Bash completion V2 with completion descriptions (#1146)

* Bash completion v2 This v2 version of bash completion is based on Go completions. It also supports descriptions like the other shells. Signed-off-by: Marc Khouzam <marc.khouzam@montreal.ca> * Only consider matching completions for formatting Signed-off-by: Marc Khouzam <marc.khouzam@montreal.ca> * Use bash compV2 for the default completion command Signed-off-by: Marc Khouzam <marc.khouzam@montreal.ca> * Update comments that still referred to bash completion Signed-off-by: Marc Khouzam <marc.khouzam@montreal.ca>
2021-06-30 17:24:58 -04:00 · 2021-06-30 17:24:58 -04:00 · b36196066e
parent d0f318d45b
commit b36196066e
6 changed files with 346 additions and 17 deletions
--- a/bash_completions.md
+++ b/bash_completions.md
@ -6,6 +6,8 @@ Please refer to [Shell Completions](shell_completions.md) for details.
 For backward compatibility, Cobra still supports its legacy dynamic completion solution (described below).  Unlike the `ValidArgsFunction` solution, the legacy solution will only work for Bash shell-completion and not for other shells. This legacy solution can be used along-side `ValidArgsFunction` and `RegisterFlagCompletionFunc()`, as long as both solutions are not used for the same command.  This provides a path to gradually migrate from the legacy solution to the new solution.
 **Note**: Cobra's default `completion` command uses bash completion V2.  If you are currently using Cobra's legacy dynamic completion solution, you should not use the default `completion` command but continue using your own.
 The legacy solution allows you to inject bash functions into the bash completion script.  Those bash functions are responsible for providing the completion choices for your own completions.
 Some code that works in kubernetes:
--- a/bash_completionsV2.go
+++ b/bash_completionsV2.go
@ -0,0 +1,302 @@
 package cobra
 import (
 	"bytes"
 	"fmt"
 	"io"
 	"os"
 )
 func (c *Command) genBashCompletion(w io.Writer, includeDesc bool) error {
 	buf := new(bytes.Buffer)
 	genBashComp(buf, c.Name(), includeDesc)
 	_, err := buf.WriteTo(w)
 	return err
 }
 func genBashComp(buf io.StringWriter, name string, includeDesc bool) {
 	compCmd := ShellCompRequestCmd
 	if !includeDesc {
 		compCmd = ShellCompNoDescRequestCmd
 	}
 	WriteStringAndCheck(buf, fmt.Sprintf(`# bash completion V2 for %-36[1]s -*- shell-script -*-
 __%[1]s_debug()
 {
    if [[ -n ${BASH_COMP_DEBUG_FILE:-} ]]; then
        echo "$*" >> "${BASH_COMP_DEBUG_FILE}"
    fi
 }
 # Macs have bash3 for which the bash-completion package doesn't include
 # _init_completion. This is a minimal version of that function.
 __%[1]s_init_completion()
 {
    COMPREPLY=()
    _get_comp_words_by_ref "$@" cur prev words cword
 }
 # This function calls the %[1]s program to obtain the completion
 # results and the directive.  It fills the 'out' and 'directive' vars.
 __%[1]s_get_completion_results() {
    local requestComp lastParam lastChar args
    # Prepare the command to request completions for the program.
    # Calling ${words[0]} instead of directly %[1]s allows to handle aliases
    args=("${words[@]:1}")
    requestComp="${words[0]} %[2]s ${args[*]}"
    lastParam=${words[$((${#words[@]}-1))]}
    lastChar=${lastParam:$((${#lastParam}-1)):1}
    __%[1]s_debug "lastParam ${lastParam}, lastChar ${lastChar}"
    if [ -z "${cur}" ] && [ "${lastChar}" != "=" ]; then
        # If the last parameter is complete (there is a space following it)
        # We add an extra empty parameter so we can indicate this to the go method.
        __%[1]s_debug "Adding extra empty parameter"
        requestComp="${requestComp} ''"
    fi
    # When completing a flag with an = (e.g., %[1]s -n=<TAB>)
    # bash focuses on the part after the =, so we need to remove
    # the flag part from $cur
    if [[ "${cur}" == -*=* ]]; then
        cur="${cur#*=}"
    fi
    __%[1]s_debug "Calling ${requestComp}"
    # Use eval to handle any environment variables and such
    out=$(eval "${requestComp}" 2>/dev/null)
    # Extract the directive integer at the very end of the output following a colon (:)
    directive=${out##*:}
    # Remove the directive
    out=${out%%:*}
    if [ "${directive}" = "${out}" ]; then
        # There is not directive specified
        directive=0
    fi
    __%[1]s_debug "The completion directive is: ${directive}"
    __%[1]s_debug "The completions are: ${out[*]}"
 }
 __%[1]s_process_completion_results() {
    local shellCompDirectiveError=%[3]d
    local shellCompDirectiveNoSpace=%[4]d
    local shellCompDirectiveNoFileComp=%[5]d
    local shellCompDirectiveFilterFileExt=%[6]d
    local shellCompDirectiveFilterDirs=%[7]d
    if [ $((directive & shellCompDirectiveError)) -ne 0 ]; then
        # Error code.  No completion.
        __%[1]s_debug "Received error from custom completion go code"
        return
    else
        if [ $((directive & shellCompDirectiveNoSpace)) -ne 0 ]; then
            if [[ $(type -t compopt) = "builtin" ]]; then
                __%[1]s_debug "Activating no space"
                compopt -o nospace
            else
                __%[1]s_debug "No space directive not supported in this version of bash"
            fi
        fi
        if [ $((directive & shellCompDirectiveNoFileComp)) -ne 0 ]; then
            if [[ $(type -t compopt) = "builtin" ]]; then
                __%[1]s_debug "Activating no file completion"
                compopt +o default
            else
                __%[1]s_debug "No file completion directive not supported in this version of bash"
            fi
        fi
    fi
    if [ $((directive & shellCompDirectiveFilterFileExt)) -ne 0 ]; then
        # File extension filtering
        local fullFilter filter filteringCmd
        # Do not use quotes around the $out variable or else newline
        # characters will be kept.
        for filter in ${out[*]}; do
            fullFilter+="$filter|"
        done
        filteringCmd="_filedir $fullFilter"
        __%[1]s_debug "File filtering command: $filteringCmd"
        $filteringCmd
    elif [ $((directive & shellCompDirectiveFilterDirs)) -ne 0 ]; then
        # File completion for directories only
        # Use printf to strip any trailing newline
        local subdir
        subdir=$(printf "%%s" "${out[0]}")
        if [ -n "$subdir" ]; then
            __%[1]s_debug "Listing directories in $subdir"
            pushd "$subdir" >/dev/null 2>&1 && _filedir -d && popd >/dev/null 2>&1 || return
        else
            __%[1]s_debug "Listing directories in ."
            _filedir -d
        fi
    else
        __%[1]s_handle_standard_completion_case
    fi
    __%[1]s_handle_special_char "$cur" :
    __%[1]s_handle_special_char "$cur" =
 }
 __%[1]s_handle_standard_completion_case() {
    local tab comp
    tab=$(printf '\t')
    local longest=0
    # Look for the longest completion so that we can format things nicely
    while IFS='' read -r comp; do
        # Strip any description before checking the length
        comp=${comp%%%%$tab*}
        # Only consider the completions that match
        comp=$(compgen -W "$comp" -- "$cur")
        if ((${#comp}>longest)); then
            longest=${#comp}
        fi
    done < <(printf "%%s\n" "${out[@]}")
    local completions=()
    while IFS='' read -r comp; do
        if [ -z "$comp" ]; then
            continue
        fi
        __%[1]s_debug "Original comp: $comp"
        comp="$(__%[1]s_format_comp_descriptions "$comp" "$longest")"
        __%[1]s_debug "Final comp: $comp"
        completions+=("$comp")
    done < <(printf "%%s\n" "${out[@]}")
    while IFS='' read -r comp; do
        COMPREPLY+=("$comp")
    done < <(compgen -W "${completions[*]}" -- "$cur")
    # If there is a single completion left, remove the description text
    if [ ${#COMPREPLY[*]} -eq 1 ]; then
        __%[1]s_debug "COMPREPLY[0]: ${COMPREPLY[0]}"
        comp="${COMPREPLY[0]%%%% *}"
        __%[1]s_debug "Removed description from single completion, which is now: ${comp}"
        COMPREPLY=()
        COMPREPLY+=("$comp")
    fi
 }
 __%[1]s_handle_special_char()
 {
    local comp="$1"
    local char=$2
    if [[ "$comp" == *${char}* && "$COMP_WORDBREAKS" == *${char}* ]]; then
        local word=${comp%%"${comp##*${char}}"}
        local idx=${#COMPREPLY[*]}
        while [[ $((--idx)) -ge 0 ]]; do
            COMPREPLY[$idx]=${COMPREPLY[$idx]#"$word"}
        done
    fi
 }
 __%[1]s_format_comp_descriptions()
 {
    local tab
    tab=$(printf '\t')
    local comp="$1"
    local longest=$2
    # Properly format the description string which follows a tab character if there is one
    if [[ "$comp" == *$tab* ]]; then
        desc=${comp#*$tab}
        comp=${comp%%%%$tab*}
        # $COLUMNS stores the current shell width.
        # Remove an extra 4 because we add 2 spaces and 2 parentheses.
        maxdesclength=$(( COLUMNS - longest - 4 ))
        # Make sure we can fit a description of at least 8 characters
        # if we are to align the descriptions.
        if [[ $maxdesclength -gt 8 ]]; then
            # Add the proper number of spaces to align the descriptions
            for ((i = ${#comp} ; i < longest ; i++)); do
                comp+=" "
            done
        else
            # Don't pad the descriptions so we can fit more text after the completion
            maxdesclength=$(( COLUMNS - ${#comp} - 4 ))
        fi
        # If there is enough space for any description text,
        # truncate the descriptions that are too long for the shell width
        if [ $maxdesclength -gt 0 ]; then
            if [ ${#desc} -gt $maxdesclength ]; then
                desc=${desc:0:$(( maxdesclength - 1 ))}
                desc+="…"
            fi
            comp+="  ($desc)"
        fi
    fi
    # Must use printf to escape all special characters
    printf "%%q" "${comp}"
 }
 __start_%[1]s()
 {
    local cur prev words cword split
    COMPREPLY=()
    # Call _init_completion from the bash-completion package
    # to prepare the arguments properly
    if declare -F _init_completion >/dev/null 2>&1; then
        _init_completion -n "=:" || return
    else
        __%[1]s_init_completion -n "=:" || return
    fi
    __%[1]s_debug
    __%[1]s_debug "========= starting completion logic =========="
    __%[1]s_debug "cur is ${cur}, words[*] is ${words[*]}, #words[@] is ${#words[@]}, cword is $cword"
    # The user could have moved the cursor backwards on the command-line.
    # We need to trigger completion from the $cword location, so we need
    # to truncate the command-line ($words) up to the $cword location.
    words=("${words[@]:0:$cword+1}")
    __%[1]s_debug "Truncated words[*]: ${words[*]},"
    local out directive
    __%[1]s_get_completion_results
    __%[1]s_process_completion_results
 }
 if [[ $(type -t compopt) = "builtin" ]]; then
    complete -o default -F __start_%[1]s %[1]s
 else
    complete -o default -o nospace -F __start_%[1]s %[1]s
 fi
 # ex: ts=4 sw=4 et filetype=sh
 `, name, compCmd,
 		ShellCompDirectiveError, ShellCompDirectiveNoSpace, ShellCompDirectiveNoFileComp,
 		ShellCompDirectiveFilterFileExt, ShellCompDirectiveFilterDirs))
 }
 // GenBashCompletionFileV2 generates Bash completion version 2.
 func (c *Command) GenBashCompletionFileV2(filename string, includeDesc bool) error {
 	outFile, err := os.Create(filename)
 	if err != nil {
 		return err
 	}
 	defer outFile.Close()
 	return c.GenBashCompletionV2(outFile, includeDesc)
 }
 // GenBashCompletionV2 generates Bash completion file version 2
 // and writes it to the passed writer.
 func (c *Command) GenBashCompletionV2(w io.Writer, includeDesc bool) error {
 	return c.genBashCompletion(w, includeDesc)
 }
--- a/command.go
+++ b/command.go
@ -63,9 +63,9 @@ type Command struct {
 	// Example is examples of how to use the command.
 	Example string
-	// ValidArgs is list of all valid non-flag arguments that are accepted in bash completions
+	// ValidArgs is list of all valid non-flag arguments that are accepted in shell completions
 	ValidArgs []string
-	// ValidArgsFunction is an optional function that provides valid non-flag arguments for bash completion.
+	// ValidArgsFunction is an optional function that provides valid non-flag arguments for shell completion.
 	// It is a dynamic version of using ValidArgs.
 	// Only one of ValidArgs and ValidArgsFunction can be used for a command.
 	ValidArgsFunction func(cmd *Command, args []string, toComplete string) ([]string, ShellCompDirective)
@ -74,11 +74,12 @@ type Command struct {
 	Args PositionalArgs
 	// ArgAliases is List of aliases for ValidArgs.
-	// These are not suggested to the user in the bash completion,
+	// These are not suggested to the user in the shell completion,
 	// but accepted if entered manually.
 	ArgAliases []string
-	// BashCompletionFunction is custom functions used by the bash autocompletion generator.
+	// BashCompletionFunction is custom bash functions used by the legacy bash autocompletion generator.
 	// For portability with other shells, it is recommended to instead use ValidArgsFunction
 	BashCompletionFunction string
 	// Deprecated defines, if this command is deprecated and should print this string when used.
@ -938,7 +939,7 @@ func (c *Command) ExecuteC() (cmd *Command, err error) {
 		args = os.Args[1:]
 	}
-	// initialize the hidden command to be used for bash completion
+	// initialize the hidden command to be used for shell completion
 	c.initCompleteCmd(args)
 	var flags []string
--- a/completions.go
+++ b/completions.go
@ -34,7 +34,6 @@ const (
 	// ShellCompDirectiveNoFileComp indicates that the shell should not provide
 	// file completion even when no completion is provided.
 	// This currently does not work for zsh or bash < 4
 	ShellCompDirectiveNoFileComp
 	// ShellCompDirectiveFilterFileExt indicates that the provided completions
@ -592,9 +591,12 @@ You will need to start a new shell for this setup to take effect.
 		DisableFlagsInUseLine: true,
 		ValidArgsFunction:     NoFileCompletions,
 		RunE: func(cmd *Command, args []string) error {
-			return cmd.Root().GenBashCompletion(out)
+			return cmd.Root().GenBashCompletionV2(out, !noDesc)
 		},
 	}
 	if haveNoDescFlag {
 		bash.Flags().BoolVar(&noDesc, compCmdNoDescFlagName, compCmdNoDescFlagDefault, compCmdNoDescFlagDesc)
 	}
 	zsh := &Command{
 		Use:   "zsh",
--- a/completions_test.go
+++ b/completions_test.go
@ -2097,9 +2097,9 @@ func TestDefaultCompletionCmd(t *testing.T) {
 	removeCompCmd(rootCmd)
 	var compCmd *Command
-	// Test that the --no-descriptions flag is present for the relevant shells only
+	// Test that the --no-descriptions flag is present on all shells
 	assertNoErr(t, rootCmd.Execute())
-	for _, shell := range []string{"fish", "powershell", "zsh"} {
+	for _, shell := range []string{"bash", "fish", "powershell", "zsh"} {
 		if compCmd, _, err = rootCmd.Find([]string{compCmdName, shell}); err != nil {
 			t.Errorf("Unexpected error: %v", err)
 		}
@ -2107,14 +2107,6 @@ func TestDefaultCompletionCmd(t *testing.T) {
 			t.Errorf("Missing --%s flag for %s shell", compCmdNoDescFlagName, shell)
 		}
 	}
 	for _, shell := range []string{"bash"} {
 		if compCmd, _, err = rootCmd.Find([]string{compCmdName, shell}); err != nil {
 			t.Errorf("Unexpected error: %v", err)
 		}
 		if flag := compCmd.Flags().Lookup(compCmdNoDescFlagName); flag != nil {
 			t.Errorf("Unexpected --%s flag for %s shell", compCmdNoDescFlagName, shell)
 		}
 	}
 	// Remove completion command for the next test
 	removeCompCmd(rootCmd)
--- a/shell_completions.md
+++ b/shell_completions.md
@ -400,6 +400,36 @@ completion     firstcommand   secondcommand
 For backward compatibility, Cobra still supports its bash legacy dynamic completion solution.
 Please refer to [Bash Completions](bash_completions.md) for details.
 ### Bash completion V2
 Cobra provides two versions for bash completion.  The original bash completion (which started it all!) can be used by calling
 `GenBashCompletion()` or `GenBashCompletionFile()`.
 A new V2 bash completion version is also available.  This version can be used by calling `GenBashCompletionV2()` or
 `GenBashCompletionFileV2()`.  The V2 version does **not** support the legacy dynamic completion (see [Bash Completions]
 (bash_completions.md)) but instead works only with the Go dynamic completion solution described in this Readme.
 Unless your program already uses the legacy dynamic completion solution, it is recommended that you use the bash
 completion V2 solution which provides the following extra features:
 - Supports completion descriptions (like the other shells)
 - Small completion script of less than 300 lines (v1 generates scripts of thousands of lines; `kubectl` for example has a bash v1 completion script of over 13K lines)
 - Streamlined user experience thanks to a completion behavior aligned with the other shells 
 `Bash` completion V2 supports descriptions for completions. When calling `GenBashCompletionV2()` or `GenBashCompletionFileV2()`
 you must provide these functions with a parameter indicating if the completions should be annotated with a description; Cobra
 will provide the description automatically based on usage information.  You can choose to make this option configurable by
 your users.
 ```
 # With descriptions
 $ helm s[tab][tab]
 search  (search for a keyword in charts)           status  (display the status of the named release)
 show    (show information of a chart)
 # Without descriptions
 $ helm s[tab][tab]
 search  show  status
 ```
 **Note**: Cobra's default `completion` command uses bash completion V2.  If for some reason you need to use bash completion V1, you will need to implement your own `completion` command. 
 ## Zsh completions
 Cobra supports native zsh completion generated from the root `cobra.Command`.