use std::fs::File; use std::io::Write; use erg_common::config::ErgConfig; use erg_common::error::MultiErrorDisplay; use erg_common::log; use erg_common::traits::{Runnable, Stream}; use erg_common::Str; use erg_parser::ast::{ParamPattern, TypeSpec, VarName}; use erg_parser::token::TokenKind; use crate::artifact::{ BuildRunnable, Buildable, CompleteArtifact, ErrorArtifact, IncompleteArtifact, }; use crate::build_hir::HIRBuilder; use crate::codegen::PyCodeGenerator; use crate::context::{Context, ContextProvider, ModuleContext}; use crate::desugar_hir::HIRDesugarer; use crate::error::{CompileError, CompileErrors}; use crate::hir::{ Accessor, Args, Array, BinOp, Block, Call, ClassDef, Def, Dict, Expr, Identifier, Lambda, Literal, Params, PatchDef, ReDef, Record, Set, Signature, Tuple, UnaryOp, HIR, }; use crate::link::Linker; use crate::module::SharedCompilerResource; use crate::ty::value::ValueObj; use crate::ty::Type; use crate::varinfo::VarInfo; /// patch method -> function /// patch attr -> variable fn debind(ident: &Identifier) -> Option { match ident.vi.py_name.as_ref().map(|s| &s[..]) { Some(name) if name.starts_with("Function::") => { Some(Str::from(name.replace("Function::", ""))) } Some(patch_method) if patch_method.contains("::") || patch_method.contains('.') => { if ident.vis().is_private() { Some(Str::from(format!("{patch_method}__"))) } else { Some(Str::rc(patch_method)) } } _ => None, } } fn demangle(name: &str) -> String { name.trim_start_matches("::") .replace("::", "__") .replace('.', "_") } // TODO: fn replace_non_symbolic(name: String) -> String { name.replace('\'', "__single_quote__") .replace(' ', "__space__") .replace('+', "__plus__") .replace('-', "__minus__") .replace('*', "__star__") .replace('/', "__slash__") .replace('%', "__percent__") .replace('!', "__erg_proc__") .replace('$', "erg_shared__") } #[derive(Debug)] pub enum LastLineOperation { Discard, Return, StoreTmp(Str), } use LastLineOperation::*; impl LastLineOperation { pub const fn is_return(&self) -> bool { matches!(self, LastLineOperation::Return) } pub const fn is_store_tmp(&self) -> bool { matches!(self, LastLineOperation::StoreTmp(_)) } } #[derive(Debug, Clone)] pub struct PyScript { pub filename: Str, pub code: String, } /// Generates a `PyScript` from an String or other File inputs. #[derive(Debug)] pub struct Transpiler { pub cfg: ErgConfig, builder: HIRBuilder, shared: SharedCompilerResource, script_generator: ScriptGenerator, } impl Default for Transpiler { fn default() -> Self { Self::new(ErgConfig::default()) } } impl Runnable for Transpiler { type Err = CompileError; type Errs = CompileErrors; const NAME: &'static str = "Erg transpiler"; fn new(cfg: ErgConfig) -> Self { let shared = SharedCompilerResource::new(cfg.copy()); Self { shared: shared.clone(), builder: HIRBuilder::new_with_cache(cfg.copy(), "", shared), script_generator: ScriptGenerator::new(), cfg, } } #[inline] fn cfg(&self) -> &ErgConfig { &self.cfg } #[inline] fn cfg_mut(&mut self) -> &mut ErgConfig { &mut self.cfg } #[inline] fn finish(&mut self) {} fn initialize(&mut self) { self.builder.initialize(); // mod_cache will be cleared by the builder // self.mod_cache.initialize(); } fn clear(&mut self) { self.builder.clear(); } fn exec(&mut self) -> Result { let mut path = self.cfg.dump_path(); path.set_extension("py"); let src = self.cfg.input.read(); let artifact = self.transpile(src, "exec").map_err(|eart| { eart.warns.fmt_all_stderr(); eart.errors })?; artifact.warns.fmt_all_stderr(); let mut f = File::create(path).unwrap(); f.write_all(artifact.object.code.as_bytes()).unwrap(); Ok(0) } fn eval(&mut self, src: String) -> Result { let artifact = self.transpile(src, "eval").map_err(|eart| { eart.warns.fmt_all_stderr(); eart.errors })?; artifact.warns.fmt_all_stderr(); Ok(artifact.object.code) } } impl ContextProvider for Transpiler { fn dir(&self) -> Vec<(&VarName, &VarInfo)> { self.builder.dir() } fn get_receiver_ctx(&self, receiver_name: &str) -> Option<&Context> { self.builder.get_receiver_ctx(receiver_name) } fn get_var_info(&self, name: &str) -> Option<(&VarName, &VarInfo)> { self.builder.get_var_info(name) } } impl Buildable for Transpiler { fn inherit(cfg: ErgConfig, shared: SharedCompilerResource) -> Self { let mod_name = Str::from(cfg.input.file_stem()); Self { shared: shared.clone(), builder: HIRBuilder::new_with_cache(cfg.copy(), mod_name, shared), script_generator: ScriptGenerator::new(), cfg, } } fn build( &mut self, src: String, mode: &str, ) -> Result, IncompleteArtifact> { self.transpile(src, mode) .map_err(|err| IncompleteArtifact::new(None, err.errors, err.warns)) } fn pop_context(&mut self) -> Option { self.builder.pop_context() } fn get_context(&self) -> Option<&ModuleContext> { self.builder.get_context() } } impl BuildRunnable for Transpiler {} impl Transpiler { pub fn transpile( &mut self, src: String, mode: &str, ) -> Result, ErrorArtifact> { log!(info "the transpiling process has started."); let artifact = self.build_link_desugar(src, mode)?; let script = self.script_generator.transpile(artifact.object); log!(info "code:\n{}", script.code); log!(info "the transpiling process has completed"); Ok(CompleteArtifact::new(script, artifact.warns)) } fn build_link_desugar( &mut self, src: String, mode: &str, ) -> Result { let artifact = self.builder.build(src, mode)?; let linker = Linker::new(&self.cfg, &self.shared.mod_cache); let hir = linker.link(artifact.object); let desugared = HIRDesugarer::desugar(hir); Ok(CompleteArtifact::new(desugared, artifact.warns)) } pub fn pop_mod_ctx(&mut self) -> Option { self.builder.pop_mod_ctx() } pub fn dir(&mut self) -> Vec<(&VarName, &VarInfo)> { ContextProvider::dir(self) } pub fn get_receiver_ctx(&self, receiver_name: &str) -> Option<&Context> { ContextProvider::get_receiver_ctx(self, receiver_name) } pub fn get_var_info(&self, name: &str) -> Option<(&VarName, &VarInfo)> { ContextProvider::get_var_info(self, name) } } #[derive(Debug, Default)] pub struct ScriptGenerator { level: usize, fresh_var_n: usize, namedtuple_loaded: bool, mutate_op_loaded: bool, in_op_loaded: bool, range_ops_loaded: bool, builtin_types_loaded: bool, builtin_control_loaded: bool, convertors_loaded: bool, prelude: String, } impl ScriptGenerator { pub const fn new() -> Self { Self { level: 0, fresh_var_n: 0, namedtuple_loaded: false, mutate_op_loaded: false, in_op_loaded: false, range_ops_loaded: false, builtin_types_loaded: false, builtin_control_loaded: false, convertors_loaded: false, prelude: String::new(), } } pub fn transpile(&mut self, hir: HIR) -> PyScript { let mut code = String::new(); for chunk in hir.module.into_iter() { code += &self.transpile_expr(chunk); code.push('\n'); } code = std::mem::take(&mut self.prelude) + &code; PyScript { filename: hir.name, code, } } // TODO: more smart way fn replace_import(src: &str) -> String { src.replace("from _erg_nat import NatMut", "") .replace("from _erg_nat import Nat", "") .replace("from _erg_int import IntMut", "") .replace("from _erg_int import Int", "") .replace("from _erg_bool import BoolMut", "") .replace("from _erg_bool import Bool", "") .replace("from _erg_str import StrMut", "") .replace("from _erg_str import Str", "") .replace("from _erg_float import FloatMut", "") .replace("from _erg_float import Float", "") .replace("from _erg_array import Array", "") .replace("from _erg_range import Range", "") .replace("from _erg_result import Error", "") .replace("from _erg_result import is_ok", "") .replace("from _erg_control import then__", "") } fn load_namedtuple_if_not(&mut self) { if !self.namedtuple_loaded { self.prelude += "from collections import namedtuple as NamedTuple__\n"; self.namedtuple_loaded = true; } } // TODO: name escaping fn load_range_ops_if_not(&mut self) { if !self.range_ops_loaded { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_result.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_int.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_nat.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_str.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_range.py")); self.range_ops_loaded = true; } } fn load_in_op_if_not(&mut self) { if !self.in_op_loaded { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_result.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_range.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_in_operator.py")); self.in_op_loaded = true; } } fn load_mutate_op_if_not(&mut self) { if !self.mutate_op_loaded { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_mutate_operator.py")); self.mutate_op_loaded = true; } } fn load_builtin_types_if_not(&mut self) { if !self.builtin_types_loaded { self.load_builtin_controls_if_not(); if self.range_ops_loaded { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_float.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_array.py")); } else if self.in_op_loaded { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_int.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_nat.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_bool.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_str.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_float.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_array.py")); } else { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_result.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_int.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_nat.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_bool.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_str.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_float.py")); self.prelude += &Self::replace_import(include_str!("lib/std/_erg_array.py")); } self.builtin_types_loaded = true; } } fn load_builtin_controls_if_not(&mut self) { if !self.builtin_control_loaded { self.prelude += include_str!("lib/std/_erg_control.py"); self.builtin_control_loaded = true; } } fn load_convertors_if_not(&mut self) { if !self.convertors_loaded { self.prelude += &Self::replace_import(include_str!("lib/std/_erg_convertors.py")); self.convertors_loaded = true; } } fn escape_str(s: &str) -> String { s.replace('\n', "\\n") .replace('\r', "\\r") .replace('\t', "\\t") .replace('\'', "\\'") .replace('\0', "\\0") } fn transpile_expr(&mut self, expr: Expr) -> String { match expr { Expr::Lit(lit) => self.transpile_lit(lit), Expr::Call(call) => self.transpile_call(call), Expr::BinOp(bin) => self.transpile_binop(bin), Expr::UnaryOp(unary) => self.transpile_unaryop(unary), Expr::Array(array) => match array { Array::Normal(arr) => { let mut code = "[".to_string(); for elem in arr.elems.pos_args { code += &format!("{},", self.transpile_expr(elem.expr)); } code += "]"; code } other => todo!("transpiling {other}"), }, Expr::Set(set) => match set { Set::Normal(st) => { let mut code = "{".to_string(); for elem in st.elems.pos_args { code += &format!("{},", self.transpile_expr(elem.expr)); } code += "}"; code } other => todo!("transpiling {other}"), }, Expr::Record(rec) => self.transpile_record(rec), Expr::Tuple(tuple) => match tuple { Tuple::Normal(tup) => { let mut code = "(".to_string(); for elem in tup.elems.pos_args { code += &format!("{},", self.transpile_expr(elem.expr)); } code += ")"; code } }, Expr::Dict(dict) => match dict { Dict::Normal(dic) => { let mut code = "{".to_string(); for kv in dic.kvs { code += &format!( "({}): ({}),", self.transpile_expr(kv.key), self.transpile_expr(kv.value) ); } code += "}"; code } other => todo!("transpiling {other}"), }, Expr::Accessor(acc) => self.transpile_acc(acc), Expr::Def(def) => self.transpile_def(def), Expr::Lambda(lambda) => self.transpile_lambda(lambda), Expr::ClassDef(classdef) => self.transpile_classdef(classdef), Expr::PatchDef(patchdef) => self.transpile_patchdef(patchdef), Expr::ReDef(redef) => self.transpile_attrdef(redef), // TODO: Expr::Compound(comp) => { let mut code = "".to_string(); for expr in comp.into_iter() { code += &self.transpile_expr(expr); code += &format!("\n{}", " ".repeat(self.level)); } code } Expr::Import(acc) => { let full_name = Str::from(acc.show()); let root = PyCodeGenerator::get_root(&acc); self.prelude += &format!( "{} = __import__(\"{full_name}\")\n", Self::transpile_ident(root) ); String::new() } Expr::TypeAsc(tasc) => self.transpile_expr(*tasc.expr), Expr::Code(_) => todo!("transpiling importing user-defined code"), Expr::Dummy(_) => "".to_string(), } } fn transpile_lit(&mut self, lit: Literal) -> String { let escaped = Self::escape_str(&lit.token.content); if matches!( &lit.value, ValueObj::Bool(_) | ValueObj::Int(_) | ValueObj::Nat(_) | ValueObj::Str(_) ) { self.load_builtin_types_if_not(); format!("{}({escaped})", lit.value.class()) } else { escaped } } fn transpile_record(&mut self, rec: Record) -> String { self.load_namedtuple_if_not(); let mut attrs = "[".to_string(); let mut values = "(".to_string(); for mut attr in rec.attrs.into_iter() { attrs += &format!("'{}',", Self::transpile_ident(attr.sig.into_ident())); if attr.body.block.len() > 1 { let name = format!("instant_block_{}__", self.fresh_var_n); self.fresh_var_n += 1; let mut code = format!("def {name}():\n"); code += &self.transpile_block(attr.body.block, Return); self.prelude += &code; values += &format!("{name}(),"); } else { let expr = attr.body.block.remove(0); values += &format!("{},", self.transpile_expr(expr)); } } attrs += "]"; values += ")"; format!("NamedTuple__('Record', {attrs}){values}") } fn transpile_binop(&mut self, bin: BinOp) -> String { match bin.op.kind { TokenKind::Closed | TokenKind::LeftOpen | TokenKind::RightOpen | TokenKind::Open => { self.load_range_ops_if_not(); let mut code = match bin.op.kind { TokenKind::Closed => "ClosedRange(", TokenKind::LeftOpen => "LeftOpenRange(", TokenKind::RightOpen => "RightOpenRange(", TokenKind::Open => "OpenRange(", _ => unreachable!(), } .to_string(); code += &self.transpile_expr(*bin.lhs); code.push(','); code += &self.transpile_expr(*bin.rhs); code.push(')'); code } TokenKind::InOp => { self.load_in_op_if_not(); let mut code = "in_operator(".to_string(); code += &self.transpile_expr(*bin.lhs); code.push(','); code += &self.transpile_expr(*bin.rhs); code.push(')'); code } _ => { let mut code = "(".to_string(); code += &self.transpile_expr(*bin.lhs); code.push(' '); code += &bin.op.content; code.push(' '); code += &self.transpile_expr(*bin.rhs); code += ")"; code } } } fn transpile_unaryop(&mut self, unary: UnaryOp) -> String { let mut code = "".to_string(); if unary.op.kind == TokenKind::Mutate { self.load_mutate_op_if_not(); code += "mutate_operator("; } else { code += "("; code += &unary.op.content; } code += &self.transpile_expr(*unary.expr); code += ")"; code } fn transpile_acc(&mut self, acc: Accessor) -> String { match acc { Accessor::Ident(ident) => { match &ident.inspect()[..] { "Str" | "Bool" | "Nat" | "Array" => { self.load_builtin_types_if_not(); } "if" | "if!" | "for!" | "while" | "discard" => { self.load_builtin_controls_if_not(); } "int" | "nat" | "float" | "str" => { self.load_convertors_if_not(); } _ => {} } Self::transpile_ident(ident) } Accessor::Attr(attr) => { if let Some(name) = debind(&attr.ident) { demangle(&name) } else { format!( "({}).{}", self.transpile_expr(*attr.obj), Self::transpile_ident(attr.ident) ) } } } } fn transpile_call(&mut self, mut call: Call) -> String { match call.obj.local_name() { Some("assert") => { let mut code = format!("assert {}", self.transpile_expr(call.args.remove(0))); if let Some(msg) = call.args.try_remove(0) { code += &format!(", {}", self.transpile_expr(msg)); } code } Some("not") => format!("(not ({}))", self.transpile_expr(call.args.remove(0))), Some("if" | "if!") => self.transpile_if(call), Some("for" | "for!") => { let mut code = "for ".to_string(); let iter = call.args.remove(0); let Expr::Lambda(block) = call.args.remove(0) else { todo!() }; let non_default = block.params.non_defaults.get(0).unwrap(); let ParamPattern::VarName(param) = &non_default.raw.pat else { todo!() }; code += &format!("{}__ ", ¶m.token().content); code += &format!("in {}:\n", self.transpile_expr(iter)); code += &self.transpile_block(block.body, Discard); code } Some("while" | "while!") => { let mut code = "while ".to_string(); let cond = call.args.remove(0); let Expr::Lambda(block) = call.args.remove(0) else { todo!() }; code += &format!("{}:\n", self.transpile_expr(cond)); code += &self.transpile_block(block.body, Discard); code } Some("match" | "match!") => self.transpile_match(call), _ => self.transpile_simple_call(call), } } fn transpile_if(&mut self, mut call: Call) -> String { let cond = self.transpile_expr(call.args.remove(0)); let Expr::Lambda(mut then_block) = call.args.remove(0) else { todo!() }; let else_block = call.args.try_remove(0).map(|ex| { if let Expr::Lambda(blk) = ex { blk } else { todo!() } }); if then_block.body.len() == 1 && else_block .as_ref() .map(|blk| blk.body.len() == 1) .unwrap_or(true) { let then = self.transpile_expr(then_block.body.remove(0)); if let Some(mut else_block) = else_block { let els = self.transpile_expr(else_block.body.remove(0)); return format!("{then} if {cond} else {els}"); } else { return format!("{then} if {cond} else None"); } } let tmp = Str::from(format!("if_tmp_{}__", self.fresh_var_n)); self.fresh_var_n += 1; let tmp_func = Str::from(format!("if_tmp_func_{}__", self.fresh_var_n)); self.fresh_var_n += 1; let mut code = format!("def {tmp_func}():\n"); code += &format!(" if {cond}:\n"); let level = self.level; self.level = 1; code += &self.transpile_block(then_block.body, StoreTmp(tmp.clone())); self.level = level; if let Some(else_block) = else_block { code += " else:\n"; let level = self.level; self.level = 1; code += &self.transpile_block(else_block.body, StoreTmp(tmp.clone())); self.level = level; } else { code += " else:\n"; code += &format!(" {tmp} = None\n"); } code += &format!(" return {tmp}\n"); self.prelude += &code; // ~~ NOTE: In Python, the variable environment of a function is determined at call time // This is a very bad design, but can be used for this code ~~ // FIXME: this trick only works in the global namespace format!("{tmp_func}()") } fn transpile_match(&mut self, mut call: Call) -> String { let tmp = Str::from(format!("match_tmp_{}__", self.fresh_var_n)); self.fresh_var_n += 1; let tmp_func = Str::from(format!("match_tmp_func_{}__", self.fresh_var_n)); self.fresh_var_n += 1; let mut code = format!("def {tmp_func}():\n"); self.level += 1; code += &" ".repeat(self.level); code += "match "; let cond = call.args.remove(0); code += &format!("{}:\n", self.transpile_expr(cond)); while let Some(Expr::Lambda(arm)) = call.args.try_remove(0) { self.level += 1; code += &" ".repeat(self.level); let target = arm.params.non_defaults.get(0).unwrap(); match &target.raw.pat { ParamPattern::VarName(param) => { code += &format!("case {}__:\n", ¶m.token().content); code += &self.transpile_block(arm.body, StoreTmp(tmp.clone())); self.level -= 1; } ParamPattern::Discard(_) => { match target.raw.t_spec.as_ref().map(|t| &t.t_spec) { Some(TypeSpec::Enum(enum_t)) => { let values = ValueObj::vec_from_const_args(enum_t.clone()); if values.len() == 1 { code += &format!("case {}:\n", values[0]); } else { todo!() } } Some(_) => todo!(), None => { code += "case _:\n"; } } code += &self.transpile_block(arm.body, StoreTmp(tmp.clone())); self.level -= 1; } _ => todo!(), } } code += &" ".repeat(self.level); code += &format!("return {tmp}\n"); self.prelude += &code; self.level -= 1; format!("{tmp_func}()") } fn transpile_simple_call(&mut self, call: Call) -> String { let is_py_api = if let Some(attr) = &call.attr_name { let is_py_api = attr.is_py_api(); if let Some(name) = debind(attr) { let name = demangle(&name); return format!( "{name}({}, {})", self.transpile_expr(*call.obj), self.transpile_args(call.args, is_py_api, false) ); } is_py_api } else { call.obj.is_py_api() }; let mut code = format!("({})", self.transpile_expr(*call.obj)); if let Some(attr) = call.attr_name { code += &format!(".{}", Self::transpile_ident(attr)); } code += &self.transpile_args(call.args, is_py_api, true); code } fn transpile_args(&mut self, mut args: Args, is_py_api: bool, paren: bool) -> String { let mut code = String::new(); if paren { code.push('('); } while let Some(arg) = args.try_remove_pos(0) { code += &self.transpile_expr(arg.expr); code.push(','); } while let Some(arg) = args.try_remove_kw(0) { let escape = if is_py_api { "" } else { "__" }; code += &format!( "{}{escape}={},", arg.keyword.content, self.transpile_expr(arg.expr) ); } if paren { code.push(')'); } code } fn transpile_ident(ident: Identifier) -> String { if let Some(py_name) = ident.vi.py_name { return demangle(&py_name); } let name = ident.name.into_token().content.to_string(); let name = replace_non_symbolic(name); if ident.dot.is_some() { name } else { format!("{name}__") } } fn transpile_params(&mut self, params: Params) -> String { let mut code = String::new(); for non_default in params.non_defaults { match non_default.raw.pat { ParamPattern::VarName(param) => { code += &format!("{}__,", param.into_token().content); } ParamPattern::Discard(_) => { code += &format!("_{},", self.fresh_var_n); self.fresh_var_n += 1; } _ => unreachable!(), } } for default in params.defaults { let ParamPattern::VarName(param) = default.sig.raw.pat else { todo!() }; code += &format!( "{}__ = {},", param.into_token().content, self.transpile_expr(default.default_val) ); } code } fn transpile_block(&mut self, block: Block, last_op: LastLineOperation) -> String { self.level += 1; let mut code = String::new(); let last = block.len().saturating_sub(1); for (i, chunk) in block.into_iter().enumerate() { code += &" ".repeat(self.level); if i == last { match last_op { Return => { code += "return "; } Discard => {} StoreTmp(ref tmp) => { code += &format!("{tmp} = "); } } } code += &self.transpile_expr(chunk); code.push('\n'); } self.level -= 1; code } fn transpile_lambda(&mut self, lambda: Lambda) -> String { if lambda.body.len() > 1 { let name = format!("lambda_{}__", self.fresh_var_n); self.fresh_var_n += 1; let mut code = format!("def {name}({}):\n", self.transpile_params(lambda.params)); code += &self.transpile_block(lambda.body, Return); self.prelude += &code; name } else { let mut code = format!("(lambda {}:", self.transpile_params(lambda.params)); code += &self.transpile_block(lambda.body, Discard); code.pop(); // \n code.push(')'); code } } // TODO: trait definition fn transpile_def(&mut self, mut def: Def) -> String { // HACK: allow reference to local variables in tmp functions let mut code = if self.level == 0 { "".to_string() } else { format!( "global {}\n{}", Self::transpile_ident(def.sig.ident().clone()), " ".repeat(self.level) ) }; match def.sig { Signature::Var(var) => { code += &format!("{} = ", Self::transpile_ident(var.ident)); if def.body.block.len() > 1 { let name = format!("instant_block_{}__", self.fresh_var_n); self.fresh_var_n += 1; let mut code = format!("def {name}():\n"); code += &self.transpile_block(def.body.block, Return); self.prelude += &code; format!("{name}()") } else { let expr = def.body.block.remove(0); code += &self.transpile_expr(expr); code } } Signature::Subr(subr) => { code += &format!( "def {}({}):\n", Self::transpile_ident(subr.ident), self.transpile_params(subr.params) ); code += &self.transpile_block(def.body.block, Return); code } } } fn transpile_classdef(&mut self, classdef: ClassDef) -> String { let class_name = Self::transpile_ident(classdef.sig.into_ident()); let mut code = format!("class {class_name}():\n"); let mut init_method = format!( "{}def __init__(self, param__):\n", " ".repeat(self.level + 1) ); match classdef.__new__.non_default_params().unwrap()[0].typ() { Type::Record(rec) => { for field in rec.keys() { let vis = if field.vis.is_private() { "__" } else { "" }; init_method += &format!( "{}self.{}{vis} = param__.{}{vis}\n", " ".repeat(self.level + 2), field.symbol, field.symbol, ); } } other => todo!("{other}"), } code += &init_method; if classdef.need_to_gen_new { code += &" ".repeat(self.level + 1); code += &format!("def new(x): return {class_name}.__call__(x)\n"); } code += &self.transpile_block(classdef.methods, Discard); code } fn transpile_patchdef(&mut self, patch_def: PatchDef) -> String { let mut code = String::new(); for chunk in patch_def.methods.into_iter() { let Expr::Def(mut def) = chunk else { todo!() }; let name = format!( "{}{}", demangle(&patch_def.sig.ident().to_string_notype()), demangle(&def.sig.ident().to_string_notype()), ); def.sig.ident_mut().name = VarName::from_str(Str::from(name)); code += &" ".repeat(self.level); code += &self.transpile_def(def); code.push('\n'); } code } fn transpile_attrdef(&mut self, mut redef: ReDef) -> String { let mut code = format!("{} = ", self.transpile_expr(Expr::Accessor(redef.attr))); if redef.block.len() > 1 { let name = format!("instant_block_{}__", self.fresh_var_n); self.fresh_var_n += 1; let mut code = format!("def {name}():\n"); code += &self.transpile_block(redef.block, Return); self.prelude += &code; format!("{name}()") } else { let expr = redef.block.remove(0); code += &self.transpile_expr(expr); code } } }