// Copyright (c) 2019 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 compiler import ( strings os ) /* .vh generation logic. .vh files contain only function signatures, consts, and types. They are used together with pre-compiled modules. */ // `mod` == "vlib/os" fn generate_vh(mod string) { println('\n\n\n\nGenerating a V header file for module `$mod`') vexe := os.executable() full_mod_path := os.dir(vexe) + '/' + mod mod_path := mod.replace('.', os.path_separator) dir := if mod.starts_with('vlib') { '$compiler.v_modules_path${os.path_separator}$mod' } else { '$compiler.v_modules_path${os.path_separator}$mod' } path := dir + '.vh' pdir := dir.all_before_last(os.path_separator) if !os.dir_exists(pdir) { os.mkdir_all(pdir) // os.mkdir(os.realpath(dir)) } out := os.create(path) or { panic(err) } // Consts println(full_mod_path) mut vfiles := os.walk_ext(full_mod_path, '.v') filtered := vfiles.filter(!it.ends_with('test.v') && !it.ends_with('_win.v')) // TODO merge once filter allows it println(filtered) mut v := new_v(['foo.v']) //v.pref.generating_vh = true for file in filtered { mut p := v.new_parser_from_file(file) p.scanner.is_vh = true p.parse(.decl) for i, tok in p.tokens { if !p.tok.is_decl() { continue } match tok.tok { TokenKind.key_fn { generate_fn(out, p.tokens, i) } TokenKind.key_const { generate_const(out, p.tokens, i) } } } } } fn generate_fn(file os.File, tokens []Token, i int) { mut out := strings.new_builder(100) mut next := tokens[i+1] if tokens[i-1].tok != .key_pub { // Skip private fns return } if next.tok == .name && next.lit == 'C' { println('skipping C') return } //out.write('pub ') mut tok := tokens[i] for i < tokens.len && tok.tok != .lcbr { next = tokens[i+1] out.write(tok.str()) if tok.tok != .lpar && !(next.tok in [.comma, .rpar]) { // No space after (), [], etc out.write(' ') } i++ tok = tokens[i] } file.writeln(out.str()) } fn generate_const(file os.File, tokens []Token, i int) { mut out := strings.new_builder(100) mut tok := tokens[i] for i < tokens.len && tok.tok != .rpar { out.write(tok.str()) out.write(' ') if tokens[i+2].tok == .assign { out.write('\n\t') } i++ tok = tokens[i] } out.writeln('\n)') file.writeln(out.str()) } /* fn (v &V) generate_vh_old() { println('\n\n\n\nGenerating a V header file for module `$v.mod`') mod_path := v.mod.replace('.', os.path_separator) dir := if v.dir.starts_with('vlib') { '$v_modules_path${os.path_separator}$v.dir' } else { '$v_modules_path${os.path_separator}$mod_path' } path := dir + '.vh' pdir := dir.all_before_last(os.path_separator) if !os.dir_exists(pdir) { os.mkdir_all(pdir) // os.mkdir(os.realpath(dir)) } file := os.create(path) or { panic(err) } // Consts mod_def := if v.mod.contains('.') { v.mod.all_after('.') } else { v.mod } file.writeln('// $v.mod module header \n') file.writeln('module $mod_def') file.writeln('// Consts') if v.table.consts.len > 0 { file.writeln('const (') for i, c in v.table.consts { if c.mod != v.mod { continue } // println('$i $c.name') //if !c.name.contains('__') { //continue //} name := c.name.all_after('__') typ := v_type_str(c.typ) file.writeln('\t$name $typ') } file.writeln(')\n') // Globals for var in v.table.consts { if var.mod != v.mod { continue } if !var.is_global { continue } name := var.name.all_after('__') typ := v_type_str(var.typ) file.writeln('__global $name $typ') } file.writeln('\n') } // Types file.writeln('// Types') for _, typ in v.table.typesmap { //println(typ.name) if typ.mod != v.mod && typ.mod != ''{ // int, string etc mod == '' // println('skipping type "$typ.name"') continue } if typ.name.contains('_V_MulRet') { continue } mut name := typ.name if typ.name.contains('__') { name = typ.name.all_after('__') } // type alias if typ.parent != '' && typ.cat == .alias { parent := v_type_str(typ.parent) file.writeln('type $typ.name $parent') } if typ.cat in [TypeCategory.struct_, .c_struct] { c := if typ.is_c { 'C.' } else { '' } file.writeln('struct ${c}$name {') // Private fields for field in typ.fields { if field.access_mod == .public { continue } field_type := v_type_str(field.typ).replace('*', '&') file.writeln('\t$field.name $field_type') } //file.writeln('pub:') mut public_str := '' for field in typ.fields { if field.access_mod == .private { continue } field_type := v_type_str(field.typ).replace('*', '&') public_str += '\t$field.name $field_type\n' //file.writeln('\t$field.name $field_type') } if public_str != '' { file.writeln('pub:' + public_str) } file.writeln('}\n') } } // Functions & methods file.writeln('// Functions') // Public first mut fns := []Fn // TODO fns := v.table.fns.filter(.mod == v.mod) for _, f in v.table.fns { if f.mod == v.mod || f.mod == ''{ fns << f } else { //println('skipping fn $f.name mod=$f.mod') } } for _, f in fns { if !f.is_public { continue } file.writeln(f.v_definition()) } // Private for _, f in fns { if f.is_public { continue } file.writeln(f.v_definition()) } // Methods file.writeln('\n// Methods //////////////////') for _, typ in v.table.typesmap { if typ.mod != v.mod && !(v.mod == 'builtin' && typ.mod == '') { // println('skipping method typ $typ.name mod=$typ.mod') continue } for method in typ.methods { file.writeln(method.v_definition()) } } file.close() /* for i, p in v.parsers { if v.parsers[i].vh_lines.len > 0 { os.write_file(p.file_name +'.vh', v.parsers[i].vh_lines.join('\n')) } } */ } */