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v/cmd/tools/vrepl.v

591 lines
16 KiB
V

// Copyright (c) 2019-2023 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
module main
import os
import term
import rand
import readline
import os.cmdline
import v.util.version
struct Repl {
mut:
readline readline.Readline
indent int // indentation level
in_func bool // are we inside a new custom user function
line string // the current line entered by the user
is_pin bool // does the repl 'pin' entered source code
folder string // the folder in which the repl will write its temporary source files
last_output string // the last repl output
//
modules []string // all the import modules
alias map[string]string // all the alias used in the import
includes []string // all the #include statements
functions []string // all the user function declarations
functions_name []string // all the user function names
lines []string // all the other lines/statements
temp_lines []string // all the temporary expressions/printlns
vstartup_lines []string // lines in the `VSTARTUP` file
eval_func_lines []string // same line of the `VSTARTUP` file, but used to test fn type
}
const (
is_stdin_a_pipe = os.is_atty(0) == 0
vexe = os.getenv('VEXE')
vstartup = os.getenv('VSTARTUP')
repl_folder = os.join_path(os.vtmp_dir(), 'v', 'repl')
)
enum FnType {
@none
void
fn_type
}
fn new_repl(folder string) Repl {
vstartup_source := os.read_file(vstartup) or { '' }.trim_right('\n\r').split_into_lines()
os.mkdir_all(folder) or {}
return Repl{
readline: readline.Readline{
skip_empty: true
}
folder: folder
modules: ['os', 'time', 'math']
vstartup_lines: vstartup_source
// Test file used to check if a function as a void return or a value return.
eval_func_lines: vstartup_source
}
}
fn endline_if_missed(line string) string {
if line.ends_with('\n') {
return line
}
return line + '\n'
}
fn repl_help() {
println(version.full_v_version(false))
println('
|help Displays this information.
|list Show the program so far.
|reset Clears the accumulated program, so you can start a fresh.
|Ctrl-C, Ctrl-D, exit Exits the REPL.
|clear Clears the screen.
|pin Pins the entered program to the top.
'.strip_margin())
}
fn (mut r Repl) checks() bool {
mut in_string := false
was_indent := r.indent > 0
for i := 0; i < r.line.len; i++ {
if r.line[i] == `'` && (i == 0 || r.line[i - 1] != `\\`) {
in_string = !in_string
}
if r.line[i] == `{` && !in_string {
r.line = r.line[..i + 1] + '\n' + r.line[i + 1..]
i++
r.indent++
}
if r.line[i] == `}` && !in_string {
r.line = r.line[..i] + '\n' + r.line[i..]
i++
r.indent--
if r.indent == 0 {
r.in_func = false
}
}
if i + 2 < r.line.len && r.indent == 0 && r.line[i + 1] == `f` && r.line[i + 2] == `n` {
r.in_func = true
}
}
return r.in_func || (was_indent && r.indent <= 0) || r.indent > 0
}
fn (r &Repl) function_call(line string) (bool, FnType) {
for function in r.functions_name {
is_function_definition := line.replace(' ', '').starts_with('${function}:=')
if line.starts_with(function) && !is_function_definition {
// TODO(vincenzopalazzo) store the type of the function here
fntype := r.check_fn_type_kind(line)
return true, fntype
}
}
if line.contains(':=') {
// an assignment to a variable:
// `z := abc()`
return false, FnType.@none
}
// Check if it is a Vlib call
// TODO(vincenzopalazzo): auto import the module?
if r.is_function_call(line) {
fntype := r.check_fn_type_kind(line)
return true, fntype
}
return false, FnType.@none
}
// TODO(vincenzopalazzo) Remove this fancy check and add a regex
fn (r &Repl) is_function_call(line string) bool {
return !line.starts_with('[') && line.contains('.') && line.contains('(')
&& (line.ends_with(')') || line.ends_with('?') || line.ends_with('!'))
}
// Convert the list of modules that we parsed already,
// to a sequence of V source code lines
fn (r &Repl) import_to_source_code() []string {
mut imports_line := []string{}
for mod in r.modules {
mut import_str := 'import ${mod}'
if mod in r.alias {
import_str += ' as ${r.alias[mod]}'
}
imports_line << endline_if_missed(import_str)
}
return imports_line
}
fn (r &Repl) current_source_code(should_add_temp_lines bool, not_add_print bool) string {
mut all_lines := []string{}
all_lines.insert(0, r.import_to_source_code())
if vstartup != '' {
mut lines := []string{}
if !not_add_print {
lines = r.vstartup_lines.filter(!it.starts_with('print'))
} else {
lines = r.vstartup_lines.clone()
}
all_lines << lines
}
all_lines << r.includes
all_lines << r.functions
all_lines << r.lines
if should_add_temp_lines {
all_lines << r.temp_lines
}
return all_lines.join('\n')
}
// the new_line is probably a function call, but some function calls
// do not return anything, while others return results.
// This function checks which one we have:
fn (r &Repl) check_fn_type_kind(new_line string) FnType {
source_code := r.current_source_code(true, false) + '\nprintln(${new_line})'
check_file := os.join_path(r.folder, '${rand.ulid()}.vrepl.check.v')
os.write_file(check_file, source_code) or { panic(err) }
defer {
os.rm(check_file) or {}
}
// -w suppresses the unused import warnings
// -check just does syntax and checker analysis without generating/running code
os_response := os.execute('${os.quoted_path(vexe)} -w -check ${os.quoted_path(check_file)}')
str_response := convert_output(os_response.output)
if os_response.exit_code != 0 && str_response.contains('can not print void expressions') {
return FnType.void
}
return FnType.fn_type
}
// parse the import statement in `line`, updating the Repl alias maps
fn (mut r Repl) parse_import(line string) {
if !line.contains('import') {
eprintln("the line doesn't contain an `import` keyword")
return
}
tokens := r.line.fields()
// module name
mod := tokens[1]
if mod !in r.modules {
r.modules << mod
}
// Check if the import contains an alias
// import mod_name as alias_mod
if line.contains('as ') && tokens.len >= 4 {
alias := tokens[3]
if mod !in r.alias {
r.alias[mod] = alias
}
}
}
// clear the screen, then list source code
fn (mut r Repl) pin() {
term.erase_clear()
r.list_source()
}
// print source code
fn (mut r Repl) list_source() {
source_code := r.current_source_code(true, true)
println('\n${source_code.replace('\n\n', '\n')}')
}
fn highlight_console_command(command string) string {
return term.bright_white(term.bright_bg_black(' ${command} '))
}
fn highlight_repl_command(command string) string {
return term.bright_white(term.bg_blue(' ${command} '))
}
fn print_welcome_screen() {
cmd_exit := highlight_repl_command('exit')
cmd_list := highlight_repl_command('list')
cmd_help := highlight_repl_command('help')
cmd_v_help := highlight_console_command('v help')
cmd_v_run := highlight_console_command('v run main.v')
file_main := highlight_console_command('main.v')
vbar := term.bright_green('|')
width, _ := term.get_terminal_size() // get the size of the terminal
vlogo := [
term.bright_blue(r' ____ ____ '),
term.bright_blue(r' \ \ / / '),
term.bright_blue(r' \ \/ / '),
term.bright_blue(r' \ / '),
term.bright_blue(r' \ / '),
term.bright_blue(r' \__/ '),
]
help_text := [
'Welcome to the V REPL (for help with V itself, type ${cmd_exit}, then run ${cmd_v_help}).',
'Note: the REPL is highly experimental. For best V experience, use a text editor, ',
'save your code in a ${file_main} file and execute: ${cmd_v_run}',
'${version.full_v_version(false)} . Use ${cmd_list} to see the accumulated program so far.',
'Use Ctrl-C or ${cmd_exit} to exit, or ${cmd_help} to see other available commands.',
]
if width >= 97 {
eprintln('${vlogo[0]}')
eprintln('${vlogo[1]} ${vbar} ${help_text[0]}')
eprintln('${vlogo[2]} ${vbar} ${help_text[1]}')
eprintln('${vlogo[3]} ${vbar} ${help_text[2]}')
eprintln('${vlogo[4]} ${vbar} ${help_text[3]}')
eprintln('${vlogo[5]} ${vbar} ${help_text[4]}')
eprintln('')
} else {
if width >= 14 {
left_margin := ' '.repeat(int(width / 2 - 7))
for l in vlogo {
println(left_margin + l)
}
}
println(help_text.join('\n'))
}
}
fn run_repl(workdir string, vrepl_prefix string) int {
if !is_stdin_a_pipe {
print_welcome_screen()
}
if vstartup != '' {
result := repl_run_vfile(vstartup) or {
os.Result{
output: '${vstartup} file not found'
}
}
print('\n')
print_output(result.output)
}
temp_file := os.join_path(workdir, '.${vrepl_prefix}vrepl_temp.v')
mut prompt := '>>> '
defer {
if !is_stdin_a_pipe {
println('')
}
cleanup_files(temp_file)
}
mut r := new_repl(workdir)
for {
if r.indent == 0 {
prompt = '>>> '
} else {
prompt = '... '
}
oline := r.get_one_line(prompt) or { break }
line := oline.trim_space()
if line == '' && oline.ends_with('\n') {
continue
}
if line.len <= -1 || line == 'exit' {
break
}
if exit_pos := line.index('exit') {
oparen := line[(exit_pos + 4)..].trim_space()
if oparen.starts_with('(') {
if closing := oparen.index(')') {
rc := oparen[1..closing].parse_int(0, 8) or { panic(err) }
return int(rc)
}
}
}
r.line = line
if r.line == '\n' {
continue
}
if r.line == 'clear' {
term.erase_clear()
continue
}
if r.line == 'help' {
repl_help()
continue
}
if r.line.contains(':=') && r.line.contains('fn(') {
r.in_func = true
r.functions_name << r.line.all_before(':= fn(').trim_space()
}
if r.line.starts_with('fn') {
r.in_func = true
r.functions_name << r.line.all_after('fn').all_before('(').trim_space()
}
was_func := r.in_func
if r.checks() {
for rline in r.line.split('\n') {
if r.in_func || was_func {
r.functions << rline
} else {
r.temp_lines << rline
}
}
if r.indent > 0 {
continue
}
r.line = ''
}
if r.line == 'debug_repl' {
eprintln('repl: ${r}')
continue
}
if r.line == 'reset' {
r = new_repl(workdir)
continue
}
if r.line == 'list' {
r.list_source()
continue
}
if r.line == 'pin' {
r.is_pin = !r.is_pin
if r.is_pin {
r.pin()
println('')
}
continue
}
// Save the source only if the user is printing something,
// but don't add this print call to the `lines` array,
// so that it doesn't get called during the next print.
if r.line.starts_with('=') {
r.line = 'println(' + r.line[1..] + ')'
}
if r.line.starts_with('print') {
source_code := r.current_source_code(false, false) + '\n${r.line}\n'
os.write_file(temp_file, source_code) or { panic(err) }
s := repl_run_vfile(temp_file) or { return 1 }
if s.output.len > r.last_output.len {
cur_line_output := s.output[r.last_output.len..]
print_output(cur_line_output)
}
} else {
mut temp_line := r.line
func_call, fntype := r.function_call(r.line)
filter_line := r.line.replace(r.line.find_between("'", "'"), '').replace(r.line.find_between('"',
'"'), '')
possible_statement_patterns := [
'++',
'--',
'<<',
'//',
'/*',
'fn ',
'pub ',
'mut ',
'enum ',
'const ',
'struct ',
'interface ',
'import ',
'#include ',
'for ',
'or ',
'insert(',
'delete(',
'prepend(',
'sort(',
'clear(',
'trim(',
' as ',
]
mut is_statement := false
if filter_line.count('=') % 2 == 1
&& (filter_line.count('!=') + filter_line.count('>=') + filter_line.count('<=')) == 0 {
is_statement = true
} else {
for pattern in possible_statement_patterns {
if filter_line.contains(pattern) {
is_statement = true
break
}
}
}
// Note: starting a line with 2 spaces escapes the println heuristic
if oline.starts_with(' ') {
is_statement = true
}
if !is_statement && (!func_call || fntype == FnType.fn_type) && r.line != '' {
temp_line = 'println(${r.line})'
source_code := r.current_source_code(false, false) + '\n${temp_line}\n'
os.write_file(temp_file, source_code) or { panic(err) }
s := repl_run_vfile(temp_file) or { return 1 }
if s.output.len > r.last_output.len {
cur_line_output := s.output[r.last_output.len..]
print_output(cur_line_output)
}
continue
}
mut temp_source_code := ''
if temp_line.starts_with('import ') {
mod := r.line.fields()[1]
if mod !in r.modules {
temp_source_code = '${temp_line}\n' + r.current_source_code(false, true)
}
} else if temp_line.starts_with('#include ') {
temp_source_code = '${temp_line}\n' + r.current_source_code(false, false)
} else {
for i, l in r.lines {
if (l.starts_with('for ') || l.starts_with('if ')) && l.contains('println') {
r.lines.delete(i)
break
}
}
temp_source_code = r.current_source_code(true, false) + '\n${temp_line}\n'
}
os.write_file(temp_file, temp_source_code) or { panic(err) }
s := repl_run_vfile(temp_file) or { return 1 }
if s.exit_code == 0 {
for r.temp_lines.len > 0 {
if !r.temp_lines[0].starts_with('print') {
r.lines << r.temp_lines[0]
}
r.temp_lines.delete(0)
}
if r.line.starts_with('import ') {
r.parse_import(r.line)
} else if r.line.starts_with('#include ') {
r.includes << r.line
} else {
r.lines << r.line
}
} else {
for r.temp_lines.len > 0 {
r.temp_lines.delete(0)
}
}
if r.is_pin {
r.pin()
println('')
}
if s.output.len > r.last_output.len {
len := r.last_output.len
if s.exit_code == 0 {
r.last_output = s.output.clone()
}
cur_line_output := s.output[len..]
print_output(cur_line_output)
}
}
}
return 0
}
fn convert_output(os_result string) string {
lines := os_result.trim_right('\n\r').split_into_lines()
mut content := ''
for line in lines {
if line.contains('.vrepl_temp.v:') {
// Hide the temporary file name
sline := line.all_after('.vrepl_temp.v:')
idx := sline.index(' ') or {
content += endline_if_missed(sline)
return content
}
content += endline_if_missed(sline[idx + 1..])
} else {
content += endline_if_missed(line)
}
}
return content
}
fn print_output(os_result string) {
content := convert_output(os_result)
print(content)
}
fn main() {
// Support for the parameters replfolder and replprefix is needed
// so that the repl can be launched in parallel by several different
// threads by the REPL test runner.
args := cmdline.options_after(os.args, ['repl'])
replfolder := os.real_path(cmdline.option(args, '-replfolder', repl_folder))
replprefix := cmdline.option(args, '-replprefix', 'noprefix.${rand.ulid()}.')
if !os.exists(os.getenv('VEXE')) {
println('Usage:')
println(' VEXE=vexepath vrepl\n')
println(' ... where vexepath is the full path to the v executable file')
return
}
if !is_stdin_a_pipe {
os.setenv('VCOLORS', 'always', true)
}
exit(run_repl(replfolder, replprefix))
}
fn rerror(s string) {
println('V repl error: ${s}')
os.flush()
}
fn (mut r Repl) get_one_line(prompt string) ?string {
if is_stdin_a_pipe {
iline := os.get_raw_line()
if iline.len == 0 {
return none
}
return iline
}
rline := r.readline.read_line(prompt) or { return none }
return rline
}
fn cleanup_files(file string) {
os.rm(file) or {}
$if windows {
os.rm(file[..file.len - 2] + '.exe') or {}
$if msvc {
os.rm(file[..file.len - 2] + '.ilk') or {}
os.rm(file[..file.len - 2] + '.pdb') or {}
}
} $else {
os.rm(file[..file.len - 2]) or {}
}
}
fn repl_run_vfile(file string) !os.Result {
$if trace_repl_temp_files ? {
eprintln('>> repl_run_vfile file: ${file}')
}
s := os.execute('${os.quoted_path(vexe)} -repl run ${os.quoted_path(file)}')
if s.exit_code < 0 {
rerror(s.output)
return error(s.output)
}
return s
}