forked from Shiloh/githaven
08bf443016
* Inital routes to git refs api * Git refs API implementation * Update swagger * Fix copyright * Make swagger happy add basic test * Fix test * Fix test again :)
303 lines
8.2 KiB
Go
303 lines
8.2 KiB
Go
package git
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import (
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"bytes"
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"errors"
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"fmt"
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"strconv"
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"strings"
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"time"
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"unicode/utf8"
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"gopkg.in/src-d/go-git.v4/plumbing"
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"gopkg.in/src-d/go-git.v4/plumbing/object"
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"gopkg.in/src-d/go-git.v4/utils/diff"
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)
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// BlameResult represents the result of a Blame operation.
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type BlameResult struct {
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// Path is the path of the File that we're blaming.
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Path string
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// Rev (Revision) is the hash of the specified Commit used to generate this result.
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Rev plumbing.Hash
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// Lines contains every line with its authorship.
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Lines []*Line
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}
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// Blame returns a BlameResult with the information about the last author of
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// each line from file `path` at commit `c`.
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func Blame(c *object.Commit, path string) (*BlameResult, error) {
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// The file to blame is identified by the input arguments:
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// commit and path. commit is a Commit object obtained from a Repository. Path
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// represents a path to a specific file contained into the repository.
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//
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// Blaming a file is a two step process:
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//
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// 1. Create a linear history of the commits affecting a file. We use
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// revlist.New for that.
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//
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// 2. Then build a graph with a node for every line in every file in
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// the history of the file.
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//
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// Each node is assigned a commit: Start by the nodes in the first
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// commit. Assign that commit as the creator of all its lines.
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//
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// Then jump to the nodes in the next commit, and calculate the diff
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// between the two files. Newly created lines get
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// assigned the new commit as its origin. Modified lines also get
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// this new commit. Untouched lines retain the old commit.
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//
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// All this work is done in the assignOrigin function which holds all
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// the internal relevant data in a "blame" struct, that is not
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// exported.
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//
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// TODO: ways to improve the efficiency of this function:
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// 1. Improve revlist
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// 2. Improve how to traverse the history (example a backward traversal will
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// be much more efficient)
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//
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// TODO: ways to improve the function in general:
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// 1. Add memoization between revlist and assign.
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// 2. It is using much more memory than needed, see the TODOs below.
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b := new(blame)
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b.fRev = c
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b.path = path
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// get all the file revisions
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if err := b.fillRevs(); err != nil {
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return nil, err
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}
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// calculate the line tracking graph and fill in
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// file contents in data.
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if err := b.fillGraphAndData(); err != nil {
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return nil, err
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}
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file, err := b.fRev.File(b.path)
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if err != nil {
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return nil, err
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}
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finalLines, err := file.Lines()
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if err != nil {
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return nil, err
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}
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// Each node (line) holds the commit where it was introduced or
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// last modified. To achieve that we use the FORWARD algorithm
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// described in Zimmermann, et al. "Mining Version Archives for
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// Co-changed Lines", in proceedings of the Mining Software
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// Repositories workshop, Shanghai, May 22-23, 2006.
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lines, err := newLines(finalLines, b.sliceGraph(len(b.graph)-1))
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if err != nil {
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return nil, err
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}
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return &BlameResult{
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Path: path,
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Rev: c.Hash,
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Lines: lines,
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}, nil
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}
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// Line values represent the contents and author of a line in BlamedResult values.
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type Line struct {
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// Author is the email address of the last author that modified the line.
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Author string
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// Text is the original text of the line.
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Text string
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// Date is when the original text of the line was introduced
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Date time.Time
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// Hash is the commit hash that introduced the original line
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Hash plumbing.Hash
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}
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func newLine(author, text string, date time.Time, hash plumbing.Hash) *Line {
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return &Line{
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Author: author,
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Text: text,
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Hash: hash,
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Date: date,
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}
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}
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func newLines(contents []string, commits []*object.Commit) ([]*Line, error) {
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lcontents := len(contents)
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lcommits := len(commits)
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if lcontents != lcommits {
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if lcontents == lcommits-1 && contents[lcontents-1] != "\n" {
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contents = append(contents, "\n")
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} else {
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return nil, errors.New("contents and commits have different length")
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}
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}
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result := make([]*Line, 0, lcontents)
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for i := range contents {
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result = append(result, newLine(
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commits[i].Author.Email, contents[i],
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commits[i].Author.When, commits[i].Hash,
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))
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}
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return result, nil
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}
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// this struct is internally used by the blame function to hold its
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// inputs, outputs and state.
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type blame struct {
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// the path of the file to blame
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path string
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// the commit of the final revision of the file to blame
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fRev *object.Commit
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// the chain of revisions affecting the the file to blame
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revs []*object.Commit
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// the contents of the file across all its revisions
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data []string
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// the graph of the lines in the file across all the revisions
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graph [][]*object.Commit
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}
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// calculate the history of a file "path", starting from commit "from", sorted by commit date.
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func (b *blame) fillRevs() error {
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var err error
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b.revs, err = references(b.fRev, b.path)
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return err
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}
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// build graph of a file from its revision history
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func (b *blame) fillGraphAndData() error {
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//TODO: not all commits are needed, only the current rev and the prev
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b.graph = make([][]*object.Commit, len(b.revs))
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b.data = make([]string, len(b.revs)) // file contents in all the revisions
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// for every revision of the file, starting with the first
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// one...
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for i, rev := range b.revs {
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// get the contents of the file
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file, err := rev.File(b.path)
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if err != nil {
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return nil
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}
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b.data[i], err = file.Contents()
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if err != nil {
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return err
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}
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nLines := countLines(b.data[i])
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// create a node for each line
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b.graph[i] = make([]*object.Commit, nLines)
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// assign a commit to each node
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// if this is the first revision, then the node is assigned to
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// this first commit.
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if i == 0 {
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for j := 0; j < nLines; j++ {
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b.graph[i][j] = (*object.Commit)(b.revs[i])
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}
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} else {
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// if this is not the first commit, then assign to the old
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// commit or to the new one, depending on what the diff
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// says.
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b.assignOrigin(i, i-1)
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}
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}
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return nil
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}
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// sliceGraph returns a slice of commits (one per line) for a particular
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// revision of a file (0=first revision).
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func (b *blame) sliceGraph(i int) []*object.Commit {
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fVs := b.graph[i]
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result := make([]*object.Commit, 0, len(fVs))
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for _, v := range fVs {
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c := object.Commit(*v)
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result = append(result, &c)
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}
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return result
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}
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// Assigns origin to vertexes in current (c) rev from data in its previous (p)
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// revision
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func (b *blame) assignOrigin(c, p int) {
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// assign origin based on diff info
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hunks := diff.Do(b.data[p], b.data[c])
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sl := -1 // source line
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dl := -1 // destination line
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for h := range hunks {
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hLines := countLines(hunks[h].Text)
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for hl := 0; hl < hLines; hl++ {
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switch {
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case hunks[h].Type == 0:
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sl++
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dl++
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b.graph[c][dl] = b.graph[p][sl]
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case hunks[h].Type == 1:
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dl++
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b.graph[c][dl] = (*object.Commit)(b.revs[c])
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case hunks[h].Type == -1:
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sl++
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default:
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panic("unreachable")
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}
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}
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}
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}
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// GoString prints the results of a Blame using git-blame's style.
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func (b *blame) GoString() string {
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var buf bytes.Buffer
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file, err := b.fRev.File(b.path)
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if err != nil {
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panic("PrettyPrint: internal error in repo.Data")
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}
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contents, err := file.Contents()
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if err != nil {
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panic("PrettyPrint: internal error in repo.Data")
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}
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lines := strings.Split(contents, "\n")
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// max line number length
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mlnl := len(strconv.Itoa(len(lines)))
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// max author length
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mal := b.maxAuthorLength()
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format := fmt.Sprintf("%%s (%%-%ds %%%dd) %%s\n",
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mal, mlnl)
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fVs := b.graph[len(b.graph)-1]
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for ln, v := range fVs {
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fmt.Fprintf(&buf, format, v.Hash.String()[:8],
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prettyPrintAuthor(fVs[ln]), ln+1, lines[ln])
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}
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return buf.String()
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}
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// utility function to pretty print the author.
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func prettyPrintAuthor(c *object.Commit) string {
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return fmt.Sprintf("%s %s", c.Author.Name, c.Author.When.Format("2006-01-02"))
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}
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// utility function to calculate the number of runes needed
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// to print the longest author name in the blame of a file.
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func (b *blame) maxAuthorLength() int {
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memo := make(map[plumbing.Hash]struct{}, len(b.graph)-1)
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fVs := b.graph[len(b.graph)-1]
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m := 0
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for ln := range fVs {
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if _, ok := memo[fVs[ln].Hash]; ok {
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continue
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}
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memo[fVs[ln].Hash] = struct{}{}
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m = max(m, utf8.RuneCountInString(prettyPrintAuthor(fVs[ln])))
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}
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return m
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}
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func max(a, b int) int {
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if a > b {
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return a
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}
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return b
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}
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