func checkPkgFiles(files []*ast.File) {
	type bailout struct{}
	conf := types.Config{
		FakeImportC: true,
		Error: func(err error) {
			if !*allErrors && errorCount >= 10 {
				panic(bailout{})
			}
			report(err)
		},
		Sizes: sizes,
	}
	if *gccgo {
		var inst gccgoimporter.GccgoInstallation
		inst.InitFromDriver("gccgo")
		conf.Import = inst.GetImporter(nil, nil)
	}

	defer func() {
		switch p := recover().(type) {
		case nil, bailout:
			// normal return or early exit
		default:
			// re-panic
			panic(p)
		}
	}()

	const path = "pkg" // any non-empty string will do for now
	conf.Check(path, fset, files, nil)
}
func init() {
	incpaths := []string{"/"}

	// importer for default gccgo
	var inst gccgoimporter.GccgoInstallation
	inst.InitFromDriver("gccgo")
	register("gccgo", inst.GetImporter(incpaths, initmap))
}
Beispiel #3
0
func (compiler *compiler) compile(filenames []string, importpath string) (m *Module, err error) {
	buildctx, err := llgobuild.ContextFromTriple(compiler.TargetTriple)
	if err != nil {
		return nil, err
	}

	initmap := make(map[*types.Package]gccgoimporter.InitData)
	var importer types.Importer
	if compiler.GccgoPath == "" {
		paths := append(append([]string{}, compiler.ImportPaths...), ".")
		importer = gccgoimporter.GetImporter(paths, initmap)
	} else {
		var inst gccgoimporter.GccgoInstallation
		err = inst.InitFromDriver(compiler.GccgoPath)
		if err != nil {
			return nil, err
		}
		importer = inst.GetImporter(compiler.ImportPaths, initmap)
	}

	impcfg := &loader.Config{
		Fset: token.NewFileSet(),
		TypeChecker: types.Config{
			Import: importer,
			Sizes:  compiler.llvmtypes,
		},
		Build: &buildctx.Context,
	}
	// Must use parseFiles, so we retain comments;
	// this is important for annotation processing.
	astFiles, err := parseFiles(impcfg.Fset, filenames)
	if err != nil {
		return nil, err
	}
	// If no import path is specified, then set the import
	// path to be the same as the package's name.
	if importpath == "" {
		importpath = astFiles[0].Name.String()
	}
	impcfg.CreateFromFiles(importpath, astFiles...)
	iprog, err := impcfg.Load()
	if err != nil {
		return nil, err
	}
	program := ssa.Create(iprog, ssa.BareInits)
	mainPkginfo := iprog.InitialPackages()[0]
	mainPkg := program.CreatePackage(mainPkginfo)

	// Create a Module, which contains the LLVM module.
	modulename := importpath
	compiler.module = &Module{Module: llvm.NewModule(modulename), Path: modulename}
	compiler.module.SetTarget(compiler.TargetTriple)
	compiler.module.SetDataLayout(compiler.dataLayout)

	// Create a new translation unit.
	unit := newUnit(compiler, mainPkg)

	// Create the runtime interface.
	compiler.runtime, err = newRuntimeInterface(compiler.module.Module, compiler.llvmtypes)
	if err != nil {
		return nil, err
	}

	mainPkg.Build()

	// Create a struct responsible for mapping static types to LLVM types,
	// and to runtime/dynamic type values.
	compiler.types = NewTypeMap(
		mainPkg,
		compiler.llvmtypes,
		compiler.module.Module,
		compiler.runtime,
		MethodResolver(unit),
	)

	if compiler.GenerateDebug {
		compiler.debug = debug.NewDIBuilder(
			types.Sizes(compiler.llvmtypes),
			compiler.module.Module,
			impcfg.Fset,
			compiler.DebugPrefixMaps,
		)
		defer compiler.debug.Destroy()
		defer compiler.debug.Finalize()
	}

	unit.translatePackage(mainPkg)
	compiler.processAnnotations(unit, mainPkginfo)

	if importpath == "main" {
		if err = compiler.createInitMainFunction(mainPkg, initmap); err != nil {
			return nil, fmt.Errorf("failed to create __go_init_main: %v", err)
		}
	} else {
		compiler.module.ExportData = compiler.buildExportData(mainPkg, initmap)
	}

	return compiler.module, nil
}