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104 lines
3.6 KiB
Plaintext
104 lines
3.6 KiB
Plaintext
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%import syslib
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psg {
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; $1F9C0 - $1F9FF 16 blocks of 4 PSG registers (16 voices)
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; 00 frequency word LSB
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; 01 frequency word MSB. freqword = HERZ / 0.3725290298461914
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; 02 bit 7 =right, bit 6 = left, bits 5-0 = volume 0-63 levels
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; 03 bit 7,6 = waveform, bits 5-0 = Pulse width 0-63
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; waveform: 0=pulse, 1=sawtooth, 2=triangle, 3=noise
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const ubyte PULSE = %00000000
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const ubyte SAWTOOTH = %01000000
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const ubyte TRIANGLE = %10000000
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const ubyte NOISE = %11000000
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const ubyte LEFT = %01000000
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const ubyte RIGHT = %10000000
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sub voice(ubyte voice_num, ubyte channel, ubyte volume, ubyte waveform, ubyte pulsewidth) {
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cx16.vpoke(1, $f9c2 + voice_num * 4, channel | volume)
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cx16.vpoke(1, $f9c3 + voice_num * 4, waveform | pulsewidth)
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}
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; sub freq_hz(ubyte voice_num, float hertz) {
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; ; this would rely on floating point math to convert hertz to vera frequency
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; ; TODO should be replaced by integer math maybe with a lookup table?
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; uword vera_freq = (hertz / 0.3725290298461914) as uword
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; freq_vera(voice_num, vera_freq)
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; }
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sub freq_vera(ubyte voice_num, uword vera_freq) {
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cx16.vpoke(1, $f9c1 + voice_num*4, msb(vera_freq))
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cx16.vpoke(1, $f9c0 + voice_num*4, lsb(vera_freq))
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}
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sub volume(ubyte voice_num, ubyte vol) {
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uword reg = $f9c2 + voice_num * 4
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cx16.vpoke(1, reg, cx16.vpeek(1, reg) & %11000000 | vol)
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}
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sub pulse_width(ubyte voice_num, ubyte pw) {
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uword reg = $f9c3 + voice_num * 4
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cx16.vpoke(1, reg, cx16.vpeek(1, reg) & %11000000 | pw)
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}
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sub envelope(ubyte voice_num, ubyte attack, ubyte release) {
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envelope_attacks[voice_num] = attack * $0040
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envelope_releases[voice_num] = release * $0040
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if attack
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attack = 0
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else
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attack = 63 ; max volume when no attack is set
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envelope_volumes[voice_num] = mkword(attack, 0)
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envelope_states[voice_num] = 0
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}
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sub silent() {
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ubyte voice
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for voice in 0 to 15 {
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volume(voice, 0)
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envelope_volumes[voice] = 0
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envelope_states[voice] = 1
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}
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}
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sub envelopes_irq() {
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ubyte vera_ctrl = cx16.VERA_CTRL
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ubyte vera_addr_h = cx16.VERA_ADDR_H
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ubyte vera_addr_m = cx16.VERA_ADDR_M
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ubyte vera_addr_l = cx16.VERA_ADDR_L
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uword vol_word
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ubyte voice
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for voice in 0 to 15 {
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if envelope_states[voice] {
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; release
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vol_word = envelope_volumes[voice] - envelope_releases[voice]
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if msb(vol_word) & %11000000 {
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vol_word = 0
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envelope_releases[voice] = 0
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}
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envelope_volumes[voice] = vol_word
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volume(voice, msb(vol_word))
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} else {
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; attack
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vol_word = envelope_volumes[voice] + envelope_attacks[voice]
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if msb(vol_word) & %11000000 or envelope_attacks[voice]==0 {
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vol_word = mkword(63, 0)
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envelope_attacks[voice] = 0
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envelope_states[voice] = 1 ; start release
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}
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envelope_volumes[voice] = vol_word
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volume(voice, msb(vol_word))
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}
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}
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cx16.VERA_CTRL = vera_ctrl
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cx16.VERA_ADDR_L = vera_addr_l
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cx16.VERA_ADDR_M = vera_addr_m
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cx16.VERA_ADDR_H = vera_addr_h
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}
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ubyte[16] envelope_states
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uword[16] envelope_volumes
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uword[16] envelope_attacks
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uword[16] envelope_releases
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}
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