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180 Commits
libtav ... ebba33a5c3

Author SHA1 Message Date
minjaesong
ebba33a5c3 minor ui fix 2026-05-11 07:39:33 +09:00
minjaesong
ab0b215759 centre-anchored scrolling on Cues tab 2026-05-11 07:29:20 +09:00
minjaesong
2c2ad70a23 fancier help message 2026-05-11 04:20:15 +09:00
minjaesong
fb42ab4413 2taud: export to multiple song if possible 2026-05-11 04:19:31 +09:00
minjaesong
2177ddbd6b minor doc fix regarding bpm 2026-05-10 22:59:08 +09:00
minjaesong
aa32c70d8a taud reset state fix 2026-05-10 22:49:31 +09:00
minjaesong
72761c0552 more volume ramping 2026-05-10 21:47:20 +09:00
minjaesong
2cdd731c3b video_decoder removed; fix video regression and updated to no-zstd 2026-05-10 05:56:56 +09:00
minjaesong
b27ef0dbf9 gui updates 2026-05-09 21:47:02 +09:00
minjaesong
ddeab1c782 taud bugfix 2026-05-09 21:22:44 +09:00
minjaesong
f69108c40d TsvmEmulator: better snd debug view 2026-05-09 20:19:04 +09:00
minjaesong
74cba0a893 Soundscope for tracker 2026-05-09 18:15:05 +09:00
minjaesong
bc235ebb17 Taud: Amiga interpolation mode and LPF toggle 2026-05-09 16:04:57 +09:00
minjaesong
9f01bdfee9 ProTracker-faithful Funk Repeat emulation 2026-05-09 03:16:50 +09:00
minjaesong
3c57e33f8f funk repeat OOB fix 2026-05-09 03:00:54 +09:00
minjaesong
935fbe04a6 fixing the low volume issue, finally 2026-05-09 01:57:40 +09:00
minjaesong
6b02d73600 2taud.py: project data composing 2026-05-09 00:57:55 +09:00
minjaesong
8e6f597e9b BPM is now 25..280 2026-05-08 20:40:25 +09:00
minjaesong
ed3bbb6ffe Taud: equal-energy panning only 2026-05-08 20:23:46 +09:00
minjaesong
27b0f2e63f Taud: 8 MB sample rom/it and xm resampling too-long samples 2026-05-08 18:10:25 +09:00
minjaesong
dcd191b734 Taud: Zstd compression 2026-05-08 17:27:27 +09:00
minjaesong
d706f27e18 Impl Taud L/K xy00; IT Mxx Nxx Pxx 2026-05-08 14:27:31 +09:00
minjaesong
e49140902b XM gating behaviour with no volenv and key-off (converter manages it) 2026-05-08 02:52:32 +09:00
minjaesong
3182ae9146 volume policy when unspecified: retrigger (note+inst cmd) -> default value, no retrigger (note cmd only) -> prev value 2026-05-08 02:21:16 +09:00
minjaesong
34b3b83d65 volume policy when unspecified: retrigger (note+inst cmd) -> default value, no retrigger (note cmd only) -> prev value 2026-05-08 01:11:19 +09:00
minjaesong
a767eebc2e taut: faster cue tab 2026-05-08 00:44:50 +09:00
minjaesong
6ce8d2cc1e fix: MP2 not decoding 2026-05-08 00:12:45 +09:00
minjaesong
9017b76f6d linear freq pitch mode 2026-05-07 12:46:31 +09:00
minjaesong
449885c1ea minifloat redefined 2026-05-07 02:01:30 +09:00
minjaesong
59bbe9e503 fix: taud portament not triggering certain behaviour 2026-05-07 01:16:03 +09:00
minjaesong
cc492c4ead fix: E6x skipped on xm2taud.py 2026-05-07 00:59:05 +09:00
minjaesong
ec0f41b574 S3M/MON converters using NOTE_CUT for note-off because of fadeout semantics 2026-05-06 21:57:11 +09:00
minjaesong
937d3e27ed taut: help message panel 2026-05-06 21:48:11 +09:00
minjaesong
e64e335db3 resolving envelope ambiguity 2026-05-06 17:10:13 +09:00
minjaesong
0124b062d0 tracker engine upd 2026-05-06 15:06:18 +09:00
minjaesong
18881a6d16 taut helpmsg 2026-05-06 14:36:35 +09:00
minjaesong
5a4d200fdc IT voice retire rule for fadeout=0 2026-05-06 12:15:48 +09:00
minjaesong
75ddfcde0f did it got fixed? 2026-05-06 10:38:37 +09:00
minjaesong
d058f11329 adding missing mon2taud 2026-05-06 05:54:36 +09:00
minjaesong
60b07a325a xm2taud (wip), separate sustain and loop def 2026-05-06 05:31:55 +09:00
minjaesong
1e482e32a8 attempting to fix VM reboot bug(2) 2026-05-04 16:00:39 +09:00
minjaesong
4ff48bba1c attempting to fix VM reboot bug 2026-05-04 15:44:59 +09:00
minjaesong
2dcdff83c8 long overdue README update 2026-05-04 15:09:57 +09:00
minjaesong
89d3c5d776 taut.js: patern view simulator update 2026-05-04 02:52:01 +09:00
minjaesong
517d0ad9a7 taut.js: fxNames update 2026-05-04 02:14:19 +09:00
minjaesong
9524bf36e0 eff 8 (bitcrusher) and 9 (overdrive); *2taud.py rescales eff O on sample resampling 2026-05-04 02:04:29 +09:00
minjaesong
8e17256224 minor bugfix 2026-05-04 01:49:29 +09:00
minjaesong
ac409bf961 reverting changes :/ 2026-05-03 16:54:42 +09:00
minjaesong
94e3ce55ce zfm: larger scroll peek window 2026-05-03 16:50:49 +09:00
minjaesong
9a9893b9a3 bios: using js version again 2026-05-03 16:50:35 +09:00
minjaesong
789c78f1e7 taud: more fixes 2026-05-03 16:50:24 +09:00
minjaesong
c7e7ee650d fix: no-param note handling divergence 2026-05-03 15:10:36 +09:00
minjaesong
5d968fecf5 fix: ImpulseTracker style instrument filters 2026-05-03 00:44:31 +09:00
minjaesong
aaf3cc28b2 Offset added to Taud instrument format doc 2026-05-03 00:30:57 +09:00
minjaesong
24375727db taud amiga period bug fix (multi-tick Exx/Fxx) 2026-05-02 23:52:58 +09:00
minjaesong
6a7ef670d9 fix: tracker mixer flags not setup properly on fresh boot 2026-05-02 23:43:07 +09:00
minjaesong
1bbf0de381 instrument volume fadeout 2026-05-02 21:13:00 +09:00
minjaesong
5e6ac17146 song global volume and mixer volume 2026-05-02 19:28:11 +09:00
minjaesong
d2b1e792b9 taud: cue and pattern compression 2026-05-02 19:00:07 +09:00
minjaesong
219ca1e475 IT SusLoop 2026-05-02 14:26:57 +09:00
minjaesong
902ab00132 impl S6x and Wxx cmd 2026-05-02 14:15:34 +09:00
minjaesong
5dc87a80be fix: S Bx00 not working as indtended 2026-05-02 13:51:43 +09:00
minjaesong
2b91251d6e fix: random pitch changes; NNA note cut (not off!) for MOD and S3M 2026-05-02 03:25:57 +09:00
minjaesong
f84d317f95 NNA impl 2026-05-02 03:17:07 +09:00
minjaesong
f295223f15 IT instrument shenanigans 2026-05-02 02:48:24 +09:00
minjaesong
6de9476c4f fix: unmatched brackets :( 2026-05-02 02:23:38 +09:00
minjaesong
e317d79a21 S3M eff X; PT funk repeat 2026-05-02 02:22:20 +09:00
minjaesong
fe59df18f7 IT filters 2026-05-01 23:19:49 +09:00
minjaesong
a4adc428d0 taud: spec elaboration on filter cutoff and resonance 2026-05-01 18:07:13 +09:00
minjaesong
31e46b78ce notefx support for amiga freq mode 2026-05-01 17:54:17 +09:00
minjaesong
ac94a52329 it2taud to use new Taud instrument fields 2026-05-01 12:42:27 +09:00
minjaesong
01ff4b1d47 reflecting spec changes 2026-05-01 12:25:47 +09:00
minjaesong
50802186ce taud inst spec change 2026-05-01 07:42:08 +09:00
minjaesong
7184392521 2taud converters refactoring 2026-05-01 06:47:35 +09:00
minjaesong
018b9f5eb3 mod2taud.py 2026-05-01 06:34:03 +09:00
minjaesong
bb0810798d taut font update 2026-05-01 01:54:29 +09:00
minjaesong
909f970d60 it2taud: 12 vol/pan envelope nodes; experimental 'filter bake in' 
Implemented in it2taud.py:
- _parse_it_pf_envelope_raw() (it2taud.py:677) — parses IT's third envelope at IMPI+0x1D4, keeping all 25 nodes (no decimation), distinguishing pitch vs filter mode via flag bit 7.
- _env_value_at() — tick-time linear interpolation honouring env-loop wrap.
- _clone_sample(), _plan_baked_length() — sample copy and entry + N×loop_len length planner (N up to 16).
- _bake_pitch_envelope() — time-varying linear-interpolated resampling, rate = 2^(env_v/12).
- _bake_filter_envelope() — RBJ 2-pole resonant LP biquad with time-varying coefficients; cutoff mapped 110 Hz (env_v=−32) → ~28 kHz (env_v=+32), Q from inst.ifr ∈ [0.5, 6.0].
- ITInstrument extended with pf_nodes, pf_flags, ifc, ifr. parse_instruments() reads IFC/IFR at IMPI+0x39/0x3A and pf envelope at IMPI+0x1D4.
- assemble_taud() use_instruments branch now substitutes baked copies in the proxy[] list (originals in samples[] stay intact).
- --no-pf-envelope CLI flag for A/B testing; module docstring updated.
 2026-05-01 01:48:40 +09:00
minjaesong
80c26c6b35 taud: 12 envelope nodes; taut proj tab 2026-05-01 01:36:04 +09:00
minjaesong
515e0268e6 taut inst: global volume 2026-04-30 21:54:11 +09:00
minjaesong
606fa736af some graphics changes 2026-04-30 17:08:58 +09:00
minjaesong
89effb5b24 beat indicator, secondary row emph 2026-04-30 15:10:32 +09:00
minjaesong
376c3c4766 it2taud.py 2026-04-30 14:25:03 +09:00
minjaesong
0a247897e4 taud font better numbers 2026-04-29 21:30:57 +09:00
minjaesong
b838b35525 taud: amiga mode pitchbend 2026-04-29 20:07:25 +09:00
minjaesong
1148454fb3 graphics: colour 0 is default to half-transparent black 2026-04-29 19:20:15 +09:00
minjaesong
cfb7b97bf0 taut: popup back col 2026-04-29 15:57:41 +09:00
minjaesong
176aa824fe taut: comp for pat and cue 2026-04-29 15:50:52 +09:00
minjaesong
d33484c3c8 perkele 2026-04-29 15:49:57 +09:00
minjaesong
737b1cebe7 did it work? 2026-04-29 15:41:47 +09:00
minjaesong
176766b793 did it fix it? 2026-04-29 14:29:18 +09:00
minjaesong
191c733913 taut: better top bar(2) 2026-04-29 14:09:37 +09:00
minjaesong
895f1b27ef taut: better top bar 2026-04-29 13:19:22 +09:00
minjaesong
538d718568 taut: top bar 2026-04-29 12:41:20 +09:00
minjaesong
b3c5719e3a it2taud sample signedness fix 2026-04-29 12:27:52 +09:00
minjaesong
27e4bc1ae5 2taud update 2026-04-29 11:27:29 +09:00
minjaesong
2282e0c10b it2taud, instrument format changes 2026-04-29 09:21:28 +09:00
minjaesong
e7287fae37 taut: graphical buttons 2026-04-29 03:53:40 +09:00
minjaesong
65d89db9c6 minor colour change(2) 2026-04-28 09:16:48 +09:00
minjaesong
53173a359c minor colour change 2026-04-28 09:14:02 +09:00
minjaesong
8d7d534bc8 taud logo; command.js supporting .alias file 2026-04-28 01:20:48 +09:00
minjaesong
dc3c73252e taut: colour scheme change 2026-04-27 23:44:51 +09:00
minjaesong
2053526dfa taut: minor bugfixes 2026-04-27 18:19:58 +09:00
minjaesong
6bc49e3f0b fix: taut voice mute status persisting on other tabs 2026-04-27 13:29:19 +09:00
minjaesong
02c4f9590c taut: popups 2026-04-27 07:31:47 +09:00
minjaesong
34afa95137 more simulateRowState fix 2026-04-27 03:06:53 +09:00
minjaesong
284108f07f more ui changes 2026-04-27 02:58:12 +09:00
minjaesong
76011d4fa9 taut: better channel sim; s3m converter S8x->PanEff 2026-04-27 02:25:23 +09:00
minjaesong
b44d9c6b68 taut: fancier UI 2026-04-26 23:36:29 +09:00
minjaesong
e47e9e1259 taut: transport control 2026-04-26 22:36:39 +09:00
minjaesong
c5789ec28b taud: panning law toggle 2026-04-26 20:08:02 +09:00
minjaesong
93f7f436a3 taud note eff more PT conv table 2026-04-26 19:24:01 +09:00
minjaesong
3ca31e57a1 taut: fully column navigatable 2026-04-26 14:14:40 +09:00
minjaesong
1f630aee62 taut: more ui improvements 2026-04-26 13:31:54 +09:00
minjaesong
3f3644d165 taut: minor ui change 2026-04-26 02:19:24 +09:00
minjaesong
e29f9c3032 taut: patterns tab 2026-04-26 02:05:10 +09:00
minjaesong
85b8586a3a taut: panelised view 2026-04-25 15:29:02 +09:00
minjaesong
92b9984ef8 taut: fx colour change 2026-04-25 15:03:56 +09:00
minjaesong
3f98d25828 taut control and font changes 2026-04-25 11:33:43 +09:00
minjaesong
d4ea9b2d29 more correct pitch slide conversion rule 2026-04-24 20:17:20 +09:00
minjaesong
a1b62f3155 taud-related changes (docs, converter supports Y eff) 2026-04-24 18:35:24 +09:00
minjaesong
4802e10dfc better tracker font, IT eff for Taud 2026-04-24 12:18:34 +09:00
minjaesong
6d70960e5c Panbrello is 'Y' not 'W', oops 2026-04-24 09:21:10 +09:00
minjaesong
3d99568359 taud: implemented eff W (panbrello) 2026-04-24 09:15:24 +09:00
minjaesong
1fe966ca09 more taut font change 2026-04-24 02:42:09 +09:00
minjaesong
037b2c1a16 taut font change 2026-04-24 02:33:59 +09:00
minjaesong
ea09065802 more taut gui 2026-04-24 02:17:41 +09:00
minjaesong
8d28bde119 taud base note def changed (A3@440Hz) 2026-04-23 23:11:09 +09:00
minjaesong
755afb7df4 reatable fx names; horz scroll fix 2026-04-23 22:23:15 +09:00
minjaesong
539df453ec taut: fix voleff 'v1' rendering as 'v.1' 2026-04-23 21:51:47 +09:00
minjaesong
5e3ffea6d3 taut: better scrolling behav(2) 2026-04-23 21:18:30 +09:00
minjaesong
4bda55d511 taut: better scrolling behav 2026-04-23 21:12:11 +09:00
minjaesong
852c0e6e80 taut: displaying note symbol 2026-04-23 21:03:20 +09:00
minjaesong
25309cf5b6 format revision and tracker GUI 2026-04-23 20:48:40 +09:00
minjaesong
44f11120d8 tightening formats 2026-04-23 14:47:53 +09:00
minjaesong
bc16ffabb4 minor colour change 2026-04-23 14:04:49 +09:00
minjaesong
ad5e5b62bc more tracker gui 2026-04-23 13:59:48 +09:00
minjaesong
887c2fbfba s3m to taud fix (not emitting volcmd on note retrigger) 2026-04-23 13:35:38 +09:00
minjaesong
e58eb2c12b more tracker stuff 2026-04-23 12:43:56 +09:00
minjaesong
3a91edb379 playback ctrl 2026-04-23 09:59:48 +09:00
minjaesong
74d94b350c taut: always scroll to centre 2026-04-23 01:32:44 +09:00
minjaesong
4559e4f3f6 better tauty 2026-04-23 00:16:32 +09:00
minjaesong
c5bc0d6526 tauty 2026-04-22 23:03:33 +09:00
minjaesong
a92727862e taut: detailed custom notation def 2026-04-22 17:38:47 +09:00
minjaesong
31d25d940b taut: note symbols(2) 2026-04-22 17:23:28 +09:00
minjaesong
460046c4ed taut: note symbols 2026-04-22 16:01:57 +09:00
minjaesong
6eeccb4baa manually entering syms 2026-04-21 23:18:21 +09:00
minjaesong
a7c44bd05f taut font update 2026-04-21 13:28:13 +09:00
minjaesong
4e647f9fe1 tracker wip 2026-04-20 17:38:02 +09:00
minjaesong
b2faab9377 s3m converter: not emitting skip order (0xFE) 2026-04-20 03:20:55 +09:00
minjaesong
e833d75b2c tracker engine bugfixes 2026-04-20 03:10:08 +09:00
minjaesong
f84ea5e68a tracker effects definition 2026-04-20 01:35:23 +09:00
minjaesong
5374ca43c3 proper tracker effects documentation 2026-04-19 19:18:52 +09:00
minjaesong
bef85f6e2f tracker impl, s3m converter, larger tracker sample bin 2026-04-19 02:52:12 +09:00
minjaesong
f02ad1de79 minor spec change for Taud 2026-04-17 17:28:03 +09:00
minjaesong
7f0ff3e653 Taud tracker: explicit nop and key-off behaviour 2026-04-17 16:42:17 +09:00
minjaesong
8702104bfe tracker impl 2026-04-17 12:03:43 +09:00
minjaesong
7d899936e2 audio changes 2026-04-16 21:58:06 +09:00
minjaesong
6aa2542bb8 audio device changes 2026-04-16 15:04:44 +09:00
minjaesong
2ac084acd7 psg.mjs 2026-04-16 02:05:21 +09:00
minjaesong
1208690c4f graal update with graal compiler 2026-04-13 22:20:50 +09:00
minjaesong
ca977b074d vm update 2026-04-10 20:36:55 +09:00
minjaesong
102801d8b0 tav: vendor string update 2026-01-21 22:00:47 +09:00
minjaesong
10351bafb1 tav fix: fractional framerate breaking audio encoding 2026-01-21 21:41:03 +09:00
minjaesong
9310885260 tav fix: webm being recognised as still image 2026-01-21 21:21:11 +09:00
minjaesong
b10d5d3a34 tav: vendor string update 2025-12-30 09:36:19 +09:00
minjaesong
86b44565e0 tav: revived adaptive gop alloc 2025-12-30 09:27:14 +09:00
minjaesong
54b61fb436 tav: support for fractional framerate 2025-12-25 18:26:56 +09:00
minjaesong
4afe3816c7 tav: extended header XFPS 2025-12-25 13:26:38 +09:00
minjaesong
f09dd66185 playtav: fixed using wrong flag 2025-12-25 11:20:21 +09:00
minjaesong
b590415231 playtav: still picture playback 2025-12-25 11:13:34 +09:00
minjaesong
237d3d6fd2 playtav: playing next file must not work with still images 2025-12-25 03:21:07 +09:00
minjaesong
3421d71012 TAV: still picture impl 2025-12-23 04:00:53 +09:00
minjaesong
5d5576c077 fix: mmio-based readKey() having delayed event because of race condition 2025-12-20 11:17:50 +09:00
minjaesong
64026be133 disabling broken code until fixed 2025-12-19 23:18:16 +09:00
minjaesong
96d697e158 iPF progressive mode decoder 2025-12-19 21:41:51 +09:00
minjaesong
1680137b7d external iPF encoder 2025-12-19 21:36:48 +09:00
minjaesong
c71920b95d TAV fix 13/7 wavelet not decoding correctly 2025-12-18 20:09:06 +09:00
minjaesong
629ed5fb12 tsvm "compiler" update 2025-12-18 10:29:46 +09:00
minjaesong
4f6efbe000 Update terranmon.txt 2025-12-18 10:28:56 +09:00
minjaesong
4362610c70 rm readme 2025-12-18 10:07:08 +09:00
225 changed files with 20834 additions and 31549 deletions
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.gitignore vendored
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@@ -66,3 +66,7 @@ assets/disk0/home/basic/*
assets/disk0/movtestimg/*.jpg
assets/disk0/*.mov
assets/diskMediabin/*
video_encoder/*
assets/disk0/tvdos/bin/tautfont.png

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@@ -21,36 +21,54 @@
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133
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11
.idea/libraries/badlogicgames_gdx.xml generated Normal file
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62
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9
.idea/markdown.xml generated Normal file
View File

@@ -0,0 +1,9 @@
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2
.idea/misc.xml generated
View File

@@ -1,6 +1,6 @@
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<component name="ProjectRootManager" version="2" languageLevel="JDK_21" default="true" project-jdk-name="17" project-jdk-type="JavaSDK">
<component name="ProjectRootManager" version="2" languageLevel="JDK_21" default="true" project-jdk-name="21" project-jdk-type="JavaSDK">
<output url="file://$PROJECT_DIR$/out" />
</component>
</project>

17
.idea/runConfigurations/AppLoader.xml generated Normal file
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@@ -0,0 +1,17 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="AppLoader" type="Application" factoryName="Application" nameIsGenerated="true">
<option name="ALTERNATIVE_JRE_PATH" value="21" />
<option name="MAIN_CLASS_NAME" value="net.torvald.tsvm.AppLoader" />
<module name="tsvm_executable" />
<option name="VM_PARAMETERS" value="-ea --upgrade-module-path=lib/compiler-23.1.10.jar:lib/compiler-management-23.1.10.jar:lib/truffle-compiler-23.1.10.jar:lib/truffle-api-23.1.10.jar:lib/truffle-runtime-23.1.10.jar:lib/polyglot-23.1.10.jar:lib/collections-23.1.10.jar:lib/word-23.1.10.jar:lib/nativeimage-23.1.10.jar:lib/jniutils-23.1.10.jar -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI -XX:+UseZGC -XX:+UseDynamicNumberOfGCThreads --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler" />
<extension name="coverage">
<pattern>
<option name="PATTERN" value="net.torvald.tsvm.*" />
<option name="ENABLED" value="true" />
</pattern>
</extension>
<method v="2">
<option name="Make" enabled="true" />
</method>
</configuration>
</component>

16
.idea/runConfigurations/TerranBASIC.xml generated Normal file
View File

@@ -0,0 +1,16 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="TerranBASIC" type="Application" factoryName="Application" nameIsGenerated="true">
<option name="MAIN_CLASS_NAME" value="net.torvald.tsvm.TerranBASIC" />
<module name="TerranBASICexecutable" />
<option name="VM_PARAMETERS" value="--upgrade-module-path=lib/compiler-23.1.10.jar:lib/compiler-management-23.1.10.jar:lib/truffle-compiler-23.1.10.jar:lib/truffle-api-23.1.10.jar:lib/truffle-runtime-23.1.10.jar:lib/polyglot-23.1.10.jar:lib/collections-23.1.10.jar:lib/word-23.1.10.jar:lib/nativeimage-23.1.10.jar:lib/jniutils-23.1.10.jar -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler" />
<extension name="coverage">
<pattern>
<option name="PATTERN" value="net.torvald.tsvm.*" />
<option name="ENABLED" value="true" />
</pattern>
</extension>
<method v="2">
<option name="Make" enabled="true" />
</method>
</configuration>
</component>

16
.idea/runConfigurations/TsvmEmulator.xml generated Normal file
View File

@@ -0,0 +1,16 @@
<component name="ProjectRunConfigurationManager">
<configuration default="false" name="TsvmEmulator" type="Application" factoryName="Application" nameIsGenerated="true">
<option name="MAIN_CLASS_NAME" value="net.torvald.tsvm.TsvmEmulator" />
<module name="tsvm_executable" />
<option name="VM_PARAMETERS" value="-ea --upgrade-module-path=lib/compiler-23.1.10.jar:lib/compiler-management-23.1.10.jar:lib/truffle-compiler-23.1.10.jar:lib/truffle-api-23.1.10.jar:lib/truffle-runtime-23.1.10.jar:lib/polyglot-23.1.10.jar:lib/collections-23.1.10.jar:lib/word-23.1.10.jar:lib/nativeimage-23.1.10.jar:lib/jniutils-23.1.10.jar -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI -XX:+UseZGC -XX:+UseDynamicNumberOfGCThreads --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler" />
<extension name="coverage">
<pattern>
<option name="PATTERN" value="net.torvald.tsvm.*" />
<option name="ENABLED" value="true" />
</pattern>
</extension>
<method v="2">
<option name="Make" enabled="true" />
</method>
</configuration>
</component>

2
.idea/vcs.xml generated
View File

@@ -2,5 +2,7 @@
<project version="4">
<component name="VcsDirectoryMappings">
<mapping directory="$PROJECT_DIR$" vcs="Git" />
<mapping directory="$PROJECT_DIR$/assets/disk0/home/tetrino" vcs="Git" />
<mapping directory="$PROJECT_DIR$/assets/disk0/home/tvnes" vcs="Git" />
</component>
</project>

8
2taud.sh Executable file
View File

@@ -0,0 +1,8 @@
#!/usr/bin/env fish
for f in *.mod; python3 mod2taud.py $f assets/disk0/home/music/(basename $f .mod).taud; end
for f in *.s3m; python3 s3m2taud.py $f assets/disk0/home/music/(basename $f .s3m).taud; end
for f in *.it; python3 it2taud.py $f assets/disk0/home/music/(basename $f .it).taud; end
for f in *.xm; python3 xm2taud.py $f assets/disk0/home/music/(basename $f .xm).taud; end
for f in *.mon; python3 mon2taud.py $f assets/disk0/home/music/(basename $f .mon).taud; end
for f in *.MON; python3 mon2taud.py $f assets/disk0/home/music/(basename $f .MON).taud; end

43
CLAUDE.md
View File

@@ -12,6 +12,37 @@ This file provides guidance to Claude Code (claude.ai/code) when working with co
- TerranBASIC integration
- Multiple platform build system
## Documentations
Documentation for TSVM and TVDOS are available on `./doc/*.tex` as machine-readable format.
Documentatino for TSVM architecture is available on `terranmon.txt`
## Reference Materials
Third-party source-code references that inform TSVM implementations live in
`reference_materials/<topic>/`. Each topic folder has a `README.md` that
summarises the takeaway and points back into the verbatim source files.
**Consult these before reimplementing tracker / codec / DSP behaviour from
memory** — TSVM aims to match the audible behaviour of the originals.
Current topics:
- `reference_materials/tracker_filter/` — Impulse Tracker / OpenMPT / Schism
Tracker resonant low-pass filter source. Defines the cutoff formula, the
resonance damping curve, and the **IIR-only 2-pole topology** (NOT a
biquad — no feedforward x[n1] / x[n2] terms) that `AudioAdapter.kt` uses
for Taud playback.
- `reference_materials/ft2-clone` — Modernised clone for the original FastTracker 2
- `reference_materials/impulse-tracker` — The original source code for ImpulseTracker
- `reference_materials/MilkyTracker` — FastTracker 2 compatible tracker
- `reference_materials/schismtracker` — Open-source re-implementation of ImpulseTracker
- `reference_materials/pt2-clone` — Open-source re-implementation of ProTracker 2
When fetching new references, copy the relevant upstream files verbatim into
a topic folder, write a `README.md` summarising the relevant maths /
algorithms with file:line citations, and add an entry here.
## Architecture
### Core Components
@@ -62,12 +93,12 @@ Use the build scripts in `buildapp/`:
### Prerequisites
1. Download JDK 17 runtimes to `~/Documents/openjdk/*` with specific naming:
- `jdk-17.0.1-x86` (Linux AMD64)
- `jdk-17.0.1-arm` (Linux Aarch64)
- `jdk-17.0.1-windows` (Windows AMD64)
- `jdk-17.0.1.jdk-arm` (macOS Apple Silicon)
- `jdk-17.0.1.jdk-x86` (macOS Intel)
1. Download JDK 21 runtimes to `~/Documents/openjdk/*` with specific naming:
- `jdk-21.0.1-x86` (Linux AMD64)
- `jdk-21.0.1-arm` (Linux Aarch64)
- `jdk-21.0.1-windows` (Windows AMD64)
- `jdk-21.0.1.jdk-arm` (macOS Apple Silicon)
- `jdk-21.0.1.jdk-x86` (macOS Intel)
2. Run `jlink` commands to create custom Java runtimes in `out/runtime-*` directories

224
README.md
View File

@@ -1,8 +1,222 @@
![tsvm](tsvm_screenshot.png)
**tsvm** /tiː.ɛs.viː.ɛm/ is a virtual machine with the architecture that mimics the 8-bit era of
computers, and runs programs written in Javascript.
# tsvm
**tsvm** repository includes the virtual machine itself, the reference BIOS
implementation and a DOS; BASIC is provided by the [TerranBASIC](https://github.com/curioustorvald/TerranBASIC)
repository.
**tsvm** /tiː.ɛs.viː.ɛm/ is a fantasy computer platform: a virtual machine whose
architecture is inspired by the 8-bit and early 16-bit home computers, built
from the ground up around running JavaScript as its native machine code.
What started as "an 8-bit-flavoured VM that runs JS" has grown into a complete,
self-hosted retro computing ecosystem — with its own BIOS, operating system,
filesystem, video and audio codecs, video display coprocessor with its own
assembly language, tracker music format, and a stack of userland tools that
together come closer to a small alternate-history computer line than a
single-binary emulator.
This repository contains the virtual machine core, the reference BIOS
implementations, the **TVDOS** operating system, the **Videotron2K** video
display controller, hardware-accelerated codec backends for the **TEV / TAV /
TAD** media formats, and the multi-platform packaging scripts. The
[TerranBASIC](https://github.com/curioustorvald/TerranBASIC) repository
provides the matching BASIC dialect that ships on the system disk.
## What's actually in here
### The virtual machine
- **VM core** (`tsvm_core/`) — memory model, peripheral bus, MMIO, JS
sandboxing through GraalVM, watchdog, DMA engine, and cooperative scheduling.
Up to 8 hot-pluggable peripheral slots, each with a dedicated MMIO window
and memory-space window mapped into the VM's negative address range.
- **Multiple BIOS implementations** (`assets/bios/`) — including the reference
`tsvmbios.js`, an OpenBIOS variant, the TBM-BIOS for TerranBASIC machines,
and the Pip-Boy-style `pipboot.rom`. BIOSes are first-class swappable
components, not a fixed boot blob.
- **Reference monitor / debugger** (`mon.js`) for poking at memory and
peripherals from a running machine.
- **Multi-platform packaging** (`buildapp/`) — scripts to produce Linux x86_64
/ ARM64 AppImages, macOS Intel / Apple Silicon bundles, and Windows builds,
each with its own `jlink`-trimmed JDK 21 runtime.
### Peripherals (the "hardware")
Living under `tsvm_core/src/net/torvald/tsvm/peripheral/`:
- **Graphics adapters** — the standard `GraphicsAdapter`, plus `TexticsAdapter`
for text-mode framebuffers, `ExtDisp` for external displays, and a
`RemoteGraphicsAdapter` for networked rendering.
- **Audio devices** — `AudioAdapter` (the main programmable sound chip with
PCM channels, an Impulse Tracker-style resonant low-pass filter, and a
hardware-accelerated **TAD** decoder), `OpenALBufferedAudioDevice`, and the
`MP2Env` MPEG audio environment.
- **Disk drives** — `TevdDiskDrive` (TEVD custom filesystem),
`ClusteredDiskDrive`, `TestDiskDrive`, and a latency-simulator script for
testing slow-storage behaviour.
- **Networking and serial** — `HttpModem`, `HSDPA` / `HostFileHSDPA` for
high-speed packet I/O, `SerialStdioHost`, `BlockTransferInterface` /
`BlockTransferPort`.
- **Terminals and displays** — `TTY`, `GlassTty`, `TermSim`, and a
`CharacterLCDdisplay` for HD44780-flavoured projects.
- **Memory expansion** — `RamBank` for bank-switched memory, plus a
programmable `TestFunctionGenerator`.
### Videotron2K — the video coprocessor
Videotron2K is a programmable video display controller with its **own
assembly-like language**, six general registers (`r1``r6`), special registers
(`tmr`, `frm`, `px`, `py`, `c1``c6`), a scene-based programming model, and
conditional postfixes (`zr`, `nz`, `gt`, `ls`, `ge`, `le`). Programs declare
`SCENE` blocks and dispatch them with `perform`. Drawing primitives include
`plot`, `fillin`, `fillscr`, and `goto`. See `Videotron2K.md` and the VDC
implementation under `tsvm_core/.../vdc/`.
### TVDOS — the operating system
`assets/disk0/tvdos/` is a complete DOS-style userland:
- **Kernel and drivers** — `TVDOS.SYS`, `HSDPADRV.SYS`, `hyve.SYS`,
installable drivers under `moviedev/` and `tuidev/`.
- **Custom filesystem** — TEVD, with the on-disk format documented in
`tvdos/filesystem.md`.
- **Internationalisation** — Colemak / Dvorak / QWERTY keymaps and an `i18n/`
resource tree.
- **Userland binaries** (`tvdos/bin/`) — a shell (`command.js`), file tools
(`hexdump`, `less`, `tee`, `touch`, `printfile`, `writeto`, `defrag`,
`lfs`, `drives`), an editor (`edit.js`), a file manager (`zfm.js`), a
network fetcher (`geturl`), gzip/Zstd helpers, palette tools, and a battery
of media players (`playmp2`, `playpcm`, `playwav`, `playmv1`, `playtev`,
`playtav`, `playtad`, `playucf`).
- **Taut tracker** — a full in-VM tracker (`taut.js`,
`taut_instredit.js`, `taut_sampleedit.js`, `taut_notationedit.js`,
`taut_fileop.js`) with its own font and chrome assets.
### Codecs and media formats
tsvm ships a small but serious codec lab. Encoders are written in C and live
in `video_encoder/`; decoders are split between JavaScript players in TVDOS
and hardware-accelerated Kotlin backends in the VM core.
- **iPF (Type 1 / 2 / 1-delta)** — picture and legacy movie format. Encoders:
`encodeipf.js`, `encodemov.js`, `encodemov2.js`. Documented in
`terranmon.txt`.
- **TEV (TSVM Enhanced Video)** — modern DCT codec with motion compensation,
16×16 blocks, YCoCg-R 4:2:0, and either quality-mode or bitrate-mode rate
control. Encoder: `video_encoder/encoder_tev.c`. Decoder: `playtev.js`,
with `tevDecode` / `tevIdct8x8` / `tevMotionCopy8x8` accelerated in
`GraphicsJSR223Delegate.kt`.
- **TAV (TSVM Advanced Video)** — successor to TEV based on the Discrete
Wavelet Transform. Five wavelet types (5/3 reversible, 9/7 irreversible,
CDF 13/7, DD-4, Haar), 6-level decomposition, EZBC sparsity coding,
perceptual quantisation, and an optional **3D temporal DWT** that encodes
whole groups of pictures as one unified wavelet tree. Includes a packet
inspector (`tav_inspector.c`) and coefficient visualiser
(`tav_visualise_coefficients.c`).
- **TAD (TSVM Advanced Audio)** — perceptual audio codec at 32 kHz stereo,
using CDF 9/7 wavelets, M/S decorrelation, gamma compression, pre-emphasis,
EZBC, and Zstd. Achieves ~2.5:1 compression vs. PCMu8 at quality 3 while
preserving the full 016 kHz band. Designed to be embeddable inside TAV so
audio chunks can align with video GOP boundaries.
- **Taud** — tracker module format with conversion tools from
the major formats: `it2taud.py` (Impulse Tracker), `mod2taud.py`
(ProTracker / FastTracker), `s3m2taud.py` (Scream Tracker 3), plus
`2taud.sh` and shared helpers in `taud_common.py`. Note effects are
documented in `TAUD_NOTE_EFFECTS.md`. The `AudioAdapter` runs the same
IIR-only 2-pole resonant low-pass topology used by Impulse Tracker /
OpenMPT / Schism.
- **MP2** — reference MPEG-1 Layer II environment via `MP2Env.kt` and
`playmp2.js`.
### Languages and runtimes
- **JavaScript** is the VM's native code, executed by GraalVM in a sandboxed
context with a curated set of host bindings (graphics, audio, filesystem,
DMA, compression, networking, low-level peek/poke).
- **TerranBASIC** is provided by the
[TerranBASIC](https://github.com/curioustorvald/TerranBASIC) repository and
shipped as `tbas` on the system disk. The `TerranBASICexecutable/` subproject
packages a BASIC-only flavour of the machine.
- **Videotron2K assembly** for VDC programs.
### Documentation
- `terranmon.txt` — the architecture reference (memory map, peripheral
protocol, codec bitstreams).
- `doc/*.tex` — machine-readable LaTeX sources for the TSVM and TVDOS manuals,
built with `doc/makepdf.sh`.
- `Videotron2K.md` — VDC programming guide.
- `TAUD_NOTE_EFFECTS.md` — tracker effect reference.
- `CLAUDE.md` — a condensed map of the project for collaborators (and
language-model assistants) working in the tree.
## Building and running
### Prerequisites
JDK 21 runtimes laid out under `~/Documents/openjdk/` with platform-specific
names:
- `jdk-21.0.1-x86` — Linux AMD64
- `jdk-21.0.1-arm` — Linux Aarch64
- `jdk-21.0.1-windows` — Windows AMD64
- `jdk-21.0.1.jdk-x86` — macOS Intel
- `jdk-21.0.1.jdk-arm` — macOS Apple Silicon
`jlink` is then used to produce trimmed runtimes under `out/runtime-*`.
### Common entry points
- **Run the emulator** — `TsvmEmulator.java` (in `tsvm_executable/`).
- **Run TerranBASIC-only build** — `TerranBASIC.java` (in
`TerranBASICexecutable/`).
- **Package an installable bundle** — pick the right script in `buildapp/`:
- `build_app_linux_x86.sh`
- `build_app_linux_arm.sh`
- `build_app_mac_x86.sh`
- `build_app_mac_arm.sh`
- `build_app_windows_x86.sh`
- **Build C encoders** — in `video_encoder/`: `make` (TEV), `make tav`,
`make tad`.
### Encoding sample media
```bash
# Quality-mode TEV encode
./encoder_tev -i input.mp4 -o clip.tev -q 3
# TAV with 9/7 wavelet, quality 4
./encoder_tav -i input.mp4 -w 1 -q 4 -o clip.tav
# TAV with 3D temporal DWT (GOP-unified encoding)
./encoder_tav -i input.mp4 --temporal-dwt -o clip.tav
# TAD audio at the highest quality
./encoder_tad -i input.mp4 -o track.tad -q 5
```
Then, inside TVDOS:
```
A:\> playtev clip.tev
A:\> playtav clip.tav
A:\> playtad track.tad
```
## Repository layout
```
tsvm_core/ VM core, peripherals, VDC, JS bindings (Kotlin)
tsvm_executable/ Main emulator GUI (LibGDX)
TerranBASICexecutable/ For creatingTerranBASIC executable
assets/bios/ BIOS ROMs and source
assets/disk0/ Boot disk image, including all of TVDOS
video_encoder/ C encoders, decoder libs, inspectors (TEV / TAV / TAD)
ipf_encoder/ Reference iPF encoder
doc/ LaTeX sources for the TSVM / TVDOS manuals
buildapp/ Per-platform packaging scripts
My_BASIC_Programs/ Example BASIC programs
*.py, *.sh, *.kts Conversion tools and ad-hoc utilities
```
## Licence
See `COPYING`.

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2
TerranBASICexecutable/TerranBASICexecutable.iml
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@@ -10,5 +10,7 @@
<orderEntry type="module" module-name="tsvm_core" />
<orderEntry type="library" name="TerranVirtualDisk" level="project" />
<orderEntry type="library" name="lib" level="project" />
<orderEntry type="library" name="badlogicgames.gdx" level="project" />
<orderEntry type="library" name="badlogicgames.gdx.backend.lwjgl3" level="project" />
</component>
</module>

35
TerranBASICexecutable/src/net/torvald/tsvm/VMGUI.kt
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@@ -122,8 +122,39 @@ class VMGUI(val loaderInfo: EmulInstance, val viewportWidth: Int, val viewportHe
private var rebootRequested = false
private fun reboot() {
vmRunner.close()
coroutineJob.interrupt()
// Order is critical: stop ALL execution first, then dispose peripherals
// before re-initialising. Without this, the old JS thread races the new
// one on shared VM memory / IO state and can SIGSEGV on disposed peripherals.
// 1. Stop parallel/child contexts. park() interrupts and joins them.
vm.park()
vm.poke(-90L, -128)
// 2. Interrupt the main runner thread and cancel the GraalVM context.
if (::coroutineJob.isInitialized) coroutineJob.interrupt()
try { if (::vmRunner.isInitialized) vmRunner.close() } catch (_: Throwable) {}
// 3. Wait for the main runner thread to actually finish.
if (::coroutineJob.isInitialized && coroutineJob !== Thread.currentThread()) {
try {
coroutineJob.join(2000L)
if (coroutineJob.isAlive) {
System.err.println("[VMGUI] runner ${vm.id} did not exit within 2s; proceeding anyway")
coroutineJob.interrupt()
}
}
catch (_: InterruptedException) {
Thread.currentThread().interrupt()
}
}
// 4. Now it's safe to release native resources held by peripherals.
for (i in 1 until vm.peripheralTable.size) {
try {
vm.peripheralTable[i].peripheral?.dispose()
}
catch (_: Throwable) {}
}
vm.init()
init()

BIN
assets/bios/tsvmbios.bin
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4
assets/bios/tsvmbios.js
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@@ -1,5 +1,5 @@
con.reset_graphics();con.curs_set(0);con.clear();
graphics.resetPalette();graphics.setBackground(0,0,0);
graphics.resetPalette();graphics.setPalette(0, 0, 0, 0, 15);graphics.setBackground(0,0,0);
let logo = gzip.decomp(base64.atob("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"));
@@ -77,7 +77,7 @@ tmr = sys.nanoTime();
while (sys.nanoTime() - tmr < 2147483648) sys.spin();
// clear screen
graphics.clearPixels(255);con.color_pair(239,255);
con.clear();con.move(1,1);
con.clear();con.move(1,1);graphics.resetPalette();
///////////////////////////////////////////////////////////////////////////////

1
assets/disk0/AUTOEXEC.BAT
View File

@@ -5,5 +5,6 @@ set PATH=\tvdos\installer;\tvdos\tuidev;$PATH
set KEYBOARD=us_colemak
rem this line specifies which shell to be presented after the boot precess:
tvdos/i18n/korean
zfm
command -fancy

4
assets/disk0/home/hdk/compile.js
View File

@@ -1,6 +1,6 @@
if (exec_args[1] === undefined) {
println("Usage: compile -le/-lo myfile.js")
println(" The compiled and linked file will be myfile.out")
println(" The compiled and linked file will be myfile.exc")
return 1
}
@@ -14,7 +14,7 @@ if (exec_args[2]) {
_G.shell.execute(`rm ${tempFilename}.gz`)
_G.shell.execute(`link -${exec_args[1][2]} ${tempFilename}.bin`)
_G.shell.execute(`mv ${tempFilename}.out ${filenameWithoutExt}.out`)
_G.shell.execute(`mv ${tempFilename}.exc ${filenameWithoutExt}.exc`)
_G.shell.execute(`rm ${tempFilename}.bin`)
}
// with no linking

4
assets/disk0/home/hdk/decompile.js
View File

@@ -1,6 +1,6 @@
if (exec_args[1] === undefined) {
println("Usage: decompile myfile.bin")
println("The compiled file will be myfile.bin.js")
println("Usage: decompile myfile.exc")
println("The compiled file will be myfile.exc.js")
return 1
}
_G.shell.execute(`enc ${exec_args[1]} ${exec_args[1]}.gz`)

2
assets/disk0/home/hdk/enc.js
View File

@@ -1,3 +1,5 @@
// a simple, symmetric obfuscator with infinite-length key
function seq(s) {
let out = ""
let cnt = 0

9
assets/disk0/home/hdk/link.js
View File

@@ -11,7 +11,6 @@ let infile = files.open(infilePath)
if (!infile.exists) throw Error("No such file: " + infilePath)
let outfile = files.open(infilePath.substringBeforeLast(".") + ".out")
let outMode = exec_args[1].toLowerCase()
let type = {
@@ -21,6 +20,13 @@ let type = {
"-c": "\x04"
}
let ext = {
"-r": ".exc", // executable
"-e": ".exc", // executable
"-o": ".lib", // library
"-c": ".cob" // core object
}
function toI32(num) {
const buffer = new ArrayBuffer(4)
const view = new DataView(buffer)
@@ -40,6 +46,7 @@ let addr = 0
if (exec_args[3] !== undefined && exec_args[3].toLowerCase() == "-a" && exec_args[4] !== undefined)
addr = parseInt(exec_args[4], 16)
let outfile = files.open(infilePath.substringBeforeLast(".") + ext[exec_args[3].toLowerCase()])
outfile.sappend("\x20\xC0\xCC\x0A")
outfile.sappend(type[outMode] || "\x00")
outfile.bappend(toI24(addr))

2
assets/disk0/home/hdk/load.js
View File

@@ -1,5 +1,5 @@
if (exec_args[1] === undefined) {
println("Usage: load myfile.out")
println("Usage: load myfile.exc")
println(" This will load the binary image onto the Core Memory")
return 1
}

4
assets/disk0/home/playrawpcm.js
View File

@@ -4,7 +4,7 @@ music.pread(samples, 65534)
audio.setPcmMode(0)
audio.setMasterVolume(0, 255)
audio.putPcmDataByPtr(samples, 65534, 0)
audio.putPcmDataByPtr(0, samples, 65534, 0)
audio.setLoopPoint(0, 65534)
audio.play(0)*/
@@ -127,7 +127,7 @@ while (sampleSize > 0) {
let readLength = (sampleSize < BLOCK_SIZE) ? sampleSize : BLOCK_SIZE
readBytes(readLength, decodePtr)
audio.putPcmDataByPtr(decodePtr, readLength, 0)
audio.putPcmDataByPtr(0, decodePtr, readLength, 0)
audio.setSampleUploadLength(0, readLength)
audio.startSampleUpload(0)

21
assets/disk0/tracker_play.js Normal file
View File

@@ -0,0 +1,21 @@
const taud = require("taud")
const fullFilePath = _G.shell.resolvePathInput(exec_args[1])
if (fullFilePath === undefined) {
println(`Usage: ${exec_args[0]} path_to.taud`)
return 1
}
const PLAYHEAD = 0
println("Playing "+fullFilePath.full)
audio.resetParams(PLAYHEAD)
audio.purgeQueue(PLAYHEAD)
audio.stop(PLAYHEAD)
taud.uploadTaudFile(fullFilePath.full, 0, PLAYHEAD)
audio.setMasterVolume(PLAYHEAD, 255)
audio.setMasterPan(PLAYHEAD, 128)
audio.setCuePosition(PLAYHEAD, 0)
audio.play(PLAYHEAD)

186
assets/disk0/tracker_test.js Normal file
View File

@@ -0,0 +1,186 @@
// Tracker Mode — Bach's Prelude in C Major (BWV 846)
// Run from the TVDOS shell: js tracker_test.js
// Uploads ~92 patterns on startup (takes a moment).
// -- Note table (12-TET, 4096-TET encoding) ------------------------------------
// C3 = 0x4000; each semitone = 4096/12 ≈ 341.33 steps; each octave = 4096 steps.
// Sharp suffix: s (e.g. Cs3); flat aliases also provided (e.g. Db3 = Cs3).
// Special values: Note.OFF = key-off, Note.CUT = note cut, Note.NOP = no-op.
var Note = (function() {
var SEMITONE = 4096 / 12;
var C3 = 0x4000;
function n(oct, semi) { return Math.round(C3 + (oct - 3) * 4096 + semi * SEMITONE) & 0xFFFF; }
var t = {};
var names = ['C','Cs','D','Ds','E','F','Fs','G','Gs','A','As','B'];
var flats = ['C','Db','D','Eb','E','F','Gb','G','Ab','A','Bb','B'];
for (var oct = 0; oct <= 9; oct++) {
for (var s = 0; s < 12; s++) {
t[names[s] + oct] = n(oct, s);
if (flats[s] !== names[s]) t[flats[s] + oct] = n(oct, s);
}
}
t.OFF = 0x0000; // key-off
t.CUT = 0xFFFE; // note cut (immediate)
t.NOP = 0xFFFF; // no-op (empty row)
return t;
}());
var PLAYHEAD = 0;
// -- 1. Sample: triangle wave (256 samples @ C3) --------------------------------
var SAMPLE_LEN = 256;
var sampleBytes = new Array(SAMPLE_LEN);
for (var i = 0; i < SAMPLE_LEN; i++) {
var phase = (i / SAMPLE_LEN) * 2.0;
var val_ = phase < 1.0 ? phase : 2.0 - phase;
sampleBytes[i] = Math.round(val_ * 254) & 0xFF;
}
var memBase = audio.getMemAddr();
for (var i = 0; i < SAMPLE_LEN; i++) {
sys.poke(memBase - i, sampleBytes[i]);
}
// -- 2. Instrument 0 -----------------------------------------------------------
var instBytes = new Array(64).fill(0);
instBytes[2] = 0; instBytes[3] = 1; // sampleLength = 256
instBytes[4] = 0x00; instBytes[5] = 0x7D; // samplingRate = 32000
instBytes[10] = 0x00; instBytes[11] = 0x01; // sampleLoopEnd = 256 (whole sample)
instBytes[12] = 1; // loopMode = 1 (forward)
instBytes[16] = 255; instBytes[17] = 0; // envelope: vol=255, hold
audio.uploadInstrument(1, instBytes);
// -- 3. Piano-roll builder -----------------------------------------------------
// Source convention: C1=0, C2=12, C3=24, C4=36 (i.e. C3=24, octave every 12).
function midiToTsvm(n) {
var oct = Math.floor(n / 12) + 1;
return Math.round(0x3000 + oct * 4096 + (n % 12) * (4096 / 12)) & 0xFFFF;
}
var noteMap = {}; // absRow → TSVM note value
var rowCursor = 0;
function seq(notes, lens) {
for (var i = 0; i < notes.length; i++) {
noteMap[rowCursor] = midiToTsvm(notes[i]);
rowCursor += lens[i];
}
}
var TD = 3; // rows per note step (= source TICK_DIVISOR)
function prel(n1, n2, n3, n4, n5) {
seq([n1, n2, n3, n4, n5, n3, n4, n5, n1, n2, n3, n4, n5, n3, n4, n5],
[TD+2, TD, TD, TD-1, TD, TD, TD, TD, TD, TD, TD, TD-1, TD, TD, TD, TD]);
}
function end1(n1,n2,n3,n4,n5,n6,n7,n8,n9) {
seq([n1, n2, n3, n4, n5, n6, n5, n4, n5, n7, n8, n7, n8, n9, n8, n9],
[TD+2, TD, TD, TD-1, TD, TD, TD, TD, TD, TD, TD, TD-1, TD, TD, TD, TD]);
}
function end2(n1,n2,n3,n4,n5,n6,n7,n8,n9) {
seq([n1, n2, n3, n4, n5, n6, n5, n4, n5, n4, n3, n4, n7, n8, n9, n7],
[TD+2, TD+1, TD+1, TD+1, TD+1, TD+2, TD+2, TD+2,
TD+3, TD+3, TD+4, TD+4, TD+6, TD+8, TD+12, TD+24]);
}
function end3(ns) {
for (var i = 0; i < ns.length; i++) {
noteMap[rowCursor] = midiToTsvm(ns[i]);
rowCursor += 1;
}
for (var i = 0; i < TD*2; i++) {
noteMap[rowCursor] = Note.NOP
rowCursor += 1;
}
}
// -- 4. Build the piece --------------------------------------------------------
rowCursor = 16 * TD; // 160-row intro silence
prel(24,28,31,36,40);
prel(24,26,33,38,41);
prel(23,26,31,38,41);
prel(24,28,31,36,40);
prel(24,28,33,40,45);
prel(24,26,30,33,38);
prel(23,26,31,38,43);
prel(23,24,28,31,36);
prel(21,24,28,31,36);
prel(14,21,26,30,36);
prel(19,23,26,31,35);
prel(19,22,28,31,37);
prel(17,21,26,33,38);
prel(17,20,26,29,35);
prel(16,19,24,31,36);
prel(16,17,21,24,29);
prel(14,17,21,24,29);
prel( 7,14,19,23,29);
prel(12,16,19,24,28);
prel(12,19,22,24,28);
prel( 5,17,21,24,28);
prel( 6,12,21,24,27);
prel( 8,17,23,24,26);
prel( 7,17,19,23,26);
prel( 7,16,19,24,28);
prel( 7,14,19,24,29);
prel( 7,14,19,23,29);
prel( 7,15,21,24,30);
prel( 7,16,19,24,31);
prel( 7,14,19,24,29);
prel( 7,14,19,23,29);
prel( 0,12,19,22,28);
end1( 0,12,17,21,24,29,21,17,14);
end2( 0,11,31,35,38,41,26,29,28);
end3([0,12,28,31,36]);
noteMap[rowCursor] = Note.OFF; // key-off at start of final silence
rowCursor += 16 * TD - 5; // 155 more rows of silence
var totalRows = rowCursor; // 5836
var NUM_ROWS = 64;
var numPatterns = Math.ceil(totalRows / NUM_ROWS); // 92
// -- 5. Build and upload patterns ----------------------------------------------
for (var p = 0; p < numPatterns; p++) {
var patBytes = new Array(512).fill(0);
for (var r = 0; r < NUM_ROWS; r++) {
var absRow = p * NUM_ROWS + r;
var noteVal = (noteMap[absRow] !== undefined) ? noteMap[absRow] : Note.NOP;
var isOn = (noteVal !== Note.NOP && noteVal !== Note.OFF && noteVal !== Note.CUT);
var off = r * 8;
patBytes[off] = noteVal & 0xFF;
patBytes[off + 1] = (noteVal >> 8) & 0xFF;
patBytes[off + 2] = 1; // instrument 1
patBytes[off + 3] = 63; // volume
patBytes[off + 4] = 31; // pan (centre)
}
audio.uploadPattern(p, patBytes);
}
// -- 6. Cue sheet: one entry per pattern, last halts -------------------------
// Cue format: 32 bytes, 20 voices with 12-bit pattern numbers packed as:
// bytes 0-9: low nybbles (byte i = voice i*2 in hi-nybble, voice i*2+1 in lo-nybble)
// bytes 10-19: mid nybbles (same packing)
// bytes 20-29: high nybbles (same packing)
// byte 30: instruction (0=NOP, 1=Halt)
// Voice 0 plays pattern c; voices 1-19 are disabled (0xFFF).
for (var c = 0; c < numPatterns; c++) {
var cueBytes = new Array(32).fill(0xFF);
// voice 0 = c (12-bit), voice 1 = 0xFFF → byte0=(c&0xF)<<4|0xF
cueBytes[0] = ((c & 0xF) << 4) | 0xF; // lo nybbles v0,v1
cueBytes[10] = (((c >> 4) & 0xF) << 4) | 0xF; // mid nybbles v0,v1
cueBytes[20] = (((c >> 8) & 0xF) << 4) | 0xF; // hi nybbles v0,v1
cueBytes[30] = (c === numPatterns - 1) ? 0x01 : 0;
audio.uploadCue(c, cueBytes);
}
// -- 7. Playback ---------------------------------------------------------------
// BPM=500, tickRate=1: 1 row = 5 ms; 10 rows/step × 16 steps/bar ≈ 75 bars/min.
audio.setTrackerMode(PLAYHEAD);
audio.setBPM(PLAYHEAD, 250);
audio.setTickRate(PLAYHEAD, 6);
audio.setMasterVolume(PLAYHEAD, 255);
audio.setMasterPan(PLAYHEAD, 128);
audio.setCuePosition(PLAYHEAD, 0);
audio.play(PLAYHEAD);
println("Bach's Prelude in C Major -- " + numPatterns + " patterns loaded.");
println("Stop: audio.stop(" + PLAYHEAD + ")");

161
assets/disk0/tvdos/TVDOS.SYS
View File

@@ -147,7 +147,7 @@ _TVDOS.variables = {
LANG: "EN",
KEYBOARD: "us_qwerty",
PATH: "\\tvdos\\bin;\\home",
PATHEXT: ".com;.bat;.app;.js",
PATHEXT: ".com;.bat;.app;.js;.alias",
HELPPATH: "\\tvdos\\help",
OS_NAME: "TSVM Disk Operating System",
OS_VERSION: _TVDOS.VERSION
@@ -225,8 +225,9 @@ class TVDOSFileDescriptor {
}
/** reads the file bytewise and puts it to the specified memory address
* @param count optional -- how many bytes to read
* @param offset optional -- how many bytes to skip initially
* @param ptr -- where the bytes should be dumped
* @param count -- how many bytes to read
* @param offset -- how many bytes to skip initially from the file
*/
pread(ptr, count, offset) {
this.driver.pread(this, ptr, count, offset)
@@ -241,7 +242,9 @@ class TVDOSFileDescriptor {
}
/** writes the bytes stored in the memory[ptr .. ptr+count-1] to file[offset .. offset+count-1]
* - @param offset is optional
* @param ptr -- where the bytes are
* @param count -- how many bytes to write
* @param offset -- position in the file
*/
pwrite(ptr, count, offset) {
this.driver.pwrite(this, ptr, count, offset)
@@ -420,11 +423,11 @@ _TVDOS.DRV.FS.SERIAL.sread = (fd) => {
}
_TVDOS.DRV.FS.SERIAL.bread = (fd) => {
let str = _TVDOS.DRV.FS.SERIAL.sread(fd)
let bytes = new Int8Array(str.length)
let bytes = []//new Int8Array(str.length)
for (let i = 0; i < str.length; i++) {
// let p = str.charCodeAt(i)
// bytes[i] = (p > 127) ? p - 255 : p
bytes[i] = str.charCodeAt(i)
bytes.push(str.charCodeAt(i))
}
return bytes
}
@@ -870,11 +873,21 @@ Object.freeze(_TVDOS.DRV.FS.DEVPT)
_TVDOS.DRV.FS.DEVFBIPF = {}
_TVDOS.DRV.FS.DEVFBIPF.pwrite = (fd, infilePtr, count, _2) => {
let decodefun = ([graphics.decodeIpf1, graphics.decodeIpf2])[sys.peek(infilePtr + 13)]
let flags = sys.peek(infilePtr+12)
let ipfType = sys.peek(infilePtr+13)
let isProgressive = (flags & 0x80) != 0
let hasAlpha = (flags & 0x01) != 0
// Select decode function based on type and progressive flag
let decodefun
if (isProgressive) {
decodefun = ([graphics.decodeIpf1Progressive, graphics.decodeIpf2Progressive])[ipfType]
} else {
decodefun = ([graphics.decodeIpf1, graphics.decodeIpf2])[ipfType]
}
let width = sys.peek(infilePtr+8) | (sys.peek(infilePtr+9) << 8)
let height = sys.peek(infilePtr+10) | (sys.peek(infilePtr+11) << 8)
let hasAlpha = (sys.peek(infilePtr+12) != 0)
let ipfType = sys.peek(infilePtr+13)
let imgLen = sys.peek(infilePtr+24) | (sys.peek(infilePtr+25) << 8) | (sys.peek(infilePtr+26) << 16) | (sys.peek(infilePtr+27) << 24)
let ipfbuf = sys.malloc(imgLen)
@@ -1014,136 +1027,6 @@ _TVDOS.DRV.FS.NET.exists = (fd) => {
return (0 == com.getStatusCode(port[0]))
}
///////////////////////////////////////////////////////////////////////////////
// Legacy Serial filesystem, !!pending for removal!!
/*const filesystem = {};
filesystem._toPorts = (driveLetter) => {
if (driveLetter.toUpperCase === undefined) {
throw Error("'"+driveLetter+"' (type: "+typeof driveLetter+") is not a valid drive letter");
}
var port = _TVDOS.DRIVES[driveLetter.toUpperCase()];
if (port === undefined) {
throw Error("Drive letter '" + driveLetter.toUpperCase() + "' does not exist");
}
return port
};
filesystem._close = (portNo) => {
com.sendMessage(portNo, "CLOSE")
}
filesystem._flush = (portNo) => {
com.sendMessage(portNo, "FLUSH")
}
// @return disk status code (0 for successful operation)
// throws if:
// - java.lang.NullPointerException if path is null
// - Error if operation mode is not "R", "W" nor "A"
filesystem.open = (driveLetter, path, operationMode) => {
var port = filesystem._toPorts(driveLetter);
filesystem._flush(port[0]); filesystem._close(port[0]);
var mode = operationMode.toUpperCase();
if (mode != "R" && mode != "W" && mode != "A") {
throw Error("Unknown file opening mode: " + mode);
}
com.sendMessage(port[0], "OPEN"+mode+'"'+path+'",'+port[1]);
return com.getStatusCode(port[0]);
};
filesystem.getFileLen = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "GETLEN");
var response = com.getStatusCode(port[0]);
if (135 == response) {
throw Error("File not opened");
}
if (response < 0 || response >= 128) {
throw Error("Reading a file failed with "+response);
}
return Number(com.pullMessage(port[0]));
};
// @return the entire contents of the file in String
filesystem.readAll = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "READ");
var response = com.getStatusCode(port[0]);
if (135 == response) {
throw Error("File not opened");
}
if (response < 0 || response >= 128) {
throw Error("Reading a file failed with "+response);
}
return com.pullMessage(port[0]);
};
filesystem.readAllBytes = (driveLetter) => {
var str = filesystem.readAll(driveLetter);
var bytes = new Uint8Array(str.length);
for (let i = 0; i < str.length; i++) {
bytes[i] = str.charCodeAt(i);
}
return bytes;
};
filesystem.write = (driveLetter, string) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "WRITE"+string.length);
var response = com.getStatusCode(port[0]);
if (135 == response) {
throw Error("File not opened");
}
if (response < 0 || response >= 128) {
throw Error("Writing a file failed with "+response);
}
com.sendMessage(port[0], string);
filesystem._flush(port[0]); filesystem._close(port[0]);
};
filesystem.writeBytes = (driveLetter, bytes) => {
var string = btostr(bytes); // no spreading: has length limit
filesystem.write(driveLetter, string);
};
filesystem.isDirectory = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "LISTFILES");
var response = com.getStatusCode(port[0]);
return (response === 0);
};
filesystem.mkDir = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "MKDIR");
var response = com.getStatusCode(port[0]);
if (response < 0 || response >= 128) {
var status = com.getDeviceStatus(port[0]);
throw Error("Creating a directory failed with ("+response+"): "+status.message+"\n");
}
return (response === 0); // possible status codes: 0 (success), 1 (fail)
};
filesystem.touch = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "TOUCH");
var response = com.getStatusCode(port[0]);
return (response === 0);
};
filesystem.mkFile = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "MKFILE");
var response = com.getStatusCode(port[0]);
return (response === 0);
};
filesystem.remove = (driveLetter) => {
var port = filesystem._toPorts(driveLetter);
com.sendMessage(port[0], "DELETE");
var response = com.getStatusCode(port[0]);
return (response === 0);
};
Object.freeze(filesystem);*/
///////////////////////////////////////////////////////////////////////////////
const files = {}

23
assets/disk0/tvdos/bin/command.js
View File

@@ -35,7 +35,7 @@ function print_prompt_text() {
print(" "+CURRENT_DRIVE+":")
con.color_pair(161,253)
con.addch(16);con.curs_right()
con.color_pair(0,253)
con.color_pair(240,253)
print(" \\"+shell_pwd.join("\\").substring(1)+" ")
if (errorlevel != 0 && errorlevel != "undefined" && errorlevel != undefined) {
con.color_pair(166,253)
@@ -61,7 +61,7 @@ function greet() {
con.clear()
con.color_pair(253,255)
print(' ');con.addch(17);con.curs_right()
con.color_pair(0,253)
con.color_pair(240,253)
print(" ".repeat(greetLeftPad)+welcome_text+" ".repeat(greetRightPad))
con.color_pair(253,255)
con.addch(16);con.curs_right();print(' ')
@@ -753,6 +753,25 @@ shell.execute = function(line) {
shell.execute(line)
})
}
else if ("ALIAS" == extension) {
// parse alias
// $0: all arguments
// $1..9: specific arguments
var lines = programCode.split('\n').filter(function(it) { return it.length > 0 }) // this return is not shell's return!
lines.forEach(function(line) {
var newLine = line
// replace $1..$9
for (let j = 1; j < 9; j++) {
newLine = newLine.replaceAll('$'+j, tokens[j])
}
// replace $0
newLine = newLine.replaceAll('$0', tokens.slice(1).join(' '))
shell.execute(newLine)
})
}
else if ("APP" == extension) {
let appexec = `A:${_TVDOS.variables.DOSDIR}\\sbin\\appexec.js`
let foundFile = searchFile.fullPath

5
assets/disk0/tvdos/bin/hopper.js Normal file
View File

@@ -0,0 +1,5 @@
/**
* Hopper is a package manager for TSVM
* Created by CuriousTorvald on 2026-04-16
*/

1
assets/disk0/tvdos/bin/microtone.alias Normal file
View File

@@ -0,0 +1 @@
taut $0

2
assets/disk0/tvdos/bin/playmv1.js
View File

@@ -326,7 +326,7 @@ while (!stopPlay && seqread.getReadCount() < FILE_LENGTH) {
// RAW PCM packets (decode on the fly)
else if (packetType == 0x1000 || packetType == 0x1001) {
let frame = seqread.readBytes(readLength)
audio.putPcmDataByPtr(frame, readLength, 0)
audio.putPcmDataByPtr(0, frame, readLength, 0)
audio.setSampleUploadLength(0, readLength)
audio.startSampleUpload(0)
sys.free(frame)

2
assets/disk0/tvdos/bin/playpcm.js
View File

@@ -162,7 +162,7 @@ while (!stopPlay && seqread.getReadCount() < FILE_SIZE && readLength > 0) {
seqread.readBytes(readLength, readPtr)
audio.putPcmDataByPtr(readPtr, readLength, 0)
audio.putPcmDataByPtr(0, readPtr, readLength, 0)
audio.setSampleUploadLength(0, readLength)
audio.startSampleUpload(0)

6
assets/disk0/tvdos/bin/playtad.js
View File

@@ -1,7 +1,9 @@
const SND_BASE_ADDR = audio.getBaseAddr()
const SND_MEM_ADDR = audio.getMemAddr()
const TAD_INPUT_ADDR = SND_MEM_ADDR - 262144 // TAD input buffer (matches TAV packet 0x24)
const TAD_DECODED_ADDR = SND_MEM_ADDR - 262144 + 65536 // TAD decoded buffer
// tadInputBin lives at audio-local offset 917504 and tadDecodedBin at 983040
// (post-bef85f6 memory map; the old 262144 offset now hits the enlarged sampleBin).
const TAD_INPUT_ADDR = SND_MEM_ADDR - 917504 // TAD input buffer (matches TAV packet 0x24)
const TAD_DECODED_ADDR = SND_MEM_ADDR - 983040 // TAD decoded buffer
if (!SND_BASE_ADDR) return 10

244
assets/disk0/tvdos/bin/playtav.js
View File

@@ -9,6 +9,7 @@ const MAXMEM = sys.maxmem()
const WIDTH = 560
const HEIGHT = 448
const TAV_MAGIC = [0x1F, 0x54, 0x53, 0x56, 0x4D, 0x54, 0x41, 0x56] // "\x1FTSVM TAV"
const TAP_MAGIC = [0x1F, 0x54, 0x53, 0x56, 0x4D, 0x54, 0x41, 0x50] // "\x1FTSVM TAP"
const UCF_MAGIC = [0x1F, 0x54, 0x53, 0x56, 0x4D, 0x55, 0x43, 0x46] // "\x1FTSVM UCF"
const TAV_VERSION = 1 // Initial DWT version
const UCF_VERSION = 1
@@ -17,6 +18,7 @@ const ADDRESSING_INTERNAL = 0x02
const SND_BASE_ADDR = audio.getBaseAddr()
const SND_MEM_ADDR = audio.getMemAddr()
const pcm = require("pcm")
const AUDIO_DEVICE = 0
const MP2_FRAME_SIZE = [144,216,252,288,360,432,504,576,720,864,1008,1152,1440,1728]
const TAV_TEMPORAL_LEVELS = 2
@@ -151,13 +153,10 @@ graphics.clearPixels4(0)
const gpuGraphicsMode = graphics.getGraphicsMode()
// Initialize audio
audio.resetParams(0)
audio.purgeQueue(0)
audio.setPcmMode(0)
audio.setMasterVolume(0, 255)
// set colour zero as half-opaque black
graphics.setPalette(0, 0, 0, 0, 7)
audio.resetParams(AUDIO_DEVICE)
audio.purgeQueue(AUDIO_DEVICE)
audio.setPcmMode(AUDIO_DEVICE)
audio.setMasterVolume(AUDIO_DEVICE, 255)
// Parse SSF-TC subtitle packet and add to event buffer (0x31)
function parseSubtitlePacketTC(packetSize) {
@@ -367,6 +366,8 @@ let header = {
width: 0,
height: 0,
fps: 0,
fps_num: 0, // Fractional FPS numerator (from XFPS or derived from fps)
fps_den: 1, // Fractional FPS denominator (from XFPS, default 1)
totalFrames: 0,
waveletFilter: 0, // TAV-specific: wavelet filter type
decompLevels: 0, // TAV-specific: decomposition levels
@@ -381,6 +382,22 @@ let header = {
fileRole: 0
}
// Helper function to parse XFPS string ("num/den" format) and update header
function parseXFPS(xfpsStr) {
let parts = xfpsStr.split("/")
if (parts.length === 2) {
let num = parseInt(parts[0], 10)
let den = parseInt(parts[1], 10)
if (!isNaN(num) && !isNaN(den) && den > 0) {
header.fps_num = num
header.fps_den = den
header.fps = num / den
return true
}
}
return false
}
// Read and validate header
for (let i = 0; i < 8; i++) {
header.magic[i] = seqread.readOneByte()
@@ -389,7 +406,7 @@ for (let i = 0; i < 8; i++) {
// Validate magic number
let magicValid = true
for (let i = 0; i < 8; i++) {
if (header.magic[i] !== TAV_MAGIC[i]) {
if (header.magic[i] !== TAV_MAGIC[i] &&header.magic[i] !== TAP_MAGIC[i] ) {
magicValid = false
break
}
@@ -401,10 +418,16 @@ if (!magicValid) {
return
}
// Check if this is a TAP still image file (magic ends with 'P' instead of 'V')
const isTapFile = (header.magic[7] === TAP_MAGIC[7])
header.version = seqread.readOneByte()
header.width = seqread.readShort()
header.height = seqread.readShort()
header.fps = seqread.readOneByte()
// Set default fractional fps (will be overridden by XFPS if present)
header.fps_num = header.fps
header.fps_den = 1
header.totalFrames = seqread.readInt()
header.waveletFilter = seqread.readOneByte()
header.decompLevels = seqread.readOneByte()
@@ -457,7 +480,7 @@ const isLossless = (header.videoFlags & 0x04) !== 0
console.log(`TAV Decoder`)
console.log(`Resolution: ${header.width}x${header.height}`)
console.log(`FPS: ${header.fps}`)
console.log(`FPS: ${header.fps === 255 ? "(see XFPS)" : header.fps}`)
console.log(`Total frames: ${header.totalFrames}`)
console.log(`Wavelet filter: ${header.waveletFilter === WAVELET_5_3_REVERSIBLE ? "5/3 reversible" : header.waveletFilter === WAVELET_9_7_IRREVERSIBLE ? "9/7 irreversible" : header.waveletFilter === WAVELET_BIORTHOGONAL_13_7 ? "Biorthogonal 13/7" : header.waveletFilter === WAVELET_DD4 ? "DD-4" : header.waveletFilter === WAVELET_HAAR ? "Haar" : "unknown"}`)
console.log(`Decomposition levels: ${header.decompLevels}`)
@@ -469,6 +492,135 @@ console.log(`Features: ${hasAudio ? "Audio " : ""}${hasSubtitles ? "Subtitles "
console.log(`Video flags raw: 0x${header.videoFlags.toString(16)}`)
console.log(`Scan type: ${isInterlaced ? "Interlaced" : "Progressive"}`)
// Handle TAP still image file
if (isTapFile) {
console.log("TAP still image detected")
// Allocate single frame buffer for still image
const FRAME_PIXELS = header.width * header.height
const FRAME_SIZE = FRAME_PIXELS * 3
const RGB_BUFFER = sys.malloc(FRAME_SIZE)
const PREV_RGB_BUFFER = sys.malloc(FRAME_SIZE)
sys.memset(RGB_BUFFER, 0, FRAME_SIZE)
sys.memset(PREV_RGB_BUFFER, 0, FRAME_SIZE)
// Read the image packet (should be I-frame)
let packetType = seqread.readOneByte()
// Skip non-video packets until we find the image data
while (packetType !== TAV_PACKET_IFRAME) {
if (packetType === TAV_PACKET_EXTENDED_HDR) {
// Parse extended header - look for XFPS
let numPairs = seqread.readShort()
for (let i = 0; i < numPairs; i++) {
// Read key (4 bytes)
let keyBytes = seqread.readBytes(4)
let key = ""
for (let j = 0; j < 4; j++) {
key += String.fromCharCode(sys.peek(keyBytes + j))
}
sys.free(keyBytes)
// Read value type and value
let valueType = seqread.readOneByte()
if (valueType === 0x04) { // Uint64 - 8 bytes
seqread.skip(8)
} else if (valueType === 0x10) { // Bytes - length-prefixed
let length = seqread.readShort()
let dataBytes = seqread.readBytes(length)
// Check for XFPS key
if (key === "XFPS") {
let xfpsStr = ""
for (let j = 0; j < length; j++) {
xfpsStr += String.fromCharCode(sys.peek(dataBytes + j))
}
parseXFPS(xfpsStr)
}
sys.free(dataBytes)
}
}
} else if (packetType === TAV_PACKET_SCREEN_MASK) {
// Skip screen mask packet - single entry: frame_num(4) + top(2) + right(2) + bottom(2) + left(2)
seqread.skip(12)
} else if (packetType === TAV_PACKET_TIMECODE) {
seqread.skip(8)
} else {
console.log(`got unknown packet type 0x${packetType.toString(16)}`)
let size = seqread.readInt()
seqread.skip(size)
}
packetType = seqread.readOneByte()
}
if (packetType === TAV_PACKET_IFRAME) {
// Read and decode I-frame
const compressedSize = seqread.readInt()
const compressedPtr = seqread.readBytes(compressedSize)
// Decode using TAV hardware decoder
graphics.tavDecodeCompressed(
compressedPtr, compressedSize,
RGB_BUFFER, PREV_RGB_BUFFER,
header.width, header.height,
header.qualityLevel,
QLUT[header.qualityY], QLUT[header.qualityCo], QLUT[header.qualityCg],
header.channelLayout, 0, header.waveletFilter, header.decompLevels,
isLossless, header.version, header.entropyCoder, 2
)
sys.free(compressedPtr)
// Upload to framebuffer
graphics.uploadRGBToFramebuffer(RGB_BUFFER, header.width, header.height, 0, false)
}
// Free buffers
sys.free(RGB_BUFFER)
sys.free(PREV_RGB_BUFFER)
// Show "backspace to exit" message
con.clear()
con.curs_set(0)
con.move(1, 1)
println("Push and hold Backspace to exit")
// Wait loop for still image viewing (similar to decodeipf.js)
let wait = true
let t1 = sys.nanoTime()
let tapNotifHideTimer = 0
const TAP_NOTIF_SHOWUPTIME = 3000000000 // 3 seconds
while (wait) {
sys.poke(-40, 1)
if (sys.peek(-41) == 67) { // Backspace
wait = false
con.curs_set(1)
}
sys.sleep(50)
let t2 = sys.nanoTime()
tapNotifHideTimer += (t2 - t1)
if (tapNotifHideTimer > TAP_NOTIF_SHOWUPTIME) {
con.clear()
}
t1 = t2
}
// Clean up and exit (matching normal video playback cleanup)
con.clear()
con.curs_set(1)
// Reset font ROM
sys.poke(-1299460, 20)
sys.poke(-1299460, 21)
graphics.setPalette(0, 0, 0, 0, 0)
con.move(cy, cx) // restore cursor
return errorlevel
}
// Adjust decode height for interlaced content
// For interlaced: header.height is display height (448)
// Each field is half of display height (448/2 = 224)
@@ -998,10 +1150,10 @@ try {
else if (keyCode == 62) { // SPACE - pause/resume
paused = !paused
if (paused) {
audio.stop(0)
audio.stop(AUDIO_DEVICE)
serial.println(`Paused at frame ${frameCount}`)
} else {
audio.play(0)
audio.play(AUDIO_DEVICE)
serial.println(`Resumed`)
}
}
@@ -1022,10 +1174,10 @@ try {
baseTimecodeFrameCount = 0
currentTimecodeNs = 0
nextSubtitleEventIndex = 0 // Reset subtitle event processing
audio.purgeQueue(0)
audio.purgeQueue(AUDIO_DEVICE)
if (paused) {
audio.play(0)
audio.stop(0)
audio.play(AUDIO_DEVICE)
audio.stop(AUDIO_DEVICE)
}
skipped = true
}
@@ -1047,10 +1199,10 @@ try {
baseTimecodeFrameCount = 0
currentTimecodeNs = 0
nextSubtitleEventIndex = 0 // Reset subtitle event processing
audio.purgeQueue(0)
audio.purgeQueue(AUDIO_DEVICE)
if (paused) {
audio.play(0)
audio.stop(0)
audio.play(AUDIO_DEVICE)
audio.stop(AUDIO_DEVICE)
}
skipped = true
}
@@ -1078,10 +1230,10 @@ try {
break
}
}
audio.purgeQueue(0)
audio.purgeQueue(AUDIO_DEVICE)
if (paused) {
audio.play(0)
audio.stop(0)
audio.play(AUDIO_DEVICE)
audio.stop(AUDIO_DEVICE)
}
skipped = true
}
@@ -1117,10 +1269,10 @@ try {
break
}
}
audio.purgeQueue(0)
audio.purgeQueue(AUDIO_DEVICE)
if (paused) {
audio.play(0)
audio.stop(0)
audio.play(AUDIO_DEVICE)
audio.stop(AUDIO_DEVICE)
}
skipped = true
} else if (!seekTarget) {
@@ -1159,7 +1311,7 @@ try {
baseTimecodeFrameCount = 0
currentTimecodeNs = 0
nextSubtitleEventIndex = 0 // Reset subtitle event processing
audio.purgeQueue(0)
audio.purgeQueue(AUDIO_DEVICE)
currentFileIndex++
if (skipped) {
skipped = false
@@ -1170,7 +1322,7 @@ try {
console.log(`\nStarting file ${currentFileIndex}:`)
console.log(`Resolution: ${header.width}x${header.height}`)
console.log(`FPS: ${header.fps}`)
console.log(`FPS: ${header.fps === 255 ? "(see XFPS)" : header.fps}`)
console.log(`Total frames: ${header.totalFrames}`)
console.log(`Wavelet filter: ${header.waveletFilter === WAVELET_5_3_REVERSIBLE ? "5/3 reversible" : header.waveletFilter === WAVELET_9_7_IRREVERSIBLE ? "9/7 irreversible" : header.waveletFilter === WAVELET_BIORTHOGONAL_13_7 ? "Biorthogonal 13/7" : header.waveletFilter === WAVELET_DD4 ? "DD-4" : header.waveletFilter === WAVELET_HAAR ? "Haar" : "unknown"}`)
console.log(`Quality: Y=${header.qualityY}, Co=${header.qualityCo}, Cg=${header.qualityCg}`)
@@ -1583,7 +1735,7 @@ try {
seqread.readBytes(audioLen, SND_BASE_ADDR - 2368)
audio.mp2Decode()
audio.mp2UploadDecoded(0)
audio.mp2UploadDecoded(AUDIO_DEVICE)
}
else if (packetType === TAV_PACKET_AUDIO_TAD) {
@@ -1594,9 +1746,11 @@ try {
tadInitialised = true
}
seqread.readBytes(payloadLen, SND_MEM_ADDR - 262144)
// tadInputBin lives at audio-local offset 917504 (post-bef85f6 memory map);
// the previous 262144 offset now points into the enlarged sampleBin.
seqread.readBytes(payloadLen, SND_MEM_ADDR - 917504)
audio.tadDecode()
audio.tadUploadDecoded(0, sampleLen)
audio.tadUploadDecoded(AUDIO_DEVICE, sampleLen)
}
else if (packetType === TAV_PACKET_AUDIO_NATIVE) {
// PCM length must not exceed 65536 bytes!
@@ -1608,10 +1762,10 @@ try {
let pcmLen = gzip.decompFromTo(zstdPtr, zstdLen, pcmPtr) // <- segfaults!
if (pcmLen > 65536) throw Error(`PCM data too long -- got ${pcmLen} bytes`)
audio.putPcmDataByPtr(pcmPtr, pcmLen, 0)
audio.putPcmDataByPtr(AUDIO_DEVICE, pcmPtr, pcmLen, 0)
audio.setSampleUploadLength(0, pcmLen)
audio.startSampleUpload(0)
audio.setSampleUploadLength(AUDIO_DEVICE, pcmLen)
audio.startSampleUpload(AUDIO_DEVICE)
sys.free(zstdPtr)
sys.free(pcmPtr)
@@ -1704,7 +1858,19 @@ try {
}
sys.free(dataBytes)
if (interactive) {
// Parse XFPS if present (always try, not just when fps=255)
if (key === "XFPS") {
if (parseXFPS(dataStr)) {
// Update frame timing with new fps
frametime = 1000000000.0 / header.fps
FRAME_TIME = 1.0 / header.fps
if (interactive) {
serial.println(` ${key}: ${dataStr} -> ${header.fps.toFixed(3)} fps`)
}
} else if (interactive) {
serial.println(` ${key}: "${dataStr}" (parse failed)`)
}
} else if (interactive) {
serial.println(` ${key}: "${dataStr}"`)
}
} else {
@@ -1883,7 +2049,7 @@ try {
// Fire audio on first frame
if (!audioFired) {
audio.play(0)
audio.play(AUDIO_DEVICE)
audioFired = true
}
@@ -1971,7 +2137,7 @@ try {
// Fire audio on first frame
if (!audioFired) {
audio.play(0)
audio.play(AUDIO_DEVICE)
audioFired = true
}
@@ -2007,8 +2173,8 @@ try {
sys.memcpy(predecodedPcmBuffer + predecodedPcmOffset, SND_BASE_ADDR, uploadSize)
// Set upload parameters and trigger upload to queue
audio.setSampleUploadLength(0, uploadSize)
audio.startSampleUpload(0)
audio.setSampleUploadLength(AUDIO_DEVICE, uploadSize)
audio.startSampleUpload(AUDIO_DEVICE)
predecodedPcmOffset += uploadSize
}
@@ -2292,10 +2458,10 @@ finally {
sys.poke(-1299460, 20)
sys.poke(-1299460, 21)
audio.stop(0)
audio.purgeQueue(0)
audio.stop(AUDIO_DEVICE)
audio.purgeQueue(AUDIO_DEVICE)
}
graphics.setPalette(0, 0, 0, 0, 0)
graphics.resetPalette()
con.move(cy, cx) // restore cursor
return errorlevel

2
assets/disk0/tvdos/bin/playwav.js
View File

@@ -289,7 +289,7 @@ while (!stopPlay && seqread.getReadCount() < FILE_SIZE - 8) {
let decodedSampleLength = decodeInfilePcm(readPtr, decodePtr, readLength)
printdbg(` decodedSampleLength: ${decodedSampleLength}`)
audio.putPcmDataByPtr(decodePtr, decodedSampleLength, 0)
audio.putPcmDataByPtr(0, decodePtr, decodedSampleLength, 0)
audio.setSampleUploadLength(0, decodedSampleLength)
audio.startSampleUpload(0)

2889
assets/disk0/tvdos/bin/taut.js Normal file
View File

File diff suppressed because it is too large Load Diff

77
assets/disk0/tvdos/bin/taut_fileop.js Normal file
View File

@@ -0,0 +1,77 @@
/**
* TAUT File Operations
* Sub-program launched by taut.js when the File tab is active.
* Rows 1-3 are owned by the parent; this program draws rows 4+.
*
* exec_args[1] = path to .taud file
* Sets _G.TAUT.UI.NEXTPANEL before returning to request a panel switch.
*
* Created by minjaesong on 2026-04-27
*/
const win = require("wintex")
const PANEL_COUNT = 7
const MY_PANEL = 6 // VIEW_FILE
const [SCRH, SCRW] = con.getmaxyx()
const PANEL_Y = 4
const PANEL_H = SCRH - PANEL_Y
const colStatus = 253
const colContent = 240
const colHdr = 230
function drawFileOpContents(wo) {
for (let y = PANEL_Y; y < SCRH; y++) {
con.move(y, 1)
con.color_pair(colContent, 255)
print(' '.repeat(SCRW))
}
con.move(PANEL_Y + 1, 3)
con.color_pair(colHdr, 255)
print('[ File ]')
con.move(PANEL_Y + 3, 3)
con.color_pair(colStatus, 255)
print('placeholder — not yet implemented')
}
function drawHints() {
con.move(SCRH, 1)
con.color_pair(colStatus, 255)
print(' '.repeat(SCRW - 1))
con.move(SCRH, 1)
con.color_pair(colHdr, 255); print('Tab ')
con.color_pair(colStatus, 255); print('Panel')
}
function fileOpInput(wo, event) {
// placeholder — no interaction yet
}
const panel = new win.WindowObject(1, PANEL_Y, SCRW, PANEL_H, fileOpInput, drawFileOpContents, undefined, ()=>{})
panel.drawContents()
drawHints()
let done = false
while (!done) {
input.withEvent(event => {
if (event[0] !== 'key_down') return
const keysym = event[1]
const keyJustHit = (1 == event[2])
const shiftDown = (event.includes(59) || event.includes(60))
if (!keyJustHit) return
if (keysym === '<TAB>') {
_G.TAUT.UI.NEXTPANEL = (MY_PANEL + (shiftDown ? -1 : 1) + PANEL_COUNT) % PANEL_COUNT
done = true
return
}
panel.processInput(event)
})
}
return 0

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if (!_G.TAUT) _G.TAUT = {};
let help = {}
////////////////////////////////////////////////////////////////////////////////////////////////////
/*
Tags:
<b> - print the text in emphasis colour (colVoiceHdr aka 230)
<c> - centre the line. If the line spans multiple lines, centre each line
<r> - align right
<l> - align left
<o> - create virtual typesetting box. Left anchor: where the text cursor is. Right anchor: end of the line
&microtone; - replace with the brand string (<col 211>Micro</col><col 239>tone</col>)
&bul; - replace with bullet (\u00F9)
&ddot; - replace with double-dot (\u008419u)
&mdot; - replace with BIGDOT (\u00FA)
&updn; - up-down arrow (\u008418u)
&udlr; - four direction arrow (\u008428u\u008429u)
&keyoffsym; - pattern view key-off symbol (\u00A0\u00B1\u00B1\u00A1)
&notecutsym; - pattern view note-cut symbol (\u00A4\u00A4\u00A4\u00A4)
&demisharp;
&sharp;
&sesquisharp;
&doublesharp;
&triplesharp;
&quadsharp;
&demiflat;
&flat;
&sesquiflat;
&doubleflat;
&tripleflat;
&quadflat;
&accuptick;
&accdntick;
&accupup;
&accdndn;
&nbsp; - nonbreakable space (only meaningful for typesetters)
&shy; - soft hyphen (only meaningful for typesetters)
default alignment: fully justified
*/
let helpNotation = `<c>CONTROL NOTATION</c>
<c>\u00B7${'\u00B8'.repeat(16)}\u00B9</c>
&microtone; <O>shortcuts differentiate normal and shifted shortcuts.</O>
&bul;<b>a</b>&ddot;<b>z</b> : <O>alphabet without shift-in</O>
&bul;<b>A</b>&ddot;<b>Z</b> : <O>alphabet with shift-in</O>
&bul;<b>^q</b> : <O>hit 'q' with control key</O>
&bul;<b>^Q</b> : <O>hit 'q' with control and shift key</O>
`
////////////////////////////////////////////////////////////////////////////////////////////////////
let helpJam = `<c>NOTE JAMMING</c>
<c>\u00B7${'\u00B8'.repeat(12)}\u00B9</c>
Push keys to play or insert notes.
&nbsp;w&nbsp;e&nbsp;&nbsp;&nbsp;t&nbsp;y&nbsp;u
a&nbsp;s&nbsp;d&nbsp;f&nbsp;g&nbsp;h&nbsp;j&nbsp;k
`
////////////////////////////////////////////////////////////////////////////////////////////////////
let helpCommon = `<c>COMMON CONTROLS</c>
<c>\u00B7${'\u00B8'.repeat(15)}\u00B9</c>
&bul;<b>!</b> : <O>show this help message</O>
&bul;<b>Y</b> : <O>play the entire song from the current cue</O>
&bul;<b>U</b> : <O>play the current cue then stop</O>
&bul;<b>I</b> : <O>play the current row</O>
&bul;<b>O</b> : <O>stop the playback</O>
&bul;<b>tab</b> : <O>switch forward a tab</O>
&bul;<b>TAB</b> : <O>switch backward a tab</O>
&bul;<b>q</b> : <O>close &microtone;</O>
`
////////////////////////////////////////////////////////////////////////////////////////////////////
let helpTimeline = `<c>TIMELINE VIEW</c>
<c>\u00B7${'\u00B8'.repeat(13)}\u00B9</c>
Timeline has two distinct modes: view and edit mode. Two modes are toggled using the space bar.
<b>&nbsp;VIEW MODE</b>
<b>\u00B7${'\u00B8'.repeat(9)}\u00B9</b>
&bul;Note jamming : <O>plays the note</O>
&bul;<b>&udlr;</b> : <O>move the viewing cursor by voices and rows</O>
&bul;<b>pg&updn;</b> : <O>go to previous/next cue</O>
&bul;<b>W</b>&mdot;<b>E</b>&mdot;<b>R</b> : <O>toggle timeline view mode. W-most detailed, R-most abridged</O>
&bul;<b>n</b> : <O>toggle soloing of the selected voice</O>
&bul;<b>m</b> : <O>toggle muting of the selected voice</O>
<b>&nbsp;EDIT MODE</b>
<b>\u00B7${'\u00B8'.repeat(9)}\u00B9</b>
&bul;Note jamming : <O>(note column) inserts the note</O>
&bul;<b>{</b>&mdot;<b>}</b> : <O>(note column) lower/raise a note by one octave (or period)</O>
&bul;<b>[</b>&mdot;<b>]</b> : <O>(note column) lower/raise a note by one unit</O>
&bul;<b>z</b> : <O>(note column) insert a key-off &keyoffsym;</O>
&bul;<b>x</b> : <O>(note column) insert a note-cut &notecutsym;</O>
&bul;<b>.</b> : <O>clear fields</O>
&bul;<b>bksp</b> : <O>delete one character on the selected column</O>
&bul;<b>0</b>&ddot;<b>9</b> <b>a</b>&ddot;<b>f</b> : <O>inserts a (hexa)decimal number</O>
&bul;<b>0</b>&ddot;<b>9</b> <b>a</b>&ddot;<b>z</b> : <O>(fx column) inserts an effect</O>
&bul;<b>^</b>&mdot;<b>v</b> : <O>(volume column) slide up/down</O>
&bul;<b>&lt;</b>&mdot;<b>&gt;</b>: <O>(panning column) slide left/right</O>
&bul;<b>-</b>&mdot;<b>=</b> : <O>(vol/pan col) fine slide down/up</O>
&bul;<b>&udlr;</b> : <O>move the viewing cursor by columns and rows</O>
&bul;<b>pg&updn;</b> : <O>go to previous/next cue</O>
<b>&nbsp;ACCIDENTALS</b>
<b>\u00B7${'\u00B8'.repeat(11)}\u00B9</b>
&demisharp;&nbsp;&sharp;&nbsp;&doublesharp;&nbsp;&triplesharp;&nbsp;&quadsharp;&nbsp;&demiflat;&nbsp;&flat;&nbsp;&doubleflat;&nbsp;&tripleflat;&nbsp;&nbsp;&accuptick;&nbsp;&nbsp;&accupup;&nbsp;&nbsp;&accdntick;&nbsp;&nbsp;&accdndn;
<b>C&nbsp;&nbsp;c&nbsp;&nbsp;cx&nbsp;x&nbsp;&nbsp;xx&nbsp;B&nbsp;&nbsp;b&nbsp;&nbsp;bb&nbsp;bbb&nbsp;^&nbsp;&nbsp;^^&nbsp;v&nbsp;&nbsp;vv</b>
`
////////////////////////////////////////////////////////////////////////////////////////////////////
// assemble help text pieces to complete help message
const SCRW = con.getmaxyx()[1]
const HRULE = '\u00B4\u00B5'.repeat((_G.TAUT.HELPMSG_WIDTH) >>> 1) + '\n'
// Display-command palette. taut.js's popup uses (HELP_COL_TEXT on background) as the
// default colour pair, so embedded `\x1B[38;5;Nm` codes switch foreground only.
const HELP_COL_TEXT = 239 // popup body default (== colWHITE)
const HELP_COL_EMPH = 230 // <b>...</b> highlight (== colVoiceHdr)
const HELP_COL_BRAND = 211 // first half of "Microtone"
const HELP_COL_BRAND_DIM = 239 // second half of "Microtone"
const fgEsc = (n) => `\x1B[38;5;${n}m`
const ESC_DEFAULT = fgEsc(HELP_COL_TEXT)
const ESC_EMPH = fgEsc(HELP_COL_EMPH)
const MICROTONE = `${fgEsc(HELP_COL_BRAND)}Micro${fgEsc(HELP_COL_BRAND_DIM)}tone${ESC_DEFAULT}`
// Replace &xxx; entities with their final printable representations.
function expandEntities(s) {
return s
.replaceAll('&microtone;', MICROTONE)
.replaceAll('&bul;', '\u00F9')
.replaceAll('&ddot;', '\u008419u')
.replaceAll('&mdot;', '\u00FA')
.replaceAll('&updn;', '\u008418u')
.replaceAll('&udlr;', '\u008428u\u008429u')
.replaceAll('&keyoffsym;', '\u00A0\u00B1\u00B1\u00A1')
.replaceAll('&notecutsym;', '\u00A4\u00A4\u00A4\u00A4')
.replaceAll('&nbsp;', '\u007F')
.replaceAll('&shy;', '')
.replaceAll('&lt;', '<')
.replaceAll('&gt;', '>')
.replaceAll('&demisharp;', '\u0080\u0081')
.replaceAll('&sharp;', '\u0082\u0083')
.replaceAll('&sesquisharp;', '\u0084132u\u0085')
.replaceAll('&doublesharp;', '\u0086\u0087')
.replaceAll('&triplesharp;', '\u0088\u0089')
.replaceAll('&quadsharp;', '\u008A\u008B')
.replaceAll('&demiflat;', '\u008C\u008D')
.replaceAll('&flat;', '\u008E\u008F')
.replaceAll('&sesquiflat;', '\u0090\u0091')
.replaceAll('&doubleflat;', '\u0092\u0093')
.replaceAll('&tripleflat;', '\u0094\u0095')
.replaceAll('&quadflat;', '\u0096\u0097')
.replaceAll('&accuptick;', '\u009A')
.replaceAll('&accdntick;', '\u009B')
.replaceAll('&accupup;', '\u009C')
.replaceAll('&accdndn;', '\u009D')
}
// Tokenise a (post-entity-expansion) line. Returns an array of:
// {type:'word', text:String, w:int} - non-breakable run of visible chars (may carry ANSI escapes)
// {type:'sp'} - a single soft space (eligible for break/expansion)
// {type:'anchor', open:Boolean} - <o>/</o> markers (zero width)
//
// Width accounting:
// - ANSI escapes (`\x1B[...m`) : 0 visible chars
// - TSVM unicode escapes (`„..u`) : 1 visible char
// - non-breaking space ( ) : 1 visible char (consumed as part of a word)
// - soft hyphen (­) : dropped (not implemented as a break point)
// - everything else : 1 visible char
function tokenise(line) {
const tokens = []
let buf = ''
let bufW = 0
let i = 0
const flushWord = () => {
if (buf.length > 0) {
tokens.push({type: 'word', text: buf, w: bufW})
buf = ''
bufW = 0
}
}
while (i < line.length) {
// inline tags (case-sensitive for <b>, case-insensitive for <o>)
if (line.slice(i, i + 3) === '<b>') { buf += ESC_EMPH; i += 3; continue }
if (line.slice(i, i + 4) === '</b>') { buf += ESC_DEFAULT; i += 4; continue }
const head3 = line.slice(i, i + 3).toLowerCase()
const head4 = line.slice(i, i + 4).toLowerCase()
if (head3 === '<o>') { flushWord(); tokens.push({type: 'anchor', open: true}); i += 3; continue }
if (head4 === '</o>') { flushWord(); tokens.push({type: 'anchor', open: false}); i += 4; continue }
const c = line[i]
const cc = line.charCodeAt(i)
if (cc === 0x1B) {
// pre-existing ANSI escape - copy verbatim, zero visible width
const m = line.indexOf('m', i)
const end = (m < 0) ? line.length : m + 1
buf += line.slice(i, end)
i = end
}
else if (cc === 0x84) {
// TSVM „<digits>u escape - copy verbatim, one visible char
const u = line.indexOf('u', i)
const end = (u < 0) ? line.length : u + 1
buf += line.slice(i, end)
bufW += 1
i = end
}
else if (c === ' ') {
flushWord()
tokens.push({type: 'sp'})
i += 1
}
else if (cc === 0x00AD) {
// soft hyphen: drop (no break-point handling for now)
i += 1
}
else {
buf += c
bufW += 1
i += 1
}
}
flushWord()
return tokens
}
// Build wrapped lines from a token stream then format each one according to alignment.
// Returns an array of strings, each exactly `width` visible chars wide (padded with
// trailing spaces) so the caller can blit them without further math.
function wrapAndAlign(tokens, width, alignment) {
const lines = [] // each: {tokens, indent, contentW}
let curTokens = []
let curW = 0
let curIndent = 0
let nextIndent = 0 // indent the *next* flushed line should use
const flushLine = () => {
// strip trailing soft spaces
while (curTokens.length > 0 && curTokens[curTokens.length - 1].type === 'sp') {
curTokens.pop()
curW -= 1
}
lines.push({tokens: curTokens, indent: curIndent, contentW: curW})
curTokens = []
curW = 0
curIndent = nextIndent
}
for (const tok of tokens) {
if (tok.type === 'anchor') {
// anchor opens at the current visible column (accounting for indent)
if (tok.open) nextIndent = curIndent + curW
else nextIndent = 0
continue
}
if (tok.type === 'sp') {
// ignore leading soft spaces on a fresh line
if (curW === 0) continue
// hard wrap if the line is already at the right edge
if (curIndent + curW + 1 > width) { flushLine(); continue }
curTokens.push(tok)
curW += 1
continue
}
// word
const tw = tok.w
if (curIndent + curW + tw > width) {
flushLine()
// word too wide for the wrapped line: emit it on its own row (possibly clipped by terminal)
if (curIndent + tw > width) {
curTokens.push(tok)
curW += tw
flushLine()
continue
}
}
curTokens.push(tok)
curW += tw
}
if (curTokens.length > 0 || lines.length === 0) flushLine()
return lines.map((line, i) => formatLine(line, width, alignment, i === lines.length - 1))
}
function formatLine(line, totalWidth, alignment, isLast) {
if (line.tokens.length === 0) return ' '.repeat(totalWidth)
const indent = ' '.repeat(line.indent)
const remaining = totalWidth - line.indent - line.contentW
const pad = (n) => (n > 0) ? ' '.repeat(n) : ''
const flatText = () => line.tokens.map(t => (t.type === 'sp') ? ' ' : t.text).join('')
if (alignment === 'c') {
const left = remaining >> 1
return indent + pad(left) + flatText() + pad(remaining - left)
}
if (alignment === 'r') return indent + pad(remaining) + flatText()
if (alignment === 'l') return indent + flatText() + pad(remaining)
// justified: only expand spaces when there's slack and we're not on the
// last (or single) wrapped line
if (isLast || remaining <= 0) return indent + flatText() + pad(remaining)
const spaceCount = line.tokens.reduce((n, t) => n + (t.type === 'sp' ? 1 : 0), 0)
if (spaceCount === 0) return indent + flatText() + pad(remaining)
const baseExtra = (remaining / spaceCount) | 0
let leftover = remaining - baseExtra * spaceCount
let out = indent
for (const tok of line.tokens) {
if (tok.type === 'sp') {
const extra = baseExtra + (leftover > 0 ? 1 : 0)
if (leftover > 0) leftover -= 1
out += ' '.repeat(1 + extra)
} else {
out += tok.text
}
}
return out
}
// Process a single source line: peel a leading <c>/<r>/<l> alignment tag (if present),
// strip its matching close tag, then tokenise + wrap.
function typesetSourceLine(line, width) {
if (line.length === 0) return [' '.repeat(width)]
let alignment = 'j' // justified default
const startMatch = line.match(/^<([crl])>/i)
if (startMatch) {
alignment = startMatch[1].toLowerCase()
line = line.slice(startMatch[0].length)
const closeRe = new RegExp(`</${alignment}>$`, 'i')
line = line.replace(closeRe, '')
}
const tokens = tokenise(line)
return wrapAndAlign(tokens, width, alignment)
}
function typesetText(text, width) {
text = expandEntities(text)
const out = []
for (const srcLine of text.split('\n')) {
for (const outLine of typesetSourceLine(srcLine, width)) out.push(outLine)
}
return out
}
function typeset(text, customWidth) {
let typesetWidth = customWidth
if (typesetWidth === undefined) typesetWidth = _G.TAUT.HELPMSG_WIDTH
if (typesetWidth === undefined) {
const currentPosX = con.getyx()[1] // 1-indexed
typesetWidth = SCRW - currentPosX + 1
}
return typesetText(text, typesetWidth)
}
let helpMessages = [ // index: taut.js PANEL_NAMES
[helpJam, helpTimeline, helpCommon, helpNotation].join(HRULE),
[helpCommon, helpNotation].join(HRULE), // placeholder
[helpCommon, helpNotation].join(HRULE), // placeholder
[helpCommon, helpNotation].join(HRULE), // placeholder
[helpCommon, helpNotation].join(HRULE), // placeholder
[helpCommon, helpNotation].join(HRULE), // placeholder
[helpCommon, helpNotation].join(HRULE), // placeholder
]
help.MSG_BY_TABS = helpMessages.map(it => typeset(it))
help.typeset = typeset
help.COL_TEXT = HELP_COL_TEXT
help.COL_EMPH = HELP_COL_EMPH
if (!_G.TAUT.HELPMSG) _G.TAUT.HELPMSG=help;

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/**
* TAUT Instrument Editor
* Sub-program launched by taut.js when the Instrmnt tab is active.
* Rows 1-3 are owned by the parent; this program draws rows 4+.
*
* exec_args[1] = path to .taud file
* Sets _G.TAUT.UI.NEXTPANEL before returning to request a panel switch.
*
* Created by minjaesong on 2026-04-27
*/
const win = require("wintex")
const PANEL_COUNT = 7
const MY_PANEL = 4 // VIEW_INSTRMNT
const [SCRH, SCRW] = con.getmaxyx()
const PANEL_Y = 4
const PANEL_H = SCRH - PANEL_Y
const colStatus = 253
const colContent = 240
const colHdr = 230
function drawInstEditContents(wo) {
for (let y = PANEL_Y; y < SCRH; y++) {
con.move(y, 1)
con.color_pair(colContent, 255)
print(' '.repeat(SCRW))
}
con.move(PANEL_Y + 1, 3)
con.color_pair(colHdr, 255)
print('[ Instrument Editor ]')
con.move(PANEL_Y + 3, 3)
con.color_pair(colStatus, 255)
print('placeholder — not yet implemented')
}
function drawHints() {
con.move(SCRH, 1)
con.color_pair(colStatus, 255)
print(' '.repeat(SCRW - 1))
con.move(SCRH, 1)
con.color_pair(colHdr, 255); print('Tab ')
con.color_pair(colStatus, 255); print('Panel')
}
function instEditInput(wo, event) {
// placeholder — no interaction yet
}
const panel = new win.WindowObject(1, PANEL_Y, SCRW, PANEL_H, instEditInput, drawInstEditContents, undefined, ()=>{})
panel.drawContents()
drawHints()
let done = false
while (!done) {
input.withEvent(event => {
if (event[0] !== 'key_down') return
const keysym = event[1]
const keyJustHit = (1 == event[2])
const shiftDown = (event.includes(59) || event.includes(60))
if (!keyJustHit) return
if (keysym === '<TAB>') {
_G.TAUT.UI.NEXTPANEL = (MY_PANEL + (shiftDown ? -1 : 1) + PANEL_COUNT) % PANEL_COUNT
done = true
return
}
panel.processInput(event)
})
}
return 0

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/**
* TAUT Sample Editor
* Sub-program launched by taut.js when the Samples tab is active.
* Rows 1-3 are owned by the parent; this program draws rows 4+.
*
* exec_args[1] = path to .taud file
* Sets _G.TAUT.UI.NEXTPANEL before returning to request a panel switch.
*
* Created by minjaesong on 2026-04-27
*/
const win = require("wintex")
const PANEL_COUNT = 7
const MY_PANEL = 3 // VIEW_SAMPLES
const [SCRH, SCRW] = con.getmaxyx()
const PANEL_Y = 4
const PANEL_H = SCRH - PANEL_Y
const colStatus = 253
const colContent = 240
const colHdr = 230
function drawSampleEditContents(wo) {
for (let y = PANEL_Y; y < SCRH; y++) {
con.move(y, 1)
con.color_pair(colContent, 255)
print(' '.repeat(SCRW))
}
con.move(PANEL_Y + 1, 3)
con.color_pair(colHdr, 255)
print('[ Sample Editor ]')
con.move(PANEL_Y + 3, 3)
con.color_pair(colStatus, 255)
print('placeholder — not yet implemented')
}
function drawHints() {
con.move(SCRH, 1)
con.color_pair(colStatus, 255)
print(' '.repeat(SCRW - 1))
con.move(SCRH, 1)
con.color_pair(colHdr, 255); print('Tab ')
con.color_pair(colStatus, 255); print('Panel')
}
function sampleEditInput(wo, event) {
// placeholder — no interaction yet
}
const panel = new win.WindowObject(1, PANEL_Y, SCRW, PANEL_H, sampleEditInput, drawSampleEditContents, undefined, ()=>{})
panel.drawContents()
drawHints()
let done = false
while (!done) {
input.withEvent(event => {
if (event[0] !== 'key_down') return
const keysym = event[1]
const keyJustHit = (1 == event[2])
const shiftDown = (event.includes(59) || event.includes(60))
if (!keyJustHit) return
if (keysym === '<TAB>') {
_G.TAUT.UI.NEXTPANEL = (MY_PANEL + (shiftDown ? -1 : 1) + PANEL_COUNT) % PANEL_COUNT
done = true
return
}
panel.processInput(event)
})
}
return 0

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<EFBFBD><EFBFBD>洄洄洄洄洄泚<EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>_<EFBFBD>_

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assets/disk0/tvdos/bin/zfm.js
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@@ -1,4 +1,6 @@
const win = require("wintex")
const keys = require("keysym")
const COL_TEXT = 253
const COL_BACK = 255
const COL_BACK_SEL = 81
@@ -26,37 +28,45 @@ const COL_HL_EXT = {
"wav": 31,
"adpcm": 31,
"pcm": 32,
"mp3": 33,
// "mp3": 33,
"tad": 33,
"mp2": 34,
"mv1": 213,
"mv2": 213,
"mv3": 213,
"tav": 213,
"ipf": 190,
"ipf1": 190,
"ipf2": 190,
"im3": 190,
"tap": 190,
"txt": 223,
"md": 223,
"log": 223
"log": 223,
"taud":109,
}
const EXEC_FUNS = {
"wav": (f) => _G.shell.execute(`playwav "${f}" -i`),
"adpcm": (f) => _G.shell.execute(`playwav "${f}" -i`),
"mp3": (f) => _G.shell.execute(`playmp3 "${f}" -i`),
// "mp3": (f) => _G.shell.execute(`playmp3 "${f}" -i`),
"mp2": (f) => _G.shell.execute(`playmp2 "${f}" -i`),
"mv1": (f) => _G.shell.execute(`playmv1 "${f}" -i`),
"mv2": (f) => _G.shell.execute(`playtev "${f}" -i`),
"mv3": (f) => _G.shell.execute(`playtav "${f}" -i`),
"tav": (f) => _G.shell.execute(`playtav "${f}" -i`),
"im3": (f) => _G.shell.execute(`playtav "${f}" -i`),
"tap": (f) => _G.shell.execute(`playtav "${f}" -i`),
"tad": (f) => _G.shell.execute(`playtad "${f}" -i`),
"pcm": (f) => _G.shell.execute(`playpcm "${f}" -i`),
"ipf": (f) => _G.shell.execute(`decodeipf "${f}" -i`),
"ipf1": (f) => _G.shell.execute(`decodeipf "${f}" -i`),
"ipf2": (f) => _G.shell.execute(`decodeipf "${f}" -i`),
"bas": (f) => _G.shell.execute(`basic "${f}"`),
"txt": (f) => _G.shell.execute(`less "${f}"`),
"md": (f) => _G.shell.execute(`less "${f}"`),
"log": (f) => _G.shell.execute(`less "${f}"`)
"log": (f) => _G.shell.execute(`less "${f}"`),
"taud": (f) => _G.shell.execute(`taut "${f}"`),
}
let windowMode = 0 // 0 == left, 1 == right
@@ -412,6 +422,8 @@ let filenavOninput = (window, event) => {
let keycodes = [event[3],event[4],event[5],event[6],event[7],event[8],event[9],event[10]]
let keycode = keycodes[0]
let scrollPeek = (LIST_HEIGHT / 3)|0
if (keyJustHit && keysym == "q") {
exit = true
}
@@ -420,19 +432,19 @@ let filenavOninput = (window, event) => {
redraw() // this would double-redraw (hence no panel switching) or something if redraw() is not merely a request to do so
}
else if (keysym == "<UP>") {
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(-1, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], 1)
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(-1, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], scrollPeek)
drawFilePanel()
}
else if (keysym == "<DOWN>") {
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(+1, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], 1)
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(+1, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], scrollPeek)
drawFilePanel()
}
else if (keysym == "<PAGE_UP>") {
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(-LIST_HEIGHT, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], 1)
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(-LIST_HEIGHT, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], scrollPeek)
drawFilePanel()
}
else if (keysym == "<PAGE_DOWN>") {
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(+LIST_HEIGHT, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], 1)
[cursor[windowMode], scroll[windowMode]] = win.scrollVert(+LIST_HEIGHT, dirFileList[windowMode].length, LIST_HEIGHT, cursor[windowMode], scroll[windowMode], scrollPeek)
drawFilePanel()
}
else if (keyJustHit && keycode == 66) { // enter
@@ -665,7 +677,7 @@ while (!exit) {
let keysym = event[1]
let keyJustHit = (1 == event[2])
if (keyJustHit && event[3] != 66) { // release the latch right away if the key is not Return
if (keyJustHit && event[3] != keys.ENTER) { // release the latch right away if the key is not Return
firstRunLatch = false
}

31
assets/disk0/tvdos/include/font.mjs Normal file
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@@ -0,0 +1,31 @@
function setHighRom(fullPath) {
const fontFile = files.open(fullPath)
// upload font
const fontData = fontFile.bread()
for (let i = 0; i < 1920; i++) sys.poke(-133121 - i, fontData[i])
sys.poke(-1299460, 19) // write to high rom
fontFile.close()
}
function setLowRom(fullPath) {
const fontFile = files.open(fullPath)
// upload font
const fontData = fontFile.bread()
for (let i = 0; i < 1920; i++) sys.poke(-133121 - i, fontData[i])
sys.poke(-1299460, 18) // write to low rom
fontFile.close()
}
function resetHighRom() {
sys.poke(-1299460, 21)
}
function resetLowRom() {
sys.poke(-1299460, 20)
}
exports = { setHighRom, setLowRom, resetHighRom, resetLowRom }

305
assets/disk0/tvdos/include/getopt.mjs Normal file
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@@ -0,0 +1,305 @@
/*
* getopt.js: node.js implementation of POSIX getopt() (and then some)
*
* Copyright 2011 David Pacheco. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
var ASSERT = require('assert').ok;
function goError(msg)
{
return (new Error('getopt: ' + msg));
}
/*
* The BasicParser is our primary interface to the outside world. The
* documentation for this object and its public methods is contained in
* the included README.md.
*/
function goBasicParser(optstring, argv, optind)
{
var ii;
ASSERT(optstring || optstring === '', 'optstring is required');
ASSERT(optstring.constructor === String, 'optstring must be a string');
ASSERT(argv, 'argv is required');
ASSERT(argv.constructor === Array, 'argv must be an array');
this.gop_argv = new Array(argv.length);
this.gop_options = {};
this.gop_aliases = {};
this.gop_optind = optind !== undefined ? optind : 2;
this.gop_subind = 0;
for (ii = 0; ii < argv.length; ii++) {
ASSERT(argv[ii].constructor === String,
'argv must be string array');
this.gop_argv[ii] = argv[ii];
}
this.parseOptstr(optstring);
}
exports.BasicParser = goBasicParser;
/*
* Parse the option string and update the following fields:
*
* gop_silent Whether to log errors to stderr. Silent mode is
* indicated by a leading ':' in the option string.
*
* gop_options Maps valid single-letter-options to booleans indicating
* whether each option is required.
*
* gop_aliases Maps valid long options to the corresponding
* single-letter short option.
*/
goBasicParser.prototype.parseOptstr = function (optstr)
{
var chr, cp, alias, arg, ii;
ii = 0;
if (optstr.length > 0 && optstr[0] == ':') {
this.gop_silent = true;
ii++;
} else {
this.gop_silent = false;
}
while (ii < optstr.length) {
chr = optstr[ii];
arg = false;
if (!/^[\w\d\u1000-\u1100]$/.test(chr))
throw (goError('invalid optstring: only alphanumeric ' +
'characters and unicode characters between ' +
'\\u1000-\\u1100 may be used as options: ' + chr));
if (ii + 1 < optstr.length && optstr[ii + 1] == ':') {
arg = true;
ii++;
}
this.gop_options[chr] = arg;
while (ii + 1 < optstr.length && optstr[ii + 1] == '(') {
ii++;
cp = optstr.indexOf(')', ii + 1);
if (cp == -1)
throw (goError('invalid optstring: missing ' +
'")" to match "(" at char ' + ii));
alias = optstr.substring(ii + 1, cp);
this.gop_aliases[alias] = chr;
ii = cp;
}
ii++;
}
};
goBasicParser.prototype.optind = function ()
{
return (this.gop_optind);
};
/*
* For documentation on what getopt() does, see README.md. The following
* implementation invariants are maintained by getopt() and its helper methods:
*
* this.gop_optind Refers to the element of gop_argv that contains
* the next argument to be processed. This may
* exceed gop_argv, in which case the end of input
* has been reached.
*
* this.gop_subind Refers to the character inside
* this.gop_options[this.gop_optind] which begins
* the next option to be processed. This may never
* exceed the length of gop_argv[gop_optind], so
* when incrementing this value we must always
* check if we should instead increment optind and
* reset subind to 0.
*
* That is, when any of these functions is entered, the above indices' values
* are as described above. getopt() itself and getoptArgument() may both be
* called at the end of the input, so they check whether optind exceeds
* argv.length. getoptShort() and getoptLong() are called only when the indices
* already point to a valid short or long option, respectively.
*
* getopt() processes the next option as follows:
*
* o If gop_optind > gop_argv.length, then we already parsed all arguments.
*
* o If gop_subind == 0, then we're looking at the start of an argument:
*
* o Check for special cases like '-', '--', and non-option arguments.
* If present, update the indices and return the appropriate value.
*
* o Check for a long-form option (beginning with '--'). If present,
* delegate to getoptLong() and return the result.
*
* o Otherwise, advance subind past the argument's leading '-' and
* continue as though gop_subind != 0 (since that's now the case).
*
* o Delegate to getoptShort() and return the result.
*/
goBasicParser.prototype.getopt = function ()
{
if (this.gop_optind >= this.gop_argv.length)
/* end of input */
return (undefined);
var arg = this.gop_argv[this.gop_optind];
if (this.gop_subind === 0) {
if (arg == '-' || arg === '' || arg[0] != '-')
return (undefined);
if (arg == '--') {
this.gop_optind++;
this.gop_subind = 0;
return (undefined);
}
if (arg[1] == '-')
return (this.getoptLong());
this.gop_subind++;
ASSERT(this.gop_subind < arg.length);
}
return (this.getoptShort());
};
/*
* Implements getopt() for the case where optind/subind point to a short option.
*/
goBasicParser.prototype.getoptShort = function ()
{
var arg, chr;
ASSERT(this.gop_optind < this.gop_argv.length);
arg = this.gop_argv[this.gop_optind];
ASSERT(this.gop_subind < arg.length);
chr = arg[this.gop_subind];
if (++this.gop_subind >= arg.length) {
this.gop_optind++;
this.gop_subind = 0;
}
if (!(chr in this.gop_options))
return (this.errInvalidOption(chr));
if (!this.gop_options[chr])
return ({ option: chr });
return (this.getoptArgument(chr));
};
/*
* Implements getopt() for the case where optind/subind point to a long option.
*/
goBasicParser.prototype.getoptLong = function ()
{
var arg, alias, chr, eq;
ASSERT(this.gop_subind === 0);
ASSERT(this.gop_optind < this.gop_argv.length);
arg = this.gop_argv[this.gop_optind];
ASSERT(arg.length > 2 && arg[0] == '-' && arg[1] == '-');
eq = arg.indexOf('=');
alias = arg.substring(2, eq == -1 ? arg.length : eq);
if (!(alias in this.gop_aliases))
return (this.errInvalidOption(alias));
chr = this.gop_aliases[alias];
ASSERT(chr in this.gop_options);
if (!this.gop_options[chr]) {
if (eq != -1)
return (this.errExtraArg(alias));
this.gop_optind++; /* eat this argument */
return ({ option: chr });
}
/*
* Advance optind/subind for the argument value and retrieve it.
*/
if (eq == -1)
this.gop_optind++;
else
this.gop_subind = eq + 1;
return (this.getoptArgument(chr));
};
/*
* For the given option letter 'chr' that takes an argument, assumes that
* optind/subind point to the argument (or denote the end of input) and return
* the appropriate getopt() return value for this option and argument (or return
* the appropriate error).
*/
goBasicParser.prototype.getoptArgument = function (chr)
{
var arg;
if (this.gop_optind >= this.gop_argv.length)
return (this.errMissingArg(chr));
arg = this.gop_argv[this.gop_optind].substring(this.gop_subind);
this.gop_optind++;
this.gop_subind = 0;
return ({ option: chr, optarg: arg });
};
goBasicParser.prototype.errMissingArg = function (chr)
{
if (this.gop_silent)
return ({ option: ':', optopt: chr });
process.stderr.write('option requires an argument -- ' + chr + '\n');
return ({ option: '?', optopt: chr, error: true });
};
goBasicParser.prototype.errInvalidOption = function (chr)
{
if (!this.gop_silent)
process.stderr.write('illegal option -- ' + chr + '\n');
return ({ option: '?', optopt: chr, error: true });
};
/*
* This error is not specified by POSIX, but neither is the notion of specifying
* long option arguments using "=" in the same argv-argument, but it's common
* practice and pretty convenient.
*/
goBasicParser.prototype.errExtraArg = function (chr)
{
if (!this.gop_silent)
process.stderr.write('option expects no argument -- ' +
chr + '\n');
return ({ option: '?', optopt: chr, error: true });
};

10
assets/disk0/tvdos/include/gl.mjs
View File

@@ -1,7 +1,7 @@
/*
TVDOS Graphics Library
Has no affiliation with OpenGL by Khronos Group
/**
* LibGL — TVDOS Graphics Library
* Has no affiliation with OpenGL by Khronos Group
* @author CuriousTorvald
*/
@@ -45,7 +45,7 @@ exports.SpriteSheet = function(tilew, tileh, tex) {
return ty;
};
};
exports.drawTexPattern = function(texture, x, y, width, height, framebuffer, fgcol, bgcol) {
exports.drawTexPattern = function(texture, x, y, width = texture.width, height = texture.height, framebuffer = false, fgcol, bgcol) {
if (!(texture instanceof exports.Texture) && !(texture instanceof exports.MonoTex)) throw Error("Texture is not a GL Texture types");
let paint = (!framebuffer) ? graphics.plotPixel : graphics.plotPixel2

80
assets/disk0/tvdos/include/keysym.mjs Normal file
View File

@@ -0,0 +1,80 @@
/**
* These are key symbols returned by `input.withEvent`, NOT `con.getch()`
*/
exports = {
NUM_0:7,
NUM_1:8,
NUM_2:9,
NUM_3:10,
NUM_4:11,
NUM_5:12,
NUM_6:13,
NUM_7:14,
NUM_8:15,
NUM_9:16,
A:29,
ALT_LEFT:57,
ALT_RIGHT:58,
APOSTROPHE:75,
AT:77,
B:30,
BACK:4,
BACKSLASH:73,
C:31,
CAPS_LOCK:115,
COMMA:55,
D:32,
DEL:67,
BACKSPACE:67,
FORWARD_DEL:112,
DOWN:20,
LEFT:21,
RIGHT:22,
UP:19,
E:33,
ENTER:66,
EQUALS:70,
F:34,
G:35,
GRAVE:68,
H:36,
HOME:3,
I:37,
J:38,
K:39,
L:40,
LEFT_BRACKET:71,
M:41,
MINUS:69,
N:42,
O:43,
P:44,
PERIOD:56,
PLUS:81,
Q:45,
R:46,
RIGHT_BRACKET:72,
S:47,
SEMICOLON:74,
SHIFT_LEFT:59,
SHIFT_RIGHT:60,
SLASH:76,
SPACE:62,
SYM:63, // on MacOS, this is Command (⌘)
T:48,
TAB:61,
U:49,
V:50,
W:51,
X:52,
Y:53,
Z:54,
CONTROL_LEFT:129,
CONTROL_RIGHT:130,
ESCAPE:111,
END:123,
INSERT:124,
PAGE_UP:92,
PAGE_DOWN:93,
}

7
assets/disk0/tvdos/include/pcm.mjs
View File

@@ -1,3 +1,8 @@
/**
* LibPCM — PCM decoder for TSVM
* @author CuriousTorvald
*/
const HW_SAMPLING_RATE = 32000
function printdbg(s) { if (0) serial.println(s) }
function printvis(s) { if (0) println(s) }
@@ -29,7 +34,7 @@ function s16Tou8(i) {
}
function u16Tos16(i) { return (i > 32767) ? i - 65536 : i }
function randomRound(k) {
let rnd = (Math.random() + Math.random()) / 2.0 // this produces triangular distribution
let rnd = Math.random() // note to self: no triangular here
return (rnd < (k - (k|0))) ? Math.ceil(k) : Math.floor(k)
}
function lerp(start, end, x) {

414
assets/disk0/tvdos/include/psg.mjs Normal file
View File

@@ -0,0 +1,414 @@
/**
* LibPSG — PSG emulator and mixer for TSVM
* Software-mixes various PSG channels and sends them to sound device as PCM
* @author CuriousTorvald
*/
const HW_SAMPLING_RATE = 32000
function clamp(val, low, hi) { return (val < low) ? low : (val > hi) ? hi : val }
function clampS16(i) { return clamp(i, -32768, 32767) }
const uNybToSnyb = [0,1,2,3,4,5,6,7,-8,-7,-6,-5,-4,-3,-2,-1]
// returns: [unsigned high, unsigned low, signed high, signed low]
function getNybbles(b) { return [b >> 4, b & 15, uNybToSnyb[b >> 4], uNybToSnyb[b & 15]] }
function s8Tou8(i) { return i + 128 }
function s16Tou8(i) {
// return s8Tou8((i >> 8) & 255)
// apply dithering
let ufval = (i / 65536.0) + 0.5
let ival = randomRound(ufval * 255.0)
return ival|0
}
function u16Tos16(i) { return (i > 32767) ? i - 65536 : i }
function randomRound(k) {
let rnd = Math.random() // note to self: no triangular here
return (rnd < (k - (k|0))) ? Math.ceil(k) : Math.floor(k)
}
function lerp(start, end, x) {
return (1 - x) * start + x * end
}
function lerpAndRound(start, end, x) {
return Math.round(lerp(start, end, x))
}
// output format: immediately uploadable into TSVM audio adapter
// ── Internal helpers ────────────────────────────────────────────────────────
function secToSamples(sec) { return Math.round(HW_SAMPLING_RATE * sec) }
function isNative(buf) { return buf.native }
function readU8(buf, ch, i) {
return isNative(buf) ? (sys.peek(buf[ch] + i) & 255) : buf[ch][i]
}
function writeU8(buf, ch, i, v) {
if (isNative(buf)) sys.poke(buf[ch] + i, v)
else buf[ch][i] = v
}
// ── Buffer management ───────────────────────────────────────────────────────
function makeBuffer(length) {
// returns [Uint8Array, Uint8Array] (stereo) that will be used to collect samples made by LibPSG.
// Length: seconds. Number of elements: round(HW_SAMPLING_RATE * length)
const n = secToSamples(length)
const L = new Uint8Array(n)
const R = new Uint8Array(n)
L.fill(128)
R.fill(128)
return { 0: L, 1: R, samples: n, native: false }
}
function makeBufferNative(length) {
// returns native buffer object (stereo) that will be used to collect samples made by LibPSG.
// Length: seconds. Number of elements: round(HW_SAMPLING_RATE * length)
// Free with freeBufferNative() when done.
const n = secToSamples(length)
const L = sys.malloc(n); sys.memset(L, 128, n)
const R = sys.malloc(n); sys.memset(R, 128, n)
return { 0: L, 1: R, samples: n, native: true }
}
function freeBufferNative(buf) {
sys.free(buf[0])
sys.free(buf[1])
}
function clearBuffer(buf, offsetSec, lengthSec) {
// Re-silence a buffer region (fill with 128) for re-use across frames.
const start = (offsetSec != null) ? secToSamples(offsetSec) : 0
const total = (lengthSec != null) ? secToSamples(lengthSec) : (buf.samples - start)
if (!buf.native) {
buf[0].fill(128, start, start + total)
buf[1].fill(128, start, start + total)
} else {
sys.memset(buf[0] + start, 128, total)
sys.memset(buf[1] + start, 128, total)
}
}
// ── Shared mix core ─────────────────────────────────────────────────────────
// sampleFn(i) must return a float in [-1, 1].
// Mixing maths: decode u8 → s16, apply op, clamp, dither back to u8.
function mixInto(buf, lengthSec, offsetSec, op, amp, pan, sampleFn) {
const startIdx = secToSamples(offsetSec)
const n = secToSamples(lengthSec)
// Linear pan law: centre (pan=0) → both channels at full amp
const gainL = Math.max(0, Math.min(1, 1.0 - pan))
const gainR = Math.max(0, Math.min(1, 1.0 + pan))
const opCode = (op === 'sub') ? 1 : (op === 'mul') ? 2 : 0 // default: add
for (let i = 0; i < n; i++) {
const v = sampleFn(i) // oscillator value in [-1, 1]
const oscBase = v * amp * 32767
const oscL = Math.round(oscBase * gainL) | 0
const oscR = Math.round(oscBase * gainR) | 0
for (let ch = 0; ch < 2; ch++) {
const osc = (ch === 0) ? oscL : oscR
const cur = (readU8(buf, ch, startIdx + i) - 128) << 8
let out
switch (opCode) {
case 0: out = cur + osc; break
case 1: out = cur - osc; break
case 2: out = (cur * osc) >> 15; break
}
writeU8(buf, ch, startIdx + i, s16Tou8(clampS16(out)))
}
}
}
// ── Waveform generators ─────────────────────────────────────────────────────
function makeSquare(buf, length, offset, freq, duty, op, amp, pan, phaseOffset) {
// buffer: [Uint8Array, Uint8Array] or native buffer
// length: in seconds
// offset: in seconds
// duty: 0.0 to 1.0. default 0.5 (fraction of period where output is +1)
// freq: Hz
// op: add / mul / sub; default: add
// amp: 0.0 to 1.0; default: 0.5
// pan: -1.0 to 1.0; default: 0.0
// phaseOffset: optional absolute-time base (seconds) added to phase calc only,
// not to the buffer write position — use to ensure phase continuity
// across successive calls (e.g. frame boundaries).
if (duty == null) duty = 0.5
if (op == null) op = 'add'
if (amp == null) amp = 0.5
if (pan == null) pan = 0.0
const tBase = (phaseOffset || 0) + offset
mixInto(buf, length, offset, op, amp, pan, function(i) {
const phase = ((tBase + i / HW_SAMPLING_RATE) * freq) % 1
return (phase < duty) ? 1.0 : -1.0
})
}
function makeTriangle(buf, length, offset, freq, duty, op, amp, pan, phaseOffset) {
// buffer: [Uint8Array, Uint8Array] or native buffer
// length: in seconds
// offset: in seconds
// duty: skew. -1.0 = falling sawtooth, 0.0 = symmetric triangle, 1.0 = rising sawtooth
// freq: Hz
// op: add / mul / sub; default: add
// amp: 0.0 to 1.0; default: 0.5
// pan: -1.0 to 1.0; default: 0.0
// phaseOffset: optional absolute-time base (seconds) added to phase calc only —
// see makeSquare for details.
if (duty == null) duty = 0.0
if (op == null) op = 'add'
if (amp == null) amp = 0.5
if (pan == null) pan = 0.0
// riseFrac: fraction of period spent rising from -1 to +1
// 0.0 → falling saw, 0.5 → symmetric triangle, 1.0 → rising saw
const riseFrac = (duty + 1.0) * 0.5
const tBase = (phaseOffset || 0) + offset
mixInto(buf, length, offset, op, amp, pan, function(i) {
const phase = ((tBase + i / HW_SAMPLING_RATE) * freq) % 1
if (riseFrac <= 0) {
return 1.0 - 2.0 * phase // falling saw
} else if (riseFrac >= 1) {
return -1.0 + 2.0 * phase // rising saw
} else if (phase < riseFrac) {
return -1.0 + 2.0 * (phase / riseFrac) // rising slope
} else {
return 1.0 - 2.0 * ((phase - riseFrac) / (1.0 - riseFrac)) // falling slope
}
})
}
function makeAliasedTriangle(buf, length, offset, freq, duty, op, amp, pan, phaseOffset) {
// buffer: [Uint8Array, Uint8Array] or native buffer
// Famicom-style triangle — output is quantised to 16 DAC levels (4-bit, NES APU style).
// The staircase quantisation introduces harmonics that mimic NES character.
// length: in seconds
// offset: in seconds
// duty: skew. -1.0 = falling sawtooth, 0.0 = symmetric triangle, 1.0 = rising sawtooth
// freq: Hz
// op: add / mul / sub; default: add
// amp: 0.0 to 1.0; default: 0.5
// pan: -1.0 to 1.0; default: 0.0
// phaseOffset: optional absolute-time base (seconds) added to phase calc only —
// see makeSquare for details.
if (duty == null) duty = 0.0
if (op == null) op = 'add'
if (amp == null) amp = 0.5
if (pan == null) pan = 0.0
const riseFrac = (duty + 1.0) * 0.5
const tBase = (phaseOffset || 0) + offset
mixInto(buf, length, offset, op, amp, pan, function(i) {
const phase = ((tBase + i / HW_SAMPLING_RATE) * freq) % 1
let v
if (riseFrac <= 0) {
v = 1.0 - 2.0 * phase
} else if (riseFrac >= 1) {
v = -1.0 + 2.0 * phase
} else if (phase < riseFrac) {
v = -1.0 + 2.0 * (phase / riseFrac)
} else {
v = 1.0 - 2.0 * ((phase - riseFrac) / (1.0 - riseFrac))
}
// Quantise to 16 levels (NES triangle 4-bit DAC: 0..15 → -1..+1)
const level = Math.max(0, Math.min(15, Math.round((v + 1.0) * 7.5)))
return level / 7.5 - 1.0
})
}
// ── LFSR helpers (for noise types 1 and 2) ─────────────────────────────────
function lfsrStep(state, mode) {
// mode 0 (long/NES mode 0): feedback tap at bit 1; period 32767
// mode 1 (short/NES mode 1): feedback tap at bit 6; period 93 (metallic/tonal)
const bit0 = state & 1
const bitTap = (mode === 0) ? (state >> 1) & 1 : (state >> 6) & 1
const feed = bit0 ^ bitTap
return ((feed << 14) | (state >> 1)) & 0x7FFF
}
function lfsrAdvance(state, steps, mode) {
for (let k = 0; k < steps; k++) state = lfsrStep(state, mode)
return state
}
// NES APU documented LFSR periods
const LFSR_PERIOD_LONG = 32767 // mode 0
const LFSR_PERIOD_SHORT = 93 // mode 1
function makeNoise(buf, length, offset, freq, type, op, amp, pan, phaseOffset) {
// buffer: [Uint8Array, Uint8Array] or native buffer
// length: in seconds
// offset: in seconds
// type:
// -1: 8-bit white noise (random float per period, sample-and-hold)
// 0: 1-bit white noise (random ±1 per period, sample-and-hold)
// 1: 1-bit LFSR long mode — NES mode 0, tap=bit0^bit1, period 32767 (full-spectrum)
// 2: 1-bit LFSR short mode — NES mode 1, tap=bit0^bit6, period 93 (metallic/tonal)
// freq: Hz (clock rate of the noise generator)
// op: add / mul / sub; default: add
// amp: 0.0 to 1.0; default: 0.5
// pan: -1.0 to 1.0; default: 0.0
// phaseOffset: optional absolute-time base (seconds) added to phase/LFSR calc only —
// see makeSquare for details.
//
// LFSR types (1 and 2) are deterministic given (phaseOffset+offset, freq): calling
// with monotonically advancing phaseOffset+offset produces a seamless noise stream
// across frames. White noise types (-1, 0) are random per call.
if (op == null) op = 'add'
if (amp == null) amp = 0.5
if (pan == null) pan = 0.0
const tBase = (phaseOffset || 0) + offset
if (type === -1) {
// 8-bit white: new random float in [-1, 1] each clock period
let prevClock = -1
let noiseVal = 0.0
mixInto(buf, length, offset, op, amp, pan, function(i) {
const currentClock = Math.floor((tBase + i / HW_SAMPLING_RATE) * freq) | 0
if (currentClock !== prevClock) {
prevClock = currentClock
noiseVal = Math.random() * 2.0 - 1.0
}
return noiseVal
})
} else if (type === 0) {
// 1-bit white: random ±1 each clock period
let prevClock = -1
let noiseVal = 1.0
mixInto(buf, length, offset, op, amp, pan, function(i) {
const currentClock = Math.floor((tBase + i / HW_SAMPLING_RATE) * freq) | 0
if (currentClock !== prevClock) {
prevClock = currentClock
noiseVal = (Math.random() >= 0.5) ? 1.0 : -1.0
}
return noiseVal
})
} else {
// LFSR-based noise (types 1 and 2)
const mode = (type === 2) ? 1 : 0
const period = (mode === 0) ? LFSR_PERIOD_LONG : LFSR_PERIOD_SHORT
// Advance to deterministic position for this tBase so consecutive frame
// calls with monotonically advancing phaseOffset produce a seamless noise stream.
const startClock = Math.floor(tBase * freq) | 0
let lfsr = lfsrAdvance(1, startClock % period, mode)
let prevClock = startClock
mixInto(buf, length, offset, op, amp, pan, function(i) {
const currentClock = Math.floor((tBase + i / HW_SAMPLING_RATE) * freq) | 0
const delta = currentClock - prevClock
if (delta > 0) {
const steps = delta % period
if (steps > 0) lfsr = lfsrAdvance(lfsr, steps, mode)
prevClock = currentClock
}
return (lfsr & 1) ? 1.0 : -1.0
})
}
}
function makeAliasedTriangleNES(buf, length, offset, freq, duty, op, amp, pan, phaseOffset) {
// NES APU triangle — quantised to the authentic 32-step, 4-bit (0..15) staircase.
// The 32-step sequence is: 15,14,...,1,0, 0,1,...,14,15 (descending then ascending).
// This mirrors the real NES triangle DAC which has 32 equal-height steps per period.
// duty parameter is accepted for API symmetry but ignored (NES triangle is always symmetric).
// phaseOffset: optional absolute-time base (seconds) — see makeSquare for details.
if (op == null) op = 'add'
if (amp == null) amp = 0.5
if (pan == null) pan = 0.0
const tBase = (phaseOffset || 0) + offset
mixInto(buf, length, offset, op, amp, pan, function(i) {
const phase = ((tBase + i / HW_SAMPLING_RATE) * freq) % 1
const step32 = Math.floor(phase * 32) | 0 // 0..31
// step 0..15: descend from 15 to 0; step 16..31: ascend from 0 to 15
const level = (step32 < 16) ? (15 - step32) : (step32 - 16)
return level / 7.5 - 1.0 // map 0..15 → -1..+1
})
}
// ── Send to audio hardware ──────────────────────────────────────────────────
function sendBuffer(buf, playhead, offsetSec, lengthSec, stagingPtr) {
// Interleaves the L and R channels into a staging region (LRLRLR…) and uploads
// to the audio adapter pcmBin via the standard putPcmDataByPtr pipeline.
//
// offsetSec: start of region to send (default: 0)
// lengthSec: duration to send (default: entire buffer from offsetSec)
// stagingPtr: optional caller-owned native buffer (≥ min(chunk, 32768) * 2 bytes).
// Pass a pre-allocated pointer to avoid malloc/free per call —
// useful for the per-frame tvnes pattern.
//
// The function auto-chunks at 32768 stereo samples (pcmBin capacity).
// Blocks briefly if the audio queue is saturated (queue depth > 2).
const start = (offsetSec != null) ? secToSamples(offsetSec) : 0
const total = (lengthSec != null) ? secToSamples(lengthSec) : (buf.samples - start)
const MAX_CHUNK = 32768 // pcmBin = 65536 bytes; stereo → max 32768 samples per upload
const ownsStaging = (stagingPtr == null)
if (ownsStaging) stagingPtr = sys.malloc(Math.min(total, MAX_CHUNK) * 2)
let remaining = total
let cursor = start
while (remaining > 0) {
const take = Math.min(remaining, MAX_CHUNK)
// Interleave L, R into staging buffer
for (let i = 0; i < take; i++) {
sys.poke(stagingPtr + 2 * i, readU8(buf, 0, cursor + i))
sys.poke(stagingPtr + 2 * i + 1, readU8(buf, 1, cursor + i))
}
// Wait for room in the playback queue (mirrors playwav.js idiom)
// while (audio.getPosition(playhead) > 2) sys.sleep(2)
audio.putPcmDataByPtr(playhead, stagingPtr, take * 2, 0)
audio.setSampleUploadLength(playhead, take * 2)
audio.startSampleUpload(playhead)
remaining -= take
cursor += take
}
if (ownsStaging) sys.free(stagingPtr)
}
// Lazily-allocated JS-side interleave scratch; shared across sendBufferFast calls.
let _sendFastScratch = null
function sendBufferFast(buf, playhead, offsetSec, lengthSec, stagingPtr) {
// Like sendBuffer but interleaves L/R via a JS Uint8Array + one sys.pokeBytes per chunk,
// instead of ~2n sys.poke calls. Requires a non-native (JS-backed) buffer.
// Falls back to sendBuffer for native buffers.
if (isNative(buf)) { sendBuffer(buf, playhead, offsetSec, lengthSec, stagingPtr); return }
const start = (offsetSec != null) ? secToSamples(offsetSec) : 0
const total = (lengthSec != null) ? secToSamples(lengthSec) : (buf.samples - start)
const MAX_CHUNK = 32768
const ownsStaging = (stagingPtr == null)
if (ownsStaging) stagingPtr = sys.malloc(Math.min(total, MAX_CHUNK) * 2)
const scratchNeeded = Math.min(total, MAX_CHUNK) * 2
if (_sendFastScratch == null || _sendFastScratch.length < scratchNeeded) {
_sendFastScratch = new Uint8Array(scratchNeeded)
}
let remaining = total
let cursor = start
while (remaining > 0) {
const take = Math.min(remaining, MAX_CHUNK)
const L = buf[0], R = buf[1], sc = _sendFastScratch
for (let i = 0; i < take; i++) {
sc[2 * i] = L[cursor + i]
sc[2 * i + 1] = R[cursor + i]
}
sys.pokeBytes(stagingPtr, sc.subarray(0, take * 2), take * 2)
// while (audio.getPosition(playhead) > 2) sys.sleep(2)
audio.putPcmDataByPtr(playhead, stagingPtr, take * 2, 0)
audio.setSampleUploadLength(playhead, take * 2)
audio.startSampleUpload(playhead)
remaining -= take
cursor += take
}
if (ownsStaging) sys.free(stagingPtr)
}
exports = {
HW_SAMPLING_RATE,
makeBuffer, makeBufferNative, freeBufferNative, clearBuffer,
makeSquare, makeTriangle, makeAliasedTriangle, makeAliasedTriangleNES, makeNoise,
sendBuffer, sendBufferFast
}

5
assets/disk0/tvdos/include/seqread.mjs
View File

@@ -1,4 +1,7 @@
/**
* LibSeqread — sequentially read files from disk drive
* @author CuriousTorvald
*/
let readCount = 0
let port = undefined
let fileHeader = new Uint8Array(4096)

5
assets/disk0/tvdos/include/seqreadtape.mjs
View File

@@ -1,3 +1,8 @@
/**
* LibSeqread extension for Tape Drive — sequentially read tape
* @author CuriousTorvald
*/
// Sequential reader for HSDPA TAPE devices
// Unlike seqread.mjs which is limited to 4096 bytes per read due to serial communication,
// this module can read larger chunks efficiently from HSDPA devices.

321
assets/disk0/tvdos/include/taud.mjs Normal file
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@@ -0,0 +1,321 @@
/*
* LibTaud — Helper functions for interaction between Taud format and TSVM Tracker
* Requires TVDOS to function.
* @author CuriousTorvald
*/
// ── Format constants ────────────────────────────────────────────────────────
const TAUD_MAGIC = [0x1F,0x54,0x53,0x56,0x4D,0x61,0x75,0x64] // \x1F TSVMaud
const TAUD_VERSION = 1
const TAUD_HEADER_SIZE = 32 // magic(8) + version(1) + numSongs(1) + compSize(4) + projOff(4) + sig(14)
const TAUD_SONG_ENTRY = 32 // see encodeSongEntry / decodeSongEntry below
// Sample+instrument image: 8 MB sample pool (banked, 16 × 512 K) + 64 K instrument bin = 8256 kB total.
// (terranmon.txt:1985-1997, 2533-2564 — bank-switched via MMIO 46.)
const SAMPLE_BANK_SIZE = 524288 // 512 K — size of the sample-bin window
const SAMPLE_BANK_COUNT = 16 // 16 banks × 512 K = 8 MB
const SAMPLEBIN_SIZE = SAMPLE_BANK_SIZE * SAMPLE_BANK_COUNT // 8 MB
const INSTBIN_SIZE = 65536 // 256 inst × 256 bytes
const SAMPLEINST_SIZE = SAMPLEBIN_SIZE + INSTBIN_SIZE // 8454144 = 8256 kB
const SAMPLEBIN_WINDOW_OFFSET = 0 // peripheral memory window for the active sample bank
const INSTBIN_WINDOW_OFFSET = 720896 // peripheral memory offset of instrument bin
const PATTERN_SIZE = 512 // bytes per pattern (64 rows × 8 bytes)
const NUM_PATTERNS_MAX = 256
const NUM_CUES = 1024
const CUE_SIZE = 32 // bytes per cue entry (packed 12-bit×20 voices + instruction + pad)
// Signature written into the file (14 bytes, space-padded)
const CAPTURE_SIGNATURE = "LibTaud/TSVM "
// ── Internal helpers ────────────────────────────────────────────────────────
function _peekU32LE(ptr, off) {
return ((sys.peek(ptr+off) & 0xFF) ) |
((sys.peek(ptr+off+1) & 0xFF) << 8 ) |
((sys.peek(ptr+off+2) & 0xFF) << 16 ) |
((sys.peek(ptr+off+3) & 0xFF) * 0x1000000) // avoid sign-extend
}
function _pokeU32LE(ptr, off, v) {
sys.poke(ptr+off, (v ) & 0xFF)
sys.poke(ptr+off+1, (v >>> 8) & 0xFF)
sys.poke(ptr+off+2, (v >>> 16) & 0xFF)
sys.poke(ptr+off+3, (v >>> 24) & 0xFF)
}
// ── uploadTaudFile ──────────────────────────────────────────────────────────
/**
* Load one song from a Taud file into the tracker hardware and configure the
* given playhead ready to play.
*
* @param inFile Full path with drive letter, e.g. "A:/music/song.taud"
* @param songIndex 0-based index of the song in the SONG TABLE
* @param playhead Playhead number (0-3) to configure
*/
function uploadTaudFile(inFile, songIndex, playhead) {
const drive = inFile[0].toUpperCase()
const diskPath = inFile.substring(2)
const memBase = audio.getMemAddr()
// -- 1. Read whole file into VM memory ------------------------------------
const fileHandle = files.open(inFile)
if (!fileHandle.exists) {
throw Error("taud: file not exists")
}
const fileSize = fileHandle.size
const filePtr = sys.malloc(fileSize)
fileHandle.pread(filePtr, fileSize, 0)
let pos = 0
// -- 2. Verify magic ------------------------------------------------------
for (let i = 0; i < 8; i++) {
let magicc = sys.peek(filePtr + i)
if (magicc !== TAUD_MAGIC[i]) {
sys.free(filePtr)
throw Error("taud: bad magic byte " + magicc.toString(16) + " at index " + i)
}
}
pos = 8
// -- 3. Parse header ------------------------------------------------------
// version(1) + numSongs(1) + compressedSize(4) + rsvd(2) + signature(16) = 24 bytes
let version = sys.peek(filePtr + pos) & 0xFF; pos++
let numSongs = sys.peek(filePtr + pos) & 0xFF; pos++
let compressedSize = _peekU32LE(filePtr, pos); pos += 4
pos += 18 // skip reserved(2) + signature(16)
// pos == 32 == TAUD_HEADER_SIZE
if (songIndex < 0 || songIndex >= numSongs) {
sys.free(filePtr)
throw Error("taud: songIndex " + songIndex + " out of range (numSongs=" + numSongs + ")")
}
// -- 4. Decompress and upload sample+instrument bin -----------------------
// The decompressed image is 8256 kB (8 MB samples bank-major + 64 K instruments)
// which exceeds the 8 MB user-space cap, so we route through a hardware helper
// that decompresses straight into the adapter's native sample/instrument
// storage instead of staging a buffer in user memory.
audio.uploadSampleInstBlob(filePtr + pos, compressedSize)
audio.setSampleBank(0)
pos += compressedSize
// -- 5. Parse song-table entry for the requested song --------------------
let entryOff = pos + songIndex * TAUD_SONG_ENTRY
let songOffset = _peekU32LE(filePtr, entryOff)
let numVoices = sys.peek(filePtr + entryOff + 4) & 0xFF
let numPatsLo = sys.peek(filePtr + entryOff + 5) & 0xFF
let numPatsHi = sys.peek(filePtr + entryOff + 6) & 0xFF
let bpmStored = sys.peek(filePtr + entryOff + 7) & 0xFF
let tickRate = sys.peek(filePtr + entryOff + 8) & 0xFF
let mixerflags = sys.peek(filePtr + entryOff + 15) & 0xFF
let songGlobalVolume = sys.peek(filePtr + entryOff + 16) & 0xFF
let songMixingVolume = sys.peek(filePtr + entryOff + 17) & 0xFF
let patBinCompSize = _peekU32LE(filePtr, entryOff + 18)
let cueSheetCompSize = _peekU32LE(filePtr, entryOff + 22)
let bpm = bpmStored + 24
let patsToLoad = numPatsLo | (numPatsHi << 8)
// -- 6. Decompress + upload patterns --------------------------------------
let patBinSize = patsToLoad * PATTERN_SIZE
let patBinPtr = sys.malloc(patBinSize)
gzip.decompFromTo(filePtr + songOffset, patBinCompSize, patBinPtr)
let patBytes = new Array(PATTERN_SIZE)
for (let p = 0; p < patsToLoad; p++) {
for (let k = 0; k < PATTERN_SIZE; k++)
patBytes[k] = sys.peek(patBinPtr + p * PATTERN_SIZE + k) & 0xFF
audio.uploadPattern(p, patBytes)
}
sys.free(patBinPtr)
// -- 7. Decompress + upload cue sheet -------------------------------------
let cueSheetSize = NUM_CUES * CUE_SIZE
let cueSheetPtr = sys.malloc(cueSheetSize)
gzip.decompFromTo(filePtr + songOffset + patBinCompSize, cueSheetCompSize, cueSheetPtr)
let cueBytes = new Array(CUE_SIZE)
for (let c = 0; c < NUM_CUES; c++) {
for (let k = 0; k < CUE_SIZE; k++)
cueBytes[k] = sys.peek(cueSheetPtr + c * CUE_SIZE + k) & 0xFF
audio.uploadCue(c, cueBytes)
}
sys.free(cueSheetPtr)
// -- 8. Configure playhead ------------------------------------------------
audio.setTrackerMode(playhead)
audio.setBPM(playhead, bpm)
audio.setTickRate(playhead, tickRate > 0 ? tickRate : 6)
audio.setTrackerMixerFlags(playhead, mixerflags)
audio.setSongGlobalVolume(playhead, songGlobalVolume)
audio.setSongMixingVolume(playhead, songMixingVolume)
fileHandle.close()
sys.free(filePtr)
}
// ── captureTrackerDataToFile ────────────────────────────────────────────────
/**
* Dump the current tracker hardware state (sample bin, instruments, patterns
* in bank 0, cue sheet) to a single-song Taud file. BPM and tick-rate are
* taken from playhead 0.
*
* @param outFile Full path with drive letter, e.g. "A:/music/out.taud"
*/
function captureTrackerDataToFile(outFile) {
const drive = outFile[0].toUpperCase()
const diskPath = outFile.substring(2)
const memBase = audio.getMemAddr()
const baseAddr = audio.getBaseAddr()
// -- 1. Compress sample+instrument bin ------------------------------------
// The 8256 kB raw image (8 MB samples + 64 K instruments) cannot fit in the
// 8 MB user space, so we hand the entire compress step to a hardware helper
// that reads directly out of the adapter's native sample/instrument storage.
// Realistic sample data compresses well under both gzip and zstd; we cap the
// destination at "uncompressed size + 8 K" headroom which suffices for any
// sane musical content.
const COMP_BUF_CAP = 1024 * 1024 * 4 // 4 MiB cap for compressed sample+inst blob
let compBuf = sys.malloc(COMP_BUF_CAP)
let compressedSize = audio.captureSampleInstBlob(compBuf, COMP_BUF_CAP)
if (compressedSize > COMP_BUF_CAP) {
sys.free(compBuf)
throw Error("taud: compressed sample+inst blob exceeded " + COMP_BUF_CAP + " bytes (got " + compressedSize + ")")
}
// -- 2. Find last non-empty pattern in bank 0 (all-zero = uninitialized) --
let numPatsActual = 0
outer: for (let p = NUM_PATTERNS_MAX - 1; p >= 0; p--) {
let patBase = 131072 + p * PATTERN_SIZE // offset within peripheral memory space
for (let k = 0; k < PATTERN_SIZE; k++) {
if ((sys.peek(memBase - (patBase + k)) & 0xFF) !== 0) {
numPatsActual = p + 1
break outer
}
}
}
if (numPatsActual === 0) numPatsActual = 1 // always emit at least one pattern slot
let numPats = numPatsActual // Uint16, 1-65535
let patsToSave = numPatsActual
// -- 3. BPM / tick-rate / volumes from playhead 0 -------------------------
let bpm = audio.getBPM(0) || 125
let tickRate = audio.getTickRate(0) || 6
let bpmStored = (bpm - 24) & 0xFF
let songGlobalVolume = audio.getSongGlobalVolume(0)
let songMixingVolume = audio.getSongMixingVolume(0)
if (songGlobalVolume === undefined || songGlobalVolume === null) songGlobalVolume = 0x80
if (songMixingVolume === undefined || songMixingVolume === null) songMixingVolume = 0x80
// -- 4. Compress pattern bin ----------------------------------------------
let patBinSize = patsToSave * PATTERN_SIZE
let patBuf = sys.malloc(patBinSize)
sys.memcpy(memBase - 131072, patBuf, patBinSize)
let patCompBuf = sys.malloc(patBinSize + 4096)
let patCompSize = gzip.compFromTo(patBuf, patBinSize, patCompBuf)
sys.free(patBuf)
// -- 5. Compress cue sheet ------------------------------------------------
// Cue entry c, byte k is at MMIO address 32768 + c*32 + k,
// accessed as sys.peek(baseAddr (32768 + c*32 + k)).
let cueSheetSize = NUM_CUES * CUE_SIZE
let cueBuf = sys.malloc(cueSheetSize)
for (let c = 0; c < NUM_CUES; c++) {
let cueOff = 32768 + c * CUE_SIZE
for (let k = 0; k < CUE_SIZE; k++)
sys.poke(cueBuf + c * CUE_SIZE + k,
sys.peek(baseAddr - (cueOff + k)) & 0xFF)
}
let cueCompBuf = sys.malloc(cueSheetSize + 4096)
let cueCompSize = gzip.compFromTo(cueBuf, cueSheetSize, cueCompBuf)
sys.free(cueBuf)
// -- 6. Compute song offset (absolute from file start) --------------------
// Layout: header(32) + compressed(compressedSize) + songTable(1 × TAUD_SONG_ENTRY)
let songOffset = TAUD_HEADER_SIZE + compressedSize + 1 * TAUD_SONG_ENTRY
// -- 7. Build header byte array (32 bytes) --------------------------------
let sigBytes = new Array(14)
for (let i = 0; i < 14; i++)
sigBytes[i] = i < CAPTURE_SIGNATURE.length ? CAPTURE_SIGNATURE.charCodeAt(i) : 0
let header = [
// Magic (8)
0x1F, 0x54, 0x53, 0x56, 0x4D, 0x61, 0x75, 0x64,
// version, numSongs
TAUD_VERSION, 1,
// compressedSize uint32 LE (4) -- sample+inst bin
(compressedSize ) & 0xFF,
(compressedSize >>> 8) & 0xFF,
(compressedSize >>> 16) & 0xFF,
(compressedSize >>> 24) & 0xFF,
// project data offset (4) -- not emitted
0x00, 0x00, 0x00, 0x00,
].concat(sigBytes) // 8 + 2 + 4 + 4 + 14 = 32 bytes
// -- 8. Build song-table row (32 bytes) -----------------------------------
let songTable = [
(songOffset ) & 0xFF,
(songOffset >>> 8) & 0xFF,
(songOffset >>> 16) & 0xFF,
(songOffset >>> 24) & 0xFF,
20, // numVoices
numPats & 0xFF, (numPats >>> 8) & 0xFF, // numPatterns Uint16 LE
bpmStored, // BPM with 24 bias
tickRate, // initial tick-rate
0x00,0xA0, // basenote (0xA000 -- C9)
0x00,0xAC,0x02,0x46, // basefreq (8363 Hz)
sys.peek(baseAddr - 7), // mixer flags
songGlobalVolume & 0xFF, // global volume
songMixingVolume & 0xFF, // mixing volume
// pattern bin compressed size (4)
(patCompSize ) & 0xFF,
(patCompSize >>> 8) & 0xFF,
(patCompSize >>> 16) & 0xFF,
(patCompSize >>> 24) & 0xFF,
// cue sheet compressed size (4)
(cueCompSize ) & 0xFF,
(cueCompSize >>> 8) & 0xFF,
(cueCompSize >>> 16) & 0xFF,
(cueCompSize >>> 24) & 0xFF,
// reserved (6)
0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
]
// -- 9. Write header (creates / truncates file) ---------------------------
const fileHandle = files.open(outFile)
fileHandle.bwrite(header)
// -- 10. Append compressed sample+inst bin --------------------------------
fileHandle.pwrite(compBuf, compressedSize, TAUD_HEADER_SIZE)
sys.free(compBuf)
// -- 11. Write song table -------------------------------------------------
fileHandle.bwrite(songTable)
// -- 12. Append compressed pattern bin ------------------------------------
fileHandle.pwrite(patCompBuf, patCompSize,
TAUD_HEADER_SIZE + compressedSize + songTable.length)
sys.free(patCompBuf)
// -- 13. Append compressed cue sheet --------------------------------------
fileHandle.pwrite(cueCompBuf, cueCompSize,
TAUD_HEADER_SIZE + compressedSize + songTable.length + patCompSize)
sys.free(cueCompBuf)
fileHandle.flush(); fileHandle.close()
}
exports = { uploadTaudFile, captureTrackerDataToFile }

21
assets/disk0/tvdos/include/wintex.mjs
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@@ -1,3 +1,8 @@
/**
* WinTex — TUI window management and renderer
* @author CuriousTorvald
*/
class WindowObject {
constructor(x, y, w, h, inputProcessor, drawContents, title, drawFrame) {
@@ -91,8 +96,6 @@ class WindowObject {
* @return [new cursor pos, new scroll pos]
*/
function scrollVert(dy, listSize, listHeight, currentCursorPos, currentScrollPos, scrollPeek) {
let peek = 1
// clamp dy
if (currentCursorPos + dy > listSize - 1)
dy = (listSize - 1) - currentCursorPos
@@ -103,13 +106,13 @@ function scrollVert(dy, listSize, listHeight, currentCursorPos, currentScrollPos
// update vertical scroll stats
if (dy != 0) {
let visible = listHeight - 1 - peek
let visible = listHeight - 1 - scrollPeek
if (nextRow - currentScrollPos > visible) {
currentScrollPos = nextRow - visible
}
else if (nextRow - currentScrollPos < 0 + peek) {
currentScrollPos = nextRow - peek // nextRow is less than zero
else if (nextRow - currentScrollPos < 0 + scrollPeek) {
currentScrollPos = nextRow - scrollPeek // nextRow is less than zero
}
// NOTE: future-proofing here -- scroll clamping is moved outside of go-up/go-down
@@ -140,8 +143,6 @@ function scrollVert(dy, listSize, listHeight, currentCursorPos, currentScrollPos
* @return [new cursor pos, new scroll pos]
*/
function scrollHorz(dx, stringSize, stringViewSize, currentCursorPos, currentScrollPos, scrollPeek) {
let peek = 1
// clamp dx
if (currentCursorPos + dx > stringSize - 1)
dx = (stringSize - 1) - currentCursorPos
@@ -152,13 +153,13 @@ function scrollHorz(dx, stringSize, stringViewSize, currentCursorPos, currentScr
// update vertical scroll stats
if (dx != 0) {
let visible = stringViewSize - 1 - peek
let visible = stringViewSize - 1 - scrollPeek
if (nextCol - currentScrollPos > visible) {
currentScrollPos = nextCol - visible
}
else if (nextCol - currentScrollPos < 0 + peek) {
currentScrollPos = nextCol - peek // nextCol is less than zero
else if (nextCol - currentScrollPos < 0 + scrollPeek) {
currentScrollPos = nextCol - scrollPeek // nextCol is less than zero
}
// NOTE: future-proofing here -- scroll clamping is moved outside of go-up/go-down

6
assets/disk0/tvdos/tuidev/Makefile Normal file
View File

@@ -0,0 +1,6 @@
CC = gcc
CFLAGS = -std=c99 -O3 -Wall -Wextra -Ofast -D_GNU_SOURCE
font_rom_builder:
rm -f font_rom_builder
$(CC) $(CFLAGS) font_rom_builder.c -o font_rom_builder

202
assets/disk0/tvdos/tuidev/font_rom_builder.c Normal file
View File

@@ -0,0 +1,202 @@
/*
* font_rom_builder.c
* Build TSVM 7x14 font ROM from human-readable images (.png, .tga)
*
* Input: Image with no gaps between characters (7x14 pixels per glyph)
* Output: TSVM-compatible font ROM file(s) padded to 1920 bytes
*
* Usage:
* gcc -O2 -std=c99 -Wall font_rom_builder.c -o font_rom_builder
* ./font_rom_builder <input.png|tga> <output_prefix>
*
* For 128-char images: outputs <output_prefix>_high.chr
* For 256-char images: outputs <output_prefix>_low.chr and <output_prefix>_high.chr
*
* Image layout:
* - 128 chars: 16 columns × 8 rows = 112×112 pixels
* - 256 chars: 16 columns × 16 rows = 112×224 pixels
* or 32 columns × 8 rows = 224×112 pixels
*
* ROM format:
* - Each glyph: 14 bytes (one byte per row)
* - Bit 6 = leftmost pixel, Bit 0 = rightmost pixel
* - Each ROM padded to 1920 bytes
*/
#define _POSIX_C_SOURCE 200809L
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#define GLYPH_W 7
#define GLYPH_H 14
#define GLYPH_BYTES 14
#define ROM_PADDED_SIZE 1920
static void die(const char *msg) {
fprintf(stderr, "Error: %s\n", msg);
exit(1);
}
static void write_rom(const char *filename, const uint8_t *glyphs, int glyph_count) {
FILE *out = fopen(filename, "wb");
if (!out) {
fprintf(stderr, "Failed to open output file: %s\n", filename);
exit(1);
}
// Write glyph data
size_t data_size = glyph_count * GLYPH_BYTES;
fwrite(glyphs, 1, data_size, out);
// Pad to 1920 bytes
if (data_size < ROM_PADDED_SIZE) {
size_t padding = ROM_PADDED_SIZE - data_size;
uint8_t *pad = calloc(padding, 1);
fwrite(pad, 1, padding, out);
free(pad);
fprintf(stderr, " Wrote %zu bytes + %zu bytes padding = %d bytes total\n",
data_size, padding, ROM_PADDED_SIZE);
} else {
fprintf(stderr, " Wrote %zu bytes (no padding needed)\n", data_size);
}
fclose(out);
fprintf(stderr, " Output: %s\n", filename);
}
int main(int argc, char **argv) {
if (argc < 3) {
fprintf(stderr, "Usage: %s <input.png|tga> <output_prefix>\n", argv[0]);
fprintf(stderr, "\n");
fprintf(stderr, "Converts human-readable font images to TSVM font ROM format.\n");
fprintf(stderr, "\n");
fprintf(stderr, "Input requirements:\n");
fprintf(stderr, " - Image with no gaps between characters\n");
fprintf(stderr, " - Each character is 7x14 pixels\n");
fprintf(stderr, " - 128 chars: typically 112x112 (16 cols × 8 rows)\n");
fprintf(stderr, " - 256 chars: typically 112x224 (16 cols × 16 rows)\n");
fprintf(stderr, "\n");
fprintf(stderr, "Output:\n");
fprintf(stderr, " - 128 chars: <prefix>_high.chr (high ROM only)\n");
fprintf(stderr, " - 256 chars: <prefix>_low.chr + <prefix>_high.chr\n");
fprintf(stderr, " - Each ROM padded to 1920 bytes\n");
return 1;
}
const char *input_path = argv[1];
const char *output_prefix = argv[2];
// Get image dimensions using ImageMagick identify
char cmd[1024];
snprintf(cmd, sizeof(cmd), "identify -format '%%w %%h' \"%s\" 2>/dev/null", input_path);
FILE *pipe = popen(cmd, "r");
if (!pipe) die("Failed to run 'identify' command (ImageMagick required)");
int img_w = 0, img_h = 0;
if (fscanf(pipe, "%d %d", &img_w, &img_h) != 2) {
pclose(pipe);
die("Failed to read image dimensions (is ImageMagick installed?)");
}
pclose(pipe);
fprintf(stderr, "Input: %s (%dx%d)\n", input_path, img_w, img_h);
// Calculate grid dimensions
int cols = img_w / GLYPH_W;
int rows = img_h / GLYPH_H;
int total_chars = cols * rows;
if (img_w % GLYPH_W != 0 || img_h % GLYPH_H != 0) {
fprintf(stderr, "Warning: Image dimensions not evenly divisible by %dx%d\n",
GLYPH_W, GLYPH_H);
}
fprintf(stderr, "Grid: %d columns × %d rows = %d characters\n", cols, rows, total_chars);
// Validate character count
if (total_chars != 128 && total_chars != 256) {
fprintf(stderr, "Error: Expected 128 or 256 characters, got %d\n", total_chars);
fprintf(stderr, " For 128 chars: use 112x112 (16×8) or similar layout\n");
fprintf(stderr, " For 256 chars: use 112x224 (16×16) or 224x112 (32×8)\n");
return 1;
}
// Read image as grayscale using ImageMagick convert
// IMPORTANT: Flatten alpha onto black background first, so transparent pixels become black
size_t img_size = img_w * img_h;
uint8_t *img_data = malloc(img_size);
if (!img_data) die("Memory allocation failed");
snprintf(cmd, sizeof(cmd),
"convert \"%s\" -background black -alpha remove -colorspace Gray -depth 8 gray:- 2>/dev/null",
input_path);
pipe = popen(cmd, "r");
if (!pipe) die("Failed to run 'convert' command (ImageMagick required)");
if (fread(img_data, 1, img_size, pipe) != img_size) {
pclose(pipe);
die("Failed to read image data from ImageMagick");
}
pclose(pipe);
fprintf(stderr, "Read %zu bytes of grayscale data\n", img_size);
// Extract glyphs
uint8_t *glyphs = calloc(total_chars, GLYPH_BYTES);
if (!glyphs) die("Memory allocation failed");
for (int gy = 0; gy < rows; gy++) {
for (int gx = 0; gx < cols; gx++) {
int glyph_idx = gy * cols + gx;
uint8_t *glyph = &glyphs[glyph_idx * GLYPH_BYTES];
for (int row = 0; row < GLYPH_H; row++) {
uint8_t byte = 0;
for (int col = 0; col < GLYPH_W; col++) {
int px = gx * GLYPH_W + col;
int py = gy * GLYPH_H + row;
uint8_t pixel = img_data[py * img_w + px];
// Threshold: >= 128 is foreground (white/lit)
int is_set = (pixel >= 128) ? 1 : 0;
// Pack: bit 6 = leftmost, bit 0 = rightmost
if (is_set) {
byte |= (1u << (6 - col));
}
}
glyph[row] = byte;
}
}
}
free(img_data);
fprintf(stderr, "Extracted %d glyphs\n", total_chars);
// Write output ROM file(s)
char out_path[1024];
if (total_chars == 128) {
// High ROM only (chars 128-255)
snprintf(out_path, sizeof(out_path), "%s.chr", output_prefix);
fprintf(stderr, "\nWriting high ROM (128 chars):\n");
write_rom(out_path, glyphs, 128);
} else {
// 256 chars: low ROM (0-127) and high ROM (128-255)
snprintf(out_path, sizeof(out_path), "%s_low.chr", output_prefix);
fprintf(stderr, "\nWriting low ROM (chars 0-127):\n");
write_rom(out_path, glyphs, 128);
snprintf(out_path, sizeof(out_path), "%s_high.chr", output_prefix);
fprintf(stderr, "\nWriting high ROM (chars 128-255):\n");
write_rom(out_path, &glyphs[128 * GLYPH_BYTES], 128);
}
free(glyphs);
fprintf(stderr, "\nDone.\n");
return 0;
}

1
buildapp/build_app_linux_arm.sh
View File

@@ -22,6 +22,7 @@ cp -r "../out/$RUNTIME" $DESTDIR/
# Copy over all the assets and a jarfile
cp -r "../out/TerranBASIC.jar" $DESTDIR/
cp "../lib/compiler-23.1.10.jar" "../lib/compiler-management-23.1.10.jar" "../lib/truffle-compiler-23.1.10.jar" "../lib/truffle-api-23.1.10.jar" "../lib/truffle-runtime-23.1.10.jar" "../lib/polyglot-23.1.10.jar" "../lib/collections-23.1.10.jar" "../lib/word-23.1.10.jar" "../lib/nativeimage-23.1.10.jar" "../lib/jniutils-23.1.10.jar" $DESTDIR/
# Pack everything to AppImage
ARCH=arm_aarch64 "./$APPIMAGETOOL" $DESTDIR "out/$DESTDIR.AppImage" || { echo 'Building AppImage failed' >&2; exit 1; }

1
buildapp/build_app_linux_x86.sh
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@@ -22,6 +22,7 @@ cp -r "../out/$RUNTIME" $DESTDIR/
# Copy over all the assets and a jarfile
cp -r "../out/TerranBASIC.jar" $DESTDIR/
cp "../lib/compiler-23.1.10.jar" "../lib/compiler-management-23.1.10.jar" "../lib/truffle-compiler-23.1.10.jar" "../lib/truffle-api-23.1.10.jar" "../lib/truffle-runtime-23.1.10.jar" "../lib/polyglot-23.1.10.jar" "../lib/collections-23.1.10.jar" "../lib/word-23.1.10.jar" "../lib/nativeimage-23.1.10.jar" "../lib/jniutils-23.1.10.jar" $DESTDIR/
# Pack everything to AppImage
"./$APPIMAGETOOL" $DESTDIR "out/$DESTDIR.AppImage" || { echo 'Building AppImage failed' >&2; exit 1; }

1
buildapp/build_app_mac_arm.sh
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@@ -23,5 +23,6 @@ cp -r "../out/$RUNTIME" $DESTDIR/Contents/MacOS/
# Copy over all the assets and a jarfile
cp -r "../out/TerranBASIC.jar" $DESTDIR/Contents/MacOS/
cp "../lib/compiler-23.1.10.jar" "../lib/compiler-management-23.1.10.jar" "../lib/truffle-compiler-23.1.10.jar" "../lib/truffle-api-23.1.10.jar" "../lib/truffle-runtime-23.1.10.jar" "../lib/polyglot-23.1.10.jar" "../lib/collections-23.1.10.jar" "../lib/word-23.1.10.jar" "../lib/nativeimage-23.1.10.jar" "../lib/jniutils-23.1.10.jar" $DESTDIR/Contents/MacOS/
echo "Build successful: $DESTDIR"

1
buildapp/build_app_mac_x86.sh
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@@ -23,5 +23,6 @@ cp -r "../out/$RUNTIME" $DESTDIR/Contents/MacOS/
# Copy over all the assets and a jarfile
cp -r "../out/TerranBASIC.jar" $DESTDIR/Contents/MacOS/
cp "../lib/compiler-23.1.10.jar" "../lib/compiler-management-23.1.10.jar" "../lib/truffle-compiler-23.1.10.jar" "../lib/truffle-api-23.1.10.jar" "../lib/truffle-runtime-23.1.10.jar" "../lib/polyglot-23.1.10.jar" "../lib/collections-23.1.10.jar" "../lib/word-23.1.10.jar" "../lib/nativeimage-23.1.10.jar" "../lib/jniutils-23.1.10.jar" $DESTDIR/Contents/MacOS/
echo "Build successful: $DESTDIR"

1
buildapp/build_app_windows_x86.sh
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@@ -18,6 +18,7 @@ cp -r "../out/$RUNTIME" $DESTDIR/
# Copy over all the assets and a jarfile
cp -r "../out/TerranBASIC.jar" $DESTDIR/
cp "../lib/compiler-23.1.10.jar" "../lib/compiler-management-23.1.10.jar" "../lib/truffle-compiler-23.1.10.jar" "../lib/truffle-api-23.1.10.jar" "../lib/truffle-runtime-23.1.10.jar" "../lib/polyglot-23.1.10.jar" "../lib/collections-23.1.10.jar" "../lib/word-23.1.10.jar" "../lib/nativeimage-23.1.10.jar" "../lib/jniutils-23.1.10.jar" $DESTDIR/
# Temporary solution: zip everything
zip -r -9 -l "out/$DESTDIR.zip" $DESTDIR

3
buildapp/tbaslinux_arm/AppRun
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@@ -1,3 +1,4 @@
#!/bin/bash
cd "${0%/*}"
./runtime-linux-arm/bin/java -Xms128M -Xmx2G -Dswing.aatext=true -Dawt.useSystemAAFontSettings=lcd -jar ./TerranBASIC.jar
GRAAL_MODULE_PATH=compiler-23.1.10.jar:compiler-management-23.1.10.jar:truffle-compiler-23.1.10.jar:truffle-api-23.1.10.jar:truffle-runtime-23.1.10.jar:polyglot-23.1.10.jar:collections-23.1.10.jar:word-23.1.10.jar:nativeimage-23.1.10.jar:jniutils-23.1.10.jar
./runtime-linux-arm/bin/java --upgrade-module-path=$GRAAL_MODULE_PATH -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler -Xms128M -Xmx2G -Dswing.aatext=true -Dawt.useSystemAAFontSettings=lcd -jar ./TerranBASIC.jar

3
buildapp/tbaslinux_x86/AppRun
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@@ -1,3 +1,4 @@
#!/bin/bash
cd "${0%/*}"
./runtime-linux-x86/bin/java -Xms128M -Xmx2G -Dswing.aatext=true -Dawt.useSystemAAFontSettings=lcd -jar ./TerranBASIC.jar
GRAAL_MODULE_PATH=compiler-23.1.10.jar:compiler-management-23.1.10.jar:truffle-compiler-23.1.10.jar:truffle-api-23.1.10.jar:truffle-runtime-23.1.10.jar:polyglot-23.1.10.jar:collections-23.1.10.jar:word-23.1.10.jar:nativeimage-23.1.10.jar:jniutils-23.1.10.jar
./runtime-linux-x86/bin/java --upgrade-module-path=$GRAAL_MODULE_PATH -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler -Xms128M -Xmx2G -Dswing.aatext=true -Dawt.useSystemAAFontSettings=lcd -jar ./TerranBASIC.jar

3
buildapp/tbasmac_arm/TerranBASIC.sh
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@@ -1,3 +1,4 @@
#!/bin/bash
cd "${0%/*}"
./runtime-osx-arm/bin/java -XstartOnFirstThread -Xms128M -Xmx2G -jar ./TerranBASIC.jar
GRAAL_MODULE_PATH=compiler-23.1.10.jar:compiler-management-23.1.10.jar:truffle-compiler-23.1.10.jar:truffle-api-23.1.10.jar:truffle-runtime-23.1.10.jar:polyglot-23.1.10.jar:collections-23.1.10.jar:word-23.1.10.jar:nativeimage-23.1.10.jar:jniutils-23.1.10.jar
./runtime-osx-arm/bin/java --upgrade-module-path=$GRAAL_MODULE_PATH -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler -XstartOnFirstThread -Xms128M -Xmx2G -jar ./TerranBASIC.jar

3
buildapp/tbasmac_x86/TerranBASIC.sh
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@@ -1,3 +1,4 @@
#!/bin/bash
cd "${0%/*}"
./runtime-osx-x86/bin/java -XstartOnFirstThread -Xms128M -Xmx2G -jar ./TerranBASIC.jar
GRAAL_MODULE_PATH=compiler-23.1.10.jar:compiler-management-23.1.10.jar:truffle-compiler-23.1.10.jar:truffle-api-23.1.10.jar:truffle-runtime-23.1.10.jar:polyglot-23.1.10.jar:collections-23.1.10.jar:word-23.1.10.jar:nativeimage-23.1.10.jar:jniutils-23.1.10.jar
./runtime-osx-x86/bin/java --upgrade-module-path=$GRAAL_MODULE_PATH -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler -XstartOnFirstThread -Xms128M -Xmx2G -jar ./TerranBASIC.jar

3
buildapp/tbaswindows_x86/TerranBASIC.bat
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@@ -1,2 +1,3 @@
cd /D "%~dp0"
.\runtime-windows-x86\bin\java -Xms128M -Xmx2G -jar .\TerranBASIC.jar
set GRAAL_MODULE_PATH=compiler-23.1.10.jar;compiler-management-23.1.10.jar;truffle-compiler-23.1.10.jar;truffle-api-23.1.10.jar;truffle-runtime-23.1.10.jar;polyglot-23.1.10.jar;collections-23.1.10.jar;word-23.1.10.jar;nativeimage-23.1.10.jar;jniutils-23.1.10.jar
.\runtime-windows-x86\bin\java --upgrade-module-path=%GRAAL_MODULE_PATH% -XX:+UnlockExperimentalVMOptions -XX:+EnableJVMCI --add-exports=java.base/jdk.internal.misc=jdk.internal.vm.compiler -Xms128M -Xmx2G -jar .\TerranBASIC.jar

2
doc/implementation.tex
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@@ -662,7 +662,7 @@ TODO
\endlastfoot
\centering
\begin{tabulary}{\textwidth}{rl}
{\ttfamily 0} & {\ttfamily \#000F} \\
{\ttfamily 0} & {\ttfamily \#0007} \\
{\ttfamily 1} & {\ttfamily \#004F} \\
{\ttfamily 2} & {\ttfamily \#008F} \\
{\ttfamily 3} & {\ttfamily \#00BF} \\

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81
ipf_encoder/Makefile Normal file
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@@ -0,0 +1,81 @@
# Makefile for iPF (TSVM Interchangeable Picture Format) Encoder
# Created by CuriousTorvald and Claude on 2025-12-19.
CC = gcc
CFLAGS = -std=c99 -Wall -Wextra -O2 -D_GNU_SOURCE
DBGFLAGS =
PREFIX = /usr/local
# Zstd flags (use pkg-config if available, fallback for cross-platform compatibility)
ZSTD_CFLAGS = $(shell pkg-config --cflags libzstd 2>/dev/null || echo "")
ZSTD_LIBS = $(shell pkg-config --libs libzstd 2>/dev/null || echo "-lzstd")
LIBS = -lm $(ZSTD_LIBS)
# Targets
TARGETS = encoder_ipf decoder_ipf
# Build all (default)
all: $(TARGETS)
encoder_ipf: encoder_ipf.c
rm -f encoder_ipf
$(CC) $(CFLAGS) $(ZSTD_CFLAGS) -o encoder_ipf encoder_ipf.c $(LIBS)
@echo "iPF encoder built: encoder_ipf"
decoder_ipf: decoder_ipf.c
rm -f decoder_ipf
$(CC) $(CFLAGS) $(ZSTD_CFLAGS) -o decoder_ipf decoder_ipf.c $(LIBS)
@echo "iPF decoder built: decoder_ipf"
# Build with debug symbols
debug: CFLAGS += -g -DDEBUG -fsanitize=address -fno-omit-frame-pointer
debug: DBGFLAGS += -fsanitize=address -fno-omit-frame-pointer
debug: clean $(TARGETS)
# Build with optimizations
release: CFLAGS = -std=c99 -Wall -Wextra -O3 -D_GNU_SOURCE -march=native
release: clean $(TARGETS)
# Clean build artifacts
clean:
rm -f $(TARGETS) *.o
# Install
install: $(TARGETS)
cp encoder_ipf $(PREFIX)/bin/
cp decoder_ipf $(PREFIX)/bin/
# Check for required dependencies
check-deps:
@echo "Checking dependencies..."
@pkg-config --exists libzstd || (echo "Error: libzstd-dev not found. Install libzstd-dev or equivalent" && exit 1)
@which ffmpeg >/dev/null 2>&1 || (echo "Error: ffmpeg not found in PATH" && exit 1)
@which ffprobe >/dev/null 2>&1 || (echo "Error: ffprobe not found in PATH" && exit 1)
@echo "All dependencies found."
# Help
help:
@echo "iPF (TSVM Interchangeable Picture Format) Tools"
@echo ""
@echo "Targets:"
@echo " all - Build encoder and decoder (default)"
@echo " encoder_ipf - Build encoder only"
@echo " decoder_ipf - Build decoder only"
@echo " debug - Build with debug symbols and AddressSanitizer"
@echo " release - Build with full optimizations"
@echo " clean - Remove build artifacts"
@echo " install - Install to /usr/local/bin"
@echo " check-deps - Check for required dependencies"
@echo " help - Show this help"
@echo ""
@echo "Requirements:"
@echo " - GCC with C99 support"
@echo " - libzstd-dev (Zstd compression library)"
@echo " - FFmpeg (for image encoding/decoding)"
@echo ""
@echo "Usage:"
@echo " make # Build all"
@echo " ./encoder_ipf -i input.png -o output.ipf # Encode"
@echo " ./decoder_ipf -i output.ipf -o decoded.png # Decode"
.PHONY: all clean install check-deps help debug release

592
ipf_encoder/decoder_ipf.c Normal file
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@@ -0,0 +1,592 @@
/**
* iPF Decoder - TSVM Interchangeable Picture Format Decoder
*
* Decodes iPF format (Type 1 or Type 2) images to standard formats via FFmpeg.
*
* Created by CuriousTorvald and Claude on 2025-12-19.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <math.h>
#include <getopt.h>
#include <zstd.h>
// =============================================================================
// Constants
// =============================================================================
#define IPF_MAGIC "\x1F\x54\x53\x56\x4D\x69\x50\x46" // "\x1FTSVMiPF"
#define IPF_HEADER_SIZE 28 // 8 magic + 2 width + 2 height + 1 flags + 1 type + 10 reserved + 4 uncompressed
#define IPF_TYPE_1 0 // 4:2:0 chroma subsampling
#define IPF_TYPE_2 1 // 4:2:2 chroma subsampling
#define IPF_FLAG_ALPHA 0x01
#define IPF_FLAG_ZSTD 0x10
#define IPF_FLAG_PROGRESSIVE 0x80
#define MAX_PATH 4096
// =============================================================================
// Structures
// =============================================================================
typedef struct {
uint16_t width;
uint16_t height;
uint8_t flags;
uint8_t type;
uint32_t uncompressed_size;
} ipf_header_t;
typedef struct {
char *input_file;
char *output_file;
int verbose;
int raw_output; // Output raw RGB instead of using FFmpeg
} decoder_config_t;
// =============================================================================
// Utility Functions
// =============================================================================
static void print_usage(const char *program) {
printf("iPF Decoder - TSVM Interchangeable Picture Format\n");
printf("\nUsage: %s -i input.ipf -o output.png [options]\n\n", program);
printf("Required:\n");
printf(" -i, --input FILE Input iPF file\n");
printf(" -o, --output FILE Output image file (any format FFmpeg supports)\n");
printf("\nOptions:\n");
printf(" --raw Output raw RGB24/RGBA data instead of image file\n");
printf(" -v, --verbose Verbose output\n");
printf(" -h, --help Show this help\n");
printf("\nExamples:\n");
printf(" %s -i photo.ipf -o photo.png\n", program);
printf(" %s -i logo.ipf -o logo.jpg -v\n", program);
}
static float clampf(float v, float lo, float hi) {
return v < lo ? lo : (v > hi ? hi : v);
}
// =============================================================================
// iPF File Reading
// =============================================================================
static int read_ipf_header(FILE *fp, ipf_header_t *header) {
uint8_t magic[8];
if (fread(magic, 1, 8, fp) != 8) {
fprintf(stderr, "Error: Failed to read magic\n");
return -1;
}
if (memcmp(magic, IPF_MAGIC, 8) != 0) {
fprintf(stderr, "Error: Invalid iPF magic\n");
return -1;
}
// Read width (uint16 LE)
if (fread(&header->width, 2, 1, fp) != 1) return -1;
// Read height (uint16 LE)
if (fread(&header->height, 2, 1, fp) != 1) return -1;
// Read flags
if (fread(&header->flags, 1, 1, fp) != 1) return -1;
// Read type
if (fread(&header->type, 1, 1, fp) != 1) return -1;
// Skip reserved (10 bytes)
fseek(fp, 10, SEEK_CUR);
// Read uncompressed size (uint32 LE)
if (fread(&header->uncompressed_size, 4, 1, fp) != 1) return -1;
return 0;
}
// =============================================================================
// YCoCg to RGB Conversion
// =============================================================================
/**
* Convert YCoCg to RGB for 4 pixels sharing the same chroma.
* y_values: 4 Y values packed as nibbles (Y0|Y1 in low byte, Y2|Y3 in high byte style)
* a_values: 4 alpha values packed similarly
* co, cg: 4-bit chroma values [0..15]
*
* Output: fills rgb array with R,G,B[,A] values for 4 pixels
*/
static void ycocg_to_rgb_quad(int co, int cg, int y0, int y1, int y2, int y3,
int a0, int a1, int a2, int a3,
int has_alpha, uint8_t *rgb) {
// Convert chroma from [0..15] to [-1..1]
float co_f = (co - 7) / 8.0f;
float cg_f = (cg - 7) / 8.0f;
int ys[4] = {y0, y1, y2, y3};
int as[4] = {a0, a1, a2, a3};
int stride = has_alpha ? 4 : 3;
for (int i = 0; i < 4; i++) {
float y = ys[i] / 15.0f;
// YCoCg to RGB conversion
float tmp = y - cg_f / 2.0f;
float g = clampf(cg_f + tmp, 0.0f, 1.0f);
float b = clampf(tmp - co_f / 2.0f, 0.0f, 1.0f);
float r = clampf(b + co_f, 0.0f, 1.0f);
rgb[i * stride + 0] = (uint8_t)(r * 255.0f + 0.5f);
rgb[i * stride + 1] = (uint8_t)(g * 255.0f + 0.5f);
rgb[i * stride + 2] = (uint8_t)(b * 255.0f + 0.5f);
if (has_alpha) {
rgb[i * stride + 3] = (uint8_t)(as[i] * 17); // Scale 0-15 to 0-255
}
}
}
/**
* Decode iPF1 block (4:2:0 chroma subsampling).
* Input: 12 bytes (or 20 with alpha)
* Output: 16 pixels in RGB24/RGBA format
*/
static void decode_ipf1_block(const uint8_t *block, int has_alpha, uint8_t *pixels, int stride) {
// Read chroma (4 values for 2x2 regions)
int co1 = block[0] & 0x0F;
int co2 = (block[0] >> 4) & 0x0F;
int co3 = block[1] & 0x0F;
int co4 = (block[1] >> 4) & 0x0F;
int cg1 = block[2] & 0x0F;
int cg2 = (block[2] >> 4) & 0x0F;
int cg3 = block[3] & 0x0F;
int cg4 = (block[3] >> 4) & 0x0F;
// Read Y values (16 values)
// Layout: [Y1|Y0|Y5|Y4], [Y3|Y2|Y7|Y6], [Y9|Y8|YD|YC], [YB|YA|YF|YE]
int Y[16];
Y[0] = block[4] & 0x0F;
Y[1] = (block[4] >> 4) & 0x0F;
Y[4] = block[5] & 0x0F;
Y[5] = (block[5] >> 4) & 0x0F;
Y[2] = block[6] & 0x0F;
Y[3] = (block[6] >> 4) & 0x0F;
Y[6] = block[7] & 0x0F;
Y[7] = (block[7] >> 4) & 0x0F;
Y[8] = block[8] & 0x0F;
Y[9] = (block[8] >> 4) & 0x0F;
Y[12] = block[9] & 0x0F;
Y[13] = (block[9] >> 4) & 0x0F;
Y[10] = block[10] & 0x0F;
Y[11] = (block[10] >> 4) & 0x0F;
Y[14] = block[11] & 0x0F;
Y[15] = (block[11] >> 4) & 0x0F;
// Read alpha values if present
int A[16];
if (has_alpha) {
A[0] = block[12] & 0x0F;
A[1] = (block[12] >> 4) & 0x0F;
A[4] = block[13] & 0x0F;
A[5] = (block[13] >> 4) & 0x0F;
A[2] = block[14] & 0x0F;
A[3] = (block[14] >> 4) & 0x0F;
A[6] = block[15] & 0x0F;
A[7] = (block[15] >> 4) & 0x0F;
A[8] = block[16] & 0x0F;
A[9] = (block[16] >> 4) & 0x0F;
A[12] = block[17] & 0x0F;
A[13] = (block[17] >> 4) & 0x0F;
A[10] = block[18] & 0x0F;
A[11] = (block[18] >> 4) & 0x0F;
A[14] = block[19] & 0x0F;
A[15] = (block[19] >> 4) & 0x0F;
} else {
for (int i = 0; i < 16; i++) A[i] = 15;
}
int channels = has_alpha ? 4 : 3;
uint8_t quad[16]; // 4 pixels max
// Decode 4 quads (2x2 regions), each sharing one chroma pair
// Top-left quad (pixels 0,1,4,5) uses co1/cg1
ycocg_to_rgb_quad(co1, cg1, Y[0], Y[1], Y[4], Y[5], A[0], A[1], A[4], A[5], has_alpha, quad);
memcpy(pixels + 0 * stride + 0 * channels, quad + 0 * channels, channels);
memcpy(pixels + 0 * stride + 1 * channels, quad + 1 * channels, channels);
memcpy(pixels + 1 * stride + 0 * channels, quad + 2 * channels, channels);
memcpy(pixels + 1 * stride + 1 * channels, quad + 3 * channels, channels);
// Top-right quad (pixels 2,3,6,7) uses co2/cg2
ycocg_to_rgb_quad(co2, cg2, Y[2], Y[3], Y[6], Y[7], A[2], A[3], A[6], A[7], has_alpha, quad);
memcpy(pixels + 0 * stride + 2 * channels, quad + 0 * channels, channels);
memcpy(pixels + 0 * stride + 3 * channels, quad + 1 * channels, channels);
memcpy(pixels + 1 * stride + 2 * channels, quad + 2 * channels, channels);
memcpy(pixels + 1 * stride + 3 * channels, quad + 3 * channels, channels);
// Bottom-left quad (pixels 8,9,12,13) uses co3/cg3
ycocg_to_rgb_quad(co3, cg3, Y[8], Y[9], Y[12], Y[13], A[8], A[9], A[12], A[13], has_alpha, quad);
memcpy(pixels + 2 * stride + 0 * channels, quad + 0 * channels, channels);
memcpy(pixels + 2 * stride + 1 * channels, quad + 1 * channels, channels);
memcpy(pixels + 3 * stride + 0 * channels, quad + 2 * channels, channels);
memcpy(pixels + 3 * stride + 1 * channels, quad + 3 * channels, channels);
// Bottom-right quad (pixels 10,11,14,15) uses co4/cg4
ycocg_to_rgb_quad(co4, cg4, Y[10], Y[11], Y[14], Y[15], A[10], A[11], A[14], A[15], has_alpha, quad);
memcpy(pixels + 2 * stride + 2 * channels, quad + 0 * channels, channels);
memcpy(pixels + 2 * stride + 3 * channels, quad + 1 * channels, channels);
memcpy(pixels + 3 * stride + 2 * channels, quad + 2 * channels, channels);
memcpy(pixels + 3 * stride + 3 * channels, quad + 3 * channels, channels);
}
/**
* Decode iPF2 block (4:2:2 chroma subsampling).
* Input: 16 bytes (or 24 with alpha)
* Output: 16 pixels in RGB24/RGBA format
*/
static void decode_ipf2_block(const uint8_t *block, int has_alpha, uint8_t *pixels, int stride) {
// Read chroma (8 values for horizontal pairs)
int co[8], cg[8];
co[0] = block[0] & 0x0F;
co[1] = (block[0] >> 4) & 0x0F;
co[2] = block[1] & 0x0F;
co[3] = (block[1] >> 4) & 0x0F;
co[4] = block[2] & 0x0F;
co[5] = (block[2] >> 4) & 0x0F;
co[6] = block[3] & 0x0F;
co[7] = (block[3] >> 4) & 0x0F;
cg[0] = block[4] & 0x0F;
cg[1] = (block[4] >> 4) & 0x0F;
cg[2] = block[5] & 0x0F;
cg[3] = (block[5] >> 4) & 0x0F;
cg[4] = block[6] & 0x0F;
cg[5] = (block[6] >> 4) & 0x0F;
cg[6] = block[7] & 0x0F;
cg[7] = (block[7] >> 4) & 0x0F;
// Read Y values (16 values) - same layout as iPF1
int Y[16];
Y[0] = block[8] & 0x0F;
Y[1] = (block[8] >> 4) & 0x0F;
Y[4] = block[9] & 0x0F;
Y[5] = (block[9] >> 4) & 0x0F;
Y[2] = block[10] & 0x0F;
Y[3] = (block[10] >> 4) & 0x0F;
Y[6] = block[11] & 0x0F;
Y[7] = (block[11] >> 4) & 0x0F;
Y[8] = block[12] & 0x0F;
Y[9] = (block[12] >> 4) & 0x0F;
Y[12] = block[13] & 0x0F;
Y[13] = (block[13] >> 4) & 0x0F;
Y[10] = block[14] & 0x0F;
Y[11] = (block[14] >> 4) & 0x0F;
Y[14] = block[15] & 0x0F;
Y[15] = (block[15] >> 4) & 0x0F;
// Read alpha values if present
int A[16];
if (has_alpha) {
A[0] = block[16] & 0x0F;
A[1] = (block[16] >> 4) & 0x0F;
A[4] = block[17] & 0x0F;
A[5] = (block[17] >> 4) & 0x0F;
A[2] = block[18] & 0x0F;
A[3] = (block[18] >> 4) & 0x0F;
A[6] = block[19] & 0x0F;
A[7] = (block[19] >> 4) & 0x0F;
A[8] = block[20] & 0x0F;
A[9] = (block[20] >> 4) & 0x0F;
A[12] = block[21] & 0x0F;
A[13] = (block[21] >> 4) & 0x0F;
A[10] = block[22] & 0x0F;
A[11] = (block[22] >> 4) & 0x0F;
A[14] = block[23] & 0x0F;
A[15] = (block[23] >> 4) & 0x0F;
} else {
for (int i = 0; i < 16; i++) A[i] = 15;
}
int channels = has_alpha ? 4 : 3;
// iPF2: 4:2:2 - each horizontal pair shares chroma
// Row 0: pixels 0,1 share co[0]/cg[0], pixels 2,3 share co[1]/cg[1]
// Row 1: pixels 4,5 share co[2]/cg[2], pixels 6,7 share co[3]/cg[3]
// Row 2: pixels 8,9 share co[4]/cg[4], pixels 10,11 share co[5]/cg[5]
// Row 3: pixels 12,13 share co[6]/cg[6], pixels 14,15 share co[7]/cg[7]
int pixel_map[8][4] = {
{0, 1, 0, 1}, // co/cg index 0: pixels 0,1
{2, 3, 2, 3}, // co/cg index 1: pixels 2,3
{4, 5, 4, 5}, // co/cg index 2: pixels 4,5
{6, 7, 6, 7}, // co/cg index 3: pixels 6,7
{8, 9, 8, 9}, // co/cg index 4: pixels 8,9
{10, 11, 10, 11}, // co/cg index 5: pixels 10,11
{12, 13, 12, 13}, // co/cg index 6: pixels 12,13
{14, 15, 14, 15} // co/cg index 7: pixels 14,15
};
for (int ci = 0; ci < 8; ci++) {
int p0 = pixel_map[ci][0];
int p1 = pixel_map[ci][1];
uint8_t quad[16]; // 4 pixels max (ycocg_to_rgb_quad writes 4 pixels)
ycocg_to_rgb_quad(co[ci], cg[ci], Y[p0], Y[p1], Y[p0], Y[p1],
A[p0], A[p1], A[p0], A[p1], has_alpha, quad);
int row = p0 / 4;
int col0 = p0 % 4;
int col1 = p1 % 4;
memcpy(pixels + row * stride + col0 * channels, quad + 0 * channels, channels);
memcpy(pixels + row * stride + col1 * channels, quad + 1 * channels, channels);
}
}
// =============================================================================
// Main Decoding
// =============================================================================
static int decode_ipf(const decoder_config_t *cfg) {
FILE *fp = fopen(cfg->input_file, "rb");
if (!fp) {
fprintf(stderr, "Error: Failed to open input file: %s\n", cfg->input_file);
return -1;
}
// Read header
ipf_header_t header;
if (read_ipf_header(fp, &header) < 0) {
fclose(fp);
return -1;
}
int has_alpha = (header.flags & IPF_FLAG_ALPHA) != 0;
int use_zstd = (header.flags & IPF_FLAG_ZSTD) != 0;
int progressive = (header.flags & IPF_FLAG_PROGRESSIVE) != 0;
if (cfg->verbose) {
printf("iPF Header:\n");
printf(" Size: %dx%d\n", header.width, header.height);
printf(" Type: iPF%d (%s)\n", header.type + 1,
header.type == 0 ? "4:2:0" : "4:2:2");
printf(" Flags: %s%s%s\n",
has_alpha ? "alpha " : "",
use_zstd ? "zstd " : "",
progressive ? "progressive " : "");
printf(" Uncompressed size: %u bytes\n", header.uncompressed_size);
}
if (progressive) {
fprintf(stderr, "Warning: Progressive mode not implemented, decoding as sequential\n");
}
// Read compressed/raw block data
fseek(fp, 0, SEEK_END);
long file_size = ftell(fp);
fseek(fp, IPF_HEADER_SIZE, SEEK_SET);
size_t compressed_size = file_size - IPF_HEADER_SIZE;
uint8_t *compressed_data = malloc(compressed_size);
if (!compressed_data) {
fclose(fp);
fprintf(stderr, "Error: Failed to allocate memory\n");
return -1;
}
if (fread(compressed_data, 1, compressed_size, fp) != compressed_size) {
free(compressed_data);
fclose(fp);
fprintf(stderr, "Error: Failed to read block data\n");
return -1;
}
fclose(fp);
// Decompress if needed
uint8_t *block_data;
size_t block_data_size;
if (use_zstd) {
block_data_size = header.uncompressed_size;
block_data = malloc(block_data_size);
if (!block_data) {
free(compressed_data);
fprintf(stderr, "Error: Failed to allocate decompression buffer\n");
return -1;
}
size_t result = ZSTD_decompress(block_data, block_data_size,
compressed_data, compressed_size);
if (ZSTD_isError(result)) {
fprintf(stderr, "Error: Zstd decompression failed: %s\n",
ZSTD_getErrorName(result));
free(block_data);
free(compressed_data);
return -1;
}
if (cfg->verbose) {
printf("Decompressed: %zu -> %zu bytes\n", compressed_size, block_data_size);
}
free(compressed_data);
} else {
block_data = compressed_data;
block_data_size = compressed_size;
}
// Allocate output image
int channels = has_alpha ? 4 : 3;
size_t image_size = (size_t)header.width * header.height * channels;
uint8_t *image = malloc(image_size);
if (!image) {
free(block_data);
fprintf(stderr, "Error: Failed to allocate image buffer\n");
return -1;
}
// Decode blocks
int blocks_x = (header.width + 3) / 4;
int blocks_y = (header.height + 3) / 4;
int block_size = (header.type == IPF_TYPE_1) ? (has_alpha ? 20 : 12) : (has_alpha ? 24 : 16);
int row_stride = header.width * channels;
int block_stride = 4 * channels; // 4 pixels per block row
size_t block_offset = 0;
for (int by = 0; by < blocks_y; by++) {
for (int bx = 0; bx < blocks_x; bx++) {
// Calculate output position
uint8_t *block_pixels = image + by * 4 * row_stride + bx * block_stride;
if (header.type == IPF_TYPE_1) {
decode_ipf1_block(block_data + block_offset, has_alpha, block_pixels, row_stride);
} else {
decode_ipf2_block(block_data + block_offset, has_alpha, block_pixels, row_stride);
}
block_offset += block_size;
}
}
free(block_data);
if (cfg->verbose) {
printf("Decoded %d blocks (%dx%d)\n", blocks_x * blocks_y, blocks_x, blocks_y);
}
// Output image
int result = 0;
if (cfg->raw_output) {
// Write raw RGB/RGBA data
FILE *out = fopen(cfg->output_file, "wb");
if (!out) {
fprintf(stderr, "Error: Failed to open output file: %s\n", cfg->output_file);
result = -1;
} else {
fwrite(image, 1, image_size, out);
fclose(out);
if (cfg->verbose) {
printf("Wrote %zu bytes raw %s data\n", image_size, has_alpha ? "RGBA" : "RGB24");
}
}
} else {
// Use FFmpeg to write output image
char cmd[MAX_PATH * 2];
const char *pix_fmt = has_alpha ? "rgba" : "rgb24";
snprintf(cmd, sizeof(cmd),
"ffmpeg -hide_banner -v quiet -y -f rawvideo -pix_fmt %s -s %dx%d "
"-i - \"%s\"",
pix_fmt, header.width, header.height, cfg->output_file);
if (cfg->verbose) {
printf("FFmpeg command: %s\n", cmd);
}
FILE *pipe = popen(cmd, "w");
if (!pipe) {
fprintf(stderr, "Error: Failed to start FFmpeg\n");
result = -1;
} else {
fwrite(image, 1, image_size, pipe);
int status = pclose(pipe);
if (status != 0) {
fprintf(stderr, "Error: FFmpeg failed with status %d\n", status);
result = -1;
}
}
}
free(image);
return result;
}
// =============================================================================
// Main Entry Point
// =============================================================================
int main(int argc, char *argv[]) {
decoder_config_t cfg = {
.input_file = NULL,
.output_file = NULL,
.verbose = 0,
.raw_output = 0
};
static struct option long_options[] = {
{"input", required_argument, 0, 'i'},
{"output", required_argument, 0, 'o'},
{"raw", no_argument, 0, 'R'},
{"verbose", no_argument, 0, 'v'},
{"help", no_argument, 0, 'h'},
{0, 0, 0, 0}
};
int opt;
while ((opt = getopt_long(argc, argv, "i:o:vh", long_options, NULL)) != -1) {
switch (opt) {
case 'i':
cfg.input_file = optarg;
break;
case 'o':
cfg.output_file = optarg;
break;
case 'R':
cfg.raw_output = 1;
break;
case 'v':
cfg.verbose = 1;
break;
case 'h':
print_usage(argv[0]);
return 0;
default:
print_usage(argv[0]);
return 1;
}
}
// Validate required arguments
if (!cfg.input_file || !cfg.output_file) {
fprintf(stderr, "Error: Input and output files are required\n\n");
print_usage(argv[0]);
return 1;
}
int result = decode_ipf(&cfg);
if (result == 0) {
printf("Successfully decoded: %s\n", cfg.output_file);
}
return result == 0 ? 0 : 1;
}

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ipf_encoder/encoder_ipf.c Normal file
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/**
* iPF Encoder - TSVM Interchangeable Picture Format Encoder
*
* Encodes images to iPF format (Type 1 or Type 2) with:
* - YCoCg colour space with chroma subsampling
* - 4x4 block encoding
* - Optional Zstd compression
* - Optional alpha channel
* - Optional Adam7 progressive ordering
*
* Created by CuriousTorvald and Claude on 2025-12-19.
*/
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <math.h>
#include <getopt.h>
#include <zstd.h>
// =============================================================================
// Constants
// =============================================================================
#define IPF_MAGIC "\x1F\x54\x53\x56\x4D\x69\x50\x46" // "\x1FTSVMiPF"
#define IPF_HEADER_SIZE 28 // 8 magic + 2 width + 2 height + 1 flags + 1 type + 10 reserved + 4 uncompressed size
#define DEFAULT_WIDTH 560
#define DEFAULT_HEIGHT 448
#define IPF_TYPE_1 0 // 4:2:0 chroma subsampling (12 bytes per block, +8 with alpha)
#define IPF_TYPE_2 1 // 4:2:2 chroma subsampling (16 bytes per block, +8 with alpha)
#define IPF_FLAG_ALPHA 0x01 // Has alpha channel
#define IPF_FLAG_ZSTD 0x10 // Zstd compressed
#define IPF_FLAG_PROGRESSIVE 0x80 // Adam7 progressive ordering
#define MAX_PATH 4096
// Bayer dithering kernel (4x4)
static const float BAYER_4X4[16] = {
0.0f/16.0f, 8.0f/16.0f, 2.0f/16.0f, 10.0f/16.0f,
12.0f/16.0f, 4.0f/16.0f, 14.0f/16.0f, 6.0f/16.0f,
3.0f/16.0f, 11.0f/16.0f, 1.0f/16.0f, 9.0f/16.0f,
15.0f/16.0f, 7.0f/16.0f, 13.0f/16.0f, 5.0f/16.0f
};
// Adam7 interlace pattern - pass number (1-7) for each pixel in 8x8 block
// 0 = not in this standard pattern, we'll adapt for 4x4 blocks
static const int ADAM7_PASS[8][8] = {
{1, 6, 4, 6, 2, 6, 4, 6},
{7, 7, 7, 7, 7, 7, 7, 7},
{5, 6, 5, 6, 5, 6, 5, 6},
{7, 7, 7, 7, 7, 7, 7, 7},
{3, 6, 4, 6, 3, 6, 4, 6},
{7, 7, 7, 7, 7, 7, 7, 7},
{5, 6, 5, 6, 5, 6, 5, 6},
{7, 7, 7, 7, 7, 7, 7, 7}
};
// =============================================================================
// Structures
// =============================================================================
typedef struct {
char *input_file;
char *output_file;
int width;
int height;
int ipf_type; // 0 = iPF1, 1 = iPF2
int use_zstd; // 1 = compress with Zstd
int force_alpha; // 1 = force alpha channel in output
int no_alpha; // 1 = strip alpha even if present in input
int progressive; // 1 = Adam7 progressive ordering
int dither; // Bayer dither pattern index (-1 = no dithering)
int verbose;
} encoder_config_t;
typedef struct {
uint8_t *data; // RGB or RGBA data
int width;
int height;
int channels; // 3 = RGB, 4 = RGBA
int has_alpha; // 1 if input image has meaningful alpha
} image_t;
// =============================================================================
// Utility Functions
// =============================================================================
static void print_usage(const char *program) {
printf("iPF Encoder - TSVM Interchangeable Picture Format\n");
printf("\nUsage: %s -i input.png -o output.ipf [options]\n\n", program);
printf("Required:\n");
printf(" -i, --input FILE Input image file (any format FFmpeg supports)\n");
printf(" -o, --output FILE Output iPF file\n");
printf("\nOptions:\n");
printf(" -s, --size WxH Output size (default: %dx%d)\n", DEFAULT_WIDTH, DEFAULT_HEIGHT);
printf(" -t, --type N iPF type: 1 (4:2:0, default) or 2 (4:2:2)\n");
printf(" --no-zstd Disable Zstd compression (default: enabled)\n");
printf(" --alpha Force alpha channel in output\n");
printf(" --no-alpha Strip alpha channel from input\n");
printf(" -p, --progressive Use Adam7 progressive ordering\n");
printf(" -d, --dither N Bayer dither pattern (0=4x4, -1=none, default: 0)\n");
printf(" -v, --verbose Verbose output\n");
printf(" -h, --help Show this help\n");
printf("\nExamples:\n");
printf(" %s -i photo.jpg -o photo.ipf\n", program);
printf(" %s -i logo.png -o logo.ipf --alpha\n", program);
printf(" %s -i image.png -o image.ipf -s 280x224 -t 2\n", program);
}
static int clampi(int v, int lo, int hi) {
return v < lo ? lo : (v > hi ? hi : v);
}
// Convert chroma value [-1..1] to 4-bit [0..15]
static int chroma_to_four_bits(float f) {
return clampi((int)roundf(f * 8.0f) + 7, 0, 15);
}
// =============================================================================
// Image Loading via FFmpeg
// =============================================================================
/**
* Probe input image dimensions using FFmpeg.
* Returns 0 on success, -1 on error.
*/
static int probe_image_dimensions(const char *input_file, int *width, int *height, int *has_alpha) {
char cmd[MAX_PATH * 2];
// Use ffprobe to get dimensions and pixel format
snprintf(cmd, sizeof(cmd),
"ffprobe -v quiet -select_streams v:0 -show_entries stream=width,height,pix_fmt "
"-of csv=p=0:s=x \"%s\" 2>/dev/null",
input_file);
FILE *fp = popen(cmd, "r");
if (!fp) {
fprintf(stderr, "Error: Failed to run ffprobe\n");
return -1;
}
char buffer[256];
if (fgets(buffer, sizeof(buffer), fp) == NULL) {
pclose(fp);
fprintf(stderr, "Error: Failed to read image info\n");
return -1;
}
pclose(fp);
// Parse "width x height x pix_fmt"
char pix_fmt[64] = "";
if (sscanf(buffer, "%dx%dx%63s", width, height, pix_fmt) < 2) {
// Try alternate format without pix_fmt
if (sscanf(buffer, "%dx%d", width, height) != 2) {
fprintf(stderr, "Error: Failed to parse image dimensions\n");
return -1;
}
}
// Check if pixel format indicates alpha
*has_alpha = (strstr(pix_fmt, "rgba") != NULL ||
strstr(pix_fmt, "argb") != NULL ||
strstr(pix_fmt, "bgra") != NULL ||
strstr(pix_fmt, "abgr") != NULL ||
strstr(pix_fmt, "ya") != NULL ||
strstr(pix_fmt, "pal8") != NULL || // palette may have alpha
strstr(pix_fmt, "yuva") != NULL);
return 0;
}
/**
* Load and resize image using FFmpeg.
* Maintains aspect ratio and crops to target size.
* Returns image data or NULL on error.
*/
static image_t* load_image(const char *input_file, int target_width, int target_height,
int want_alpha, int verbose) {
int src_width, src_height, src_has_alpha;
// Probe source dimensions
if (probe_image_dimensions(input_file, &src_width, &src_height, &src_has_alpha) < 0) {
return NULL;
}
if (verbose) {
printf("Source image: %dx%d, alpha: %s\n",
src_width, src_height, src_has_alpha ? "yes" : "no");
}
// Determine if we need alpha channel
int use_alpha = want_alpha || src_has_alpha;
int channels = use_alpha ? 4 : 3;
const char *pix_fmt = use_alpha ? "rgba" : "rgb24";
// Build FFmpeg command with scale and crop filter
char cmd[MAX_PATH * 2];
snprintf(cmd, sizeof(cmd),
"ffmpeg -hide_banner -v quiet -i \"%s\" -f rawvideo -pix_fmt %s -vf "
"\"scale=%d:%d:force_original_aspect_ratio=increase,crop=%d:%d\" -frames:v 1 -",
input_file, pix_fmt, target_width, target_height, target_width, target_height);
if (verbose) {
printf("FFmpeg command: %s\n", cmd);
}
FILE *fp = popen(cmd, "r");
if (!fp) {
fprintf(stderr, "Error: Failed to start FFmpeg\n");
return NULL;
}
// Allocate image
image_t *img = malloc(sizeof(image_t));
if (!img) {
pclose(fp);
return NULL;
}
size_t data_size = (size_t)target_width * target_height * channels;
img->data = malloc(data_size);
if (!img->data) {
free(img);
pclose(fp);
return NULL;
}
img->width = target_width;
img->height = target_height;
img->channels = channels;
img->has_alpha = use_alpha;
// Read image data
size_t bytes_read = fread(img->data, 1, data_size, fp);
pclose(fp);
if (bytes_read != data_size) {
fprintf(stderr, "Error: Expected %zu bytes, got %zu\n", data_size, bytes_read);
free(img->data);
free(img);
return NULL;
}
if (verbose) {
printf("Loaded %dx%d image, %d channels, %zu bytes\n",
img->width, img->height, img->channels, data_size);
}
return img;
}
static void free_image(image_t *img) {
if (img) {
free(img->data);
free(img);
}
}
// =============================================================================
// iPF Block Encoding
// =============================================================================
/**
* Encode a 4x4 block to YCoCg with dithering.
* Returns arrays of Y (16 values), A (16 values), Co (16 values), Cg (16 values).
*/
static void encode_block_to_ycocg(const image_t *img, int block_x, int block_y,
int dither_pattern,
int *Y_out, int *A_out, float *Co_out, float *Cg_out) {
for (int py = 0; py < 4; py++) {
for (int px = 0; px < 4; px++) {
int ox = block_x * 4 + px;
int oy = block_y * 4 + py;
// Handle out-of-bounds (extend edge pixels)
ox = clampi(ox, 0, img->width - 1);
oy = clampi(oy, 0, img->height - 1);
// Get dither threshold
float t = 0.0f;
if (dither_pattern >= 0) {
t = BAYER_4X4[(py % 4) * 4 + (px % 4)];
}
// Read pixel
int offset = (oy * img->width + ox) * img->channels;
float r0 = img->data[offset + 0] / 255.0f;
float g0 = (img->channels >= 3) ? img->data[offset + 1] / 255.0f : r0;
float b0 = (img->channels >= 3) ? img->data[offset + 2] / 255.0f : r0;
float a0 = (img->channels == 4) ? img->data[offset + 3] / 255.0f : 1.0f;
// Apply dithering
float r = floorf((t / 15.0f + r0) * 15.0f) / 15.0f;
float g = floorf((t / 15.0f + g0) * 15.0f) / 15.0f;
float b = floorf((t / 15.0f + b0) * 15.0f) / 15.0f;
float a = floorf((t / 15.0f + a0) * 15.0f) / 15.0f;
// Convert to YCoCg
float co = r - b; // [-1..1]
float tmp = b + co / 2.0f;
float cg = g - tmp; // [-1..1]
float y = tmp + cg / 2.0f; // [0..1]
int index = py * 4 + px;
Y_out[index] = (int)roundf(y * 15.0f);
A_out[index] = (int)roundf(a * 15.0f);
Co_out[index] = co;
Cg_out[index] = cg;
}
}
}
/**
* Encode iPF1 block (4:2:0 chroma subsampling).
* Returns 12 bytes (or 20 with alpha).
*/
static int encode_ipf1_block(const int *Ys, const int *As, const float *COs, const float *CGs,
int has_alpha, uint8_t *out) {
// Subsample Co/Cg by averaging 2x2 regions (4:2:0)
int cos1 = chroma_to_four_bits((COs[0] + COs[1] + COs[4] + COs[5]) / 4.0f);
int cos2 = chroma_to_four_bits((COs[2] + COs[3] + COs[6] + COs[7]) / 4.0f);
int cos3 = chroma_to_four_bits((COs[8] + COs[9] + COs[12] + COs[13]) / 4.0f);
int cos4 = chroma_to_four_bits((COs[10] + COs[11] + COs[14] + COs[15]) / 4.0f);
int cgs1 = chroma_to_four_bits((CGs[0] + CGs[1] + CGs[4] + CGs[5]) / 4.0f);
int cgs2 = chroma_to_four_bits((CGs[2] + CGs[3] + CGs[6] + CGs[7]) / 4.0f);
int cgs3 = chroma_to_four_bits((CGs[8] + CGs[9] + CGs[12] + CGs[13]) / 4.0f);
int cgs4 = chroma_to_four_bits((CGs[10] + CGs[11] + CGs[14] + CGs[15]) / 4.0f);
// Pack according to iPF1 format
// uint16 [Co4 | Co3 | Co2 | Co1]
out[0] = (cos2 << 4) | cos1;
out[1] = (cos4 << 4) | cos3;
// uint16 [Cg4 | Cg3 | Cg2 | Cg1]
out[2] = (cgs2 << 4) | cgs1;
out[3] = (cgs4 << 4) | cgs3;
// Y values: [Y1|Y0|Y5|Y4], [Y3|Y2|Y7|Y6], [Y9|Y8|YD|YC], [YB|YA|YF|YE]
out[4] = (Ys[1] << 4) | Ys[0];
out[5] = (Ys[5] << 4) | Ys[4];
out[6] = (Ys[3] << 4) | Ys[2];
out[7] = (Ys[7] << 4) | Ys[6];
out[8] = (Ys[9] << 4) | Ys[8];
out[9] = (Ys[13] << 4) | Ys[12];
out[10] = (Ys[11] << 4) | Ys[10];
out[11] = (Ys[15] << 4) | Ys[14];
int block_size = 12;
if (has_alpha) {
// Alpha values: same layout as Y
out[12] = (As[1] << 4) | As[0];
out[13] = (As[5] << 4) | As[4];
out[14] = (As[3] << 4) | As[2];
out[15] = (As[7] << 4) | As[6];
out[16] = (As[9] << 4) | As[8];
out[17] = (As[13] << 4) | As[12];
out[18] = (As[11] << 4) | As[10];
out[19] = (As[15] << 4) | As[14];
block_size = 20;
}
return block_size;
}
/**
* Encode iPF2 block (4:2:2 chroma subsampling).
* Returns 16 bytes (or 24 with alpha).
*/
static int encode_ipf2_block(const int *Ys, const int *As, const float *COs, const float *CGs,
int has_alpha, uint8_t *out) {
// Subsample Co/Cg horizontally only (4:2:2) - 8 values each
int cos1 = chroma_to_four_bits((COs[0] + COs[1]) / 2.0f);
int cos2 = chroma_to_four_bits((COs[2] + COs[3]) / 2.0f);
int cos3 = chroma_to_four_bits((COs[4] + COs[5]) / 2.0f);
int cos4 = chroma_to_four_bits((COs[6] + COs[7]) / 2.0f);
int cos5 = chroma_to_four_bits((COs[8] + COs[9]) / 2.0f);
int cos6 = chroma_to_four_bits((COs[10] + COs[11]) / 2.0f);
int cos7 = chroma_to_four_bits((COs[12] + COs[13]) / 2.0f);
int cos8 = chroma_to_four_bits((COs[14] + COs[15]) / 2.0f);
int cgs1 = chroma_to_four_bits((CGs[0] + CGs[1]) / 2.0f);
int cgs2 = chroma_to_four_bits((CGs[2] + CGs[3]) / 2.0f);
int cgs3 = chroma_to_four_bits((CGs[4] + CGs[5]) / 2.0f);
int cgs4 = chroma_to_four_bits((CGs[6] + CGs[7]) / 2.0f);
int cgs5 = chroma_to_four_bits((CGs[8] + CGs[9]) / 2.0f);
int cgs6 = chroma_to_four_bits((CGs[10] + CGs[11]) / 2.0f);
int cgs7 = chroma_to_four_bits((CGs[12] + CGs[13]) / 2.0f);
int cgs8 = chroma_to_four_bits((CGs[14] + CGs[15]) / 2.0f);
// Pack according to iPF2 format
// uint32 [Co8 | Co7 | Co6 | Co5 | Co4 | Co3 | Co2 | Co1]
out[0] = (cos2 << 4) | cos1;
out[1] = (cos4 << 4) | cos3;
out[2] = (cos6 << 4) | cos5;
out[3] = (cos8 << 4) | cos7;
// uint32 [Cg8 | Cg7 | Cg6 | Cg5 | Cg4 | Cg3 | Cg2 | Cg1]
out[4] = (cgs2 << 4) | cgs1;
out[5] = (cgs4 << 4) | cgs3;
out[6] = (cgs6 << 4) | cgs5;
out[7] = (cgs8 << 4) | cgs7;
// Y values: same as iPF1
out[8] = (Ys[1] << 4) | Ys[0];
out[9] = (Ys[5] << 4) | Ys[4];
out[10] = (Ys[3] << 4) | Ys[2];
out[11] = (Ys[7] << 4) | Ys[6];
out[12] = (Ys[9] << 4) | Ys[8];
out[13] = (Ys[13] << 4) | Ys[12];
out[14] = (Ys[11] << 4) | Ys[10];
out[15] = (Ys[15] << 4) | Ys[14];
int block_size = 16;
if (has_alpha) {
// Alpha values: same layout as Y
out[16] = (As[1] << 4) | As[0];
out[17] = (As[5] << 4) | As[4];
out[18] = (As[3] << 4) | As[2];
out[19] = (As[7] << 4) | As[6];
out[20] = (As[9] << 4) | As[8];
out[21] = (As[13] << 4) | As[12];
out[22] = (As[11] << 4) | As[10];
out[23] = (As[15] << 4) | As[14];
block_size = 24;
}
return block_size;
}
// =============================================================================
// Adam7 Progressive Ordering
// =============================================================================
/**
* Get Adam7 pass number for a block at (block_x, block_y).
* For blocks, we use a simplified version based on block position.
*/
static int get_adam7_pass(int block_x, int block_y) {
// Use Adam7 pattern for 8x8 blocks, but adapt for 4x4 block indices
int px = (block_x * 4) % 8;
int py = (block_y * 4) % 8;
return ADAM7_PASS[py][px];
}
/**
* Encode blocks in Adam7 progressive order.
* Returns the encoded block data in progressive order.
*/
static uint8_t* encode_progressive(const image_t *img, const encoder_config_t *cfg,
int has_alpha, size_t *out_size) {
int blocks_x = (img->width + 3) / 4;
int blocks_y = (img->height + 3) / 4;
int total_blocks = blocks_x * blocks_y;
int block_size = (cfg->ipf_type == IPF_TYPE_1) ? (has_alpha ? 20 : 12) : (has_alpha ? 24 : 16);
size_t max_size = (size_t)total_blocks * block_size;
uint8_t *output = malloc(max_size);
if (!output) return NULL;
// Temporary storage for all encoded blocks
uint8_t *all_blocks = malloc(max_size);
if (!all_blocks) {
free(output);
return NULL;
}
// Encode all blocks first
size_t offset = 0;
for (int by = 0; by < blocks_y; by++) {
for (int bx = 0; bx < blocks_x; bx++) {
int Ys[16], As[16];
float COs[16], CGs[16];
encode_block_to_ycocg(img, bx, by, cfg->dither, Ys, As, COs, CGs);
if (cfg->ipf_type == IPF_TYPE_1) {
encode_ipf1_block(Ys, As, COs, CGs, has_alpha, all_blocks + offset);
} else {
encode_ipf2_block(Ys, As, COs, CGs, has_alpha, all_blocks + offset);
}
offset += block_size;
}
}
// Reorder blocks according to Adam7 progressive order (7 passes)
size_t out_offset = 0;
for (int pass = 1; pass <= 7; pass++) {
for (int by = 0; by < blocks_y; by++) {
for (int bx = 0; bx < blocks_x; bx++) {
if (get_adam7_pass(bx, by) == pass) {
int block_idx = by * blocks_x + bx;
memcpy(output + out_offset, all_blocks + block_idx * block_size, block_size);
out_offset += block_size;
}
}
}
}
free(all_blocks);
*out_size = out_offset;
return output;
}
/**
* Encode blocks in sequential (raster) order.
*/
static uint8_t* encode_sequential(const image_t *img, const encoder_config_t *cfg,
int has_alpha, size_t *out_size) {
int blocks_x = (img->width + 3) / 4;
int blocks_y = (img->height + 3) / 4;
int total_blocks = blocks_x * blocks_y;
int block_size = (cfg->ipf_type == IPF_TYPE_1) ? (has_alpha ? 20 : 12) : (has_alpha ? 24 : 16);
size_t max_size = (size_t)total_blocks * block_size;
uint8_t *output = malloc(max_size);
if (!output) return NULL;
size_t offset = 0;
for (int by = 0; by < blocks_y; by++) {
for (int bx = 0; bx < blocks_x; bx++) {
int Ys[16], As[16];
float COs[16], CGs[16];
encode_block_to_ycocg(img, bx, by, cfg->dither, Ys, As, COs, CGs);
if (cfg->ipf_type == IPF_TYPE_1) {
offset += encode_ipf1_block(Ys, As, COs, CGs, has_alpha, output + offset);
} else {
offset += encode_ipf2_block(Ys, As, COs, CGs, has_alpha, output + offset);
}
}
}
*out_size = offset;
return output;
}
// =============================================================================
// iPF File Writing
// =============================================================================
static int write_ipf_file(const char *output_file, const encoder_config_t *cfg,
const image_t *img, int verbose) {
// Determine if we use alpha
int has_alpha = 0;
if (cfg->force_alpha) {
has_alpha = 1;
} else if (!cfg->no_alpha && img->has_alpha) {
has_alpha = 1;
}
// Encode blocks
size_t block_data_size;
uint8_t *block_data;
if (cfg->progressive) {
block_data = encode_progressive(img, cfg, has_alpha, &block_data_size);
} else {
block_data = encode_sequential(img, cfg, has_alpha, &block_data_size);
}
if (!block_data) {
fprintf(stderr, "Error: Failed to encode image blocks\n");
return -1;
}
if (verbose) {
printf("Encoded %zu bytes of block data\n", block_data_size);
}
// Prepare output data (may be compressed)
uint8_t *output_data = block_data;
size_t output_size = block_data_size;
uint8_t *compressed_data = NULL;
if (cfg->use_zstd) {
size_t max_compressed = ZSTD_compressBound(block_data_size);
compressed_data = malloc(max_compressed);
if (!compressed_data) {
free(block_data);
fprintf(stderr, "Error: Failed to allocate compression buffer\n");
return -1;
}
output_size = ZSTD_compress(compressed_data, max_compressed,
block_data, block_data_size, 7);
if (ZSTD_isError(output_size)) {
fprintf(stderr, "Error: Zstd compression failed: %s\n",
ZSTD_getErrorName(output_size));
free(block_data);
free(compressed_data);
return -1;
}
output_data = compressed_data;
if (verbose) {
printf("Compressed: %zu -> %zu bytes (%.1f%%)\n",
block_data_size, output_size,
100.0 * output_size / block_data_size);
}
}
// Open output file
FILE *fp = fopen(output_file, "wb");
if (!fp) {
fprintf(stderr, "Error: Failed to open output file: %s\n", output_file);
free(block_data);
if (compressed_data) free(compressed_data);
return -1;
}
// Build flags byte
uint8_t flags = 0;
if (has_alpha) flags |= IPF_FLAG_ALPHA;
if (cfg->use_zstd) flags |= IPF_FLAG_ZSTD;
if (cfg->progressive) flags |= IPF_FLAG_PROGRESSIVE | IPF_FLAG_ZSTD; // Progressive always sets zstd flag
// Write header
// Magic: "\x1FTSVMiPF" (8 bytes)
fwrite(IPF_MAGIC, 1, 8, fp);
// Width (uint16 LE)
uint16_t width_le = (uint16_t)cfg->width;
fwrite(&width_le, 2, 1, fp);
// Height (uint16 LE)
uint16_t height_le = (uint16_t)cfg->height;
fwrite(&height_le, 2, 1, fp);
// Flags (uint8)
fwrite(&flags, 1, 1, fp);
// Type (uint8)
uint8_t type_byte = (uint8_t)cfg->ipf_type;
fwrite(&type_byte, 1, 1, fp);
// Reserved (10 bytes)
uint8_t reserved[10] = {0};
fwrite(reserved, 1, 10, fp);
// Uncompressed size (uint32 LE)
uint32_t uncompressed_size_le = (uint32_t)block_data_size;
fwrite(&uncompressed_size_le, 4, 1, fp);
// Write block data
fwrite(output_data, 1, output_size, fp);
fclose(fp);
if (verbose) {
printf("Wrote %zu bytes to %s\n", IPF_HEADER_SIZE + output_size, output_file);
printf(" Format: iPF%d, %dx%d\n", cfg->ipf_type + 1, cfg->width, cfg->height);
printf(" Flags: %s%s%s\n",
has_alpha ? "alpha " : "",
cfg->use_zstd ? "zstd " : "",
cfg->progressive ? "progressive " : "");
}
free(block_data);
if (compressed_data) free(compressed_data);
return 0;
}
// =============================================================================
// Main Entry Point
// =============================================================================
static int parse_size(const char *arg, int *width, int *height) {
return sscanf(arg, "%dx%d", width, height) == 2 ? 0 : -1;
}
int main(int argc, char *argv[]) {
encoder_config_t cfg = {
.input_file = NULL,
.output_file = NULL,
.width = DEFAULT_WIDTH,
.height = DEFAULT_HEIGHT,
.ipf_type = IPF_TYPE_1,
.use_zstd = 1,
.force_alpha = 0,
.no_alpha = 0,
.progressive = 0,
.dither = 0,
.verbose = 0
};
static struct option long_options[] = {
{"input", required_argument, 0, 'i'},
{"output", required_argument, 0, 'o'},
{"size", required_argument, 0, 's'},
{"type", required_argument, 0, 't'},
{"no-zstd", no_argument, 0, 'Z'},
{"alpha", no_argument, 0, 'A'},
{"no-alpha", no_argument, 0, 'N'},
{"progressive", no_argument, 0, 'p'},
{"dither", required_argument, 0, 'd'},
{"verbose", no_argument, 0, 'v'},
{"help", no_argument, 0, 'h'},
{0, 0, 0, 0}
};
int opt;
while ((opt = getopt_long(argc, argv, "i:o:s:t:pd:vh", long_options, NULL)) != -1) {
switch (opt) {
case 'i':
cfg.input_file = optarg;
break;
case 'o':
cfg.output_file = optarg;
break;
case 's':
if (parse_size(optarg, &cfg.width, &cfg.height) != 0) {
fprintf(stderr, "Error: Invalid size format (use WxH)\n");
return 1;
}
break;
case 't':
cfg.ipf_type = atoi(optarg) - 1; // User specifies 1 or 2
if (cfg.ipf_type < 0 || cfg.ipf_type > 1) {
fprintf(stderr, "Error: Invalid iPF type (use 1 or 2)\n");
return 1;
}
break;
case 'Z':
cfg.use_zstd = 0;
break;
case 'A':
cfg.force_alpha = 1;
break;
case 'N':
cfg.no_alpha = 1;
break;
case 'p':
cfg.progressive = 1;
break;
case 'd':
cfg.dither = atoi(optarg);
break;
case 'v':
cfg.verbose = 1;
break;
case 'h':
print_usage(argv[0]);
return 0;
default:
print_usage(argv[0]);
return 1;
}
}
// Validate required arguments
if (!cfg.input_file || !cfg.output_file) {
fprintf(stderr, "Error: Input and output files are required\n\n");
print_usage(argv[0]);
return 1;
}
// Load image
if (cfg.verbose) {
printf("Loading image: %s\n", cfg.input_file);
}
image_t *img = load_image(cfg.input_file, cfg.width, cfg.height,
cfg.force_alpha, cfg.verbose);
if (!img) {
fprintf(stderr, "Error: Failed to load image\n");
return 1;
}
// Encode and write iPF file
int result = write_ipf_file(cfg.output_file, &cfg, img, cfg.verbose);
free_image(img);
if (result == 0) {
printf("Successfully encoded: %s\n", cfg.output_file);
}
return result == 0 ? 0 : 1;
}

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## How To Edit the Graaljs Jars
## GraalJS JAR Editing (OBSOLETE)
0. Download following from Maven:
The META-INF/services cross-registration hack was needed for GraalJS 22.3.1 where
`js` and `regex` JARs each needed the other's `TruffleLanguage$Provider` registered.
org.graalvm.js:js:00.0.0
org.graalvm.js:js-scriptengine:00.0.0
1. grab `js-00.0.0.jar`
2. on `META-INF/services/com.oracle.truffle.api.TruffleLanguage$Provider`, edit as shown:
com.oracle.truffle.js.lang.JavaScriptLanguageProvider (existing line)
com.oracle.truffle.regex.RegexLanguageProvider (<< add this line)
3. grab `regex-00.0.0.jar`
4. on `META-INF/services/com.oracle.truffle.api.TruffleLanguage$Provider`, edit as shown:
com.oracle.truffle.regex.RegexLanguageProvider (existing line)
com.oracle.truffle.js.lang.JavaScriptLanguageProvider (<< add this line)
5. Re-zip two files
As of GraalJS 24.1.2, the service discovery mechanism changed to
`TruffleLanguageProvider` and each JAR registers its own provider independently.
No JAR editing is required.

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