marine/fluence-faas/tests/arguments_passing.rs

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/*
* Copyright 2020 Fluence Labs Limited
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
use fluence_faas::FluenceFaaS;
use fluence_faas::IValue;
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use fluence_faas::IType;
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use once_cell::sync::Lazy;
use serde_json::json;
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static ARG_CONFIG: Lazy<fluence_faas::TomlFaaSConfig> = Lazy::new(|| {
let mut arguments_passing_config =
fluence_faas::TomlFaaSConfig::load("./tests/json_wasm_tests/arguments_passing/Config.toml")
.expect("toml faas config should be created");
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arguments_passing_config.modules_dir = Some(String::from(
"./tests/json_wasm_tests/arguments_passing/artifacts",
));
arguments_passing_config
});
#[test]
pub fn get_interfaces() {
let faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
let interface = faas.get_interface();
let string_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::String,
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}];
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let string_type_output_types = vec![IType::String];
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let string_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &string_type_arguments,
output_types: &string_type_output_types,
};
let bytearray_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::Array(Box::new(IType::U8)),
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}];
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let bytearray_type_output_types = vec![IType::Array(Box::new(IType::U8))];
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let bytearray_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &bytearray_type_arguments,
output_types: &bytearray_type_output_types,
};
let i32_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::S32,
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}];
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let i32_type_output_types = vec![IType::S32];
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let i32_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &i32_type_arguments,
output_types: &i32_type_output_types,
};
let i64_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::S64,
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}];
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let i64_type_output_types = vec![IType::S64];
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let i64_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &i64_type_arguments,
output_types: &i64_type_output_types,
};
let u32_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::U32,
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}];
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let u32_type_output_types = vec![IType::U32];
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let u32_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &u32_type_arguments,
output_types: &u32_type_output_types,
};
let u64_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::U64,
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}];
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let u64_type_output_types = vec![IType::U64];
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let u64_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &u64_type_arguments,
output_types: &u64_type_output_types,
};
let f32_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::F32,
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}];
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let f32_type_output_types = vec![IType::F32];
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let f32_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &f32_type_arguments,
output_types: &f32_type_output_types,
};
let f64_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::F64,
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}];
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let f64_type_output_types = vec![IType::F64];
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let f64_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &f64_type_arguments,
output_types: &f64_type_output_types,
};
let empty_type_arguments = vec![];
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let empty_type_output_types = vec![IType::String];
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let empty_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &empty_type_arguments,
output_types: &empty_type_output_types,
};
let bool_type_arguments = vec![fluence_faas::IFunctionArg {
name: String::from("arg"),
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ty: IType::I32,
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}];
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let bool_type_output_types = vec![IType::I32];
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let bool_type_sign = fluence_faas::FaaSFunctionSignature {
arguments: &bool_type_arguments,
output_types: &bool_type_output_types,
};
let all_types_arguments = vec![
fluence_faas::IFunctionArg {
name: String::from("arg_0"),
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ty: IType::S8,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_1"),
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ty: IType::S16,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_2"),
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ty: IType::S32,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_3"),
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ty: IType::S64,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_4"),
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ty: IType::U8,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_5"),
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ty: IType::U16,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_6"),
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ty: IType::U32,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_7"),
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ty: IType::U64,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_8"),
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ty: IType::F32,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_9"),
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ty: IType::F64,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_10"),
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ty: IType::String,
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},
fluence_faas::IFunctionArg {
name: String::from("arg_11"),
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ty: IType::Array(Box::new(IType::U8)),
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},
];
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let all_types_output_types = vec![IType::Array(Box::new(IType::U8))];
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let all_types_sign = fluence_faas::FaaSFunctionSignature {
arguments: &all_types_arguments,
output_types: &all_types_output_types,
};
let mut functions = std::collections::HashMap::new();
functions.insert("string_type", string_type_sign);
functions.insert("bytearray_type", bytearray_type_sign);
functions.insert("i32_type", i32_type_sign);
functions.insert("i64_type", i64_type_sign);
functions.insert("u32_type", u32_type_sign);
functions.insert("u64_type", u64_type_sign);
functions.insert("f32_type", f32_type_sign);
functions.insert("f64_type", f64_type_sign);
functions.insert("empty_type", empty_type_sign);
functions.insert("bool_type", bool_type_sign);
functions.insert("all_types", all_types_sign);
let mut modules = std::collections::HashMap::new();
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modules.insert("arguments_passing_pure", functions.clone());
modules.insert("arguments_passing_effector", functions);
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assert_eq!(
interface,
fluence_faas::FaaSInterface {
record_types: <_>::default(),
modules
}
);
}
#[test]
pub fn all_types() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"all_types",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"all_types",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
.call_with_json(
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"arguments_passing_pure",
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"all_types",
json!({
"arg_0": 0,
"arg_1": 1,
"arg_2": 2,
"arg_3": 3,
"arg_4": 4,
"arg_5": 5,
"arg_6": 6,
"arg_7": 7,
"arg_8": 8.1,
"arg_9": 9.1,
"arg_10": "fluence",
"arg_11": vec! [0x13, 0x37],
}),
<_>::default(),
)
.unwrap_or_else(|e| panic!("can't invoke all_types: {:?}", e));
assert_eq!(
result3,
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vec![IValue::Array(
vec![
0, 1, 0, 2, 0, 0, 0, 3, 0, 0, 0, 0, 0, 0, 0, 4, 5, 0, 6, 0, 0, 0, 7, 0, 0, 0, 0, 0,
0, 0, 65, 1, 153, 154, 64, 34, 51, 51, 51, 51, 51, 51, 102, 108, 117, 101, 110, 99,
101, 19, 55, 0, 1, 0, 2, 0, 0, 0, 3, 0, 0, 0, 0, 0, 0, 0, 4, 5, 0, 6, 0, 0, 0, 7,
0, 0, 0, 0, 0, 0, 0, 65, 1, 153, 154, 64, 34, 51, 51, 51, 51, 51, 51, 102, 108,
117, 101, 110, 99, 101, 19, 55
]
.iter()
.map(|v| IValue::U8(*v))
.collect::<Vec<_>>()
)]
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);
let result4 = faas
.call_with_json(
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"arguments_passing_pure",
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"all_types",
json!([
0,
1,
2,
3,
4,
5,
6,
7,
8.1,
9.1,
"fluence",
vec![0x13, 0x37]
]),
<_>::default(),
)
.unwrap_or_else(|e| panic!("can't invoke all_types: {:?}", e));
assert_eq!(
result4,
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vec![IValue::Array(
vec![
0, 1, 0, 2, 0, 0, 0, 3, 0, 0, 0, 0, 0, 0, 0, 4, 5, 0, 6, 0, 0, 0, 7, 0, 0, 0, 0, 0,
0, 0, 65, 1, 153, 154, 64, 34, 51, 51, 51, 51, 51, 51, 102, 108, 117, 101, 110, 99,
101, 19, 55, 0, 1, 0, 2, 0, 0, 0, 3, 0, 0, 0, 0, 0, 0, 0, 4, 5, 0, 6, 0, 0, 0, 7,
0, 0, 0, 0, 0, 0, 0, 65, 1, 153, 154, 64, 34, 51, 51, 51, 51, 51, 51, 102, 108,
117, 101, 110, 99, 101, 19, 55
]
.iter()
.map(|v| IValue::U8(*v))
.collect::<Vec<_>>()
)]
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);
}
#[test]
pub fn i32_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"i32_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"i32_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"i32_type",
json!({ "arg": 1 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke i32_type: {:?}", e));
assert_eq!(result3, vec![IValue::S32(3)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"i32_type",
json!(1),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke i32_type: {:?}", e));
assert_eq!(result4, vec![IValue::S32(3)]);
}
#[test]
pub fn i64_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"i64_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"i64_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"i64_type",
json!({ "arg": 1 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke i64_type: {:?}", e));
assert_eq!(result3, vec![IValue::S64(3)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"i64_type",
json!(1),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke i64_type: {:?}", e));
assert_eq!(result4, vec![IValue::S64(3)]);
}
#[test]
pub fn u32_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"u32_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"u32_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"u32_type",
json!({ "arg": 1 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke u32_type: {:?}", e));
assert_eq!(result3, vec![IValue::U32(3)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"u32_type",
json!(1),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke u32_type: {:?}", e));
assert_eq!(result4, vec![IValue::U32(3)]);
}
#[test]
pub fn u64_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"u64_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"u64_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"u64_type",
json!({ "arg": 1 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke u64_type: {:?}", e));
assert_eq!(result3, vec![IValue::U64(3)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"u64_type",
json!(1),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke u64_type: {:?}", e));
assert_eq!(result4, vec![IValue::U64(3)]);
}
#[test]
pub fn f32_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"f32_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"f32_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"f32_type",
json!({ "arg": 1.0 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke f32_type: {:?}", e));
assert_eq!(result3, vec![IValue::F32(3.0)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"f32_type",
json!(1.0),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke f32_type: {:?}", e));
assert_eq!(result4, vec![IValue::F32(3.0)]);
}
#[test]
pub fn f64_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"f64_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"f64_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"f64_type",
json!({ "arg": 1.0 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke f64_type: {:?}", e));
assert_eq!(result3, vec![IValue::F64(3.0)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"f64_type",
json!(1.0),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke f64_type: {:?}", e));
assert_eq!(result4, vec![IValue::F64(3.0)]);
}
#[test]
pub fn string_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"string_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"string_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
.call_with_json(
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"arguments_passing_pure",
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"string_type",
json!({ "arg": "Fluence" }),
<_>::default(),
)
.unwrap_or_else(|e| panic!("can't invoke string_type: {:?}", e));
assert_eq!(
result3,
vec![IValue::String(String::from(
"Fluence_Fluence_Fluence_Fluence"
))]
);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"string_type",
json!("Fluence"),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke string_type: {:?}", e));
assert_eq!(
result4,
vec![IValue::String(String::from(
"Fluence_Fluence_Fluence_Fluence"
))]
);
}
#[test]
pub fn bytearray_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"bytearray_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"bytearray_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
.call_with_json(
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"arguments_passing_pure",
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"bytearray_type",
json!({ "arg": [0x13, 0x37] }),
<_>::default(),
)
.unwrap_or_else(|e| panic!("can't invoke bytearray_type: {:?}", e));
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assert_eq!(
result3,
vec![IValue::Array(vec![
IValue::U8(0x13),
IValue::U8(0x37),
IValue::U8(1),
IValue::U8(1)
])]
);
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let result4 = faas
.call_with_json(
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"arguments_passing_pure",
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"bytearray_type",
json!([[0x13, 0x37]]),
<_>::default(),
)
.unwrap_or_else(|e| panic!("can't invoke bytearray_type: {:?}", e));
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assert_eq!(
result4,
vec![IValue::Array(vec![
IValue::U8(0x13),
IValue::U8(0x37),
IValue::U8(1),
IValue::U8(1)
])]
);
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}
#[test]
pub fn bool_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
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let result1 = faas.call_with_json(
"arguments_passing_pure",
"bool_type",
json!({}),
<_>::default(),
);
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assert!(result1.is_err());
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let result2 = faas.call_with_json(
"arguments_passing_pure",
"bool_type",
json!([]),
<_>::default(),
);
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assert!(result2.is_err());
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"bool_type",
json!({ "arg": 0 }),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke bool_type: {:?}", e));
assert_eq!(result3, vec![IValue::I32(1)]);
let result4 = faas
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.call_with_json(
"arguments_passing_pure",
"bool_type",
json!(0),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke bool_type: {:?}", e));
assert_eq!(result4, vec![IValue::I32(1)]);
}
#[test]
pub fn empty_type() {
let mut faas = FluenceFaaS::with_raw_config(ARG_CONFIG.clone())
.unwrap_or_else(|e| panic!("can't create Fluence FaaS instance: {:?}", e));
let result1 = faas
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.call_with_json(
"arguments_passing_pure",
"empty_type",
json!({}),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke empty_type: {:?}", e));
assert_eq!(result1, vec![IValue::String(String::from("success"))]);
let result2 = faas
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.call_with_json(
"arguments_passing_pure",
"empty_type",
json!([]),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke empty_type: {:?}", e));
assert_eq!(result2, vec![IValue::String(String::from("success"))]);
let result3 = faas
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.call_with_json(
"arguments_passing_pure",
"empty_type",
json!([]),
<_>::default(),
)
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.unwrap_or_else(|e| panic!("can't invoke empty_type: {:?}", e));
assert_eq!(result3, vec![IValue::String(String::from("success"))]);
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let result4 = faas.call_with_json(
"arguments_passing_pure",
"empty_type",
json!([1]),
<_>::default(),
);
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assert!(result4.is_err());
}