mirror of https://github.com/Hilbis/Hilbish
559 lines
14 KiB
Go
559 lines
14 KiB
Go
// Here is the core api for the hilbi shell itself
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// Basically, stuff about the shell itself and other functions
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// go here.
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package main
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import (
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// "fmt"
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"os"
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// "os/exec"
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"runtime"
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"strings"
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// "syscall"
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// "time"
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"hilbish/util"
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rt "github.com/arnodel/golua/runtime"
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"github.com/arnodel/golua/lib/packagelib"
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// "github.com/maxlandon/readline"
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// "github.com/blackfireio/osinfo"
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// "mvdan.cc/sh/v3/interp"
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)
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var exports = map[string]util.LuaExport{
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/*"alias": hlalias,
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"appendPath": hlappendPath,
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"complete": hlcomplete,
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"cwd": hlcwd,
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"exec": hlexec,
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"runnerMode": hlrunnerMode,
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"goro": hlgoro,
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"highlighter": hlhighlighter,
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"hinter": hlhinter,
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"multiprompt": hlmlprompt,
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"prependPath": hlprependPath,*/
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"prompt": util.LuaExport{hlprompt, 1, false},
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/*"inputMode": hlinputMode,
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"interval": hlinterval,
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"read": hlread,
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"run": hlrun,
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"timeout": hltimeout,
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"which": hlwhich,*/
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}
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var greeting string
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//var hshMod *lua.LTable
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var hilbishLoader = packagelib.Loader{
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Load: hilbishLoad,
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Name: "hilbish",
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}
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func hilbishLoad(rtm *rt.Runtime) (rt.Value, func()) {
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mod := rt.NewTable()
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util.SetExports(rtm, mod, exports)
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// hshMod = mod
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// host, _ := os.Hostname()
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username := curuser.Username
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if runtime.GOOS == "windows" {
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username = strings.Split(username, "\\")[1] // for some reason Username includes the hostname on windows
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}
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greeting = `Welcome to {magenta}Hilbish{reset}, {cyan}` + username + `{reset}.
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The nice lil shell for {blue}Lua{reset} fanatics!
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Check out the {blue}{bold}guide{reset} command to get started.
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`
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/*
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util.SetField(L, mod, "ver", lua.LString(version), "Hilbish version")
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util.SetField(L, mod, "user", lua.LString(username), "Username of user")
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util.SetField(L, mod, "host", lua.LString(host), "Host name of the machine")
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util.SetField(L, mod, "home", lua.LString(curuser.HomeDir), "Home directory of the user")
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*/
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util.SetField(rtm, mod, "dataDir", rt.StringValue(dataDir), "Directory for Hilbish's data files")
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/*
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util.SetField(L, mod, "interactive", lua.LBool(interactive), "If this is an interactive shell")
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util.SetField(L, mod, "login", lua.LBool(interactive), "Whether this is a login shell")*/
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util.SetField(rtm, mod, "greeting", rt.StringValue(greeting), "Hilbish's welcome message for interactive shells. It has Lunacolors formatting.")
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/*util.SetField(l, mod, "vimMode", lua.LNil, "Current Vim mode of Hilbish (nil if not in Vim mode)")
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util.SetField(l, hshMod, "exitCode", lua.LNumber(0), "Exit code of last exected command")
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util.Document(L, mod, "Hilbish's core API, containing submodules and functions which relate to the shell itself.")
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*/
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// hilbish.userDir table
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hshuser := rt.NewTable()
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util.SetField(rtm, hshuser, "config", rt.StringValue(confDir), "User's config directory")
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util.SetField(rtm, hshuser, "data", rt.StringValue(userDataDir), "XDG data directory")
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//util.Document(rtm, hshuser, "User directories to store configs and/or modules.")
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mod.Set(rt.StringValue("userDir"), rt.TableValue(hshuser))
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/*
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// hilbish.os table
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hshos := L.NewTable()
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info, _ := osinfo.GetOSInfo()
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util.SetField(L, hshos, "family", lua.LString(info.Family), "Family name of the current OS")
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util.SetField(L, hshos, "name", lua.LString(info.Name), "Pretty name of the current OS")
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util.SetField(L, hshos, "version", lua.LString(info.Version), "Version of the current OS")
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util.Document(L, hshos, "OS info interface")
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L.SetField(mod, "os", hshos)
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*/
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// hilbish.aliases table
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aliases = newAliases()
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/*
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aliasesModule := aliases.Loader(L)
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util.Document(L, aliasesModule, "Alias inferface for Hilbish.")
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L.SetField(mod, "aliases", aliasesModule)
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// hilbish.history table
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historyModule := lr.Loader(L)
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util.Document(L, historyModule, "History interface for Hilbish.")
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L.SetField(mod, "history", historyModule)
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// hilbish.completions table
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hshcomp := L.NewTable()
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util.SetField(L, hshcomp, "files", L.NewFunction(luaFileComplete), "Completer for files")
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util.SetField(L, hshcomp, "bins", L.NewFunction(luaBinaryComplete), "Completer for executables/binaries")
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util.Document(L, hshcomp, "Completions interface for Hilbish.")
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L.SetField(mod, "completion", hshcomp)
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// hilbish.runner table
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runnerModule := runnerModeLoader(L)
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util.Document(L, runnerModule, "Runner/exec interface for Hilbish.")
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L.SetField(mod, "runner", runnerModule)
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*/
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// hilbish.jobs table
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jobs = newJobHandler()
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/*
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jobModule := jobs.loader(L)
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util.Document(L, jobModule, "(Background) job interface.")
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L.SetField(mod, "jobs", jobModule)
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*/
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return rt.TableValue(mod), nil
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}
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func getenv(key, fallback string) string {
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value := os.Getenv(key)
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if len(value) == 0 {
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return fallback
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}
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return value
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}
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/*
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func luaFileComplete(L *lua.LState) int {
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query := L.CheckString(1)
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ctx := L.CheckString(2)
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fields := L.CheckTable(3)
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var fds []string
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fields.ForEach(func(k lua.LValue, v lua.LValue) {
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fds = append(fds, v.String())
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})
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completions := fileComplete(query, ctx, fds)
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luaComps := L.NewTable()
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for _, comp := range completions {
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luaComps.Append(lua.LString(comp))
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}
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L.Push(luaComps)
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return 1
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}
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func luaBinaryComplete(L *lua.LState) int {
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query := L.CheckString(1)
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ctx := L.CheckString(2)
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fields := L.CheckTable(3)
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var fds []string
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fields.ForEach(func(k lua.LValue, v lua.LValue) {
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fds = append(fds, v.String())
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})
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completions, _ := binaryComplete(query, ctx, fds)
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luaComps := L.NewTable()
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for _, comp := range completions {
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luaComps.Append(lua.LString(comp))
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}
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L.Push(luaComps)
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return 1
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}
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*/
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func setVimMode(mode string) {
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// util.SetField(l, hshMod, "vimMode", lua.LString(mode), "Current Vim mode of Hilbish (nil if not in Vim mode)")
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// hooks.Em.Emit("hilbish.vimMode", mode)
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}
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func unsetVimMode() {
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// util.SetField(l, hshMod, "vimMode", lua.LNil, "Current Vim mode of Hilbish (nil if not in Vim mode)")
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}
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/*
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// run(cmd)
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// Runs `cmd` in Hilbish's sh interpreter.
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// --- @param cmd string
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func hlrun(L *lua.LState) int {
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var exitcode uint8
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cmd := L.CheckString(1)
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err := execCommand(cmd)
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if code, ok := interp.IsExitStatus(err); ok {
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exitcode = code
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} else if err != nil {
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exitcode = 1
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}
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L.Push(lua.LNumber(exitcode))
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return 1
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}
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// cwd()
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// Returns the current directory of the shell
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func hlcwd(L *lua.LState) int {
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cwd, _ := os.Getwd()
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L.Push(lua.LString(cwd))
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return 1
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}
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// read(prompt) -> input?
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// Read input from the user, using Hilbish's line editor/input reader.
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// This is a separate instance from the one Hilbish actually uses.
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// Returns `input`, will be nil if ctrl + d is pressed, or an error occurs (which shouldn't happen)
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// --- @param prompt string
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func hlread(L *lua.LState) int {
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luaprompt := L.CheckString(1)
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lualr := newLineReader("", true)
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lualr.SetPrompt(luaprompt)
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input, err := lualr.Read()
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if err != nil {
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L.Push(lua.LNil)
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return 1
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}
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L.Push(lua.LString(input))
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return 1
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}
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*/
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/*
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prompt(str)
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Changes the shell prompt to `str`
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There are a few verbs that can be used in the prompt text.
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These will be formatted and replaced with the appropriate values.
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`%d` - Current working directory
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`%u` - Name of current user
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`%h` - Hostname of device
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--- @param str string
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*/
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func hlprompt(t *rt.Thread, c *rt.GoCont) (rt.Cont, error) {
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var prompt string
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err := c.Check1Arg()
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if err == nil {
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prompt, err = c.StringArg(0)
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}
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if err != nil {
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return nil, err
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}
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lr.SetPrompt(fmtPrompt(prompt))
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return nil, nil
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}
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// multiprompt(str)
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// Changes the continued line prompt to `str`
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// --- @param str string
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/*
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func hlmlprompt(L *lua.LState) int {
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multilinePrompt = L.CheckString(1)
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return 0
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}
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// alias(cmd, orig)
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// Sets an alias of `cmd` to `orig`
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// --- @param cmd string
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// --- @param orig string
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func hlalias(L *lua.LState) int {
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alias := L.CheckString(1)
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source := L.CheckString(2)
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aliases.Add(alias, source)
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return 1
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}
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// appendPath(dir)
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// Appends `dir` to $PATH
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// --- @param dir string|table
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func hlappendPath(L *lua.LState) int {
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// check if dir is a table or a string
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arg := L.Get(1)
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if arg.Type() == lua.LTTable {
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arg.(*lua.LTable).ForEach(func(k lua.LValue, v lua.LValue) {
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appendPath(v.String())
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})
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} else if arg.Type() == lua.LTString {
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appendPath(arg.String())
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} else {
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L.RaiseError("bad argument to appendPath (expected string or table, got %v)", L.Get(1).Type().String())
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}
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return 0
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}
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func appendPath(dir string) {
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dir = strings.Replace(dir, "~", curuser.HomeDir, 1)
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pathenv := os.Getenv("PATH")
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// if dir isnt already in $PATH, add it
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if !strings.Contains(pathenv, dir) {
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os.Setenv("PATH", pathenv + string(os.PathListSeparator) + dir)
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}
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}
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// exec(cmd)
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// Replaces running hilbish with `cmd`
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// --- @param cmd string
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func hlexec(L *lua.LState) int {
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cmd := L.CheckString(1)
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cmdArgs, _ := splitInput(cmd)
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if runtime.GOOS != "windows" {
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cmdPath, err := exec.LookPath(cmdArgs[0])
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if err != nil {
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fmt.Println(err)
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// if we get here, cmdPath will be nothing
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// therefore nothing will run
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}
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// syscall.Exec requires an absolute path to a binary
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// path, args, string slice of environments
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syscall.Exec(cmdPath, cmdArgs, os.Environ())
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} else {
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cmd := exec.Command(cmdArgs[0], cmdArgs[1:]...)
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cmd.Stdout = os.Stdout
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cmd.Stderr = os.Stderr
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cmd.Stdin = os.Stdin
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cmd.Run()
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os.Exit(0)
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}
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return 0
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}
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// goro(fn)
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// Puts `fn` in a goroutine
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// --- @param fn function
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func hlgoro(L *lua.LState) int {
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fn := L.CheckFunction(1)
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argnum := L.GetTop()
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args := make([]lua.LValue, argnum)
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for i := 1; i <= argnum; i++ {
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args[i - 1] = L.Get(i)
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}
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// call fn
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go func() {
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if err := L.CallByParam(lua.P{
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Fn: fn,
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NRet: 0,
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Protect: true,
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}, args...); err != nil {
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fmt.Fprintln(os.Stderr, "Error in goro function:\n\n", err)
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}
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}()
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return 0
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}
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// timeout(cb, time)
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// Runs the `cb` function after `time` in milliseconds
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// --- @param cb function
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// --- @param time number
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func hltimeout(L *lua.LState) int {
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cb := L.CheckFunction(1)
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ms := L.CheckInt(2)
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timeout := time.Duration(ms) * time.Millisecond
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time.Sleep(timeout)
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if err := L.CallByParam(lua.P{
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Fn: cb,
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NRet: 0,
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Protect: true,
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}); err != nil {
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fmt.Fprintln(os.Stderr, "Error in goro function:\n\n", err)
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}
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return 0
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}
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// interval(cb, time)
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// Runs the `cb` function every `time` milliseconds
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// --- @param cb function
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// --- @param time number
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func hlinterval(L *lua.LState) int {
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intervalfunc := L.CheckFunction(1)
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ms := L.CheckInt(2)
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interval := time.Duration(ms) * time.Millisecond
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ticker := time.NewTicker(interval)
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stop := make(chan lua.LValue)
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go func() {
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for {
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select {
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case <-ticker.C:
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if err := L.CallByParam(lua.P{
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Fn: intervalfunc,
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NRet: 0,
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Protect: true,
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}); err != nil {
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fmt.Fprintln(os.Stderr, "Error in interval function:\n\n", err)
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stop <- lua.LTrue // stop the interval
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}
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case <-stop:
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ticker.Stop()
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return
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}
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}
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}()
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L.Push(lua.LChannel(stop))
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return 1
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}
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// complete(scope, cb)
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// Registers a completion handler for `scope`.
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// A `scope` is currently only expected to be `command.<cmd>`,
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// replacing <cmd> with the name of the command (for example `command.git`).
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// `cb` must be a function that returns a table of "completion groups."
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// A completion group is a table with the keys `items` and `type`.
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// `items` being a table of items and `type` being the display type of
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// `grid` (the normal file completion display) or `list` (with a description)
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// --- @param scope string
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// --- @param cb function
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func hlcomplete(L *lua.LState) int {
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scope := L.CheckString(1)
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cb := L.CheckFunction(2)
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luaCompletions[scope] = cb
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return 0
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}
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// prependPath(dir)
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// Prepends `dir` to $PATH
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// --- @param dir string
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func hlprependPath(L *lua.LState) int {
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dir := L.CheckString(1)
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dir = strings.Replace(dir, "~", curuser.HomeDir, 1)
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pathenv := os.Getenv("PATH")
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// if dir isnt already in $PATH, add in
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if !strings.Contains(pathenv, dir) {
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os.Setenv("PATH", dir + string(os.PathListSeparator) + pathenv)
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}
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return 0
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}
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// which(binName)
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// Searches for an executable called `binName` in the directories of $PATH
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// --- @param binName string
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func hlwhich(L *lua.LState) int {
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binName := L.CheckString(1)
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path, err := exec.LookPath(binName)
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if err != nil {
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l.Push(lua.LNil)
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return 1
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}
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l.Push(lua.LString(path))
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return 1
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}
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// inputMode(mode)
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// Sets the input mode for Hilbish's line reader. Accepts either emacs for vim
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// --- @param mode string
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func hlinputMode(L *lua.LState) int {
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mode := L.CheckString(1)
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switch mode {
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case "emacs":
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unsetVimMode()
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lr.rl.InputMode = readline.Emacs
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case "vim":
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setVimMode("insert")
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lr.rl.InputMode = readline.Vim
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default: L.RaiseError("inputMode: expected vim or emacs, received " + mode)
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}
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return 0
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}
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// runnerMode(mode)
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// Sets the execution/runner mode for interactive Hilbish. This determines whether
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// Hilbish wll try to run input as Lua and/or sh or only do one of either.
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// Accepted values for mode are hybrid (the default), hybridRev (sh first then Lua),
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// sh, and lua. It also accepts a function, to which if it is passed one
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// will call it to execute user input instead.
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// --- @param mode string|function
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func hlrunnerMode(L *lua.LState) int {
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mode := L.CheckAny(1)
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switch mode.Type() {
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case lua.LTString:
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switch mode.String() {
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// no fallthrough doesnt work so eh
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case "hybrid": fallthrough
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case "hybridRev": fallthrough
|
|
case "lua": fallthrough
|
|
case "sh":
|
|
runnerMode = mode
|
|
default: L.RaiseError("execMode: expected either a function or hybrid, hybridRev, lua, sh. Received %v", mode)
|
|
}
|
|
case lua.LTFunction: runnerMode = mode
|
|
default: L.RaiseError("execMode: expected either a function or hybrid, hybridRev, lua, sh. Received %v", mode)
|
|
}
|
|
|
|
return 0
|
|
}
|
|
|
|
// hinter(cb)
|
|
// Sets the hinter function. This will be called on every key insert to determine
|
|
// what text to use as an inline hint. The callback is passed 2 arguments:
|
|
// the current line and the position. It is expected to return a string
|
|
// which will be used for the hint.
|
|
// --- @param cb function
|
|
func hlhinter(L *lua.LState) int {
|
|
hinterCb := L.CheckFunction(1)
|
|
hinter = hinterCb
|
|
|
|
return 0
|
|
}
|
|
|
|
// highlighter(cb)
|
|
// Sets the highlighter function. This is mainly for syntax hightlighting, but in
|
|
// reality could set the input of the prompt to display anything. The callback
|
|
// is passed the current line as typed and is expected to return a line that will
|
|
// be used to display in the line.
|
|
// --- @param cb function
|
|
func hlhighlighter(L *lua.LState) int {
|
|
highlighterCb := L.CheckFunction(1)
|
|
highlighter = highlighterCb
|
|
|
|
return 0
|
|
}
|
|
*/
|