Flite: a small, fast speech synthesis engine
Contents
1. files This process uses a binary executable built as part of the Flite build process flite tools flite_sort to sort the indices into the same sorting order required for flite to run Using unix sort may or may not give the same result due to definitions of lexicographic order so we use the very same function in C that will be used in flite to ensure that a consistent order is given bin build_flite idx All the necessary C files should now have been built in flite and you may compile them by cd flite make This should give a library and an executable called flite that can run as flite Hello World Assuming a general voice For ldom voices it will only be able to say things in its domain This flite binary offers the same options as standard the standard flite binary compiled in the Flite build but with your voice rather than the distributed voices Almost certainly this process will not run smoothly for you Building voices is still a very hard thing to do and problems will probably exist This build process does not deal with customization for the given voices Thus you will need to edit flite VOICE c to set intonation ranges and duration stretch for your particular voice For example in our cmu_us_sls_diphone voice a US English female diphone voice We had to change the default parameters from feat set float v 5features int fO target mean 110 0 feat set float v features2. 8 3 Lexicon Conversion 22 025 ernennen ee 26 8 4 Language Conversion 26 9 Porting to new platforms 27 10 Future developments 29
3. int fO target stddev 15 0 feat set float v 5features duration stretch 1 0 to feat set float v 5features int fO target mean 167 0 feat set float v features int fO target stddev 25 0 feat set float v 5features duration stretch 1 0 Note this conversion is limited Because it depends on the C compiler to do the final conversion into binary object format a good idea in general for portability you can easily generate files too big for the C compiler to deal with We have spent a some time investi gating this so the largest possible voices can be converted but it is still too limited for our larger voices In general the limitation seems to be best quantified by the number of pitch periods in the database After about 100k pitch periods the files get too big to handle There are probably solutions to this but we have not yet investigated them This limitation doesn t seem to be an issue with the diphone voices as they are typically much smaller than unit selection voices 26 Flite a small fast speech synthesis engine 8 2 Statistical Voice Building The process of building from a clustergen cg voice is also supported It is assumed the environment variable FLITEDIR is set export FLITEDIR home awb projects flite After you build the clustergen voice you can convert by first setting up the skeleton files in the flite directory FLITEDIR tools setup flite Assuming etc voice defs properly iden
4. continually remind you that a Palm device is not a full computer its an extention of the desktop But seeing devices like the Ireo 600 can easily make one forget and want the device to do real computational work PalmOS is designed for small light weight devices so it is easy to start hitting the boundaries of its capabilities when trying to port larger aplications PalmOS5 0 still has interesting limitations in the m68k domain int s are 16 bit and using memory segments greater than 65K require special work Quaint as these are they do significantly affect the port At first we thought that only the key computationally expensive parts would be in ARM so called armlets but trying to compile the whole flite code in m68k with long short distinctions and sub 64K code segment limitations was just too hard Thus all the Flite code USEnglish Lexicon and diphone databases actually are compiled in the ARM domain There is however no system support in the ARM domain so call backs to m68k system functions are necessary With care calls to system functions can be signifi cantly limited so only a few call backs needed to be written These are in palm pocore I believe CodeWarrior has better support for this but in this case we rolled our own though help from other open source examples was important We manage the m68k ARM interface through PEAL which is basically a linker for ARM code and calling mechanism from m68k PEAL deals with globals an
5. is necessary in a synthesizer and also how we can trade size flexibility and speed with the quality of synthesized output Defining that relationship is a research issue We are also advocates of speech technology within other research areas and the ability to offer support on new platforms such as PDAs and wearables allows for more interesting speech applications such as speech to speech translation robots and interactive personal digital assistants that will prove new and interesting areas of research Thus having a platform that others around us can more easily integrate into their research makes our work more satisfying 5 2 Key Decisions The basic architecture of Festival is good It is well proven Paul Taylor Alan W Black and Richard Caley spent many hours debating low level aspects of representation and structure that would both be adequate for current theories but also allow for future theories too The heterogeneous relation graphs HRG are theoretically adequate computationally efficient and well proven Thus both because HRGs have such a background and that Flite is to be compatible with voices and models developed in Festival Flite uses HRGs as its basic utterance representation structure Most of a synthesizer is in its data lexicons unit database etc the actual synthesis code it pretty small In Festival most of that data exists in external files which are loaded on Chapter 5 Flite Design 15 demand This is obvious
6. memory and CPU power are limited and in some cases do not even have a conventional operating system The second community is for those running synthesis servers for many clients Here although large fixed databases are acceptable the size of memory required per utterance and speed in which they can be synthesized is crucial However in spite of the decision to build a new synthesis engine we see this as being tightly coupled into the existing free software synthesis tools or Festival and the FestVox voice building suite Flite offers a companion run time engine Our intended mode of development is to build new voices in FestVox and debug and tune them in Festival Then for deployment the FestVox format voice may be semi automatically compiled into a form that can be used by Flite In case some people feel that development of a small run time synthesizer is not an appropriate thing to do within a University and is more suited to commercial development we have a few points which they should be aware of that to our mind justify this work We have long felt that research in speech and language should have an identifiable link to ultimate commercial use In providing a platform that can be used in consumer products that falls within the same framework as our research we can better understand what research issues are actually important to the improvement our work In considering small useful synthesizers it forces a more explicit definition of what
7. Flite a small fast speech synthesis engine System documentation Edition 1 4 for Flite version 1 4 4th January 2009 by Alan W Black and Kevin A Lenzo Copyright c 2001 2009 Carnegie Mellon University all rights reserved Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies Permission is granted to copy and distribute modified versions of this manual under the con ditions for verbatim copying provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one Permission is granted to copy and distribute translations of this manual into another lan guage under the above conditions for modified versions except that this permission notice may be stated in a translation approved by the Carnegie Mellon University Chapter 1 Abstract 1 1 Abstract This document provides a user manual for flite a small fast run time speech synthesis engine This manual is nowhere near complete Flite offers text to speech synthesis in a small and efficient binary It is designed for embedded systems like PDAs as well large server installation which must serve synthesis to many ports Flite is part of the suite of free speech synthesis tools which include Edin burgh University s Festival Speech Synthesis System http www festvox org festival and Carnegie Mellon University s FestVox
8. d even added support for large data segments for this work though in the end we don t actually use them Some peal code is in our distribution which is valid under his licence but if you use a different version of peal you may need to ensure they are matched by updating the peal code in palm We used version peal 2004 12 29 The other palm specific function we require is par http www djw org product palm par which is part of the prc tgz distribution We use par to construct resources from raw binary files There are other programs that can do this but we found this one adequate Again you must compile this and ensure par is in your path Note no part of par ends up in the distributed system Given all of the above you should be able to compile the Palm code and the flop application configure target arm palmos make The resulting application should be in palm flop flop prc which can then be installed on your Plam device 10 Flite a small fast speech synthesis engine pilot xfer i palm flop flop prc Setting up the tools and getting a working Linux Palm conduit is not particularly easy but it is possible Although some attempt was made to use the Simulator PalmOS 5 0 ARM simulator under Windows it never really contributed to the development The POSE m68k emulator though was use to develop the flop application itself 4 3 1 Some notes on the PalmOS port Throughout the PalmOS developer documentation they
9. d spliting the code into 65K chunks automatically Flite does however have a number of large data segments in the lexicon and the voice database itself PEAL can deal with this but it loads large segments by copying them into the dynamic heap which on most Palm device is less than 2M This isn t big enough Thus we changed Flite to restrict the number of large data sgements it used and also did some new compression on them The five segments the lts rules the lexical entries the voice LPC coefficients the voice residuals and the voice residual index are now treated a data segments that are split into 65400 sized segments and loaded into feature memory space which is in the storage heap and typically much bigger This means we do need about 2 3 megabyte free on the device to run We did look into just indexing the 65400 byte segments directly but that looked like being too much work and we re only going to be able to run on 16M sized Palms anyway there aren t any 8M ARM Palms with audio expect maybe some SmartPhones Using Flite from m68k land involves getting a flite info structure from flite_init This contains a bunch of fields that be set and sent to the ARM domain Flite synthesizer proper within which other output fields may be set and returned This isn t a very general structure but is adequate Note the necessary byte swapping for the top level fileds is done for the this structure before calling the ARM native arm flite synt
10. e synth phones const char phones cst voice voice synthesize the given phones with the given voice and returns an utterance from it for further processing and access cst voice flite voice select const char name returns a pointer to the voice named name Will retrurn NULL if there is not match if name NULL then the first voice in the voice list is returned int flite voice add lex addenda cst voice v const cst string lexfile loads the pronunciations from lexfile into the lexicon identified in the given voice which will cause all other voices using that lexicon to also get this new addenda list An example lexicon file is given in flite tools examples lex Words may be in double quotes an optional part of speech tag may be give A colon separates the headword postag from the list of phonemes Stress values if used in the lexicon must be specified Bad phonemes will be complained about on standard out 7 5 Streaming Synthesis In 1 4 support was added for streaming synthesis Basically you may provided a call back function that will be called with waveform data immediately when it is available This potentially can reduce the dealy bewteen sending text to the synthesized and having audio available The support is through a call back function of type int audio stream chunk const cst wave w int start int size int last void user If the utterance feature streaming info is set which can be set in a voice or in a
11. ed the Mel frequency Cepstral Coefficients These are assumed to have been cleared and are in mcep as they are necessary for running the voice in Festival T his stage simply constructs information about the range of the mcep parameters bin build flite mcep The next stage is to construct the STS files Short Term Signals STS are built for each pitch period in the database These are ascii files one for each utterance file in the database with LPC coefficients and ulaw encoded residuals for each pitch period These are built using a binary executable built as part of the Flite build flite tools find_sts bin build flite sts Note that the flite code expects waveform files to be in Microsoft RIFF format and cannot deal with files in other formats Some earlier versions of the Edinburgh Speech Tools used NIST as the default header format This is likely to cause flite and its related programs not work So do ensure you waveform files are in riff format ch wave info wav will tell you the format And the following fill convert all you wave files mv wav wav nist mkdir wav cd wav nist for i in wav do ch wave otype riff o wav i i done Chapter 8 Converting FestVox Voices 25 The next stage is to convert the index to the required C format For diphone voices this takes the dic est index files for clunit ldom voices it takes the festival clunit VOICE catalogue and festival trees VOICE tree
12. estival requires untidy solutions of copying data out of objects processing it and copying back because direct access particularly in some signal processing routines is just too inefficient Another major criticism of Festival is the use of Scheme as the interpreter language Even though it is a simple to implement language that is adequate for Festival s needs and can be easily included in the distribution people still hate it Often these people do learn to use it and appreciate how run time configurability is very desirable and that new voices may be added without recompilation Scheme does have garbage collection which makes leaky programs much harder to write and as some of the intended audience for developing in Festival will not be hard core programmers a safe programming language seems very desirable 14 Flite a small fast speech synthesis engine After taking into consideration all of the above it was decided to develop Flite as a new system written in ANSI C C is much more portable than C as well as offering much lower level control of the size of the objects and data structure it uses Flite is not intended as a research and development platform for speech synthesis Festival is and will continue to be the best platform for that Flite however is designed as a run time engine when an application needs to be delivered It specifically addresses two communities First as a engine for small devices such as PDAs and telephones where the
13. fd NULL mces gt count 1 asi new_audio_streaming_info asi gt asc example_audio_stream_chunk asi gt userdata mcs feat_set voice gt features streaming_info audio_streaming_info_val asi Chapter 8 Converting FestVox Voices 23 8 Converting Fest Vox Voices As of 1 2 initial scripts have been added to aid the conversion of Fest Vox voices to Flite In general the conversion cannot be automatic For example all specific Scheme code written for a voice needs to be hand converted to C to work in Flite this can be a major task Simple conversion scripts are given as examples of the stages you need to go through These are designed to work on standard English diphone sets and simple limited domain voices The conversion technique will almost certainly fail for large unit selection voices due to limitations in the C compiler more discussion below In 1 4 we have also added support for converting clustergen voices too which is a little easier see section below 8 1 Cocantenative Voice Building Conversion is basically taking the description of units clunit catalogue or diphone index and constructing some C files that can be compiled to form a usable database Using the C compiler to generate the object files has the advantage that we do not need to worry about byte order alignment and object formats as the C compiler for the particular target platform should be able to generate the right code Before you start ens
14. gine code though we have done some optimizations e Marcela Charfuelan DFKI For the mixed excitation techniques but no direct code These originally came from NITECH but we understood the technqiues from Marcela s Open Mary Java code and implemented them in our optimized version of MLSA e David Huggins Daines much of the very early clunits code porting to multiple plat forms substantial code tidy up and configure autoconf guidance up to 2001 e Cepstral LLC http cepstral com For supporting DHD to spend time on flite and passing back the important fixes and enhancements while on a project funded by the Portuguese Foundation for Science and Technology FCT Praxis XXI program e Willie Walker lt william walker sun com gt and the Sun Speech Group lots of low level bugs and fixes e Henry Spencer For the regex code e University of Edinburgh for releasing Festival for free making a companion runtime synthesizer a practical project much of the design of flite relies on the architecture decisions made in the Festival Speech Synthesis Systems and the Edinburgh Speech Tools The duration cart tree and intonation accent and F0 models for the US English voice were derived from the models in the Festival distribution which in turn were trained from the Boston University FM Radio Data Corpus e Carnegie Mellon University The included lexicon is derived from CMULEX and the letter to sound rules are constructed using the Len
15. h text and swapped back again after returning Chapter 4 Installation 11 Display playing audio pointy clicky event thingies are all done in the m68K domain 4 3 2 Using the PalmOS There are three basic functions that access the ARM flite functions flite initO flite_ synth text and flite end Chapter 5 Flite Design 13 5 Flite Design 5 1 Background Flite was primarily developed to address one of the most common complaints about the Festival Speech Synthesis System Festival is large and slow even with the software bloat common amongst most products and that that bloat has helped machines get faster have more memory and large disks still Festival is criticized for its size Although sometimes this complaint is unfair it is valid and although much work was done to ensure Festival can be trimmed and run fast it still requires substantial resources per utterance to run After some investigation to see if Festival itself could be trimmed down it became clear because there was a core set of functions that were sufficient for synthesis that a new implementation containing only those aspects that were necessary would be easier than trimming down Festival itself Given that a new implementation was being considered a number of problems with Festival could also be addressed at the same time Festival is not thread safe and although it runs under Windows in server mode it relies on the Unix centric view of fast forks with copy o
16. it can contain is designed so there are no conflicts However it depends on the fact that a pointer to a cst val is guaranteed to lie on a even address boundary which is true for all architectures I know of Thus the distinction between between cons i e list objects and atomic values can be determined by the odd evenness of the least significant bits of the first address in a cst val In some circles this is considered hacky in others elegant This was done in flite to ensure that the most common structure is 8 bytes rather than 12 which saves significantly on memory All cst val s except those of type cons are reference counted A few functions generate new lists of cst val s which the user should be careful about as they need to explicitly delete them notably the lexicon lookup function that returns a list of phonemes Everything that is added to an utterance will be deleted and or dereferenced when the utterance is deleted Like Festival user types can be added to the cst vals In Festival this can be done on the fly but because this requires the updating of some list when each new type is added this wouldn t be thread safe Thus an explicit method of defining user types is done in src utils cst val user c This is not as neat as defining on the fly or using a regis tration function but it is thread safe and these user types wont changes often Chapter 7 APIs 19 7 APIs Flite is a library that we expected will be embedded in
17. itted play is assumed You can also explicitly set the outputtype with the o flag flite f doc alice o alice wav 7 2 Voice selection All the voices in the distribution are collected into a single simple list in the global variable flite voice list You can select a voice from this list from the command line flite voice awb f doc alice o alice wav And list which voices are currently supported in the binary with flite lv The voices which get linked together are those listed in the VOICES in the main Makefile You can change that as you require 20 Flite a small fast speech synthesis engine 7 3 C example Each voice in Flite is held in a structure a pointer to which is returned by the voice registration function In the standard distribution the example diphone voice is cmu_us_ kal Here is a simple C program that uses the flite library include flite h register cmu us kal int main int argc char argv cst voice v if argc 2 fprintf stderr usage flite test FILE n exit 1 flite_init v register cmu us kal NULL flite file to speech argv 1 v play 1 Assuming the shell variable FLITEDIR is set to the flite directory the following will compile the system with appropriate changes for your platform if necessary gcc Wall g o flite test flite test c I FLITEDIR include L FLITEDIR lib lflite cmu us kal lflite usenglish 1flite_cmulex lflite lm 7 4 Public Fu
18. libraries but will link the executables to the shared libraries thus you will need to install the libraries in a place that your dynamic linker will find them cf etc ld so conf or set LD_LIBRARY_PATH appropriately make install Will installe the binaries bin flite include files and libraries in appropriate sub directories of the defined install directory usr local by default You can change this at configure time with configure prefix opt 4 1 Windows Support 4 2 Window CE Support Flite has been successfully compiled by a number of different groups under Windows CE The system should compile under Embedded Visual Studio but we not have the full details The system as distributed does compile under the gcc mingw32ce toolchain available from http cegcc sourceforge net The current version can be compiled and run under WinCE with a primitive application called flowm flowm is a simple application that allows playing of typed in text or full text to speech on a file Files should be a simple ascii text files txt The application allows the setting of the byte position to start synthesis from Assuming you have mingw32ce installed you can configure as 8 Flite a small fast speech synthesis engine configure target arm wince make The resulting binary is given in wince flowm exe If you copy this onto your Windows Mobile device and run it it should allow you to speak typed in tex
19. lmOS Chapter 4 Installation 9 SDK 5 0 from palmOne http www palmone com us developers This is free but does require registration Out of the lots of different files you can get for palmOne you will eventually find palmos sdk 5 0r3 1 noarch rpm install that on your linux machine rpm i palmos sdk 5 0r3 1 noarch rpm You will also need the various gcc based cross compilers http prc tools sourceforge net prc tools 2 3 1 1386 rpm prc tools arm 2 3 1 1386 rpm prc tools htmldocs 2 3 1 noarch rpm The Palm Resource compiler http pilrc sourceforge net pilrc 3 1 1 i386 rpm And maybe the emulator http www palmos com dev tools emulator pose 3 5 2 i386 rpm pose skins 1 9 1 noarch rpm pose skins handspring 3 1H4 1 noarch rpm Though as POSE doesn t support ARM code Simulator does but that only works under Windows POSE is only useful for debugging the m68k parts of the app Install these rpm i prc tools 2 3 1 1386 rpm rpm i prc tools arm 2 3 1 1386 rpm rpm i prc tools htmldocs 2 3 1 noarch rpm rpm i pilrc 3 1 1 1386 rpm rpm i pose 3 5 2 1386 rpm rpm i pose skins 1 9 1 noarch rpm rpm i pose skins handspring 3 1H4 1 noarch rpm We also need the prc tools to know which SDK is available palmdev prep In addition we use Greg Parker s PEAL http www sealiesoftware com peal ELF ARM loader You need to download this and compile and install it yourself so that peal postlink is in your path Greg was very helpful an
20. lusters and makes it as if those were the sizes of parameters that were used to the train the voice 4 3 PalmOS Support Starting with 1 3 we have initial support for PalmOS using the free development tools The compilation method assumes the target device is running PalmOS 5 0 or later on an ARM processor Following convention in the Palm world the app that the user interacts with is actually a m68k application compiled with the m68 gcc cross compiler the resulting code is interpreted by the PalmOS 5 0 device The core flite code is in native ARM and hence uses the ARM gcc cross compiler An interesting amout of support code is required to get all this work properly The user app is called flop FLite on Palm and like most apps written by awb is functional but ugly You should not let a short sighted Scotsman who still thinks command line interfaces are cool design a graphical app But it does work and can read typed in text The armflite ro resources are designed with the idea that proper applications will be written using it as a library The flop prc application is distributed separately so it can be used without having to install all these tools But if you want to PalmOS development here is what you need to do to compile Flite for PalmOS and the flop application There are number of different application development environments for Palm here I only describe the Unix based one as this is what was used You will need the Pa
21. ly slow and memory expensive you need both a copy on the data on disk and in memory As one of the principal targets for Flite is very small machines we wanted to allow that core data to be in ROM and be appropriately mapped into RAM without any explicit loading some OS s call this XIP execute in place This can be done by various memory mapping functions in Unix its called mmap and is the core technique used in shared libraries called DLLs in some parts of the world Thus the data should be in a format that it can be directly accessed If you are going to directly access data you need to ensure the byte layout is appropriate for the architecture you are running on byte order and address width become crucial if you want to avoid any extra conversion code at access time like byte swapping At first is was considered that synthesis data would be converted in binary files which could be mmap ed into the runtime systems but building appropriate binaries files for architectures is quite a job However the C compiler does this in a standard way Therefore the mode of operation for data within Flite is to convert it to C code actually C structures and use the C compiler to generate the appropriate binary structures Using the C compiler is a good portable solution but it as these structures can be very big this can tax the C compiler somewhat Also because this data is not going to change at run time it can all be declared const Which means i
22. n utterance The LPC or MLSA resynthesis functions will call the provided function as buffers become available The LPC and MLSA waveform synthesis functions are used for diphones limited domain unit selection and clustergen voices Note explicit support is required for streaming so new waveform synthesis function may not have the functionality 22 Flite a small fast speech synthesis engine An example streaming function is provided in src audio au streaming c and is used by the example flite main program when stream is given as the playing option Though in the command line program the function it isn t really useful In order to use streaming you must provide call back function in your particualr thread This is done bay adding features to the voice in your thread Suppose your function was declrared as int example audio stream chunk const cst wave w int start int size int last void user You can add this function as the streaming function through the statement cst audio streaming info asi asi new audio streaming info asi gt asc example audio stream chunk feat_set voice gt features streaming_info audio_streaming_info_val asi You may also optionally include your own pointer to any information you additionally want to pass to your function For example typedef my_callback_struct cst audiodev fd int count cst audio streaming info asi mcs cst alloc my callback struct 1 mcs gt
23. n Unix it will be in the text segment and hence read only this can be ROM on platforms which have that distinction For structures to be const all their subparts must also be const thus all relevant parts must be in the same file hence the unit databases files can be quite big Of course this all presumes that you have a C compiler robust enough to compile these files hardware smart enough to treat flash ROM as memory rather than disk or an operating system smart enough to demand page executables Certain popular operating systems and compilers fail in at least one of these respects and therefore we have provided the flexibility to use memory mapped file I O on voice databases where available or simply to load them all into memory Chapter 6 Structure 17 6 Structure The flite distribution consists of two distinct parts e The flite library containing the core synthesis code e Voice s for flite These contain three sub parts e Language models text processing prosody models etc e Lexicon and letter to sound rules e Unit database and voice definition 6 1 cst val This is a basic simple object which can contain ints floats strings and other objects It also allows for lists using the Scheme Lisp car cdr architecture as that is the most efficient way to represent arbitrary trees and lists The cst val structure is carefully designed to take up only 8 bytes or 16 on a 64 bit machine The multiple union structure that
24. n write shared memory for servicing clients This is a perfectly safe and practical solution for Unix systems but under Windows where threads are the more common feature used for servicing multiple events and forking is expensive a non thread safe program can t be used as efficiently Festival is written in C which was a good decision at the time and perfectly suitable for a large program However what was discovered over the years of development is that C is not a portable language Different C compilers are quite different and it takes significant amount of work to ensure compatibility of the code base over multiple compilers What makes this worse is that new versions of each compiler are incompatible and changes are required At first this looked like we were producing bad quality code but after 10 years it is clear that it is also that the compilers are still maturing Thus it is clear that Festival and the Edinburgh Speech Tools will continue to require constant support as new versions of compilers are released A second problem with C is the size and efficiency of the code produced Proponents of C may rightly argue that Festival and the Edinburgh Speech Tools aren t properly designed but irrespective if that is true or not it is true that the size of the code is much larger and slower than it need be for what it does Throughout the design there is a constant trade off between elegancy and efficiency which unfortunately at times in F
25. nctions Although of course you are welcome to call lower level functions there a few key functions that will satisfy most users of flite void flite init void This must be called before any other flite function can be called As of Flite 1 1 it actually does nothing at all but there is no guarantee that this will remain true cst wave flite text to wave const char text cst voice voice Returns a waveform as defined in include cst_wave h synthesized from the given text string by the given voice Chapter 7 APIs 21 float flite file to speech const char filename cst voice voice const char outtype synthesizes all the sentences in the file filename with given voice Output at present can only reasonably be play or none If the feature file start position with an integer that point is used as start position in the file to be synthesized float flite text to speech const char text cst voice voice const char outtype synthesizes the text in string point to by text with the given voice outtype may be a filename where the generated waveform is written to or play and it will be sent to the audio device or none and it will be discarded The return value is the number of seconds of speech generated cst utterance flite synth text const char text cst voice voice synthesize the given text with the given voice and returns an utterance from it for further processing and access cst utterance flit
26. ols directory that include Scheme code to convert various Scheme structures to C include CART tree conversion and Lisp list conversion The other major source of help here is the existing language examples in flite lang usenglish Chapter 9 Porting to new platforms 9 Porting to new platforms byte order unions compiler restrictions 27 Chapter 10 Future developments 10 Future developments 29 Table of Contents ARR AE oo 1 2 Copying IT 3 3 Acknowledgements 9 4 MSL AH AION ess caiste ren 7 4 1 Windows Support 7 4 2 Window CE SUDDOLPl icr nee T 4 3 PalmOS Support errors cr DE a pac as 8 4 3 1 Some notes on the PalmOS port 10 4 8 2 Using the PalmOS i sees eese ster E pte rhe eee 11 D Flite Des ses 13 Dil Backero nd we uei ada doe en en 13 5 2 Key Decisions erir ga grrr radares 14 a o sat rue nn ai encens 17 6 1 estsval ae ame are 17 T APIS PP ee ae M 19 1 1 hte binaria dr ia ido a 19 1 2 Voice Selection indunnuduundes ere FER REDE E EL penta eas 19 1 3 Cuexampleucssccie taie naar une 20 TA Public Functions ee tuner t YT ERR IER EIOS 20 7 5 Streaming Synthesis rer Er pe REDE Rea sine 21 8 Converting FestVox Voices 23 8 1 Cocantenative Voice Building 23 8 2 Statistical Voice Building 26
27. project http festvox org which provides tools scripts and documentation for building new synthetic voices Flite is written in ANSI C and is designed to be portable to almost any platform including very small hardware Flite is really just a synthesis library that can be linked into other programs it includes two simple voices with the distribution an old diphone voice and anb example limited domain voice which uses the newer unit selection techniques we have been developing Neither of these voices would be considered production voices but server as examples new voices will be released as they are developed The latest versions comments new voices etc for Flite are available from its home page which may be found at http cmuflite org Chapter 2 Copying 3 2 Copying Flite is free software It is distributed under an X11 like license Apart from the few exceptions noted below which still have similarly open lincenses the general license is Language Technologies Institute Carnegie Mellon University Copyright c 1999 2009 All Rights Reserved Permission is hereby granted free of charge to use and distribute this software and its documentation without restriction including without limitation the rights to use copy modify merge publish distribute sublicense and or sell copies of this work and to permit persons to whom this work is furnished to do so subject to the following conditions 1 The code must retain
28. small fast speech synthesis engine FV NAME ked timit FV TYPE clunits FV VOICENAME FV INST FV LANG FV NAME FV FULLVOICENAME FV VOICENAME FV TYPE The main script build building the Flite voice is bin build_flite which will eventually build sufficient C code in flite that can be compiled with the constructed flite Makefile to give you a library that can be linked into applications and also an example flite binary with the constructed voice built in You can run all of these stages except the final make together by running the the build script with no arguments bin build flite But as things may not run smoothly we will go through the stages explicitly The first stage is to build the LPC files this may have already been done as part of the diphone building process though probably not in the ldom clunit case In our experience it is very important that the records be of similar power as mis matched power can often cause overflows in the resulting flite and sometimes Festival voices Thus for diphone voices it is important to run the power normalization techniques described int he Fest Vox document The Flite LPC build process also builds a parameter file of the ranges of the LPC parameters used in later coding of the files so even if you have already built your LPC files you should still do this again bin build flite lpc For ldom and clunit voices but not for diphone voices we also ne
29. t and any txt files you have on your device The application uses cmu us kal as the voice for default Although it is possible to include the clustergen voices they may be too slow to be really practical An 8KHz clus tergen voice with a reduced order to 13 gives a voices that runs acceptably on an hp2755 624MHz but still marginal on an AT amp T Tilt 400MHz Building 8KHz clustergen voices is currently a bit of hack We take the standard wave forms and resample them to 8KHz then relabel the sample rate to be 16K Hz Then build the voice as normal as if the speaker spoke twice as fast You may need to have tune the F0 parameters in etc fO params This seems to basically work Then after the waveform is synthesized still in the chipmunk domain we then playit back at 8K Hz This effectively means we generate half the number of samples and the frames are really at 10ms A sec ond reduction is an option on the basic build_flite command A second argument can specify order reduction thus instead of the standard 25 static parameters plus its deltas we can reduce this to 13 and still get acceptable results bin build flite cg 13 cd flite make Importantly this uses less space and uses less time to synthesis These SPEECH HACKS in src cg cst_mlsa c are switched on by default when UNDER CE is defined The reduced order properly extracts the statics and stddev and deltas and stddev from the predicted parameter c
30. the above copyright notice this list of conditions and the following disclaimer 2 Any modifications must be clearly marked as such Original authors names are not deleted 4 The authors names are not used to endorse or promote products derived from this software without specific prior written permission w CARNEGIE MELLON UNIVERSITY AND THE CONTRIBUTORS TO THIS WORK DISCLAIM ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS IN NO EVENT SHALL CARNEGIE MELLON UNIVERSITY NOR THE CONTRIBUTORS BE LIABLE FOR ANY SPECIAL INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE DATA OR PROFITS WHETHER IN AN ACTION OF CONTRACT NEGLIGENCE OR OTHER TORTIOUS ACTION ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE Chapter 3 Acknowledgements 5 3 Acknowledgements The initial development of flite was primarily done by awb while travelling perhaps the name is doubly appropriate as a substantial amount of the coding was done over 30 000ft During most of that time awb was funded by the Language Technologies Institute at Carnegie Mellon University Kevin A Lenzo was involved in the design conversion techniques and representations for the voice distributed with flite as well as being the actual voice itself Other contributions are e Nagoya Institute of Technology The MLSA MLPG code comes directly NITECH s hts en
31. tifies the voice the cg templates will be com pied in The conversion itself is actually much faster than a clunit build there is less to actually convert bin build flite cg Will convert then necessary models into files in the flite directory The you can compile it with cd flite make flite cmu us awb Hello world Note that the voice that is to be converted must be a standard clustergen voice with f0 mceps delta mceps and voicing in its combined coeffs files The method could be changed to deal with other possibilities but it will only work for default build method The generated library 1ibflite cmu us awb a may be linked with other programs linkle any other flite voice The binary generated flite cmu us awb links in only one voice unlike the flite binary in the full flite distribution 8 3 Lexicon Conversion As of 1 3 the script for converting the CMU lexicon as distributed as part of Festival is included make_cmulex will using the version of CMULEX unpacked in the current directory to build a new lexicon Also in 1 3 a more sophisticated compression technique is used to reduce the lexicon size The lexicon is pruned removing those words which the letter to sound rule models get correct Also the letters and phones are separately huffman coded to produce a smaller lexicon 8 4 Language Conversion This is by far the weakest part as this is the most open ended There are basic tools in the flite to
32. to other applications Included with the distribution is a small example executable that allows synthesis of strings of text and text files from the command line 7 1 flite binary The example flite binary may be suitable for very simple applications Unlike Festival its start up time is very short less that 25ms on a PIII 500MHz making it practical on larger machines to call it each time you need to synthesize something flite TEXT OUTPUTTYPE If TEXT contains a space it is treated as a string of text and converted to speech if it does not contain a space TEXT is treated as a file name and the contents of that file are converted to speech The option t specifies TEXT is to be treat as text not a filename and f forces treatment as a file Thus flite t hello will say the word hello while flite hello will say the content of the file hello Likewise flite hello world will say the words hello world while flite f hello world will say the contents of a file hello world If no argument is specified text is read from standard input The second argument OUTPUTTYPE is the name of a file the output is written to or if it is play then it is played to the audio device directly If it is none then the audio is created but discarded this is used for benchmarking If it is stream then the audio is streamed through a call back function though this is not particularly useful in the command line version If OUTPUTTYPE is om
33. ure you have successfully built and run your Fest Vox voice in Festival Flite is not designed as a voice building debugging tool it is just a delivery vehicle for finalized voices so you should first ensure you are satisfied with the quality of Festival voices before you start converting it for Flite The following basic stages are required e Setup the directories and copy the conversion scripts e Build the LPC files e Build the MCEP files for Idom clunits e Convert LPC MCEP into STS short term signal files e Convert the catalogue diphone index e Compile the generated C code The conversion assumes the environment variable FLITEDIR is set for example export FLITEDIR home awb projects flite The basic flite conversion takes place within a Fest Vox voice directory Thus all of the conversion scripts expect that the standard files are available The first task is to build some new directories and copy in the build scripts The scripts are copied rather than linked from the Flite directories as you may need to change these for your particular voices FLITEDIR tools setup flite This will read etc voice defs which should have been created by the Fest Vox build process except in very old versions of Fest Vox If you don t have a etc voice defs you can construct one with festvox src general guess voice defs in the Festvox distribution or gener ate one by hand making it look like FV_INST cmu FV_LANG us 24 Flite a
34. zo and Black techniques for building LTS decision graphs e Craig Reese IDA Supercomputing Research Center and Joe Campbell Department of Defense who wrote the ulaw conversion routines in src speech cst wave utils c Chapter 4 Installation 7 4 Installation Flite consist simple of a set of C files GNU configure is used to configure the engine and will work on most major architectures In general the following should build the system tar zxvf flite XXX tar gz cd flite XXX configure make However you will need to explicitly call GNU make gmake if make is not GNU make on your system The configuration process build a file config config which under some circumstances may need to be edited e g to add unusual options or dealing with cross compilation On Linux systems we also support shared libraries which are useful for keeping space down when multiple different application are linked to the flite libraries For development we strong discourage use of shared libraries as it is too easy to either not set them up correctly or accidentally pick up the wrong version But for installation they are definitely encouraged That is if you are just going to make and install they are good but unless you know what LD_LIBRARY_PATH does it may be better to use static libraries the default if you are changing C code or building your own voices configure enable shared make This will build both shared and static versions of the
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