func main() {
flag.Parse()
if flag.NArg() != 2 {
flag.Usage()
os.Exit(1)
}
configFile, err := os.Open(flag.Arg(0))
common.ExitIfError(err)
defer configFile.Close()
config, err := common.ParseConfig(configFile)
common.ExitIfError(err)
log.Printf("Transition system: %s", config.Parser.System)
if config.Parser.HashKernelSize > 0 {
log.Printf("Hash kernel size: %d", config.Parser.HashKernelSize)
}
generator, err := common.ReadFeatures(config.Parser.Features)
common.ExitIfError(err)
transitionSystem, ok := common.TransitionSystems[config.Parser.System]
if !ok {
log.Fatalf("Unknown transition system: %s", config.Parser.System)
}
oracleConstructor, ok := common.Oracles[config.Parser.System]
if !ok {
log.Fatalf("Unknown transition system: %s", config.Parser.System)
}
log.Println("Creating training instances...")
var collector svm.GoLinearCollector
if config.Parser.HashKernelSize == 0 {
collector = featureParsing(transitionSystem, generator, oracleConstructor)
} else {
collector = hashKernelParsing(transitionSystem, generator, oracleConstructor,
config.Parser.HashKernelSize)
}
if *libsvmOutput != "" {
writeLibSVMOutput(collector.Problem())
}
if config.Parser.Model != "" {
model := trainModel(config.LibLinear, collector.Problem())
err := model.Save(config.Parser.Model)
common.ExitIfError(err)
}
writeTransitions(transitionSystem, collector, config.Parser.Transitions)
log.Println("Done!")
}
func writeTransitions(ts system.TransitionSystem, collector system.InstanceCollector,
transitionsFilename string) {
serializer, ok := ts.(system.TransitionSerializer)
if !ok {
log.Fatal("Transition system does not implement transition serialization")
}
f, err := os.Create(transitionsFilename)
common.ExitIfError(err)
defer f.Close()
err = collector.LabelNumberer().WriteLabelNumberer(f, serializer)
common.ExitIfError(err)
}
func run(parser system.Parser) {
inputFile, err := os.Open(flag.Arg(1))
defer inputFile.Close()
if err != nil {
panic("Cannot open training data")
}
inputReader := conllx.NewReader(bufio.NewReader(inputFile))
writer := conllx.NewWriter(os.Stdout)
for {
s, err := inputReader.ReadSentence()
if err != nil {
break
}
deps, err := parser.Parse(s)
common.ExitIfError(err)
// Clear to ensure that no dependencies in the input leak
// (if they were present).
for idx := range s {
s[idx].SetHead(0)
s[idx].SetHeadRel("NULL")
}
for dep := range deps {
s[dep.Dependent-1].SetHead(dep.Head)
s[dep.Dependent-1].SetHeadRel(dep.Relation)
}
writer.WriteSentence(s)
}
}
func trainModel(conf common.LibLinear, problem *golinear.Problem) *golinear.Model {
log.Println("Training classifier...")
log.Println("Constraint violation cost:", conf.Cost)
param := golinear.DefaultParameters()
param.Cost = conf.Cost
param.SolverType = golinear.NewMCSVMCSDefault()
model, err := golinear.TrainModel(param, problem)
common.ExitIfError(err)
return model
}
func main() {
flag.Parse()
if flag.NArg() != 2 {
flag.Usage()
os.Exit(1)
}
configFile, err := os.Open(flag.Arg(0))
common.ExitIfError(err)
defer configFile.Close()
config, err := common.ParseConfig(configFile)
common.ExitIfError(err)
generator, err := common.ReadFeatures(config.Parser.Features)
common.ExitIfError(err)
transitionSystem, ok := common.TransitionSystems[config.Parser.System]
if !ok {
log.Fatalf("Unknown transition system: %s", config.Parser.System)
}
labelNumberer, err := common.ReadTransitions(config.Parser.Transitions, transitionSystem)
common.ExitIfError(err)
model, err := golinear.LoadModel(config.Parser.Model)
common.ExitIfError(err)
if config.Parser.HashKernelSize == 0 {
log.Fatal("Currently only models using a hash kernel are supported")
} else {
hashKernelParsing(transitionSystem, generator, model, labelNumberer,
config.Parser.HashKernelSize)
}
}
func evaluate(parser system.Parser) {
testFile, err := os.Open(flag.Arg(1))
defer testFile.Close()
if err != nil {
panic("Cannot open training data")
}
testReader := conllx.NewReader(bufio.NewReader(testFile))
total := 0
found := 0
count := 0
for {
s, err := testReader.ReadSentence()
if err != nil {
break
}
goldDeps, err := system.SentenceToDependencies(s)
common.ExitIfError(err)
deps, err := parser.Parse(s)
common.ExitIfError(err)
total += len(goldDeps)
found += foundAttachments(goldDeps, deps)
count++
if count%100 == 0 {
printAccuracy(found, total)
}
}
printAccuracy(found, total)
}
func writeLibSVMOutput(problem *golinear.Problem) {
f, err := os.Create(*libsvmOutput)
common.ExitIfError(err)
defer f.Close()
problem.Iterate(func(instance *golinear.TrainingInstance) bool {
fmt.Fprintf(f, "%.0f", instance.Label)
for _, fv := range instance.Features {
fmt.Fprintf(f, " %d:%f", fv.Index, fv.Value)
}
fmt.Fprintln(f)
return true
})
}
func createTrainingInstances(trainer system.GreedyTrainer, collector system.InstanceCollector,
oracleConstructor common.OracleConstructor) {
f, err := os.Open(flag.Arg(1))
defer f.Close()
if err != nil {
panic("Cannot open training data")
}
r := conllx.NewReader(bufio.NewReader(f))
for {
s, err := r.ReadSentence()
if err != nil {
break
}
goldDependencies, err := system.SentenceToDependencies(s)
common.ExitIfError(err)
oracle := oracleConstructor(goldDependencies)
trainer.Parse(s, oracle)
}
}
