compiler/rustc_errors/src/json/tests.rs - toolchain/rustc - Git at Google

 use super::*;

 use crate::json::JsonEmitter;
 use rustc_span::source_map::{FilePathMapping, SourceMap};

 use crate::emitter::{ColorConfig, HumanReadableErrorType};
 use crate::Handler;
 use rustc_serialize::json::decode;
 use rustc_span::{BytePos, Span};

 use std::str;

 #[derive(Decodable, Debug, PartialEq, Eq)]
 struct TestData {
     spans: Vec<SpanTestData>,
 }

 #[derive(Decodable, Debug, PartialEq, Eq)]
 struct SpanTestData {
     pub byte_start: u32,
     pub byte_end: u32,
     pub line_start: u32,
     pub column_start: u32,
     pub line_end: u32,
     pub column_end: u32,
 }

 struct Shared<T> {
     data: Arc<Mutex<T>>,
 }

 impl<T: Write> Write for Shared<T> {
     fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
         self.data.lock().unwrap().write(buf)
     }

     fn flush(&mut self) -> io::Result<()> {
         self.data.lock().unwrap().flush()
     }
 }

 /// Test the span yields correct positions in JSON.
 fn test_positions(code: &str, span: (u32, u32), expected_output: SpanTestData) {
     let expected_output = TestData { spans: vec![expected_output] };

     rustc_span::create_default_session_globals_then(|| {
         let sm = Lrc::new(SourceMap::new(FilePathMapping::empty()));
         sm.new_source_file(Path::new("test.rs").to_owned().into(), code.to_owned());

         let output = Arc::new(Mutex::new(Vec::new()));
         let je = JsonEmitter::new(
             Box::new(Shared { data: output.clone() }),
             None,
             sm,
             true,
             HumanReadableErrorType::Short(ColorConfig::Never),
             None,
             false,
         );

         let span = Span::with_root_ctxt(BytePos(span.0), BytePos(span.1));
         let handler = Handler::with_emitter(true, None, Box::new(je));
         handler.span_err(span, "foo");

         let bytes = output.lock().unwrap();
         let actual_output = str::from_utf8(&bytes).unwrap();
         let actual_output: TestData = decode(actual_output).unwrap();

         assert_eq!(expected_output, actual_output)
     })
 }

 #[test]
 fn empty() {
     test_positions(
         " ",
         (0, 1),
         SpanTestData {
             byte_start: 0,
             byte_end: 1,
             line_start: 1,
             column_start: 1,
             line_end: 1,
             column_end: 2,
         },
     )
 }

 #[test]
 fn bom() {
     test_positions(
         "\u{feff} ",
         (0, 1),
         SpanTestData {
             byte_start: 3,
             byte_end: 4,
             line_start: 1,
             column_start: 1,
             line_end: 1,
             column_end: 2,
         },
     )
 }

 #[test]
 fn lf_newlines() {
     test_positions(
         "\nmod foo;\nmod bar;\n",
         (5, 12),
         SpanTestData {
             byte_start: 5,
             byte_end: 12,
             line_start: 2,
             column_start: 5,
             line_end: 3,
             column_end: 3,
         },
     )
 }

 #[test]
 fn crlf_newlines() {
     test_positions(
         "\r\nmod foo;\r\nmod bar;\r\n",
         (5, 12),
         SpanTestData {
             byte_start: 6,
             byte_end: 14,
             line_start: 2,
             column_start: 5,
             line_end: 3,
             column_end: 3,
         },
     )
 }

 #[test]
 fn crlf_newlines_with_bom() {
     test_positions(
         "\u{feff}\r\nmod foo;\r\nmod bar;\r\n",
         (5, 12),
         SpanTestData {
             byte_start: 9,
             byte_end: 17,
             line_start: 2,
             column_start: 5,
             line_end: 3,
             column_end: 3,
         },
     )
 }

 #[test]
 fn span_before_crlf() {
     test_positions(
         "foo\r\nbar",
         (2, 3),
         SpanTestData {
             byte_start: 2,
             byte_end: 3,
             line_start: 1,
             column_start: 3,
             line_end: 1,
             column_end: 4,
         },
     )
 }

 #[test]
 fn span_on_crlf() {
     test_positions(
         "foo\r\nbar",
         (3, 4),
         SpanTestData {
             byte_start: 3,
             byte_end: 5,
             line_start: 1,
             column_start: 4,
             line_end: 2,
             column_end: 1,
         },
     )
 }

 #[test]
 fn span_after_crlf() {
     test_positions(
         "foo\r\nbar",
         (4, 5),
         SpanTestData {
             byte_start: 5,
             byte_end: 6,
             line_start: 2,
             column_start: 1,
             line_end: 2,
             column_end: 2,
         },
     )
 }
	use super::*;

	use crate::json::JsonEmitter;
	use rustc_span::source_map::{FilePathMapping, SourceMap};

	use crate::emitter::{ColorConfig, HumanReadableErrorType};
	use crate::Handler;
	use rustc_serialize::json::decode;
	use rustc_span::{BytePos, Span};

	use std::str;

	#[derive(Decodable, Debug, PartialEq, Eq)]
	struct TestData {
	spans: Vec<SpanTestData>,
	}

	#[derive(Decodable, Debug, PartialEq, Eq)]
	struct SpanTestData {
	pub byte_start: u32,
	pub byte_end: u32,
	pub line_start: u32,
	pub column_start: u32,
	pub line_end: u32,
	pub column_end: u32,
	}

	struct Shared<T> {
	data: Arc<Mutex<T>>,
	}

	impl<T: Write> Write for Shared<T> {
	fn write(&mut self, buf: &[u8]) -> io::Result<usize> {
	self.data.lock().unwrap().write(buf)
	}

	fn flush(&mut self) -> io::Result<()> {
	self.data.lock().unwrap().flush()
	}
	}

	/// Test the span yields correct positions in JSON.
	fn test_positions(code: &str, span: (u32, u32), expected_output: SpanTestData) {
	let expected_output = TestData { spans: vec![expected_output] };

	rustc_span::create_default_session_globals_then(\|\| {
	let sm = Lrc::new(SourceMap::new(FilePathMapping::empty()));
	sm.new_source_file(Path::new("test.rs").to_owned().into(), code.to_owned());

	let output = Arc::new(Mutex::new(Vec::new()));
	let je = JsonEmitter::new(
	Box::new(Shared { data: output.clone() }),
	None,
	sm,
	true,
	HumanReadableErrorType::Short(ColorConfig::Never),
	None,
	false,
	);

	let span = Span::with_root_ctxt(BytePos(span.0), BytePos(span.1));
	let handler = Handler::with_emitter(true, None, Box::new(je));
	handler.span_err(span, "foo");

	let bytes = output.lock().unwrap();
	let actual_output = str::from_utf8(&bytes).unwrap();
	let actual_output: TestData = decode(actual_output).unwrap();

	assert_eq!(expected_output, actual_output)
	})
	}

	#[test]
	fn empty() {
	test_positions(
	" ",
	(0, 1),
	SpanTestData {
	byte_start: 0,
	byte_end: 1,
	line_start: 1,
	column_start: 1,
	line_end: 1,
	column_end: 2,
	},
	)
	}

	#[test]
	fn bom() {
	test_positions(
	"\u{feff} ",
	(0, 1),
	SpanTestData {
	byte_start: 3,
	byte_end: 4,
	line_start: 1,
	column_start: 1,
	line_end: 1,
	column_end: 2,
	},
	)
	}

	#[test]
	fn lf_newlines() {
	test_positions(
	"\nmod foo;\nmod bar;\n",
	(5, 12),
	SpanTestData {
	byte_start: 5,
	byte_end: 12,
	line_start: 2,
	column_start: 5,
	line_end: 3,
	column_end: 3,
	},
	)
	}

	#[test]
	fn crlf_newlines() {
	test_positions(
	"\r\nmod foo;\r\nmod bar;\r\n",
	(5, 12),
	SpanTestData {
	byte_start: 6,
	byte_end: 14,
	line_start: 2,
	column_start: 5,
	line_end: 3,
	column_end: 3,
	},
	)
	}

	#[test]
	fn crlf_newlines_with_bom() {
	test_positions(
	"\u{feff}\r\nmod foo;\r\nmod bar;\r\n",
	(5, 12),
	SpanTestData {
	byte_start: 9,
	byte_end: 17,
	line_start: 2,
	column_start: 5,
	line_end: 3,
	column_end: 3,
	},
	)
	}

	#[test]
	fn span_before_crlf() {
	test_positions(
	"foo\r\nbar",
	(2, 3),
	SpanTestData {
	byte_start: 2,
	byte_end: 3,
	line_start: 1,
	column_start: 3,
	line_end: 1,
	column_end: 4,
	},
	)
	}

	#[test]
	fn span_on_crlf() {
	test_positions(
	"foo\r\nbar",
	(3, 4),
	SpanTestData {
	byte_start: 3,
	byte_end: 5,
	line_start: 1,
	column_start: 4,
	line_end: 2,
	column_end: 1,
	},
	)
	}

	#[test]
	fn span_after_crlf() {
	test_positions(
	"foo\r\nbar",
	(4, 5),
	SpanTestData {
	byte_start: 5,
	byte_end: 6,
	line_start: 2,
	column_start: 1,
	line_end: 2,
	column_end: 2,
	},
	)
	}