DictViewInstance::WordList *DictViewInstance::WordSuggestion(FarStringW &word) { WordList *wl = new WordList(); _current_color = -1; _current_word = word; DecisionTable::action_inst_t act_inst = logic.Execute(); Action *action = static_cast<Action *>(act_inst->client_context); far_assert(action); FarString suggestion_order = action->suggestions; if (suggestion_order.IsEmpty()) for (int i = 0; i<DictCount(); i++) suggestion_order += GetDict(i)->dict + ';'; if (suggestion_order.IsEmpty()) return wl; FarStringTokenizer dicts(suggestion_order, ';'); for (int i = 0; i < DictCount() && dicts.HasNext(); i++) { const FarString &dict(dicts.NextToken()); for (int j = 0; j < DictCount(); j++) if (GetDict(j)->dict == dict) { far_assert(spell_factory); SpellInstance *dict_inst = spell_factory->GetDictInstance(dict); far_assert(dict_inst); wl->Add(dict_inst->Suggest(word)); } } return wl; }
SpellCheck::SpellCheck(QObject *parent):QObject(parent) { spellChecker = nullptr; codec = nullptr; if(langs.empty()) { // Look for available dicts QDir dicts("/usr/share/hunspell/"); QStringList filters; filters.append("*.dic"); QStringList files = dicts.entryList(filters, QDir::Files, QDir::Name); for(QString file : files) { langs.append( _getFirstPart(file, ".") ); } } }
static void save(void) { int i; FILE *f; for (i = 0; i < counter; i++) { char buf[12]; snprintf(buf, 12, "%d.txt", i); f = fopen(buf, "w"); if (!f) return; fwrite(tab[i].data, 1, tab[i].length, f); fclose(f); } f = fopen("proxy.py", "w"); if (!f) return; fprintf(f, "%s", header); dicts(f); fprintf(f, "%s", footer); fclose(f); }
void thermalBaffleFvPatchScalarField::createPatchMesh() { const fvMesh& thisMesh = patch().boundaryMesh().mesh(); word regionName = dict_.lookup("regionName"); List<polyPatch*> regionPatches(3); List<word> patchNames(regionPatches.size()); List<word> patchTypes(regionPatches.size()); List<dictionary> dicts(regionPatches.size()); patchNames[bottomPatchID] = word("bottom"); patchNames[sidePatchID] = word("side"); patchNames[topPatchID] = word("top"); patchTypes[bottomPatchID] = mappedWallPolyPatch::typeName; patchTypes[topPatchID] = mappedWallPolyPatch::typeName; if (readBool(dict_.lookup("columnCells"))) { patchTypes[sidePatchID] = emptyPolyPatch::typeName; } else { patchTypes[sidePatchID] = polyPatch::typeName; } const mappedPatchBase& mpp = refCast<const mappedPatchBase>(patch().patch()); const word coupleGroup(mpp.coupleGroup()); wordList inGroups(1); inGroups[0] = coupleGroup; dicts[bottomPatchID].add("coupleGroup", coupleGroup); dicts[bottomPatchID].add("inGroups", inGroups); dicts[bottomPatchID].add("sampleMode", mpp.sampleModeNames_[mpp.mode()]); const label sepPos = coupleGroup.find('_'); const word coupleGroupSlave = coupleGroup(0, sepPos) + "_slave"; inGroups[0] = coupleGroupSlave; dicts[topPatchID].add("coupleGroup", coupleGroupSlave); dicts[topPatchID].add("inGroups", inGroups); dicts[topPatchID].add("sampleMode", mpp.sampleModeNames_[mpp.mode()]); forAll (regionPatches, patchI) { dictionary& patchDict = dicts[patchI]; patchDict.set("nFaces", 0); patchDict.set("startFace", 0); regionPatches[patchI] = polyPatch::New ( patchTypes[patchI], patchNames[patchI], dicts[patchI], patchI, thisMesh.boundaryMesh() ).ptr(); }