// Copyright 2018 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 packagestest

import (
	"fmt"
	"go/token"
	"path/filepath"
	"reflect"
	"regexp"

	"golang.org/x/tools/go/expect"
	"golang.org/x/tools/go/packages"
)

const (
	markMethod    = "mark"
	eofIdentifier = "EOF"
)

// Expect invokes the supplied methods for all expectation notes found in
// the exported source files.
//
// All exported go source files are parsed to collect the expectation
// notes.
// See the documentation for expect.Parse for how the notes are collected
// and parsed.
//
// The methods are supplied as a map of name to function, and those functions
// will be matched against the expectations by name.
// Notes with no matching function will be skipped, and functions with no
// matching notes will not be invoked.
// If there are no registered markers yet, a special pass will be run first
// which adds any markers declared with @mark(Name, pattern) or @name. These
// call the Mark method to add the marker to the global set.
// You can register the "mark" method to override these in your own call to
// Expect. The bound Mark function is usable directly in your method map, so
//    exported.Expect(map[string]interface{}{"mark": exported.Mark})
// replicates the built in behavior.
//
// Method invocation
//
// When invoking a method the expressions in the parameter list need to be
// converted to values to be passed to the method.
// There are a very limited set of types the arguments are allowed to be.
//   expect.Note : passed the Note instance being evaluated.
//   string : can be supplied either a string literal or an identifier.
//   int : can only be supplied an integer literal.
//   *regexp.Regexp : can only be supplied a regular expression literal
//   token.Pos : has a file position calculated as described below.
//   token.Position : has a file position calculated as described below.
//   interface{} : will be passed any value
//
// Position calculation
//
// There is some extra handling when a parameter is being coerced into a
// token.Pos, token.Position or Range type argument.
//
// If the parameter is an identifier, it will be treated as the name of an
// marker to look up (as if markers were global variables).
//
// If it is a string or regular expression, then it will be passed to
// expect.MatchBefore to look up a match in the line at which it was declared.
//
// It is safe to call this repeatedly with different method sets, but it is
// not safe to call it concurrently.
func (e *Exported) Expect(methods map[string]interface{}) error {
	if err := e.getNotes(); err != nil {
		return err
	}
	if err := e.getMarkers(); err != nil {
		return err
	}
	var err error
	ms := make(map[string]method, len(methods))
	for name, f := range methods {
		mi := method{f: reflect.ValueOf(f)}
		mi.converters = make([]converter, mi.f.Type().NumIn())
		for i := 0; i < len(mi.converters); i++ {
			mi.converters[i], err = e.buildConverter(mi.f.Type().In(i))
			if err != nil {
				return fmt.Errorf("invalid method %v: %v", name, err)
			}
		}
		ms[name] = mi
	}
	for _, n := range e.notes {
		if n.Args == nil {
			// simple identifier form, convert to a call to mark
			n = &expect.Note{
				Pos:  n.Pos,
				Name: markMethod,
				Args: []interface{}{n.Name, n.Name},
			}
		}
		mi, ok := ms[n.Name]
		if !ok {
			continue
		}
		params := make([]reflect.Value, len(mi.converters))
		args := n.Args
		for i, convert := range mi.converters {
			params[i], args, err = convert(n, args)
			if err != nil {
				return fmt.Errorf("%v: %v", e.fset.Position(n.Pos), err)
			}
		}
		if len(args) > 0 {
			return fmt.Errorf("%v: unwanted args got %+v extra", e.fset.Position(n.Pos), args)
		}
		//TODO: catch the error returned from the method
		mi.f.Call(params)
	}
	return nil
}

type Range struct {
	Start token.Pos
	End   token.Pos
}

// Mark adds a new marker to the known set.
func (e *Exported) Mark(name string, r Range) {
	if e.markers == nil {
		e.markers = make(map[string]Range)
	}
	e.markers[name] = r
}

func (e *Exported) getNotes() error {
	if e.notes != nil {
		return nil
	}
	notes := []*expect.Note{}
	var dirs []string
	for _, module := range e.written {
		for _, filename := range module {
			dirs = append(dirs, filepath.Dir(filename))
		}
	}
	pkgs, err := packages.Load(e.Config, dirs...)
	if err != nil {
		return fmt.Errorf("unable to load packages for directories %s: %v", dirs, err)
	}
	for _, pkg := range pkgs {
		for _, filename := range pkg.GoFiles {
			content, err := e.FileContents(filename)
			if err != nil {
				return err
			}
			l, err := expect.Parse(e.fset, filename, content)
			if err != nil {
				return fmt.Errorf("Failed to extract expectations: %v", err)
			}
			notes = append(notes, l...)
		}
	}
	e.notes = notes
	return nil
}

func (e *Exported) getMarkers() error {
	if e.markers != nil {
		return nil
	}
	// set markers early so that we don't call getMarkers again from Expect
	e.markers = make(map[string]Range)
	return e.Expect(map[string]interface{}{
		markMethod: e.Mark,
	})
}

var (
	noteType       = reflect.TypeOf((*expect.Note)(nil))
	identifierType = reflect.TypeOf(expect.Identifier(""))
	posType        = reflect.TypeOf(token.Pos(0))
	positionType   = reflect.TypeOf(token.Position{})
	rangeType      = reflect.TypeOf(Range{})
	fsetType       = reflect.TypeOf((*token.FileSet)(nil))
	regexType      = reflect.TypeOf((*regexp.Regexp)(nil))
)

// converter converts from a marker's argument parsed from the comment to
// reflect values passed to the method during Invoke.
// It takes the args remaining, and returns the args it did not consume.
// This allows a converter to consume 0 args for well known types, or multiple
// args for compound types.
type converter func(*expect.Note, []interface{}) (reflect.Value, []interface{}, error)

// method is used to track information about Invoke methods that is expensive to
// calculate so that we can work it out once rather than per marker.
type method struct {
	f          reflect.Value // the reflect value of the passed in method
	converters []converter   // the parameter converters for the method
}

// buildConverter works out what function should be used to go from an ast expressions to a reflect
// value of the type expected by a method.
// It is called when only the target type is know, it returns converters that are flexible across
// all supported expression types for that target type.
func (e *Exported) buildConverter(pt reflect.Type) (converter, error) {
	switch {
	case pt == noteType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			return reflect.ValueOf(n), args, nil
		}, nil
	case pt == fsetType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			return reflect.ValueOf(e.fset), args, nil
		}, nil
	case pt == posType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			r, remains, err := e.rangeConverter(n, args)
			if err != nil {
				return reflect.Value{}, nil, err
			}
			return reflect.ValueOf(r.Start), remains, nil
		}, nil
	case pt == positionType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			r, remains, err := e.rangeConverter(n, args)
			if err != nil {
				return reflect.Value{}, nil, err
			}
			return reflect.ValueOf(e.fset.Position(r.Start)), remains, nil
		}, nil
	case pt == rangeType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			r, remains, err := e.rangeConverter(n, args)
			if err != nil {
				return reflect.Value{}, nil, err
			}
			return reflect.ValueOf(r), remains, nil
		}, nil
	case pt == identifierType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			arg := args[0]
			args = args[1:]
			switch arg := arg.(type) {
			case expect.Identifier:
				return reflect.ValueOf(arg), args, nil
			default:
				return reflect.Value{}, nil, fmt.Errorf("cannot convert %v to string", arg)
			}
		}, nil

	case pt == regexType:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			arg := args[0]
			args = args[1:]
			if _, ok := arg.(*regexp.Regexp); !ok {
				return reflect.Value{}, nil, fmt.Errorf("cannot convert %v to *regexp.Regexp", arg)
			}
			return reflect.ValueOf(arg), args, nil
		}, nil

	case pt.Kind() == reflect.String:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			arg := args[0]
			args = args[1:]
			switch arg := arg.(type) {
			case expect.Identifier:
				return reflect.ValueOf(string(arg)), args, nil
			case string:
				return reflect.ValueOf(arg), args, nil
			default:
				return reflect.Value{}, nil, fmt.Errorf("cannot convert %v to string", arg)
			}
		}, nil
	case pt.Kind() == reflect.Int64:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			arg := args[0]
			args = args[1:]
			switch arg := arg.(type) {
			case int64:
				return reflect.ValueOf(arg), args, nil
			default:
				return reflect.Value{}, nil, fmt.Errorf("cannot convert %v to int", arg)
			}
		}, nil
	case pt.Kind() == reflect.Bool:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			arg := args[0]
			args = args[1:]
			b, ok := arg.(bool)
			if !ok {
				return reflect.Value{}, nil, fmt.Errorf("cannot convert %v to bool", arg)
			}
			return reflect.ValueOf(b), args, nil
		}, nil
	case pt.Kind() == reflect.Slice:
		return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
			converter, err := e.buildConverter(pt.Elem())
			if err != nil {
				return reflect.Value{}, nil, err
			}
			result := reflect.MakeSlice(reflect.SliceOf(pt.Elem()), 0, len(args))
			for range args {
				value, remains, err := converter(n, args)
				if err != nil {
					return reflect.Value{}, nil, err
				}
				result = reflect.Append(result, value)
				args = remains
			}
			return result, args, nil
		}, nil
	default:
		if pt.Kind() == reflect.Interface && pt.NumMethod() == 0 {
			return func(n *expect.Note, args []interface{}) (reflect.Value, []interface{}, error) {
				return reflect.ValueOf(args[0]), args[1:], nil
			}, nil
		}
		return nil, fmt.Errorf("param has unexpected type %v (kind %v)", pt, pt.Kind())
	}
}

func (e *Exported) rangeConverter(n *expect.Note, args []interface{}) (Range, []interface{}, error) {
	if len(args) < 1 {
		return Range{}, nil, fmt.Errorf("missing argument")
	}
	arg := args[0]
	args = args[1:]
	switch arg := arg.(type) {
	case expect.Identifier:
		// handle the special identifiers
		switch arg {
		case eofIdentifier:
			// end of file identifier, look up the current file
			f := e.fset.File(n.Pos)
			eof := f.Pos(f.Size())
			return Range{Start: eof, End: token.NoPos}, args, nil
		default:
			// look up an marker by name
			mark, ok := e.markers[string(arg)]
			if !ok {
				return Range{}, nil, fmt.Errorf("cannot find marker %v", arg)
			}
			return mark, args, nil
		}
	case string:
		start, end, err := expect.MatchBefore(e.fset, e.FileContents, n.Pos, arg)
		if err != nil {
			return Range{}, nil, err
		}
		if start == token.NoPos {
			return Range{}, nil, fmt.Errorf("%v: pattern %s did not match", e.fset.Position(n.Pos), arg)
		}
		return Range{Start: start, End: end}, args, nil
	case *regexp.Regexp:
		start, end, err := expect.MatchBefore(e.fset, e.FileContents, n.Pos, arg)
		if err != nil {
			return Range{}, nil, err
		}
		if start == token.NoPos {
			return Range{}, nil, fmt.Errorf("%v: pattern %s did not match", e.fset.Position(n.Pos), arg)
		}
		return Range{Start: start, End: end}, args, nil
	default:
		return Range{}, nil, fmt.Errorf("cannot convert %v to pos", arg)
	}
}