//Copyright 2013 GoGraphviz Authors // //Licensed under the Apache License, Version 2.0 (the "License"); //you may not use this file except in compliance with the License. //You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // //Unless required by applicable law or agreed to in writing, software //distributed under the License is distributed on an "AS IS" BASIS, //WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. //See the License for the specific language governing permissions and //limitations under the License. package parser import ( "fmt" "github.com/awalterschulze/gographviz/ast" "io/ioutil" "testing" ) func check(t *testing.T, err error) { if err != nil { t.Fatalf("%v", err) } } func assert(t *testing.T, msg string, v1 interface{}, v2 interface{}) { if v1 != v2 { t.Fatalf("%v\n%v\n!=\n%v", msg, v1, v2) } } func parseTest(t *testing.T, filename string) { localFilename := "../testdata/" + filename s, err := ioutil.ReadFile(localFilename) check(t, err) t.Logf("Input String = %v", string(s)) g, err := ParseFile(localFilename) t.Logf("First Parse = %v", g) check(t, err) gstr := g.String() g2, err := ParseString(gstr) t.Logf("Second Parse = %v", g2) check(t, err) gstr2 := g2.String() assert(t, "output strings", gstr, gstr2) } func parseStringTest(t *testing.T, s string) { t.Logf("Input String = %v", s) g, err := ParseString(s) t.Logf("First Parse = %v", g) check(t, err) gstr := g.String() g2, err := ParseString(gstr) t.Logf("Second Parse = %v", g2) check(t, err) gstr2 := g2.String() assert(t, "output strings", gstr, gstr2) } func TestHelloWorldString(t *testing.T) { input := `digraph G {Hello->World}` g, err := ParseString(input) check(t, err) fmt.Printf("%#v", g) } func TestHelloWorldFile(t *testing.T) { g, err := ParseFile("../testdata/helloworld.gv.txt") check(t, err) fmt.Printf("%#v", g) } func TestAttr(t *testing.T) { parseStringTest(t, "digraph finite_state { rankdir = LR }") } func TestString(t *testing.T) { parseStringTest(t, `digraph finite_state { rankdir = "LR" }`) } func TestAttrList(t *testing.T) { parseStringTest(t, ` digraph { node [ shape = doublecircle ] }`) } func TestStringLit(t *testing.T) { parseStringTest(t, `digraph finite_state_machine { size= "8" ; }`) } func TestHashComments(t *testing.T) { parseStringTest(t, `## bla \n digraph G {Hello->World}`) } func TestIntLit(t *testing.T) { parseStringTest(t, `graph G { 1 -- 30 [f=1];}`) } func TestFloat1(t *testing.T) { parseStringTest(t, `digraph { bla = 2.0 }`) } func TestFloat2(t *testing.T) { parseStringTest(t, `digraph { bla = .1 }`) } func TestNegative(t *testing.T) { parseStringTest(t, `digraph { -2 -> -1 }`) } func TestUnderscore(t *testing.T) { parseStringTest(t, `digraph { a_b = 1 }`) } func TestNonAscii(t *testing.T) { parseStringTest(t, `digraph { label=T�th }`) } func TestPorts(t *testing.T) { parseStringTest(t, `digraph { "node6":f0 -> "node9":f1 }`) } func TestHtml(t *testing.T) { parseStringTest(t, `digraph { a = <
> }`) } func TestIdWithKeyword(t *testing.T) { parseStringTest(t, `digraph { edgeURL = "a" }`) } func TestSubGraph(t *testing.T) { parseStringTest(t, `digraph { subgraph { a -> b } }`) } func TestImplicitSubGraph(t *testing.T) { parseStringTest(t, `digraph { { a -> b } }`) } func TestEdges(t *testing.T) { parseStringTest(t, `digraph { a0 -> a1 -> a2 -> a3 }`) } func TestNodes(t *testing.T) { parseStringTest(t, `digraph { a0 a1 }`) } func TestTwoAttributes(t *testing.T) { g, err := ParseString(`digraph { a0 [shape = circle bla = bla]}`) check(t, err) t.Logf("Parsed String = %v", g) for _, stmt := range g.StmtList { node := stmt.(*ast.NodeStmt) if len(node.Attrs[0]) != 2 { t.Fatalf("Not enough attributes, expected two, but found %v in %v", len(node.Attrs), node) } } } func TestEasyFsm(t *testing.T) { parseStringTest(t, `digraph finite_state_machine { rankdir=LR; size="8,5"; node [shape = doublecircle]; LR_0 LR_3 LR_4 LR_8; node [shape = circle]; LR_0 -> LR_2 [ label = "SS(B)" ]; LR_0 -> LR_1 [ label = "SS(S)" ]; LR_1 -> LR_3 [ label = "S($end)" ]; LR_2 -> LR_6 [ label = "SS(b)" ]; LR_2 -> LR_5 [ label = "SS(a)" ]; LR_2 -> LR_4 [ label = "S(A)" ]; LR_5 -> LR_7 [ label = "S(b)" ]; LR_5 -> LR_5 [ label = "S(a)" ]; LR_6 -> LR_6 [ label = "S(b)" ]; LR_6 -> LR_5 [ label = "S(a)" ]; LR_7 -> LR_8 [ label = "S(b)" ]; LR_7 -> LR_5 [ label = "S(a)" ]; LR_8 -> LR_6 [ label = "S(b)" ]; LR_8 -> LR_5 [ label = "S(a)" ]; }`) } func TestEmptyAttrList(t *testing.T) { parseStringTest(t, `digraph g { edge [ ] }`) } func TestHelloWorld(t *testing.T) { parseTest(t, "helloworld.gv.txt") } func TestCluster(t *testing.T) { parseTest(t, "cluster.gv.txt") } func TestPsg(t *testing.T) { parseTest(t, "psg.gv.txt") } func TestTransparency(t *testing.T) { parseTest(t, "transparency.gv.txt") } func TestCrazy(t *testing.T) { parseTest(t, "crazy.gv.txt") } func TestKennedyanc(t *testing.T) { parseTest(t, "kennedyanc.gv.txt") } func TestRoot(t *testing.T) { parseTest(t, "root.gv.txt") } func TestTwpoi(t *testing.T) { parseTest(t, "twopi.gv.txt") } func TestDataStruct(t *testing.T) { parseTest(t, "datastruct.gv.txt") } func TestLionShare(t *testing.T) { parseTest(t, "lion_share.gv.txt") } func TestSdh(t *testing.T) { parseTest(t, "sdh.gv.txt") } func TestUnix(t *testing.T) { parseTest(t, "unix.gv.txt") } func TestEr(t *testing.T) { parseTest(t, "er.gv.txt") } func TestNerworkMapTwopi(t *testing.T) { parseTest(t, "networkmap_twopi.gv.txt") } func TestSibling(t *testing.T) { parseTest(t, "siblings.gv.txt") } func TestWorld(t *testing.T) { parseTest(t, "world.gv.txt") } func TestFdpclust(t *testing.T) { parseTest(t, "fdpclust.gv.txt") } func TestPhilo(t *testing.T) { parseTest(t, "philo.gv.txt") } func TestSoftmaint(t *testing.T) { parseTest(t, "softmaint.gv.txt") } func TestFsm(t *testing.T) { parseTest(t, "fsm.gv.txt") } func TestProcess(t *testing.T) { parseTest(t, "process.gv.txt") } func TestSwitchGv(t *testing.T) { parseTest(t, "switch.gv.txt") } func TestGd19942007(t *testing.T) { parseTest(t, "gd_1994_2007.gv.txt") } func TestProfile(t *testing.T) { parseTest(t, "profile.gv.txt") } func TestTrafficLights(t *testing.T) { parseTest(t, "traffic_lights.gv.txt") }