// p4rse, Copyright 2026, Will Hawkins
//
// This file is part of p4rse.
//
// This file is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see .
import Common
import Foundation
import Macros
import P4Lang
import P4Runtime
import SwiftTreeSitter
import Testing
import TreeSitter
import TreeSitterP4
@testable import P4Compiler
@Test func test_struct_equality_empty() async throws {
let simple_parser_declaration = """
parser main_parser() {
state start {
Testing one;
Testing two;
transition select (one == two) {
true: accept;
false: reject;
};
}
};
"""
let fields = P4StructFields([
P4StructFieldIdentifier(name: "yesno", withType: P4QualifiedType(P4Boolean())),
P4StructFieldIdentifier(name: "count", withType: P4QualifiedType(P4Int())),
])
var test_types = TypeTypeScopes().enter()
let struct_type = P4Struct(withName: Identifier(name: "Testing"), andFields: fields)
test_types = test_types.declare(identifier: Identifier(name: "Testing"), withValue: struct_type)
let program = try #UseOkResult(
SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration, withGlobalInstances: .none, withGlobalTypes: test_types))
let runtime = try #UseOkResult(P4Runtime.Runtime.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(state_result == P4Lang.accept)
}
@Test func test_struct_equality_one_empty() async throws {
let simple_parser_declaration = """
parser main_parser() {
state start {
Testing one;
Testing two;
one.yesno = true;
transition select (one == two) {
true: accept;
false: reject;
};
}
};
"""
let fields = P4StructFields([
P4StructFieldIdentifier(name: "yesno", withType: P4QualifiedType(P4Boolean())),
P4StructFieldIdentifier(name: "count", withType: P4QualifiedType(P4Int())),
])
var test_types = TypeTypeScopes().enter()
let struct_type = P4Struct(withName: Identifier(name: "Testing"), andFields: fields)
test_types = test_types.declare(identifier: Identifier(name: "Testing"), withValue: struct_type)
let program = try #UseOkResult(
SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration, withGlobalInstances: .none, withGlobalTypes: test_types))
let runtime = try #UseOkResult(P4Runtime.Runtime.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(state_result == P4Lang.reject)
}
@Test func test_struct_equality_neither_empty() async throws {
let simple_parser_declaration = """
parser main_parser() {
state start {
Testing one;
Testing two;
one.yesno = true;
two.yesno = true;
transition select (one == two) {
true: accept;
false: reject;
};
}
};
"""
let fields = P4StructFields([
P4StructFieldIdentifier(name: "yesno", withType: P4QualifiedType(P4Boolean())),
P4StructFieldIdentifier(name: "count", withType: P4QualifiedType(P4Int())),
])
var test_types = TypeTypeScopes().enter()
let struct_type = P4Struct(withName: Identifier(name: "Testing"), andFields: fields)
test_types = test_types.declare(identifier: Identifier(name: "Testing"), withValue: struct_type)
let program = try #UseOkResult(
SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration, withGlobalInstances: .none, withGlobalTypes: test_types))
let runtime = try #UseOkResult(P4Runtime.Runtime.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(state_result == P4Lang.accept)
}
@Test func test_struct_equality_neither_empty2() async throws {
let simple_parser_declaration = """
parser main_parser() {
state start {
Testing one;
Testing two;
one.yesno = true;
two.yesno = true;
one.count = 5;
two.count = 5;
transition select (one == two) {
true: accept;
false: reject;
};
}
};
"""
let fields = P4StructFields([
P4StructFieldIdentifier(name: "yesno", withType: P4QualifiedType(P4Boolean())),
P4StructFieldIdentifier(name: "count", withType: P4QualifiedType(P4Int())),
])
var test_types = TypeTypeScopes().enter()
let struct_type = P4Struct(withName: Identifier(name: "Testing"), andFields: fields)
test_types = test_types.declare(identifier: Identifier(name: "Testing"), withValue: struct_type)
let program = try #UseOkResult(
SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration, withGlobalInstances: .none, withGlobalTypes: test_types))
let runtime = try #UseOkResult(P4Runtime.Runtime.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(state_result == P4Lang.accept)
}
@Test func test_struct_equality_neither_empty3() async throws {
let simple_parser_declaration = """
parser main_parser() {
state start {
Testing one;
Testing two;
one.yesno = true;
two.yesno = true;
one.count = 5;
two.count = 6;
transition select (one == two) {
true: accept;
false: reject;
};
}
};
"""
let fields = P4StructFields([
P4StructFieldIdentifier(name: "yesno", withType: P4QualifiedType(P4Boolean())),
P4StructFieldIdentifier(name: "count", withType: P4QualifiedType(P4Int())),
])
var test_types = TypeTypeScopes().enter()
let struct_type = P4Struct(withName: Identifier(name: "Testing"), andFields: fields)
test_types = test_types.declare(identifier: Identifier(name: "Testing"), withValue: struct_type)
let program = try #UseOkResult(
SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration, withGlobalInstances: .none, withGlobalTypes: test_types))
let runtime = try #UseOkResult(P4Runtime.Runtime.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(state_result == P4Lang.reject)
}