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v/vlib/v/fmt/fmt.v

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// Copyright (c) 2019-2021 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 fmt
import v.ast
import v.table
import strings
import v.util
import v.pref
const (
bs = '\\'
tabs = ['', '\t', '\t\t', '\t\t\t', '\t\t\t\t', '\t\t\t\t\t', '\t\t\t\t\t\t', '\t\t\t\t\t\t\t',
'\t\t\t\t\t\t\t\t',
]
// when to break a line dependant on penalty
max_len = [0, 35, 60, 85, 93, 100]
)
pub struct Fmt {
pub mut:
table &table.Table
out_imports strings.Builder
out strings.Builder
indent int
empty_line bool
line_len int // the current line length, NB: it counts \t as 4 spaces, and starts at 0 after f.writeln
buffering bool // disables line wrapping for exprs that will be analyzed later
par_level int // how many parentheses are put around the current expression
array_init_break []bool // line breaks after elements in hierarchy level of multi dimensional array
array_init_depth int // current level of hierarchie in array init
single_line_if bool
cur_mod string
cur_short_mod string // TODO clean this up
file ast.File
did_imports bool
is_assign bool
is_struct_init bool
auto_imports []string // automatically inserted imports that the user forgot to specify
import_pos int // position of the imports in the resulting string for later autoimports insertion
used_imports []string // to remove unused imports
import_syms_used map[string]bool // to remove unused import symbols.
is_debug bool
mod2alias map[string]string // for `import time as t`, will contain: 'time'=>'t'
use_short_fn_args bool
single_line_fields bool // should struct fields be on a single line
it_name string // the name to replace `it` with
inside_lambda bool
inside_const bool
is_mbranch_expr bool // math a { x...y { } }
pref &pref.Preferences
}
pub fn fmt(file ast.File, table &table.Table, pref &pref.Preferences, is_debug bool) string {
mut f := Fmt{
out: strings.new_builder(1000)
out_imports: strings.new_builder(200)
table: table
indent: 0
file: file
is_debug: is_debug
pref: pref
}
f.process_file_imports(file)
f.set_current_module_name('main')
// As these are toplevel stmts, the indent increase done in f.stmts() has to be compensated
f.indent--
f.stmts(file.stmts)
f.indent++
f.imports(f.file.imports) // now that we have all autoimports, handle them
res := f.out.str().trim_space() + '\n'
if res.len == 1 {
return f.out_imports.str().trim_space() + '\n'
}
bounded_import_pos := util.imin(res.len, f.import_pos)
return res[..bounded_import_pos] + f.out_imports.str() + res[bounded_import_pos..]
}
pub fn (mut f Fmt) process_file_imports(file &ast.File) {
for imp in file.imports {
mod := imp.mod.all_after_last('.')
f.mod2alias[mod] = imp.alias
for sym in imp.syms {
f.mod2alias['${imp.mod}.$sym.name'] = sym.name
f.mod2alias['${mod}.$sym.name'] = sym.name
f.mod2alias[sym.name] = sym.name
f.import_syms_used[sym.name] = false
}
}
f.auto_imports = file.auto_imports
}
pub fn (mut f Fmt) write(s string) {
if f.indent > 0 && f.empty_line {
f.write_indent()
}
f.out.write_string(s)
f.line_len += s.len
f.empty_line = false
}
pub fn (mut f Fmt) writeln(s string) {
if f.indent > 0 && f.empty_line && s.len > 0 {
f.write_indent()
}
f.out.writeln(s)
f.empty_line = true
f.line_len = 0
}
fn (mut f Fmt) write_indent() {
if f.indent < fmt.tabs.len {
f.out.write_string(fmt.tabs[f.indent])
} else {
// too many indents, do it the slow way:
for _ in 0 .. f.indent {
f.out.write_string('\t')
}
}
f.line_len += f.indent * 4
}
fn (mut f Fmt) write_language_prefix(lang table.Language) {
match lang {
.c { f.write('C.') }
.js { f.write('JS.') }
else {}
}
}
pub fn (mut f Fmt) wrap_long_line(penalty_idx int, add_indent bool) bool {
if f.buffering {
return false
}
if penalty_idx > 0 && f.line_len <= fmt.max_len[penalty_idx] {
return false
}
if f.out.buf[f.out.buf.len - 1] == ` ` {
f.out.go_back(1)
}
f.write('\n')
f.line_len = 0
if add_indent {
f.indent++
}
f.write_indent()
if add_indent {
f.indent--
}
return true
}
pub struct RemoveNewLineConfig {
imports_buffer bool // Work on f.out_imports instead of f.out
}
pub fn (mut f Fmt) remove_new_line(cfg RemoveNewLineConfig) {
mut buffer := if cfg.imports_buffer { &f.out_imports } else { &f.out }
mut i := 0
for i = buffer.len - 1; i >= 0; i-- {
if !buffer.buf[i].is_space() { // != `\n` {
break
}
}
buffer.go_back(buffer.len - i - 1)
f.empty_line = false
}
pub fn (mut f Fmt) set_current_module_name(cmodname string) {
f.cur_mod = cmodname
f.table.cmod_prefix = cmodname + '.'
}
fn (f Fmt) get_modname_prefix(mname string) (string, string) {
// ./tests/proto_module_importing_vproto_keep.vv to know, why here is checked for ']' and '&'
if !mname.contains(']') && !mname.contains('&') {
return mname, ''
}
after_rbc := mname.all_after_last(']')
after_ref := mname.all_after_last('&')
modname := if after_rbc.len < after_ref.len { after_rbc } else { after_ref }
return modname, mname.trim_suffix(modname)
}
fn (mut f Fmt) is_external_name(name string) bool {
if name.len > 2 && name[0] == `C` && name[1] == `.` {
return true
}
if name.len > 3 && name[0] == `J` && name[1] == `S` && name[2] == `.` {
return true
}
return false
}
pub fn (mut f Fmt) no_cur_mod(typename string) string {
return util.no_cur_mod(typename, f.cur_mod)
}
// foo.bar.fn() => bar.fn()
pub fn (mut f Fmt) short_module(name string) string {
if !name.contains('.') {
return name
}
if name in f.mod2alias {
return f.mod2alias[name]
}
if name.ends_with('>') {
x := name.trim_suffix('>').split('<')
if x.len == 2 {
main := f.short_module(x[0])
genlist := x[1].split(',')
genshorts := genlist.map(f.short_module(it)).join(',')
return '$main<$genshorts>'
}
}
vals := name.split('.')
if vals.len < 2 {
return name
}
mname, tprefix := f.get_modname_prefix(vals[vals.len - 2])
symname := vals[vals.len - 1]
aname := f.mod2alias[mname]
if aname == '' {
return symname
}
return '$tprefix${aname}.$symname'
}
pub fn (mut f Fmt) mod(mod ast.Module) {
f.set_current_module_name(mod.name)
f.cur_short_mod = mod.short_name
if mod.is_skipped {
return
}
f.attrs(mod.attrs)
f.writeln('module $mod.short_name\n')
if f.import_pos == 0 {
f.import_pos = f.out.len
}
}
pub fn (mut f Fmt) mark_types_import_as_used(typ table.Type) {
sym := f.table.get_type_symbol(typ)
f.mark_import_as_used(sym.name)
}
// `name` is a function (`foo.bar()`) or type (`foo.Bar{}`)
pub fn (mut f Fmt) mark_import_as_used(name string) {
parts := name.split('.')
last := parts.last()
if last in f.import_syms_used {
f.import_syms_used[last] = true
}
if parts.len == 1 {
return
}
mod := parts[0..parts.len - 1].join('.')
if mod in f.used_imports {
return
}
f.used_imports << mod
}
pub fn (mut f Fmt) imports(imports []ast.Import) {
if f.did_imports || imports.len == 0 {
return
}
f.did_imports = true
mut num_imports := 0
mut already_imported := map[string]bool{}
for imp in imports {
if imp.mod !in f.used_imports {
// TODO bring back once only unused imports are removed
// continue
}
if imp.mod in f.auto_imports && imp.mod !in f.used_imports {
continue
}
import_text := 'import ${f.imp_stmt_str(imp)}'
if already_imported[import_text] {
continue
}
already_imported[import_text] = true
f.out_imports.writeln(import_text)
f.import_comments(imp.comments, inline: true)
f.import_comments(imp.next_comments, {})
num_imports++
}
if num_imports > 0 {
f.out_imports.writeln('')
}
}
pub fn (f Fmt) imp_stmt_str(imp ast.Import) string {
is_diff := imp.alias != imp.mod && !imp.mod.ends_with('.' + imp.alias)
mut imp_alias_suffix := if is_diff { ' as $imp.alias' } else { '' }
mut syms := imp.syms.map(it.name).filter(f.import_syms_used[it])
syms.sort()
if syms.len > 0 {
imp_alias_suffix += if imp.syms[0].pos.line_nr == imp.pos.line_nr {
' { ' + syms.join(', ') + ' }'
} else {
' {\n\t' + syms.join(',\n\t') + ',\n}'
}
}
return '$imp.mod$imp_alias_suffix'
}
fn (f Fmt) should_insert_newline_before_node(node ast.Node, prev_node ast.Node) bool {
// No need to insert a newline if there is already one
if f.out.last_n(2) == '\n\n' {
return false
}
prev_line_nr := prev_node.position().last_line
// The nodes are Stmts
if node is ast.Stmt && prev_node is ast.Stmt {
stmt := node as ast.Stmt
prev_stmt := prev_node as ast.Stmt
// Force a newline after a block of HashStmts
if prev_stmt is ast.HashStmt && stmt !is ast.HashStmt && stmt !is ast.ExprStmt {
return true
}
// Force a newline after function declarations
// The only exception is inside an block of no_body functions
if prev_stmt is ast.FnDecl {
if stmt !is ast.FnDecl || !prev_stmt.no_body {
return true
}
}
// Force a newline after struct declarations
if prev_stmt is ast.StructDecl {
return true
}
// Imports are handled special hence they are ignored here
if stmt is ast.Import || prev_stmt is ast.Import {
return false
}
// Attributes are not respected in the stmts position, so this requires manual checking
if stmt is ast.StructDecl {
if stmt.attrs.len > 0 && stmt.attrs[0].pos.line_nr - prev_line_nr <= 1 {
return false
}
}
if stmt is ast.FnDecl {
if stmt.attrs.len > 0 && stmt.attrs[0].pos.line_nr - prev_line_nr <= 1 {
return false
}
}
}
// The node shouldn't have a newline before
if node.position().line_nr - prev_line_nr <= 1 {
return false
}
return true
}
pub fn (mut f Fmt) stmts(stmts []ast.Stmt) {
mut prev_stmt := if stmts.len > 0 { stmts[0] } else { ast.Stmt{} }
f.indent++
for stmt in stmts {
if !f.pref.building_v && f.should_insert_newline_before_node(stmt, prev_stmt) {
f.out.writeln('')
}
f.stmt(stmt)
prev_stmt = stmt
}
f.indent--
}
pub fn (mut f Fmt) stmt_str(node ast.Stmt) string {
was_empty_line := f.empty_line
prev_line_len := f.line_len
pos := f.out.len
f.stmt(node)
str := f.out.after(pos).trim_space()
f.out.go_back_to(pos)
f.empty_line = was_empty_line
f.line_len = prev_line_len
return str
}
pub fn (mut f Fmt) stmt(node ast.Stmt) {
if f.is_debug {
eprintln('stmt: ${node.position():-42} | node: ${node.type_name():-20}')
}
match node {
ast.AssignStmt {
f.assign_stmt(node)
}
ast.AssertStmt {
f.assert_stmt(node)
}
ast.Block {
f.block(node)
}
ast.BranchStmt {
f.writeln(node.str())
}
ast.CompFor {
f.comp_for(node)
}
ast.ConstDecl {
f.const_decl(node)
}
ast.DeferStmt {
f.defer_stmt(node)
}
ast.EnumDecl {
f.enum_decl(node)
}
ast.ExprStmt {
f.expr_stmt(node)
}
ast.FnDecl {
f.fn_decl(node)
}
ast.ForCStmt {
f.for_c_stmt(node)
}
ast.ForInStmt {
f.for_in_stmt(node)
}
ast.ForStmt {
f.for_stmt(node)
}
ast.GlobalDecl {
f.global_decl(node)
}
ast.GoStmt {
f.go_stmt(node, false)
}
ast.GotoLabel {
f.writeln('$node.name:')
}
ast.GotoStmt {
f.writeln('goto $node.name')
}
ast.HashStmt {
f.writeln('#$node.val')
}
ast.Import {
// Imports are handled after the file is formatted, to automatically add necessary modules
// Just remember the position of the imports for now
f.import_pos = f.out.len
}
ast.InterfaceDecl {
f.interface_decl(node)
}
ast.Module {
f.mod(node)
}
ast.Return {
f.return_stmt(node)
}
ast.SqlStmt {
f.sql_stmt(node)
}
ast.StructDecl {
f.struct_decl(node)
}
ast.TypeDecl {
f.type_decl(node)
}
}
}
fn stmt_is_single_line(stmt ast.Stmt) bool {
return match stmt {
ast.ExprStmt, ast.AssertStmt { expr_is_single_line(stmt.expr) }
ast.Return, ast.AssignStmt, ast.BranchStmt { true }
else { false }
}
}
pub fn (mut f Fmt) type_decl(node ast.TypeDecl) {
match node {
ast.AliasTypeDecl { f.alias_type_decl(node) }
ast.FnTypeDecl { f.fn_type_decl(node) }
ast.SumTypeDecl { f.sum_type_decl(node) }
}
}
pub fn (mut f Fmt) alias_type_decl(node ast.AliasTypeDecl) {
if node.is_pub {
f.write('pub ')
}
ptype := f.table.type_to_str(node.parent_type)
f.write('type $node.name = $ptype')
f.comments(node.comments, has_nl: false)
f.writeln('\n')
}
pub fn (mut f Fmt) fn_type_decl(node ast.FnTypeDecl) {
if node.is_pub {
f.write('pub ')
}
typ_sym := f.table.get_type_symbol(node.typ)
fn_typ_info := typ_sym.info as table.FnType
fn_info := fn_typ_info.func
fn_name := f.no_cur_mod(node.name)
f.write('type $fn_name = fn (')
for i, arg in fn_info.params {
if arg.is_mut {
f.write(arg.typ.share().str() + ' ')
}
f.write(arg.name)
mut s := f.no_cur_mod(f.table.type_to_str(arg.typ))
if arg.is_mut {
if s.starts_with('&') {
s = s[1..]
}
}
is_last_arg := i == fn_info.params.len - 1
should_add_type := true || is_last_arg
|| fn_info.params[i + 1].typ != arg.typ
|| (fn_info.is_variadic && i == fn_info.params.len - 2)
if should_add_type {
ns := if arg.name == '' { '' } else { ' ' }
if fn_info.is_variadic && is_last_arg {
f.write(ns + '...' + s)
} else {
f.write(ns + s)
}
}
if !is_last_arg {
f.write(', ')
}
}
f.write(')')
if fn_info.return_type.idx() != table.void_type_idx {
ret_str := f.no_cur_mod(f.table.type_to_str(fn_info.return_type))
f.write(' $ret_str')
} else if fn_info.return_type.has_flag(.optional) {
f.write(' ?')
}
f.comments(node.comments, has_nl: false)
f.writeln('\n')
}
pub fn (mut f Fmt) sum_type_decl(node ast.SumTypeDecl) {
if node.is_pub {
f.write('pub ')
}
f.write('type $node.name = ')
mut sum_type_names := []string{}
for t in node.variants {
sum_type_names << f.table.type_to_str(t.typ)
}
sum_type_names.sort()
for i, name in sum_type_names {
f.write(name)
if i < sum_type_names.len - 1 {
f.write(' | ')
}
if i < sum_type_names.len - 1 {
f.wrap_long_line(3, true)
}
}
f.comments(node.comments, has_nl: false)
f.writeln('\n')
}
[inline]
fn abs(v int) int {
return if v >= 0 { v } else { -v }
}
const (
threshold_to_align_struct = 8
)
struct StructFieldAlignInfo {
mut:
first_line int
last_line int
max_type_len int
max_len int
}
fn (mut list []StructFieldAlignInfo) add_new_info(len int, type_len int, line int) {
list << StructFieldAlignInfo{
first_line: line
last_line: line
max_type_len: type_len
max_len: len
}
}
[direct_array_access]
fn (mut list []StructFieldAlignInfo) add_info(len int, type_len int, line int) {
if list.len == 0 {
list.add_new_info(len, type_len, line)
return
}
i := list.len - 1
if line - list[i].last_line > 1 {
list.add_new_info(len, type_len, line)
return
}
list[i].last_line = line
if len > list[i].max_len {
list[i].max_len = len
}
if type_len > list[i].max_type_len {
list[i].max_type_len = type_len
}
}
struct CommentAndExprAlignInfo {
mut:
max_attrs_len int
max_type_len int
first_line int
last_line int
}
fn (mut list []CommentAndExprAlignInfo) add_new_info(attrs_len int, type_len int, line int) {
list << CommentAndExprAlignInfo{
max_attrs_len: attrs_len
max_type_len: type_len
first_line: line
last_line: line
}
}
fn (mut list []CommentAndExprAlignInfo) add_info(attrs_len int, type_len int, line int) {
if list.len == 0 {
list.add_new_info(attrs_len, type_len, line)
return
}
i := list.len - 1
if line - list[i].last_line > 1 {
list.add_new_info(attrs_len, type_len, line)
return
}
d_len := abs(list[i].max_attrs_len - attrs_len) + abs(list[i].max_type_len - type_len)
if !(d_len < fmt.threshold_to_align_struct) {
list.add_new_info(attrs_len, type_len, line)
return
}
list[i].last_line = line
if attrs_len > list[i].max_attrs_len {
list[i].max_attrs_len = attrs_len
}
if type_len > list[i].max_type_len {
list[i].max_type_len = type_len
}
}
pub fn (mut f Fmt) struct_decl(node ast.StructDecl) {
f.attrs(node.attrs)
if node.is_pub {
f.write('pub ')
}
if node.is_union {
f.write('union ')
} else {
f.write('struct ')
}
f.write_language_prefix(node.language)
name := node.name.after('.')
f.write(name)
if node.gen_types.len > 0 {
f.write(' <')
gtypes := node.gen_types.map(f.table.type_to_str(it)).join(', ')
f.write(gtypes)
f.write('>')
}
if node.fields.len == 0 && node.embeds.len == 0 && node.pos.line_nr == node.pos.last_line {
f.writeln(' {}')
return
}
f.writeln(' {')
mut field_aligns := []StructFieldAlignInfo{}
mut comment_aligns := []CommentAndExprAlignInfo{}
mut default_expr_aligns := []CommentAndExprAlignInfo{}
mut field_types := []string{cap: node.fields.len}
for i, field in node.fields {
mut ft := f.no_cur_mod(f.table.type_to_str(field.typ))
if !ft.contains('C.') && !ft.contains('JS.') && !ft.contains('fn (') && !ft.contains('chan') {
ft = f.short_module(ft)
}
field_types << ft
attrs_len := inline_attrs_len(field.attrs)
end_pos := field.pos.pos + field.pos.len
mut comments_len := 0 // Length of comments between field name and type
for comment in field.comments {
if comment.pos.pos >= end_pos {
if comment.pos.line_nr == field.pos.line_nr {
comment_aligns.add_info(attrs_len, field_types[i].len, comment.pos.line_nr)
}
continue
}
if comment.pos.pos > field.pos.pos {
comments_len += '/* ${comment.text.trim_left('\x01')} */ '.len
}
}
field_aligns.add_info(comments_len + field.name.len, ft.len, field.pos.line_nr)
if field.has_default_expr {
default_expr_aligns.add_info(attrs_len, field_types[i].len, field.pos.line_nr)
}
}
for embed in node.embeds {
f.mark_types_import_as_used(embed.typ)
styp := f.table.type_to_str(embed.typ)
f.writeln('\t$styp')
}
mut field_align_i := 0
mut comment_align_i := 0
mut default_expr_align_i := 0
mut inc_indent := false // for correct indents with multi line default exprs
for i, field in node.fields {
if i == node.mut_pos {
f.writeln('mut:')
} else if i == node.pub_pos {
f.writeln('pub:')
} else if i == node.pub_mut_pos {
f.writeln('pub mut:')
} else if i == node.global_pos {
f.writeln('__global:')
} else if i == node.module_pos {
f.writeln('module:')
} else if i > 0 {
// keep one empty line between fields (exclude one after mut:, pub:, ...)
mut before_last_line := node.fields[i - 1].pos.line_nr
if node.fields[i - 1].comments.len > 0 {
before_last_line = util.imax(before_last_line, node.fields[i - 1].comments.last().pos.last_line)
}
if node.fields[i - 1].has_default_expr {
before_last_line = util.imax(before_last_line, node.fields[i - 1].default_expr.position().last_line)
}
mut next_first_line := field.pos.line_nr
if field.comments.len > 0 {
next_first_line = util.imin(next_first_line, field.comments[0].pos.line_nr)
}
if next_first_line - before_last_line > 1 {
f.writeln('')
}
}
end_pos := field.pos.pos + field.pos.len
before_comments := field.comments.filter(it.pos.pos < field.pos.pos)
between_comments := field.comments[before_comments.len..].filter(it.pos.pos < end_pos)
after_type_comments := field.comments[(before_comments.len + between_comments.len)..]
// Handle comments before the field
f.comments_before_field(before_comments)
f.write('\t$field.name ')
// Handle comments between field name and type
before_len := f.line_len
f.comments(between_comments, iembed: true, has_nl: false)
comments_len := f.line_len - before_len
mut field_align := field_aligns[field_align_i]
if field_align.last_line < field.pos.line_nr {
field_align_i++
field_align = field_aligns[field_align_i]
}
f.write(strings.repeat(` `, field_align.max_len - field.name.len - comments_len))
f.write(field_types[i])
f.mark_types_import_as_used(field.typ)
attrs_len := inline_attrs_len(field.attrs)
has_attrs := field.attrs.len > 0
if has_attrs {
f.write(strings.repeat(` `, field_align.max_type_len - field_types[i].len))
f.single_line_attrs(field.attrs, inline: true)
}
if field.has_default_expr {
mut align := default_expr_aligns[default_expr_align_i]
if align.last_line < field.pos.line_nr {
default_expr_align_i++
align = default_expr_aligns[default_expr_align_i]
}
pad_len := align.max_attrs_len - attrs_len + align.max_type_len - field_types[i].len
f.write(strings.repeat(` `, pad_len))
f.write(' = ')
if !expr_is_single_line(field.default_expr) {
f.indent++
inc_indent = true
}
f.prefix_expr_cast_expr(field.default_expr)
if inc_indent {
f.indent--
inc_indent = false
}
}
// Handle comments after field type
if after_type_comments.len > 0 {
if after_type_comments[0].pos.line_nr > field.pos.line_nr {
f.writeln('')
} else {
if !field.has_default_expr {
mut align := comment_aligns[comment_align_i]
if align.last_line < field.pos.line_nr {
comment_align_i++
align = comment_aligns[comment_align_i]
}
pad_len := align.max_attrs_len - attrs_len + align.max_type_len - field_types[i].len
f.write(strings.repeat(` `, pad_len))
}
f.write(' ')
}
f.comments(after_type_comments, level: .indent)
} else {
f.writeln('')
}
}
f.comments_after_last_field(node.end_comments)
f.writeln('}\n')
}
pub fn (mut f Fmt) interface_decl(node ast.InterfaceDecl) {
if node.is_pub {
f.write('pub ')
}
name := node.name.after('.')
f.write('interface $name {')
if node.fields.len > 0 || node.methods.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
}
f.comments_after_last_field(node.pre_comments)
for i, field in node.fields {
if i == node.mut_pos {
f.writeln('mut:')
}
// TODO: alignment, comments, etc.
mut ft := f.no_cur_mod(f.table.type_to_str(field.typ))
if !ft.contains('C.') && !ft.contains('JS.') && !ft.contains('fn (') {
ft = f.short_module(ft)
}
f.writeln('\t$field.name $ft')
}
for method in node.methods {
f.write('\t')
f.write(method.stringify(f.table, f.cur_mod, f.mod2alias).after('fn '))
f.comments(method.comments, inline: true, has_nl: false, level: .indent)
f.writeln('')
f.comments(method.next_comments, inline: false, has_nl: true, level: .indent)
}
f.writeln('}\n')
}
pub fn (mut f Fmt) enum_decl(node ast.EnumDecl) {
f.attrs(node.attrs)
if node.is_pub {
f.write('pub ')
}
name := node.name.after('.')
if node.fields.len == 0 && node.pos.line_nr == node.pos.last_line {
f.writeln('enum $name {}\n')
return
}
f.writeln('enum $name {')
f.comments(node.comments, inline: true, level: .indent)
for field in node.fields {
f.write('\t$field.name')
if field.has_expr {
f.write(' = ')
f.expr(field.expr)
}
f.comments(field.comments, inline: true, has_nl: false, level: .indent)
f.writeln('')
f.comments(field.next_comments, inline: false, has_nl: true, level: .indent)
}
f.writeln('}\n')
}
pub fn (mut f Fmt) prefix_expr_cast_expr(fexpr ast.Expr) {
mut is_pe_amp_ce := false
if fexpr is ast.PrefixExpr {
if fexpr.right is ast.CastExpr && fexpr.op == .amp {
mut ce := fexpr.right as ast.CastExpr
ce.typname = f.table.get_type_symbol(ce.typ).name
is_pe_amp_ce = true
f.expr(ce)
}
} else if fexpr is ast.CastExpr {
last := f.out.cut_last(1)
if last != '&' {
f.out.write_string(last)
}
}
if !is_pe_amp_ce {
f.expr(fexpr)
if fexpr is ast.PrefixExpr {
f.or_expr(fexpr.or_block)
}
}
}
pub fn (mut f Fmt) expr(node ast.Expr) {
if f.is_debug {
eprintln('expr: ${node.position():-42} | node: ${node.type_name():-20} | $node.str()')
}
match mut node {
ast.CTempVar {
eprintln('ast.CTempVar of $node.orig.str() should be generated/used only in cgen')
}
ast.DumpExpr {
f.write('dump(')
f.expr(node.expr)
f.write(')')
}
ast.AnonFn {
f.fn_decl(node.decl)
}
ast.ArrayInit {
f.array_init(node)
}
ast.AsCast {
f.as_cast(node)
}
ast.Assoc {
f.assoc(node)
}
ast.BoolLiteral {
f.write(node.val.str())
}
ast.CastExpr {
f.cast_expr(node)
}
ast.AtExpr {
f.at_expr(node)
}
ast.CallExpr {
f.call_expr(node)
}
ast.ChanInit {
f.chan_init(mut node)
}
ast.CharLiteral {
f.write('`$node.val`')
}
ast.Comment {
f.comment(node, inline: true)
}
ast.ComptimeCall {
f.comptime_call(node)
}
ast.ComptimeSelector {
f.comptime_selector(node)
}
ast.ConcatExpr {
f.concat_expr(node)
}
ast.EnumVal {
f.enum_val(node)
}
ast.FloatLiteral {
f.write(node.val)
}
ast.GoExpr {
f.go_stmt(node.go_stmt, true)
}
ast.IfExpr {
f.if_expr(node)
}
ast.Ident {
f.ident(node)
}
ast.IfGuardExpr {
f.if_guard_expr(node)
}
ast.InfixExpr {
f.infix_expr(node)
}
ast.IndexExpr {
f.index_expr(node)
}
ast.IntegerLiteral {
f.write(node.val)
}
ast.LockExpr {
f.lock_expr(node)
}
ast.MapInit {
f.map_init(node)
}
ast.MatchExpr {
f.match_expr(node)
}
ast.None {
f.write('none')
}
ast.OrExpr {
// shouldn't happen, an or expression is always linked to a call expr
panic('fmt: OrExpr should be linked to CallExpr')
}
ast.ParExpr {
f.par_expr(node)
}
ast.PostfixExpr {
f.postfix_expr(node)
}
ast.PrefixExpr {
f.prefix_expr(node)
}
ast.RangeExpr {
f.range_expr(node)
}
ast.SelectExpr {
f.select_expr(node)
}
ast.SelectorExpr {
f.selector_expr(node)
}
ast.SizeOf {
f.size_of(node)
}
ast.OffsetOf {
f.write('__offsetof(${f.table.type_to_str(node.struct_type)}, $node.field)')
}
ast.SqlExpr {
f.sql_expr(node)
}
ast.StringLiteral {
f.string_literal(node)
}
ast.StringInterLiteral {
f.string_inter_literal(node)
}
ast.StructInit {
f.struct_init(node)
}
ast.Type {
f.write(f.table.type_to_str(node.typ))
}
ast.TypeOf {
f.type_of(node)
}
ast.Likely {
f.likely(node)
}
ast.UnsafeExpr {
f.unsafe_expr(node)
}
ast.ArrayDecompose {
f.array_decompose(node)
}
}
}
fn expr_is_single_line(expr ast.Expr) bool {
match expr {
ast.AnonFn {
if !expr.decl.no_body {
return false
}
}
ast.IfExpr {
return false
}
ast.Comment {
return false
}
ast.MatchExpr {
return false
}
ast.StructInit {
if !expr.is_short && (expr.fields.len > 0 || expr.pre_comments.len > 0) {
return false
}
}
ast.CallExpr {
if expr.or_block.stmts.len > 1 {
return false
}
}
ast.ArrayInit {
if expr.exprs.len > 0 {
return expr_is_single_line(expr.exprs[0])
}
}
ast.ConcatExpr {
for e in expr.vals {
if !expr_is_single_line(e) {
return false
}
}
}
else {}
}
return true
}
pub fn (mut f Fmt) or_expr(node ast.OrExpr) {
match node.kind {
.absent {}
.block {
if node.stmts.len == 0 {
f.write(' or { }')
return
} else if node.stmts.len == 1 && stmt_is_single_line(node.stmts[0]) {
// the control stmts (return/break/continue...) print a newline inside them,
// so, since this'll all be on one line, trim any possible whitespace
str := f.stmt_str(node.stmts[0]).trim_space()
single_line := ' or { $str }'
if single_line.len + f.line_len <= fmt.max_len.last() {
f.write(single_line)
return
}
}
// Make it multiline if the blocks has at least two stmts
// or a single line would be too long
f.writeln(' or {')
f.stmts(node.stmts)
f.write('}')
}
.propagate {
f.write(' ?')
}
}
}
pub fn (mut f Fmt) attrs(attrs []table.Attr) {
mut sorted_attrs := attrs.clone()
// Sort the attributes. The ones with arguments come first.
sorted_attrs.sort(a.arg.len > b.arg.len)
for i, attr in sorted_attrs {
if attr.arg.len == 0 {
f.single_line_attrs(sorted_attrs[i..], {})
break
}
f.writeln('[$attr]')
}
}
pub struct AttrsOptions {
inline bool
}
pub fn (mut f Fmt) single_line_attrs(attrs []table.Attr, options AttrsOptions) {
if attrs.len == 0 {
return
}
mut sorted_attrs := attrs.clone()
sorted_attrs.sort(a.name < b.name)
if options.inline {
f.write(' ')
}
f.write('[')
for i, attr in sorted_attrs {
if i > 0 {
f.write('; ')
}
f.write('$attr')
}
f.write(']')
if !options.inline {
f.writeln('')
}
}
fn inline_attrs_len(attrs []table.Attr) int {
if attrs.len == 0 {
return 0
}
mut n := 2 // ' ['.len
for i, attr in attrs {
if i > 0 {
n += 2 // '; '.len
}
n += '$attr'.len
}
n++ // ']'.len
return n
}
pub fn (mut f Fmt) fn_decl(node ast.FnDecl) {
f.attrs(node.attrs)
f.write(node.stringify(f.table, f.cur_mod, f.mod2alias)) // `Expr` instead of `ast.Expr` in mod ast
if node.language == .v {
if !node.no_body {
f.write(' {')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.write('}')
}
if !node.is_anon {
f.writeln('')
}
} else {
f.writeln('')
}
// Mark all function's used type so that they are not removed from imports
for arg in node.params {
f.mark_types_import_as_used(arg.typ)
}
f.mark_types_import_as_used(node.return_type)
}
pub fn (mut f Fmt) as_cast(node ast.AsCast) {
type_str := f.table.type_to_str_using_aliases(node.typ, f.mod2alias)
f.expr(node.expr)
f.write(' as $type_str')
}
pub fn (mut f Fmt) cast_expr(node ast.CastExpr) {
f.write(f.table.type_to_str_using_aliases(node.typ, f.mod2alias) + '(')
f.expr(node.expr)
if node.has_arg {
f.write(', ')
f.expr(node.arg)
}
f.write(')')
}
pub fn (mut f Fmt) assoc(node ast.Assoc) {
f.writeln('{')
f.indent++
f.writeln('...$node.var_name')
for i, field in node.fields {
f.write('$field: ')
f.expr(node.exprs[i])
f.writeln('')
}
f.indent--
f.write('}')
}
pub fn (mut f Fmt) comptime_call(node ast.ComptimeCall) {
if node.is_vweb {
if node.method_name == 'html' {
f.write('\$vweb.html()')
} else {
f.write("\$tmpl('$node.args_var')")
}
} else {
if node.is_embed {
f.write("\$embed_file('$node.embed_file.rpath')")
} else if node.is_env {
f.write("\$env('$node.args_var')")
} else {
method_expr := if node.has_parens {
'(${node.method_name}($node.args_var))'
} else {
'${node.method_name}($node.args_var)'
}
f.write('${node.left}.$$method_expr')
}
}
}
pub fn (mut f Fmt) comptime_selector(node ast.ComptimeSelector) {
f.write('${node.left}.\$($node.field_expr)')
}
pub fn (mut f Fmt) concat_expr(node ast.ConcatExpr) {
for i, val in node.vals {
if i != 0 {
f.write(', ')
}
f.expr(val)
}
}
pub fn (mut f Fmt) enum_val(node ast.EnumVal) {
name := f.short_module(node.enum_name)
f.write(name + '.' + node.val)
}
pub fn (mut f Fmt) ident(node ast.Ident) {
if mut node.info is ast.IdentVar {
if node.info.is_mut {
f.write(node.info.share.str() + ' ')
}
var_info := node.var_info()
if var_info.is_static {
f.write('static ')
}
}
f.write_language_prefix(node.language)
if node.name == 'it' && f.it_name != '' && !f.inside_lambda { // allow `it` in lambdas
f.write(f.it_name)
} else if node.kind == .blank_ident {
f.write('_')
} else {
// Force usage of full path to const in the same module:
// `println(minute)` => `println(time.minute)`
// This makes it clear that a module const is being used
// (since V's conts are no longer ALL_CAP).
// ^^^ except for `main`, where consts are allowed to not have a `main.` prefix.
if !node.name.contains('.') && !f.inside_const {
mod := if f.cur_mod == '' { f.cur_short_mod } else { f.cur_mod } // TODO why is this needed?
full_name := mod + '.' + node.name
if obj := f.file.global_scope.find(full_name) {
if obj is ast.ConstField {
// "v.fmt.foo" => "fmt.foo"
vals := full_name.split('.')
mod_prefix := vals[vals.len - 2]
const_name := vals[vals.len - 1]
if mod_prefix == 'main' {
f.write(const_name)
return
} else {
short := mod_prefix + '.' + const_name
f.write(short)
f.mark_import_as_used(short)
return
}
}
}
}
name := f.short_module(node.name)
f.write(name)
f.mark_import_as_used(name)
}
}
pub fn (mut f Fmt) if_guard_expr(node ast.IfGuardExpr) {
f.write(node.var_name + ' := ')
f.expr(node.expr)
}
pub fn (mut f Fmt) index_expr(node ast.IndexExpr) {
f.expr(node.left)
f.write('[')
f.expr(node.index)
f.write(']')
if node.or_expr.kind != .absent {
f.or_expr(node.or_expr)
}
}
pub fn (mut f Fmt) par_expr(node ast.ParExpr) {
f.write('(')
f.par_level++
f.expr(node.expr)
f.par_level--
f.write(')')
}
pub fn (mut f Fmt) postfix_expr(node ast.PostfixExpr) {
f.expr(node.expr)
// `$if foo ?`
if node.op == .question {
f.write(' ?')
} else {
f.write('$node.op')
}
}
pub fn (mut f Fmt) prefix_expr(node ast.PrefixExpr) {
f.write(node.op.str())
f.prefix_expr_cast_expr(node.right)
}
pub fn (mut f Fmt) range_expr(node ast.RangeExpr) {
f.expr(node.low)
if f.is_mbranch_expr {
f.write('...')
} else {
f.write('..')
}
f.expr(node.high)
}
pub fn (mut f Fmt) select_expr(node ast.SelectExpr) {
f.writeln('select {')
f.indent++
for branch in node.branches {
if branch.comment.text != '' {
f.comment(branch.comment, inline: true)
f.writeln('')
}
if branch.is_else {
f.write('else {')
} else {
if branch.is_timeout {
f.write('> ')
}
f.single_line_if = true
match branch.stmt {
ast.ExprStmt { f.expr(branch.stmt.expr) }
else { f.stmt(branch.stmt) }
}
f.single_line_if = false
f.write(' {')
}
if branch.stmts.len > 0 {
f.writeln('')
f.stmts(branch.stmts)
}
f.writeln('}')
if branch.post_comments.len > 0 {
f.comments(branch.post_comments, inline: true)
}
}
f.indent--
f.write('}')
}
pub fn (mut f Fmt) selector_expr(node ast.SelectorExpr) {
f.expr(node.expr)
f.write('.')
f.write(node.field_name)
}
pub fn (mut f Fmt) size_of(node ast.SizeOf) {
f.write('sizeof(')
if node.is_type {
sym := f.table.get_type_symbol(node.typ)
if sym.name != '' {
if f.is_external_name(sym.name) {
f.write(sym.name)
} else {
f.write(f.short_module(sym.name))
}
} else {
f.write(f.table.type_to_str(node.typ))
}
} else {
f.expr(node.expr)
}
f.write(')')
}
pub fn (mut f Fmt) sql_expr(node ast.SqlExpr) {
// sql app.db { select from Contributor where repo == id && user == 0 }
f.write('sql ')
f.expr(node.db_expr)
f.writeln(' {')
f.write('\tselect ')
table_name := util.strip_mod_name(f.table.get_type_symbol(node.table_expr.typ).name)
if node.is_count {
f.write('count ')
} else {
for i, fd in node.fields {
f.write(fd.name)
if i < node.fields.len - 1 {
f.write(', ')
}
}
}
f.write('from $table_name')
if node.has_where {
f.write(' where ')
f.expr(node.where_expr)
}
if node.has_order {
f.write(' order by ')
f.expr(node.order_expr)
if node.has_desc {
f.write(' desc')
}
}
if node.has_limit {
f.write(' limit ')
f.expr(node.limit_expr)
}
if node.has_offset {
f.write(' offset ')
f.expr(node.offset_expr)
}
f.writeln('')
f.write('}')
}
pub fn (mut f Fmt) string_literal(node ast.StringLiteral) {
use_double_quote := node.val.contains("'") && !node.val.contains('"')
if node.is_raw {
f.write('r')
} else if node.language == table.Language.c {
f.write('c')
}
if node.is_raw {
if use_double_quote {
f.write('"$node.val"')
} else {
f.write("'$node.val'")
}
} else {
unescaped_val := node.val.replace('$fmt.bs$fmt.bs', '\x01').replace_each(["$fmt.bs'", "'",
'$fmt.bs"', '"'])
if use_double_quote {
s := unescaped_val.replace_each(['\x01', '$fmt.bs$fmt.bs', '"', '$fmt.bs"'])
f.write('"$s"')
} else {
s := unescaped_val.replace_each(['\x01', '$fmt.bs$fmt.bs', "'", "$fmt.bs'"])
f.write("'$s'")
}
}
}
pub fn (mut f Fmt) string_inter_literal(node ast.StringInterLiteral) {
// TODO: this code is very similar to ast.Expr.str()
mut quote := "'"
for val in node.vals {
if val.contains("'") {
quote = '"'
}
if val.contains('"') {
quote = "'"
break
}
}
f.write(quote)
for i, val in node.vals {
f.write(val)
if i >= node.exprs.len {
break
}
f.write('$')
fspec_str, needs_braces := node.get_fspec_braces(i)
if needs_braces {
f.write('{')
f.expr(node.exprs[i])
f.write(fspec_str)
f.write('}')
} else {
f.expr(node.exprs[i])
}
}
f.write(quote)
}
pub fn (mut f Fmt) type_of(node ast.TypeOf) {
f.write('typeof(')
f.expr(node.expr)
f.write(')')
}
pub fn (mut f Fmt) likely(node ast.Likely) {
if node.is_likely {
f.write('_likely_')
} else {
f.write('_unlikely_')
}
f.write('(')
f.expr(node.expr)
f.write(')')
}
pub fn (mut f Fmt) unsafe_expr(node ast.UnsafeExpr) {
single_line := node.pos.line_nr >= node.pos.last_line
f.write('unsafe {')
if single_line {
f.write(' ')
} else {
f.writeln('')
f.indent++
f.empty_line = true
}
f.expr(node.expr)
if single_line {
f.write(' ')
} else {
f.writeln('')
f.indent--
}
f.write('}')
}
pub fn (mut f Fmt) array_decompose(node ast.ArrayDecompose) {
f.write('...')
f.expr(node.expr)
}
pub fn (mut f Fmt) lock_expr(lex ast.LockExpr) {
mut num_locked := 0
mut num_rlocked := 0
for is_rlock in lex.is_rlock {
if is_rlock {
num_rlocked++
} else {
num_locked++
}
}
if num_locked > 0 || num_rlocked == 0 {
f.write('lock ')
mut n := 0
for i, v in lex.lockeds {
if !lex.is_rlock[i] {
if n > 0 {
f.write(', ')
}
f.expr(v)
n++
}
}
}
if num_rlocked > 0 {
if num_locked > 0 {
f.write('; ')
}
f.write('rlock ')
mut n := 0
for i, v in lex.lockeds {
if lex.is_rlock[i] {
if n > 0 {
f.write(', ')
}
f.expr(v)
n++
}
}
}
f.writeln(' {')
f.stmts(lex.stmts)
f.write('}')
}
pub fn (mut f Fmt) infix_expr(node ast.InfixExpr) {
buffering_save := f.buffering
if !f.buffering && node.op in [.logical_or, .and, .plus] {
f.buffering = true
}
is_assign_save := f.is_assign
if node.op == .left_shift {
f.is_assign = true // To write ternary if on a single line
}
start_pos := f.out.len
start_len := f.line_len
f.expr(node.left)
is_one_val_array_init := node.op in [.key_in, .not_in] && node.right is ast.ArrayInit
&& (node.right as ast.ArrayInit).exprs.len == 1
if is_one_val_array_init {
// `var in [val]` => `var == val`
op := if node.op == .key_in { ' == ' } else { ' != ' }
f.write(op)
} else {
f.write(' $node.op.str() ')
}
if is_one_val_array_init {
// `var in [val]` => `var == val`
f.expr((node.right as ast.ArrayInit).exprs[0])
} else {
f.expr(node.right)
}
if !buffering_save && f.buffering {
f.buffering = false
if !f.single_line_if && f.line_len > fmt.max_len.last() {
f.wrap_infix(start_pos, start_len, false)
}
}
f.is_assign = is_assign_save
f.or_expr(node.or_block)
}
pub fn (mut f Fmt) wrap_infix(start_pos int, start_len int, ignore_paren bool) {
cut_span := f.out.len - start_pos
condstr := f.out.cut_last(cut_span)
is_cond_infix := condstr.contains_any_substr(['&&', '||'])
if !is_cond_infix && !condstr.contains('+') {
f.write(condstr)
return
}
f.line_len = start_len
if start_len == 0 {
f.empty_line = true
}
or_pen := if condstr.contains('&&') { 3 } else { 5 }
cond_parts := condstr.split(' ')
mut grouped_cond := false
mut conditions := ['']
mut penalties := [5]
mut index := 0
for cp in cond_parts {
if is_cond_infix && cp in ['&&', '||'] {
if grouped_cond {
conditions[index] += '$cp '
} else {
p := if cp == '||' { or_pen } else { 5 }
penalties << p
conditions << '$cp '
index++
}
} else if !is_cond_infix && cp == '+' {
penalties << 5
conditions[index] += '$cp '
conditions << ''
index++
} else {
conditions[index] += '$cp '
if ignore_paren {
continue
}
if cp.starts_with('(') {
grouped_cond = true
} else if cp.ends_with(')') {
grouped_cond = false
}
}
}
for i, c in conditions {
cnd := c.trim_space()
if f.line_len + cnd.len < fmt.max_len[penalties[i]] {
if (i > 0 && i < conditions.len) || (ignore_paren && i == 0 && cnd[3] == `(`) {
f.write(' ')
}
f.write(cnd)
} else {
prev_len := f.line_len
prev_pos := f.out.len
f.writeln('')
f.indent++
f.write(cnd)
f.indent--
if f.line_len > fmt.max_len.last() && (cnd[0] == `(` || cnd[3] == `(`)
&& cnd.ends_with(')') {
f.wrap_infix(prev_pos, prev_len, true)
}
}
}
}
fn branch_is_single_line(b ast.IfBranch) bool {
if b.stmts.len == 1 && b.comments.len == 0 && stmt_is_single_line(b.stmts[0]) {
return true
}
return false
}
pub fn (mut f Fmt) if_expr(node ast.IfExpr) {
dollar := if node.is_comptime { '$' } else { '' }
mut is_ternary := node.branches.len == 2 && node.has_else
&& branch_is_single_line(node.branches[0]) && branch_is_single_line(node.branches[1])
&& (node.is_expr || f.is_assign || f.is_struct_init || f.single_line_fields)
f.single_line_if = is_ternary
start_pos := f.out.len
start_len := f.line_len
for {
for i, branch in node.branches {
if i == 0 {
// first `if`
f.comments(branch.comments, {})
} else {
// `else`, close previous branch
if branch.comments.len > 0 {
f.writeln('}')
f.comments(branch.comments, {})
} else {
f.write('} ')
}
f.write('${dollar}else ')
}
if i < node.branches.len - 1 || !node.has_else {
f.write('${dollar}if ')
cur_pos := f.out.len
f.expr(branch.cond)
cond_len := f.out.len - cur_pos
is_cond_wrapped := cond_len > 0
&& (branch.cond is ast.IfGuardExpr || branch.cond is ast.CallExpr)
&& '\n' in f.out.last_n(cond_len)
if is_cond_wrapped {
f.writeln('')
} else {
f.write(' ')
}
}
f.write('{')
if is_ternary {
f.write(' ')
} else {
f.writeln('')
}
f.stmts(branch.stmts)
if is_ternary {
f.write(' ')
}
}
// When a single line if is really long, write it again as multiline,
// except it is part of an InfixExpr.
if is_ternary && f.line_len > fmt.max_len.last() && !f.buffering {
is_ternary = false
f.single_line_if = false
f.out.go_back_to(start_pos)
f.line_len = start_len
f.empty_line = start_len == 0
continue
}
break
}
f.write('}')
f.single_line_if = false
if node.post_comments.len > 0 {
f.writeln('')
f.comments(node.post_comments,
has_nl: false
prev_line: node.branches.last().body_pos.last_line
)
}
}
pub fn (mut f Fmt) at_expr(node ast.AtExpr) {
f.write(node.name)
}
fn (mut f Fmt) write_generic_if_require(node ast.CallExpr) {
if node.generic_types.len > 0 {
f.write('<')
for i, generic_type in node.generic_types {
is_last := i == node.generic_types.len - 1
f.write(f.table.type_to_str(generic_type))
if !is_last {
f.write(', ')
}
}
f.write('>')
}
}
pub fn (mut f Fmt) call_args(args []ast.CallArg) {
f.single_line_fields = true
defer {
f.single_line_fields = false
}
for i, arg in args {
if arg.is_mut {
f.write(arg.share.str() + ' ')
}
if i > 0 && !f.single_line_if {
f.wrap_long_line(3, true)
}
f.expr(arg.expr)
if i < args.len - 1 {
f.write(', ')
}
}
}
pub fn (mut f Fmt) call_expr(node ast.CallExpr) {
old_short_arg_state := f.use_short_fn_args
f.use_short_fn_args = false
if node.args.len > 0 && node.args.last().expr is ast.StructInit {
struct_expr := node.args.last().expr as ast.StructInit
if struct_expr.typ == table.void_type {
f.use_short_fn_args = true
}
}
for arg in node.args {
f.comments(arg.comments, {})
}
if node.is_method {
if node.name in ['map', 'filter'] {
f.inside_lambda = true
defer {
f.inside_lambda = false
}
}
if node.left is ast.Ident {
// `time.now()` without `time imported` is processed as a method call with `time` being
// a `node.left` expression. Import `time` automatically.
// TODO fetch all available modules
if node.left.name in ['time', 'os', 'strings', 'math', 'json', 'base64'] {
f.file.imports << ast.Import{
mod: node.left.name
alias: node.left.name
}
}
}
f.expr(node.left)
f.write('.' + node.name)
} else {
f.write_language_prefix(node.language)
if node.left is ast.AnonFn {
f.fn_decl(node.left.decl)
} else if node.language != .v {
f.write('${node.name.after_char(`.`)}')
} else {
mut name := f.short_module(node.name)
f.mark_import_as_used(name)
if node.name in f.mod2alias {
name = f.mod2alias[node.name]
}
f.write('$name')
}
}
if node.mod == '' && node.name == '' {
f.write(node.left.str())
}
f.write_generic_if_require(node)
f.write('(')
f.call_args(node.args)
f.write(')')
f.or_expr(node.or_block)
f.comments(node.comments, has_nl: false)
f.use_short_fn_args = old_short_arg_state
}
pub fn (mut f Fmt) match_expr(it ast.MatchExpr) {
f.write('match ')
f.expr(it.cond)
if it.cond is ast.Ident {
f.it_name = it.cond.name
}
f.writeln(' {')
f.indent++
f.comments(it.comments, {})
mut single_line := true
for branch in it.branches {
if branch.stmts.len > 1 || branch.pos.line_nr < branch.pos.last_line {
single_line = false
break
}
if branch.stmts.len == 0 {
continue
}
if !stmt_is_single_line(branch.stmts[0]) {
single_line = false
break
}
}
for branch in it.branches {
if !branch.is_else {
// normal branch
f.is_mbranch_expr = true
for j, expr in branch.exprs {
f.expr(expr)
if j < branch.ecmnts.len && branch.ecmnts[j].len > 0 {
f.write(' ')
f.comments(branch.ecmnts[j], iembed: true)
}
if j < branch.exprs.len - 1 {
f.write(', ')
}
f.wrap_long_line(4, false)
}
f.is_mbranch_expr = false
} else {
// else branch
f.write('else')
}
if branch.stmts.len == 0 {
f.writeln(' {}')
} else {
if single_line {
f.write(' { ')
} else {
f.writeln(' {')
}
f.stmts(branch.stmts)
if single_line {
f.remove_new_line({})
f.writeln(' }')
} else {
f.writeln('}')
}
}
f.comments(branch.post_comments, inline: true)
}
f.indent--
f.write('}')
f.it_name = ''
}
pub fn (mut f Fmt) chan_init(mut it ast.ChanInit) {
info := f.table.get_type_symbol(it.typ).chan_info()
if it.elem_type == 0 && it.typ > 0 {
it.elem_type = info.elem_type
}
is_mut := info.is_mut
el_typ := if is_mut {
it.elem_type.set_nr_muls(it.elem_type.nr_muls() - 1)
} else {
it.elem_type
}
f.write('chan ')
if is_mut {
f.write('mut ')
}
f.write(f.table.type_to_str(el_typ))
f.write('{')
if it.has_cap {
f.write('cap: ')
f.expr(it.cap_expr)
}
f.write('}')
}
fn should_decrease_arr_penalty(e ast.Expr) bool {
if e is ast.ArrayInit || e is ast.StructInit || e is ast.MapInit || e is ast.CallExpr {
return true
}
return false
}
pub fn (mut f Fmt) array_init(node ast.ArrayInit) {
if node.exprs.len == 0 && node.typ != 0 && node.typ != table.void_type {
// `x := []string{}`
f.mark_types_import_as_used(node.typ)
f.write(f.table.type_to_str_using_aliases(node.typ, f.mod2alias))
f.write('{')
if node.has_len {
f.write('len: ')
f.expr(node.len_expr)
if node.has_cap || node.has_default {
f.write(', ')
}
}
if node.has_cap {
f.write('cap: ')
f.expr(node.cap_expr)
if node.has_default {
f.write(', ')
}
}
if node.has_default {
f.write('init: ')
f.expr(node.default_expr)
}
f.write('}')
return
}
// `[1,2,3]`
f.write('[')
mut inc_indent := false
mut last_line_nr := node.pos.line_nr // to have the same newlines between array elements
f.array_init_depth++
if node.pre_cmnts.len > 0 {
if node.pre_cmnts[0].pos.line_nr > last_line_nr {
f.writeln('')
}
}
for i, c in node.pre_cmnts {
if i < node.pre_cmnts.len - 1 {
if c.pos.last_line < node.pre_cmnts[i + 1].pos.line_nr {
f.comment(c, level: .indent)
f.writeln('')
} else {
f.comment(c, level: .indent, iembed: true)
f.write(' ')
}
} else {
if c.pos.last_line < node.pos.last_line {
f.comment(c, level: .indent)
if node.exprs.len == 0 {
f.writeln('')
}
} else {
f.comment(c, level: .indent, iembed: true)
if node.exprs.len > 0 {
f.write(' ')
}
}
}
last_line_nr = c.pos.last_line
}
mut set_comma := false
for i, expr in node.exprs {
pos := expr.position()
if i == 0 {
if f.array_init_depth > f.array_init_break.len {
f.array_init_break << pos.line_nr > last_line_nr
}
}
line_break := f.array_init_break[f.array_init_depth - 1]
mut penalty := if line_break { 0 } else { 4 }
if penalty > 0 {
if i == 0 || should_decrease_arr_penalty(node.exprs[i - 1]) {
penalty--
}
if should_decrease_arr_penalty(expr) {
penalty--
}
}
is_new_line := f.wrap_long_line(penalty, !inc_indent)
if is_new_line && !inc_indent {
f.indent++
inc_indent = true
}
if !is_new_line && i > 0 {
f.write(' ')
}
f.expr(expr)
if i < node.ecmnts.len && node.ecmnts[i].len > 0 {
expr_pos := expr.position()
for cmt in node.ecmnts[i] {
if !set_comma && cmt.pos.pos > expr_pos.pos + expr_pos.len + 2 {
f.write(',')
set_comma = true
}
if cmt.pos.line_nr > expr_pos.last_line {
f.writeln('')
f.comment(cmt, {})
} else {
f.write(' ')
f.comment(cmt, iembed: true)
}
}
}
if i == node.exprs.len - 1 {
if is_new_line {
if !set_comma {
f.write(',')
}
f.writeln('')
}
} else if !set_comma {
f.write(',')
}
last_line_nr = pos.last_line
set_comma = false
}
f.array_init_depth--
if f.array_init_depth == 0 {
f.array_init_break = []
}
if inc_indent {
f.indent--
}
f.write(']')
// `[100]byte`
if node.is_fixed {
if node.has_val {
f.write('!')
return
}
f.write(f.table.type_to_str(node.elem_type))
if node.has_default {
f.write('{init: ')
f.expr(node.default_expr)
f.write('}')
} else {
f.write('{}')
}
}
}
pub fn (mut f Fmt) map_init(it ast.MapInit) {
if it.keys.len == 0 {
if it.typ > table.void_type {
f.mark_types_import_as_used(it.typ)
f.write(f.table.type_to_str(it.typ))
} else {
// m = map{}
f.write('map')
}
f.write('{}')
return
}
f.writeln('map{')
f.indent++
f.comments(it.pre_cmnts, {})
mut max_field_len := 0
for key in it.keys {
if key.str().len > max_field_len {
max_field_len = key.str().len
}
}
for i, key in it.keys {
f.expr(key)
f.write(': ')
f.write(strings.repeat(` `, max_field_len - key.str().len))
f.expr(it.vals[i])
f.comments(it.comments[i], prev_line: it.vals[i].position().last_line, has_nl: false)
f.writeln('')
}
f.indent--
f.write('}')
}
pub fn (mut f Fmt) struct_init(node ast.StructInit) {
struct_init_save := f.is_struct_init
f.is_struct_init = true
defer {
f.is_struct_init = struct_init_save
}
type_sym := f.table.get_type_symbol(node.typ)
// f.write('<old name: $type_sym.name>')
mut name := type_sym.name
if !name.starts_with('C.') {
name = f.no_cur_mod(f.short_module(type_sym.name)) // TODO f.type_to_str?
}
if name == 'void' {
name = ''
}
if node.fields.len == 0 && !node.has_update_expr {
// `Foo{}` on one line if there are no fields or comments
if node.pre_comments.len == 0 {
f.write('$name{}')
} else {
f.writeln('$name{')
f.comments(node.pre_comments, inline: true, has_nl: true, level: .indent)
f.write('}')
}
f.mark_import_as_used(name)
} else if node.is_short {
// `Foo{1,2,3}` (short syntax )
f.write('$name{')
f.mark_import_as_used(name)
if node.has_update_expr {
f.write('...')
f.expr(node.update_expr)
f.write(', ')
}
for i, field in node.fields {
f.prefix_expr_cast_expr(field.expr)
if i < node.fields.len - 1 {
f.write(', ')
}
}
f.write('}')
} else {
use_short_args := f.use_short_fn_args && !node.has_update_expr
f.use_short_fn_args = false
mut single_line_fields := f.single_line_fields
f.single_line_fields = false
if node.pos.line_nr < node.pos.last_line || node.pre_comments.len > 0 {
single_line_fields = false
}
if !use_short_args {
f.write('$name{')
f.mark_import_as_used(name)
if single_line_fields {
f.write(' ')
}
}
fields_start := f.out.len
fields_loop: for {
if !single_line_fields {
if use_short_args && f.out.buf[f.out.buf.len - 1] == ` ` {
// v Remove space at tail of line
// f(a, b, c, \n
// f1: 0\n
// f2: 1\n
// )
f.out.go_back(1)
}
f.writeln('')
f.indent++
}
f.comments(node.pre_comments, inline: true, has_nl: true, level: .keep)
if node.has_update_expr {
f.write('...')
f.expr(node.update_expr)
if single_line_fields {
if node.fields.len > 0 {
f.write(', ')
}
} else {
f.writeln('')
}
f.comments(node.update_expr_comments, inline: true, has_nl: true, level: .keep)
}
for i, field in node.fields {
f.write('$field.name: ')
f.prefix_expr_cast_expr(field.expr)
f.comments(field.comments, inline: true, has_nl: false, level: .indent)
if single_line_fields {
if i < node.fields.len - 1 {
f.write(', ')
}
} else {
f.writeln('')
}
f.comments(field.next_comments, inline: false, has_nl: true, level: .keep)
if single_line_fields && (field.comments.len > 0
|| field.next_comments.len > 0
|| !expr_is_single_line(field.expr)
|| f.line_len > fmt.max_len.last()) {
single_line_fields = false
f.out.go_back_to(fields_start)
f.line_len = fields_start
f.remove_new_line({})
continue fields_loop
}
}
break
}
if !single_line_fields {
f.indent--
}
if !use_short_args {
if single_line_fields {
f.write(' ')
}
f.write('}')
}
}
}
pub fn (mut f Fmt) const_decl(it ast.ConstDecl) {
if it.is_pub {
f.write('pub ')
}
if it.fields.len == 0 && it.pos.line_nr == it.pos.last_line {
f.writeln('const ()\n')
return
}
f.inside_const = true
defer {
f.inside_const = false
}
f.write('const ')
if it.is_block {
f.writeln('(')
}
mut max := 0
for field in it.fields {
if field.name.len > max {
max = field.name.len
}
}
f.indent++
mut prev_field := if it.fields.len > 0 { ast.Node(it.fields[0]) } else { ast.Node{} }
for field in it.fields {
if field.comments.len > 0 {
if f.should_insert_newline_before_node(ast.Expr(field.comments[0]), prev_field) {
f.writeln('')
}
f.comments(field.comments, inline: true)
prev_field = ast.Expr(field.comments.last())
}
if f.should_insert_newline_before_node(field, prev_field) {
f.writeln('')
}
name := field.name.after('.')
f.write('$name ')
f.write(strings.repeat(` `, max - field.name.len))
f.write('= ')
f.expr(field.expr)
f.writeln('')
prev_field = field
}
f.comments_after_last_field(it.end_comments)
f.indent--
if it.is_block {
f.writeln(')\n')
} else {
f.writeln('')
}
}
fn (mut f Fmt) global_decl(it ast.GlobalDecl) {
single := it.fields.len == 1
if single {
f.write('__global ( ')
} else {
f.writeln('__global (')
f.indent++
}
mut max := 0
mut has_assign := false
for field in it.fields {
if field.name.len > max {
max = field.name.len
}
if field.has_expr {
has_assign = true
}
}
for field in it.fields {
f.comments(field.comments, inline: true)
f.write('$field.name ')
f.write(strings.repeat(` `, max - field.name.len))
if field.has_expr {
f.write('= ')
f.write(f.table.type_to_str(field.typ))
f.write('(')
f.expr(field.expr)
f.write(')')
} else {
if !single && has_assign {
f.write(' ')
}
f.write('${f.table.type_to_str(field.typ)} ')
}
if !single {
f.writeln('')
}
}
if !single {
f.indent--
}
f.comments_after_last_field(it.end_comments)
f.writeln(')\n')
}
pub fn (mut f Fmt) assign_stmt(node ast.AssignStmt) {
f.comments(node.comments, {})
for i, left in node.left {
f.expr(left)
if i < node.left.len - 1 {
f.write(', ')
}
}
f.is_assign = true
f.write(' $node.op.str() ')
for i, val in node.right {
f.prefix_expr_cast_expr(val)
if i < node.right.len - 1 {
f.write(', ')
}
}
f.comments(node.end_comments, has_nl: false, inline: true, level: .keep)
if !f.single_line_if {
f.writeln('')
}
f.is_assign = false
}
pub fn (mut f Fmt) assert_stmt(node ast.AssertStmt) {
f.write('assert ')
if node.expr is ast.ParExpr {
if node.expr.expr is ast.InfixExpr {
infix := node.expr.expr
f.expr(infix)
f.writeln('')
return
}
}
f.expr(node.expr)
f.writeln('')
}
pub fn (mut f Fmt) block(node ast.Block) {
if node.is_unsafe {
f.write('unsafe ')
}
f.write('{')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.writeln('}')
}
pub fn (mut f Fmt) comp_for(node ast.CompFor) {
typ := f.no_cur_mod(f.table.type_to_str(node.typ))
f.write('\$for $node.val_var in ${typ}.$node.kind.str() {')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.writeln('}')
}
pub fn (mut f Fmt) defer_stmt(node ast.DeferStmt) {
f.write('defer {')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.writeln('}')
}
pub fn (mut f Fmt) expr_stmt(node ast.ExprStmt) {
f.comments(node.comments, {})
f.expr(node.expr)
if !f.single_line_if {
f.writeln('')
}
}
pub fn (mut f Fmt) for_c_stmt(node ast.ForCStmt) {
if node.label.len > 0 {
f.write('$node.label: ')
}
f.write('for ')
if node.has_init {
f.single_line_if = true // to keep all for ;; exprs on the same line
f.stmt(node.init)
f.single_line_if = false
}
f.write('; ')
f.expr(node.cond)
f.write('; ')
f.stmt(node.inc)
f.remove_new_line({})
f.write(' {')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.writeln('}')
}
pub fn (mut f Fmt) for_in_stmt(node ast.ForInStmt) {
if node.label.len > 0 {
f.write('$node.label: ')
}
f.write('for ')
if node.key_var != '' {
f.write(node.key_var)
}
if node.val_var != '' {
if node.key_var != '' {
f.write(', ')
}
if node.val_is_mut {
f.write('mut ')
}
f.write(node.val_var)
}
f.write(' in ')
f.expr(node.cond)
if node.is_range {
f.write(' .. ')
f.expr(node.high)
}
f.write(' {')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.writeln('}')
}
pub fn (mut f Fmt) for_stmt(node ast.ForStmt) {
if node.label.len > 0 {
f.write('$node.label: ')
}
f.write('for ')
f.expr(node.cond)
if !node.is_inf {
f.write(' ')
}
f.write('{')
if node.stmts.len > 0 || node.pos.line_nr < node.pos.last_line {
f.writeln('')
f.stmts(node.stmts)
}
f.writeln('}')
}
pub fn (mut f Fmt) go_stmt(node ast.GoStmt, is_expr bool) {
f.write('go ')
f.expr(node.call_expr)
if !is_expr {
f.writeln('')
}
}
pub fn (mut f Fmt) return_stmt(node ast.Return) {
f.comments(node.comments, {})
f.write('return')
if node.exprs.len > 0 {
f.write(' ')
// Loop over all return values. In normal returns this will only run once.
for i, expr in node.exprs {
f.expr(expr)
if i < node.exprs.len - 1 {
f.write(', ')
}
}
}
f.writeln('')
}
pub fn (mut f Fmt) sql_stmt(node ast.SqlStmt) {
f.write('sql ')
f.expr(node.db_expr)
f.writeln(' {')
table_name := util.strip_mod_name(f.table.get_type_symbol(node.table_expr.typ).name)
f.write('\t')
match node.kind {
.insert {
f.writeln('insert $node.object_var_name into $table_name')
}
.update {
f.write('update $table_name set ')
for i, col in node.updated_columns {
f.write('$col = ')
f.expr(node.update_exprs[i])
if i < node.updated_columns.len - 1 {
f.write(', ')
} else {
f.write(' ')
}
f.wrap_long_line(3, true)
}
f.write('where ')
f.expr(node.where_expr)
f.writeln('')
}
.delete {
f.write('delete from $table_name where ')
f.expr(node.where_expr)
f.writeln('')
}
}
f.writeln('}')
}
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