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294f76acd42d11770d49a54b7d98cc74305ad905
gp4/Tests/p4rseTests/ExpressionTests/FunctionCall.swift
T
Will Hawkins 294f76acd4
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compiler: Refactor Compiler To Remove Ambiguities 
There were significant overlaps in the names of data structures
between the compiler and the language that made it necessary
to litter the code with P4Lang.xxxx. This refactor removes that
requirement in most places (Parser is ambiguous wherever TreeSitter
is used -- cannot avoid that!)

Signed-off-by: Will Hawkins <hawkinsw@obs.cr>
2026-05-27 12:59:29 -04:00

187 lines
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// 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 <https://www.gnu.org/licenses/>.
import Common
import Foundation
import Macros
import P4Lang
import P4Runtime
import SwiftTreeSitter
import Testing
import TreeSitter
import TreeSitterP4
@testable import P4Compiler
@Test func test_function_call_scoped_name_collision() async throws {
let simple_parser_declaration = """
bool functionb(bool c) {
return c;
};
parser main_parser() {
state start {
int c = 5;
bool b = functionb(true);
transition select (b) {
false: reject;
true: accept;
};
}
};
"""
let program = try #UseOkResult(SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration))
let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
let runtime = try #UseOkResult(P4Runtime.Runtime<InstantiatedParserState, P4Lang.ParserValue>.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(parser.states.count() == 1)
#expect(state_result == P4Lang.accept)
}
@Test func test_function_call_scoped_name_collision2() async throws {
// Test whether the assignment to c leaks out of the function call scope.
let simple_parser_declaration = """
bool functionb(bool c) {
c = true;
return c;
};
parser main_parser() {
state start {
bool c = false;
bool b = functionb(true);
transition select (c) {
false: reject;
true: accept;
};
}
};
"""
let program = try #UseOkResult(SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration))
let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
let runtime = try #UseOkResult(P4Runtime.Runtime<InstantiatedParserState, P4Lang.ParserValue>.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(parser.states.count() == 1)
#expect(state_result == P4Lang.reject)
}
@Test func test_function_call_scoped_name_collision_inout() async throws {
let simple_parser_declaration = """
bool functionb(inout bool c) {
c = true;
return c;
};
parser main_parser() {
state start {
bool c = false;
bool b = functionb(c);
transition select (c) {
false: reject;
true: accept;
};
}
};
"""
let program = try #UseOkResult(SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration))
let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
let runtime = try #UseOkResult(P4Runtime.Runtime<InstantiatedParserState, P4Lang.ParserValue>.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(parser.states.count() == 1)
#expect(state_result == P4Lang.accept)
}
@Test func test_function_call_integer_return_value() async throws {
let simple_parser_declaration = """
int functionb(int c) {
return c;
};
parser main_parser() {
state start {
int c = 5;
transition select (5 == functionb(c)) {
false: reject;
true: accept;
};
}
};
"""
let program = try #UseOkResult(SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration))
let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
let runtime = try #UseOkResult(P4Runtime.Runtime<InstantiatedParserState, P4Lang.ParserValue>.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(parser.states.count() == 1)
#expect(state_result == P4Lang.accept)
}
@Test func test_function_call_integer_return_value2() async throws {
let simple_parser_declaration = """
int functionb(int c) {
return c;
};
parser main_parser() {
state start {
int c = 5;
transition select (4 == functionb(c)) {
false: reject;
true: accept;
};
}
};
"""
let program = try #UseOkResult(SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration))
let parser = try #UseOkResult(program.find_parser(withName: Identifier(name: "main_parser")))
let runtime = try #UseOkResult(P4Runtime.Runtime<InstantiatedParserState, P4Lang.ParserValue>.create(program: program))
let (state_result, _) = try! #UseOkResult(runtime.run())
#expect(parser.states.count() == 1)
#expect(state_result == P4Lang.reject)
}
@Test func test_function_call_invalid_return_type() async throws {
let simple_parser_declaration = """
int functionb(int c) {
return true;
};
parser main_parser() {
state start {
int c = 5;
transition select (4 == functionb(c)) {
false: reject;
true: accept;
};
}
};
"""
let error = try #UseErrorResult(SpecialCompilers.ProgramCompiler.Compile(simple_parser_declaration))
#expect(error.msg().contains("{29, 12}: Type of expression in return statement (Boolean) is not compatible with function return type (Int (width: Infinite))"))
}
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