v/compiler/parser.v

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2019-06-23 04:21:30 +02:00
// 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.
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module main
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import (
os
rand
strings
)
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struct Var {
mut:
typ string
name string
is_arg bool
is_const bool
is_import_const bool // TODO remove import consts entirely
args []Var // function args
attr string // [json] etc
is_mut bool
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is_alloc bool
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ptr bool
ref bool
parent_fn string // Variables can only be defined in functions
mod string // module where this var is stored
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line_nr int
access_mod AccessMod
is_global bool // __global (translated from C only)
is_used bool
is_changed bool
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scope_level int
}
struct Parser {
file_path string // "/home/user/hello.v"
file_name string // "hello.v"
mut:
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v *V
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scanner *Scanner
// tokens []Token // TODO cache all tokens, right now they have to be scanned twice
token_idx int
tok Token
prev_tok Token
prev_tok2 Token // TODO remove these once the tokens are cached
lit string
cgen *CGen
table *Table
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import_table *FileImportTable // Holds imports for just the file being parsed
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pass Pass
os OS
mod string
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inside_const bool
expr_var Var
assigned_type string
expected_type string
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tmp_cnt int
is_script bool
pref *Preferences // Setting and Preferences shared from V struct
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builtin_pkg bool
vh_lines []string
inside_if_expr bool
is_struct_init bool
if_expr_cnt int
for_expr_cnt int // to detect whether `continue` can be used
ptr_cast bool
calling_c bool
cur_fn *Fn
returns bool
vroot string
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is_c_struct_init bool
can_chash bool
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attr string
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v_script bool // "V bash", import all os functions into global space
var_decl_name string // To allow declaring the variable so that it can be used in the struct initialization
building_v bool
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is_alloc bool // Whether current expression resulted in an allocation
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cur_gen_type string // "App" to replace "T" in current generic function
is_vweb bool
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}
const (
EmptyFn = &Fn { }
MainFn= &Fn{name:'main'}
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)
const (
MaxModuleDepth = 4
)
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fn (v mut V) new_parser(path string, pass Pass) Parser {
v.log('new_parser("$path")')
v.cgen.pass = pass
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mut p := Parser {
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v: v
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file_path: path
file_name: path.all_after('/')
scanner: new_scanner(path)
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table: v.table
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import_table: new_file_import_table(path)
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cur_fn: EmptyFn
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cgen: v.cgen
is_script: (v.pref.is_script && path == v.dir)
pref: v.pref
os: v.os
pass: pass
vroot: v.vroot
building_v: !v.pref.is_repl && (path.contains('compiler/') ||
path.contains('v/vlib'))
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}
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v.cgen.line_directives = v.pref.is_debuggable
v.cgen.file = path
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p.next()
// p.scanner.debug_tokens()
return p
}
fn (p mut Parser) next() {
p.prev_tok2 = p.prev_tok
p.prev_tok = p.tok
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p.scanner.prev_tok = p.tok
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res := p.scanner.scan()
p.tok = res.tok
p.lit = res.lit
}
fn (p &Parser) log(s string) {
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/*
if !p.pref.is_verbose {
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return
}
println(s)
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*/
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}
fn (p mut Parser) parse() {
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p.log('\nparse() run=$p.pass file=$p.file_name tok=${p.strtok()}')// , "script_file=", script_file)
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// `module main` is not required if it's a single file program
if p.is_script || p.pref.is_test {
p.mod = 'main'
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// User may still specify `module main`
if p.tok == .key_module {
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p.next()
p.fgen('module ')
p.mod = p.check_name()
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}
}
else {
p.check(.key_module)
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p.fspace()
p.mod = p.check_name()
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}
p.fgenln('\n')
p.builtin_pkg = p.mod == 'builtin'
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p.can_chash = p.mod == 'ft' || p.mod == 'glfw' || p.mod=='glfw2' || p.mod=='ui' // TODO tmp remove
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// Import pass - the first and the smallest pass that only analyzes imports
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// fully qualify the module name, eg base64 to encoding.base64
fq_mod := p.table.qualify_module(p.mod, p.file_path)
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p.import_table.module_name = fq_mod
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p.table.register_package(fq_mod)
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// replace "." with "_dot_" in module name for C variable names
p.mod = fq_mod.replace('.', '_dot_')
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if p.pass == .imports {
for p.tok == .key_import && p.peek() != .key_const {
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p.imports()
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}
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if p.table.imports.contains('builtin') {
p.error('module `builtin` cannot be imported')
}
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return
}
// Go through every top level token or throw a compilation error if a non-top level token is met
for {
switch p.tok {
case Token.key_import:
if p.peek() == .key_const {
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p.const_decl()
}
else {
// TODO remove imported consts from the language
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p.imports()
if p.tok != .key_import {
p.fgenln('')
}
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}
case Token.key_enum:
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p.next()
if p.tok == .name {
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p.fgen('enum ')
name := p.check_name()
p.fgen(' ')
p.enum_decl(name)
}
// enum without a name, only allowed in code, translated from C
// it's a very bad practice in C as well, but is used unfortunately (for example, by DOOM)
// such fields are basically int consts
else if p.pref.translated {
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p.enum_decl('int')
}
else {
p.check(.name)
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}
case Token.key_pub:
if p.peek() == .func {
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p.fn_decl()
} else if p.peek() == .key_struct {
p.error('structs can\'t be declared public *yet*')
// TODO public structs
} else {
p.error('wrong pub keyword usage')
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}
case Token.func:
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p.fn_decl()
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case Token.key_type:
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p.type_decl()
case Token.lsbr:
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// `[` can only mean an [attribute] before a function
// or a struct definition
p.attribute()
case Token.key_struct, Token.key_interface, Token.key_union, Token.lsbr:
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p.struct_decl()
case Token.key_const:
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p.const_decl()
case Token.hash:
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// insert C code, TODO this is going to be removed ASAP
// some libraries (like UI) still have lots of C code
// # puts("hello");
p.chash()
case Token.dollar:
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// $if, $else
p.comp_time()
case Token.key_global:
if !p.pref.translated && !p.pref.is_live &&
!p.builtin_pkg && !p.building_v {
p.error('__global is only allowed in translated code')
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}
p.next()
name := p.check_name()
typ := p.get_type()
p.register_global(name, typ)
// p.genln(p.table.cgen_name_type_pair(name, typ))
mut g := p.table.cgen_name_type_pair(name, typ)
if p.tok == .assign {
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p.next()
// p.gen(' = ')
g += ' = '
p.cgen.start_tmp()
p.bool_expression()
// g += '<<< ' + p.cgen.end_tmp() + '>>>'
g += p.cgen.end_tmp()
}
// p.genln('; // global')
g += '; // global'
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p.cgen.consts << g
case Token.eof:
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p.log('end of parse()')
if p.is_script && !p.pref.is_test {
p.cur_fn = MainFn
p.check_unused_variables()
}
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if false && !p.first_pass() && p.fileis('main.v') {
out := os.create('/var/tmp/fmt.v') or {
panic('failed to create fmt.v')
return
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}
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out.writeln(p.scanner.fmt_out.str())
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out.close()
}
return
default:
// no `fn main`, add this "global" statement to cgen.fn_main
if p.is_script && !p.pref.is_test {
// cur_fn is empty since there was no fn main declared
// we need to set it to save and find variables
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if p.first_pass() {
if p.cur_fn.name == '' {
p.cur_fn = MainFn
}
return
}
if p.cur_fn.name == '' {
p.cur_fn = MainFn
if p.pref.is_repl {
p.cur_fn.clear_vars()
}
}
mut start := p.cgen.lines.len
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p.statement(true)
if p.cgen.lines[start - 1] != '' && p.cgen.fn_main != '' {
start--
}
p.genln('')
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end := p.cgen.lines.len
lines := p.cgen.lines.slice(start, end)
//mut line := p.cgen.fn_main + lines.join('\n')
//line = line.trim_space()
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p.cgen.fn_main = p.cgen.fn_main + lines.join('\n')
p.cgen.resetln('')
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for i := start; i < end; i++ {
p.cgen.lines[i] = ''
}
}
else {
p.error('unexpected token `${p.strtok()}`')
}
}
}
}
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fn (p mut Parser) imports() {
p.check(.key_import)
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// `import ()`
if p.tok == .lpar {
p.check(.lpar)
for p.tok != .rpar && p.tok != .eof {
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p.import_statement()
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}
p.check(.rpar)
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return
}
// `import foo`
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p.import_statement()
}
fn (p mut Parser) import_statement() {
if p.tok != .name {
p.error('bad import format')
}
if p.peek() == .number && p.scanner.text[p.scanner.pos + 1] == `.` {
p.error('bad import format. module/submodule names cannot begin with a number.')
}
mut pkg := p.check_name().trim_space()
mut mod_alias := pkg
// submodule support
mut depth := 1
for p.tok == .dot {
p.check(.dot)
submodule := p.check_name()
mod_alias = submodule
pkg += '.' + submodule
depth++
if depth > MaxModuleDepth {
p.error('module depth of $MaxModuleDepth exceeded: $pkg')
}
}
// aliasing (import encoding.base64 as b64)
if p.tok == .key_as && p.peek() == .name {
p.check(.key_as)
mod_alias = p.check_name()
}
// add import to file scope import table
p.import_table.register_alias(mod_alias, pkg)
// Make sure there are no duplicate imports
if p.table.imports.contains(pkg) {
return
}
p.log('adding import $pkg')
p.table.imports << pkg
p.table.register_package(pkg)
p.fgenln(' ' + pkg)
}
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fn (p mut Parser) const_decl() {
is_import := p.tok == .key_import
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p.inside_const = true
if is_import {
p.next()
}
p.check(.key_const)
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p.fspace()
p.check(.lpar)
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p.fgenln('')
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p.fmt_inc()
for p.tok == .name {
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// `Age = 20`
mut name := p.check_name()
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//if ! (name[0] >= `A` && name[0] <= `Z`) {
//p.error('const name must be capitalized')
//}
// Imported consts (like GL_TRIANG.leS) dont need pkg prepended (gl__GL_TRIANG.leS)
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if !is_import {
name = p.prepend_pkg(name)
}
mut typ := 'int'
if !is_import {
p.check_space(.assign)
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typ = p.expression()
}
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if p.first_pass() && !is_import && p.table.known_const(name) {
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p.error('redefinition of `$name`')
}
p.table.register_const(name, typ, p.mod, is_import)
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if p.pass == .main && !is_import {
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// TODO hack
// cur_line has const's value right now. if it's just a number, then optimize generation:
// output a #define so that we don't pollute the binary with unnecessary global vars
if is_compile_time_const(p.cgen.cur_line) {
p.cgen.consts << '#define $name $p.cgen.cur_line'
p.cgen.resetln('')
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p.fgenln('')
continue
}
if typ.starts_with('[') {
p.cgen.consts << p.table.cgen_name_type_pair(name, typ) +
' = $p.cgen.cur_line;'
}
else {
p.cgen.consts << p.table.cgen_name_type_pair(name, typ) + ';'
p.cgen.consts_init << '$name = $p.cgen.cur_line;'
}
p.cgen.resetln('')
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}
p.fgenln('')
}
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p.fmt_dec()
p.check(.rpar)
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p.fgenln('\n')
p.inside_const = false
}
// `type myint int`
// `type onclickfn fn(voidptr) int`
fn (p mut Parser) type_decl() {
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p.check(.key_type)
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name := p.check_name()
parent := p.get_type()
nt_pair := p.table.cgen_name_type_pair(name, parent)
// TODO dirty C typedef hacks for DOOM
// Unknown type probably means it's a struct, and it's used before the struct is defined,
// so specify "struct"
_struct := if !parent.contains('[') && !parent.starts_with('fn ') && !p.table.known_type(parent){'struct'} else { ''}
p.gen_typedef('typedef $_struct $nt_pair; // type alias name="$name" parent="$parent"')
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p.register_type_with_parent(name, parent)
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}
fn (p mut Parser) interface_method(field_name, receiver string) &Fn {
mut method := &Fn {
name: field_name
is_interface: true
is_method: true
receiver_typ: receiver
}
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p.log('is interface. field=$field_name run=$p.pass')
p.fn_args(mut method)
if p.scanner.has_gone_over_line_end() {
method.typ = 'void'
} else {
method.typ = p.get_type()// method return type
p.fspace()
p.fgenln('')
}
return method
}
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// also unions and interfaces
fn (p mut Parser) struct_decl() {
// Attribute before type?
mut objc_parent := ''
mut is_objc := false// V can generate Objective C for integration with Cocoa
// [attr]
if p.tok == .lsbr {
p.check(.lsbr)
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// `[interface:ParentInterface]`
is_objc = p.tok == .key_interface
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p.next()
if is_objc {
p.check(.colon)
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objc_parent = p.check_name()
}
p.check(.rsbr)
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}
is_interface := p.tok == .key_interface
is_union := p.tok == .key_union
is_struct := p.tok == .key_struct
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p.fgen(p.tok.str() + ' ')
// Get type name
p.next()
mut name := p.check_name()
if name.contains('_') && !p.pref.translated {
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p.error('type names cannot contain `_`')
}
if is_interface && !name.ends_with('er') {
p.error('interface names temporarily have to end with `er` (e.g. `Speaker`, `Reader`)')
}
is_c := name == 'C' && p.tok == .dot
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if is_c {
p.check(.dot)
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name = p.check_name()
}
// Specify full type name
if !is_c && !p.builtin_pkg && p.mod != 'main' {
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name = p.prepend_pkg(name)
}
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if p.pass == .decl && p.table.known_type(name) {
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p.error('`$name` redeclared')
}
// Generate type definitions
if is_objc {
p.gen_type('@interface $name : $objc_parent { @public')
}
else {
// type alias is generated later
if !is_c {
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kind := if is_union {'union'} else {'struct'}
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p.gen_typedef('typedef $kind $name $name;')
p.gen_type('$kind $name {')
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}
}
// V used to have 'type Foo struct', many Go users might use this syntax
if !is_c && p.tok == .key_struct {
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p.error('use `struct $name {` instead of `type $name struct {`')
}
// Register the type
mut typ := p.table.find_type(name)
mut is_ph := false
if typ.is_placeholder {
is_ph = true
typ.name = name
typ.mod = p.mod
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typ.is_c = is_c
typ.is_placeholder = false
}
else {
typ = &Type {
name: name
mod: p.mod
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is_c: is_c
is_interface: is_interface
}
}
// Struct `C.Foo` declaration, no body
if is_c && is_struct && p.tok != .lcbr {
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p.table.register_type2(typ)
return
}
p.fgen(' ')
p.check(.lcbr)
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// Struct fields
mut is_pub := false
mut is_mut := false
mut names := []string// to avoid dup names TODO alloc perf
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/*
mut fmt_max_len := 0
for field in typ.fields {
if field.name.len > max_len {
fmt_max_len = field.name.len
}
}
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println('fmt max len = $max_len nrfields=$typ.fields.len pass=$p.pass')
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*/
mut did_gen_something := false
for p.tok != .rcbr {
if p.tok == .key_pub {
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if is_pub {
p.error('structs can only have one `pub:`, all public fields have to be grouped')
}
is_pub = true
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p.fmt_dec()
p.check(.key_pub)
if p.tok != .key_mut {
p.check(.colon)
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}
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p.fmt_inc()
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p.fgenln('')
}
if p.tok == .key_mut {
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if is_mut {
p.error('structs can only have one `mut:`, all private key_mut fields have to be grouped')
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}
is_mut = true
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p.fmt_dec()
p.check(.key_mut)
if p.tok != .key_mut {
p.check(.colon)
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}
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p.fmt_inc()
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p.fgenln('')
}
// if is_pub {
// }
// (mut) user *User
// if p.tok == .plus {
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// p.next()
// }
// Check dups
field_name := p.check_name()
if field_name in names {
p.error('duplicate field `$field_name`')
}
names << field_name
// We are in an interface?
// `run() string` => run is a method, not a struct field
if is_interface {
typ.add_method(p.interface_method(field_name, name))
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continue
}
// `pub` access mod
access_mod := if is_pub{AccessMod.public} else { AccessMod.private}
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p.fgen(' ')
field_type := p.get_type()
is_atomic := p.tok == .key_atomic
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if is_atomic {
p.next()
p.gen_type('_Atomic ')
}
if !is_c {
p.gen_type(p.table.cgen_name_type_pair(field_name, field_type) + ';')
}
// [ATTR]
mut attr := ''
if p.tok == .lsbr {
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p.next()
attr = p.check_name()
p.check(.rsbr)
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}
did_gen_something = true
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typ.add_field(field_name, field_type, is_mut, attr, access_mod)
p.fgenln('')
}
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if !is_ph && p.first_pass() {
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p.table.register_type2(typ)
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//println('registering 1 nrfields=$typ.fields.len')
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}
p.check(.rcbr)
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if !is_c {
if !did_gen_something {
p.gen_type('EMPTY_STRUCT_DECLARATION };')
p.fgenln('')
} else {
p.gen_type('}; ')
}
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}
if is_objc {
p.gen_type('@end')
}
p.fgenln('\n')
}
fn (p mut Parser) enum_decl(_enum_name string) {
mut enum_name := _enum_name
// Specify full type name
if !p.builtin_pkg && p.mod != 'main' {
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enum_name = p.prepend_pkg(enum_name)
}
// Skip empty enums
if enum_name != 'int' {
p.cgen.typedefs << 'typedef int $enum_name;'
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}
p.check(.lcbr)
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mut val := 0
mut fields := []string
for p.tok == .name {
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field := p.check_name()
fields << field
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p.fgenln('')
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name := '${p.mod}__${enum_name}_$field'
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if p.pass == .main {
p.cgen.consts << '#define $name $val'
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}
if p.tok == .comma {
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p.next()
}
p.table.register_const(name, enum_name, p.mod, false)
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val++
}
p.table.register_type2(&Type {
name: enum_name
mod: p.mod
parent: 'int'
is_enum: true
enum_vals: fields
})
p.check(.rcbr)
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p.fgenln('\n')
}
// check_name checks for a name token and returns its literal
fn (p mut Parser) check_name() string {
name := p.lit
p.check(.name)
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return name
}
fn (p mut Parser) check_string() string {
s := p.lit
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p.check(.str)
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return s
}
fn (p &Parser) strtok() string {
if p.tok == .name {
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return p.lit
}
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if p.tok == .str {
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return '"$p.lit"'
}
res := p.tok.str()
if res == '' {
n := int(p.tok)
return n.str()
}
return res
}
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// same as check(), but adds a space to the formatter output
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// TODO bad name
fn (p mut Parser) check_space(expected Token) {
p.fspace()
p.check(expected)
p.fspace()
}
fn (p mut Parser) check(expected Token) {
if p.tok != expected {
println('check()')
s := 'expected `${expected.str()}` but got `${p.strtok()}`'
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p.next()
println('next token = `${p.strtok()}`')
print_backtrace()
p.error(s)
}
if expected == .rcbr {
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p.fmt_dec()
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}
p.fgen(p.strtok())
// vfmt: increase indentation on `{` unless it's `{}`
if expected == .lcbr && p.scanner.text[p.scanner.pos + 1] != `}` {
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p.fgenln('')
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p.fmt_inc()
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}
p.next()
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if p.scanner.line_comment != '' {
//p.fgenln('// ! "$p.scanner.line_comment"')
//p.scanner.line_comment = ''
}
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}
fn (p mut Parser) error(s string) {
// Dump all vars and types for debugging
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if p.pref.is_debug {
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// os.write_to_file('/var/tmp/lang.types', '')//pes(p.table.types))
// os.write_to_file('/var/tmp/lang.vars', q.J(p.table.vars))
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os.write_file('fns.txt', p.table.debug_fns())
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}
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//if p.pref.is_verbose {
println('pass=$p.pass fn=`$p.cur_fn.name`')
//}
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p.cgen.save()
// V git pull hint
cur_path := os.getwd()
if !p.pref.is_repl && ( p.file_path.contains('v/compiler') || cur_path.contains('v/compiler') ){
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println('\n=========================')
println('It looks like you are building V. It is being frequently updated every day.')
println('If you didn\'t modify the compiler\'s code, most likely there was a change that ')
println('lead to this error.')
println('\nRun `git pull && make`, that will most likely fix it.')
//println('\nIf this doesn\'t help, re-install V from source or download a precompiled' + ' binary from\nhttps://vlang.io.')
println('\nIf this doesn\'t help, please create a GitHub issue.')
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println('=========================\n')
}
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// p.scanner.debug_tokens()
// Print `[]int` instead of `array_int` in errors
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p.scanner.error(s.replace('array_', '[]').replace('__', '.').replace('Option_', '?'))
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}
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fn (p &Parser) first_pass() bool {
return p.pass == .decl
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}
// TODO return Type instead of string?
fn (p mut Parser) get_type() string {
debug := p.fileis('fn_test') && false
mut mul := false
mut nr_muls := 0
mut typ := ''
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// fn type
if p.tok == .func {
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if debug {
println('\nget_type() .key_goT FN TYP line=$p.scanner.line_nr')
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}
mut f := Fn{name: '_', pkg: p.mod}
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p.next()
line_nr := p.scanner.line_nr
p.fn_args(mut f)
// Same line, it's a return type
if p.scanner.line_nr == line_nr {
if debug {
println('same line getting type')
}
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if p.tok == .name {
f.typ = p.get_type()
}
else {
f.typ = 'void'
}
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// println('fn return typ=$f.typ')
}
else {
f.typ = 'void'
}
// Register anon fn type
fn_typ := Type {
name: f.typ_str()// 'fn (int, int) string'
mod: p.mod
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func: f
}
p.table.register_type2(fn_typ)
return f.typ_str()
}
// arrays ([]int)
mut is_arr := false
mut is_arr2 := false// [][]int TODO remove this and allow unlimited levels of arrays
is_question := p.tok == .question
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if is_question {
p.check(.question)
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}
if p.tok == .lsbr {
p.check(.lsbr)
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// [10]int
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if p.tok == .number {
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typ = '[$p.lit]'
p.next()
}
else {
is_arr = true
}
p.check(.rsbr)
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// [10][3]int
if p.tok == .lsbr {
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p.next()
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if p.tok == .number {
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typ += '[$p.lit]'
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p.check(.number)
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}
else {
is_arr2 = true
}
p.check(.rsbr)
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}
}
// map[string]int
if !p.builtin_pkg && p.tok == .name && p.lit == 'map' {
p.next()
p.check(.lsbr)
key_type := p.check_name()
if key_type != 'string' {
p.error('maps only support string keys for now')
}
p.check(.rsbr)
val_type := p.check_name()
typ= 'map_$val_type'
p.register_map(typ)
return typ
}
//
for p.tok == .mul {
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mul = true
nr_muls++
p.check(.mul)
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}
if p.tok == .amp {
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mul = true
nr_muls++
p.check(.amp)
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}
typ += p.lit
if !p.is_struct_init {
// Otherwise we get `foo := FooFoo{` because `Foo` was already generated in name_expr()
p.fgen(p.lit)
}
// C.Struct import
if p.lit == 'C' && p.peek() == .dot {
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p.next()
p.check(.dot)
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typ = p.lit
}
else {
// Package specified? (e.g. gx.Image)
if p.peek() == .dot {
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p.next()
p.check(.dot)
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typ += '__$p.lit'
}
mut t := p.table.find_type(typ)
// "typ" not found? try "pkg__typ"
if t.name == '' && !p.builtin_pkg {
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// && !p.first_pass() {
if !typ.contains('array_') && p.mod != 'main' && !typ.contains('__') &&
!typ.starts_with('[') {
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typ = p.prepend_pkg(typ)
}
t = p.table.find_type(typ)
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if t.name == '' && !p.pref.translated && !p.first_pass() && !typ.starts_with('[') {
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println('get_type() bad type')
// println('all registered types:')
// for q in p.table.types {
// println(q.name)
// }
p.error('unknown type `$typ`')
}
}
}
if typ == 'void' {
p.error('unknown type `$typ`')
}
if mul {
typ += strings.repeat(`*`, nr_muls)
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}
// Register an []array type
if is_arr2 {
typ = 'array_array_$typ'
p.register_array(typ)
}
else if is_arr {
typ = 'array_$typ'
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// p.log('ARR TYPE="$typ" run=$p.pass')
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// We come across "[]User" etc ?
p.register_array(typ)
}
p.next()
if p.tok == .question || is_question {
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typ = 'Option_$typ'
p.table.register_type_with_parent(typ, 'Option')
if p.tok == .question {
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p.next()
}
}
// Because the code uses * to see if it's a pointer
if typ == 'byteptr' {
return 'byte*'
}
if typ == 'voidptr' {
//if !p.builtin_pkg && p.mod != 'os' && p.mod != 'gx' && p.mod != 'gg' && !p.pref.translated {
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//p.error('voidptr can only be used in unsafe code')
//}
return 'void*'
}
if typ.last_index('__') > typ.index('__') {
p.error('2 __ in gettype(): typ="$typ"')
}
return typ
}
fn (p &Parser) print_tok() {
if p.tok == .name {
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println(p.lit)
return
}
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if p.tok == .str {
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println('"$p.lit"')
return
}
println(p.tok.str())
}
// statements() returns the type of the last statement
fn (p mut Parser) statements() string {
p.log('statements()')
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typ := p.statements_no_rcbr()
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if !p.inside_if_expr {
p.genln('}')
}
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//if p.fileis('if_expr') {
//println('statements() ret=$typ line=$p.scanner.line_nr')
//}
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return typ
}
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fn (p mut Parser) statements_no_rcbr() string {
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p.cur_fn.open_scope()
if !p.inside_if_expr {
p.genln('')
}
mut i := 0
mut last_st_typ := ''
for p.tok != .rcbr && p.tok != .eof && p.tok != .key_case &&
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p.tok != .key_default && p.peek() != .arrow {
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// println(p.tok.str())
// p.print_tok()
last_st_typ = p.statement(true)
// println('last st typ=$last_st_typ')
if !p.inside_if_expr {
p.genln('')// // end st tok= ${p.strtok()}')
p.fgenln('')
}
i++
if i > 50000 {
p.cgen.save()
p.error('more than 50 000 statements in function `$p.cur_fn.name`')
}
}
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if p.tok != .key_case && p.tok != .key_default && p.peek() != .arrow {
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// p.next()
p.check(.rcbr)
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}
else {
// p.check(.rcbr)
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}
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//p.fmt_dec()
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// println('close scope line=$p.scanner.line_nr')
p.close_scope()
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return last_st_typ
}
fn (p mut Parser) close_scope() {
// println('close_scope level=$f.scope_level var_idx=$f.var_idx')
// Move back `var_idx` (pointer to the end of the array) till we reach the previous scope level.
// This effectivly deletes (closes) current scope.
mut i := p.cur_fn.var_idx - 1
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for ; i >= 0; i-- {
v := p.cur_fn.local_vars[i]
if v.scope_level != p.cur_fn.scope_level {
// println('breaking. "$v.name" v.scope_level=$v.scope_level')
break
}
if !p.building_v && !v.is_mut && v.is_alloc {
if v.typ.starts_with('array_') {
p.genln('v_array_free($v.name); // close_scope free')
}
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else if v.typ == 'string' {
p.genln('v_string_free($v.name); // close_scope free')
}
else if v.ptr {
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//p.genln('free($v.name); // close_scope free')
}
}
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}
p.cur_fn.var_idx = i + 1
// println('close_scope new var_idx=$f.var_idx\n')
p.cur_fn.scope_level--
}
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fn (p mut Parser) genln(s string) {
p.cgen.genln(s)
}
fn (p mut Parser) gen(s string) {
p.cgen.gen(s)
}
// Generate V header from V source
fn (p mut Parser) vh_genln(s string) {
p.vh_lines << s
}
fn (p mut Parser) statement(add_semi bool) string {
p.cgen.is_tmp = false
tok := p.tok
mut q := ''
switch tok {
case .name:
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next := p.peek()
if p.pref.is_verbose {
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println(next.str())
}
// goto_label:
if p.peek() == .colon {
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p.fmt_dec()
label := p.check_name()
p.fmt_inc()
p.genln(label + ':')
p.check(.colon)
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return ''
}
// `a := 777`
else if p.peek() == .decl_assign {
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p.log('var decl')
p.var_decl()
}
else if p.lit == 'jsdecode' {
p.js_decode()
}
else {
// `a + 3`, `a(7)` or maybe just `a`
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q = p.bool_expression()
}
case Token.key_goto:
p.check(.key_goto)
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p.fgen(' ')
label := p.check_name()
p.genln('goto $label;')
return ''
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case Token.key_defer:
p.defer_st()
return ''
case Token.hash:
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p.chash()
return ''
case Token.dollar:
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p.comp_time()
case Token.key_if:
p.if_st(false, 0)
case Token.key_for:
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p.for_st()
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case Token.key_switch, Token.key_match:
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p.switch_statement()
case Token.key_mut, Token.key_static:
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p.var_decl()
case Token.key_return:
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p.return_st()
case Token.lcbr:// {} block
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p.check(.lcbr)
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p.genln('{')
p.statements()
return ''
case Token.key_continue:
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if p.for_expr_cnt == 0 {
p.error('`continue` statement outside `for`')
}
p.genln('continue')
p.check(.key_continue)
case Token.key_break:
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if p.for_expr_cnt == 0 {
p.error('`break` statement outside `for`')
}
p.genln('break')
p.check(.key_break)
case Token.key_go:
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p.go_statement()
case Token.key_assert:
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p.assert_statement()
default:
// An expression as a statement
typ := p.expression()
if p.inside_if_expr {
}
else {
p.genln('; ')
}
return typ
}
// ? : uses , as statement separators
if p.inside_if_expr && p.tok != .rcbr {
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p.gen(', ')
}
if add_semi && !p.inside_if_expr {
p.genln(';')
}
return q
// p.cgen.end_statement()
}
// is_map: are we in map assignment? (m[key] = val) if yes, dont generate '='
// this can be `user = ...` or `user.field = ...`, in both cases `v` is `user`
fn (p mut Parser) assign_statement(v Var, ph int, is_map bool) {
p.log('assign_statement() name=$v.name tok=')
tok := p.tok
if !v.is_mut && !v.is_arg && !p.pref.translated && !v.is_global{
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p.error('`$v.name` is immutable')
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}
if !v.is_changed {
p.cur_fn.mark_var_changed(v)
}
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is_str := v.typ == 'string'
switch tok {
case Token.assign:
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if !is_map {
p.gen(' = ')
}
case Token.plus_assign:
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if is_str {
p.gen('= string_add($v.name, ')// TODO can't do `foo.bar += '!'`
}
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else {
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p.gen(' += ')
}
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default: p.gen(' ' + p.tok.str() + ' ')
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}
2019-07-03 13:20:43 +02:00
p.fspace()
p.fgen(tok.str())
p.fspace()
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p.next()
pos := p.cgen.cur_line.len
expr_type := p.bool_expression()
// Allow `num = 4` where `num` is an `?int`
if p.assigned_type.starts_with('Option_') && expr_type == p.assigned_type.right('Option_'.len) {
println('allowing option asss')
expr := p.cgen.cur_line.right(pos)
left := p.cgen.cur_line.left(pos)
//p.cgen.cur_line = left + 'opt_ok($expr)'
p.cgen.resetln(left + 'opt_ok($expr, sizeof($expr_type))')
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}
else if !p.builtin_pkg && !p.check_types_no_throw(expr_type, p.assigned_type) {
p.scanner.line_nr--
p.error('cannot use type `$expr_type` as type `$p.assigned_type` in assignment')
}
if is_str && tok == .plus_assign {
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p.gen(')')
}
// p.assigned_var = ''
p.assigned_type = ''
if !v.is_used {
p.cur_fn.mark_var_used(v)
}
}
fn (p mut Parser) var_decl() {
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p.is_alloc = false
is_mut := p.tok == .key_mut || p.prev_tok == .key_for
is_static := p.tok == .key_static
if p.tok == .key_mut {
p.check(.key_mut)
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p.fspace()
}
if p.tok == .key_static {
p.check(.key_static)
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p.fspace()
}
// println('var decl tok=${p.strtok()} ismut=$is_mut')
name := p.check_name()
p.var_decl_name = name
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// Don't allow declaring a variable with the same name. Even in a child scope
// (shadowing is not allowed)
if !p.builtin_pkg && p.cur_fn.known_var(name) {
v := p.cur_fn.find_var(name)
p.error('redefinition of `$name`')
}
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if name.len > 1 && contains_capital(name) {
p.error('variable names cannot contain uppercase letters, use snake_case instead')
}
p.check_space(.decl_assign) // :=
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// Generate expression to tmp because we need its type first
// [TYP .name =] bool_expression()
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pos := p.cgen.add_placeholder()
mut typ := p.bool_expression()
// Option check ? or {
or_else := p.tok == .key_orelse
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tmp := p.get_tmp()
if or_else {
// Option_User tmp = get_user(1);
// if (!tmp.ok) { or_statement }
// User user = *(User*)tmp.data;
// p.assigned_var = ''
p.cgen.set_placeholder(pos, '$typ $tmp = ')
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p.genln(';')
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typ = typ.replace('Option_', '')
p.next()
p.check(.lcbr)
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p.genln('if (!$tmp .ok) {')
p.register_var(Var {
name: 'err'
typ: 'string'
is_mut: false
is_used: true
})
p.genln('string err = $tmp . error;')
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p.statements()
p.genln('$typ $name = *($typ*) $tmp . data;')
if !p.returns && p.prev_tok2 != .key_continue && p.prev_tok2 != .key_break {
p.error('`or` block must return/continue/break/panic')
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}
}
p.register_var(Var {
name: name
typ: typ
is_mut: is_mut
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is_alloc: p.is_alloc
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})
if !or_else {
gen_name := p.table.var_cgen_name(name)
mut nt_gen := p.table.cgen_name_type_pair(gen_name, typ) + '='
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if is_static {
nt_gen = 'static $nt_gen'
}
p.cgen.set_placeholder(pos, nt_gen)
}
p.var_decl_name = ''
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}
fn (p mut Parser) bool_expression() string {
tok := p.tok
typ := p.bterm()
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for p.tok == .and || p.tok == .logical_or {
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p.gen(' ${p.tok.str()} ')
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p.check_space(p.tok)
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p.check_types(p.bterm(), typ)
}
if typ == '' {
println('curline:')
println(p.cgen.cur_line)
println(tok.str())
p.error('expr() returns empty type')
}
return typ
}
fn (p mut Parser) bterm() string {
ph := p.cgen.add_placeholder()
mut typ := p.expression()
p.expected_type = typ
is_str := typ=='string'
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tok := p.tok
// if tok in [ .eq, .gt, .lt, .le, .ge, .ne] {
if tok == .eq || tok == .gt || tok == .lt || tok == .le || tok == .ge || tok == .ne {
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p.fgen(' ${p.tok.str()} ')
if is_str {
p.gen(',')
}
else {
p.gen(tok.str())
}
p.next()
p.check_types(p.expression(), typ)
typ = 'bool'
if is_str {
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p.gen(')')
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switch tok {
case Token.eq: p.cgen.set_placeholder(ph, 'string_eq(')
case Token.ne: p.cgen.set_placeholder(ph, 'string_ne(')
case Token.le: p.cgen.set_placeholder(ph, 'string_le(')
case Token.ge: p.cgen.set_placeholder(ph, 'string_ge(')
case Token.gt: p.cgen.set_placeholder(ph, 'string_gt(')
case Token.lt: p.cgen.set_placeholder(ph, 'string_lt(')
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}
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/*
Token.eq => p.cgen.set_placeholder(ph, 'string_eq(')
Token.ne => p.cgen.set_placeholder(ph, 'string_ne(')
Token.le => p.cgen.set_placeholder(ph, 'string_le(')
Token.ge => p.cgen.set_placeholder(ph, 'string_ge(')
Token.gt => p.cgen.set_placeholder(ph, 'string_gt(')
Token.lt => p.cgen.set_placeholder(ph, 'string_lt(')
*/
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}
}
return typ
}
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// also called on *, &, @, . (enum)
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fn (p mut Parser) name_expr() string {
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ph := p.cgen.add_placeholder()
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// amp
ptr := p.tok == .amp
deref := p.tok == .mul
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if ptr || deref {
p.next()
}
if deref {
if p.pref.is_play && !p.builtin_pkg {
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p.error('dereferencing is temporarily disabled on the playground, will be fixed soon')
}
}
mut name := p.lit
p.fgen(name)
// known_type := p.table.known_type(name)
orig_name := name
is_c := name == 'C' && p.peek() == .dot
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mut is_c_struct_init := is_c && ptr// a := &C.mycstruct{}
if is_c {
p.next()
p.check(.dot)
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name = p.lit
p.fgen(name)
// Currently struct init is set to true only we have `&C.Foo{}`, handle `C.Foo{}`:
if !is_c_struct_init && p.peek() == .lcbr {
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is_c_struct_init = true
}
}
// enum value? (`color == .green`)
if p.tok == .dot {
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//println('got enum dot val $p.left_type pass=$p.pass $p.scanner.line_nr left=$p.left_type')
T := p.find_type(p.expected_type)
if T.is_enum {
p.check(.dot)
val := p.check_name()
// Make sure this enum value exists
if !T.has_enum_val(val) {
p.error('enum `$T.name` does not have value `$val`')
}
p.gen(T.mod + '__' + p.expected_type + '_' + val)
}
return p.expected_type
}
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// //////////////////////////
// module ?
// Allow shadowing (gg = gg.newcontext(); gg.draw_triangle())
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if ((name == p.mod && p.table.known_pkg(name)) || p.import_table.known_alias(name))
&& !p.cur_fn.known_var(name) && !is_c {
mut pkg := name
// must be aliased module
if name != p.mod && p.import_table.known_alias(name) {
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// we replaced "." with "_dot_" in p.mod for C variable names, do same here.
pkg = p.import_table.resolve_alias(name).replace('.', '_dot_')
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}
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p.next()
p.check(.dot)
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name = p.lit
p.fgen(name)
name = prepend_pkg(pkg, name)
}
else if !p.table.known_type(name) && !p.cur_fn.known_var(name) &&
!p.table.known_fn(name) && !p.table.known_const(name) && !is_c {
name = p.prepend_pkg(name)
}
// Variable
mut v := p.cur_fn.find_var(name)
// 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 {
v.name = p.var_decl_name
v.typ = 'voidptr'
v.is_mut = true
}
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if v.name.len != 0 {
if ptr {
p.gen('& /*vvar*/ ')
}
else if deref {
p.gen('*')
}
mut typ := p.var_expr(v)
// *var
if deref {
if !typ.contains('*') && !typ.ends_with('ptr') {
println('name="$name", t=$v.typ')
p.error('dereferencing requires a pointer, but got `$typ`')
}
typ = typ.replace('ptr', '')// TODO
typ = typ.replace('*', '')// TODO
}
// &var
else if ptr {
typ += '*'
}
return typ
}
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// if known_type || is_c_struct_init || (p.first_pass() && p.peek() == .lcbr) {
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// known type? int(4.5) or Color.green (enum)
if p.table.known_type(name) {
// float(5), byte(0), (*int)(ptr) etc
if !is_c && ( p.peek() == .lpar || (deref && p.peek() == .rpar) ) {
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if deref {
name += '*'
}
else if ptr {
name += '*'
}
p.gen('(')
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mut typ := p.cast(name)
p.gen(')')
for p.tok == .dot {
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typ = p.dot(typ, ph)
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}
return typ
}
// Color.green
else if p.peek() == .dot {
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enum_type := p.table.find_type(name)
if !enum_type.is_enum {
p.error('`$name` is not an enum')
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}
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p.next()
p.check(.dot)
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val := p.lit
// println('enum val $val')
p.gen(enum_type.mod + '__' + enum_type.name + '_' + val)// `color = main__Color_green`
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p.next()
return enum_type.name
}
else if p.peek() == .lcbr {
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// go back to name start (pkg.name)
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/*
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p.scanner.pos = hack_pos
p.tok = hack_tok
p.lit = hack_lit
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*/
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// TODO hack. If it's a C type, we may need to add struct before declaration:
// a := &C.A{} ==> struct A* a = malloc(sizeof(struct A));
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if is_c_struct_init {
p.is_c_struct_init = true
p.cgen.insert_before('struct /*c struct init*/')
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}
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if ptr {
name += '*' // `&User{}` => type `User*`
}
if name == 'T' {
name = p.cur_gen_type
}
return p.struct_init(name, is_c_struct_init)
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}
}
// C fn
if is_c {
f := Fn {
name: name// .replace('c_', '')
is_c: true
}
p.fn_call(f, 0, '', '')
// Try looking it up. Maybe its defined with "C.fn_name() fn_type",
// then we know what type it returns
cfn := p.table.find_fn(name)
// Not Found? Return 'void*'
if cfn.name == '' {
return 'void*'
}
return cfn.typ
}
// Constant
c := p.table.find_const(name)
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if c.name != '' && ptr && !c.is_global {
p.error('cannot take the address of constant `$c.name`')
}
if c.name.len != 0 {
if ptr {
// c.ptr = true
p.gen('& /*const*/ ')
}
p.log('calling var expr')
mut typ := p.var_expr(c)
if ptr {
typ += '*'
}
return typ
}
// Function (not method btw, methods are handled in dot())
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mut f := p.table.find_fn(name)
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if f.name == '' {
// We are in a second pass, that means this function was not defined, throw an error.
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if !p.first_pass() {
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// V script? Try os module.
if p.v_script {
name = name.replace('main__', 'os__')
f = p.table.find_fn(name)
}
if f.name == '' {
// If orig_name is a pkg, then printing undefined: `pkg` tells us nothing
// if p.table.known_pkg(orig_name) {
if p.table.known_pkg(orig_name) || p.import_table.known_alias(orig_name) {
name = name.replace('__', '.').replace('_dot_', '.')
p.error('undefined: `$name`')
}
else {
p.error('undefined: `$orig_name`')
}
}
} else {
p.next()
// First pass, the function can be defined later.
return 'void'
}
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}
// no () after func, so func is an argument, just gen its name
// TODO verify this and handle errors
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peek := p.peek()
if peek != .lpar && peek != .lt {
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p.gen(p.table.cgen_name(f))
p.next()
return 'void*'
}
// TODO bring back
if f.typ == 'void' && !p.inside_if_expr {
// p.error('`$f.name` used as value')
}
p.log('calling function')
p.fn_call(f, 0, '', '')
// dot after a function call: `get_user().age`
if p.tok == .dot {
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mut typ := ''
for p.tok == .dot {
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// println('dot #$dc')
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typ = p.dot(f.typ, ph)
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}
return typ
}
p.log('end of name_expr')
return f.typ
}
fn (p mut Parser) var_expr(v Var) string {
p.log('\nvar_expr() v.name="$v.name" v.typ="$v.typ"')
// println('var expr is_tmp=$p.cgen.is_tmp\n')
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p.cur_fn.mark_var_used(v)
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fn_ph := p.cgen.add_placeholder()
p.expr_var = v
p.gen(p.table.var_cgen_name(v.name))
p.next()
mut typ := v.typ
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// Function pointer?
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if typ.starts_with('fn ') {
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//println('CALLING FN PTR')
//p.print_tok()
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T := p.table.find_type(typ)
p.gen('(')
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p.fn_call_args(mut T.func)
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p.gen(')')
typ = T.func.typ
}
// users[0] before dot so that we can have
// users[0].name
if p.tok == .lsbr {
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typ = p.index_expr(typ, fn_ph)
}
// a.b.c().d chain
// mut dc := 0
for p.tok ==.dot {
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// println('dot #$dc')
typ = p.dot(typ, fn_ph)
p.log('typ after dot=$typ')
// print('tok after dot()')
// p.print_tok()
// dc++
if p.tok == .lsbr {
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// typ = p.index_expr(typ, fn_ph, v)
}
}
// a++ and a--
if p.tok == .inc || p.tok == .dec {
if !v.is_mut && !v.is_arg && !p.pref.translated {
2019-07-10 14:18:21 +02:00
p.error('`$v.name` is immutable')
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}
if !v.is_changed {
p.cur_fn.mark_var_changed(v)
}
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if typ != 'int' {
if !p.pref.translated && !is_number_type(typ) {
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p.error('cannot ++/-- value of type `$typ`')
}
}
p.gen(p.tok.str())
p.fgen(p.tok.str())
p.next()// ++/--
// allow `a := c++` in translated code
if p.pref.translated {
//return p.index_expr(typ, fn_ph)
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}
else {
return 'void'
}
}
typ = p.index_expr(typ, fn_ph)
// TODO hack to allow `foo.bar[0] = 2`
if p.tok == .dot {
for p.tok == .dot {
typ = p.dot(typ, fn_ph)
}
typ = p.index_expr(typ, fn_ph)
}
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return typ
}
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// for debugging only
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fn (p &Parser) fileis(s string) bool {
return p.scanner.file_path.contains(s)
}
// user.name => `str_typ` is `User`
// user.company.name => `str_typ` is `Company`
fn (p mut Parser) dot(str_typ string, method_ph int) string {
p.check(.dot)
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typ := p.find_type(str_typ)
if typ.name.len == 0 {
p.error('dot(): cannot find type `$str_typ`')
}
if p.tok == .dollar {
p.comptime_method_call(typ)
return 'void'
}
field_name := p.lit
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p.fgen(field_name)
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p.log('dot() field_name=$field_name typ=$str_typ')
//if p.fileis('main.v') {
//println('dot() field_name=$field_name typ=$str_typ prev_tok=${prev_tok.str()}')
//}
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has_field := p.table.type_has_field(typ, field_name)
has_method := p.table.type_has_method(typ, field_name)
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if !typ.is_c && !has_field && !has_method && !p.first_pass() {
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if typ.name.starts_with('Option_') {
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opt_type := typ.name.right(7)
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p.error('unhandled option type: $opt_type?')
}
println('error in dot():')
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println('fields:')
for field in typ.fields {
println(field.name)
}
println('methods:')
for field in typ.methods {
println(field.name)
}
println('str_typ=="$str_typ"')
p.error('type `$typ.name` has no field or method `$field_name`')
}
mut dot := '.'
if str_typ.contains('*') {
dot = '->'
}
// field
if has_field {
field := p.table.find_field(typ, field_name)
// Is the next token `=`, `+=` etc? (Are we modifying the field?)
next := p.peek()
modifying := next.is_assign() || next == .inc || next == .dec
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is_vi := p.fileis('vi')
if !p.builtin_pkg && !p.pref.translated && modifying && !field.is_mut && !is_vi {
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p.error('cannot modify immutable field `$field_name` (type `$typ.name`)')
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}
if !p.builtin_pkg && p.mod != typ.mod {
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}
// if p.pref.is_play && field.access_mod ==.private && !p.builtin_pkg && p.mod != typ.mod {
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// Don't allow `arr.data`
if field.access_mod == .private && !p.builtin_pkg && !p.pref.translated && p.mod != typ.mod {
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// println('$typ.name :: $field.name ')
// println(field.access_mod)
p.error('cannot refer to unexported field `$field_name` (type `$typ.name`)')
}
// if field.access_mod ==.public && p.peek() == .assign && !p.builtin_pkg && p.mod != typ.mod {
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// Don't allow `str.len = 0`
if field.access_mod == .public && !p.builtin_pkg && p.mod != typ.mod {
if !field.is_mut && !p.pref.translated && modifying {
2019-07-10 14:18:21 +02:00
p.error('cannot modify public immutable field `$field_name` (type `$typ.name`)')
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}
}
p.gen(dot + field_name)
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p.next()
return field.typ
}
// method
method := p.table.find_method(typ, field_name)
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p.fn_call(method, method_ph, '', str_typ)
// Methods returning `array` should return `array_string`
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if method.typ == 'array' && typ.name.starts_with('array_') {
return typ.name
}
// Array methods returning `voidptr` (like `last()`) should return element type
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if method.typ == 'void*' && typ.name.starts_with('array_') {
return typ.name.right(6)
}
//if false && p.tok == .lsbr {
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// if is_indexer {
//return p.index_expr(method.typ, method_ph)
//}
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return method.typ
}
fn (p mut Parser) index_expr(typ string, fn_ph int) string {
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// a[0]
v := p.expr_var
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//if p.fileis('fn_test.v') {
//println('index expr typ=$typ')
//println(v.name)
//}
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is_map := typ.starts_with('map_')
is_str := typ == 'string'
is_arr0 := typ.starts_with('array_')
is_arr := is_arr0 || typ == 'array'
is_ptr := typ == 'byte*' || typ == 'byteptr' || typ.contains('*')
is_indexer := p.tok == .lsbr
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mut close_bracket := false
if is_indexer {
is_fixed_arr := typ[0] == `[`
if !is_str && !is_arr && !is_map && !is_ptr && !is_fixed_arr {
p.error('Cant [] non-array/string/map. Got type "$typ"')
}
p.check(.lsbr)
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// Get element type (set `typ` to it)
if is_str {
typ = 'byte'
p.fgen('[')
// Direct faster access to .str[i] in builtin package
if p.builtin_pkg {
p.gen('.str[')
close_bracket = true
}
else {
// Bounds check everywhere else
p.gen(',')
}
}
if is_fixed_arr {
// `[10]int` => `int`, `[10][3]int` => `[3]int`
if typ.contains('][') {
pos := typ.index_after('[', 1)
typ = typ.right(pos)
}
else {
typ = typ.all_after(']')
}
p.gen('[')
close_bracket = true
}
else if is_ptr {
// typ = 'byte'
typ = typ.replace('*', '')
// modify(mut []string) fix
if !is_arr {
p.gen('[/*ptr*/')
close_bracket = true
}
}
if is_arr {
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//p.fgen('[')
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// array_int a; a[0]
// type is "array_int", need "int"
// typ = typ.replace('array_', '')
if is_arr0 {
if p.fileis('int_test') {
println('\nRRRR0 $typ')
}
typ = typ.right(6)
if p.fileis('int_test') {
println('RRRR $typ')
}
}
// array a; a.first() voidptr
// type is "array", need "void*"
if typ == 'array' {
typ = 'void*'
}
// No bounds check in translated from C code
if p.pref.translated && !p.builtin_pkg{
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// Cast void* to typ*: add (typ*) to the beginning of the assignment :
// ((int*)a.data = ...
p.cgen.set_placeholder(fn_ph, '(($typ*)(')
p.gen('.data))[')
}
else {
p.gen(',')
}
}
// map is tricky
// need to replace "m[key] = val" with "tmp = val; map_set(&m, key, &tmp)"
// need to replace "m[key]" with "tmp = val; map_get(&m, key, &tmp)"
// can only do that later once we know whether there's an "=" or not
if is_map {
typ = typ.replace('map_', '')
if typ == 'map' {
typ = 'void*'
}
p.gen(',')
}
// expression inside [ ]
if is_arr {
T := p.table.find_type(p.expression())
if T.parent != 'int' {
p.check_types(T.name, 'int')
}
}
else {
p.expression()
}
p.check(.rsbr)
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// if (is_str && p.builtin_pkg) || is_ptr || is_fixed_arr && ! (is_ptr && is_arr) {
if close_bracket {
p.gen(']/*r$typ $v.is_mut*/')
}
}
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// TODO move this from index_expr()
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// TODO if p.tok in ...
// if p.tok in [.assign, .plus_assign, .minus_assign]
if p.tok == .assign || p.tok == .plus_assign || p.tok == .minus_assign ||
p.tok == .mult_assign || p.tok == .div_assign || p.tok == .xor_assign || p.tok == .mod_assign ||
p.tok == .or_assign || p.tok == .and_assign || p.tok == .righ_shift_assign ||
p.tok == .left_shift_assign {
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if is_indexer && is_str && !p.builtin_pkg {
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p.error('strings are immutable')
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}
assign_pos := p.cgen.cur_line.len
p.assigned_type = typ
p.expected_type = typ
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p.assign_statement(v, fn_ph, is_indexer && (is_map || is_arr))
// m[key] = val
if is_indexer && (is_map || is_arr) {
// a[0] = 7
// curline right now: "a , 0 = 7"
// println('222 "$p.cgen.cur_line"')
// Cant have &7, so need a tmp
tmp := p.get_tmp()
tmp_val := p.cgen.cur_line.right(assign_pos)
p.cgen.resetln(p.cgen.cur_line.left(assign_pos))
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// val := p.cgen.end_tmp()
if is_map {
p.cgen.set_placeholder(fn_ph, 'map__set(&')
}
else {
if is_ptr {
p.cgen.set_placeholder(fn_ph, 'array_set(')
}
else {
p.cgen.set_placeholder(fn_ph, 'array_set(&/*q*/')
}
}
p.gen(', & $tmp)')
p.cgen.insert_before('$typ $tmp = $tmp_val;')
}
return typ
return 'void'
}
// else if p.pref.is_verbose && p.assigned_var != '' {
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// p.error('didnt assign')
// }
// m[key]. no =, just a getter
else if (is_map || is_arr || (is_str && !p.builtin_pkg)) && is_indexer {
// Erase var name we generated earlier: "int a = m, 0"
// "m, 0" gets killed since we need to start from scratch. It's messy.
// "m, 0" is an index expression, save it before deleting and insert later in map_get()
index_expr := p.cgen.cur_line.right(fn_ph)
p.cgen.resetln(p.cgen.cur_line.left(fn_ph))
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// Can't pass integer literal, because map_get() requires a void*
tmp := p.get_tmp()
tmp_ok := p.get_tmp()
if is_map {
p.gen('$tmp')
mut def := type_default(typ)
if def == 'STRUCT_DEFAULT_VALUE' {
def = '{0}'
}
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p.cgen.insert_before('$typ $tmp = $def; bool $tmp_ok = map_get($index_expr, & $tmp);')
}
else if is_arr {
if p.pref.translated && !p.builtin_pkg {
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p.gen('$index_expr ]')
}
else {
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if is_ptr {
p.gen('( *($typ*) array__get(* $index_expr) )')
} else {
p.gen('( *($typ*) array__get($index_expr) )')
}
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}
}
else if is_str && !p.builtin_pkg {
p.gen('string_at($index_expr)')
}
// Zero the string after map_get() if it's nil, numbers are automatically 0
// This is ugly, but what can I do without generics?
// TODO what about user types?
if is_map && typ == 'string' {
// p.cgen.insert_before('if (!${tmp}.str) $tmp = tos("", 0);')
p.cgen.insert_before('if (!$tmp_ok) $tmp = tos("", 0);')
}
}
// else if is_arr && is_indexer{}
return typ
}
// returns resulting type
fn (p mut Parser) expression() string {
if p.scanner.file_path.contains('test_test') {
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println('expression() pass=$p.pass tok=')
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p.print_tok()
}
p.cgen('/* expr start*/')
ph := p.cgen.add_placeholder()
mut typ := p.term()
is_str := typ=='string'
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// a << b ==> array2_push(&a, b)
if p.tok == .left_shift {
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if typ.contains('array_') {
// Can't pass integer literal, because push requires a void*
// a << 7 => int tmp = 7; array_push(&a, &tmp);
// _PUSH(&a, expression(), tmp, string)
tmp := p.get_tmp()
tmp_typ := typ.right(6)// skip "array_"
p.check_space(.left_shift)
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// Get the value we are pushing
p.gen(', (')
// Imkey_mut? Can we push?
if !p.expr_var.is_mut && !p.pref.translated {
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p.error('`$p.expr_var.name` is immutable (can\'t <<)')
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}
if !p.expr_var.is_changed {
p.cur_fn.mark_var_changed(p.expr_var)
}
expr_type := p.expression()
// Two arrays of the same type?
push_array := typ == expr_type
if push_array {
p.cgen.set_placeholder(ph, '_PUSH_MANY(&' )
p.gen('), $tmp, $typ)')
} else {
p.check_types(expr_type, tmp_typ)
// Pass tmp var info to the _PUSH macro
// Prepend tmp initialisation and push call
// Don't dereference if it's already a key_mut array argument (`fn foo(mut []int)`)
push_call := if typ.contains('*'){'_PUSH('} else { '_PUSH(&'}
p.cgen.set_placeholder(ph, push_call)
p.gen('), $tmp, $tmp_typ)')
}
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return 'void'
}
else {
p.next()
p.gen(' << ')
p.check_types(p.expression(), typ)
return 'int'
}
}
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// `a in [1, 2, 3]`
// `key in map`
if p.tok == .key_in {
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p.fgen(' ')
p.check(.key_in)
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p.fgen(' ')
p.gen(', ')
arr_typ := p.expression()
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is_map := arr_typ.starts_with('map_')
if !arr_typ.starts_with('array_') && !is_map {
p.error('`in` requires an array/map')
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}
T := p.table.find_type(arr_typ)
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if !is_map && !T.has_method('contains') {
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p.error('$arr_typ has no method `contains`')
}
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// `typ` is element's type
if is_map {
p.cgen.set_placeholder(ph, '_IN_MAP( ')
}
else {
p.cgen.set_placeholder(ph, '_IN($typ, ')
}
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p.gen(')')
return 'bool'
}
if p.tok == .righ_shift {
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p.next()
p.gen(' >> ')
p.check_types(p.expression(), typ)
return 'int'
}
if p.tok == .dot {
for p.tok == .dot {
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typ = p.dot(typ, ph)
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}
}
// + - |
for p.tok == .plus || p.tok == .minus || p.tok == .pipe || p.tok == .amp || p.tok == .xor {
// for p.tok in [.plus, .minus, .pipe, .amp, .xor] {
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tok_op := p.tok
is_num := typ == 'void*' || typ == 'byte*' || is_number_type(typ)
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p.check_space(p.tok)
if is_str && tok_op == .plus {
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p.cgen.set_placeholder(ph, 'string_add(')
p.gen(',')
}
// 3 + 4
else if is_num {
if typ == 'void*' {
// Msvc errors on void* pointer arithmatic
// ... So cast to byte* and then do the add
p.cgen.set_placeholder(ph, '(byte*)')
}
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p.gen(tok_op.str())
}
// Vec + Vec
else {
if p.pref.translated {
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p.gen(tok_op.str() + ' /*doom hack*/')// TODO hack to fix DOOM's angle_t
}
else {
p.gen(',')
}
}
p.check_types(p.term(), typ)
if is_str && tok_op == .plus {
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p.gen(')')
}
// Make sure operators are used with correct types
if !p.pref.translated && !is_str && !is_num {
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T := p.table.find_type(typ)
if tok_op == .plus {
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if T.has_method('+') {
p.cgen.set_placeholder(ph, typ + '_plus(')
p.gen(')')
}
else {
p.error('operator + not defined on `$typ`')
}
}
else if tok_op == .minus {
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if T.has_method('-') {
p.cgen.set_placeholder(ph, '${typ}_minus(')
p.gen(')')
}
else {
p.error('operator - not defined on `$typ`')
}
}
}
}
return typ
}
fn (p mut Parser) term() string {
line_nr := p.scanner.line_nr
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//if p.fileis('fn_test') {
//println('\nterm() $line_nr')
//}
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typ := p.unary()
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//if p.fileis('fn_test') {
//println('2: $line_nr')
//}
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// `*` on a newline? Can't be multiplication, only dereference
if p.tok == .mul && line_nr != p.scanner.line_nr {
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return typ
}
for p.tok == .mul || p.tok == .div || p.tok == .mod {
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tok := p.tok
is_div := tok == .div
is_mod := tok == .mod
// is_mul := tok == .mod
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p.next()
p.gen(tok.str())// + ' /*op2*/ ')
p.fgen(' ' + tok.str() + ' ')
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if is_div && p.tok == .number && p.lit == '0' {
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p.error('division by zero')
}
if is_mod && (is_float_type(typ) || !is_number_type(typ)) {
p.error('operator .mod requires integer types')
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}
p.check_types(p.unary(), typ)
}
return typ
}
fn (p mut Parser) unary() string {
mut typ := ''
tok := p.tok
switch tok {
case Token.not:
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p.gen('!')
p.check(.not)
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typ = 'bool'
p.bool_expression()
case Token.bit_not:
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p.gen('~')
p.check(.bit_not)
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typ = p.bool_expression()
default:
typ = p.factor()
}
return typ
}
fn (p mut Parser) factor() string {
mut typ := ''
tok := p.tok
switch tok {
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case .number:
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typ = 'int'
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// Check if float (`1.0`, `1e+3`) but not if is hexa
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if (p.lit.contains('.') || (p.lit.contains('e') || p.lit.contains('E'))) &&
!(p.lit[0] == `0` && (p.lit[1] == `x` || p.lit[1] == `X`)) {
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typ = 'f32'
// typ = 'f64' // TODO
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} else {
v_u64 := p.lit.u64()
if u64(u32(v_u64)) < v_u64 {
typ = 'u64'
}
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}
if p.expected_type != '' && !is_valid_int_const(p.lit, p.expected_type) {
p.error('constant `$p.lit` overflows `$p.expected_type`')
}
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p.gen(p.lit)
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p.fgen(p.lit)
case Token.minus:
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p.gen('-')
p.fgen('-')
p.next()
return p.factor()
// Variable
case Token.key_sizeof:
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p.gen('sizeof(')
p.fgen('sizeof(')
p.next()
p.check(.lpar)
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mut sizeof_typ := p.get_type()
if sizeof_typ.ends_with('*') {
// Move * from the end to the beginning, as C requires
sizeof_typ = '*' + sizeof_typ.left(sizeof_typ.len - 1)
}
p.check(.rpar)
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p.gen('$sizeof_typ)')
p.fgen('$sizeof_typ)')
return 'int'
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case Token.amp, Token.dot, Token.mul:
// (dot is for enum vals: `.green`)
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return p.name_expr()
case Token.name:
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// map[string]int
if p.lit == 'map' && p.peek() == .lsbr {
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return p.map_init()
}
if p.lit == 'json' && p.peek() == .dot {
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return p.js_decode()
}
typ = p.name_expr()
return typ
case Token.key_default:
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p.next()
p.next()
name := p.check_name()
if name != 'T' {
p.error('default needs T')
}
p.gen('default(T)')
p.next()
return 'T'
case Token.lpar:
//p.gen('(/*lpar*/')
p.gen('(')
p.check(.lpar)
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typ = p.bool_expression()
// Hack. If this `)` referes to a ptr cast `(*int__)__`, it was already checked
// TODO: fix parser so that it doesn't think it's a par expression when it sees `(` in
// __(__*int)(
if !p.ptr_cast {
p.check(.rpar)
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}
p.ptr_cast = false
p.gen(')')
return typ
case Token.chartoken:
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p.char_expr()
typ = 'byte'
return typ
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case Token.str:
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p.string_expr()
typ = 'string'
return typ
case Token.key_false:
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typ = 'bool'
p.gen('0')
p.fgen('false')
case Token.key_true:
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typ = 'bool'
p.gen('1')
p.fgen('true')
case Token.lsbr:
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// `[1,2,3]` or `[]` or `[20]byte`
// TODO have to return because arrayInit does next()
// everything should do next()
return p.array_init()
case Token.lcbr:
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// `m := { 'one': 1 }`
if p.peek() == .str {
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return p.map_init()
}
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// { user | name :'new name' }
return p.assoc()
case Token.key_if:
typ = p.if_st(true, 0)
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return typ
default:
next := p.peek()
println('PREV=${p.prev_tok.str()}')
println('.neXT=${next.str()}')
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p.error('unexpected token: `${p.tok.str()}`')
}
p.next()// TODO everything should next()
return typ
}
// { user | name: 'new name' }
fn (p mut Parser) assoc() string {
// println('assoc()')
p.next()
name := p.check_name()
if !p.cur_fn.known_var(name) {
p.error('unknown variable `$name`')
}
var := p.cur_fn.find_var(name)
p.check(.pipe)
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p.gen('($var.typ){')
mut fields := []string// track the fields user is setting, the rest will be copied from the old object
for p.tok != .rcbr {
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field := p.check_name()
fields << field
p.gen('.$field = ')
p.check(.colon)
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p.bool_expression()
p.gen(',')
if p.tok != .rcbr {
p.check(.comma)
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}
}
// Copy the rest of the fields
T := p.table.find_type(var.typ)
for ffield in T.fields {
f := ffield.name
if f in fields {
continue
}
p.gen('.$f = $name . $f,')
}
p.check(.rcbr)
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p.gen('}')
return var.typ
}
fn (p mut Parser) char_expr() {
p.gen('\'$p.lit\'')
p.next()
}
fn format_str(str string) string {
str = str.replace('"', '\\"')
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$if windows {
str = str.replace('\r\n', '\\n')
}
str = str.replace('\n', '\\n')
return str
}
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fn (p mut Parser) string_expr() {
str := p.lit
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// No ${}, just return a simple string
if p.peek() != .dollar {
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p.fgen('\'$str\'')
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f := format_str(str)
// `C.puts('hi')` => `puts("hi");`
if p.calling_c || (p.pref.translated && p.mod == 'main') {
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p.gen('"$f"')
}
else {
p.gen('tos2((byte*)"$f")')
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}
p.next()
return
}
// tmp := p.get_tmp()
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p.is_alloc = true // $ interpolation means there's allocation
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mut args := '"'
mut format := '"'
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p.fgen('\'')
mut complex_inter := false // for vfmt
for p.tok == .str {
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// Add the string between %d's
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p.fgen(p.lit)
p.lit = p.lit.replace('%', '%%')
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format += format_str(p.lit)
p.next()// skip $
if p.tok != .dollar {
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continue
}
// Handle .dollar
2019-07-16 17:59:07 +02:00
p.check(.dollar)
// If there's no string after current token, it means we are in
// a complex expression (`${...}`)
if p.peek() != .str {
p.fgen('{')
complex_inter = true
}
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// Get bool expr inside a temp var
p.cgen.start_tmp()
typ := p.bool_expression()
mut val := p.cgen.end_tmp()
val = val.trim_space()
args += ', $val'
if typ == 'string' {
// args += '.str'
// printf("%.*s", a.len, a.str) syntax
args += '.len, ${val}.str'
}
if typ == 'ustring' {
args += '.len, ${val}.s.str'
}
// Custom format? ${t.hour:02d}
custom := p.tok == .colon
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if custom {
format += '%'
p.next()
if p.tok == .dot {
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format += '.'
p.next()
}
format += p.lit// 02
p.next()
format += p.lit// f
// println('custom str F=$format')
p.next()
}
else {
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f := p.typ_to_fmt(typ, 0)
if f == '' {
p.error('unhandled sprintf format "$typ" ')
}
format += f
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}
}
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if complex_inter {
p.fgen('}')
}
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p.fgen('\'')
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// println("hello %d", num) optimization.
if p.cgen.nogen {
return
}
// println: don't allocate a new string, just print it.
$if !windows {
cur_line := p.cgen.cur_line.trim_space()
if cur_line.contains('println (') && p.tok != .plus &&
!cur_line.contains('string_add') && !cur_line.contains('eprintln') {
p.cgen.resetln(cur_line.replace('println (', 'printf('))
p.gen('$format\\n$args')
return
}
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}
// '$age'! means the user wants this to be a tmp string (uses global buffer, no allocation,
// won't be used again)
if p.tok == .not {
p.check(.not)
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p.gen('_STR_TMP($format$args)')
}
else {
// Otherwise do ugly len counting + allocation + sprintf
p.gen('_STR($format$args)')
}
}
// m := map[string]int{}
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// m := { 'one': 1 }
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fn (p mut Parser) map_init() string {
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// m := { 'one': 1, 'two': 2 }
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mut keys_gen := '' // (string[]){tos2("one"), tos2("two")}
mut vals_gen := '' // (int[]){1, 2}
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mut val_type := '' // 'int'
if p.tok == .lcbr {
p.check(.lcbr)
mut i := 0
for {
key := p.lit
keys_gen += 'tos2("$key"), '
p.check(.str)
p.check(.colon)
p.cgen.start_tmp()
t := p.bool_expression()
if i == 0 {
val_type = t
}
i++
if val_type != t {
if !p.check_types_no_throw(val_type, t) {
p.error('bad map element type `$val_type` instead of `$t`')
}
}
val_expr := p.cgen.end_tmp()
vals_gen += '$val_expr, '
if p.tok == .rcbr {
p.check(.rcbr)
break
}
if p.tok == .comma {
p.check(.comma)
}
}
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p.gen('new_map_init($i, sizeof($val_type), ' +
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'(string[]){ $keys_gen }, ($val_type []){ $vals_gen } )')
typ := 'map_$val_type'
return typ
}
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p.next()
p.check(.lsbr)
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key_type := p.check_name()
if key_type != 'string' {
p.error('only string key maps allowed for now')
}
p.check(.rsbr)
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val_type = p.check_name()
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if !p.table.known_type(val_type) {
p.error('map init unknown type "$val_type"')
}
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typ := 'map_$val_type'
p.register_map(typ)
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p.gen('new_map(1, sizeof($val_type))')
p.check(.lcbr)
p.check(.rcbr)
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return typ
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}
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// `nums := [1, 2, 3]`
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fn (p mut Parser) array_init() string {
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p.is_alloc = true
p.check(.lsbr)
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is_integer := p.tok == .number
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lit := p.lit
mut typ := ''
new_arr_ph := p.cgen.add_placeholder()
mut i := 0
pos := p.cgen.cur_line.len// remember cur line to fetch first number in cgen for [0; 10]
for p.tok != .rsbr {
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val_typ := p.bool_expression()
// Get type of the first expression
if i == 0 {
typ = val_typ
// fixed width array initialization? (`arr := [20]byte`)
if is_integer && p.tok == .rsbr && p.peek() == .name {
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nextc := p.scanner.text[p.scanner.pos + 1]
// TODO whitespace hack
// Make sure there's no space in `[10]byte`
if !nextc.is_space() {
p.check(.rsbr)
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name := p.check_name()
if p.table.known_type(name) {
p.cgen.resetln('')
p.gen('STRUCT_DEFAULT_VALUE')
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return '[$lit]$name'
}
else {
p.error('bad type `$name`')
}
}
}
}
if val_typ != typ {
if !p.check_types_no_throw(val_typ, typ) {
p.error('bad array element type `$val_typ` instead of `$typ`')
}
}
if p.tok != .rsbr && p.tok != .semicolon {
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p.gen(', ')
p.check(.comma)
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p.fspace()
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}
i++
// Repeat (a = [0;5] )
if i == 1 && p.tok == .semicolon {
p.check_space(.semicolon)
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val := p.cgen.cur_line.right(pos)
// p.cgen.cur_line = ''
p.cgen.resetln(p.cgen.cur_line.left(pos))
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// Special case for zero
if false && val.trim_space() == '0' {
p.gen('array_repeat( & V_ZERO, ')
}
else {
tmp := p.get_tmp()
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p.cgen.insert_before('$typ $tmp = $val;')
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p.gen('array_repeat(&$tmp, ')
}
p.check_types(p.bool_expression(), 'int')
p.gen(', sizeof($typ) )')
p.check(.rsbr)
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return 'array_$typ'
}
}
p.check(.rsbr)
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// type after `]`? (e.g. "[]string")
if p.tok != .name && i == 0 {
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p.error('specify array type: `[]typ` instead of `[]`')
}
if p.tok == .name && i == 0 {
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// vals.len == 0 {
typ = p.get_type()
// println('.key_goT TYP after [] $typ')
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}
// ! after array => no malloc and no copy
no_alloc := p.tok == .not
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if no_alloc {
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p.next()
}
// [1,2,3]!! => [3]int{1,2,3}
is_fixed_size := p.tok == .not
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if is_fixed_size {
p.next()
p.gen(' }')
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if !p.first_pass() {
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// If we are defining a const array, we don't need to specify the type:
// `a = {1,2,3}`, not `a = (int[]) {1,2,3}`
if p.inside_const {
p.cgen.set_placeholder(new_arr_ph, '{ ')
}
else {
p.cgen.set_placeholder(new_arr_ph, '($typ[]) { ')
}
}
return '[$i]$typ'
}
// if ptr {
// typ += '_ptr"
// }
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mut new_arr := 'new_array_from_c_array'
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if no_alloc {
new_arr += '_no_alloc'
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}
p.gen(' })')
// p.gen('$new_arr($vals.len, $vals.len, sizeof($typ), ($typ[]) $c_arr );')
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// TODO why need !first_pass()?? Otherwise it goes to the very top of the out.c file
if !p.first_pass() {
if i == 0 {
p.cgen.set_placeholder(new_arr_ph, '$new_arr($i, $i, sizeof($typ), ($typ[]) {EMPTY_STRUCT_INIT ')
} else {
p.cgen.set_placeholder(new_arr_ph, '$new_arr($i, $i, sizeof($typ), ($typ[]) { ')
}
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}
typ = 'array_$typ'
p.register_array(typ)
return typ
}
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fn (p mut Parser) struct_init(typ string, is_c_struct_init bool) string {
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p.is_struct_init = true
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p.next()
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p.scanner.fmt_out.cut(typ.len)
ptr := typ.contains('*')
// TODO tm struct struct bug
if typ == 'tm' {
p.cgen.lines[p.cgen.lines.len-1] = ''
p.cgen.lines[p.cgen.lines.len-2] = ''
}
p.check(.lcbr)
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// tmp := p.get_tmp()
if !ptr {
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if p.is_c_struct_init {
p.gen('(struct $typ) {')
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p.is_c_struct_init = false
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}
else {
p.gen('($typ) {')
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}
}
else {
// TODO tmp hack for 0 pointers init
// &User{!} ==> 0
if p.tok == .not {
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p.next()
p.gen('0')
p.check(.rcbr)
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return typ
}
no_star := typ.replace('*', '')
p.gen('ALLOC_INIT($no_star, {')
}
mut did_gen_something := false
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// Loop thru all struct init keys and assign values
// u := User{age:20, name:'bob'}
// Remember which fields were set, so that we dont have to zero them later
mut inited_fields := []string
peek := p.peek()
if peek == .colon || p.tok == .rcbr {
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t := p.table.find_type(typ)
for p.tok != .rcbr {
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field := p.check_name()
if !t.has_field(field) {
p.error('`$t.name` has no field `$field`')
}
f := t.find_field(field)
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inited_fields << field
p.gen('.$field = ')
p.check(.colon)
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p.fspace()
p.check_types(p.bool_expression(), f.typ)
if p.tok == .comma {
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p.next()
}
if p.tok != .rcbr {
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p.gen(',')
}
p.fgenln('')
did_gen_something = true
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}
// If we already set some fields, need to prepend a comma
if t.fields.len != inited_fields.len && inited_fields.len > 0 {
p.gen(',')
}
// Zero values: init all fields (ints to 0, strings to '' etc)
for i, field in t.fields {
// println('### field.name')
// Skip if this field has already been assigned to
if inited_fields.contains(field.name) {
continue
}
field_typ := field.typ
if !p.builtin_pkg && field_typ.ends_with('*') && field_typ.contains('Cfg') {
p.error('pointer field `${typ}.${field.name}` must be initialized')
}
def_val := type_default(field_typ)
if def_val != '' && def_val != 'STRUCT_DEFAULT_VALUE' {
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p.gen('.$field.name = $def_val')
if i != t.fields.len - 1 {
p.gen(',')
}
}
did_gen_something = true
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}
}
// Point{3,4} syntax
else {
mut T := p.table.find_type(typ)
// Aliases (TODO Hack, implement proper aliases)
if T.fields.len == 0 && T.parent != '' {
T = p.table.find_type(T.parent)
}
for i, ffield in T.fields {
expr_typ := p.bool_expression()
if !p.check_types_no_throw(expr_typ, ffield.typ) {
p.error('field value #${i+1} `$ffield.name` has type `$ffield.typ`, got `$expr_typ` ')
}
if i < T.fields.len - 1 {
if p.tok != .comma {
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p.error('too few values in `$typ` literal (${i+1} instead of $T.fields.len)')
}
p.gen(',')
p.next()
}
}
// Allow `user := User{1,2,3,}`
// The final comma will be removed by vfmt, since we are not calling `p.fgen()`
if p.tok == .comma {
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p.next()
}
if p.tok != .rcbr {
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p.error('too many fields initialized: `$typ` has $T.fields.len field(s)')
}
did_gen_something = true
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}
if !did_gen_something {
p.gen('EMPTY_STRUCT_INIT')
}
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p.gen('}')
if ptr {
p.gen(')')
}
p.check(.rcbr)
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p.is_struct_init = false
return typ
}
// `f32(3)`
// tok is `f32` or `)` if `(*int)(ptr)`
fn (p mut Parser) cast(typ string) string {
p.next()
pos := p.cgen.add_placeholder()
if p.tok == .rpar {
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// skip `)` if it's `(*int)(ptr)`, not `int(a)`
p.ptr_cast = true
p.next()
}
p.check(.lpar)
p.expected_type = typ
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expr_typ := p.bool_expression()
p.expected_type = ''
// `string(buffer)` => `tos2(buffer)`
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// `string(buffer, len)` => `tos(buffer, len)`
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// `string(bytes_array, len)` => `tos(bytes_array.data, len)`
is_byteptr := expr_typ == 'byte*' || expr_typ == 'byteptr'
is_bytearr := expr_typ == 'array_byte'
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if typ == 'string' {
if is_byteptr || is_bytearr {
if p.tok == .comma {
p.check(.comma)
p.cgen.set_placeholder(pos, 'tos(')
if is_bytearr {
p.gen('.data')
}
p.gen(', ')
p.check_types(p.expression(), 'int')
} else {
if is_bytearr {
p.gen('.data')
}
p.cgen.set_placeholder(pos, 'tos2(')
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}
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}
// `string(234)` => error
else if expr_typ == 'int' {
p.error('cannot cast `$expr_typ` to `$typ`, use `str()` method instead')
}
else {
p.error('cannot cast `$expr_typ` to `$typ`')
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}
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}
else {
p.cgen.set_placeholder(pos, '($typ)(')
}
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p.check(.rpar)
p.gen(')')
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return typ
}
fn (p mut Parser) get_tmp() string {
p.tmp_cnt++
return 'tmp$p.tmp_cnt'
}
fn (p mut Parser) get_tmp_counter() int {
p.tmp_cnt++
return p.tmp_cnt
}
fn os_name_to_ifdef(name string) string {
switch name {
case 'windows': return '_WIN32'
case 'mac': return '__APPLE__'
case 'linux': return '__linux__'
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case 'freebsd': return '__FreeBSD__'
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case 'openbsd': return '__OpenBSD__'
case 'netbsd': return '__NetBSD__'
case 'dragonfly': return '__DragonFly__'
case 'msvc': return '_MSC_VER'
}
panic('bad os ifdef name "$name"')
return ''
}
fn (p mut Parser) if_st(is_expr bool, elif_depth int) string {
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if is_expr {
if p.fileis('if_expr') {
println('IF EXPR')
}
p.inside_if_expr = true
p.gen('(')
}
else {
p.gen('if (')
p.fgen('if ')
}
p.next()
p.check_types(p.bool_expression(), 'bool')
if is_expr {
p.gen(') ? (')
}
else {
p.genln(') {')
}
p.fgen(' ')
p.check(.lcbr)
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mut typ := ''
// if { if hack
if p.tok == .key_if && p.inside_if_expr {
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typ = p.factor()
p.next()
}
else {
typ = p.statements()
}
// println('IF TYp=$typ')
if p.tok == .key_else {
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p.fgenln('')
p.check(.key_else)
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p.fspace()
if p.tok == .key_if {
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if is_expr {
p.gen(') : (')
return p.if_st(is_expr, elif_depth + 1)
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}
else {
p.gen(' else ')
return p.if_st(is_expr, 0)
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}
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// return ''
}
if is_expr {
p.gen(') : (')
}
else {
p.genln(' else { ')
}
p.check(.lcbr)
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// statements() returns the type of the last statement
typ = p.statements()
p.inside_if_expr = false
if is_expr {
p.gen(strings.repeat(`)`, elif_depth + 1))
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}
return typ
}
p.inside_if_expr = false
if p.fileis('test_test') {
println('if ret typ="$typ" line=$p.scanner.line_nr')
}
return typ
}
fn (p mut Parser) for_st() {
p.check(.key_for)
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p.fgen(' ')
p.for_expr_cnt++
next_tok := p.peek()
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//debug := p.scanner.file_path.contains('r_draw')
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p.cur_fn.open_scope()
if p.tok == .lcbr {
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// Infinite loop
p.gen('while (1) {')
}
else if p.tok == .key_mut {
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p.error('`mut` is not required in for loops')
}
// for i := 0; i < 10; i++ {
else if next_tok == .decl_assign || next_tok == .assign || p.tok == .semicolon {
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p.genln('for (')
if next_tok == .decl_assign {
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p.var_decl()
}
else if p.tok != .semicolon {
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// allow `for ;; i++ {`
// Allow `for i = 0; i < ...`
p.statement(false)
}
p.check(.semicolon)
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p.gen(' ; ')
p.fgen(' ')
if p.tok != .semicolon {
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p.bool_expression()
}
p.check(.semicolon)
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p.gen(' ; ')
p.fgen(' ')
if p.tok != .lcbr {
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p.statement(false)
}
p.genln(') { ')
}
// for i, val in array
else if p.peek() == .comma {
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// for i, val in array { ==>
//
// array_int tmp = array;
// for (int i = 0; i < tmp.len; i++) {
// int val = tmp[i];
i := p.check_name()
p.check(.comma)
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val := p.check_name()
p.fgen(' ')
p.check(.key_in)
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p.fgen(' ')
tmp := p.get_tmp()
p.cgen.start_tmp()
typ := p.bool_expression()
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is_arr := typ.starts_with('array_')
is_map := typ.starts_with('map_')
is_str := typ == 'string'
if !is_arr && !is_str && !is_map {
p.error('cannot range over type `$typ`')
}
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expr := p.cgen.end_tmp()
p.genln('$typ $tmp = $expr ;')
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pad := if is_arr { 6 } else { 4 }
var_typ := typ.right(pad)
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// typ = strings.Replace(typ, "_ptr", "*", -1)
// Register temp var
val_var := Var {
name: val
typ: var_typ
ptr: typ.contains('*')
}
p.register_var(val_var)
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if is_arr || is_str {
i_var := Var {
name: i
typ: 'int'
// parent_fn: p.cur_fn
is_mut: true
is_changed: true
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}
p.register_var(i_var)
p.genln(';\nfor (int $i = 0; $i < $tmp .len; $i ++) {')
p.genln('$var_typ $val = (($var_typ *) $tmp . data)[$i];')
}
else if is_map {
i_var := Var {
name: i
typ: 'string'
is_mut: true
is_changed: true
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}
p.register_var(i_var)
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p.genln('array_string keys_$tmp = map_keys(& $tmp ); ')
p.genln('for (int l = 0; l < keys_$tmp .len; l++) {')
p.genln(' string $i = ((string*)keys_$tmp .data)[l];')
//p.genln(' string $i = *(string*) ( array__get(keys_$tmp, l) );')
mut def := type_default(typ)
if def == 'STRUCT_DEFAULT_VALUE' {
def = '{0}'
}
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// TODO don't call map_get() for each key, fetch values while traversing
// the tree (replace `map_keys()` above with `map_key_vals()`)
p.genln('$var_typ $val = $def; map_get($tmp, $i, & $val);')
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}
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}
// `for val in vals`
else if p.peek() == .key_in {
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val := p.check_name()
p.fgen(' ')
p.check(.key_in)
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p.fspace()
tmp := p.get_tmp()
p.cgen.start_tmp()
typ := p.bool_expression()
expr := p.cgen.end_tmp()
is_range := p.tok == .dotdot
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mut range_end := ''
if is_range {
p.check_types(typ, 'int')
p.check_space(.dotdot)
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p.cgen.start_tmp()
p.check_types(p.bool_expression(), 'int')
range_end = p.cgen.end_tmp()
}
is_arr := typ.contains('array')
is_str := typ == 'string'
if !is_arr && !is_str && !is_range {
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p.error('cannot range over type `$typ`')
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}
p.genln('$typ $tmp = $expr;')
// TODO var_type := if...
mut var_type := ''
if is_arr {
var_type = typ.right(6)// all after `array_`
}
else if is_str {
var_type = 'byte'
}
else if is_range {
var_type = 'int'
}
// println('for typ=$typ vartyp=$var_typ')
// Register temp var
val_var := Var {
name: val
typ: var_type
ptr: typ.contains('*')
is_changed: true
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}
p.register_var(val_var)
i := p.get_tmp()
if is_range {
p.genln(';\nfor (int $i = $tmp; $i < $range_end; $i++) {')
}
else {
p.genln(';\nfor (int $i = 0; $i < $tmp .len; $i ++) {')
}
if is_arr {
p.genln('$var_type $val = (($var_type *) ${tmp}.data)[$i];')
}
else if is_str {
p.genln('$var_type $val = (($var_type *) ${tmp}.str)[$i];')
}
else if is_range {
p.genln('$var_type $val = $i;')
}
}
else {
// `for a < b {`
p.gen('while (')
p.check_types(p.bool_expression(), 'bool')
p.genln(') {')
}
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p.fspace()
p.check(.lcbr)
p.genln('')
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p.statements()
p.close_scope()
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p.for_expr_cnt--
}
fn (p mut Parser) switch_statement() {
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if p.tok == .key_switch {
p.check(.key_switch)
} else {
p.check(.key_match)
}
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p.cgen.start_tmp()
typ := p.bool_expression()
expr := p.cgen.end_tmp()
p.check(.lcbr)
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mut i := 0
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for p.tok == .key_case || p.tok == .key_default || p.peek() == .arrow || p.tok == .key_else {
if p.tok == .key_default || p.tok == .key_else {
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p.genln('else { // default:')
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if p.tok == .key_default {
p.check(.key_default)
p.check(.colon)
} else {
p.check(.key_else)
p.check(.arrow)
}
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p.statements()
break
}
if i > 0 {
p.gen('else ')
}
p.gen('if (')
// Multiple checks separated by comma
mut got_comma := false
for {
if got_comma {
p.gen(') || ')
}
if typ == 'string' {
p.gen('string_eq($expr, ')
}
else {
p.gen('($expr == ')
}
if p.tok == .key_case || p.tok == .key_default {
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p.check(p.tok)
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}
p.bool_expression()
if p.tok != .comma {
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break
}
p.check(.comma)
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got_comma = true
}
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if p.tok == .colon {
p.check(.colon)
}
else {
p.check(.arrow)
}
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p.gen(')) {')
p.genln('/* case */')
p.statements()
i++
}
}
fn (p mut Parser) assert_statement() {
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if p.first_pass() {
return
}
p.check(.key_assert)
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p.fspace()
tmp := p.get_tmp()
p.gen('bool $tmp = ')
p.check_types(p.bool_expression(), 'bool')
// TODO print "expected: got" for failed tests
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filename := p.file_path.replace('\\', '\\\\')
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p.genln(';\n
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if (!$tmp) {
println(tos2("\\x1B[31mFAILED: $p.cur_fn.name() in $filename:$p.scanner.line_nr\\x1B[0m"));
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g_test_ok = 0 ;
// TODO
// Maybe print all vars in a test function if it fails?
}
else {
//puts("\\x1B[32mPASSED: $p.cur_fn.name()\\x1B[0m");
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}')
}
fn (p mut Parser) return_st() {
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p.check(.key_return)
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p.fgen(' ')
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fn_returns := p.cur_fn.typ != 'void'
if fn_returns {
if p.tok == .rcbr {
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p.error('`$p.cur_fn.name` needs to return `$p.cur_fn.typ`')
}
else {
ph := p.cgen.add_placeholder()
expr_type := p.bool_expression()
// Automatically wrap an object inside an option if the function returns an option
if p.cur_fn.typ.ends_with(expr_type) && p.cur_fn.typ.starts_with('Option_') {
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tmp := p.get_tmp()
ret := p.cgen.cur_line.right(ph)
p.cgen.cur_line = '$expr_type $tmp = OPTION_CAST($expr_type)($ret);'
p.cgen.resetln('$expr_type $tmp = OPTION_CAST($expr_type)($ret);')
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p.gen('return opt_ok(&$tmp, sizeof($expr_type))')
}
else {
ret := p.cgen.cur_line.right(ph)
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p.cgen(p.cur_fn.defer_text)
if p.cur_fn.defer_text == '' || expr_type == 'void*' {
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p.cgen.resetln('return $ret')
} else {
tmp := p.get_tmp()
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p.cgen.resetln('$expr_type $tmp = $ret;\n')
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p.genln(p.cur_fn.defer_text)
p.genln('return $tmp;')
}
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}
p.check_types(expr_type, p.cur_fn.typ)
}
}
else {
// Don't allow `return val` in functions that don't return anything
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if !p.is_vweb && (p.tok == .name || p.tok == .number || p.tok == .str) {
p.error('function `$p.cur_fn.name` should not return a value')
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}
if p.cur_fn.name == 'main' {
p.gen('return 0')
}
else {
p.gen('return')
}
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}
p.returns = true
}
fn prepend_pkg(pkg, name string) string {
return '${pkg}__${name}'
}
fn (p &Parser) prepend_pkg(name string) string {
return prepend_pkg(p.mod, name)
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}
fn (p mut Parser) go_statement() {
p.check(.key_go)
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// TODO copypasta of name_expr() ?
// Method
if p.peek() == .dot {
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var_name := p.lit
v := p.cur_fn.find_var(var_name)
p.cur_fn.mark_var_used(v)
p.next()
p.check(.dot)
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typ := p.table.find_type(v.typ)
method := p.table.find_method(typ, p.lit)
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p.async_fn_call(method, 0, var_name, v.typ)
}
// Normal function
else {
f := p.table.find_fn(p.lit)
if f.name == 'println' {
p.error('`go` cannot be used with `println`')
}
// println(f.name)
p.async_fn_call(f, 0, '', '')
}
}
fn (p mut Parser) register_var(v Var) {
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if v.line_nr == 0 {
v.line_nr = p.scanner.line_nr
}
p.cur_fn.register_var(v)
}
// user:=jsdecode(User, user_json_string)
fn (p mut Parser) js_decode() string {
p.check(.name)// json
p.check(.dot)
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op := p.check_name()
if op == 'decode' {
// User tmp2; tmp2.foo = 0; tmp2.bar = 0;// I forgot to zero vals before => huge bug
// Option_User tmp3 = jsdecode_User(json_parse( s), &tmp2); ;
// if (!tmp3 .ok) {
// return
// }
// User u = *(User*) tmp3 . data; // TODO remove this (generated in or {} block handler)
p.check(.lpar)
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typ := p.get_type()
p.check(.comma)
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p.cgen.start_tmp()
p.check_types(p.bool_expression(), 'string')
expr := p.cgen.end_tmp()
p.check(.rpar)
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tmp := p.get_tmp()
cjson_tmp := p.get_tmp()
mut decl := '$typ $tmp; '
// Init the struct
T := p.table.find_type(typ)
for field in T.fields {
def_val := type_default(field.typ)
if def_val != '' {
decl += '$tmp . $field.name = $def_val;\n'
}
}
p.gen_json_for_type(T)
decl += 'cJSON* $cjson_tmp = json__json_parse($expr);'
p.cgen.insert_before(decl)
// p.gen('jsdecode_$typ(json_parse($expr), &$tmp);')
p.gen('json__jsdecode_$typ($cjson_tmp, &$tmp); cJSON_Delete($cjson_tmp);')
opt_type := 'Option_$typ'
p.cgen.typedefs << 'typedef Option $opt_type;'
p.table.register_type(opt_type)
return opt_type
}
else if op == 'encode' {
p.check(.lpar)
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p.cgen.start_tmp()
typ := p.bool_expression()
T := p.table.find_type(typ)
p.gen_json_for_type(T)
expr := p.cgen.end_tmp()
p.check(.rpar)
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p.gen('json__json_print(json__jsencode_$typ($expr))')
return 'string'
}
else {
p.error('bad json op "$op"')
}
return ''
}
/*
fn (p &Parser) building_v() bool {
cur_dir := os.getwd()
return p.file_path.contains('v/compiler') || cur_dir.contains('v/compiler')
}
*/
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fn (p mut Parser) attribute() {
p.check(.lsbr)
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p.attr = p.check_name()
p.check(.rsbr)
if p.tok == .func {
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p.fn_decl()
p.attr = ''
return
}
else if p.tok == .key_struct {
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p.struct_decl()
p.attr = ''
return
}
p.error('bad attribute usage')
}
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fn (p mut Parser) defer_st() {
p.check(.key_defer)
p.check(.lcbr)
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pos := p.cgen.lines.len
// Save everything inside the defer block to `defer_text`.
// It will be inserted before every `return`
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p.genln('{')
p.statements()
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p.cur_fn.defer_text = p.cgen.lines.right(pos).join('\n') + p.cur_fn.defer_text
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// Rollback p.cgen.lines
p.cgen.lines = p.cgen.lines.left(pos)
p.cgen.resetln('')
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}