v/vlib/compiler/fn.v

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// 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
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import(
strings
)
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const (
MaxLocalVars = 50
)
struct Fn {
// addr int
mut:
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name string
mod string
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//local_vars []Var
//var_idx int
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args []Var
is_interface bool
// called_fns []string
// idx int
scope_level int
typ string // return type
is_c bool
receiver_typ string
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is_public bool
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is_method bool
returns_error bool
is_decl bool // type myfn fn(int, int)
is_unsafe bool
defer_text []string
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is_generic bool
type_pars []string
type_inst []TypeInst
dispatch_of TypeInst // current type inst of this generic instance
body_idx int // idx of the first body statement
fn_name_token_idx int // used by error reporting
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}
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struct TypeInst {
mut:
// an instantiation of generic params (e.g. ["int","int","double"])
inst map[string]string
done bool
}
fn (a []TypeInst) str() string {
mut r := []string
for t in a {
mut s := ' | '
for k in t.inst.keys() {
s += k+' -> '+ t.inst[k] +' | '
}
r << s
}
return r.str()
}
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fn (p &Parser) find_var(name string) ?Var {
for i in 0 .. p.var_idx {
if p.local_vars[i].name == name {
return p.local_vars[i]
}
}
return none
}
fn (p &Parser) find_var_check_new_var(name string) ?Var {
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for i in 0 .. p.var_idx {
if p.local_vars[i].name == name {
return p.local_vars[i]
}
}
// A hack to allow `newvar := Foo{ field: newvar }`
// Declare the variable so that it can be used in the initialization
if name == 'main__' + p.var_decl_name {
return Var{
name : p.var_decl_name
typ : 'voidptr'
is_mut : true
}
}
return none
}
fn (p mut Parser) open_scope() {
p.cur_fn.defer_text << ''
p.cur_fn.scope_level++
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}
fn (p mut Parser) mark_var_used(v Var) {
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if v.idx == -1 || v.idx >= p.local_vars.len {
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return
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}
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p.local_vars[v.idx].is_used = true
}
fn (p mut Parser) mark_var_returned(v Var) {
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if v.idx == -1 || v.idx >= p.local_vars.len {
return
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}
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p.local_vars[v.idx].is_returned = true
}
fn (p mut Parser) mark_var_changed(v Var) {
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if v.idx == -1 || v.idx >= p.local_vars.len {
return
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}
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p.local_vars[v.idx].is_changed = true
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}
fn (p mut Parser) mark_arg_moved(v Var) {
for i, arg in p.cur_fn.args {
if arg.name == v.name {
//println('setting f $p.cur_fn.name arg $arg.name to is_mut')
p.cur_fn.args[i].is_moved = true
break
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}
}
p.table.fns[p.cur_fn.name] = p.cur_fn
}
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fn (p mut Parser) known_var(name string) bool {
_ = p.find_var(name) or {
return false
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}
return true
}
fn (p mut Parser) known_var_check_new_var(name string) bool {
_ = p.find_var_check_new_var(name) or {
return false
}
return true
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}
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fn (p mut Parser) register_var(v Var) {
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mut new_var := {v | idx: p.var_idx, scope_level: p.cur_fn.scope_level}
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if v.line_nr == 0 {
new_var.token_idx = p.cur_tok_index()
new_var.line_nr = p.cur_tok().line_nr
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}
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// Expand the array
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if p.var_idx >= p.local_vars.len {
p.local_vars << new_var
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}
else {
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p.local_vars[p.var_idx] = new_var
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}
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p.var_idx++
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}
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fn (p mut Parser) clear_vars() {
// shared a := [1, 2, 3]
p.var_idx = 0
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if p.local_vars.len > 0 {
if p.pref.autofree {
//p.local_vars.free()
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}
p.local_vars = []Var
}
}
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// Function signatures are added to the top of the .c file in the first run.
fn (p mut Parser) fn_decl() {
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p.clear_vars() // clear local vars every time a new fn is started
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p.fgen('fn ')
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//defer { p.fgenln('\n') }
// If we are in the first pass, create a new function.
// In the second pass fetch the one we created.
/*
mut f := if p.first_pass {
Fn{
mod: p.mod
is_public: p.tok == .key_pub
}
else {
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}
*/
mut f := Fn{
mod: p.mod
is_public: p.tok == .key_pub
is_unsafe: p.attr == 'unsafe_fn'
}
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is_live := p.attr == 'live' && !p.pref.is_so && p.pref.is_live
if p.attr == 'live' && p.first_pass() && !p.pref.is_live && !p.pref.is_so {
println('INFO: run `v -live program.v` if you want to use [live] functions')
}
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if f.is_public {
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p.next()
}
p.returns = false
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//p.gen('/* returns $p.returns */')
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p.next()
// Method receiver
mut receiver_typ := ''
if p.tok == .lpar {
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f.is_method = true
p.check(.lpar)
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receiver_name := p.check_name()
is_mut := p.tok == .key_mut
is_amp := p.tok == .amp
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if is_mut || is_amp {
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p.check_space(p.tok)
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}
receiver_typ = p.get_type()
T := p.table.find_type(receiver_typ)
if T.cat == .interface_ {
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p.error('invalid receiver type `$receiver_typ` (`$receiver_typ` is an interface)')
}
// Don't allow modifying types from a different module
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if !p.first_pass() && !p.builtin_mod && T.mod != p.mod &&
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p.file_path_id != 'vgen' { // allow .str() on builtin arrays
println('T.mod=$T.mod')
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println('p.mod=$p.mod')
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p.error('cannot define new methods on non-local type `$receiver_typ`')
}
// `(f *Foo)` instead of `(f mut Foo)` is a common mistake
//if !p.builtin_mod && receiver_typ.contains('*') {
if receiver_typ.ends_with('*') {
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t := receiver_typ.replace('*', '')
p.error('use `($receiver_name mut $t)` instead of `($receiver_name *$t)`')
}
f.receiver_typ = receiver_typ
if is_mut || is_amp {
receiver_typ += '*'
}
p.check(.rpar)
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p.fspace()
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receiver := Var {
name: receiver_name
is_arg: true
typ: receiver_typ
is_mut: is_mut
ref: is_amp
ptr: is_mut
line_nr: p.scanner.line_nr
token_idx: p.cur_tok_index()
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}
f.args << receiver
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p.register_var(receiver)
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}
// +-/* methods
if p.tok in [TokenKind.plus, .minus, .mul] {
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f.name = p.tok.str()
p.next()
}
else {
f.name = p.check_name()
}
f.fn_name_token_idx = p.cur_tok_index()
// init fn
if f.name == 'init' && !f.is_method && f.is_public {
p.error('init function cannot be public')
}
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// C function header def? (fn C.NSMakeRect(int,int,int,int))
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is_c := f.name == 'C' && p.tok == .dot
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// Just fn signature? only builtin.v + default build mode
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if p.pref.build_mode == .build_module {
//println('\n\nfn_decl() name=$f.name receiver_typ=$receiver_typ nogen=$p.cgen.nogen')
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}
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if is_c {
p.check(.dot)
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f.name = p.check_name()
f.is_c = true
}
else if !p.pref.translated {
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if contains_capital(f.name) && !p.fileis('view.v') {
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p.error('function names cannot contain uppercase letters, use snake_case instead')
}
if f.name[0] == `_` {
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p.error('function names cannot start with `_`, use snake_case instead')
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}
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if f.name.contains('__') {
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p.error('function names cannot contain double underscores, use single underscores instead')
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}
}
// simple_name := f.name
// println('!SIMP.le=$simple_name')
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// user.register() => User_register()
has_receiver := receiver_typ.len > 0
if receiver_typ != '' {
// f.name = '${receiver_typ}_${f.name}'
}
// full mod function name
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// os.exit ==> os__exit()
// if !is_c && !p.builtin_mod && receiver_typ.len == 0 {
if !is_c && receiver_typ.len == 0 && (!p.builtin_mod || (p.builtin_mod && f.name == 'init')) {
f.name = p.prepend_mod(f.name)
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}
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if p.first_pass() && receiver_typ.len == 0 {
for {
existing_fn := p.table.find_fn(f.name) or { break }
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// This existing function could be defined as C decl before (no body), then we don't need to throw an erro
if !existing_fn.is_decl {
p.error('redefinition of `$f.name`')
}
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break
}
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}
// Generic?
if p.tok == .lt {
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f.is_generic = true
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p.next()
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for {
type_par := p.check_name()
if type_par.len > 1 || !(type_par in reserved_type_param_names) {
p.error('type parameters must be single-character, upper-case letters of the following set: $reserved_type_param_names')
}
if type_par in f.type_pars {
p.error('redeclaration of type parameter `$type_par`')
}
f.type_pars << type_par
if p.tok == .gt { break }
p.check(.comma)
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}
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p.set_current_fn(f)
p.check(.gt)
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}
// Args (...)
p.fn_args(mut f)
// Returns an error?
if p.tok == .not {
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p.next()
f.returns_error = true
}
// Returns a type?
mut typ := 'void'
if p.tok in [TokenKind.name, .mul, .amp, .lsbr, .question, .lpar] {
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p.fgen(' ')
typ = p.get_type()
}
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// Translated C code and .vh can have empty functions (just definitions)
is_fn_header := !is_c && !p.is_vh &&
(p.pref.translated || p.pref.is_test || p.is_vh) &&
p.tok != .lcbr
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if is_fn_header {
f.is_decl = true
}
// { required only in normal function declarations
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if !is_c && !p.is_vh && !is_fn_header {
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p.fgen(' ')
p.check(.lcbr)
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}
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// Register ?option type
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if typ.starts_with('Option_') {
p.cgen.typedefs << 'typedef Option $typ;'
}
// Register function
f.typ = typ
str_args := f.str_args(p.table)
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// Special case for main() args
if f.name == 'main__main' && !has_receiver {
if str_args != '' || typ != 'void' {
p.error_with_token_index('fn main must have no arguments and no return values', f.fn_name_token_idx)
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}
}
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dll_export_linkage := p.get_linkage_prefix()
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if !p.is_vweb {
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p.set_current_fn( f )
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}
// Generate `User_register()` instead of `register()`
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// Internally it's still stored as "register" in type User
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mut fn_name_cgen := p.table.fn_gen_name(f)
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// Start generation of the function body
skip_main_in_test := false
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if !is_c && !is_live && !p.is_vh && !is_fn_header && !skip_main_in_test {
if p.pref.obfuscate {
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p.genln('; // $f.name')
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}
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// Generic functions are inserted as needed from the call site
if f.is_generic {
if p.first_pass() {
f.body_idx = p.cur_tok_index()+1
p.table.register_fn(f)
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}
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p.check_unused_variables()
p.set_current_fn( EmptyFn )
p.returns = false
p.skip_fn_body()
return
} else {
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p.gen_fn_decl(f, typ, str_args)
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}
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}
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if is_fn_header {
p.genln('$typ $fn_name_cgen($str_args);')
p.fgenln('')
}
if is_c {
p.fgenln('\n')
}
// Register the method
if receiver_typ != '' {
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mut receiver_t := p.table.find_type(receiver_typ)
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// No such type yet? It could be defined later. Create a new type.
// struct declaration later will modify it instead of creating a new one.
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if p.first_pass() && receiver_t.name == '' {
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//println('fn decl ! registering placeholder $receiver_typ')
receiver_t = Type {
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name: receiver_typ.replace('*', '')
mod: p.mod
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is_placeholder: true
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}
p.table.register_type2(receiver_t)
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}
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p.add_method(receiver_t.name, f)
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}
else if p.first_pass(){
// println('register_fn $f.name typ=$typ isg=$is_generic pass=$p.pass ' +
//'$p.file_name')
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p.table.register_fn(f)
}
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if p.is_vh || p.first_pass() || is_live || is_fn_header || skip_main_in_test {
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// First pass? Skip the body for now
// Look for generic calls.
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if !p.is_vh && !is_fn_header {
p.skip_fn_body()
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}
// Live code reloading? Load all fns from .so
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if is_live && p.first_pass() && p.mod == 'main' {
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//println('ADDING SO FN $fn_name_cgen')
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p.cgen.so_fns << fn_name_cgen
fn_name_cgen = '(* $fn_name_cgen )'
}
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// Function definition that goes to the top of the C file.
mut fn_decl := '$dll_export_linkage$typ $fn_name_cgen($str_args)'
if p.pref.obfuscate {
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fn_decl += '; // $f.name'
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}
// Add function definition to the top
if !is_c && p.first_pass() {
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p.cgen.fns << fn_decl + ';'
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}
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return
}
if p.attr == 'live' && p.pref.is_so {
//p.genln('// live_function body start')
p.genln('pthread_mutex_lock(&live_fn_mutex);')
}
if f.name in ['main__main', 'main', 'WinMain'] {
if p.pref.is_test {
p.error_with_token_index('tests cannot have function `main`', f.fn_name_token_idx)
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}
}
// println('is_c=$is_c name=$f.name')
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if is_c || p.is_vh || is_fn_header {
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return
}
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// Profiling mode? Start counting at the beginning of the function (save current time).
if p.pref.is_prof && f.name != 'time__ticks' {
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p.genln('double _PROF_START = time__ticks();//$f.name')
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cgen_name := p.table.fn_gen_name(f)
if f.defer_text.len > f.scope_level {
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f.defer_text[f.scope_level] = ' ${cgen_name}_time += time__ticks() - _PROF_START;'
}
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}
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p.statements_no_rcbr()
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//p.cgen.nogen = false
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// Print counting result after all statements in main
if p.pref.is_prof && f.name == 'main' {
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p.genln(p.print_prof_counters())
}
// Counting or not, always need to add defer before the end
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if !p.is_vweb {
if f.defer_text.len > f.scope_level {
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p.genln(f.defer_text[f.scope_level])
}
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}
if typ != 'void' && !p.returns {
p.error_with_token_index('$f.name must return "$typ"', f.fn_name_token_idx)
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}
if p.attr == 'live' && p.pref.is_so {
//p.genln('// live_function body end')
p.genln('pthread_mutex_unlock(&live_fn_mutex);')
}
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// {} closed correctly? scope_level should be 0
if p.mod == 'main' {
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// println(p.cur_fn.scope_level)
}
if p.cur_fn.scope_level > 2 {
// p.error('unclosed {')
}
// Make sure all vars in this function are used (only in main for now)
if p.mod != 'main' {
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p.genln('}')
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return
}
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p.genln('}')
p.check_unused_variables()
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p.set_current_fn( EmptyFn )
p.returns = false
}
[inline]
// Skips the entire function's body in the first pass.
fn (p mut Parser) skip_fn_body() {
mut opened_scopes := 0
mut closed_scopes := 0
for {
if p.tok == .lcbr {
opened_scopes++
}
if p.tok == .rcbr {
closed_scopes++
}
// find `foo<Bar>()` in function bodies and register generic types
// TODO
// ...
// Reached a declaration token? (fn, struct, const etc) Stop.
if p.tok.is_decl() {
break
}
// fn body ended, and a new fn attribute declaration like [live] is starting?
if closed_scopes > opened_scopes && p.prev_tok == .rcbr {
if p.tok == .lsbr {
break
}
}
p.next()
}
}
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fn (p Parser) get_linkage_prefix() string {
return if p.pref.ccompiler == 'msvc' && p.attr == 'live' && p.pref.is_so {
'__declspec(dllexport) '
} else if p.attr == 'inline' {
'static inline '
} else {
''
}
}
fn (p mut Parser) check_unused_variables() {
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for var in p.local_vars {
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if var.name == '' {
break
}
if !var.is_used && !p.pref.is_repl && !var.is_arg && !p.pref.translated {
p.production_error_with_token_index('`$var.name` declared and not used', var.token_idx )
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}
if !var.is_changed && var.is_mut && !p.pref.is_repl && !p.pref.translated {
p.error_with_token_index( '`$var.name` is declared as mutable, but it was never changed', var.token_idx )
}
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}
}
// user.register() => "User_register(user)"
// method_ph - where to insert "user_register("
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// receiver_var - "user" (needed for pthreads)
// receiver_type - "User"
fn (p mut Parser) async_fn_call(f Fn, method_ph int, receiver_var, receiver_type string) {
// println('\nfn_call $f.name is_method=$f.is_method receiver_type=$f.receiver_type')
// p.print_tok()
mut thread_name := ''
// Normal function => just its name, method => TYPE_FN.name
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mut fn_name := f.name
if f.is_method {
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fn_name = receiver_type.replace('*', '') + '_' + f.name
//fn_name = '${receiver_type}_${f.name}'
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}
// Generate tmp struct with args
arg_struct_name := 'thread_arg_$fn_name'
tmp_struct := p.get_tmp()
p.genln('$arg_struct_name * $tmp_struct = malloc(sizeof($arg_struct_name));')
mut arg_struct := 'typedef struct $arg_struct_name { '
p.next()
p.check(.lpar)
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// str_args contains the args for the wrapper function:
// wrapper(arg_struct * arg) { fn("arg->a, arg->b"); }
mut str_args := ''
mut did_gen_something := false
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for i, arg in f.args {
arg_struct += '$arg.typ $arg.name ;'// Add another field (arg) to the tmp struct definition
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str_args += 'arg $dot_ptr $arg.name'
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if i == 0 && f.is_method {
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p.genln('$tmp_struct $dot_ptr $arg.name = $receiver_var ;')
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if i < f.args.len - 1 {
str_args += ','
}
did_gen_something = true
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continue
}
// Set the struct values (args)
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p.genln('$tmp_struct $dot_ptr $arg.name = ')
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p.expression()
p.genln(';')
if i < f.args.len - 1 {
p.check(.comma)
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str_args += ','
}
did_gen_something = true
}
if !did_gen_something {
// Msvc doesnt like empty struct
arg_struct += 'EMPTY_STRUCT_DECLARATION;'
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}
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arg_struct += '} $arg_struct_name ;'
// Also register the wrapper, so we can use the original function without modifying it
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fn_name = p.table.fn_gen_name(f)
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wrapper_name := '${fn_name}_thread_wrapper'
wrapper_text := 'void* $wrapper_name($arg_struct_name * arg) {$fn_name( /*f*/$str_args ); }'
p.cgen.register_thread_fn(wrapper_name, wrapper_text, arg_struct)
// Create thread object
tmp_nr := p.get_tmp_counter()
thread_name = '_thread$tmp_nr'
if p.os != .windows {
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p.genln('pthread_t $thread_name;')
}
tmp2 := p.get_tmp()
mut parg := 'NULL'
if f.args.len > 0 {
parg = ' $tmp_struct'
}
// Call the wrapper
if p.os == .windows {
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p.genln(' CreateThread(0,0, $wrapper_name, $parg, 0,0);')
}
else {
p.genln('int $tmp2 = pthread_create(& $thread_name, NULL, $wrapper_name, $parg);')
}
p.check(.rpar)
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}
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// p.tok == fn_name
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fn (p mut Parser) fn_call(f mut Fn, method_ph int, receiver_var, receiver_type string) {
if f.is_unsafe && !p.builtin_mod && !p.inside_unsafe {
p.error('you are calling an unsafe function outside of an unsafe block')
}
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if !f.is_public && !f.is_c && !p.pref.is_test && !f.is_interface && f.mod != p.mod {
if f.name == 'contains' {
println('use `value in numbers` instead of `numbers.contains(value)`')
}
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p.error('function `$f.name` is private')
}
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p.calling_c = f.is_c
if f.is_c && !p.builtin_mod {
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if f.name == 'free' {
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p.error('use `free()` instead of `C.free()`')
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} else if f.name == 'malloc' {
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p.error('use `malloc()` instead of `C.malloc()`')
}
}
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cgen_name := p.table.fn_gen_name(f)
p.next() // fn name
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if p.tok == .lt {
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mut i := p.token_idx
for {
if p.tokens[i].tok == .gt {
p.error('explicit type arguments are not allowed; remove `<...>`')
} else if p.tokens[i].tok == .lpar {
// probably a typo, do not concern the user with the above error message
break
}
i += 1
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}
}
// if p.pref.is_prof {
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// p.cur_fn.called_fns << cgen_name
// }
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$if windows { // TODO fix segfault caused by `dispatch_generic_fn_instance` on Windows
if f.is_generic {
p.check(.lpar)
mut b := 1
for b > 0 {
if p.tok == .rpar {
b -= 1
} else if p.tok == .lpar {
b += 1
}
p.next()
}
p.gen('/* SKIPPED */')
p.warn('skipped call to generic function `$f.name`\n\tReason: generic functions are currently broken on Windows 10\n')
return
}
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}
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// If we have a method placeholder,
// we need to preappend "method(receiver, ...)"
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if f.is_method {
if f.is_generic {
p.error('generic methods are not yet implemented')
}
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receiver := f.args.first()
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//println('r=$receiver.typ RT=$receiver_type')
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if receiver.is_mut && !p.expr_var.is_mut {
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//println('$method_call recv=$receiver.name recv_mut=$receiver.is_mut')
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if p.expr_var.is_for_var {
p.error('`$p.expr_var.name` is immutable, `for` variables' +
' always are')
} else {
p.error('`$p.expr_var.name` is immutable, declare it with `mut`')
}
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}
if !p.expr_var.is_changed {
p.mark_var_changed(p.expr_var)
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}
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met_name := if f.is_generic { f.name } else { cgen_name }
p.gen_method_call(receiver_type, f.typ, met_name, receiver, method_ph)
} else {
// Normal function call
p.gen('$cgen_name (')
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}
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// foo<Bar>()
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// if f is generic, the name is changed to a suitable instance in dispatch_generic_fn_instance()
// we then replace `cgen_name` with the instance's name
generic := f.is_generic
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p.fn_call_args(mut f)
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if generic {
p.cgen.resetln(p.cgen.cur_line.replace('$cgen_name (', '$f.name ('))
// println('calling inst $f.name: $p.cgen.cur_line')
}
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p.gen(')')
p.calling_c = false
// println('end of fn call typ=$f.typ')
}
// for declaration
// return an updated Fn object with args[] field set
fn (p mut Parser) fn_args(f mut Fn) {
p.check(.lpar)
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defer { p.check(.rpar) }
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if f.is_interface {
int_arg := Var {
typ: f.receiver_typ
token_idx: p.cur_tok_index()
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}
f.args << int_arg
}
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// `(int, string, int)`
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// Just register fn arg types
types_only := p.tok == .mul || p.tok == .amp || (p.peek() == .comma && p.table.known_type(p.lit)) || p.peek() == .rpar// (int, string)
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if types_only {
for p.tok != .rpar {
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typ := p.get_type()
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p.check_and_register_used_imported_type(typ)
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v := Var {
typ: typ
is_arg: true
// is_mut: is_mut
line_nr: p.scanner.line_nr
token_idx: p.cur_tok_index()
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}
// f.register_var(v)
f.args << v
if p.tok == .comma {
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p.next()
}
}
}
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// `(a int, b, c string)` syntax
for p.tok != .rpar {
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mut names := [ p.check_name() ]
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// `a,b,c int` syntax
for p.tok == .comma {
p.check(.comma)
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p.fspace()
names << p.check_name()
}
p.fspace()
is_mut := p.tok == .key_mut
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if is_mut {
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p.check(.key_mut)
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}
mut typ := ''
// variadic arg
if p.tok == .ellipsis {
p.check(.ellipsis)
if p.tok == .rpar {
p.error('you must provide a type for vargs: eg `...string`. multiple types `...` are not supported yet.')
}
t := p.get_type()
// register varg struct, incase function is never called
if p.first_pass() {
vargs_struct := p.fn_register_vargs_stuct(f, t, []string)
p.cgen.typedefs << 'typedef struct $vargs_struct $vargs_struct;\n'
}
typ = '...$t'
} else {
typ = p.get_type()
}
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2019-09-23 12:42:20 +02:00
p.check_and_register_used_imported_type(typ)
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if is_mut && is_primitive_type(typ) {
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p.error('mutable arguments are only allowed for arrays, maps, and structs.' +
'\nreturn values instead: `foo(n mut int)` => `foo(n int) int`')
}
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for name in names {
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if !p.first_pass() && !p.table.known_type(typ) {
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p.error('fn_args: unknown type $typ')
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}
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if is_mut {
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typ += '*'
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}
v := Var{
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name: name
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typ: typ
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is_arg: true
is_mut: is_mut
ptr: is_mut
line_nr: p.scanner.line_nr
token_idx: p.cur_tok_index()
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}
2019-09-23 19:34:08 +02:00
p.register_var(v)
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f.args << v
}
if p.tok == .comma {
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p.check(.comma)
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}
// unnamed (C definition)
if p.tok == .ellipsis {
if !f.is_c {
p.error('variadic argument syntax must be `arg_name ...type` eg `argname ...string`.')
}
f.args << Var {
// name: '...'
typ: '...'
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}
p.next()
}
}
}
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// foo *(1, 2, 3, mut bar)*
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fn (p mut Parser) fn_call_args(f mut Fn) {
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// println('fn_call_args() name=$f.name args.len=$f.args.len')
// C func. # of args is not known
p.check(.lpar)
mut is_variadic := false
if f.args.len > 0 {
last_arg := f.args.last()
is_variadic = last_arg.typ.starts_with('...')
}
2019-06-22 20:20:28 +02:00
if f.is_c {
for p.tok != .rpar {
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//C.func(var1, var2.method())
//If the parameter calls a function or method that is not C,
//the value of p.calling_c is changed
p.calling_c = true
ph := p.cgen.add_placeholder()
typ := p.bool_expression()
// Cast V byteptr to C char* (byte is unsigned in V, that led to C warnings)
if typ == 'byte*' {
p.cgen.set_placeholder(ph, '(char*)')
2019-10-20 09:19:37 +02:00
}
if p.tok == .comma {
2019-06-22 20:20:28 +02:00
p.gen(', ')
p.check(.comma)
2019-06-22 20:20:28 +02:00
}
}
p.check(.rpar)
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return
2019-06-22 20:20:28 +02:00
}
// add debug information to panic when -g arg is passed
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if p.v.pref.is_debug && f.name == 'panic' && !p.is_js {
2019-07-30 15:08:14 +02:00
mod_name := p.mod.replace('_dot_', '.')
fn_name := p.cur_fn.name.replace('${p.mod}__', '')
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file_path := cescaped_path(p.file_path_id)
2019-07-30 15:08:14 +02:00
p.cgen.resetln(p.cgen.cur_line.replace(
'v_panic (',
'panic_debug ($p.scanner.line_nr, tos3("$file_path"), tos3("$mod_name"), tos2((byte *)"$fn_name"), '
2019-07-30 15:08:14 +02:00
))
}
2019-10-20 09:19:37 +02:00
mut saved_args := []string
2019-06-22 20:20:28 +02:00
for i, arg in f.args {
// Receiver is the first arg
// Skip the receiver, because it was already generated in the expression
2019-06-22 20:20:28 +02:00
if i == 0 && f.is_method {
2019-09-14 22:48:30 +02:00
if f.args.len > 1 && !p.is_js {
2019-06-22 20:20:28 +02:00
p.gen(',')
}
continue
}
// Reached the final vararg? Quit
if i == f.args.len - 1 && arg.typ.starts_with('...') {
2019-06-22 20:20:28 +02:00
break
}
ph := p.cgen.add_placeholder()
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// `)` here means that not enough args were provided
if p.tok == .rpar {
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str_args := f.str_args(p.table)// TODO this is C args
p.error('not enough arguments in call to `$f.name ($str_args)`')
}
2019-08-17 21:19:37 +02:00
// If `arg` is mutable, the caller needs to provide `mut`:
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// `mut numbers := [1,2,3]; reverse(mut numbers);`
2019-06-22 20:20:28 +02:00
if arg.is_mut {
2019-08-10 23:02:48 +02:00
if p.tok != .key_mut && p.tok == .name {
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mut dots_example := 'mut $p.lit'
2019-08-10 23:02:48 +02:00
if i > 0 {
2019-08-17 21:19:37 +02:00
dots_example = '.., ' + dots_example
}
2019-08-10 23:02:48 +02:00
if i < f.args.len - 1 {
2019-08-17 21:19:37 +02:00
dots_example = dots_example + ',..'
}
2019-10-20 09:19:37 +02:00
p.error('`$arg.name` is a mutable argument, you need to provide `mut`: `$f.name($dots_example)`')
2019-06-22 20:20:28 +02:00
}
if p.peek() != .name {
2019-08-08 10:08:39 +02:00
p.error('`$arg.name` is a mutable argument, you need to provide a variable to modify: `$f.name(... mut a...)`')
2019-06-22 20:20:28 +02:00
}
p.check(.key_mut)
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var_name := p.lit
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v := p.find_var(var_name) or {
2019-08-08 10:08:39 +02:00
p.error('`$arg.name` is a mutable argument, you need to provide a variable to modify: `$f.name(... mut a...)`')
exit(1)
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}
if !v.is_changed {
p.mark_var_changed(v)
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}
}
p.expected_type = arg.typ
clone := p.pref.autofree && arg.typ == 'string' && arg.is_moved && p.mod != 'builtin'
if clone {
p.gen('/*YY f=$f.name arg=$arg.name is_moved=$arg.is_moved*/string_clone(')
2019-10-20 09:19:37 +02:00
}
mut typ := p.bool_expression()
if typ.starts_with('...') { typ = typ.right(3) }
if clone {
p.gen(')')
}
// Optimize `println`: replace it with `printf` to avoid extra allocations and
2019-09-14 22:48:30 +02:00
// function calls.
// `println(777)` => `printf("%d\n", 777)`
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// (If we don't check for void, then V will compile `println(func())`)
if i == 0 && (f.name == 'println' || f.name == 'print') && typ == 'ustring' {
if typ == 'ustring' {
p.gen('.s')
}
typ = 'string'
}
if i == 0 && (f.name == 'println' || f.name == 'print') && typ != 'string' && typ != 'ustring' && typ != 'void' {
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T := p.table.find_type(typ)
$if !windows {
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$if !js {
fmt := p.typ_to_fmt(typ, 0)
if fmt != '' {
nl := if f.name == 'println' { '\\n' } else { '' }
p.cgen.resetln(p.cgen.cur_line.replace(f.name + ' (', '/*opt*/printf ("' + fmt + '$nl", '))
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continue
}
}
2019-09-14 22:48:30 +02:00
}
if typ.ends_with('*') {
p.cgen.set_placeholder(ph, 'ptr_str(')
p.gen(')')
2019-08-17 21:19:37 +02:00
continue
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}
// Make sure this type has a `str()` method
2019-09-14 22:48:30 +02:00
$if !js {
if !T.has_method('str') {
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// Arrays have automatic `str()` methods
2019-08-10 23:02:48 +02:00
if T.name.starts_with('array_') {
2019-08-31 15:38:13 +02:00
p.gen_array_str(T)
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p.cgen.set_placeholder(ph, '${typ}_str(')
p.gen(')')
2019-08-17 21:19:37 +02:00
continue
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} else if T.cat == .struct_ {
p.gen_struct_str(T)
p.cgen.set_placeholder(ph, '${typ}_str(')
p.gen(')')
continue
2019-10-20 09:19:37 +02:00
}
2019-07-10 14:26:37 +02:00
error_msg := ('`$typ` needs to have method `str() string` to be printable')
2019-08-17 21:19:37 +02:00
p.error(error_msg)
2019-06-22 20:20:28 +02:00
}
p.cgen.set_placeholder(ph, '${typ}_str(')
2019-06-23 09:59:34 +02:00
p.gen(')')
2019-09-14 22:48:30 +02:00
}
2019-06-22 20:20:28 +02:00
continue
}
got := typ
expected := arg.typ
got_ptr := got.ends_with('*')
exp_ptr := expected.ends_with('*')
2019-06-22 20:20:28 +02:00
// println('fn arg got="$got" exp="$expected"')
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type_mismatch := !p.check_types_no_throw(got, expected)
if type_mismatch && f.is_generic {
// println("argument `$arg.name` is generic")
saved_args << got
} else if type_mismatch {
mut j := i
if f.is_method {
j--
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}
mut nr := '${i+1}th'
if j == 0 {
nr = 'first'
} else if j == 1 {
nr = 'second'
} else if j == 2 {
nr = 'third'
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}
p.error('cannot use type `$typ` as type `$arg.typ` in $nr ' +
'argument to `$f.name()`')
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} else {
saved_args << ''
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}
is_interface := p.table.is_interface(arg.typ)
// Automatically add `&` or `*` before an argument.
// V, unlike C and Go, simplifies this aspect:
// `foo(bar)` is allowed where `foo(&bar)` is expected.
// The argument is not mutable, so it won't be changed by the function.
// It doesn't matter whether it's passed by referencee or by value
// to the end user.
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if !is_interface {
// Dereference
if got_ptr && !exp_ptr {
p.cgen.set_placeholder(ph, '*')
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}
// Reference
// TODO ptr hacks. DOOM hacks, fix please.
if !got_ptr && exp_ptr && got != 'voidptr' {
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// Special case for mutable arrays. We can't `&` function
// results,
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// have to use `(array[]){ expr }` hack.
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if expected.starts_with('array_') && exp_ptr { //&& !arg.is_mut{
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p.cgen.set_placeholder(ph, '& /*111*/ (array[]){')
p.gen('}[0] ')
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}
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// println('\ne:"$expected" got:"$got"')
else if ! (expected == 'void*' && got == 'int') &&
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! (expected == 'byte*' && got.contains(']byte')) &&
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! (expected == 'byte*' && got == 'string') &&
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//! (expected == 'void*' && got == 'array_int') {
! (expected == 'byte*' && got == 'byteptr') {
p.cgen.set_placeholder(ph, '& /*112 EXP:"$expected" GOT:"$got" */')
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}
}
}
else if is_interface {
if !got_ptr {
p.cgen.set_placeholder(ph, '&')
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}
// Pass all interface methods
interface_type := p.table.find_type(arg.typ)
for method in interface_type.methods {
p.gen(', ${typ}_${method.name} ')
}
}
// Check for commas
if i < f.args.len - 1 {
// Handle 0 args passed to varargs
if p.tok != .comma && !is_variadic {
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p.error('wrong number of arguments for $i,$arg.name fn `$f.name`: expected $f.args.len, but got less')
}
if p.tok == .comma {
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p.fgen(', ')
}
if !is_variadic {
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p.next()
p.gen(',')
}
}
}
// varargs
if !p.first_pass() && is_variadic {
p.fn_gen_caller_vargs(mut f)
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}
if p.tok == .comma {
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p.error('wrong number of arguments for fn `$f.name`: expected $f.args.len, but got more')
}
p.check(.rpar)
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if f.is_generic {
type_map := p.extract_type_inst(f, saved_args)
p.dispatch_generic_fn_instance(mut f, type_map)
}
}
// From a given generic function and an argument list matching its signature,
// create a type instantiation
fn (p mut Parser) extract_type_inst(f &Fn, args_ []string) TypeInst {
mut r := TypeInst{}
mut i := 0
mut args := args_
args << f.typ
for ai, e in args {
if e == '' { continue }
tp := f.type_pars[i]
mut ti := e
if ti.starts_with('fn (') {
fn_args := ti.right(4).all_before(') ').split(',')
mut found := false
for fa_ in fn_args {
mut fa := fa_
for fa.starts_with('array_') { fa = fa.right(6) }
if fa == tp {
r.inst[tp] = fa
found = true
i += 1
break
}
}
if found { continue }
ti = ti.all_after(') ')
}
for ti.starts_with('array_') { ti = ti.right(6) }
if r.inst[tp] != '' {
if r.inst[tp] != ti {
p.error('type parameter `$tp` has type ${r.inst[tp]}, not `$ti`')
}
continue
}
// println("extracted $tp => $ti")
r.inst[tp] = ti
i += 1
if i >= f.type_pars.len { break }
}
if r.inst[f.typ] == '' && f.typ in f.type_pars {
r.inst[f.typ] = '_ANYTYPE_'
}
return r
}
// Replace type params of a given generic function using a TypeInst
fn (p mut Parser) replace_type_params(f &Fn, ti TypeInst) []string {
mut sig := []string
for a in f.args {
sig << a.typ
}
sig << f.typ
mut r := []string
for _, a in sig {
mut fi := a
mut fr := ''
if fi.starts_with('fn (') {
fr += 'fn ('
mut fn_args := fi.right(4).all_before(') ').split(',')
fn_args << fi.all_after(') ')
for i, fa_ in fn_args {
mut fna := fa_.trim_space()
for fna.starts_with('array_') {
fna = fna.right(6)
fr += 'array_'
}
if fna in ti.inst.keys() {
fr += ti.inst[fna]
} else {
fr += fna
}
if i <= fn_args.len-3 {
fr += ','
} else if i == fn_args.len-2 {
fr += ') '
}
}
r << fr
continue
}
for fi.starts_with('array_') {
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fi = fi.right(6)
fr += 'array_'
}
if fi in ti.inst.keys() {
fr += ti.inst[fi]
// println("replaced $a => $fr")
} else {
fr += fi
}
r << fr
}
return r
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}
fn (p mut Parser) fn_register_vargs_stuct(f &Fn, typ string, values []string) string {
vargs_struct := '_V_FnVargs_$f.name'
varg_type := Type{
cat: TypeCategory.struct_,
name: vargs_struct,
mod: p.mod
}
if values.len > 0 {
p.table.rewrite_type(varg_type)
} else {
p.table.register_type2(varg_type)
}
p.table.add_field(vargs_struct, 'len', 'int', false, '', .public)
p.table.add_field(vargs_struct, 'args[$values.len]', typ, false, '', .public)
return vargs_struct
}
fn (p mut Parser) fn_gen_caller_vargs(f mut Fn) {
last_arg := f.args.last()
varg_def_type := last_arg.typ.right(3)
mut values := []string
for p.tok != .rpar {
if p.tok == .comma {
p.check(.comma)
}
p.cgen.start_tmp()
varg_type := p.bool_expression()
varg_value := p.cgen.end_tmp()
p.check_types(last_arg.typ, varg_type)
ref_deref := if last_arg.typ.ends_with('*') && !varg_type.ends_with('*') { '&' }
else if !last_arg.typ.ends_with('*') && varg_type.ends_with('*') { '*' }
else { '' }
values << '$ref_deref$varg_value'
}
for va in p.table.varg_access {
if va.fn_name != f.name { continue }
if va.index >= values.len {
p.error_with_token_index('variadic arg index out of range: $va.index/${values.len-1}, vargs are 0 indexed', va.tok_idx)
}
}
if f.args.len > 1 {
p.cgen.gen(',')
}
vargs_struct := p.fn_register_vargs_stuct(f, varg_def_type, values)
p.cgen.gen('&($vargs_struct){.len=$values.len,.args={'+values.join(',')+'}}')
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}
fn (p mut Parser) register_multi_return_stuct(types []string) string {
typ := '_V_MulRet_' + types.join('_V_').replace('*', '_PTR_')
if p.table.known_type(typ) { return typ }
p.table.register_type2(Type{
cat: TypeCategory.struct_,
name: typ,
mod: p.mod
})
for i, t in typ.replace('_V_MulRet_', '').replace('_PTR_', '*').split('_V_') {
p.table.add_field(typ, 'var_$i', t, false, '', .public)
}
p.cgen.typedefs << 'typedef struct $typ $typ;'
return typ
}
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fn (p mut Parser) dispatch_generic_fn_instance(f mut Fn, ti TypeInst) {
$if windows {
p.error('feature disabled on Windows')
}
mut new_inst := true
for e in f.type_inst {
if e.inst.str() == ti.inst.str() {
new_inst = false
break
}
}
if !new_inst {
f.name = f.name + '_T'
for k in ti.inst.keys() {
f.name = f.name + '_' + type_to_safe_str(ti.inst[k])
}
_f := p.table.find_fn(f.name) or {
p.error('function instance `$f.name` not found')
return
}
f.args = _f.args
f.typ = _f.typ
f.is_generic = false
f.type_inst = []TypeInst
f.dispatch_of = ti
// println('using existing inst $f.name(${f.str_args(p.table)}) $f.typ')
return
}
f.type_inst << ti
p.table.register_fn(f)
// Remember current scanner position, go back here for each type instance
// TODO remove this once tokens are cached in `new_parser()`
saved_tok_idx := p.cur_tok_index()
saved_fn := p.cur_fn
saved_var_idx := p.var_idx
saved_local_vars := p.local_vars
p.clear_vars()
saved_line := p.cgen.cur_line
saved_lines := p.cgen.lines
saved_is_tmp := p.cgen.is_tmp
saved_tmp_line := p.cgen.tmp_line
returns := p.returns // should be always false
f.name = f.name + '_T'
for k in ti.inst.keys() {
f.name = f.name + '_' + type_to_safe_str(ti.inst[k])
}
f.is_generic = false // the instance is a normal function
f.type_inst = []TypeInst
f.scope_level = 0
f.dispatch_of = ti
old_args := f.args
new_types := p.replace_type_params(f, ti)
f.args = []Var
for i in 0..new_types.len-1 {
mut v := old_args[i]
v.typ = new_types[i]
f.args << v
}
f.typ = new_types.last()
if f.typ in f.type_pars { f.typ = '_ANYTYPE_' }
if f.typ in ti.inst {
f.typ = ti.inst[f.typ]
}
p.table.register_fn(f)
// println("generating gen inst $f.name(${f.str_args(p.table)}) $f.typ : $ti.inst")
p.cgen.is_tmp = false
p.returns = false
p.cgen.tmp_line = ''
p.cgen.cur_line = ''
p.cgen.lines = []string
p.cur_fn = *f
for arg in f.args {
p.register_var(arg)
}
p.token_idx = f.body_idx-1
p.next() // re-initializes the parser properly
str_args := f.str_args(p.table)
p.in_dispatch = true
p.genln('${p.get_linkage_prefix()}$f.typ $f.name($str_args) {')
// p.genln('/* generic fn instance $f.name : $ti.inst */')
p.statements()
p.in_dispatch = false
if f.typ == '_ANYTYPE_' {
f.typ = p.cur_fn.typ
f.name = f.name.replace('_ANYTYPE_', type_to_safe_str(f.typ))
p.cgen.lines[0] = p.cgen.lines[0].replace('_ANYTYPE_', f.typ)
p.table.register_fn(f)
}
for l in p.cgen.lines {
p.cgen.fns << l
}
p.token_idx = saved_tok_idx-1
p.next()
p.check(.rpar) // end of the arg list which caused this dispatch
p.cur_fn = saved_fn
p.var_idx = saved_var_idx
p.local_vars = saved_local_vars
p.cgen.lines = saved_lines
p.cgen.cur_line = saved_line
p.cgen.is_tmp = saved_is_tmp
p.cgen.tmp_line = saved_tmp_line
p.returns = false
}
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// "fn (int, string) int"
fn (f &Fn) typ_str() string {
mut sb := strings.new_builder(50)
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sb.write('fn (')
for i, arg in f.args {
sb.write(arg.typ)
if i < f.args.len - 1 {
sb.write(',')
}
}
sb.write(')')
if f.typ != 'void' {
sb.write(' $f.typ')
}
return sb.str()
}
// f.args => "int a, string b"
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fn (f &Fn) str_args(table &Table) string {
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mut s := ''
for i, arg in f.args {
// Interfaces are a special case. We need to pass the object + pointers
// to all methods:
// fn handle(r Runner) { =>
// void handle(void *r, void (*Runner_run)(void*)) {
if table.is_interface(arg.typ) {
// First the object (same name as the interface argument)
s += ' void* $arg.name'
// Now all methods
interface_type := table.find_type(arg.typ)
for method in interface_type.methods {
s += ', $method.typ (*${arg.typ}_${method.name})(void*'
if method.args.len > 1 {
for a in method.args.right(1) {
s += ', $a.typ'
}
}
s += ')'
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}
}
else if arg.typ.starts_with('...') {
s += '_V_FnVargs_$f.name *$arg.name'
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}
else {
// s += '$arg.typ $arg.name'
s += table.cgen_name_type_pair(arg.name, arg.typ)// '$arg.typ $arg.name'
}
if i < f.args.len - 1 {
s += ', '
}
}
return s
}
// find local function variable with closest name to `name`
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fn (p &Parser) find_misspelled_local_var(name string, min_match f32) string {
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mut closest := f32(0)
mut closest_var := ''
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for var in p.local_vars {
if var.scope_level > p.cur_fn.scope_level {
continue
}
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n := name.all_after('.')
if var.name == '' || (n.len - var.name.len > 2 || var.name.len - n.len > 2) { continue }
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coeff := strings.dice_coefficient(var.name, n)
if coeff > closest {
closest = coeff
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closest_var = var.name
}
}
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return if closest >= min_match { closest_var } else { '' }
}
fn (fns []Fn) contains(f Fn) bool {
for ff in fns {
if ff.name == f.name {
return true
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}
}
return false
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}