prog8/examples/cx16/pcmaudio/stream-wav.p8

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%import textio
%import diskio
%import floats
%import adpcm
%import wavfile
%option no_sysinit
;
; This program can stream a regular .wav file from the sdcard.
; It can be uncompressed or IMA-adpcm compressed (factor 4 lossy compression).
; See the "adpcm" module source for tips how to create those files.
;
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; Note that 8 bit wav files are *unsigned* values whereas Vera wants *signed* values
; so these have to be converted on the fly. 16 bit wav files are signed already.
;
; The playback is done via AFLOW irq handler that fills the audio fifo buffer
; with around 1 Kb of new audio data. (copies raw pcm data or decodes adpcm block)
; In the meantime the main program loop reads new data blocks from the wav file
; as it is being played.
;
; NOTE: stripping the wav header and just having the raw pcm data in the file
; is slightly more efficient because the data blocks are then sector-aligned on the disk
;
main {
uword vera_rate_hz
ubyte vera_rate
sub start() {
uword buffer = memory("buffer", 1024, 256)
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str MUSIC_FILENAME = "?"*32
txt.print("name of .wav file to play on drive 8: ")
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while 0==txt.input_chars(MUSIC_FILENAME) {
; until user types a name...
}
bool wav_ok = false
txt.print("\nchecking ")
txt.print(MUSIC_FILENAME)
txt.nl()
if diskio.f_open(MUSIC_FILENAME) {
void diskio.f_read(buffer, 128)
wav_ok = wavfile.parse_header(buffer)
diskio.f_close()
}
if not wav_ok {
error("no good wav file!")
}
calculate_vera_rate()
txt.print("wav format: ")
txt.print_ub(wavfile.wavefmt)
txt.print("\nchannels: ")
txt.print_ub(wavfile.nchannels)
txt.print("\nsample rate: ")
txt.print_uw(wavfile.sample_rate)
txt.print("\nbits per sample: ")
txt.print_uw(wavfile.bits_per_sample)
txt.print("\ndata size: ")
txt.print_uwhex(wavfile.data_size_hi, true)
txt.print_uwhex(wavfile.data_size_lo, false)
txt.print("\nvera rate: ")
txt.print_ub(vera_rate)
txt.print(" = ")
txt.print_uw(vera_rate_hz)
txt.print(" hz\n")
if wavfile.wavefmt==wavfile.WAVE_FORMAT_DVI_ADPCM {
txt.print("adpcm block size: ")
txt.print_uw(wavfile.block_align)
txt.nl()
}
if wavfile.nchannels>2 or
(wavfile.wavefmt!=wavfile.WAVE_FORMAT_DVI_ADPCM and wavfile.wavefmt!=wavfile.WAVE_FORMAT_PCM) or
wavfile.sample_rate > 48828 or
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wavfile.bits_per_sample>16 {
error("unsupported format!")
}
if wavfile.wavefmt==wavfile.WAVE_FORMAT_DVI_ADPCM {
if(wavfile.block_align!=256 or wavfile.nchannels!=1) {
error("unsupported format!")
}
}
txt.print("\ngood file! playback starts!\n")
cx16.rombank(0) ; activate kernal bank for faster calls
cx16.VERA_AUDIO_RATE = 0 ; halt playback
cx16.VERA_AUDIO_CTRL = %10101111 ; mono 16 bit
if wavfile.nchannels==2
cx16.VERA_AUDIO_CTRL = %10111111 ; stereo 16 bit
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if(wavfile.bits_per_sample==8)
cx16.VERA_AUDIO_CTRL &= %11011111 ; set to 8 bit instead
repeat 1024
cx16.VERA_AUDIO_DATA = 0 ; fill buffer with short silence
sys.set_irqd()
cx16.CINV = &interrupt.handler
cx16.VERA_IEN = %00001000 ; enable AFLOW only for now
sys.clear_irqd()
if diskio.f_open(MUSIC_FILENAME) {
uword block_size = 1024
if wavfile.wavefmt==wavfile.WAVE_FORMAT_DVI_ADPCM
block_size = wavfile.block_align
void diskio.f_read(buffer, wavfile.data_offset) ; skip to actual sample data start
void diskio.f_read(buffer, block_size) ; preload buffer
cx16.VERA_AUDIO_RATE = vera_rate ; start playback
repeat {
interrupt.wait_and_clear_aflow_semaphore()
;; cx16.vpoke(1,$fa00, $a0) ; paint a screen color
uword size = diskio.f_read(buffer, block_size)
;; cx16.vpoke(1,$fa00, $00) ; paint a screen color
if size<block_size
break
txt.chrout('.')
}
diskio.f_close()
} else {
txt.print("load error")
}
cx16.VERA_AUDIO_RATE = 0 ; halt playback
txt.print("done!\n")
repeat {
}
}
sub calculate_vera_rate() {
const float vera_freq_factor = 25e6 / 65536.0
vera_rate = (wavfile.sample_rate as float / vera_freq_factor) + 1.0 as ubyte
vera_rate_hz = (vera_rate as float) * vera_freq_factor as uword
}
sub error(str msg) {
txt.print(msg)
repeat {
}
}
}
interrupt {
bool aflow_semaphore
asmsub wait_and_clear_aflow_semaphore() {
%asm {{
- wai
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lda p8_aflow_semaphore
bne -
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inc p8_aflow_semaphore
rts
}}
}
sub handler() {
if cx16.VERA_ISR & %00001000 {
; AFLOW irq occurred, refill buffer
aflow_semaphore = 0
if wavfile.wavefmt==wavfile.WAVE_FORMAT_DVI_ADPCM
adpcm_block()
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else if wavfile.bits_per_sample==16
uncompressed_block_16()
else
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uncompressed_block_8()
} else if cx16.VERA_ISR & %00000001 {
cx16.VERA_ISR = %00000001
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; handle vsync irq here
}
%asm {{
ply
plx
pla
rti
}}
}
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asmsub uncompressed_block_8() {
; optimized loop to put 1024 bytes of data into the fifo as fast as possible
; converting unsigned wav 8 bit samples to signed 8 bit on the fly
%asm {{
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lda p8_main.p8_start.p8_buffer
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sta cx16.r0L
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lda p8_main.p8_start.p8_buffer+1
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sta cx16.r0H
ldx #4
- ldy #0
- lda (cx16.r0),y
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eor #$80 ; convert to signed 8-bit
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sta cx16.VERA_AUDIO_DATA
iny
bne -
inc cx16.r0H
dex
bne --
rts
}}
; original prog8 code:
; uword @requirezp ptr = main.start.buffer
; ubyte @requirezp sample
; repeat 1024 {
; sample = @(ptr) - 128
; cx16.VERA_AUDIO_DATA = sample
; ptr++
; }
}
asmsub uncompressed_block_16() {
; optimized loop to put 1024 bytes of data into the fifo as fast as possible
%asm {{
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lda p8_main.p8_start.p8_buffer
sta cx16.r0L
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lda p8_main.p8_start.p8_buffer+1
sta cx16.r0H
ldx #4
- ldy #0
- lda (cx16.r0),y
sta cx16.VERA_AUDIO_DATA
iny
bne -
inc cx16.r0H
dex
bne --
rts
}}
; original prog8 code:
; uword @requirezp ptr = main.start.buffer
; repeat 1024 {
; cx16.VERA_AUDIO_DATA = @(ptr)
; ptr++
; }
}
sub adpcm_block() {
; refill the fifo buffer with one decoded adpcm block (1010 bytes of pcm data)
uword @requirezp nibblesptr = main.start.buffer
adpcm.init(peekw(nibblesptr), @(nibblesptr+2))
cx16.VERA_AUDIO_DATA = lsb(adpcm.predict)
cx16.VERA_AUDIO_DATA = msb(adpcm.predict)
nibblesptr += 4
repeat 252 {
ubyte @zp nibble = @(nibblesptr)
adpcm.decode_nibble(nibble & 15) ; first word
cx16.VERA_AUDIO_DATA = lsb(adpcm.predict)
cx16.VERA_AUDIO_DATA = msb(adpcm.predict)
adpcm.decode_nibble(nibble>>4) ; second word
cx16.VERA_AUDIO_DATA = lsb(adpcm.predict)
cx16.VERA_AUDIO_DATA = msb(adpcm.predict)
nibblesptr++
}
}
}