mirror of
https://github.com/kjuulh/dagger-rs.git
synced 2024-11-29 10:12:27 +01:00
Kasper Juul Hermansen
4a4c03f3c2
* format code * with object gen and args * add implementation * add rust generator * reset generated code * add basic output * reset output * add object * add format function * with opts * fix vec * add context to unwrap * fix arguments * with function body * first complete generation: Still missing Vec<Obj> * run full alpine * add roadmap item
423 lines
12 KiB
Rust
423 lines
12 KiB
Rust
use std::sync::Arc;
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use dagger_core::introspection::{FullType, FullTypeFields, InputValue, TypeRef, __TypeKind};
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use eyre::ContextCompat;
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use crate::utility::OptionExt;
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pub trait FormatTypeFuncs {
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fn format_kind_list(&self, representation: &str) -> String;
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fn format_kind_scalar_string(&self, representation: &str) -> String;
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fn format_kind_scalar_int(&self, representation: &str) -> String;
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fn format_kind_scalar_float(&self, representation: &str) -> String;
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fn format_kind_scalar_boolean(&self, representation: &str) -> String;
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fn format_kind_scalar_default(
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&self,
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representation: &str,
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ref_name: &str,
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input: bool,
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) -> String;
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fn format_kind_object(&self, representation: &str, ref_name: &str) -> String;
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fn format_kind_input_object(&self, representation: &str, ref_name: &str) -> String;
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fn format_kind_enum(&self, representation: &str, ref_name: &str) -> String;
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}
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pub type DynFormatTypeFuncs = Arc<dyn FormatTypeFuncs + Send + Sync>;
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pub struct CommonFunctions {
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format_type_funcs: DynFormatTypeFuncs,
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}
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impl CommonFunctions {
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pub fn new(funcs: DynFormatTypeFuncs) -> Self {
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Self {
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format_type_funcs: funcs,
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}
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}
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pub fn format_input_type(&self, t: &TypeRef) -> String {
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self.format_type(t, true)
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}
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pub fn format_output_type(&self, t: &TypeRef) -> String {
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self.format_type(t, false)
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}
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fn format_type(&self, t: &TypeRef, input: bool) -> String {
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let mut representation = String::new();
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let mut r = Some(t.clone());
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while r.is_some() {
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return match r.as_ref() {
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Some(rf) => match rf.kind.as_ref() {
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Some(k) => match k {
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__TypeKind::SCALAR => match Scalar::from(rf) {
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Scalar::Int => self
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.format_type_funcs
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.format_kind_scalar_int(&mut representation),
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Scalar::Float => self
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.format_type_funcs
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.format_kind_scalar_float(&mut representation),
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Scalar::String => self
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.format_type_funcs
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.format_kind_scalar_string(&mut representation),
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Scalar::Boolean => self
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.format_type_funcs
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.format_kind_scalar_boolean(&mut representation),
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Scalar::Default => self.format_type_funcs.format_kind_scalar_default(
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&mut representation,
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rf.name.as_ref().unwrap(),
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input,
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),
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},
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__TypeKind::OBJECT => self
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.format_type_funcs
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.format_kind_object(&mut representation, rf.name.as_ref().unwrap()),
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__TypeKind::ENUM => self
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.format_type_funcs
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.format_kind_enum(&mut representation, rf.name.as_ref().unwrap()),
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__TypeKind::INPUT_OBJECT => {
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self.format_type_funcs.format_kind_input_object(
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&mut representation,
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&rf.name.as_ref().unwrap(),
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)
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}
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__TypeKind::LIST => {
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let mut inner_type = rf
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.of_type
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.as_ref()
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.map(|t| t.clone())
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.map(|t| *t)
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.map(|t| self.format_type(&t, input))
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.context("could not get inner type of list")
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.unwrap();
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representation =
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self.format_type_funcs.format_kind_list(&mut inner_type);
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return representation;
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}
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__TypeKind::NON_NULL => {
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r = rf.of_type.as_ref().map(|t| t.clone()).map(|t| *t);
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continue;
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}
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__TypeKind::Other(_) => {
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r = rf.of_type.as_ref().map(|t| t.clone()).map(|t| *t);
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continue;
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}
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__TypeKind::INTERFACE => break,
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__TypeKind::UNION => break,
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},
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None => break,
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},
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None => break,
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};
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}
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println!("rep: {}", representation);
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println!("{:?}", t);
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representation
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}
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}
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pub enum Scalar {
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Int,
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Float,
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String,
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Boolean,
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Default,
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}
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impl From<&TypeRef> for Scalar {
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fn from(value: &TypeRef) -> Self {
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match value.name.as_ref().map(|n| n.as_str()) {
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Some("Int") => Scalar::Int,
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Some("Float") => Scalar::Float,
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Some("String") => Scalar::String,
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Some("Boolean") => Scalar::Boolean,
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Some(_) => Scalar::Default,
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None => Scalar::Default,
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}
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}
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}
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pub fn get_type_from_name<'t>(types: &'t [FullType], name: &'t str) -> Option<&'t FullType> {
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types
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.into_iter()
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.find(|t| t.name.as_ref().map(|s| s.as_str()) == Some(name))
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}
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pub fn type_ref_is_optional(type_ref: &TypeRef) -> bool {
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type_ref
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.kind
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.pipe(|k| *k != __TypeKind::NON_NULL)
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.unwrap_or(false)
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}
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pub fn type_field_has_optional(field: &FullTypeFields) -> bool {
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field
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.args
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.pipe(|a| {
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a.iter()
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.map(|a| a.pipe(|a| &a.input_value))
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.flatten()
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.collect::<Vec<_>>()
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})
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.pipe(|s| input_values_has_optionals(s.as_slice()))
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.unwrap_or(false)
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}
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pub fn type_ref_is_scalar(type_ref: &TypeRef) -> bool {
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let mut type_ref = type_ref.clone();
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if type_ref
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.kind
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.pipe(|k| *k == __TypeKind::NON_NULL)
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.unwrap_or(false)
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{
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type_ref = *type_ref.of_type.unwrap().clone();
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}
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type_ref
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.kind
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.pipe(|k| *k == __TypeKind::SCALAR)
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.unwrap_or(false)
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}
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pub fn type_ref_is_object(type_ref: &TypeRef) -> bool {
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let mut type_ref = type_ref.clone();
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if type_ref
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.kind
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.pipe(|k| *k == __TypeKind::NON_NULL)
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.unwrap_or(false)
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{
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type_ref = *type_ref.of_type.unwrap().clone();
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}
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type_ref
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.kind
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.pipe(|k| *k == __TypeKind::OBJECT)
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.unwrap_or(false)
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}
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pub fn type_ref_is_list(type_ref: &TypeRef) -> bool {
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let mut type_ref = type_ref.clone();
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if type_ref
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.kind
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.pipe(|k| *k == __TypeKind::NON_NULL)
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.unwrap_or(false)
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{
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type_ref = *type_ref.of_type.unwrap().clone();
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}
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type_ref
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.kind
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.pipe(|k| *k == __TypeKind::LIST)
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.unwrap_or(false)
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}
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pub fn type_ref_is_list_of_objects(type_ref: &TypeRef) -> bool {
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let mut type_ref = type_ref.clone();
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if type_ref
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.kind
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.pipe(|k| *k == __TypeKind::NON_NULL)
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.unwrap_or(false)
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{
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type_ref = *type_ref.of_type.unwrap().clone();
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}
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if type_ref
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.kind
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.pipe(|k| *k == __TypeKind::LIST)
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.unwrap_or(false)
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{
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type_ref = *type_ref.of_type.unwrap().clone();
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}
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type_ref_is_object(&type_ref)
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}
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pub fn input_values_has_optionals(input_values: &[&InputValue]) -> bool {
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input_values
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.into_iter()
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.map(|k| type_ref_is_optional(&k.type_))
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.filter(|k| *k)
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.collect::<Vec<_>>()
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.len()
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> 0
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}
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pub fn input_values_is_empty(input_values: &[InputValue]) -> bool {
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input_values.len() > 0
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}
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#[cfg(test)]
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mod test {
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use dagger_core::introspection::{FullType, InputValue, TypeRef, __TypeKind};
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use pretty_assertions::assert_eq;
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use crate::functions::{input_values_has_optionals, type_ref_is_optional};
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use super::get_type_from_name;
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#[test]
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fn get_type_from_name_has_no_item() {
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let input = vec![];
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let output = get_type_from_name(&input, "some-name");
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assert_eq!(output.is_none(), true);
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}
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#[test]
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fn get_type_from_name_has_item() {
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let name = "some-name";
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let input = vec![FullType {
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kind: None,
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name: Some(name.to_string()),
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description: None,
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fields: None,
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input_fields: None,
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interfaces: None,
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enum_values: None,
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possible_types: None,
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}];
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let output = get_type_from_name(&input, name);
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assert_eq!(output.is_some(), true);
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}
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#[test]
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fn get_type_from_name_has_item_multiple_entries() {
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let name = "some-name";
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let input = vec![
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FullType {
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kind: None,
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name: Some(name.to_string()),
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description: None,
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fields: None,
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input_fields: None,
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interfaces: None,
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enum_values: None,
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possible_types: None,
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},
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FullType {
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kind: None,
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name: Some(name.to_string()),
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description: None,
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fields: None,
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input_fields: None,
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interfaces: None,
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enum_values: None,
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possible_types: None,
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},
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];
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let output = get_type_from_name(&input, name);
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assert_eq!(output.is_some(), true);
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}
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#[test]
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fn type_ref_is_optional_has_none() {
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let input = TypeRef {
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kind: None,
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name: None,
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of_type: None,
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};
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let output = type_ref_is_optional(&input);
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assert_eq!(output, false);
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}
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#[test]
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fn type_ref_is_optional_is_required() {
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let input = TypeRef {
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kind: Some(__TypeKind::NON_NULL),
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name: None,
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of_type: None,
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};
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let output = type_ref_is_optional(&input);
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assert_eq!(output, false);
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}
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#[test]
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fn type_ref_is_optional_is_optional() {
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let input = TypeRef {
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kind: Some(__TypeKind::OBJECT),
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name: None,
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of_type: None,
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};
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let output = type_ref_is_optional(&input);
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assert_eq!(output, true);
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}
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#[test]
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fn input_values_has_optionals_none() {
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let input = vec![];
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let output = input_values_has_optionals(&input);
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assert_eq!(output, false);
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}
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#[test]
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fn input_values_has_optionals_has_optional() {
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let input = vec![
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InputValue {
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name: "some-name".to_string(),
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description: None,
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type_: TypeRef {
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kind: Some(__TypeKind::NON_NULL),
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name: None,
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of_type: None,
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},
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default_value: None,
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},
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InputValue {
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name: "some-other-name".to_string(),
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description: None,
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type_: TypeRef {
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kind: Some(__TypeKind::OBJECT),
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name: None,
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of_type: None,
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},
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default_value: None,
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},
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];
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let output = input_values_has_optionals(input.iter().collect::<Vec<_>>().as_slice());
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assert_eq!(output, true);
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}
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#[test]
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fn input_values_has_optionals_is_required() {
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let input = vec![
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InputValue {
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name: "some-name".to_string(),
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description: None,
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type_: TypeRef {
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kind: Some(__TypeKind::NON_NULL),
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name: None,
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of_type: None,
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},
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default_value: None,
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},
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InputValue {
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name: "some-other-name".to_string(),
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description: None,
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type_: TypeRef {
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kind: Some(__TypeKind::NON_NULL),
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name: None,
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of_type: None,
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},
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default_value: None,
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},
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];
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let output = input_values_has_optionals(input.iter().collect::<Vec<_>>().as_slice());
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assert_eq!(output, false);
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}
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}
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