// Copyright (c) 2019-2020 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 readline import os.cmdline import v.util struct Repl { mut: indent int // indentation level in_func bool // are we inside a new custom user function line string // the current line entered by the user // modules []string // all the import modules 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 } 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 { for function in r.functions_name { if line.starts_with(function) { return true } } return false } fn (r &Repl) current_source_code(should_add_temp_lines bool) string { mut all_lines := []string{} for mod in r.modules { all_lines << 'import $mod\n' } all_lines << r.includes all_lines << r.functions all_lines << r.lines if should_add_temp_lines { all_lines << r.temp_lines } return all_lines.join('\n') } fn repl_help() { println(util.full_v_version(true)) println(' help Displays this information. list Show the program so far. reset Clears the accumulated program, so you can start a fresh. Ctrl-C, Ctrl-D, exit Exits the REPL. clear Clears the screen. ') } fn run_repl(workdir string, vrepl_prefix string) { println(util.full_v_version(true)) println('Use Ctrl-C or `exit` to exit') file := os.join_path(workdir, '.${vrepl_prefix}vrepl.v') temp_file := os.join_path(workdir, '.${vrepl_prefix}vrepl_temp.v') mut prompt := '>>> ' defer { println('') os.rm(file) os.rm(temp_file) $if windows { os.rm(file[..file.len - 2] + '.exe') os.rm(temp_file[..temp_file.len - 2] + '.exe') $if msvc { os.rm(file[..file.len - 2] + '.ilk') os.rm(file[..file.len - 2] + '.pdb') os.rm(temp_file[..temp_file.len - 2] + '.ilk') os.rm(temp_file[..temp_file.len - 2] + '.pdb') } } $else { os.rm(file[..file.len - 2]) os.rm(temp_file[..temp_file.len - 2]) } } mut r := Repl{ modules: ['os', 'time', 'math'] } mut readline := readline.Readline{} vexe := os.getenv('VEXE') for { if r.indent == 0 { prompt = '>>> ' } else { prompt = '... ' } oline := readline.read_line(prompt) or { break } line := oline.trim_space() if line == '' && oline.ends_with('\n') { continue } if line.len <= -1 || line == '' || line == 'exit' { break } r.line = line if r.line == '\n' { continue } if r.line == 'clear' { term.erase_display('2') 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: $r') continue } if r.line == 'reset' { r = Repl{} continue } if r.line == 'list' { source_code := r.current_source_code(true) println('//////////////////////////////////////////////////////////////////////////////////////') println(source_code) println('//////////////////////////////////////////////////////////////////////////////////////') continue } // Save the source only if the user is printing something, // but don't add this print call to the `lines` array, // so that it doesn't get called during the next print. if r.line.starts_with('='){ r.line = 'println(' + r.line[1..] + ')' } if r.line.starts_with('print') { source_code := r.current_source_code(false) + '\n${r.line}\n' os.write_file(file, source_code) s := os.exec('"$vexe" -repl run "$file"') or { rerror(err) return } print_output(s) } else { mut temp_line := r.line mut temp_flag := false func_call := 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', ] mut is_statement := false for pattern in possible_statement_patterns { if filter_line.contains(pattern) { is_statement = true break } } // NB: starting a line with 2 spaces escapes the println heuristic if oline.starts_with(' ') { is_statement = true } if !is_statement && !func_call && r.line != '' { temp_line = 'println($r.line)' temp_flag = true } mut temp_source_code := '' if temp_line.starts_with('import ') { mod := r.line.fields()[1] if mod !in r.modules { temp_source_code = '${temp_line}\n' + r.current_source_code(false) } } else if temp_line.starts_with('#include ') { temp_source_code = '${temp_line}\n' + r.current_source_code(false) } else { for i, l in r.lines { if (l.starts_with('for ') || l.starts_with('if ')) && l.contains('println') { r.lines.delete(i) break } } temp_source_code = r.current_source_code(true) + '\n${temp_line}\n' } os.write_file(temp_file, temp_source_code) s := os.exec('"$vexe" -repl run "$temp_file"') or { rerror(err) return } if !func_call && s.exit_code == 0 && !temp_flag { 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 ') { mod := r.line.fields()[1] if mod !in r.modules { r.modules << mod } } 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) } } print_output(s) } } } fn print_output(s os.Result) { lines := s.output.trim_right('\n\r').split('\n') 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 { println(sline) return } println(sline[idx+1..]) } else if line.contains('.vrepl.v:') { // Ensure that .vrepl.v: is at the start, ignore the path // This is needed to have stable .repl tests. idx := line.index('.vrepl.v:') or { return } println(line[idx..]) } else { println(line) } } } 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', '.')) replprefix := cmdline.option(args, '-replprefix', 'noprefix.') os.chdir(replfolder) 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 } run_repl(replfolder, replprefix) } fn rerror(s string) { println('V repl error: $s') os.flush() }