#[allow(unused_imports)] use erg_common::log; use erg_common::vis::Visibility; use crate::ty::constructors::*; use crate::ty::typaram::TyParam; use crate::ty::value::ValueObj; use crate::ty::Type; use ParamSpec as PS; use Type::*; use crate::context::initialize::*; use crate::context::{ConstTemplate, Context, DefaultInfo, ParamSpec}; use crate::varinfo::Mutability; use DefaultInfo::*; use Mutability::*; use Visibility::*; impl Context { /// see std/prelude.er /// All type boundaries are defined in each subroutine /// `push_subtype_bound`, etc. are used for type boundary determination in user-defined APIs // 型境界はすべて各サブルーチンで定義する // push_subtype_boundなどはユーザー定義APIの型境界決定のために使用する pub(super) fn init_builtin_traits(&mut self) { let vis = if cfg!(feature = "py_compatible") { Public } else { Private }; let unpack = Self::builtin_mono_trait(UNPACK, 2); let inheritable_type = Self::builtin_mono_trait(INHERITABLE_TYPE, 2); let named = Self::builtin_mono_trait(NAMED, 2); let mut mutable = Self::builtin_mono_trait(MUTABLE, 2); let Slf = mono_q(SELF, subtypeof(mono(IMMUTIZABLE))); let immut_t = proj(Slf.clone(), IMMUT_TYPE); let f_t = func(vec![kw(KW_OLD, immut_t.clone())], None, vec![], immut_t); let t = pr1_met(ref_mut(Slf, None), f_t, NoneType).quantify(); mutable.register_builtin_erg_decl(PROC_UPDATE, t, Public); // REVIEW: Immutatable? let mut immutizable = Self::builtin_mono_trait(IMMUTIZABLE, 2); immutizable.register_superclass(mono(MUTABLE), &mutable); immutizable.register_builtin_erg_decl(IMMUT_TYPE, Type, Public); // REVIEW: Mutatable? let mut mutizable = Self::builtin_mono_trait(MUTIZABLE, 2); mutizable.register_builtin_erg_decl(MUTABLE_MUT_TYPE, Type, Public); let pathlike = Self::builtin_mono_trait(PATH_LIKE, 2); /* Readable */ let mut readable = Self::builtin_mono_trait(MUTABLE_READABLE, 2); let Slf = mono_q(SELF, subtypeof(mono(MUTABLE_READABLE))); let t_read = pr_met(ref_mut(Slf, None), vec![], None, vec![kw(KW_N, Int)], Str).quantify(); readable.register_builtin_py_decl(PROC_READ, t_read, Public, Some(FUNC_READ)); /* Writable */ let mut writable = Self::builtin_mono_trait(MUTABLE_WRITABLE, 2); let Slf = mono_q(SELF, subtypeof(mono(MUTABLE_WRITABLE))); let t_write = pr1_kw_met(ref_mut(Slf, None), kw("s", Str), Nat).quantify(); writable.register_builtin_py_decl(PROC_WRITE, t_write, Public, Some(FUNC_WRITE)); // TODO: Add required methods let mut filelike = Self::builtin_mono_trait(FILE_LIKE, 2); filelike.register_superclass(mono(READABLE), &readable); let mut filelike_mut = Self::builtin_mono_trait(MUTABLE_FILE_LIKE, 2); filelike_mut.register_superclass(mono(FILE_LIKE), &filelike); filelike_mut.register_superclass(mono(MUTABLE_WRITABLE), &writable); /* Show */ let mut show = Self::builtin_mono_trait(SHOW, 2); let Slf = mono_q(SELF, subtypeof(mono(SHOW))); let t_show = fn0_met(ref_(Slf), Str).quantify(); show.register_builtin_py_decl(TO_STR, t_show, Public, Some(FUNDAMENTAL_STR)); /* In */ let mut in_ = Self::builtin_poly_trait(IN, vec![PS::t(TY_T, NonDefault)], 2); let params = vec![PS::t(TY_T, NonDefault)]; let input = Self::builtin_poly_trait(INPUT, params.clone(), 2); let output = Self::builtin_poly_trait(OUTPUT, params, 2); let T = mono_q(TY_T, instanceof(Type)); let I = mono_q(TY_I, subtypeof(poly(IN, vec![ty_tp(T.clone())]))); in_.register_superclass(poly(INPUT, vec![ty_tp(T.clone())]), &input); let op_t = fn1_met(T.clone(), I, Bool).quantify(); in_.register_builtin_erg_decl(OP_IN, op_t, Public); /* Eq */ // Erg does not have a trait equivalent to `PartialEq` in Rust // This means, Erg's `Float` cannot be compared with other `Float` // use `l - r < EPSILON` to check if two floats are almost equal let mut eq = Self::builtin_mono_trait(EQ, 2); let Slf = mono_q(SELF, subtypeof(mono(EQ))); // __eq__: |Self <: Eq| (self: Self, other: Self) -> Bool let op_t = fn1_met(Slf.clone(), Slf, Bool).quantify(); eq.register_builtin_erg_decl(OP_EQ, op_t, Public); /* Ord */ let mut ord = Self::builtin_mono_trait(ORD, 2); ord.register_superclass(mono(EQ), &eq); let Slf = mono_q(SELF, subtypeof(mono(ORD))); let op_t = fn1_met(Slf.clone(), Slf, or(mono(ORDERING), NoneType)).quantify(); ord.register_builtin_erg_decl(OP_CMP, op_t, Public); // FIXME: poly trait /* Num */ let num = Self::builtin_mono_trait(NUM, 2); /* vec![ poly(ADD, vec![]), poly(SUB, vec![]), poly(MUL, vec![]), ], */ /* Seq */ let mut seq = Self::builtin_poly_trait(SEQ, vec![PS::t(TY_T, NonDefault)], 2); seq.register_superclass(poly(OUTPUT, vec![ty_tp(T.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(SEQ, vec![TyParam::erased(Type)]))); let t = fn0_met(Slf.clone(), Nat).quantify(); seq.register_builtin_erg_decl(FUNC_LEN, t, Public); let t = fn1_met(Slf, Nat, T.clone()).quantify(); // Seq.get: |Self <: Seq(T)| Self.(Nat) -> T seq.register_builtin_erg_decl(FUNC_GET, t, Public); /* Iterable */ let mut iterable = Self::builtin_poly_trait(ITERABLE, vec![PS::t(TY_T, NonDefault)], 2); iterable.register_superclass(poly(OUTPUT, vec![ty_tp(T.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(ITERABLE, vec![ty_tp(T.clone())]))); let t = fn0_met(Slf.clone(), proj(Slf, ITER)).quantify(); iterable.register_builtin_py_decl(FUNC_ITER, t, Public, Some(FUNDAMENTAL_ITER)); iterable.register_builtin_erg_decl(ITER, Type, Public); let R = mono_q(TY_R, instanceof(Type)); let params = vec![PS::t(TY_R, WithDefault)]; let ty_params = vec![ty_tp(R.clone())]; /* Num */ let mut add = Self::builtin_poly_trait(ADD, params.clone(), 2); // Covariant with `R` (independent of the type of __add__) add.register_superclass(poly(OUTPUT, vec![ty_tp(R.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(ADD, ty_params.clone()))); let op_t = fn1_met(Slf.clone(), R.clone(), proj(Slf, OUTPUT)).quantify(); add.register_builtin_erg_decl(OP_ADD, op_t, Public); add.register_builtin_erg_decl(OUTPUT, Type, Public); /* Sub */ let mut sub = Self::builtin_poly_trait(SUB, params.clone(), 2); sub.register_superclass(poly(OUTPUT, vec![ty_tp(R.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(SUB, ty_params.clone()))); let op_t = fn1_met(Slf.clone(), R.clone(), proj(Slf, OUTPUT)).quantify(); sub.register_builtin_erg_decl(OP_SUB, op_t, Public); sub.register_builtin_erg_decl(OUTPUT, Type, Public); /* Mul */ let mut mul = Self::builtin_poly_trait(MUL, params.clone(), 2); mul.register_superclass(poly(OUTPUT, vec![ty_tp(R.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(MUL, ty_params.clone()))); let op_t = fn1_met(Slf.clone(), R.clone(), proj(Slf, OUTPUT)).quantify(); mul.register_builtin_erg_decl(OP_MUL, op_t, Public); mul.register_builtin_erg_decl(OUTPUT, Type, Public); /* Div */ let mut div = Self::builtin_poly_trait(DIV, params.clone(), 2); div.register_superclass(poly(OUTPUT, vec![ty_tp(R.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(DIV, ty_params.clone()))); let op_t = fn1_met(Slf.clone(), R.clone(), proj(Slf, OUTPUT)).quantify(); div.register_builtin_erg_decl(OP_DIV, op_t, Public); div.register_builtin_erg_decl(OUTPUT, Type, Public); /* FloorDiv */ let mut floor_div = Self::builtin_poly_trait(FLOOR_DIV, params, 2); floor_div.register_superclass(poly(OUTPUT, vec![ty_tp(R.clone())]), &output); let Slf = mono_q(SELF, subtypeof(poly(FLOOR_DIV, ty_params.clone()))); let op_t = fn1_met(Slf.clone(), R, proj(Slf.clone(), OUTPUT)).quantify(); floor_div.register_builtin_erg_decl(OP_FLOOR_DIV, op_t, Public); floor_div.register_builtin_erg_decl(OUTPUT, Type, Public); self.register_builtin_type(mono(UNPACK), unpack, vis, Const, None); self.register_builtin_type( mono(INHERITABLE_TYPE), inheritable_type, Private, Const, None, ); self.register_builtin_type(mono(NAMED), named, vis, Const, None); self.register_builtin_type(mono(MUTABLE), mutable, vis, Const, None); self.register_builtin_type(mono(IMMUTIZABLE), immutizable, vis, Const, None); self.register_builtin_type(mono(MUTIZABLE), mutizable, vis, Const, None); self.register_builtin_type(mono(PATH_LIKE), pathlike, vis, Const, None); self.register_builtin_type( mono(MUTABLE_READABLE), readable, Private, Const, Some(READABLE), ); self.register_builtin_type( mono(MUTABLE_WRITABLE), writable, Private, Const, Some(WRITABLE), ); self.register_builtin_type(mono(FILE_LIKE), filelike, vis, Const, None); self.register_builtin_type(mono(MUTABLE_FILE_LIKE), filelike_mut, vis, Const, None); self.register_builtin_type(mono(SHOW), show, vis, Const, None); self.register_builtin_type( poly(INPUT, vec![ty_tp(T.clone())]), input, Private, Const, None, ); self.register_builtin_type( poly(OUTPUT, vec![ty_tp(T.clone())]), output, Private, Const, None, ); self.register_builtin_type(poly(IN, vec![ty_tp(T.clone())]), in_, Private, Const, None); self.register_builtin_type(mono(EQ), eq, vis, Const, None); self.register_builtin_type(mono(ORD), ord, vis, Const, None); self.register_builtin_type(mono(NUM), num, vis, Const, None); self.register_builtin_type(poly(SEQ, vec![ty_tp(T.clone())]), seq, Private, Const, None); self.register_builtin_type( poly(ITERABLE, vec![ty_tp(T)]), iterable, Private, Const, None, ); self.register_builtin_type(poly(ADD, ty_params.clone()), add, vis, Const, None); self.register_builtin_type(poly(SUB, ty_params.clone()), sub, vis, Const, None); self.register_builtin_type(poly(MUL, ty_params.clone()), mul, vis, Const, None); self.register_builtin_type(poly(DIV, ty_params.clone()), div, vis, Const, None); self.register_builtin_type(poly(FLOOR_DIV, ty_params), floor_div, vis, Const, None); self.register_const_param_defaults( ADD, vec![ConstTemplate::Obj(ValueObj::builtin_t(Slf.clone()))], ); self.register_const_param_defaults( SUB, vec![ConstTemplate::Obj(ValueObj::builtin_t(Slf.clone()))], ); self.register_const_param_defaults( MUL, vec![ConstTemplate::Obj(ValueObj::builtin_t(Slf.clone()))], ); self.register_const_param_defaults( DIV, vec![ConstTemplate::Obj(ValueObj::builtin_t(Slf.clone()))], ); self.register_const_param_defaults( FLOOR_DIV, vec![ConstTemplate::Obj(ValueObj::builtin_t(Slf))], ); } }