Listed below are the command line flags available in Csound5 in alphabetical order. Various platform implementations may not react the same way to different flags! You can view the command line flags organized by category in Command-line Flags (by Category).
The command line arguments are of 2 types: flags arguments (beginning with a “-”,“--” or “-+”), and name arguments (such as filenames). Certain flag arguments take a following name or numeric argument. Flags that start with “--” and “-+” usually take an argument themselves using “=”.
Command-line Flags
Provide an extended command-line in file “FILE”
Use 24-bit audio samples.
Use 8-bit unsigned character audio samples.
Set the audio file output format to one of the formats available in libsndfile. At present the list is aiff, au, avr, caf, flac, htk, ircam, mat4, mat5, nis, paf, pvf, raw, sd2, sds, svx, voc, w64, wav, wavex and xi. Can also be used as --format=type:format or --format=format:type to set both the file type (wav, aiff, etc.) and sample format (short, long, float, etc.) at the same time.
Write an AIFF format soundfile. Use with the -c, -s, -l, or -f flags.
Use a-law audio samples.
Number of audio sample-frames held in the DAC hardware buffer. This is a threshold on which software audio I/O (above) will wait before returning. A small number reduces audio I/O delay; but the value is often hardware limited, and small values will risk data lates. In the case of portaudio output (the default real-time output), the -B parameter (more precisely, -B / sr) is passed as the "suggested latency" value. Other than that, Csound has no control over how PortAudio interprets the parameter. The default is 1024 on Linux, 4096 on Mac OS X and 16384 on Windows.
Number of audio sample-frames per sound i/o software buffer. Large is efficient, but small will reduce audio I/O delay and improve the accuracy of the timing of real time events. The default is 256 on Linux, 1024 on MacOS X, and 4096 on Windows. In real-time performance, Csound waits on audio I/O on NUM boundaries. It also processes audio (and polls for other input like MIDI) on orchestra ksmps boundaries. The two can be made synchronous. For convenience, if NUM is negative, the effective value is ksmps * -NUM (audio synchronous with k-period boundaries). With NUM small (e.g. 1) polling is then frequent and also locked to fixed DAC sample boundaries.
Note: if both -iadc and -odac are used at the same time (full duplex real time audio), the -b option should be set to an integer multiple of ksmps.
Use Cscore processing of the scorefile.
Use 8-bit signed character audio samples.
Determines how line numbers are counted and displayed for error messages when processing a Csound Unified Document file (.csd). This flag has no effect if separate orchestra and score files are used. (Csound 5.08 and later).
0 = line numbers are relative to the beginning of the orchestra or score sections of the CSD
1 = line numbers are relative to the beginning of the CSD file. This is the default as of Csound 5.08.
Defer GEN01 soundfile loads until performance time.
Suppress all displays.
Enables displays, reverting the effect of any previous -d flag.
Reenables adding of directory of CSD/ORC/SCO to search paths, if it has been disabled by a previous --no-default-paths (e.g. in .csoundrc).
Set environment variable NAME to VALUE; note: not all environment variables can be set this way, because some are read before parsing the command line. INCDIR, SADIR, SFDIR, and SSDIR are known to work.
Append VALUE to ';' separated list of search paths in environment variable NAME (should be INCDIR, SADIR, SFDIR, or SSDIR). If a file is found in multiple directories, the last will be used.
Since Csound 5. Turns on some optimizations in expressions:
Redundant assignment operations are eliminated whenever possible. This means that for example this line a1 = a2 + a3 will compile as a1 Add a2, a3 instead of #a0 Add a2, a3 a1 = #a0 saving a temporary variable and an opcode call. Less opcode calls result in reduced CPU usage (an average orchestra may compile about 10% faster with --expression-opt, but it depends largely on how many expressions are used, what the control rate is (see also below), etc.; thus, the difference may be less, but also much more).
number of a- and k-rate temporary variables is significantly reduced. This expression
(a1 + a2 + a3 + a4)
will compile as
#a0 Add a1, a2 #a0 Add #a0, a3 #a0 Add #a0, a4 ; (the result is in #a0)
instead of
#a0 Add a1, a2 #a1 Add #a0, a3 #a2 Add #a1, a4 ; (the result is in #a2)
The advantages of less temporary variables are:
Note that this optimization (due to technical reasons) is not performed on i-rate temporary variables.
Warning | |
---|---|
When --expression-opt is turned on, it is not allowed to use the i() function with an expression argument, and relying on the value of k-rate expressions at i-time is unsafe. |
Read MIDI events from MIDI file FILE. The file should have only one track in Csound versions 4.xx and earlier; this limitation is removed in Csound 5.00.
Use single-format float audio samples (not playable on some systems, but can be read by -i, soundin and GEN01
Suppress graphics, use PostScript displays instead.
Suppress graphics, use ASCII displays instead.
Print a heartbeat after each soundfile buffer write:
no NUM, a rotating bar.
NUM = 1, a rotating bar.
NUM = 2, a dot (.)
NUM = 3, filesize in seconds.
NUM = 4, sound a bell.
No header on output soundfile. Don't write a file header, just binary samples.
Display on-line help message.
i-time only. Allocate and initialize all instruments as per the score, but skip all p-time processing (no k-signals or a-signals, and thus no amplitudes and no sound). Provides a fast validity check of the score pfields and orchestra i-variables. This option is exclusive of the --syntax-check-only flag.
Input soundfile name. If not a full pathname, the file will be sought first in the current directory, then in that given by the environment variable SSDIR (if defined), then by SFDIR. The name stdin will cause audio to be read from standard input.
The name devaudio or adc will request sound from the host audio input device. It is possible to select a device number by appending an integer value in the range 0 to 1023, or a device name separated by a : character (e.g. -iadc3, -iadc:hw:1,1). It depends on the host audio interface whether a device number or a name should be used. In the first case, an out of range number usually results in an error and listing the valid device numbers.
(max. length = 200 characters) Artist tag in output soundfile (no spaces)
(max. length = 200 characters) Comment tag in output soundfile (no spaces)
(max. length = 200 characters) Copyright tag in output soundfile (no spaces)
(max. length = 200 characters) Date tag in output soundfile (no spaces)
(max. length = 200 characters) Software tag in output soundfile (no spaces)
(max. length = 200 characters) Title tag in output soundfile (no spaces)
If set to 1, Csound will ignore all options specified in the csd file's CsOptions section. See Unified File Format for Orchestras and Scores.
Write an IRCAM format soundfile.
The client name used by Csound, defaults to 'csound5'. If multiple instances of Csound connect to the JACK server, different client names need to be used to avoid name conflicts. (Linux and Mac OS X only)
Name prefix of Csound JACK input/output ports; the default is 'input' and 'output'. The actual port name is the channel number appended to the name prefix. (Linux and Mac OS X only)
Example: with the above default settings, a stereo orchestra will create these ports in full duplex operation:
csound5:input1 (record left) csound5:input2 (record right) csound5:output1 (playback left) csound5:output2 (playback right)
Do not generate any PEAK chunks.
Override the control rate (KR) supplied by the orchestra.
Read line-oriented real-time score events from device DEVICE. The name stdin will permit score events to be typed at your terminal, or piped from another process. Each line-event is terminated by a carriage-return. Events are coded just like those in a standard numeric score, except that an event with p2=0 will be performed immediately, and an event with p2=T will be performed T seconds after arrival. Events can arrive at any time, and in any order. The score carry feature is legal here, as are held notes (p3 negative) and string arguments, but ramps and pp or np references are not.
Use long integer audio samples.
Read MIDI events from device DEVICE. If using ALSA MIDI (-+rtmidi=alsa), devices are selected by name and not number. So, you need to use an option like -M hw:CARD,DEVICE where CARD and DEVICE are the card and device numbers (e.g. -M hw:1,0). In the case of PortMidi and MME, DEVICE should be a number, and if it is out of range, an error occurs and the valid device numbers are printed.
Message level for standard (terminal) output. Takes the sum of any of the following values:
1 = note amplitude messages
2 = samples out of range message
4 = warning messages
128 = print benchmark information
And exactly one of these to select note amplitude format:
0 = raw amplitudes, no colours
32 = dB, no colors
64 = dB, out of range highlighted with red
96 = dB, all colors
256 = raw, out of range highlighted with red
512 = raw, all colours
The default is 135 (128+4+2+1), which means all messages, raw amplitude values, and printing elapsed time at the end of performance. The coloring of raw amplitudes was introduced in version 5.04.
Message level for amplitudes on standard (terminal) output.
0 = no note amplitude messages
1 = note amplitude messages
Message level for out of range messages on standard (terminal) output.
0 = no samples out of range message
1 = samples out of range message
Message level for warnings on standard (terminal) output.
0 = no warning messages
1 = warning messages
Message level for amplitude format on standard (terminal) output.
0 = absolute amplitude messages
1 = dB amplitude messages
Message level for amplitude format on standard (terminal) output.
0 = no colouring of amplitude messages
1 = colouring of amplitude messages
Message level for benchmark information on standard (terminal) output.
0 = no benchnark numbers
1 = print benchnark numbers
(min: 10, max: 10000) Maximum length of string variables + 1; defaults to 256 allowing a length of 255 characters. The length of string constants is not limited by this parameter.
Route MIDI note on message key number to pfield N as MIDI value [0-127].
Route MIDI note on message key number to pfield N as cycles per second.
Route MIDI note on message key number to pfield N as linear octave.
Route MIDI note on message key number to pfield N as oct.pch (pitch class).
Route MIDI note on message velocity number to pfield N as MIDI value [0-127].
Route MIDI note on message velocity number to pfield N as amplitude [0-0dbFS].
Save MIDI output to a file (Csound 5.00 and later only).
Enable message attributes (colors etc.); might need to be disabled on some terminals which print strange characters instead of modifying text attributes. default: true.
(max. length = 255 characters) Ignore events (other than tempo changes) in MIDI file tracks defined by pattern (for example, -+mute_tracks=00101 will mute the third and fifth tracks).
Notify (ring the bell) when score or MIDI track is done.
No sound. Do all processing, but bypass writing of sound to disk. This flag does not change the execution in any other way.
Disables adding of directory of CSD/ORC/SCO to search paths.
Disables expression optimization.
Log output to file FILE. If FILE is null (i.e. -O null or --logfile=null) all printing of messages to the console is disabled.
Output soundfile name. If not a full pathname, the soundfile will be placed in the directory given by the environment variable SFDIR (if defined), else in the current directory. The name stdout will cause audio to be written to standard output, while null results in no sound output similarly to the -n flag. If no name is given, the default name will be test.
The name devaudio or dac (you can use -odac or -o dac) will request writing sound to the host audio output device. It is possible to select a device number by appending an integer value in the range 0 to 1023, or a device name separated by a : character (e.g. -odac3, -odac:hw:1,1). It depends on the host audio interface whether a device number or a name should be used. In the first case, an out of range number usually results in an error and listing the valid device numbers.
Set orchestra macro XXX to value YYY
Enables MIDI OUT operations to device id DEVICE. This flag allows parallel MIDI OUT and DAC performance. Unfortunately the real-time timing implemented in Csound is completely managed by DAC buffer sample flow. So MIDI OUT operations can present some time irregularities. These irregularities can be reduced by using a lower value for the -b flag.
If using ALSA MIDI (-+rtmidi=alsa), devices are selected by name and not number. So, you need to use an option like -Q hw:CARD,DEVICE where CARD and DEVICE are the card and device numbers (e.g. -Q hw:1,0). In the case of PortMidi and MME, DEVICE should be a number, and if it is out of range, an error occurs and the valid device numbers are printed.
Continually rewrite the header while writing the soundfile (WAV/AIFF).
Override the sampling rate (SR) supplied by the orchestra.
Disable special handling of MIDI controllers like sustain pedal, all notes off etc., allowing the use of all the 128 controllers for any purpose. This will also set the initial value of all controllers to zero. Default: no.
(max. length = 20 characters) Real time audio module name. The default is PortAudio. Also available, depending on platform and build options: Linux: alsa, jack; Windows: mme; Mac OS X: CoreAudio. In addition, null can be used on all platforms, to disable the use of any real time audio plugin.
(max. length = 20 characters) Real time MIDI module name. Defaults to PortMidi, other options (depending on build options): Linux: alsa; Windows: mme, winmm. In addition, null can be used on all platforms, to disable the use of any real time MIDI plugin.
ALSA MIDI devices are selected by name and not number. So, you need to use an option like -M hw:CARD,DEVICE where CARD and DEVICE are the card and device numbers (e.g. -M hw:1,0).
Use short integer audio samples.
Linux only. Use real-time scheduling and lock memory. (Also requires -d and either -o dac or -o devaudio). See also --sched=N below.
Linux only. Same as --sched, but allows specifying a priority value: if N is positive (in the range 1 to 99) the scheduling policy SCHED_RR will be used with a priority of N; otherwise, SCHED_OTHER is used with the nice level set to N. Can also be used in the format --sched=N,MAXCPU,TIME to enable the use of a "watchdog" thread that terminates Csound if the average CPU usage exceeds MAXCPU percents over a peroid of TIME seconds (new in Csound 5.00).
(min: 0) Start playback at the specified time (in seconds), skipping earlier events in the score and MIDI file.
Set score macro XXX to value YYY
Csound 5. The --strset option allows setting strset string values from the command line, in the format '--strsetN=VALUE'. It is useful for passing parameters to the orchestra (e.g. file names).
Causes Csound to exit immediately after the orchestra and score parsers finish checking the syntax of the input files and before the orchestra performs the score. This option is exclusive of the --i-only flag. (Csound 5.08 and later).
Terminate the performance when the end of MIDI file is reached.
Prevents Csound from deleting the sorted score file, score.srt, upon exit.
Use the uninterpreted beats of score.srt for this performance, and set the initial tempo at NUM beats per minute. When this flag is set, the tempo of score performance is also controllable from within the orchestra. WARNING: this mode of operation is experimental and may be unreliable.
Invoke the utility program UTILITY. Use any invalid name to list the available utilities.
Use u-law audio samples.
Verbose translate and run. Prints details of orch translation and performance, enabling errors to be more clearly located.
Write a WAV format soundfile.
Extract a portion of the sorted score, score.srt, using the extract file FILE (see Extract).
Switch on dithering of audio conversion from internal floating point to 32, 16 and 8-bit formats.
List opcodes in this version:
no NUM, just show names
NUM = 0, just show names
NUM = 1, show arguments to each opcode using the format <opname> <outargs> <inargs>