Difference between revisions of "Lttoolbox API examples"
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Revision as of 19:55, 18 October 2011
Basic example
This is a simple C++/lttoolbox version of the 'beer' program in Morphological dictionaries
// g++ -I/usr/local/include/lttoolbox-3.2 -I/usr/local/lib -llttoolbox3 lt_beer.cc -o lt-beer #include <cwchar> #include <cstdio> #include <cerrno> #include <string> #include <iostream> #include <list> #include <set> #include <lttoolbox/ltstr.h> // LtLocale::tryToSetLocale() #include <lttoolbox/lt_locale.h> // Transducer class #include <lttoolbox/transducer.h> // Alphabet class #include <lttoolbox/alphabet.h> // Pool class #include <lttoolbox/pool.h> // State class #include <lttoolbox/state.h> // TransExe class #include <lttoolbox/trans_exe.h> int main (int argc, char** argv) { Alphabet alphabet; Transducer t; // Set locale LtLocale::tryToSetLocale(); // Include symbols into alphabet, keeping the values alphabet.includeSymbol(L"<n>"); alphabet.includeSymbol(L"<sg>"); alphabet.includeSymbol(L"<pl>"); int n_sym = alphabet(L"<n>"); int sg_sym = alphabet(L"<sg>"); int pl_sym = alphabet(L"<pl>"); // Initial state int initial = t.getInitial(); // build "beer" manually int beer = initial; // these are the transitions b:b e:e e:e r:r beer = t.insertSingleTransduction(alphabet(L'b',L'b'), beer); beer = t.insertSingleTransduction(alphabet(L'e',L'e'), beer); beer = t.insertSingleTransduction(alphabet(L'e',L'e'), beer); beer = t.insertSingleTransduction(alphabet(L'r',L'r'), beer); // these are 0:<n> 0:<sg> beer = t.insertSingleTransduction(alphabet(0, n_sym), beer); beer = t.insertSingleTransduction(alphabet(0, sg_sym), beer); t.setFinal(beer); // build "beers" manually int beers = t.getInitial(); beers = t.insertSingleTransduction(alphabet(L'b',L'b'), beers); beers = t.insertSingleTransduction(alphabet(L'e',L'e'), beers); beers = t.insertSingleTransduction(alphabet(L'e',L'e'), beers); beers = t.insertSingleTransduction(alphabet(L'r',L'r'), beers); // this transition is s:0 beers = t.insertSingleTransduction(alphabet(L's', 0), beers); beers = t.insertSingleTransduction(alphabet(0, n_sym), beers); beers = t.insertSingleTransduction(alphabet(0, pl_sym), beers); t.setFinal(beers); t.minimize(); //Rather than try to convert between Transducer and TransExe, we'll //just write and read. FILE* fst=fopen("beer.fst", "w"); t.write(fst); fclose(fst); fst=fopen("beer.fst", "r"); TransExe te; te.read(fst, alphabet); fclose(fst); Pool<vector<int> > *pool = new Pool<vector<int> >(1, vector<int>(50)); State *initial_state = new State(pool); initial_state->init(te.getInitial()); State current_state = *initial_state; wstring input, output=L""; set<Node *> anfinals; anfinals.insert(te.getFinals().begin(), te.getFinals().end()); FILE* in=stdin; bool reading=true; // This is our runtime: see if the input matches while (reading) { wchar_t val = (wchar_t)fgetwc(in); if(val==WEOF||iswspace(val)) { reading=false; } else { if (!reading) { // At the end. We don't need to do anything but // leave the loop in this simplistic example break; } else { current_state.step(val); alphabet.getSymbol(input, val); } } } if (current_state.isFinal(anfinals)) { // Not used, just don't want it to be empty... set<wchar_t> escaped; escaped.insert(L'$'); output = current_state.filterFinals(anfinals, alphabet, escaped); wcout << input << output << endl; } else { wcout << L"Unrecognised: " << input << endl; } return 0; }
we can simplify the building of the transducers like this:
// build "beer" manually int beer = initial; // these are the transitions b:b e:e e:e r:r beer = t.insertSingleTransduction(alphabet(L'b',L'b'), beer); beer = t.insertSingleTransduction(alphabet(L'e',L'e'), beer); beer = t.insertSingleTransduction(alphabet(L'e',L'e'), beer); beer = t.insertSingleTransduction(alphabet(L'r',L'r'), beer); int beersg = beer; // these are 0:<n> 0:<sg> beersg = t.insertSingleTransduction(alphabet(0, n_sym), beersg); beersg = t.insertSingleTransduction(alphabet(0, sg_sym), beersg); t.setFinal(beersg); // build "beers" manually int beerpl = beer; beerpl = t.insertSingleTransduction(alphabet(L's', 0), beerpl); beerpl = t.insertSingleTransduction(alphabet(0, n_sym), beerpl); beerpl = t.insertSingleTransduction(alphabet(0, pl_sym), beerpl); t.setFinal(beerpl);
Writing/reading several transducers to the same file
// g++ -o test test.cc -I/home/fran/local/include/lttoolbox-3.2 -L/home/fran/local/lib -llttoolbox3 #include <cwchar> #include <cstdio> #include <iostream> #include <set> #include <lttoolbox/ltstr.h> #include <lttoolbox/lt_locale.h> #include <lttoolbox/transducer.h> #include <lttoolbox/alphabet.h> #include <lttoolbox/regexp_compiler.h> #include <lttoolbox/compression.h> int main (int argc, char** argv) { map<int, Transducer> patterns; Alphabet a; RegexpCompiler re; LtLocale::tryToSetLocale(); FILE *output = stdout; FILE *fst = fopen(argv[1], "w+"); // Build transducers a.includeSymbol(L"<n>"); re.initialize(&a); re.compile(L"foo"); patterns[1] = re.getTransducer(); re.initialize(&a); re.compile(L"bar"); patterns[2] = re.getTransducer(); re.initialize(&a); re.compile(L"baz"); patterns[3] = re.getTransducer(); // Write out the transducers a.write(fst); Compression::multibyte_write(patterns.size(), fst); fwprintf(output, L"Patterns: %d, Alphabet: %d\n", patterns.size(), a.size()); for(map<int, Transducer>::iterator it = patterns.begin(); it != patterns.end(); it++) { wchar_t buf[50]; memset(buf, '\0', sizeof(buf)); swprintf(buf, 50, L"%d", it->first); wstring id(buf); fwprintf(output, L"= %S =============================\n", id.c_str()); it->second.show(a, output); Compression::wstring_write(id, fst); it->second.write(fst); } fclose(fst); fwprintf(output, L"\n\n"); // Now read in the transducers that we have written out, one by one. FILE *new_fst = fopen(argv[1], "r"); Alphabet new_alphabet; map<wstring, Transducer> transducers; new_alphabet.read(new_fst); int len = Compression::multibyte_read(new_fst); while(len > 0) { int len2 = Compression::multibyte_read(new_fst); wstring name = L""; while(len2 > 0) { name += static_cast<wchar_t>(Compression::multibyte_read(new_fst)); len2--; } transducers[name].read(new_fst); len--; } fwprintf(output, L"Patterns: %d, Alphabet: %d\n", transducers.size(), new_alphabet.size()); for(map<wstring, Transducer>::iterator it = transducers.begin(); it != transducers.end(); it++) { fwprintf(output, L"= %S =============================\n", it->first.c_str()); it->second.minimize(); it->second.show(a, output); } fclose(new_fst); return 0; }