// Copyright 2013 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package ssa // CreateTestMainPackage synthesizes a main package that runs all the // tests of the supplied packages. // It is closely coupled to src/cmd/go/test.go and src/pkg/testing. import ( "go/ast" "go/token" "os" "strings" "code.google.com/p/go.tools/go/exact" "code.google.com/p/go.tools/go/types" ) // CreateTestMainPackage creates and returns a synthetic "main" // package that runs all the tests of the supplied packages, similar // to the one that would be created by the 'go test' tool. // // It returns nil if the program contains no tests. // func (prog *Program) CreateTestMainPackage(pkgs ...*Package) *Package { testmain := &Package{ Prog: prog, Members: make(map[string]Member), values: make(map[types.Object]Value), Object: types.NewPackage("testmain", "testmain", nil), } prog.packages[testmain.Object] = testmain // Build package's init function. init := &Function{ name: "init", Signature: new(types.Signature), Synthetic: "package initializer", Pkg: testmain, Prog: prog, } init.startBody() var expfuncs []*Function // all exported functions of *_test.go in pkgs, unordered for _, pkg := range pkgs { // Initialize package to test. var v Call v.Call.Value = pkg.init v.setType(types.NewTuple()) init.emit(&v) // Enumerate its possible tests/benchmarks. for _, mem := range pkg.Members { if f, ok := mem.(*Function); ok && ast.IsExported(f.Name()) && strings.HasSuffix(prog.Fset.Position(f.Pos()).Filename, "_test.go") { expfuncs = append(expfuncs, f) } } } init.emit(new(Return)) init.finishBody() testmain.init = init testmain.Members[init.name] = init testingPkg := prog.ImportedPackage("testing") if testingPkg == nil { // If the program doesn't import "testing", it can't // contain any tests. // TODO(adonovan): but it might contain Examples. // Support them (by just calling them directly). return nil } testingMain := testingPkg.Func("Main") testingMainParams := testingMain.Signature.Params() // The generated code is as if compiled from this: // // func main() { // match := func(_, _ string) (bool, error) { return true, nil } // tests := []testing.InternalTest{{"TestFoo", TestFoo}, ...} // benchmarks := []testing.InternalBenchmark{...} // examples := []testing.InternalExample{...} // testing.Main(match, tests, benchmarks, examples) // } main := &Function{ name: "main", Signature: new(types.Signature), Synthetic: "test main function", Prog: prog, Pkg: testmain, } matcher := &Function{ name: "matcher", Signature: testingMainParams.At(0).Type().(*types.Signature), Synthetic: "test matcher predicate", Enclosing: main, Pkg: testmain, Prog: prog, } main.AnonFuncs = append(main.AnonFuncs, matcher) matcher.startBody() matcher.emit(&Return{Results: []Value{vTrue, nilConst(types.Universe.Lookup("error").Type())}}) matcher.finishBody() main.startBody() var c Call c.Call.Value = testingMain tests := testMainSlice(main, expfuncs, "Test", testingMainParams.At(1).Type()) benchmarks := testMainSlice(main, expfuncs, "Benchmark", testingMainParams.At(2).Type()) examples := testMainSlice(main, expfuncs, "Example", testingMainParams.At(3).Type()) _, noTests := tests.(*Const) // i.e. nil slice _, noBenchmarks := benchmarks.(*Const) _, noExamples := examples.(*Const) if noTests && noBenchmarks && noExamples { return nil } c.Call.Args = []Value{matcher, tests, benchmarks, examples} // Emit: testing.Main(nil, tests, benchmarks, examples) emitTailCall(main, &c) main.finishBody() testmain.Members["main"] = main if prog.mode&LogPackages != 0 { testmain.DumpTo(os.Stderr) } if prog.mode&SanityCheckFunctions != 0 { sanityCheckPackage(testmain) } return testmain } // testMainSlice emits to fn code to construct a slice of type slice // (one of []testing.Internal{Test,Benchmark,Example}) for all // functions in expfuncs whose name starts with prefix (one of // "Test", "Benchmark" or "Example") and whose type is appropriate. // It returns the slice value. // func testMainSlice(fn *Function, expfuncs []*Function, prefix string, slice types.Type) Value { tElem := slice.(*types.Slice).Elem() tFunc := tElem.Underlying().(*types.Struct).Field(1).Type() var testfuncs []*Function for _, f := range expfuncs { if isTest(f.Name(), prefix) && types.IsIdentical(f.Signature, tFunc) { testfuncs = append(testfuncs, f) } } if testfuncs == nil { return nilConst(slice) } tString := types.Typ[types.String] tPtrString := types.NewPointer(tString) tPtrElem := types.NewPointer(tElem) tPtrFunc := types.NewPointer(tFunc) // Emit: array = new [n]testing.InternalTest tArray := types.NewArray(tElem, int64(len(testfuncs))) array := emitNew(fn, tArray, token.NoPos) array.Comment = "test main" for i, testfunc := range testfuncs { // Emit: pitem = &array[i] ia := &IndexAddr{X: array, Index: intConst(int64(i))} ia.setType(tPtrElem) pitem := fn.emit(ia) // Emit: pname = &pitem.Name fa := &FieldAddr{X: pitem, Field: 0} // .Name fa.setType(tPtrString) pname := fn.emit(fa) // Emit: *pname = "testfunc" emitStore(fn, pname, NewConst(exact.MakeString(testfunc.Name()), tString)) // Emit: pfunc = &pitem.F fa = &FieldAddr{X: pitem, Field: 1} // .F fa.setType(tPtrFunc) pfunc := fn.emit(fa) // Emit: *pfunc = testfunc emitStore(fn, pfunc, testfunc) } // Emit: slice array[:] sl := &Slice{X: array} sl.setType(slice) return fn.emit(sl) } // Plundered from $GOROOT/src/cmd/go/test.go // isTest tells whether name looks like a test (or benchmark, according to prefix). // It is a Test (say) if there is a character after Test that is not a lower-case letter. // We don't want TesticularCancer. func isTest(name, prefix string) bool { if !strings.HasPrefix(name, prefix) { return false } if len(name) == len(prefix) { // "Test" is ok return true } return ast.IsExported(name[len(prefix):]) }