+#!/usr/bin/newlisp
+
;; This is the main script for the pcm-dispatch tool
;; last main-arg nominates the configuration file
(signal 2 (fn (x) (exit 0)))
(signal 15 (fn (x) (exit 0)))
+; Optionally print output to stderr and optionally exit with code
(define (die N)
(when (args) (write-line 2 (join (map string (args)) " ")))
(when (number? N) (exit N)))
-(define (enlist X) (if (list? X) X (list X)))
-
-(define (comment? LINE) (and (regex "^\\s*(#|$)" LINE 0) true))
-
-(define (first-word LINE) (and (regex "^\\s*(\\S+)" LINE 0) $1))
+; Return non-nil for comment line (starts with # or is blank)
+(define (comment? LINE) (regex "^\\s*(#|$)" LINE 0))
-(define (prog1 X) X)
+; Return list of space-separated words on a line
+(define (words LINE)
+ (parse (trim LINE) "\\s+" 0))
-(define (read-config-line LINE)
- (map (fn (x) (if (regex "^([^=]+)=(.*)" x) (list $1 $2) x))
- (map trim (find-all "([^, ]+)" LINE $1 0))))
+; Read the configuration file and return it as list of plugs or the default
+(define (read-config FILE)
+ (or
+ (if (read-file FILE) (map words (clean comment? (parse $it "\n"))))
+ '(("plughw")) ; the default priority list
+ ))
;; ############################################################
;; Load Configuration (~/.alsa-dispatcher)
; Format: one-liners for each option, ignoring comment lines starting
; with # and blank lines.
(constant
- 'HOME (env "HOME")
- 'CONFIG (format "%s/.alsa-dispatcher" HOME)
- 'CFGLINES (if (read-file CONFIG) (clean comment? (parse $it "\n" ))
- '("bt,latency=1000" "plughw"))
- 'CFGMAP (map read-config-line CFGLINES)
- 'PCM-LIST (map first-word CFGLINES)
+ 'CFGMAP (read-config (format "%s/.alsa-dispatcher" (env "HOME")))
+ 'PCM-LIST (map first CFGMAP)
)
+; Return value of configuration setting KEY for plug PCM, or DEFAULT.
(define (cfg-lookup PCM KEY DEFAULT)
(if (if (assoc PCM CFGMAP) (lookup KEY $it)) (read-expr $it) DEFAULT))
)
;; (snd_pcm_close PCM) - Close PCM handle. Closes the given PCM handle
-;; and frees all associated resources. (The PCM reference is probably
-;; "invalid" after closing)
+;; and frees all associated resources.
(import libasound.so "snd_pcm_close" "int"
"void*" ; snd_pcm_t *pcm
)
"unsigned int" ; unsigned int latency
)
-;; (snd_pcm_wait PCM TIMEOUT) - Wait for a PCM to become ready.
-;; Returns a positive value on success otherwise a negative error code
-;; (-EPIPE [-32] for the xrun and -ESTRPIPE [-86] for the suspended
-;; status, others for general errors)
-(import libasound.so "snd_pcm_wait" "int"
- "void*" ; snd_pcm_t *pcm
- "int" ; int timeout
- )
-
;; (snd_pcm_writei PCM BUFFER FRAMES) - Write interleaved frames to a
;; PCM. If the blocking behaviour is selected and the PCM is running,
;; then routine waits until all requested frames are played or put to
"long" ; snd_pcm_uframes_t size
)
-;; Open a PCM by name
+;; Open a PCM by name. Returns list of (NAME PCM) or nil.
(define (open-pcm NAME)
- (snd_pcm_open NAME SND_PCM_STREAM_PLAYBACK SND_PCM_MODE_BLOCK))
-
-;; Setup PCM
-(define (setup-pcm PCM)
- (snd_pcm_set_params PCM
- (cfg-lookup PCM "format" SND_PCM_FORMAT_S16_LE)
- SND_PCM_ACCESS_RW_INTERLEAVED
- (cfg-lookup PCM "channels" 2)
- (cfg-lookup PCM "rate" 48000)
- 1 ; soft resample (0/1)
- (cfg-lookup PCM "latency" 100000) ; (microseconds)
- ))
+ (if (snd_pcm_open NAME SND_PCM_STREAM_PLAYBACK SND_PCM_MODE_BLOCK)
+ (list NAME $it)))
+
+;; Setup PCM. Preset format. access, channels, rate and soft resample.
+;; Configurable latency.
+(define (setup-pcm PCM NAME)
+ (let ((LATENCY (cfg-lookup NAME "latency" 100000)))
+ (snd_pcm_set_params PCM SND_PCM_FORMAT_S16_LE SND_PCM_ACCESS_RW_INTERLEAVED
+ 2 48000 1 LATENCY )))
;; ############################################################
; The main program
-;; redirect stdout/err to /dev/null
-(when nil
+; redirect stdout/err to /dev/null (flagged for debugging purposes)
+(when true
(let ((REDIR (open "/dev/null" "append")))
(when (< REDIR) (exit 1))
- (when (< (libc:dup2 REDIR 2)) (exit 1))
- (when (< (libc:dup2 REDIR 1)) (exit 1))
+ (when (< (dup2 REDIR 2)) (exit 1))
+ (when (< (dup2 REDIR 1)) (exit 1))
(close REDIR)
))
; find the first usable PCM
-(setf PCM (unless (dolist (NAME PCM-LIST (open-pcm NAME)))
- (die 1 "No PCM available")))
+(map set '(NAME PCM) (unless (dolist (N PCM-LIST (open-pcm N)))
+ (die 1 "No PCM available")))
; configure the PCM
-(when (!= (setf E (setup-pcm PCM)))
+(when (!= (setf E (setup-pcm PCM NAME)))
(snd_pcm_close PCM)
- (die 1 "set params" E))
+ (die 1 "setup pcm" E))
-(setf N 0 x 0 E 0 i 0)
-
-(setf CACHE nil)
-(while (> (or (setf N (read 0 BUFFER 20000000)) 0))
- ;(println "reading " N)
- (setf CACHE BUFFER)
- (while (> N)
- ;;(ready PCM)
- (when (< (setf E (snd_pcm_writei PCM CACHE (/ N 4))))
+; channel stdin audio onto selected pcm
+(while (> (or (setf N (read 0 BUFFER 2000000)) 0))
+ (while (> N)
+ ; N is in bytes while snd_pcm_writei counts "frames" of 4 bytes
+ (when (< (setf E (snd_pcm_writei PCM BUFFER (/ N 4))))
(snd_pcm_close PCM)
- (die 1 "writing" E N))
+ (die 1 "writing failed"))
(setf E (* E 4))
- (setf CACHE (E CACHE))
- ;(println "wrote " E)
+ (setf BUFFER (E BUFFER))
(dec N E)
)
)
-(snd_pcm_wait PCM -1)
+; let the pcm complete its output
(snd_pcm_drain PCM)
+
(snd_pcm_close PCM)
(exit 0)