func TestMGLSASynthesis(t *testing.T) {
var (
testData []float64
frameShift = 80
frameLen = 512
alpha = 0.41
stage = 12
gamma = -1.0 / float64(stage)
order = 24
f0Seq []float64
ex []float64
mgc [][]float64
)
w, err := io.ReadWav("../test_files/test16k.wav")
if err != nil {
log.Fatal(err)
}
testData = w.GetMonoData()
// F0
f0Seq = f0.SWIPE(testData, 16000, frameShift, 60.0, 700.0)
// MGCep
frames := gossp.DivideFrames(testData, frameLen, frameShift)
mgc = make([][]float64, len(frames))
for i, frame := range frames {
mgc[i] = mgcep.MGCep(window.BlackmanNormalized(frame),
order, alpha, gamma)
}
// adjast number of frames
m := min(len(f0Seq), len(mgc))
f0Seq, mgc = f0Seq[:m], mgc[:m]
// Excitation
g := &excite.PulseExcite{
SampleRate: 16000,
FrameShift: frameShift,
}
ex = g.Generate(f0Seq)
// Waveform generation
synth := NewMGLSASpeechSynthesizer(order, alpha, stage, frameShift)
_ = synth.Synthesis(ex, mgc)
// TODO(ryuichi) valid check
}
func TestMGLSAConsistencyWithSPTK(t *testing.T) {
var (
testData []float64
order = 25
alpha = 0.41
stage = 12
gamma = -1.0 / float64(stage)
)
file, err := os.Open("../test_files/test16k.wav")
if err != nil {
log.Fatal(err)
}
defer file.Close()
w, werr := wav.ReadWav(file)
if werr != nil {
log.Fatal(werr)
}
testData = w.GetMonoData()
data := testData[:512]
mgc := mgcep.MGCep(window.BlackmanNormalized(data), order, alpha, gamma)
filterCoef := MGCep2MGLSAFilterCoef(mgc, alpha, gamma)
mf := NewMGLSAFilter(order, alpha, stage)
// tricky allocation based on the SPTK (just for test)
d := make([]float64, (order+1)*stage)
tolerance := 1.0e-64
for _, val := range data {
y1 := mf.Filter(val, filterCoef)
y2 := sptk.MGLSADF(val, filterCoef, order, alpha, stage, d)
err := math.Abs(y1 - y2)
if err > tolerance {
t.Errorf("Error: %f, want less than %f.", err, tolerance)
}
}
}
