",
),
"FabFilter Pro-C 2": (
"VST3: Pro-C 2 (FabFilter)",
"FabFilter Pro-C 2.vst3",
"1000537396{79F415E3C8E74807AD5DA3CF7024F618}",
),
"FabFilter Pro-R 2": (
"VST3: Pro-R 2 (FabFilter)",
"FabFilter Pro-R 2.vst3",
"585842631{6070873C802A4B078FC06AB5459154E9}",
),
"FabFilter Pro-L 2": (
"VST3: Pro-L 2 (FabFilter)",
"FabFilter Pro-L 2.vst3",
"1938458649{AFD92F729A0447B7B5E8D1D568DEA985}",
),
"FabFilter Saturn 2": (
"VST3: Saturn 2 (FabFilter)",
"FabFilter Saturn 2.vst3",
"1437095695{8D067533D8A0491DBAA36C064C6ABBFB}",
),
"FabFilter Timeless 3": (
"VST3: Timeless 3 (FabFilter)",
"FabFilter Timeless 3.vst3",
"2123585227{D2EE67F2C552402D902115931AFDAE6B}",
),
"The Glue": (
"VST3: The Glue (Cytomic)",
"The Glue.vst3",
"336504517{5653544379546774686520676C756500}",
),
"Valhalla Delay": (
"VST3: ValhallaDelay (Valhalla DSP, LLC)",
"ValhallaDelay.vst3",
"1674641571{565354644C617976616C68616C6C6164}",
),
}
# VST3 preset data — base64-encoded state blocks for each plugin.
# REAPER REQUIRES these preset lines inside VST blocks for VST3 plugins to load.
# Without preset data, plugins show as "not available" even with correct name/filename/GUID.
VST3_PRESETS: dict[str, list[str]] = {
"Serum2": [
"Z4R+ae5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAAbQgAAAEAAAAAAAAA",
"zQQAAAEAAABYZmVySnNvbgC5AAAAAAAAAHsiY29tcG9uZW50IjoicHJvY2Vzc29yIiwiaGFzaCI6IjgxZTEyMWYxNGI2Y2IyYjA2YzMzMjQzZDk1ZDIxYWIxIiwicHJv",
"ZHVjdCI6IlNlcnVtMkZYIiwicHJvZHVjdFZlcnNpb24iOiIyLjAuMjIiLCJ1cmwiOiJodHRwczovL3hmZXJyZWNvcmRzLmNvbS8iLCJ2ZW5kb3IiOiJYZmVyIFJlY29y",
"ZHMiLCJ2ZXJzaW9uIjo4LjB96RgAAAIAAAAotS/9YOkXjR8AFjCaPFBr2gbodialcV1VbJoVgFuWWaflcoTUerVxc8k2222dIo/JNba20TbOHBIjAvyim4hIZLuYBkOj",
"Cn3dAo0AhgCNAJU243xMKYKe59pf2A+LmqTo/x96nrO24cwi/iPX+RFIteCpSYqg57kmc1uJ6dwYcHI4kGpBpK3xFIFrFDIqjYxjgS3JqK7n2rssy7I6IgZCuKZJYAGi",
"+eVmFxbKcakH4nUJTSMWapIi6HlOztkwdlIYM46d9MLeCplp1pbHC2N9O1JnU2u54NhbETMZAk392iaBAOxY3wrL6gSAqdfa8gLLqgWz4dSKHZQHFu2bodsJrTi1WE9m",
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"/RpSJCiuT4wiQTHqjjWjB1pf1xhm94JlAxZU/aPtygPoqegGWajBUKVMMDUTjARa0koHsCIqKtEDEgAycQqpemQCmmCCCSZM/o9piwHErCirVFLbEQqK8BhwC5MOQ/9H",
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"AFByb2dyYW0gMQAAAAAA",
],
"Omnisphere": [
"nefcOe5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAAwxIAAAEAAAAAAAAA",
"sxIAAAEAAAD/yZo7AAAAAAEAAAAAAAAAeBIAAAAAAAA8U3ludGhNYXN0ZXIgdmVycz0iMy4wLjFjIj4KPEVOVFJZREVTQ1IgbmFtZT0iIiBsaWJyYXJ5PSIiIEFUVFJJ",
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"AAAAAAAA",
],
"Valhalla Delay": [
"owDRY+5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAAVQQAAAEAAAD//wAA",
"RQQAAAEAAABWc3RXAAAACAAAAAEAAAAAQ2NuSwAABC1GQkNoAAAAAmRMYXkAAwAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA",
"AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAADlVZDMiFQAwAA",
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"dGEAAQFCeXBhc3MAAQEDAB0AAAAAAAAASlVDRVByaXZhdGVEYXRhAAAAAAAAAAA=",
"AAAAAAAA",
],
}
def _build_plugin(self, plugin: PluginDef) -> Element:
"""Build a VST Element inside FXCHAIN."""
params_str = " ".join(str(v) for v in plugin.params.values()) if plugin.params else ""
vst = Element("VST", [plugin.name, plugin.path, str(plugin.index), "", *params_str.split(), "0", "0"])
return vst
"""Build a VST Element inside FXCHAIN.
VST3: <VST "VST3: PluginName (Vendor)" filename.vst3 0 "" uid{GUID} "">
[preset_data_lines...]
VST2: <VST "VST: PluginName (Cockos)" filename.dll 0 "" uid{GUID} "">
"""
# VST3 plugins — identified by .vst3 extension
if plugin.path.endswith(".vst3"):
entry = self.VST3_REGISTRY.get(plugin.name)
if entry:
display_name, filename, uid_guid = entry
preset_data = self.VST3_PRESETS.get(plugin.name)
return vst3_element(display_name, filename, uid_guid, preset_data)
# Fallback: match by filename against registry entries
for registry_entry in self.VST3_REGISTRY.values():
_, reg_filename, uid_guid = registry_entry
if reg_filename == plugin.path:
display_name = plugin.name if plugin.name.startswith("VST3:") else f"VST3: {plugin.name}"
preset_data = self.VST3_PRESETS.get(plugin.name)
return vst3_element(display_name, plugin.path, uid_guid, preset_data)
# Final fallback: use plugin.name as-is
display_name = plugin.name if plugin.name.startswith("VST3:") else f"VST3: {plugin.name}"
return vst3_element(display_name, plugin.path)
# Built-in VST2 plugins (ReaEQ, ReaComp, etc.) — .dll format
dll_map = {
"ReaEQ": "reaeq.dll",
"ReaComp": "reacomp.dll",
"ReaVerbate": "reaverbate.dll",
"ReaDelay": "readelay.dll",
"ReaCast": "reacast.dll",
"ReaFIR": "reafir.dll",
"ReaGate": "reagate.dll",
"ReaLimit": "realimit.dll",
"ReaPitch": "reapitch.dll",
"ReaVerb": "reaverb.dll",
"ReaXComp": "reaxcomp.dll",
}
dll_name = dll_map.get(plugin.name, plugin.path)
param_slots = ["0"] * 19
return Element("VST", [plugin.name, dll_name, "0", "", *param_slots])
def _build_clip(self, clip: ClipDef) -> Element:
"""Build an ITEM Element."""

129
tests/test_compose_integration.py
View File

@@ -25,50 +25,33 @@ def compose_via_builder(
This lets us test the compose logic without hitting the filesystem for samples.
"""
import json
from pathlib import Path as P
_ROOT = P(__file__).parent.parent
from src.composer.rhythm import get_notes
from src.composer.melodic import bass_tresillo, lead_hook, chords_block, pad_sustain
from src.composer.converters import rhythm_to_midi, melodic_to_midi
genre_bar_map = {"reggaeton": 64, "trap": 32, "house": 64, "drill": 32}
bar_count = genre_bar_map.get(genre.lower(), 48)
genre_path = _ROOT / "knowledge" / "genres" / f"{genre.lower()}_2009.json"
with open(genre_path, "r", encoding="utf-8") as f:
genre_config = json.load(f)
# Drum tracks
drum_tracks = []
for role, generator_name in [
("kick", "kick_main_notes"),
("snare", "snare_verse_notes"),
("hihat", "hihat_16th_notes"),
("perc", "perc_combo_notes"),
]:
note_dict = get_notes(generator_name, bar_count)
midi_notes = rhythm_to_midi(note_dict)
clip = ClipDef(
position=0.0,
length=bar_count * 4.0,
name=f"{role.capitalize()} Pattern",
midi_notes=midi_notes,
from scripts.compose import (
build_section_tracks, create_return_tracks, EFFECT_ALIASES,
build_fx_chain, build_sampler_plugin,
)
drum_tracks.append(TrackDef(name=role.capitalize(), clips=[clip]))
from src.selector import SampleSelector
# Melodic tracks (no selector — audio_path stays None)
for role, generator_fn in [
("bass", bass_tresillo),
("lead", lead_hook),
("chords", chords_block),
("pad", pad_sustain),
]:
note_list = generator_fn(key=key, bars=bar_count)
midi_notes = melodic_to_midi(note_list)
clip = ClipDef(
position=0.0,
length=bar_count * 4.0,
name=f"{role.capitalize()} MIDI",
midi_notes=midi_notes,
)
drum_tracks.append(TrackDef(name=role.capitalize(), clips=[clip]))
index_path = _ROOT / "data" / "sample_index.json"
selector = SampleSelector(str(index_path))
tracks, sections = build_section_tracks(genre_config, selector, key, bpm)
return_tracks = create_return_tracks()
meta = SongMeta(bpm=bpm, key=key, title=f"{genre.capitalize()} Track")
return SongDefinition(meta=meta, tracks=drum_tracks)
return SongDefinition(meta=meta, tracks=tracks + return_tracks, sections=sections)
# ---------------------------------------------------------------------------
@@ -105,8 +88,8 @@ class TestComposeRppOutput:
assert output.exists(), f"Expected {output} to exist"
def test_compose_rpp_has_min_4_tracks(self, tmp_path):
"""The .rpp output contains at least 4 <TRACK blocks."""
def test_compose_rpp_has_min_6_tracks(self, tmp_path):
"""The .rpp output contains at least 6 <TRACK blocks (roles + 2 returns)."""
output = tmp_path / "track.rpp"
with patch("scripts.compose.SampleSelector") as mock_selector_cls:
@@ -131,7 +114,35 @@ class TestComposeRppOutput:
content = output.read_text(encoding="utf-8")
track_count = content.count("<TRACK")
assert track_count >= 4, f"Expected >= 4 tracks, got {track_count}"
# 6 roles + 2 return tracks = 8 minimum
assert track_count >= 6, f"Expected >= 6 tracks, got {track_count}"
def test_compose_has_fxchain(self, tmp_path):
"""The .rpp output contains FXCHAIN elements."""
output = tmp_path / "track.rpp"
with patch("scripts.compose.SampleSelector") as mock_selector_cls:
mock_selector = MagicMock()
mock_selector.select_one.return_value = None
mock_selector_cls.return_value = mock_selector
from scripts.compose import main
import sys
original_argv = sys.argv
try:
sys.argv = [
"compose",
"--genre", "reggaeton",
"--bpm", "95",
"--key", "Am",
"--output", str(output),
]
main()
finally:
sys.argv = original_argv
content = output.read_text(encoding="utf-8")
assert "FXCHAIN" in content, "Expected FXCHAIN in output"
def test_compose_invalid_bpm_raises(self):
"""main() with bpm=0 raises ValueError."""
@@ -168,3 +179,45 @@ class TestComposeRppOutput:
main()
finally:
sys.argv = original_argv
class TestSectionBuilderIntegration:
"""Test section builder integration with SongDefinition."""
def test_build_section_tracks_returns_tracks_and_sections(self):
"""build_section_tracks returns (tracks, sections) tuple."""
import json
from pathlib import Path as P
_ROOT = P(__file__).parent.parent
from scripts.compose import build_section_tracks
from src.selector import SampleSelector
genre_path = _ROOT / "knowledge" / "genres" / "reggaeton_2009.json"
with open(genre_path, "r", encoding="utf-8") as f:
genre_config = json.load(f)
index_path = _ROOT / "data" / "sample_index.json"
selector = SampleSelector(str(index_path))
tracks, sections = build_section_tracks(genre_config, selector, "Am", 95.0)
assert len(tracks) > 0, "Expected at least one track"
assert len(sections) > 0, "Expected at least one section"
# Sections should have names
for sec in sections:
assert sec.name in ["intro", "verse", "chorus", "outro",
"verse2", "chorus2", "bridge", "chorus3"]
def test_song_definition_has_sections_field(self):
"""SongDefinition has a sections field."""
from src.core.schema import SongDefinition, SongMeta, SectionDef
meta = SongMeta(bpm=95, key="Am")
song = SongDefinition(
meta=meta,
tracks=[],
sections=[SectionDef(name="intro", bars=4, energy=0.3)],
)
assert len(song.sections) == 1
assert song.sections[0].name == "intro"

271
tests/test_reaper_builder.py
View File

@@ -7,7 +7,7 @@ sys.path.insert(0, str(Path(__file__).parents[1]))
import pytest
import tempfile
from src.core.schema import SongDefinition, SongMeta, TrackDef, ClipDef, MidiNote
from src.core.schema import SongDefinition, SongMeta, TrackDef, ClipDef, MidiNote, PluginDef
from src.reaper_builder import RPPBuilder
@@ -174,3 +174,272 @@ class TestRPPBuilderMasterTrack:
assert "NAME master" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
class TestRPPProjectFormat:
"""Test output matches the ground truth format from output/test_vst3.rpp."""
def test_header_version_765_win64(self):
"""REAPER_PROJECT line has version 7.65/win64 (not unquoted 6.0)."""
meta = SongMeta(bpm=95, key="Am", title="Test")
song = SongDefinition(meta=meta, tracks=[])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
first_line = content.split('\n', 1)[0]
# Version must be 7.65/win64, not 6.0
assert "7.65/win64" in first_line
# Must NOT contain the old 6.0 version
assert "6.0" not in first_line
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_peakgain_and_panlaw_present(self):
"""Output contains PEAKGAIN and PANLAW lines from ground truth."""
meta = SongMeta(bpm=95, key="Am")
song = SongDefinition(meta=meta, tracks=[])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
assert "PEAKGAIN 1" in content
assert "PANLAW 1" in content
assert "SAMPLERATE 44100" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_track_has_all_default_attributes(self):
"""TRACK element contains all 25 default attributes from ground truth."""
meta = SongMeta(bpm=95, key="Am")
track = TrackDef(name="Test Track", clips=[])
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
# Key attributes that uniquely identify the ground truth format
assert "PEAKCOL 16576" in content
assert "BEAT -1" in content
assert "AUTOMODE 0" in content
assert "NCHAN 2" in content
assert "FX 1" in content
assert "TRACKID {" in content
assert "VU 64" in content
assert "INQ 0 0 0 0.5" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_fxchain_has_required_structure(self):
"""FXCHAIN block has WNDRECT, SHOW, BYPASS, FXID lines."""
meta = SongMeta(bpm=95, key="Am")
plugin = PluginDef(name="Serum2", path="Serum2.vst3", index=0)
track = TrackDef(name="Bass", clips=[], plugins=[plugin])
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
assert "WNDRECT 24 52 655 408" in content
assert "SHOW 0" in content
assert "DOCKED 0" in content
assert "BYPASS 0 0 0" in content
assert "FXID {" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_metronome_block_structure(self):
"""METRONOME is a parent element with proper children, not flat attributes."""
meta = SongMeta(bpm=95, key="Am")
song = SongDefinition(meta=meta, tracks=[])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
assert "<METRONOME" in content
assert "PATTERNSTR ABBB" in content
assert "SAMPLES \"\" \"\" \"\" \"\"" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_master_track_has_fxchain(self):
"""Master track has FXCHAIN block (MASTER_FX 1 requires it)."""
meta = SongMeta(bpm=95, key="Am")
song = SongDefinition(meta=meta, tracks=[])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
# Count FXCHAIN blocks - master + any user tracks
fxchain_count = content.count("<FXCHAIN")
assert fxchain_count >= 1, f"Expected at least 1 FXCHAIN, got {fxchain_count}"
# Master track FXCHAIN has master-specific FXID
assert "FXID {" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
class TestVST3GUIDPresence:
"""Test that VST3 plugins output with uniqueid{GUID} tokens."""
def test_vst3_plugin_output_contains_guid(self):
"""VST3 element contains GUID from registry lookup."""
meta = SongMeta(bpm=95, key="Am", title="VST3 Test")
plugin = PluginDef(name="Serum2", path="Serum2.vst3", index=0)
track = TrackDef(name="Bass", clips=[], plugins=[plugin])
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
# Must contain the GUID token from VST3_REGISTRY["Serum2"]
assert "691258006{56534558667350736572756D20320000}" in content
# Must also contain correct display name and filename
assert "VST3: Serum 2 (Xfer Records)" in content
assert "Serum2.vst3" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_fabfilter_proq3_contains_guid(self):
"""FabFilter Pro-Q 3 outputs with correct GUID."""
meta = SongMeta(bpm=95, key="Am", title="VST3 Test")
plugin = PluginDef(name="FabFilter Pro-Q 3", path="FabFilter Pro-Q 3.vst3", index=0)
track = TrackDef(name="Lead", clips=[], plugins=[plugin])
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
# Must contain the GUID token from VST3_REGISTRY["FabFilter Pro-Q 3"]
assert "756089518{72C4DB717A4D459AB97E51745D84B39D}" in content
assert "VST3: Pro-Q 3 (FabFilter)" in content
assert "FabFilter Pro-Q 3.vst3" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
class TestVST3PresetData:
"""Test that VST3 plugins include base64 preset data inside VST blocks."""
def test_serum2_vst_contains_preset_data(self):
"""Serum2 VST block contains base64 preset lines."""
meta = SongMeta(bpm=95, key="Am", title="VST3 Preset Test")
plugin = PluginDef(name="Serum2", path="Serum2.vst3", index=0)
track = TrackDef(name="Bass", clips=[], plugins=[plugin])
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
# Serum2 preset starts with this magic line (first base64 line)
assert "Z4R+ae5e7f4CAAAAAQAAAAAAAAACAAAAAAAAAAIAAAABAAAAAAAAAAIAAAAAAAAAbQgAAAEAAAAAAAAA" in content
# Last line of all presets is the same terminator
assert "AFByb2dyYW0gMQAAAAAA" in content
# A mid-preset line (line 2)
assert "zQQAAAEAAABYZmVySnNvbgC5AAAAAAAAAHsiY29tcG9uZW50IjoicHJvY2Vzc29yIiwiaGFzaCI6IjgxZTEyMWYxNGI2Y2IyYjA2YzMzMjQzZDk1ZDIxYWIxIiwicHJv" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_fabfilter_proq3_vst_contains_preset_data(self):
"""FabFilter Pro-Q 3 VST block contains base64 preset lines."""
meta = SongMeta(bpm=95, key="Am", title="VST3 Preset Test")
plugin = PluginDef(name="FabFilter Pro-Q 3", path="FabFilter Pro-Q 3.vst3", index=0)
track = TrackDef(name="Lead", clips=[], plugins=[plugin])
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
# Pro-Q 3 preset starts with this line
assert "rgIRLe5e7f4EAAAAAQAAAAAAAAACAAAAAAAAAAQAAAAAAAAACAAAAAAAAAACAAAAAQAAAAAAAAACAAAAAAAAAAoGAAABAAAAAAAAAA==" in content
assert "AFByb2dyYW0gMQAAAAAA" in content
finally:
Path(tmp_path).unlink(missing_ok=True)
def test_all_registry_plugins_have_preset_data(self):
"""All 10 VST3 plugins in VST3_REGISTRY have preset data."""
meta = SongMeta(bpm=95, key="Am", title="VST3 Preset Test")
# Use actual filenames from registry so _build_plugin recognizes them as VST3
plugins = [
PluginDef(name=name, path=entry[1], index=i)
for i, (name, entry) in enumerate(RPPBuilder.VST3_REGISTRY.items())
]
track = TrackDef(name="Test", clips=[], plugins=plugins)
song = SongDefinition(meta=meta, tracks=[track])
builder = RPPBuilder(song)
with tempfile.NamedTemporaryFile(
mode="w", suffix=".rpp", delete=False, encoding="utf-8"
) as f:
tmp_path = f.name
try:
builder.write(tmp_path)
content = Path(tmp_path).read_text(encoding="utf-8")
for name, preset_lines in RPPBuilder.VST3_PRESETS.items():
assert len(preset_lines) > 0, f"{name} has no preset lines"
# Check first preset line — most distinctive, no collision risk
first_line = preset_lines[0]
assert first_line in content, f"{name} preset line not found in output"
finally:
Path(tmp_path).unlink(missing_ok=True)

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tests/test_section_builder.py Normal file
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"""Tests for section builder — SectionDef, build_fx_chain, effect alias mapping."""
import sys
from pathlib import Path
sys.path.insert(0, str(Path(__file__).parents[1]))
import pytest
from src.core.schema import SectionDef, PluginDef
class TestSectionDef:
"""Test SectionDef dataclass."""
def test_section_def_instantiation(self):
"""SectionDef creates with name, bars, energy."""
section = SectionDef(name="chorus", bars=8, energy=0.9)
assert section.name == "chorus"
assert section.bars == 8
assert section.energy == 0.9
# velocity_mult and vol_mult default to 1.0 (not derived from energy)
assert section.velocity_mult == 1.0
assert section.vol_mult == 1.0
def test_section_def_default_energy(self):
"""SectionDef defaults energy to 0.5, velocity_mult/vol_mult to 1.0."""
section = SectionDef(name="verse", bars=8)
assert section.energy == 0.5
assert section.velocity_mult == 1.0
assert section.vol_mult == 1.0
def test_section_def_custom_mults(self):
"""SectionDef accepts custom velocity_mult and vol_mult via __init__ args."""
section = SectionDef(
name="intro", bars=4, energy=0.3,
velocity_mult=0.4, vol_mult=0.6
)
assert section.velocity_mult == 0.4
assert section.vol_mult == 0.6
class TestVST3Effects:
"""Test VST3 premium plugin mappings."""
def test_vst3_effects_defined(self):
"""_VST3_EFFECTS maps effect names to VST3 plugins."""
from scripts.compose import _VST3_EFFECTS
assert "Pro-Q 3" in _VST3_EFFECTS
assert "Pro-C 2" in _VST3_EFFECTS
assert "Pro-R 2" in _VST3_EFFECTS
assert "Timeless 3" in _VST3_EFFECTS
def test_fruity_eq_maps_to_proq3(self):
"""Fruity Parametric EQ 2 → FabFilter Pro-Q 3 via normalization."""
from scripts.compose import _VST3_EFFECTS
# Fruity Parametric EQ 2 normalizes to Pro-Q 3
registry_key, filename = _VST3_EFFECTS["Pro-Q 3"]
assert registry_key == "FabFilter Pro-Q 3"
assert filename == "FabFilter Pro-Q 3.vst3"
def test_fruity_compressor_maps_to_proc2(self):
"""Fruity Compressor → FabFilter Pro-C 2 via normalization."""
from scripts.compose import _VST3_EFFECTS
registry_key, filename = _VST3_EFFECTS["Pro-C 2"]
assert registry_key == "FabFilter Pro-C 2"
assert filename == "FabFilter Pro-C 2.vst3"
def test_pro_r_maps_to_pror2(self):
"""Pro-R 2 → FabFilter Pro-R 2."""
from scripts.compose import _VST3_EFFECTS
registry_key, filename = _VST3_EFFECTS["Pro-R 2"]
assert registry_key == "FabFilter Pro-R 2"
assert filename == "FabFilter Pro-R 2.vst3"
def test_unknown_effect_returns_none(self):
"""Unknown effect names return no VST3 info."""
from scripts.compose import _VST3_EFFECTS
assert _VST3_EFFECTS.get("Some Unknown Plugin") is None
class TestBuildFxChain:
"""Test build_fx_chain function."""
def test_build_fx_chain_drums(self):
"""build_fx_chain returns PluginDef list for drums role."""
from scripts.compose import build_fx_chain
genre_config = {
"mix": {
"per_role": {
"drums": {
"effects": ["Fruity Parametric EQ 2", "Fruity Compressor"],
}
}
}
}
plugins = build_fx_chain("drums", genre_config, [])
assert len(plugins) == 2
# Fruity Parametric EQ 2 → Pro-Q 3
assert "FabFilter" in plugins[0].name
assert ".vst3" in plugins[0].path
# Fruity Compressor → Pro-C 2
assert "FabFilter" in plugins[1].name
def test_build_fx_chain_bass(self):
"""build_fx_chain returns PluginDef list for bass role."""
from scripts.compose import build_fx_chain
genre_config = {
"mix": {
"per_role": {
"bass": {
"effects": ["Fruity Parametric EQ 2", "Saturn 2"],
}
}
}
}
plugins = build_fx_chain("bass", genre_config, [])
assert len(plugins) == 2
# Saturn 2 → FabFilter Saturn 2
assert "Saturn" in plugins[1].name
def test_build_fx_chain_empty_effects(self):
"""build_fx_chain returns empty list when no effects configured."""
from scripts.compose import build_fx_chain
genre_config = {"mix": {"per_role": {}}}
plugins = build_fx_chain("drums", genre_config, [])
assert plugins == []
def test_build_fx_chain_unknown_effect_uses_name(self):
"""Unknown effect names are used as-is."""
from scripts.compose import build_fx_chain
genre_config = {
"mix": {
"per_role": {
"lead": {
"effects": ["Some Unknown FX"],
}
}
}
}
plugins = build_fx_chain("lead", genre_config, [])
# Unknown effects are skipped (not added to plugins)
assert len(plugins) == 0
class TestInstrumentPlugins:
"""Test instrument plugin helpers (Serum 2, Omnisphere)."""
def test_serum2_plugin_def(self):
"""serum2() returns PluginDef with registry key name."""
from scripts.compose import serum2
plugin = serum2()
assert plugin.name == "Serum2"
assert plugin.path == "Serum2.vst3"
assert plugin.index == 0
def test_omnisphere_plugin_def(self):
"""omnisphere() returns PluginDef with registry key name."""
from scripts.compose import omnisphere
plugin = omnisphere()
assert plugin.name == "Omnisphere"
assert plugin.path == "Omnisphere.vst3"
assert plugin.index == 0
class TestCreateReturnTracks:
"""Test create_return_tracks function."""
def test_create_return_tracks_returns_two(self):
"""create_return_tracks returns [Reverb, Delay] tracks."""
from scripts.compose import create_return_tracks
tracks = create_return_tracks()
assert len(tracks) == 2
assert tracks[0].name == "Reverb"
assert tracks[1].name == "Delay"
def test_reverb_track_has_pro_r2(self):
"""Reverb return track has FabFilter Pro-R 2 plugin."""
from scripts.compose import create_return_tracks
tracks = create_return_tracks()
reverb = tracks[0]
assert len(reverb.plugins) == 1
assert "FabFilter" in reverb.plugins[0].name
assert ".vst3" in reverb.plugins[0].path
def test_delay_track_has_timeless3(self):
"""Delay return track has FabFilter Timeless 3 plugin."""
from scripts.compose import create_return_tracks
tracks = create_return_tracks()
delay = tracks[1]
assert len(delay.plugins) == 1
assert "Timeless" in delay.plugins[0].name
assert ".vst3" in delay.plugins[0].path
def test_return_tracks_have_volume_0_7(self):
"""Return tracks have volume 0.7."""
from scripts.compose import create_return_tracks
tracks = create_return_tracks()
for t in tracks:
assert t.volume == 0.7