view clojure/com/aurellem/run/music.clj @ 435:3939ad680681

workig on two voices using square wave generators.
author Robert McIntyre <rlm@mit.edu>
date Wed, 25 Apr 2012 12:35:53 -0500
parents 988f0fda6c93
children 3171cbe077f3
line wrap: on
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1 (ns com.aurellem.run.music
2 (:use (com.aurellem.gb saves gb-driver util constants
3 items vbm characters money
4 rlm-assembly))
5 (:use (com.aurellem.run util title save-corruption
6 bootstrap-0 bootstrap-1))
7 (:require clojure.string)
8 (:import [com.aurellem.gb.gb_driver SaveState])
9 (:import java.io.File))
11 (def third-kind
12 (File. "/home/r/proj/midi/third-kind.mid"))
14 (defn raw-midi-text [#^File midi-file]
15 (:out
16 (clojure.java.shell/sh
17 "midicsv"
18 (.getCanonicalPath midi-file)
19 "-")))
21 (def command-line #"^(\d+), (\d+), ([^,]+)(.*)$")
23 (defmulti parse-command :command)
25 (defn discard-args [command] (dissoc command :args))
27 (defmethod parse-command :Start_track
28 [command] (discard-args command))
30 (defmethod parse-command :End_track
31 [command] (discard-args command))
33 (defmethod parse-command :default
34 [command] command)
36 (defn parse-number-list
37 [number-list-str]
38 (map #(Integer/parseInt %)
39 (clojure.string/split number-list-str #", ")))
41 (defmethod parse-command :Tempo
42 [command]
43 (update-in command [:args] #(Integer/parseInt %)))
45 (defn parse-midi-note-list
46 [midi-note-list-str]
47 (let [[channel note velocity]
48 (parse-number-list midi-note-list-str)]
49 {:channel channel :note note :velocity velocity}))
51 (defmethod parse-command :Note_on_c
52 [command]
53 (update-in command [:args] parse-midi-note-list))
55 (defmethod parse-command :Note_off_c
56 [command]
57 (update-in command [:args] parse-midi-note-list))
59 (defmethod parse-command :Header
60 [command]
61 (let [args (:args command)
62 [format num-tracks division] (parse-number-list args)]
63 (assoc command :args
64 {:format format
65 :num-tracks num-tracks
66 :division division})))
68 (defmethod parse-command :Program_c
69 [command]
70 (let [args (:args command)
71 [channel program-num] (parse-number-list args)]
72 (assoc command :args
73 {:channel channel
74 :program-num program-num})))
76 (defn parse-midi [#^File midi-file]
77 (map
78 (comp parse-command
79 (fn [line]
80 (let [[[_ channel time command args]]
81 (re-seq command-line line)]
82 {:channel (Integer/parseInt channel)
83 :time (Integer/parseInt time)
84 :command (keyword command)
85 :args (apply str (drop 2 args))})))
86 (drop-last
87 (clojure.string/split-lines
88 (raw-midi-text midi-file)))))
90 (def music-base new-kernel)
92 (defn store [n address]
93 (flatten
94 [0xF5
95 0xE5
97 0x3E
98 n
100 0x21
101 (reverse (disect-bytes-2 address))
103 0x77
105 0xE1
106 0xF1]))
108 (defn infinite-loop []
109 [0x18 0xFE])
111 (def divider-register 0xFF04)
113 (defrecord Bit-Note [frequency volume duration duty])
115 (defn clear-music-registers []
116 (flatten
117 [(store (Integer/parseInt "00000000" 2) 0xFF10) ;; sweep
118 (store (Integer/parseInt "00000000" 2) 0xFF11) ;; pattern duty
119 (store (Integer/parseInt "00000000" 2) 0xFF12) ;; volume
120 (store (Integer/parseInt "00000000" 2) 0xFF13) ;; frequency-low
121 (store (Integer/parseInt "00000000" 2) 0xFF14) ;; frequency-high
123 (store (Integer/parseInt "00000000" 2) 0xFF16) ;; pattern duty 000000
124 (store (Integer/parseInt "00000000" 2) 0xFF17) ;; volume 0000
125 (store (Integer/parseInt "00000000" 2) 0xFF18) ;; frequency-low
126 (store (Integer/parseInt "00000000" 2) 0xFF19) ;; 00000 frequency-high
128 (store (Integer/parseInt "00000000" 2) 0xFF1A)
129 (store (Integer/parseInt "00000000" 2) 0xFF1B)
130 (store (Integer/parseInt "00000000" 2) 0xFF1C)
131 (store (Integer/parseInt "00000000" 2) 0xFF1D)
132 (store (Integer/parseInt "00000000" 2) 0xFF1E)
134 (store (Integer/parseInt "00000000" 2) 0xFF20) ;; length
135 (store (Integer/parseInt "00000000" 2) 0xFF21) ;; volume
136 (store (Integer/parseInt "00000000" 2) 0xFF22) ;; noise-frequency
137 (store (Integer/parseInt "00000000" 2) 0xFF23) ;; control
138 ]))
141 ;; mini-midi syntax
143 ;; codes
144 ;; note-code == 0x00
145 ;; change-duty-code = 0x01
146 ;; silence-code = 0x02
148 ;; silence format
149 ;; 2 bytes
150 ;; [silence-code (0x02)]
151 ;; [duration-8-bits]
153 ;; note data format
154 ;; 4 bytes
155 ;; [note-code (0x00)]
156 ;; [volume-4-bits 0 frequency-high-3-bits]
157 ;; [frequengy-low-8-bits]
158 ;; [duration-8-bits]
160 ;; change-duty-format
161 ;; 2 bytes
162 ;; [change-duty-code (0x01)]
163 ;; [new-duty]
165 (def note-code 0x00)
166 (def change-duty-code 0x01)
167 (def silence-code 0x02)
169 (defn do-message
170 "Read the message which starts at the current value of HL and do
171 what it says. Duration is left in A, and HL is advanced
172 appropraitely."
173 ([] (do-message 0x16))
174 ([sound-base-address]
175 (let [switch
176 [0x2A ;; load message code into A, increment HL
178 ;; switch on message
179 0xFE
180 note-code
182 0x20
183 :note-length]
185 play-note
186 [0x2A ;; load volume/frequency-high info
187 0xF5 ;; push A
188 0xE6
189 (Integer/parseInt "11110000" 2) ;; volume mask
190 0xE0
191 (inc sound-base-address) ;;0x17 ;; set volume
192 0xF1 ;; pop A
193 0xE6
194 (Integer/parseInt "00000111" 2) ;; frequency-high mask
195 0xE0
196 (+ 3 sound-base-address) ;;0x19 ;; set frequency-high
198 0x2A ;; load frequency low-bits
199 0xE0
200 (+ 2 sound-base-address) ;;0x18 ;; set frequency-low-bits
201 0x2A]] ;; load duration
202 (replace
203 {:note-length (count play-note)}
204 (concat switch play-note)))))
206 ;; (defn play-note
207 ;; "Play the note referenced by HL in the appropiate channel.
208 ;; Leaves desired-duration in A."
210 ;; [0x2A ;; load volume/frequency-high info
211 ;; 0xF5 ;; push A
212 ;; 0xE6
213 ;; (Integer/parseInt "11110000" 2) ;; volume mask
214 ;; 0xE0
215 ;; 0x17 ;; set volume
216 ;; 0xF1 ;; pop A
217 ;; 0xE6
218 ;; (Integer/parseInt "00000111" 2) ;; frequency-high mask
219 ;; 0xE0
220 ;; 0x19 ;; set frequency-high
222 ;; 0x2A ;; load frequency low-bits
223 ;; 0xE0
224 ;; 0x18 ;; set frequency-low-bits
226 ;; 0x2A ;; load duration
227 ;; ])
229 (def storage-start 0xC999)
231 (defn music-step [sound-base-address]
232 ;; C == current-ticks
233 ;; A == desired-ticks
235 (flatten
236 [;; restore variables from stack
237 0xE1 ;; pop HL
238 0xC1 ;; pop CB
239 0xF1 ;; pop AF
242 0xF5 ;; push A
243 0xF0
244 0x05 ;; load current ticks from 0xF005
245 0xB8 ;;
246 0x30 ;; increment C only if last result caused carry
247 0x01
248 0x0C
250 0x47 ;; update sub-ticks (A->B)
252 0xF1 ;; pop AF, now A contains desired-ticks
254 0xB9 ;; compare with current ticks
256 ;; if desired-ticks = current ticks
257 ;; go to next note ; set current set ticks to 0.
259 0x20
260 (+ (count (do-message 0)) 2)
262 (do-message sound-base-address)
264 0x0E
265 0x00 ;; 0->C (current-ticks)
267 ;; save variables to stack
268 0xF5 ;; push AF
269 0xC5 ;; push CB
270 0xE5 ;; push HL
273 ]))
275 (def music-1 0x11)
276 (def music-2 0x16)
278 (defn music-kernel []
279 (flatten
280 [;; global initilization section
281 (clear-music-registers)
283 0x3E
284 0x01
285 0xE0
286 0x06 ;; set TMA to 0
288 0x3E
289 (Integer/parseInt "00000110" 2)
290 0xE0
291 0x07 ;; set TAC to 65536 Hz and activate timer
293 ;; initialize frame 1
294 0x21
295 0x00
296 0xD0 ;; set HL to 0xD000 == music-start
297 0x0E
298 0x00 ;; 0->C
299 0x06
300 0x00 ;; 0->B
302 0xAF ;; 0->A
304 0xF5 ;; push AF
305 0xC5 ;; push CB
306 0xE5 ;; push HL
308 ;; initialize frame 2
311 ;; init-2 (0->A,B,C), 0xC000 -> HL
313 ;; push to stack
315 ;; SP - 5
316 ;; pop from stack
317 (music-step music-1)
318 ;; save to stack
321 ;; SP + 5
322 ;; pop from stack
323 ;;(music-step music-2)
324 ;; save to stack
326 0x18
327 (->signed-8-bit (+ (- (count (music-step 0)))
328 -2))]))
330 (defn frequency-code->frequency
331 [code]
332 (assert (<= 0 code 2047))
333 (/ 131072 (- 2048 code)))
335 (defn clamp [x low high]
336 (cond (> x high) high
337 (< x low) low
338 true x))
340 (defn frequency->frequency-code
341 [frequency]
342 (clamp
343 (Math/round
344 (float
345 (/ (- (* 2048 frequency) 131072) frequency)))
346 0x00 2048))
348 (defn note-codes [frequency volume duration]
349 (assert (<= 0 volume 0xF))
350 (if (<= duration 0xFF)
351 (let [frequency-code
352 (frequency->frequency-code frequency)
353 volume&high-frequency
354 (+ (bit-shift-left volume 4)
355 (bit-shift-right frequency-code 8))
356 low-frequency
357 (bit-and 0xFF frequency-code)]
358 [note-code
359 volume&high-frequency
360 low-frequency
361 duration])
362 (vec
363 (flatten
364 [(note-codes frequency volume 0xFF)
365 (note-codes frequency volume (- duration 0xFF))]))))
368 (defn midi-code->frequency
369 [midi-code]
370 (* 8.1757989156
371 (Math/pow 2 (* (float (/ 12)) midi-code))))
373 ;; division == clock-pulses / quarter-note
374 ;; tempo == microseconds / quarter-note
376 ;; have: clock-pulses
377 ;; want: seconds
380 (defn silence [length]
381 {:frequency 1
382 :duration length
383 :volume 0})
385 (defn midi->mini-midi [#^File midi-file]
386 (let [midi-events (parse-midi midi-file)
388 note-on-events
389 (filter #(= :Note_on_c (:command %)) midi-events)
390 note-off-events
391 (filter #(= :Note_off_c (:command %)) midi-events)
393 channel-1-on
394 (sort-by :time
395 (filter #(= 1 (:channel (:args %)))
396 note-on-events))
397 channel-1-off
398 (sort-by :time
399 (filter #(= 1 (:channel (:args %)))
400 note-off-events))
403 tempo (:args (first (filter #(= :Tempo (:command %)) midi-events)))
404 division (:division
405 (:args (first (filter #(= :Header (:command %)) midi-events))))
407 notes
408 (map
409 (fn [note-on note-off]
410 {:frequency (midi-code->frequency (:note (:args note-on)))
411 :duration
412 (/ (* (/ tempo division)
413 (- (:time note-off) (:time note-on)))
414 1e6) ;; convert clock-pulses into seconds
415 :volume (int (/ (:velocity (:args note-on)) 10))
416 :time-stamp (/ (* (/ tempo division)
417 (:time note-on)) 1e6)})
418 channel-1-on channel-1-off)
420 silences
421 (map (fn [note-1 note-2]
422 (let [note-1-space (- (:time-stamp note-2)
423 (:time-stamp note-1))
424 note-1-length (:duration note-1)]
425 (silence (- note-1-space note-1-length))))
426 ;; to handle silence at the beginning.
427 (concat [(assoc (silence 0)
428 :time-stamp 0)] notes)
429 notes)
431 notes-with-silence
432 (filter (comp not zero? :duration) (interleave silences notes))
433 ]
435 (map
436 (fn [note-event]
437 (note-codes (:frequency note-event)
438 (:volume note-event)
439 (int (* (:duration note-event) 0x100))))
440 notes-with-silence)))
443 (def C4 (partial note-codes 261.63))
444 (def D4 (partial note-codes 293.66))
445 (def E4 (partial note-codes 329.63))
446 (def F4 (partial note-codes 349.23))
447 (def G4 (partial note-codes 392))
448 (def A4 (partial note-codes 440))
449 (def B4 (partial note-codes 493.88))
450 (def C5 (partial note-codes 523.3))
452 (def scale
453 (flatten
454 [(C4 0xF 0x40)
455 (D4 0xF 0x40)
456 (E4 0xF 0x40)
457 (F4 0xF 0x40)
458 (G4 0xF 0x40)
459 (A4 0xF 0x40)
460 (B4 0xF 0x40)
461 (C5 0xF 0x40)]))
463 (defn play-music [music-bytes]
464 (let [program-target 0xC000
465 music-target 0xD000]
466 (-> (set-memory-range (second (music-base))
467 program-target (music-kernel))
468 (set-memory-range music-target music-bytes)
469 (PC! program-target))))
472 (defn test-note [music-bytes]
473 (-> (set-memory-range (second (music-base))
474 0xC000 (concat (clear-music-registers)
475 (play-note)
476 (infinite-loop)))
477 (set-memory-range 0xD000 music-bytes)
478 (PC! 0xC000)
479 (HL! 0xD000)
480 ))
483 (defn run-program
484 ([program]
485 (let [target 0xC000]
486 (-> (set-memory-range (second (music-base))
487 target program)
488 (PC! target)))))
490 (defn test-timer []
491 (flatten
492 [0x3E
493 0x01
494 0xE0
495 0x06 ;; set TMA to 0
497 0x3E
498 (Integer/parseInt "00000100" 2)
499 0xE0
500 0x07 ;; set TAC to 16384 Hz and activate timer
502 (repeat
503 500
504 [0xF0
505 0x05])]))