171 lines
4.6 KiB
Rust
171 lines
4.6 KiB
Rust
use std::{cell::RefCell, collections::HashMap, rc::Rc};
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use talc_lang::{exception, parse_float, parse_int, symbol::SYM_TYPE_ERROR, throw, value::{exception::Result, HashValue, Value}, Vm};
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use talc_macros::native_func;
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use crate::unpack_args;
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pub fn load(vm: &mut Vm) {
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vm.set_global_name("type", type_().into());
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vm.set_global_name("is", is().into());
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vm.set_global_name("as", as_().into());
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vm.set_global_name("copy", copy().into());
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vm.set_global_name("str", str_().into());
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vm.set_global_name("repr", repr().into());
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vm.set_global_name("cell", cell().into());
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vm.set_global_name("uncell", uncell().into());
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vm.set_global_name("cell_replace", cell_replace().into());
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vm.set_global_name("cell_take", cell_replace().into());
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}
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//
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// types
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//
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#[native_func(1)]
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pub fn type_(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, val] = unpack_args!(args);
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Ok(val.get_type().into())
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}
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#[native_func(2)]
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pub fn is(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, val, ty] = unpack_args!(args);
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let Value::Symbol(ty) = ty else {
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throw!(*SYM_TYPE_ERROR, "type expected symbol, got {ty:#}")
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};
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Ok((val.get_type() == ty).into())
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}
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#[native_func(2)]
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pub fn as_(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, val, ty] = unpack_args!(args);
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let Value::Symbol(ty) = ty else {
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throw!(*SYM_TYPE_ERROR, "type expected symbol, got {ty:#}")
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};
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if val.get_type() == ty {
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return Ok(val)
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}
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match (val, ty.name().as_ref()) {
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(_, "nil") => Ok(Value::Nil),
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(v, "string") => Ok(Value::String(v.to_string().into())),
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(v, "bool") => Ok(Value::Bool(v.truthy())),
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(Value::Symbol(s), "int") => Ok(Value::Int(s.id() as i64)),
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(Value::Int(x), "ratio") => Ok(Value::Ratio(x.into())),
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(Value::Int(x), "float") => Ok(Value::Float(x as f64)),
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(Value::Int(x), "complex") => Ok(Value::Complex((x as f64).into())),
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(Value::Ratio(x), "float") => Ok(Value::Float(*x.numer() as f64 / *x.denom() as f64)),
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(Value::Ratio(x), "complex") => Ok(Value::Complex((*x.numer() as f64 / *x.denom() as f64).into())),
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(Value::Float(x), "complex") => Ok(Value::Complex(x.into())),
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(Value::String(s), "int")
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=> parse_int(&s, 10)
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.map(|v| v.into())
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.map_err(|_| exception!(*SYM_TYPE_ERROR, "could not parse {s:#} as integer")),
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(Value::String(s), "float")
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=> parse_float(&s)
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.map(|v| v.into())
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.map_err(|_| exception!(*SYM_TYPE_ERROR, "could not parse {s:#} as float")),
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(v, t) => throw!(*SYM_TYPE_ERROR,
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"cannot convert value of type {} to type {t}", v.get_type().name())
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}
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}
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pub fn copy_inner(value: Value) -> Result<Value> {
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match value {
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Value::Nil | Value::Bool(_) | Value::Symbol(_)
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| Value::Int(_) | Value::Ratio(_) | Value::Float(_)
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| Value::Complex(_) | Value::Range(_) | Value::String(_)
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=> Ok(value),
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Value::Cell(c) => {
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let c = copy_inner(talc_lang::value::cell_take(c))?;
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Ok(RefCell::new(c).into())
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},
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Value::List(l) => {
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let l = talc_lang::value::cell_take(l);
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let v: Result<Vec<Value>> = l.into_iter()
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.map(copy_inner)
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.collect();
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Ok(v?.into())
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},
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Value::Table(t) => {
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let t = talc_lang::value::cell_take(t);
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let v: Result<HashMap<HashValue, Value>> = t.into_iter()
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.map(|(k, v)| copy_inner(v).map(|v| (k, v)))
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.collect();
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Ok(v?.into())
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},
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_ => throw!(*SYM_TYPE_ERROR,
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"cannot copy value of type {}", value.get_type().name())
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}
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}
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#[native_func(1)]
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pub fn copy(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, val] = unpack_args!(args);
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copy_inner(val)
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}
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//
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// strings
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//
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#[native_func(1)]
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pub fn str_(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, val] = unpack_args!(args);
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Ok(val.to_string().into())
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}
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#[native_func(1)]
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pub fn repr(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, val] = unpack_args!(args);
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Ok(format!("{val:#}").into())
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}
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//
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// cells
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//
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#[native_func(1)]
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pub fn cell(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, value] = unpack_args!(args);
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Ok(RefCell::new(value).into())
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}
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#[native_func(1)]
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pub fn uncell(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, cell] = unpack_args!(args);
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let Value::Cell(cell) = cell else {
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throw!(*SYM_TYPE_ERROR, "value is not a cell")
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};
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Ok(Rc::unwrap_or_clone(cell).into_inner())
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}
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#[native_func(2)]
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pub fn cell_replace(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, cell, value] = unpack_args!(args);
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let Value::Cell(cell) = cell else {
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throw!(*SYM_TYPE_ERROR, "value is not a cell")
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};
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Ok(cell.replace(value))
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}
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#[native_func(1)]
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pub fn cell_take(_: &mut Vm, args: Vec<Value>) -> Result<Value> {
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let [_, cell] = unpack_args!(args);
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let Value::Cell(cell) = cell else {
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throw!(*SYM_TYPE_ERROR, "value is not a cell")
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};
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Ok(cell.replace(Value::Nil))
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}
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