0029ff95ac
The definitions of `wasmtime::component::Val::Float{32,64}` mirrored
`wasmtime::Val::F{32,64}` by using integers as their wrapped types,
storing the bit representation of their floating point values.
This was necessary for the core Wasm `f32`/`f64` types because Rust
floats don't have guaranteed NaN bit representations.
The component model `float32`/`float64` types require NaN
canonicalization, so we can use normal Rust `f{32,64}` instead.
Closes #5480
382 lines
14 KiB
Rust
382 lines
14 KiB
Rust
use crate::core;
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use anyhow::{anyhow, bail, Context, Result};
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use std::collections::{BTreeSet, HashMap};
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use std::fmt::Debug;
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use wast::component::WastVal;
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use wast::core::NanPattern;
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pub use wasmtime::component::*;
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pub fn val(v: &WastVal<'_>, ty: &Type) -> Result<Val> {
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Ok(match v {
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WastVal::Bool(b) => Val::Bool(*b),
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WastVal::U8(b) => Val::U8(*b),
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WastVal::S8(b) => Val::S8(*b),
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WastVal::U16(b) => Val::U16(*b),
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WastVal::S16(b) => Val::S16(*b),
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WastVal::U32(b) => Val::U32(*b),
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WastVal::S32(b) => Val::S32(*b),
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WastVal::U64(b) => Val::U64(*b),
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WastVal::S64(b) => Val::S64(*b),
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WastVal::Float32(b) => Val::Float32(f32::from_bits(b.bits)),
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WastVal::Float64(b) => Val::Float64(f64::from_bits(b.bits)),
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WastVal::Char(b) => Val::Char(*b),
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WastVal::String(s) => Val::String(s.to_string().into()),
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WastVal::List(vals) => match ty {
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Type::List(t) => {
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let element = t.ty();
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let vals = vals
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.iter()
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.map(|v| val(v, &element))
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.collect::<Result<Vec<_>>>()?;
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t.new_val(vals.into())?
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}
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_ => bail!("expected a list value"),
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},
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WastVal::Record(fields) => match ty {
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Type::Record(t) => {
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let mut fields_by_name = HashMap::new();
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for (name, val) in fields {
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let prev = fields_by_name.insert(*name, val);
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if prev.is_some() {
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bail!("field `{name}` specified twice");
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}
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}
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let mut values = Vec::new();
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for field in t.fields() {
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let name = field.name;
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let v = fields_by_name
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.remove(name)
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.ok_or_else(|| anyhow!("field `{name}` not specified"))?;
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values.push((name, val(v, &field.ty)?));
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}
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if let Some((field, _)) = fields_by_name.iter().next() {
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bail!("extra field `{field}` specified");
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}
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t.new_val(values)?
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}
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_ => bail!("expected a record value"),
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},
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WastVal::Tuple(vals) => match ty {
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Type::Tuple(t) => {
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if vals.len() != t.types().len() {
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bail!("expected {} values got {}", t.types().len(), vals.len());
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}
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t.new_val(
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vals.iter()
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.zip(t.types())
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.map(|(v, ty)| val(v, &ty))
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.collect::<Result<Vec<_>>>()?
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.into(),
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)?
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}
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_ => bail!("expected a tuple value"),
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},
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WastVal::Enum(name) => match ty {
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Type::Enum(t) => t.new_val(name)?,
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_ => bail!("expected an enum value"),
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},
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WastVal::Variant(name, payload) => match ty {
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Type::Variant(t) => {
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let case = match t.cases().find(|c| c.name == *name) {
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Some(case) => case,
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None => bail!("no case named `{}", name),
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};
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let payload = payload_val(case.name, payload.as_deref(), case.ty.as_ref())?;
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t.new_val(name, payload)?
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}
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_ => bail!("expected a variant value"),
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},
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WastVal::Union(idx, payload) => match ty {
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Type::Union(t) => {
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let case = match t.types().nth(*idx as usize) {
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Some(case) => case,
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None => bail!("case {idx} too large"),
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};
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let payload = val(payload, &case)?;
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t.new_val(*idx, payload)?
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}
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_ => bail!("expected a union value"),
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},
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WastVal::Option(v) => match ty {
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Type::Option(t) => {
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let v = match v {
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Some(v) => Some(val(v, &t.ty())?),
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None => None,
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};
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t.new_val(v)?
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}
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_ => bail!("expected an option value"),
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},
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WastVal::Result(v) => match ty {
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Type::Result(t) => {
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let v = match v {
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Ok(v) => Ok(payload_val("ok", v.as_deref(), t.ok().as_ref())?),
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Err(v) => Err(payload_val("err", v.as_deref(), t.err().as_ref())?),
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};
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t.new_val(v)?
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}
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_ => bail!("expected an expected value"),
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},
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WastVal::Flags(v) => match ty {
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Type::Flags(t) => t.new_val(v)?,
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_ => bail!("expected a flags value"),
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},
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})
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}
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fn payload_val(name: &str, v: Option<&WastVal<'_>>, ty: Option<&Type>) -> Result<Option<Val>> {
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match (v, ty) {
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(Some(v), Some(ty)) => Ok(Some(val(v, ty)?)),
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(None, None) => Ok(None),
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(Some(_), None) => bail!("expected payload for case `{name}`"),
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(None, Some(_)) => bail!("unexpected payload for case `{name}`"),
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}
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}
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pub fn match_val(expected: &WastVal<'_>, actual: &Val) -> Result<()> {
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match expected {
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WastVal::Bool(e) => match actual {
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Val::Bool(a) => match_debug(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::U8(e) => match actual {
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Val::U8(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::S8(e) => match actual {
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Val::S8(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::U16(e) => match actual {
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Val::U16(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::S16(e) => match actual {
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Val::S16(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::U32(e) => match actual {
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Val::U32(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::S32(e) => match actual {
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Val::S32(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::U64(e) => match actual {
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Val::U64(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::S64(e) => match actual {
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Val::S64(a) => core::match_int(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::Float32(e) => match actual {
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Val::Float32(a) => core::match_f32(a.to_bits(), &NanPattern::Value(*e)),
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_ => mismatch(expected, actual),
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},
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WastVal::Float64(e) => match actual {
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Val::Float64(a) => core::match_f64(a.to_bits(), &NanPattern::Value(*e)),
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_ => mismatch(expected, actual),
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},
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WastVal::Char(e) => match actual {
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Val::Char(a) => match_debug(a, e),
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_ => mismatch(expected, actual),
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},
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WastVal::String(e) => match actual {
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Val::String(a) => match_debug(&a[..], *e),
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_ => mismatch(expected, actual),
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},
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WastVal::List(e) => match actual {
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Val::List(a) => {
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if e.len() != a.len() {
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bail!("expected {} values got {}", e.len(), a.len());
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}
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for (i, (expected, actual)) in e.iter().zip(a.iter()).enumerate() {
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match_val(expected, actual)
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.with_context(|| format!("failed to match list element {i}"))?;
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}
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Ok(())
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}
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_ => mismatch(expected, actual),
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},
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WastVal::Record(e) => match actual {
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Val::Record(a) => {
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let mut fields_by_name = HashMap::new();
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for (name, val) in e {
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let prev = fields_by_name.insert(*name, val);
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if prev.is_some() {
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bail!("field `{name}` specified twice");
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}
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}
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for (name, actual) in a.fields() {
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let expected = fields_by_name
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.remove(name)
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.ok_or_else(|| anyhow!("field `{name}` not specified"))?;
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match_val(expected, actual)
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.with_context(|| format!("failed to match field `{name}`"))?;
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}
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if let Some((field, _)) = fields_by_name.iter().next() {
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bail!("extra field `{field}` specified");
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}
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Ok(())
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}
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_ => mismatch(expected, actual),
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},
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WastVal::Tuple(e) => match actual {
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Val::Tuple(a) => {
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if e.len() != a.values().len() {
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bail!(
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"expected {}-tuple, found {}-tuple",
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e.len(),
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a.values().len()
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);
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}
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for (i, (expected, actual)) in e.iter().zip(a.values()).enumerate() {
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match_val(expected, actual)
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.with_context(|| format!("failed to match tuple element {i}"))?;
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}
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Ok(())
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}
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_ => mismatch(expected, actual),
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},
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WastVal::Variant(name, e) => match actual {
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Val::Variant(a) => {
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if a.discriminant() != *name {
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bail!("expected discriminant `{name}` got `{}`", a.discriminant());
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}
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match_payload_val(name, e.as_deref(), a.payload())
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}
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_ => mismatch(expected, actual),
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},
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WastVal::Enum(name) => match actual {
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Val::Enum(a) => {
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if a.discriminant() != *name {
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bail!("expected discriminant `{name}` got `{}`", a.discriminant());
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} else {
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Ok(())
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}
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}
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_ => mismatch(expected, actual),
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},
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WastVal::Union(idx, e) => match actual {
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Val::Union(a) => {
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if a.discriminant() != *idx {
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bail!("expected discriminant `{idx}` got `{}`", a.discriminant());
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}
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match_val(e, a.payload())
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}
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_ => mismatch(expected, actual),
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},
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WastVal::Option(e) => match actual {
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Val::Option(a) => match (e, a.value()) {
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(None, None) => Ok(()),
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(Some(expected), Some(actual)) => match_val(expected, actual),
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(None, Some(_)) => bail!("expected `none`, found `some`"),
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(Some(_), None) => bail!("expected `some`, found `none`"),
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},
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_ => mismatch(expected, actual),
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},
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WastVal::Result(e) => match actual {
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Val::Result(a) => match (e, a.value()) {
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(Ok(_), Err(_)) => bail!("expected `ok`, found `err`"),
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(Err(_), Ok(_)) => bail!("expected `err`, found `ok`"),
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(Err(e), Err(a)) => match_payload_val("err", e.as_deref(), a),
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(Ok(e), Ok(a)) => match_payload_val("ok", e.as_deref(), a),
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},
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_ => mismatch(expected, actual),
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},
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WastVal::Flags(e) => match actual {
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Val::Flags(a) => {
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let expected = e.iter().copied().collect::<BTreeSet<_>>();
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let actual = a.flags().collect::<BTreeSet<_>>();
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match_debug(&actual, &expected)
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}
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_ => mismatch(expected, actual),
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},
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}
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}
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fn match_payload_val(
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name: &str,
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expected: Option<&WastVal<'_>>,
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actual: Option<&Val>,
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) -> Result<()> {
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match (expected, actual) {
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(Some(e), Some(a)) => {
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match_val(e, a).with_context(|| format!("failed to match case `{name}`"))
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}
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(None, None) => Ok(()),
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(Some(_), None) => bail!("expected payload for case `{name}`"),
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(None, Some(_)) => bail!("unexpected payload for case `{name}`"),
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}
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}
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fn match_debug<T>(actual: &T, expected: &T) -> Result<()>
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where
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T: Eq + Debug + ?Sized,
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{
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if actual == expected {
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Ok(())
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} else {
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bail!(
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"
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expected {expected:?}
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actual {actual:?}"
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)
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}
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}
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fn mismatch(expected: &WastVal<'_>, actual: &Val) -> Result<()> {
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let expected = match expected {
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WastVal::Bool(..) => "bool",
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WastVal::U8(..) => "u8",
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WastVal::S8(..) => "s8",
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WastVal::U16(..) => "u16",
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WastVal::S16(..) => "s16",
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WastVal::U32(..) => "u32",
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WastVal::S32(..) => "s32",
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WastVal::U64(..) => "u64",
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WastVal::S64(..) => "s64",
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WastVal::Float32(..) => "float32",
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WastVal::Float64(..) => "float64",
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WastVal::Char(..) => "char",
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WastVal::String(..) => "string",
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WastVal::List(..) => "list",
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WastVal::Record(..) => "record",
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WastVal::Tuple(..) => "tuple",
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WastVal::Enum(..) => "enum",
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WastVal::Variant(..) => "variant",
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WastVal::Union(..) => "union",
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WastVal::Option(..) => "option",
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WastVal::Result(..) => "result",
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WastVal::Flags(..) => "flags",
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};
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let actual = match actual {
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Val::Bool(..) => "bool",
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Val::U8(..) => "u8",
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Val::S8(..) => "s8",
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Val::U16(..) => "u16",
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Val::S16(..) => "s16",
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Val::U32(..) => "u32",
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Val::S32(..) => "s32",
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Val::U64(..) => "u64",
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Val::S64(..) => "s64",
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Val::Float32(..) => "float32",
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Val::Float64(..) => "float64",
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Val::Char(..) => "char",
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Val::String(..) => "string",
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Val::List(..) => "list",
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Val::Record(..) => "record",
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Val::Tuple(..) => "tuple",
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Val::Enum(..) => "enum",
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Val::Variant(..) => "variant",
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Val::Union(..) => "union",
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Val::Option(..) => "option",
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Val::Result(..) => "result",
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Val::Flags(..) => "flags",
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};
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bail!("expected `{expected}` got `{actual}`")
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}
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