use crate::builder::Builder;
use crate::private::Sealed;
use crate::{Blob, Buffer, IndirectFloat, IndirectInt, IndirectUInt};
impl<B: Buffer> Sealed for Blob<B> {}
impl Sealed for () {}
pub trait Pushable: Sealed + Sized {
fn push_to_builder(self, _: &mut Builder) {}
}
impl Pushable for () {
fn push_to_builder(self, builder: &mut Builder) {
builder.push_null();
}
}
impl<B: Buffer> Pushable for Blob<B> {
fn push_to_builder(self, builder: &mut Builder) {
builder.push_blob(&self.0);
}
}
macro_rules! forward_to_builder {
($T: ty, $method: ident) => {
impl Sealed for $T {}
impl Pushable for $T {
fn push_to_builder(self, builder: &mut Builder) {
builder.$method(self);
}
}
};
($T: ty, $method: ident, $asT: ty) => {
impl Sealed for $T {}
impl Pushable for $T {
fn push_to_builder(self, builder: &mut Builder) {
builder.$method(self as $asT);
}
}
};
}
forward_to_builder!(&str, push_str);
forward_to_builder!(bool, push_bool);
forward_to_builder!(u8, push_uint);
forward_to_builder!(u16, push_uint);
forward_to_builder!(u32, push_uint);
forward_to_builder!(u64, push_uint);
forward_to_builder!(i8, push_int);
forward_to_builder!(i16, push_int);
forward_to_builder!(i32, push_int);
forward_to_builder!(i64, push_int);
forward_to_builder!(f32, push_float);
forward_to_builder!(f64, push_float);
forward_to_builder!(&[u8], push_uints);
forward_to_builder!(&[u16], push_uints);
forward_to_builder!(&[u32], push_uints);
forward_to_builder!(&[u64], push_uints);
forward_to_builder!(&[i8], push_ints);
forward_to_builder!(&[i16], push_ints);
forward_to_builder!(&[i32], push_ints);
forward_to_builder!(&[i64], push_ints);
forward_to_builder!(&[f32], push_floats);
forward_to_builder!(&[f64], push_floats);
forward_to_builder!(&[bool], push_bools);
forward_to_builder!(&Vec<u8>, push_uints);
forward_to_builder!(&Vec<u16>, push_uints);
forward_to_builder!(&Vec<u32>, push_uints);
forward_to_builder!(&Vec<u64>, push_uints);
forward_to_builder!(&Vec<i8>, push_ints);
forward_to_builder!(&Vec<i16>, push_ints);
forward_to_builder!(&Vec<i32>, push_ints);
forward_to_builder!(&Vec<i64>, push_ints);
forward_to_builder!(&Vec<f32>, push_floats);
forward_to_builder!(&Vec<f64>, push_floats);
forward_to_builder!(&Vec<bool>, push_bools);
macro_rules! impl_indirects {
($Indirect: ident, $method: ident) => {
impl Sealed for $Indirect {}
impl Pushable for $Indirect {
fn push_to_builder(self, builder: &mut Builder) {
builder.$method(self.0);
}
}
};
}
impl_indirects!(IndirectInt, push_indirect_int);
impl_indirects!(IndirectUInt, push_indirect_uint);
impl_indirects!(IndirectFloat, push_indirect_float);
macro_rules! impl_arrays {
($num: expr) => {
forward_to_builder!(&[u8; $num], push_uints, &[u8]);
forward_to_builder!(&[u16; $num], push_uints, &[u16]);
forward_to_builder!(&[u32; $num], push_uints, &[u32]);
forward_to_builder!(&[u64; $num], push_uints, &[u64]);
forward_to_builder!(&[i8; $num], push_ints, &[i8]);
forward_to_builder!(&[i16; $num], push_ints, &[i16]);
forward_to_builder!(&[i32; $num], push_ints, &[i32]);
forward_to_builder!(&[i64; $num], push_ints, &[i64]);
forward_to_builder!(&[f32; $num], push_floats, &[f32]);
forward_to_builder!(&[f64; $num], push_floats, &[f64]);
forward_to_builder!(&[bool; $num], push_bools, &[bool]);
};
}
impl_arrays!(0);
impl_arrays!(1);
impl_arrays!(2);
impl_arrays!(3);
impl_arrays!(4);
impl_arrays!(5);
impl_arrays!(6);