8 "github.com/kshedden/gonpy"
12 type exportNumpySuite struct{}
14 var _ = check.Suite(&exportNumpySuite{})
16 func (s *exportNumpySuite) TestFastaToNumpy(c *check.C) {
19 err := ioutil.WriteFile(tmpdir+"/chr1-12-100.bed", []byte("chr1\t12\t100\ttest.1\n"), 0644)
20 c.Check(err, check.IsNil)
22 var buffer bytes.Buffer
23 exited := (&importer{}).RunCommand("import", []string{"-local=true", "-tag-library", "testdata/tags", "-output-tiles", "-save-incomplete-tiles", "testdata/a.1.fasta", "testdata/tinyref.fasta"}, &bytes.Buffer{}, &buffer, os.Stderr)
24 c.Assert(exited, check.Equals, 0)
25 var output bytes.Buffer
26 exited = (&exportNumpy{}).RunCommand("export-numpy", []string{"-local=true", "-output-annotations", tmpdir + "/annotations.csv", "-regions", tmpdir + "/chr1-12-100.bed"}, &buffer, &output, os.Stderr)
27 c.Check(exited, check.Equals, 0)
28 npy, err := gonpy.NewReader(&output)
29 c.Assert(err, check.IsNil)
30 variants, err := npy.GetInt16()
31 c.Assert(err, check.IsNil)
32 c.Check(variants, check.HasLen, 6)
33 for i := 0; i < 4 && i < len(variants); i += 2 {
35 c.Check(variants[i+1], check.Equals, int16(2), check.Commentf("i=%d, v=%v", i, variants))
37 c.Check(variants[i], check.Equals, int16(2), check.Commentf("i=%d, v=%v", i, variants))
40 for i := 4; i < 6 && i < len(variants); i += 2 {
41 c.Check(variants[i], check.Equals, int16(1), check.Commentf("i=%d, v=%v", i, variants))
43 annotations, err := ioutil.ReadFile(tmpdir + "/annotations.csv")
44 c.Check(err, check.IsNil)
45 c.Logf("%s", string(annotations))
46 c.Check(string(annotations), check.Matches, `(?ms)(.*\n)?1,1,2,chr1:g.84_85insACTGCGATCTGA\n.*`)
47 c.Check(string(annotations), check.Matches, `(?ms)(.*\n)?1,1,1,chr1:g.87_96delinsGCATCTGCA\n.*`)
50 func sortUints(variants []int16) {
51 for i := 0; i < len(variants); i += 2 {
52 if variants[i] > variants[i+1] {
53 for j := 0; j < len(variants); j++ {
54 variants[j], variants[j+1] = variants[j+1], variants[j]
61 func (s *exportNumpySuite) TestOnehot(c *check.C) {
62 for _, trial := range []struct {
68 {2, []int16{1, 1, 1, 1}, 2, []int16{1, 1, 1, 1}},
69 {2, []int16{1, 1, 1, 2}, 3, []int16{1, 1, 0, 1, 0, 1}},
71 // 2nd column => 3 one-hot columns
72 // 4th column => 0 one-hot columns
84 out, _, outcols := recodeOnehot(trial.in, trial.incols)
85 c.Check(out, check.DeepEquals, trial.out)
86 c.Check(outcols, check.Equals, trial.outcols)