// nolintlint provides a linter to ensure that all //nolint directives are followed by explanations
package nolintlint

import (
	"fmt"
	"go/ast"
	"go/token"
	"regexp"
	"strings"
	"unicode"
)

type BaseIssue struct {
	fullDirective                     string
	directiveWithOptionalLeadingSpace string
	position                          token.Position
}

func (b BaseIssue) Position() token.Position {
	return b.position
}

type ExtraLeadingSpace struct {
	BaseIssue
}

func (i ExtraLeadingSpace) Details() string {
	return fmt.Sprintf("directive `%s` should not have more than one leading space", i.fullDirective)
}

func (i ExtraLeadingSpace) String() string { return toString(i) }

type NotMachine struct {
	BaseIssue
}

func (i NotMachine) Details() string {
	expected := i.fullDirective[:2] + strings.TrimLeftFunc(i.fullDirective[2:], unicode.IsSpace)
	return fmt.Sprintf("directive `%s` should be written without leading space as `%s`",
		i.fullDirective, expected)
}

func (i NotMachine) String() string { return toString(i) }

type NotSpecific struct {
	BaseIssue
}

func (i NotSpecific) Details() string {
	return fmt.Sprintf("directive `%s` should mention specific linter such as `//%s:my-linter`",
		i.fullDirective, i.directiveWithOptionalLeadingSpace)
}

func (i NotSpecific) String() string { return toString(i) }

type ParseError struct {
	BaseIssue
}

func (i ParseError) Details() string {
	return fmt.Sprintf("directive `%s` should match `//%s[:<comma-separated-linters>] [// <explanation>]`",
		i.fullDirective,
		i.directiveWithOptionalLeadingSpace)
}

func (i ParseError) String() string { return toString(i) }

type NoExplanation struct {
	BaseIssue
	fullDirectiveWithoutExplanation string
}

func (i NoExplanation) Details() string {
	return fmt.Sprintf("directive `%s` should provide explanation such as `%s // this is why`",
		i.fullDirective, i.fullDirectiveWithoutExplanation)
}

func (i NoExplanation) String() string { return toString(i) }

type UnusedCandidate struct {
	BaseIssue
	ExpectedLinter string
}

func (i UnusedCandidate) Details() string {
	details := fmt.Sprintf("directive `%s` is unused", i.fullDirective)
	if i.ExpectedLinter != "" {
		details += fmt.Sprintf(" for linter %s", i.ExpectedLinter)
	}
	return details
}

func (i UnusedCandidate) String() string { return toString(i) }

func toString(i Issue) string {
	return fmt.Sprintf("%s at %s", i.Details(), i.Position())
}

type Issue interface {
	Details() string
	Position() token.Position
	String() string
}

type Needs uint

const (
	NeedsMachineOnly Needs = 1 << iota
	NeedsSpecific
	NeedsExplanation
	NeedsUnused
	NeedsAll = NeedsMachineOnly | NeedsSpecific | NeedsExplanation
)

// matches lines starting with the nolint directive
var directiveOnlyPattern = regexp.MustCompile(`^\s*(nolint)(:\s*[\w-]+\s*(?:,\s*[\w-]+\s*)*)?\b`)

// matches a complete nolint directive
var fullDirectivePattern = regexp.MustCompile(`^//\s*nolint(:\s*[\w-]+\s*(?:,\s*[\w-]+\s*)*)?\s*(//.*)?\s*\n?$`)

type Linter struct {
	excludes        []string // lists individual linters that don't require explanations
	needs           Needs    // indicates which linter checks to perform
	excludeByLinter map[string]bool
}

// NewLinter creates a linter that enforces that the provided directives fulfill the provided requirements
func NewLinter(needs Needs, excludes []string) (*Linter, error) {
	excludeByName := make(map[string]bool)
	for _, e := range excludes {
		excludeByName[e] = true
	}

	return &Linter{
		needs:           needs,
		excludeByLinter: excludeByName,
	}, nil
}

var leadingSpacePattern = regexp.MustCompile(`^//(\s*)`)
var trailingBlankExplanation = regexp.MustCompile(`\s*(//\s*)?$`)

func (l Linter) Run(fset *token.FileSet, nodes ...ast.Node) ([]Issue, error) {
	var issues []Issue
	for _, node := range nodes {
		if file, ok := node.(*ast.File); ok {
			for _, c := range file.Comments {
				text := c.Text()
				matches := directiveOnlyPattern.FindStringSubmatch(text)
				if len(matches) == 0 {
					continue
				}
				directive := matches[1]

				// check for a space between the "//" and the directive
				leadingSpaceMatches := leadingSpacePattern.FindStringSubmatch(c.List[0].Text) // c.Text() doesn't have all leading space
				if len(leadingSpaceMatches) == 0 {
					continue
				}
				leadingSpace := leadingSpaceMatches[1]

				directiveWithOptionalLeadingSpace := directive
				if len(leadingSpace) > 0 {
					directiveWithOptionalLeadingSpace = " " + directive
				}

				base := BaseIssue{
					fullDirective:                     c.List[0].Text,
					directiveWithOptionalLeadingSpace: directiveWithOptionalLeadingSpace,
					position:                          fset.Position(c.Pos()),
				}

				// check for, report and eliminate leading spaces so we can check for other issues
				if leadingSpace != "" && leadingSpace != " " {
					issues = append(issues, ExtraLeadingSpace{
						BaseIssue: base,
					})
				}

				if (l.needs&NeedsMachineOnly) != 0 && strings.HasPrefix(directiveWithOptionalLeadingSpace, " ") {
					issues = append(issues, NotMachine{BaseIssue: base})
				}

				fullMatches := fullDirectivePattern.FindStringSubmatch(c.List[0].Text)
				if len(fullMatches) == 0 {
					issues = append(issues, ParseError{BaseIssue: base})
					continue
				}
				lintersText, explanation := fullMatches[1], fullMatches[2]
				var linters []string
				if len(lintersText) > 0 {
					lls := strings.Split(lintersText[1:], ",")
					linters = make([]string, 0, len(lls))
					for _, ll := range lls {
						ll = strings.TrimSpace(ll)
						if ll != "" {
							linters = append(linters, ll)
						}
					}
				}
				if (l.needs & NeedsSpecific) != 0 {
					if len(linters) == 0 {
						issues = append(issues, NotSpecific{BaseIssue: base})
					}
				}

				// when detecting unused directives, we send all the directives through and filter them out in the nolint processor
				if l.needs&NeedsUnused != 0 {
					if len(linters) == 0 {
						issues = append(issues, UnusedCandidate{BaseIssue: base})
					} else {
						for _, linter := range linters {
							issues = append(issues, UnusedCandidate{BaseIssue: base, ExpectedLinter: linter})
						}
					}
				}

				if (l.needs&NeedsExplanation) != 0 && (explanation == "" || strings.TrimSpace(explanation) == "//") {
					needsExplanation := len(linters) == 0 // if no linters are mentioned, we must have explanation
					// otherwise, check if we are excluding all of the mentioned linters
					for _, ll := range linters {
						if !l.excludeByLinter[ll] { // if a linter does require explanation
							needsExplanation = true
							break
						}
					}
					if needsExplanation {
						fullDirectiveWithoutExplanation := trailingBlankExplanation.ReplaceAllString(c.List[0].Text, "")
						issues = append(issues, NoExplanation{
							BaseIssue:                       base,
							fullDirectiveWithoutExplanation: fullDirectiveWithoutExplanation,
						})
					}
				}
			}
		}
	}
	return issues, nil
}