Example #1
0
File: uclang.go Project: mewmew/uc
// checkFile performs a static semantic analysis check on the given file.
func compileFile(path string, output io.Writer, goccLexer bool) error {
	// Lexical analysis
	// Syntactic analysis
	// Semantic analysis
	// Intermediate representation generation

	// Create lexer for the input.
	buf, err := ioutilx.ReadFile(path)
	if err != nil {
		return errutil.Err(err)
	}
	if path == "-" {
		path = "<stdin>"
	}

	fmt.Fprintf(os.Stderr, "Compiling %q\n", path)

	var s parser.Scanner
	if goccLexer {
		s = goccscanner.NewFromBytes(buf)
	} else {
		s = handscanner.NewFromBytes(buf)
	}

	// Parse input.
	p := parser.NewParser()
	f, err := p.Parse(s)
	if err != nil {
		if err, ok := err.(*goccerrors.Error); ok {
			// Unwrap Gocc error.
			return parser.NewError(err)
		}
		return errutil.Err(err)
	}
	file := f.(*ast.File)
	input := string(buf)
	src := semerrors.NewSource(path, input)
	info, err := sem.Check(file)
	if err != nil {
		if err, ok := err.(*errutil.ErrInfo); ok {
			// Unwrap errutil error.
			if err, ok := err.Err.(*semerrors.Error); ok {
				// Unwrap semantic analysis error, and add input source information.
				err.Src = src
				return err
			}
		}
		return errutil.Err(err)
	}

	// Generate LLVM IR module based on the syntax tree of the given file.
	module := irgen.Gen(file, info)
	if _, err := fmt.Fprint(output, module); err != nil {
		return errutil.Err(err)
	}

	return nil
}
Example #2
0
File: usem.go Project: mewmew/uc
// checkFile performs a static semantic analysis check on the given file.
func checkFile(path string, goccLexer bool) error {
	// Lexical analysis
	// Syntactic analysis (skip function bodies)
	// Top-level declarations; used for forward-declarations.
	// Syntactic analysis (including function bodies)

	// NOTE: "For each method body, we rewind the lexer to the point where the
	// method body began and parse the method body."
	//
	// ref: https://blogs.msdn.microsoft.com/ericlippert/2010/02/04/how-many-passes/

	// Semantic analysis

	// Create lexer for the input.
	buf, err := ioutilx.ReadFile(path)
	if err != nil {
		return errutil.Err(err)
	}
	if path == "-" {
		path = "<stdin>"
	}
	fmt.Fprintf(os.Stderr, "Checking %q\n", path)
	var s parser.Scanner
	if goccLexer {
		s = goccscanner.NewFromBytes(buf)
	} else {
		s = handscanner.NewFromBytes(buf)
	}

	// Parse input.
	p := parser.NewParser()
	f, err := p.Parse(s)
	if err != nil {
		if err, ok := err.(*goccerrors.Error); ok {
			// Unwrap Gocc error.
			return parser.NewError(err)
		}
		return errutil.Err(err)
	}
	file := f.(*ast.File)
	input := string(buf)
	src := semerrors.NewSource(path, input)
	if _, err := sem.Check(file); err != nil {
		if err, ok := err.(*errutil.ErrInfo); ok {
			// Unwrap errutil error.
			if err, ok := err.Err.(*semerrors.Error); ok {
				// Unwrap semantic analysis error, and add input source information.
				err.Src = src
				return err
			}
		}
		return errutil.Err(err)
	}

	return nil
}
Example #3
0
File: uparse.go Project: mewmew/uc
// parseFile parses the given file and pretty-prints its abstract syntax tree to
// standard output, optionally using the Gocc generated lexer.
func parseFile(path string, goccLexer bool) error {
	// Create lexer for the input.
	buf, err := ioutilx.ReadFile(path)
	if err != nil {
		return errutil.Err(err)
	}
	if path == "-" {
		fmt.Fprintln(os.Stderr, "Parsing from standard input")
	} else {
		fmt.Fprintf(os.Stderr, "Parsing %q\n", path)
	}
	var s parser.Scanner
	if goccLexer {
		s = goccscanner.NewFromBytes(buf)
	} else {
		s = handscanner.NewFromBytes(buf)
	}

	// Parse input.
	p := parser.NewParser()
	file, err := p.Parse(s)
	if err != nil {
		if err, ok := err.(*errors.Error); ok {
			// Unwrap Gocc error.
			return parser.NewError(err)
		}
		return errutil.Err(err)
	}
	f := file.(*ast.File)
	for _, decl := range f.Decls {
		fmt.Println("=== [ Top-level declaration ] ===")
		fmt.Println()
		fmt.Printf("decl type: %T\n", decl)
		fmt.Println()
		fmt.Println("decl:", decl)
		fmt.Println()
		pretty.Print(decl)
		fmt.Println()
		spew.Print(decl)
		fmt.Println()
		fmt.Println()
	}

	return nil
}
Example #4
0
// checkFile performs a static semantic analysis check on the given file.
func compileFile(path string, outputPath string, goccLexer bool) error {
	// Lexical analysis
	// Syntactic analysis
	// Semantic analysis
	// Intermediate representation generation

	// Create lexer for the input.
	buf, err := ioutilx.ReadFile(path)
	if err != nil {
		return errutil.Err(err)
	}
	if path == "-" {
		path = "<stdin>"
	}

	fmt.Fprintf(os.Stderr, "Compiling %q\n", path)

	var s parser.Scanner
	if goccLexer {
		s = goccscanner.NewFromBytes(buf)
	} else {
		s = handscanner.NewFromBytes(buf)
	}

	// Parse input.
	p := parser.NewParser()
	f, err := p.Parse(s)
	if err != nil {
		if err, ok := err.(*goccerrors.Error); ok {
			// Unwrap Gocc error.
			return parser.NewError(err)
		}
		return errutil.Err(err)
	}
	file := f.(*ast.File)
	input := string(buf)
	src := semerrors.NewSource(path, input)
	info, err := sem.Check(file)
	if err != nil {
		if err, ok := err.(*errutil.ErrInfo); ok {
			// Unwrap errutil error.
			if err, ok := err.Err.(*semerrors.Error); ok {
				// Unwrap semantic analysis error, and add input source information.
				err.Src = src
				return err
			}
		}
		return errutil.Err(err)
	}

	// Generate LLVM IR module based on the syntax tree of the given file.
	module := irgen.Gen(file, info)

	// Add path to uc lib.
	lib, err := goutil.SrcDir("github.com/mewmew/uc/testdata")
	if err != nil {
		return errutil.Err(err)
	}
	lib = filepath.Join(lib, "uc.ll")

	// Link and create binary through clang
	clang := exec.Command("clang", "-o", outputPath, "-x", "ir", lib, "-")
	clang.Stdin = strings.NewReader(module.String())
	clang.Stderr = os.Stderr
	clang.Stdout = os.Stdout
	if err := clang.Run(); err != nil {
		return errutil.Err(err)
	}
	return nil
}