fprintf(fp, "%s", h);
} else
fputs(h, fp);
- fputs(NLS, fp);
- }
- fputs(NLS, fp);
- fputs("Effect options (-EF, --ext=F option):" NLS
-" -EFdelay=d Disable delay effect (default)" NLS
-" -EFdelay=D Enable delay effect" NLS
-" -EFchorus=d Disable MIDI chorus effect control" NLS
-" -EFchorus=n Enable Normal MIDI chorus effect control" NLS
-" [,level] `level' is optional to specify chorus level [0..127]" NLS
-" (default)" NLS
-" -EFchorus=s Surround sound, chorus detuned to a lesser degree" NLS
-" [,level] `level' is optional to specify chorus level [0..127]" NLS
-" -EFreverb=d Disable MIDI reverb effect control" NLS
+ fputs("\n", fp);
+ }
+ fputs("\n", fp);
+ fputs("Effect options (-EF, --ext=F option):" "\n"
+" -EFdelay=d Disable delay effect (default)" "\n"
+" -EFdelay=D Enable delay effect" "\n"
+" -EFchorus=d Disable MIDI chorus effect control" "\n"
+" -EFchorus=n Enable Normal MIDI chorus effect control" "\n"
+" [,level] `level' is optional to specify chorus level [0..127]" "\n"
+" (default)" "\n"
+" -EFchorus=s Surround sound, chorus detuned to a lesser degree" "\n"
+" [,level] `level' is optional to specify chorus level [0..127]" "\n"
+" -EFreverb=d Disable MIDI reverb effect control" "\n"
#if !defined(REVERB_CONTROL_ALLOW) && !defined(FREEVERB_CONTROL_ALLOW)
-" (default)" NLS
+" (default)" "\n"
#endif
-" -EFreverb=n Enable Normal MIDI reverb effect control" NLS
-" [,level] `level' is optional to specify reverb level [1..127]" NLS
+" -EFreverb=n Enable Normal MIDI reverb effect control" "\n"
+" [,level] `level' is optional to specify reverb level [1..127]" "\n"
#if defined(REVERB_CONTROL_ALLOW)
-" (default)" NLS
+" (default)" "\n"
#endif
-" -EFreverb=g Global reverb effect" NLS
-" [,level] `level' is optional to specify reverb level [1..127]" NLS
-" -EFreverb=f Enable Freeverb MIDI reverb effect control" NLS
-" [,level] `level' is optional to specify reverb level [1..127]" NLS
+" -EFreverb=g Global reverb effect" "\n"
+" [,level] `level' is optional to specify reverb level [1..127]" "\n"
+" -EFreverb=f Enable Freeverb MIDI reverb effect control" "\n"
+" [,level] `level' is optional to specify reverb level [1..127]" "\n"
#if !defined(REVERB_CONTROL_ALLOW) && defined(FREEVERB_CONTROL_ALLOW)
-" (default)" NLS
+" (default)" "\n"
#endif
-" -EFreverb=G Global Freeverb effect" NLS
-" [,level] `level' is optional to specify reverb level [1..127]" NLS
-" -EFvlpf=d Disable voice LPF" NLS
+" -EFreverb=G Global Freeverb effect" "\n"
+" [,level] `level' is optional to specify reverb level [1..127]" "\n"
+" -EFvlpf=d Disable voice LPF" "\n"
#if !defined(VOICE_MOOG_LPF_ALLOW) && !defined(VOICE_CHAMBERLIN_LPF_ALLOW)
-" (default)" NLS
+" (default)" "\n"
#endif
-" -EFvlpf=c Enable Chamberlin resonant LPF (12dB/oct)" NLS
+" -EFvlpf=c Enable Chamberlin resonant LPF (12dB/oct)" "\n"
#if defined(VOICE_CHAMBERLIN_LPF_ALLOW)
-" (default)" NLS
+" (default)" "\n"
#endif
-" -EFvlpf=m Enable Moog resonant lowpass VCF (24dB/oct)" NLS
+" -EFvlpf=m Enable Moog resonant lowpass VCF (24dB/oct)" "\n"
#if defined(VOICE_MOOG_LPF_ALLOW) && !defined(VOICE_CHAMBERLIN_LPF_ALLOW)
-" (default)" NLS
-#endif
-" -EFvlpf=b Enable ButterworthFilter resonant lowpass (butterworth)" NLS
-" -EFvlpf=i Enable Resonant IIR lowpass VCF (12dB/oct)-2" NLS
-" -EFvlpf=a Enable amSynth resonant lowpass VCF (24dB/oct)-2" NLS
-" -EFvlpf=o Enable 1 pole 6db/oct resonant lowpass VCF (6dB/oct)" NLS
-" -EFvlpf=e Enable resonant 3 pole lowpass VCF (18dB/oct)" NLS
-" -EFvlpf=t Enable two first order lowpass VCF " NLS
-" -EFvlpf=h Enable HPF ButterworthFilter VCF (butterworth)" NLS
-" -EFvlpf=B Enable BPF ButterworthFilter VCF (butterworth)" NLS
-" -EFns=n Enable the n'th degree (type) noise shaping filter" NLS
-" n:[0..4] (for 8-bit linear encoding, default is 4)" NLS
-" n:[0..4] (for 16-bit linear encoding, default is 4)" NLS
-" n:[0] (for 24-bit linear encoding, default is 0)" NLS
-" n:[0] (for 32-bit linear encoding, default is 0)" NLS
-" n:[0] (for 64-bit linear encoding, default is 0)" NLS
-" n:[0] (for float 32-bit linear encoding, default is 0)" NLS
-" n:[0] (for float 64-bit linear encoding, default is 0)" NLS, fp);
+" (default)" "\n"
+#endif
+" -EFvlpf=b Enable ButterworthFilter resonant lowpass (butterworth)" "\n"
+" -EFvlpf=i Enable Resonant IIR lowpass VCF (12dB/oct)-2" "\n"
+" -EFvlpf=a Enable amSynth resonant lowpass VCF (24dB/oct)-2" "\n"
+" -EFvlpf=o Enable 1 pole 6db/oct resonant lowpass VCF (6dB/oct)" "\n"
+" -EFvlpf=e Enable resonant 3 pole lowpass VCF (18dB/oct)" "\n"
+" -EFvlpf=t Enable two first order lowpass VCF " "\n"
+" -EFvlpf=h Enable HPF ButterworthFilter VCF (butterworth)" "\n"
+" -EFvlpf=B Enable BPF ButterworthFilter VCF (butterworth)" "\n"
+" -EFns=n Enable the n'th degree (type) noise shaping filter" "\n"
+" n:[0..4] (for 8-bit linear encoding, default is 4)" "\n"
+" n:[0..4] (for 16-bit linear encoding, default is 4)" "\n"
+" n:[0] (for 24-bit linear encoding, default is 0)" "\n"
+" n:[0] (for 32-bit linear encoding, default is 0)" "\n"
+" n:[0] (for 64-bit linear encoding, default is 0)" "\n"
+" n:[0] (for float 32-bit linear encoding, default is 0)" "\n"
+" n:[0] (for float 64-bit linear encoding, default is 0)" "\n", fp);
#ifndef FIXED_RESAMPLATION
#ifdef HAVE_STRINGIZE
#define tim_str_internal(x) #x
fputs(" -EFresamp=d Disable resamplation", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_none"))
fputs(" (default)", fp);
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=l Enable Linear resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_linear"))
fputs(" (default)", fp);
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=c Enable C-spline resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_cspline"))
fputs(" (default)", fp);
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=L Enable Lagrange resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_lagrange"))
fputs(" (default)", fp);
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=n Enable Newton resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_newton"))
fputs(" (default)", fp);
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=g Enable Gauss-like resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_gauss"))
fputs(" (default)", fp);
///r
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=s Enable Sharp resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_sharp"))
fputs(" (default)", fp);
- fputs(NLS, fp);
+ fputs("\n", fp);
fputs(" -EFresamp=p Enable LinearP resample algorithm", fp);
if (! strcmp(tim_str(DEFAULT_RESAMPLATION), "resample_linear_p"))
fputs(" (default)", fp);
- fputs(NLS
-" -EFresamp affects the behavior of -N option" NLS, fp);
-#endif
- fputs(NLS, fp);
- fputs("Alternative TiMidity sequencer extensional mode long options:" NLS
-" --[no-]mod-wheel" NLS
-" --[no-]portamento" NLS
-" --[no-]vibrato" NLS
-" --[no-]ch-pressure" NLS
-" --[no-]mod-envelope" NLS
-" --[no-]trace-text-meta" NLS
-" --[no-]overlap-voice" NLS
+ fputs("\n"
+" -EFresamp affects the behavior of -N option" "\n", fp);
+#endif
+ fputs("\n", fp);
+ fputs("Alternative TiMidity sequencer extensional mode long options:" "\n"
+" --[no-]mod-wheel" "\n"
+" --[no-]portamento" "\n"
+" --[no-]vibrato" "\n"
+" --[no-]ch-pressure" "\n"
+" --[no-]mod-envelope" "\n"
+" --[no-]trace-text-meta" "\n"
+" --[no-]overlap-voice" "\n"
///r
-" --overlap-voice-count=n" NLS
-" --[no-]temper-control" NLS
-" --default-mid=<HH>" NLS
-" --system-mid=<HH>" NLS
-" --default-bank=n" NLS
-" --force-bank=n" NLS
-" --default-program=n/m" NLS
-" --force-program=n/m" NLS
-" --delay=(d|D)" NLS
-" --chorus=(d|n|s|w|W|b|B|t|T|h|H|e|E)[,level]" NLS
-" --reverb=(d|n|g|f|G)[,level]" NLS
-" --reverb=(f|G)[,level[,scaleroom[,offsetroom[,predelay]]]]" NLS
-" --voice-lpf=(d|c|m|b|i|a|o|e|t|h|B)" NLS
-" --noise-shaping=n" NLS, fp);
+" --overlap-voice-count=n" "\n"
+" --[no-]temper-control" "\n"
+" --default-mid=<HH>" "\n"
+" --system-mid=<HH>" "\n"
+" --default-bank=n" "\n"
+" --force-bank=n" "\n"
+" --default-program=n/m" "\n"
+" --force-program=n/m" "\n"
+" --delay=(d|D)" "\n"
+" --chorus=(d|n|s|w|W|b|B|t|T|h|H|e|E)[,level]" "\n"
+" --reverb=(d|n|g|f|G)[,level]" "\n"
+" --reverb=(f|G)[,level[,scaleroom[,offsetroom[,predelay]]]]" "\n"
+" --voice-lpf=(d|c|m|b|i|a|o|e|t|h|B)" "\n"
+" --noise-shaping=n" "\n", fp);
#ifndef FIXED_RESAMPLATION
- fputs(" --resample=(d|l|c|L|n|g|s|p)" NLS, fp);
+ fputs(" --resample=(d|l|c|L|n|g|s|p)" "\n", fp);
#endif
- fputs(NLS, fp);
- fputs("Available interfaces (-i, --interface option):" NLS, fp);
+ fputs("\n", fp);
+ fputs("Available interfaces (-i, --interface option):" "\n", fp);
for (cmpp = ctl_list; (cmp = *cmpp) != NULL; cmpp++)
- fprintf(fp, " -i%c %s" NLS,
+ fprintf(fp, " -i%c %s" "\n",
cmp->id_character, cmp->id_name);
#ifdef IA_DYNAMIC
- fprintf(fp, "Supported dynamic load interfaces (%s):" NLS,
+ fprintf(fp, "Supported dynamic load interfaces (%s):" "\n",
dynamic_lib_root);
memset(mark, 0, sizeof(mark));
for (cmpp = ctl_list; (cmp = *cmpp) != NULL; cmpp++)
mark[(int) cmp->id_character] = 1;
list_dyna_interface(fp, dynamic_lib_root, mark);
#endif /* IA_DYNAMIC */
- fputs(NLS, fp);
- fputs("Interface options (append to -i? option):" NLS
-" `v' more verbose (cumulative)" NLS
-" `q' quieter (cumulative)" NLS
-" `t' trace playing" NLS
-" `l' loop playing (some interface ignore this option)" NLS
-" `r' randomize file list arguments before playing" NLS
-" `s' sorting file list arguments before playing" NLS, fp);
+ fputs("\n", fp);
+ fputs("Interface options (append to -i? option):" "\n"
+" `v' more verbose (cumulative)" "\n"
+" `q' quieter (cumulative)" "\n"
+" `t' trace playing" "\n"
+" `l' loop playing (some interface ignore this option)" "\n"
+" `r' randomize file list arguments before playing" "\n"
+" `s' sorting file list arguments before playing" "\n", fp);
#ifdef IA_ALSASEQ
fputs(" `D' daemonize TiMidity++ in background "
- "(for alsaseq only)" NLS, fp);
-#endif
- fputs(NLS, fp);
- fputs("Alternative interface long options:" NLS
-" --verbose=n" NLS
-" --quiet=n" NLS
-" --[no-]trace" NLS
-" --[no-]loop" NLS
-" --[no-]random" NLS
-" --[no-]sort" NLS, fp);
+ "(for alsaseq only)" "\n", fp);
+#endif
+ fputs("\n", fp);
+ fputs("Alternative interface long options:" "\n"
+" --verbose=n" "\n"
+" --quiet=n" "\n"
+" --[no-]trace" "\n"
+" --[no-]loop" "\n"
+" --[no-]random" "\n"
+" --[no-]sort" "\n", fp);
#ifdef IA_ALSASEQ
- fputs(" --[no-]background" NLS, fp);
+ fputs(" --[no-]background" "\n", fp);
#endif
- fputs(NLS, fp);
- fputs("Available output modes (-O, --output-mode option):" NLS, fp);
+ fputs("\n", fp);
+ fputs("Available output modes (-O, --output-mode option):" "\n", fp);
for (pmpp = play_mode_list; (pmp = *pmpp) != NULL; pmpp++)
- fprintf(fp, " -O%c %s" NLS,
+ fprintf(fp, " -O%c %s" "\n",
pmp->id_character, pmp->id_name);
- fputs(NLS, fp);
- fputs("Output format options (append to -O? option):" NLS
-" `S' stereo" NLS
-" `M' monophonic" NLS
-" `s' signed output" NLS
-" `u' unsigned output" NLS
-" `1' 16-bit sample width" NLS
-" `2' 24-bit sample width" NLS
-" `3' 32-bit sample width" NLS
-" `6' 64-bit sample width" NLS
-" `8' 8-bit sample width" NLS
-" `f' float 32-bit sample width" NLS
-" `D' float 64-bit sample width" NLS
-" `l' linear encoding" NLS
-" `U' U-Law encoding" NLS
-" `A' A-Law encoding" NLS
-" `x' byte-swapped output" NLS, fp);
- fputs(NLS, fp);
- fputs("Alternative output format long options:" NLS
-" --output-stereo" NLS
-" --output-mono" NLS
-" --output-signed" NLS
-" --output-unsigned" NLS
-" --output-16bit" NLS
-" --output-24bit" NLS
-" --output-32bit" NLS
-" --output-64bit" NLS
-" --output-8bit" NLS
-" --output-f32bit" NLS
-" --output-float32bit" NLS
-" --output-f64bit" NLS
-" --output-float64bit" NLS
-" --output-linear" NLS
-" --output-ulaw" NLS
-" --output-alaw" NLS
-" --[no-]output-swab" NLS, fp);
- fputs(NLS, fp);
- fputs("Available WRD interfaces (-W, --wrd option):" NLS, fp);
+ fputs("\n", fp);
+ fputs("Output format options (append to -O? option):" "\n"
+" `S' stereo" "\n"
+" `M' monophonic" "\n"
+" `s' signed output" "\n"
+" `u' unsigned output" "\n"
+" `1' 16-bit sample width" "\n"
+" `2' 24-bit sample width" "\n"
+" `3' 32-bit sample width" "\n"
+" `6' 64-bit sample width" "\n"
+" `8' 8-bit sample width" "\n"
+" `f' float 32-bit sample width" "\n"
+" `D' float 64-bit sample width" "\n"
+" `l' linear encoding" "\n"
+" `U' U-Law encoding" "\n"
+" `A' A-Law encoding" "\n"
+" `x' byte-swapped output" "\n", fp);
+ fputs("\n", fp);
+ fputs("Alternative output format long options:" "\n"
+" --output-stereo" "\n"
+" --output-mono" "\n"
+" --output-signed" "\n"
+" --output-unsigned" "\n"
+" --output-16bit" "\n"
+" --output-24bit" "\n"
+" --output-32bit" "\n"
+" --output-64bit" "\n"
+" --output-8bit" "\n"
+" --output-f32bit" "\n"
+" --output-float32bit" "\n"
+" --output-f64bit" "\n"
+" --output-float64bit" "\n"
+" --output-linear" "\n"
+" --output-ulaw" "\n"
+" --output-alaw" "\n"
+" --[no-]output-swab" "\n", fp);
+ fputs("\n", fp);
+ fputs("Available WRD interfaces (-W, --wrd option):" "\n", fp);
for (wlpp = wrdt_list; (wlp = *wlpp) != NULL; wlpp++)
- fprintf(fp, " -W%c %s" NLS, wlp->id, wlp->name);
- fputs(NLS, fp);
+ fprintf(fp, " -W%c %s" "\n", wlp->id, wlp->name);
+ fputs("\n", fp);
close_pager(fp);
exit(EXIT_SUCCESS);
return 0; // dummy call