From cb77c96b21cf1f0db2a1b9f00b0757f94f27467a Mon Sep 17 00:00:00 2001 From: Diane Bruce Date: Sun, 9 Jul 2006 15:54:37 +0000 Subject: [PATCH] - remove CRLF git-svn-id: svn+ssh://svn.code.sf.net/p/wsjt/wsjt/trunk@196 ab8295b8-cf94-4d9e-aec4-7959e3be5d79 --- WSJT_Source_Code.txt | 566 +++++++++++++++++++++---------------------- 1 file changed, 283 insertions(+), 283 deletions(-) diff --git a/WSJT_Source_Code.txt b/WSJT_Source_Code.txt index fa0a2d0a0..4b962f3f2 100755 --- a/WSJT_Source_Code.txt +++ b/WSJT_Source_Code.txt @@ -1,283 +1,283 @@ - WSJT DEVELOPMENT OVERVIEW - ------------------------- - -1 Introduction ----------------------------------------------------------------------- -WSJT is a computer program designed to facilitate Amateur Radio -communication under extreme weak-signal conditions. Three very -different coding and modulation methods are provided: one for -communication by "meteor scatter" techniques on the VHF bands; one for -meteor and ionospheric scatter, primarily on the 6 meter band; and one -for the very challenging EME (Earth-Moon-Earth) path. - - -2 Program Overview ----------------------------------------------------------------------- -WSJT's user interface is written in Python. The major Python -source-code files include: - -1. wsjt.py Defines the main-screen GUI for user interactions; - acts as "traffic cop" for orchestrating all - event-driven and time-shared activities. - -2. specjt.py Provides real-time display of received signals as - two-dimensional "waterfall" spectra. - -3. options.py Provides entry fields for user-defined parameters. - -4. astro.py Displays astronomical data for sun, moon, sky - temperature, etc. - -Smaller Python files serve various utility purposes. - -Both wsjt.py and specjt.py make calls to external procedures compiled -from Fortran and C. A variety of global data is shared among modules -through common blocks defined in Fortran. The Python code runs in a -single thread, although timers make the functions of the several main -modules appear concurrent. Fortran routines create additional threads -to be used for soundcard I/O and the decoding of received messages. - -As a small part of its overall task, the decoder for JT65 invokes an -external program named KVASD.EXE or KVASD, located in the main -WSJT directory. If this program is present it uses information on -received 64-FSK symbols and attempts to decipher it according to a -Reed Solomon (63,12) code, using the algebraic soft-decision algorithm -of Koetter and Vardy. If KVASD is not present, WSJT uses its own -internal hard-decision Reed Solomon decoder instead. Interprocess -communication between WSJT and KVASD takes place through a shared disk -file. KVASD is not an integral part of WSJT. Its algorithm is -patented, and the source code is the property of CodeVector -Technologies, LLC. However, compiled versions of KVASD may be freely -used in conjunction with WSJT for the purposes of amateur radio -weak-signal communication. - - -3 Some Functional Details ----------------------------------------------------------------------- -WSJT execution starts at the top of Python file wsjt.py. The -other Python modules are loaded and executed as needed. Fortran -routines are called to start a high-priority thread to handle -continuous A/D and D/A streams, and a background thread to decode -received or previously recorded signals. The top-level Python -code determines the overall state of program operation, e.g., -Idle, Monitoring, or Transmitting. In normal usage the operator -puts the program into Auto mode, resulting in a timed sequence of -alternating transmission and reception intervals. - - -4 Other Open-Source Software used in WSJT ----------------------------------------------------------------------- -WSJT 5.9 uses the following open source libraries: - - 1. FFTW, by Matteo Frigo and Steven Johnson, for computing Fourier - transforms - - 2. PortAudio, by Ross Bencina and Phil Burk, for audio I/O - - 3. "Secret Rabbit Code" or "libsamplerate", by Erik de Castro, for - accomplishing band-limited resampling of data - - 4. RS, by Phil Karn, KA9Q, for Reed Solomon encoding and - hard-decision decoding. - - -5 Platform-Dependent Notes ----------------------------------------------------------------------- -The Python code should run on any supported Python platform. Most of -the remaining code can be compiled for Linux, FreeBSD, unix, or OS/X, -as well as Windows. Platform-dependent versions of FFTW, PortAudio, -and libsamplerate may need to be installed. - -Methods are provided for creating additional threads and setting their -runtime priorities in Windows, Linux, and FreeBSD. - - -6 Partial List of Functions and Subroutines, and their purposes ----------------------------------------------------------------------- - Routines for audio startup, decoding, display computations - blanker.f90 Noise blanker - fivehz.f90 Called by PortAudio callback - flat2.f Flatten the spectrum for waterfall display - pix2d65.f90 Computes pixels for waterfall display - pix2d.f90 Computes pixels for waterfall display - runqqq.f90 Executes another process - - wsjtgen.f90 Generates Tx waveforms - abc441.f90 Part of FSK441 generator - gen65.f Generate JT65 waveform - chkmsg.f Check a JT65 message for presence of 'OOO' - encode65.f Encode a JT65 message - getpfx1.f Handle extra DXCC prefixes - getpfx2.f ... - graycode.f Convert binary to/from Gray code - nchar.f Convert number, letter, space to 0-36 - packcall.f Routines for JT65 source encoding - packdxcc.f ... - packgrid.f ... - packmsg.f ... - packtext.f ... - pfx.f ... - gen6m.f Generate JT6M waveform - gentone.f Generate tone for JT6M message - gencw.f Generate CW waveform - morse.f Convert ascii to morse dits - gencwid.f Generate a CW ID message - grid2k.f Convert grid locator to integer - interleave63.f Interleave JT65 symbols - - gcom1.f90 Global commons for sharing data among Fortran routines - gcom2.f90 and between Fortran and Python - gcom3.f90 - gcom4.f90 - - makedate.f90 Gererates makedate_sub.f90 - - Astronomical calculations: - - astro.f Computes Az, El, Doppler for Sun, Moon, etc. - astropak.f "Includes" for astro supoport routines - azdist.f Computes azimuth, distance, etc., between two locators - coord.f Spherical trig utility - dcoord.f Spherical trig utility in double precision - deg2grid.f Convert lat/long (degrees) to grid locator - dot.f Compute dot product - ftsky.f Get sky temperature from data file - geocentric.f Convert geodetic to geocentric coords - GeoDist.f Compute azimuth and distance between two locators - grid2deg.f Convert grid locator to lat/long - moon2.f Compute moon location at specified date and time - MoonDop.f Compute lunar doppler shift and related quantities - sun.f Compure sun location at specified date and time - toxyz.f Convert between polar and cartesian coords - - Utilities: - db.f Compute decibels from ratio - gasdev.f Generate Gaussian random numbers - igray.f Gray code - indexx.f Sort routine - set.f Move, add, zero, ... - pctile.f Sort an array and get specified percentile - ran1.f Uniform random numbers - rfile2.f Read a binary file (Linux) - sort.f Sort an array - - FFTs: - fftw3.f Fortran definitions for FFTW - four2a.f Wrapper to make FFTW look like four2 - four2.f FFT in Fortran (a;ternative to using FFTW) - ps.f Compute power spectrum - xfft.f Real to complex FFT wrapper - - - Routines for Decoding: - wsjt1.f Top-level decoding routine; handles FSK441 especially - avesp2.f Computes average spectrum - bzap.f Find and remove birdies - detect.f Measure power in FSK441 tones - flatten.f Flatten the spectrum - longx.f Decode normal FSK441 messages - lpf1.f Quick-and-dirty lowpass filter - mtdecode.f Multi-tone decoding - ping.f Find pings - s2shape.f Flatten the 2d spectrum - smooth.f Smooth by boxcar averaging - spec2d.f Compute 2d spectrum for FSK441 - stdecode.f Decode FSK441 shorthand messages - sync.f Synchronize FSK441 data - - wsjt65.f JT65 decoder - afc65.f AFC for JT65 - avemsg65.f Decode average message - decode65.f Decode JT65 message - deep65.f Deep search decoder - demod64a.f Compute probabilities of transmitted symbols - extract.f Extract message from JT65 symbol probabilities - flat1.f Flatten the passband - getsnr.f Compute snr or shorthand message - k2grid.f Convert integer to 4-digit grid locator - limit.f Clipper for JT65 - peakup.f Interpolate to find fractional-bin peak - setup65.f Initialize pseudorandom sync vector - short65.f Detect JT65 shorthand messages - slope.f Remove a straight-line slope - spec2d65.f Compute 2d spectrum for JT65 - spec441.f Compute spectra for FSK441 decoding - sync65.f Synchronize a JT65 signal - unpackcall.f Unpack JT65 message parts ... - unpackgrid.f ... - unpackmsg.f ... - unpacktext.f ... - xcor.f Compute cross-correlation for JT65 sync - - decode6m.f Decode JT65 signal - syncf0.f First frequency sync - syncf1.f Second freq sync - synct.f First time sync - avemsg6m.f Get average JT65 message - - JT65code.f Program to illustrate and test JT65 coding - - Hard-Decision Reed Solomon Codec - decode_rs.c Decoder - encode_rs.c Encoder - init_rs.c Initialization routine - wrapkarn.c Wapper for Fortran - - cutil.c Fortran wrappers for some basic C functions - jtaudio.c Audio I/O, calls PortAudio routines - padevsub.c Select desired audio device - ptt.c PTT via serial port DTR/RTS - ptt_linux.c Ditto for Linux (dummy at present) - resample.c Wrapper for resample routine - start_threads.c Start audio and decoder threads - - -7 Compiling Instructions ----------------------------------------------------------------------- -Scripts are provided for compiling WSJT in both Windows and Linux. -They are presently set up to use Compaq Visual Fortran (v6.6) and -Microsoft C (v6.0) in Windows, and g95 and gcc in Linux. My -installation has Python 2.3. Additional tools include f2py, which -compiles Fortran and C to make Python extensions; the Python Imaging -Library; Numeric Python; and the SciPy distribution utilities. - -Linux Windows Function -------------------------------------------------------------------- - g0 g0.bat Compiles the hard-decision Reed Solomon Decoder - Needs to be done only once. - g1 g1.bat Compiles the remaining Fortran and C to produce Python - extension module audio.pyd (Windows) or audio.so - (Linux). - g2 g2.bat Uses McMillan Installer to create an f2py specification - file, wsjt.spec - g3 g3.bat Uses Installer to produce a distributable file WSJT6.EXE - (Windows). - g99 g99.bat Runs all of the g[0-3] scripts. - -These steps produce a distributable file WSJT6.EXE (Windows) or wsjt6 -(Linux) that contains all necessary software components, so that the -end user does not need to install Python or any of its other -extensions, or the compilers. - -A configuration script and Makefile facility is also provided. -Assuming that all of the pre-requisites are properly installed, WSJT -can now be compiled in Windows as follows: - - C> copy Makefile.win Makefile - C> nmake - -In Linux or FreeBSD, do the following: - - $ ./configure --enable-portaudio (or --enable-alsa or --enable-oss) - $ make - - -8 Present status (January 17, 2006) ----------------------------------------------------------------------- - -WSJT version 5.9.2 (built from SVN revision 115) has been released for -Windows. It is is fully functional in Linux and BSD, as well, but -presently need to be compiled locally. In due course we plan to -provide distributions for standard *nix distributions. - - + WSJT DEVELOPMENT OVERVIEW + ------------------------- + +1 Introduction +---------------------------------------------------------------------- +WSJT is a computer program designed to facilitate Amateur Radio +communication under extreme weak-signal conditions. Three very +different coding and modulation methods are provided: one for +communication by "meteor scatter" techniques on the VHF bands; one for +meteor and ionospheric scatter, primarily on the 6 meter band; and one +for the very challenging EME (Earth-Moon-Earth) path. + + +2 Program Overview +---------------------------------------------------------------------- +WSJT's user interface is written in Python. The major Python +source-code files include: + +1. wsjt.py Defines the main-screen GUI for user interactions; + acts as "traffic cop" for orchestrating all + event-driven and time-shared activities. + +2. specjt.py Provides real-time display of received signals as + two-dimensional "waterfall" spectra. + +3. options.py Provides entry fields for user-defined parameters. + +4. astro.py Displays astronomical data for sun, moon, sky + temperature, etc. + +Smaller Python files serve various utility purposes. + +Both wsjt.py and specjt.py make calls to external procedures compiled +from Fortran and C. A variety of global data is shared among modules +through common blocks defined in Fortran. The Python code runs in a +single thread, although timers make the functions of the several main +modules appear concurrent. Fortran routines create additional threads +to be used for soundcard I/O and the decoding of received messages. + +As a small part of its overall task, the decoder for JT65 invokes an +external program named KVASD.EXE or KVASD, located in the main +WSJT directory. If this program is present it uses information on +received 64-FSK symbols and attempts to decipher it according to a +Reed Solomon (63,12) code, using the algebraic soft-decision algorithm +of Koetter and Vardy. If KVASD is not present, WSJT uses its own +internal hard-decision Reed Solomon decoder instead. Interprocess +communication between WSJT and KVASD takes place through a shared disk +file. KVASD is not an integral part of WSJT. Its algorithm is +patented, and the source code is the property of CodeVector +Technologies, LLC. However, compiled versions of KVASD may be freely +used in conjunction with WSJT for the purposes of amateur radio +weak-signal communication. + + +3 Some Functional Details +---------------------------------------------------------------------- +WSJT execution starts at the top of Python file wsjt.py. The +other Python modules are loaded and executed as needed. Fortran +routines are called to start a high-priority thread to handle +continuous A/D and D/A streams, and a background thread to decode +received or previously recorded signals. The top-level Python +code determines the overall state of program operation, e.g., +Idle, Monitoring, or Transmitting. In normal usage the operator +puts the program into Auto mode, resulting in a timed sequence of +alternating transmission and reception intervals. + + +4 Other Open-Source Software used in WSJT +---------------------------------------------------------------------- +WSJT 5.9 uses the following open source libraries: + + 1. FFTW, by Matteo Frigo and Steven Johnson, for computing Fourier + transforms + + 2. PortAudio, by Ross Bencina and Phil Burk, for audio I/O + + 3. "Secret Rabbit Code" or "libsamplerate", by Erik de Castro, for + accomplishing band-limited resampling of data + + 4. RS, by Phil Karn, KA9Q, for Reed Solomon encoding and + hard-decision decoding. + + +5 Platform-Dependent Notes +---------------------------------------------------------------------- +The Python code should run on any supported Python platform. Most of +the remaining code can be compiled for Linux, FreeBSD, unix, or OS/X, +as well as Windows. Platform-dependent versions of FFTW, PortAudio, +and libsamplerate may need to be installed. + +Methods are provided for creating additional threads and setting their +runtime priorities in Windows, Linux, and FreeBSD. + + +6 Partial List of Functions and Subroutines, and their purposes +---------------------------------------------------------------------- + Routines for audio startup, decoding, display computations + blanker.f90 Noise blanker + fivehz.f90 Called by PortAudio callback + flat2.f Flatten the spectrum for waterfall display + pix2d65.f90 Computes pixels for waterfall display + pix2d.f90 Computes pixels for waterfall display + runqqq.f90 Executes another process + + wsjtgen.f90 Generates Tx waveforms + abc441.f90 Part of FSK441 generator + gen65.f Generate JT65 waveform + chkmsg.f Check a JT65 message for presence of 'OOO' + encode65.f Encode a JT65 message + getpfx1.f Handle extra DXCC prefixes + getpfx2.f ... + graycode.f Convert binary to/from Gray code + nchar.f Convert number, letter, space to 0-36 + packcall.f Routines for JT65 source encoding + packdxcc.f ... + packgrid.f ... + packmsg.f ... + packtext.f ... + pfx.f ... + gen6m.f Generate JT6M waveform + gentone.f Generate tone for JT6M message + gencw.f Generate CW waveform + morse.f Convert ascii to morse dits + gencwid.f Generate a CW ID message + grid2k.f Convert grid locator to integer + interleave63.f Interleave JT65 symbols + + gcom1.f90 Global commons for sharing data among Fortran routines + gcom2.f90 and between Fortran and Python + gcom3.f90 + gcom4.f90 + + makedate.f90 Gererates makedate_sub.f90 + + Astronomical calculations: + + astro.f Computes Az, El, Doppler for Sun, Moon, etc. + astropak.f "Includes" for astro supoport routines + azdist.f Computes azimuth, distance, etc., between two locators + coord.f Spherical trig utility + dcoord.f Spherical trig utility in double precision + deg2grid.f Convert lat/long (degrees) to grid locator + dot.f Compute dot product + ftsky.f Get sky temperature from data file + geocentric.f Convert geodetic to geocentric coords + GeoDist.f Compute azimuth and distance between two locators + grid2deg.f Convert grid locator to lat/long + moon2.f Compute moon location at specified date and time + MoonDop.f Compute lunar doppler shift and related quantities + sun.f Compure sun location at specified date and time + toxyz.f Convert between polar and cartesian coords + + Utilities: + db.f Compute decibels from ratio + gasdev.f Generate Gaussian random numbers + igray.f Gray code + indexx.f Sort routine + set.f Move, add, zero, ... + pctile.f Sort an array and get specified percentile + ran1.f Uniform random numbers + rfile2.f Read a binary file (Linux) + sort.f Sort an array + + FFTs: + fftw3.f Fortran definitions for FFTW + four2a.f Wrapper to make FFTW look like four2 + four2.f FFT in Fortran (a;ternative to using FFTW) + ps.f Compute power spectrum + xfft.f Real to complex FFT wrapper + + + Routines for Decoding: + wsjt1.f Top-level decoding routine; handles FSK441 especially + avesp2.f Computes average spectrum + bzap.f Find and remove birdies + detect.f Measure power in FSK441 tones + flatten.f Flatten the spectrum + longx.f Decode normal FSK441 messages + lpf1.f Quick-and-dirty lowpass filter + mtdecode.f Multi-tone decoding + ping.f Find pings + s2shape.f Flatten the 2d spectrum + smooth.f Smooth by boxcar averaging + spec2d.f Compute 2d spectrum for FSK441 + stdecode.f Decode FSK441 shorthand messages + sync.f Synchronize FSK441 data + + wsjt65.f JT65 decoder + afc65.f AFC for JT65 + avemsg65.f Decode average message + decode65.f Decode JT65 message + deep65.f Deep search decoder + demod64a.f Compute probabilities of transmitted symbols + extract.f Extract message from JT65 symbol probabilities + flat1.f Flatten the passband + getsnr.f Compute snr or shorthand message + k2grid.f Convert integer to 4-digit grid locator + limit.f Clipper for JT65 + peakup.f Interpolate to find fractional-bin peak + setup65.f Initialize pseudorandom sync vector + short65.f Detect JT65 shorthand messages + slope.f Remove a straight-line slope + spec2d65.f Compute 2d spectrum for JT65 + spec441.f Compute spectra for FSK441 decoding + sync65.f Synchronize a JT65 signal + unpackcall.f Unpack JT65 message parts ... + unpackgrid.f ... + unpackmsg.f ... + unpacktext.f ... + xcor.f Compute cross-correlation for JT65 sync + + decode6m.f Decode JT65 signal + syncf0.f First frequency sync + syncf1.f Second freq sync + synct.f First time sync + avemsg6m.f Get average JT65 message + + JT65code.f Program to illustrate and test JT65 coding + + Hard-Decision Reed Solomon Codec + decode_rs.c Decoder + encode_rs.c Encoder + init_rs.c Initialization routine + wrapkarn.c Wapper for Fortran + + cutil.c Fortran wrappers for some basic C functions + jtaudio.c Audio I/O, calls PortAudio routines + padevsub.c Select desired audio device + ptt.c PTT via serial port DTR/RTS + ptt_linux.c Ditto for Linux (dummy at present) + resample.c Wrapper for resample routine + start_threads.c Start audio and decoder threads + + +7 Compiling Instructions +---------------------------------------------------------------------- +Scripts are provided for compiling WSJT in both Windows and Linux. +They are presently set up to use Compaq Visual Fortran (v6.6) and +Microsoft C (v6.0) in Windows, and g95 and gcc in Linux. My +installation has Python 2.3. Additional tools include f2py, which +compiles Fortran and C to make Python extensions; the Python Imaging +Library; Numeric Python; and the SciPy distribution utilities. + +Linux Windows Function +------------------------------------------------------------------- + g0 g0.bat Compiles the hard-decision Reed Solomon Decoder + Needs to be done only once. + g1 g1.bat Compiles the remaining Fortran and C to produce Python + extension module audio.pyd (Windows) or audio.so + (Linux). + g2 g2.bat Uses McMillan Installer to create an f2py specification + file, wsjt.spec + g3 g3.bat Uses Installer to produce a distributable file WSJT6.EXE + (Windows). + g99 g99.bat Runs all of the g[0-3] scripts. + +These steps produce a distributable file WSJT6.EXE (Windows) or wsjt6 +(Linux) that contains all necessary software components, so that the +end user does not need to install Python or any of its other +extensions, or the compilers. + +A configuration script and Makefile facility is also provided. +Assuming that all of the pre-requisites are properly installed, WSJT +can now be compiled in Windows as follows: + + C> copy Makefile.win Makefile + C> nmake + +In Linux or FreeBSD, do the following: + + $ ./configure --enable-portaudio (or --enable-alsa or --enable-oss) + $ make + + +8 Present status (January 17, 2006) +---------------------------------------------------------------------- + +WSJT version 5.9.2 (built from SVN revision 115) has been released for +Windows. It is is fully functional in Linux and BSD, as well, but +presently need to be compiled locally. In due course we plan to +provide distributions for standard *nix distributions. + +