NAME

       Faust  -  DSP to C/C++, CMajor, Codebox, CSharp, DLang, Interpreter, Java, LLVM IR, Julia,
       JSFX, Rust and WebAssembly (wast/wasm)

SYNOPSIS

       faust [options] file1 [file2 ...]

DESCRIPTION

       Faust (Functional Audio Stream) is a functional programming language specifically designed
       for  real-time  signal  processing  and  synthesis.  Faust targets high-performance signal
       processing applications and audio plug-ins for a variety of platforms and standards.

OPTIONS

   Input options:
       -a <file> wrapper architecture file.

       -i –inline-architecture-files inline architecture files.

       -A <dir> –architecture-dir <dir> add the directory <dir> to the architecture search path.

       -I <dir> –import-dir <dir> add the directory <dir> to the libraries search path.

       -L <file> –library <file> link with the LLVM module <file>.

   Output options:
       -o <file> the output file.

       -e –export-dsp export expanded DSP (with all included libraries).

       -uim –user-interface-macros add user interface macro definitions to the output code.

       -xml generate an XML description file.

       -json generate a JSON description file.

       -O <dir> –output-dir <dir> specify the relative directory of the generated output code and
       of additional generated files (SVG, XML...).

   Code generation options:
       -lang  <lang> –language select output language, `lang' should be c, cpp (default), cmajor,
       codebox, csharp, dlang, fir, interp, java, jax, jsfx, julia, llvm,  ocpp,  rust,  vhdl  or
       wast/wasm.

       -single  –single-precision-floats  use  single  precision floats for internal computations
       (default).

       -double –double-precision-floats use double precision floats for internal computations.

       -quad –quad-precision-floats use quad precision floats for internal computations.

       -fx –fixed-point use fixed-point for internal computations.

       -es  1|0  –enable-semantics  1|0  use  enable  semantics  when  1  (default),  and  simple
       multiplication otherwise.

       -lcc –local-causality-check check causality also at local level.

       -light –light-mode do not generate the entire DSP API.

       -clang   –clang   when   compiled   with   clang/clang++,   adds   specific   #pragma  for
       auto-vectorization.

       -nvi –no-virtual when compiled with the C++ backend, does not add the `virtual' keyword.

       -fp –full-parentheses always add parentheses around binops.

       -cir –check-integer-range check float to integer range conversion.

       -exp10 –generate-exp10 pow(10,x) replaced by possibly faster exp10(x).

       -os –one-sample generate one sample computation (same as -os0).

       -os0 –one-sample0 generate one sample computation (0 = separated control).

       -os1 –one-sample1 generate one sample computation (1 = separated control and DSP struct).

       -os2 –one-sample2 generate one sample computation (2 = separated control and  DSP  struct.
       Separation in short and long delay lines).

       -os3  –one-sample3  generate  one  sample computation (3 = like 2 but with external memory
       pointers kept in the DSP struct).

       -it –inline-table inline rdtable/rwtable code in the main class.

       -cm –compute-mix mix in outputs buffers.

       -ct –check-table check rtable/rwtable index range and generate safe access code [0/1: 1 by
       default].

       -cn  <name>  –class-name  <name>  specify  the name of the dsp class to be used instead of
       mydsp.

       -scn <name> –super-class-name <name> specify the name  of  the  super  class  to  be  used
       instead of dsp.

       -pn  <name>  –process-name  <name>  specify  the  name  of  the dsp entry-point instead of
       process.

       -mcd <n> –max-copy-delay <n> use a copy delay up to max delay <n> and a dense delay  above
       (ocpp only) or a ring buffer (defaut 16 samples).

       -mdd  <n>  –max-dense-delay  <n> use a dense delay up to max delay <n> (if enough density)
       and a ring buffer delay above (ocpp only, default 1024).

       -mdy <n> –min-density <n> minimal density (100*number of delays/max delay) to use a  dense
       delays (ocpp only, default 33).

       -dlt <n> –delay-line-threshold <n> use a mask-based ring buffer delays up to max delay <n>
       and a select based ring buffers above (default INT_MAX samples).

       -mem –memory-manager allocate static in global state using a custom memory manager.

       -ftz <n> –flush-to-zero <n> code added to recursive signals [0:no (default), 1:fabs based,
       2:mask based (fastest)].

       -rui  –range-ui  whether  to  generate code to constraint vslider/hslider/nentry values in
       [min..max] range.

       -fui –freeze-ui whether to freeze vslider/hslider/nentry to a given value (init  value  by
       default).

       -inj  <f> –inject <f> inject source file <f> into architecture file instead of compiling a
       dsp file.

       -scal –scalar generate non-vectorized code (default).

       -inpl –in-place generates code working when input and output buffers are the same  (scalar
       mode only).

       -vec –vectorize generate easier to vectorize code.

       -vs <n> –vec-size <n> size of the vector (default 32 samples).

       -lv  <n>  –loop-variant  <n> [0:fastest, fixed vector size and a remaining loop (default),
       1:simple, variable vector size].

       -omp –openmp generate OpenMP pragmas, activates –vectorize option.

       -pl –par-loop generate parallel loops in –openmp mode.

       -sch –scheduler generate tasks and use a Work  Stealing  scheduler,  activates  –vectorize
       option.

       -ocl –opencl generate tasks with OpenCL (experimental).

       -cuda –cuda generate tasks with CUDA (experimental).

       -dfs –deep-first-scheduling schedule vector loops in deep first order.

       -g –group-tasks group single-threaded sequential tasks together when -omp or -sch is used.

       -fun –fun-tasks separate tasks code as separated functions (in -vec, -sch, or -omp mode).

       -fm  <file> –fast-math <file> use optimized versions of mathematical functions implemented
       in <file>, use `faust/dsp/fastmath.cpp' when file is `def', assume functions  are  defined
       in the architecture file when file is `arch'.

       -mapp   –math-approximation   simpler/faster   versions   of   `floor/ceil/fmod/remainder'
       functions.

       -noreprc –no-reprc (Rust only) Don’t force dsp struct layout to follow C ABI.

       -ns <name> –namespace <name> generate C++ or D code in a namespace <name>.

       -vhdl-trace –vhdl-trace activate trace.

       -vhdl-float –vhdl-float uses IEEE-754 format for samples instead of fixed point.

       -vhdl-components  <file>  –vhdl-components  <file>  path  to  a  file  describing   custom
       components for the VHDL backend.

       -fpga-mem <n> –fpga-mem <n> FPGA block ram max size, used in -os2/-os3 mode.

       -wi <n> –widening-iterations <n> number of iterations before widening in signal bounding.

       -ni <n> –narrowing-iterations <n> number of iterations before stopping narrowing in signal
       bounding.

   Block diagram options:
       -ps –postscript print block-diagram to a postscript file.

       -svg –svg print block-diagram to a svg file.

       -sd –simplify-diagrams try to further simplify diagrams before drawing.

       -drf –draw-route-frame draw route frames instead of simple cables.

       -f <n> –fold <n> threshold  to  activate  folding  mode  during  block-diagram  generation
       (default 25 elements).

       -fc  <n>  –fold-complexity  <n> complexity threshold to fold an expression in folding mode
       (default 2).

       -mns <n> –max-name-size <n> threshold during block-diagram generation (default 40 char).

       -sn –simple-names use simple names (without arguments) during block-diagram generation.

       -blur –shadow-blur add a shadow blur to SVG boxes.

       -sc –scaled-svg automatic scalable SVG.

   Math doc options:
       -mdoc –mathdoc print math documentation of the Faust program in LaTeX format  in  a  -mdoc
       folder.

       -mdlang <l> –mathdoc-lang <l> if translation file exists (<l> = en, fr, ...).

       -stripmdoc –strip-mdoc-tags strip mdoc tags when printing Faust -mdoc listings.

   Debug options:
       -d –details print compilation details.

       -time –compilation-time display compilation phases timing information.

       -flist –file-list print file list (including libraries) used to eval process.

       -tg –task-graph print the internal task graph in dot format.

       -sg –signal-graph print the internal signal graph in dot format.

       -norm –normalized-form print signals in normalized form and exit.

       -me  –math-exceptions  check / for 0 as denominator and remainder, fmod, sqrt, log10, log,
       acos, asin functions domain.

       -sts –strict-select generate strict code for `selectX' even for stateless  branches  (both
       are computed).

       -wall –warning-all print all warnings.

       -t <sec> –timeout <sec> abort compilation after <sec> seconds (default 120).

   Information options:
       -h –help print this help message.

       -v –version print version information and embedded backends list.

       -libdir –libdir print directory containing the Faust libraries.

       -includedir –includedir print directory containing the Faust headers.

       -archdir –archdir print directory containing the Faust architectures.

       -dspdir –dspdir print directory containing the Faust dsp libraries.

       -pathslist –pathslist print the architectures and dsp library paths.

   Example:
       faust -a jack-gtk.cpp -o myfx.cpp myfx.dsp

SEE ALSO

       Grame Faust site at: ⟨https://faust.grame.fr⟩

BUGS

       Please report bugs to: ⟨https://github.com/grame-cncm/faust/issues⟩

AUTHOR

       Copyright  (C)  2002-2024,  GRAME  -  Centre  National  de  Creation Musicale.  All rights
       reserved.