Mercurial > vba-clojure
view clojure/com/aurellem/run/music.clj @ 465:34bf4b64d9d1
remove dead code.
author | Robert McIntyre <rlm@mit.edu> |
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date | Fri, 04 May 2012 03:55:00 -0500 |
parents | 413c66186baa |
children | b31cd6651375 |
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1 (ns com.aurellem.run.music2 (:use (com.aurellem.gb saves gb-driver util constants3 items vbm characters money4 rlm-assembly))5 (:use (com.aurellem.run util title save-corruption6 bootstrap-0 bootstrap-1))7 (:require clojure.string)8 (:import [com.aurellem.gb.gb_driver SaveState])9 (:import java.io.File))11 (def third-kind12 (File. "/home/r/proj/midi/third-kind.mid"))14 (def pony15 (File. "/home/r/proj/vba-clojure/music/pony-title.mid"))17 (def sync-test18 (File. "/home/r/proj/vba-clojure/music/sync-test.mid"))21 (defn raw-midi-text [#^File midi-file]22 (:out23 (clojure.java.shell/sh24 "midicsv"25 (.getCanonicalPath midi-file)26 "-")))28 (def command-line #"^(\d+), (\d+), ([^,]+)(.*)$")30 (defmulti parse-command :command)32 (defn discard-args [command] (dissoc command :args))34 (defmethod parse-command :Start_track35 [command] (discard-args command))37 (defmethod parse-command :End_track38 [command] (discard-args command))40 (defmethod parse-command :default41 [command] command)43 (defn parse-number-list44 [number-list-str]45 (map #(Integer/parseInt %)46 (clojure.string/split number-list-str #", ")))48 (defmethod parse-command :Tempo49 [command]50 (update-in command [:args] #(Integer/parseInt %)))52 (defn parse-midi-note-list53 [midi-note-list-str]54 (let [[channel note velocity]55 (parse-number-list midi-note-list-str)]56 {:channel channel :note note :velocity velocity}))58 (defmethod parse-command :Note_on_c59 [command]60 (update-in command [:args] parse-midi-note-list))62 (defmethod parse-command :Note_off_c63 [command]64 (update-in command [:args] parse-midi-note-list))66 (defmethod parse-command :Header67 [command]68 (let [args (:args command)69 [format num-tracks division] (parse-number-list args)]70 (assoc command :args71 {:format format72 :num-tracks num-tracks73 :division division})))75 (defmethod parse-command :Program_c76 [command]77 (let [args (:args command)78 [channel program-num] (parse-number-list args)]79 (assoc command :args80 {:channel channel81 :program-num program-num})))83 (defn parse-midi [#^File midi-file]84 (map85 (comp parse-command86 (fn [line]87 (let [[[_ channel time command args]]88 (re-seq command-line line)]89 {:channel (Integer/parseInt channel)90 :time (Integer/parseInt time)91 :command (keyword command)92 :args (apply str (drop 2 args))})))93 (drop-last94 (clojure.string/split-lines95 (raw-midi-text midi-file)))))97 (def music-base new-kernel)99 (defn store [n address]100 (flatten101 [0xF5102 0xE5104 0x3E105 n107 0x21108 (reverse (disect-bytes-2 address))110 0x77112 0xE1113 0xF1]))115 (defn infinite-loop []116 [0x18 0xFE])118 (def divider-register 0xFF04)120 (defrecord Bit-Note [frequency volume duration duty])122 (defn clear-music-registers []123 (flatten124 [(store (Integer/parseInt "00000000" 2) 0xFF10) ;; sweep125 (store (Integer/parseInt "00000000" 2) 0xFF11) ;; pattern duty126 (store (Integer/parseInt "00000000" 2) 0xFF12) ;; volume127 (store (Integer/parseInt "00000000" 2) 0xFF13) ;; frequency-low128 (store (Integer/parseInt "00000000" 2) 0xFF14) ;; frequency-high130 (store (Integer/parseInt "00000000" 2) 0xFF16) ;; pattern duty 000000131 (store (Integer/parseInt "00000000" 2) 0xFF17) ;; volume 0000132 (store (Integer/parseInt "00000000" 2) 0xFF18) ;; frequency-low133 (store (Integer/parseInt "00000000" 2) 0xFF19) ;; 00000 frequency-high135 (store (Integer/parseInt "00000000" 2) 0xFF1A)136 (store (Integer/parseInt "00000000" 2) 0xFF1B)137 (store (Integer/parseInt "00000000" 2) 0xFF1C)138 (store (Integer/parseInt "00000000" 2) 0xFF1D)139 (store (Integer/parseInt "00000000" 2) 0xFF1E)141 (store (Integer/parseInt "00000000" 2) 0xFF20) ;; length142 (store (Integer/parseInt "00000000" 2) 0xFF21) ;; volume143 (store (Integer/parseInt "00000000" 2) 0xFF22) ;; noise-frequency144 (store (Integer/parseInt "00000000" 2) 0xFF23) ;; control145 ]))148 ;; mini-midi syntax150 ;; codes151 ;; note-code == 0x00152 ;; change-duty-code = 0x01153 ;; silence-code = 0x02155 ;; silence format156 ;; 2 bytes157 ;; [silence-code (0x02)]158 ;; [duration-8-bits]160 ;; note data format161 ;; 4 bytes162 ;; [note-code (0x00)]163 ;; [volume-4-bits 0 frequency-high-3-bits]164 ;; [frequengy-low-8-bits]165 ;; [duration-8-bits]167 ;; change-duty-format168 ;; 2 bytes169 ;; [change-duty-code (0x01)]170 ;; [new-duty]172 (def note-code 0x00)173 (def change-duty-code 0x01)174 (def silence-code 0x02)176 (defn do-message177 "Read the message which starts at the current value of HL and do178 what it says. Duration is left in A, and HL is advanced179 appropraitely."180 ([] (do-message 0x16 1))181 ([sound-base-address wave-duty]182 (assert (<= 0 wave-duty 3))183 (let [switch184 [0x2A ;; load message code into A, increment HL186 ;; switch on message187 0xFE188 note-code190 0x20191 :note-length]193 play-note194 [0x3E ;; set wave-duty195 (bit-shift-left wave-duty 6)196 0xE0197 sound-base-address198 0x2A ;; load volume/frequency-high info199 0xF5 ;; push A200 0xE6201 (Integer/parseInt "11110000" 2) ;; volume mask202 0xE0203 (inc sound-base-address) ;;0x17 ;; set volume204 0xF1 ;; pop A205 0xE6206 (Integer/parseInt "00000111" 2) ;; frequency-high mask207 0xE0208 (+ 3 sound-base-address) ;;0x19 ;; set frequency-high210 0x2A ;; load frequency low-bits211 0xE0212 (+ 2 sound-base-address) ;;0x18 ;; set frequency-low-bits213 0x2A]] ;; load duration214 (replace215 {:note-length (count play-note)}216 (concat switch play-note)))))218 ;; (defn play-note219 ;; "Play the note referenced by HL in the appropiate channel.220 ;; Leaves desired-duration in A."222 ;; [0x2A ;; load volume/frequency-high info223 ;; 0xF5 ;; push A224 ;; 0xE6225 ;; (Integer/parseInt "11110000" 2) ;; volume mask226 ;; 0xE0227 ;; 0x17 ;; set volume228 ;; 0xF1 ;; pop A229 ;; 0xE6230 ;; (Integer/parseInt "00000111" 2) ;; frequency-high mask231 ;; 0xE0232 ;; 0x19 ;; set frequency-high234 ;; 0x2A ;; load frequency low-bits235 ;; 0xE0236 ;; 0x18 ;; set frequency-low-bits238 ;; 0x2A ;; load duration239 ;; ])241 (defn music-step [sound-base-address wave-duty]242 ;; C == current-ticks243 ;; A == desired-ticks245 (flatten246 [;; restore variables from stack247 0xE1 ;; pop HL248 0xC1 ;; pop CB249 0xF1 ;; pop AF252 0xF5 ;; push A253 0xF0254 0x05 ;; load current ticks from 0xF005255 0xB8 ;;256 0x30 ;; increment C only if last result caused carry257 0x01258 0x0C260 0x47 ;; update sub-ticks (A->B)262 0xF1 ;; pop AF, now A contains desired-ticks264 0xB9 ;; compare with current ticks266 ;; if desired-ticks = current ticks267 ;; go to next note ; set current set ticks to 0.269 0x20270 (+ (count (do-message 0 0)) 2)272 (do-message sound-base-address wave-duty)274 0x0E275 0x00 ;; 0->C (current-ticks)277 ;; save variables to stack278 0xF5 ;; push AF279 0xC5 ;; push CB280 0xE5 ;; push HL283 ]))285 (def music-1 0x11)286 (def music-2 0x16)288 (defn music-kernel [wave-duty-1 wave-duty-2]289 (flatten290 [;; global initilization section291 (clear-music-registers)293 0x3E294 0x01295 0xE0296 0x06 ;; set TMA to 0298 0x3E299 (Integer/parseInt "00000110" 2)300 0xE0301 0x07 ;; set TAC to 65536 Hz and activate timer303 ;; initialize frame 1304 0x21305 0x00306 0xA0 ;; set HL to 0xA000 == music-start 1307 0x0E308 0x00 ;; 0->C309 0x06310 0x00 ;; 0->B312 0xAF ;; 0->A314 0xF5 ;; push AF315 0xC5 ;; push CB316 0xE5 ;; push HL318 ;; initialize frame 2319 0x21320 0x00321 0xB0 ;; set HL to 0xB000 == music-start 2323 0xF5 ;; push AF324 0xC5 ;; push CB325 0xE5 ;; push HL328 ;; main music loop330 0xE8 ;; SP + 6; activate frame 1331 6332 (music-step music-1 wave-duty-1)333 ;;(repeat (count (music-step music-1)) 0x00)335 0xE8 ;; SP - 6; activate frame 2336 (->signed-8-bit -6)337 ;;(repeat (count (music-step music-2)) 0x00)338 (music-step music-2 wave-duty-2)341 0x18342 (->signed-8-bit (+343 ;; two music-steps344 (- (* 2 (count (music-step 0 0))))345 -2 ;; this jump instruction346 -2 ;; activate frame 1347 -2 ;; activate frame 2348 ))]))350 (defn frequency-code->frequency351 [code]352 (assert (<= 0 code 2047))353 (/ 131072 (- 2048 code)))355 (defn clamp [x low high]356 (cond (> x high) high357 (< x low) low358 true x))360 (defn frequency->frequency-code361 [frequency]362 (clamp363 (Math/round364 (float365 (/ (- (* 2048 frequency) 131072) frequency)))366 0x00 2048))368 (defn note-codes [frequency volume duration]369 (assert (<= 0 volume 0xF))370 (if (<= duration 0xFF)371 (let [frequency-code372 (frequency->frequency-code frequency)373 volume&high-frequency374 (+ (bit-shift-left volume 4)375 (bit-shift-right frequency-code 8))376 low-frequency377 (bit-and 0xFF frequency-code)]378 [note-code379 volume&high-frequency380 low-frequency381 duration])382 (vec383 (flatten384 [(note-codes frequency volume 0xFF)385 (note-codes frequency volume (- duration 0xFF))]))))388 (defn midi-code->frequency389 [midi-code]390 (* 8.1757989156391 (Math/pow 2 (* (float (/ 12)) midi-code))))393 ;; division == clock-pulses / quarter-note394 ;; tempo == microseconds / quarter-note396 ;; have: clock-pulses397 ;; want: seconds400 (defn silence [length]401 {:frequency 1402 :duration length403 :volume 0})405 (defn track-info [#^File midi-file]406 (let [events (parse-midi midi-file)407 track-titles (commands :Title_t events)408 track-info409 (map #(read-string (read-string (:args %))) track-titles)410 track-map411 (zipmap track-info track-titles)]412 track-map))414 (defn target-tracks415 "return the track-numbers in the form [voice-0 voice-1 noise]"416 [#^File midi-file]417 (let [track-data (track-info midi-file)418 track-order419 (zipmap (map :out (keys track-data))420 (vals track-data))421 channel-nums (map (comp :channel track-order) (range 3))]422 channel-nums))424 (defn commands425 "return all events where #(= (:command %) command)"426 [command s]427 (filter #(= command (:command %)) s))429 (defn midi-track->mini-midi [#^File midi-file track-num]430 (let [midi-events (parse-midi midi-file)432 note-on-events (commands :Note_on_c midi-events)433 note-off-events (commands :Note_off_c midi-events)435 select-channel436 (fn [n s]437 (sort-by :time (filter #(= n (:channel %)) s)))439 channel-on (select-channel track-num note-on-events)441 channel-off (select-channel track-num note-off-events)444 tempo (:args (first (commands :Tempo midi-events)))445 division446 (:division (:args (first (commands :Header midi-events))))448 notes449 (map450 (fn [note-on note-off]451 {:frequency (midi-code->frequency (:note (:args note-on)))452 :duration453 (/ (* (/ tempo division)454 (- (:time note-off) (:time note-on)))455 1e6) ;; convert clock-pulses into seconds456 :volume (int (/ (:velocity (:args note-on)) 10))457 :time-stamp (/ (* (/ tempo division)458 (:time note-on)) 1e6)})459 channel-on channel-off)461 silences462 (map (fn [note-1 note-2]463 (let [note-1-space (- (:time-stamp note-2)464 (:time-stamp note-1))465 note-1-length (:duration note-1)]466 (silence (- note-1-space note-1-length))))467 ;; to handle silence at the beginning.468 (concat [(assoc (silence 0)469 :time-stamp 0)] notes)470 notes)472 notes-with-silence473 (concat474 (filter (comp not zero? :duration)475 (interleave silences notes))476 [(silence 3)])]478 (map479 (fn [note-event]480 (note-codes (:frequency note-event)481 (:volume note-event)482 (int (* (:duration note-event) 0x100))))483 notes-with-silence)))485 (defn midi->mini-midi [#^File midi-file]486 (let [targets (target-tracks midi-file)487 get-track (fn [n]488 (if (not (nil? n))489 (midi-track->mini-midi midi-file n)490 []))491 duty-info (keys (track-info midi-file))]493 {:voice-1 (get-track (nth targets 0))494 :voice-2 (get-track (nth targets 1))495 :noise (get-track (nth targets 2))496 :duty (zipmap (map :out duty-info)497 (map #(get % :duty 0) duty-info))}))499 (defn play-midi [#^File midi-file]500 (let [track-1-target 0xA000501 track-2-target 0xB000502 program-target 0xC000503 mini-midi (midi->mini-midi midi-file)504 long-silence (flatten (note-codes 20 0 9001))506 voice-1 (flatten (:voice-1 mini-midi))507 wave-duty-1 ((:duty mini-midi) 0 0)509 voice-2 (flatten (:voice-2 mini-midi))510 wave-duty-2 ((:duty mini-midi) 1 0)511 ]513 (-> (second (music-base))514 (set-memory-range track-1-target long-silence)515 (set-memory-range track-2-target long-silence)516 (set-memory-range track-1-target voice-1)517 (set-memory-range track-2-target voice-2)518 (set-memory-range519 program-target520 (music-kernel wave-duty-1 wave-duty-2))521 (PC! program-target))))523 (def C4 (partial note-codes 261.63))524 (def D4 (partial note-codes 293.66))525 (def E4 (partial note-codes 329.63))526 (def F4 (partial note-codes 349.23))527 (def G4 (partial note-codes 392))528 (def A4 (partial note-codes 440))529 (def B4 (partial note-codes 493.88))530 (def C5 (partial note-codes 523.3))532 (def scale533 (flatten534 [(C4 0xF 0x40)535 (D4 0xF 0x40)536 (E4 0xF 0x40)537 (F4 0xF 0x40)538 (G4 0xF 0x40)539 (A4 0xF 0x40)540 (B4 0xF 0x40)541 (C5 0xF 0x40)]))543 (defn play-music [music-bytes]544 (let [program-target 0xC000545 music-target 0xA000]546 (-> (set-memory-range (second (music-base))547 program-target (music-kernel))548 (set-memory-range music-target music-bytes)549 (PC! program-target))))551 (defn run-program552 ([program]553 (let [target 0xC000]554 (-> (set-memory-range (second (music-base))555 target program)556 (PC! target)))))558 (defn test-timer []559 (flatten560 [0x3E561 0x01562 0xE0563 0x06 ;; set TMA to 0565 0x3E566 (Integer/parseInt "00000100" 2)567 0xE0568 0x07 ;; set TAC to 16384 Hz and activate timer570 (repeat571 500572 [0xF0573 0x05])]))