use bech32::{ToBase32, u5, WriteBase32, Base32Len};
use crate::prelude::*;
-use super::{Invoice, Sha256, TaggedField, ExpiryTime, MinFinalCltvExpiryDelta, Fallback, PayeePubKey, InvoiceSignature, PositiveTimestamp,
- PrivateRoute, Description, RawTaggedField, Currency, RawHrp, SiPrefix, constants, SignedRawInvoice, RawDataPart};
+use super::{Bolt11Invoice, Sha256, TaggedField, ExpiryTime, MinFinalCltvExpiryDelta, Fallback, PayeePubKey, Bolt11InvoiceSignature, PositiveTimestamp,
+ PrivateRoute, Description, RawTaggedField, Currency, RawHrp, SiPrefix, constants, SignedRawBolt11Invoice, RawDataPart};
/// Converts a stream of bytes written to it to base32. On finalization the according padding will
/// be applied. That means the results of writing two data blocks with one or two `BytesToBase32`
}
}
-impl Display for Invoice {
+impl Display for Bolt11Invoice {
fn fmt(&self, f: &mut Formatter) -> Result<(), fmt::Error> {
self.signed_invoice.fmt(f)
}
}
-impl Display for SignedRawInvoice {
+impl Display for SignedRawBolt11Invoice {
fn fmt(&self, f: &mut Formatter) -> Result<(), fmt::Error> {
let hrp = self.raw_invoice.hrp.to_string();
let mut data = self.raw_invoice.data.to_base32();
}
}
-impl ToBase32 for InvoiceSignature {
+impl ToBase32 for Bolt11InvoiceSignature {
fn write_base32<W: WriteBase32>(&self, writer: &mut W) -> Result<(), <W as WriteBase32>::Err> {
let mut converter = BytesToBase32::new(writer);
let (recovery_id, signature) = self.0.serialize_compact();