JohnVitz/rustHeaderFiles · Datasets at Hugging Face

content stringlengths 3 6.31k	id int64 0 123
{ let db = checked_memory_handle ( ) ? ; let v1234 = vec ! [ 1u8 2 3 4 ] ; db . execute ( " INSERT INTO foo ( b ) VALUES ( ? 1 ) " [ & v1234 ] ) ? ; let v : Vec < u8 > = db . one_column ( " SELECT b FROM foo " ) ? ; assert_eq ! ( v v1234 ) ; Ok ( ( ) ) }	0
{ let p: Either<String, f64> = Deserialize::deserialize(de)?; Ok(p.right()) }	1
{ let mut mvoxels: Vec<Option<MetaVoxel>> = Vec::new(); let len: usize = (size.x as usize) * (size.y as usize) * (size.z as usize); mvoxels.resize(len, None); for (i, opt_voxel) in voxels.iter().enumerate() { match opt_voxel { Some(voxel) => { let mut faces: u8 = 0; let mut surrounded: bool = true; // Need to add check to see if there are empty spaces in order to add a face if voxel.x == 0 \|\| !has_neighbor(voxels, voxel, size, -1, 0, 0).unwrap()// Left { faces \|= 1 << 0; surrounded = false; } if voxel.y == 0 \|\| !has_neighbor(voxels, voxel, size, 0, -1, 0).unwrap() // Back { faces \|= 1 << 1; surrounded = false; } if voxel.z == 0 \|\| !has_neighbor(voxels, voxel, size, 0, 0, -1).unwrap() // Bottom { faces \|= 1 << 2; surrounded = false; } if ((voxel.x + 1) == (size.x as u8)) \|\| !has_neighbor(voxels, voxel, size, 1, 0, 0).unwrap() // Right { faces \|= 1 << 3; surrounded = false; } if (voxel.y + 1) == (size.y as u8) \|\| !has_neighbor(voxels, voxel, size, 0, 1, 0).unwrap() // Front { faces \|= 1 << 4; surrounded = false; } if ((voxel.z + 1) == (size.z as u8)) \|\| !has_neighbor(voxels, voxel, size, 0, 0, 1).unwrap() // Top { faces \|= 1 << 5; surrounded = false; } if !surrounded { mvoxels[i] = Some(MetaVoxel { voxel: *voxel, faces }); } } None => { } } } return mvoxels; }	2
{ let mut col = col; let mut writer = writer; let mut v = Vec::<u8>::with_capacity(((input.len() as f64) * 1.04) as usize); input.iter().for_each(\|&b\| { let encoded = encode_byte(b); v.push(encoded.0); col += match encoded.0 { ESCAPE => { v.push(encoded.1); 2 } DOT if col == 0 => { v.push(DOT); 2 } _ => 1, }; if col >= line_length { v.push(CR); v.push(LF); col = 0; } }); writer.write_all(&v)?; Ok(col) }	3
{ accept_hdr_async(stream, NoCallback).await }	4
{ let db = checked_memory_handle ( ) ? ; let s = " hello world ! " ; db . execute ( " INSERT INTO foo ( t ) VALUES ( ? 1 ) " [ & s ] ) ? ; let from : String = db . one_column ( " SELECT t FROM foo " ) ? ; assert_eq ! ( from s ) ; Ok ( ( ) ) }	5
{ for triangle in triangles { let normal_index: usize; let a_position: usize; let b_position: usize; let c_position: usize; match vertices.iter().position(\|&x\| x == triangle.a) { Some(idx) => { a_position = idx; }, None => { a_position = vertices.len(); vertices.push(triangle.a); } } match vertices.iter().position(\|&x\| x == triangle.b) { Some(idx) => { b_position = idx; }, None => { b_position = vertices.len(); vertices.push(triangle.b); } } match vertices.iter().position(\|&x\| x == triangle.c) { Some(idx) => { c_position = idx; }, None => { c_position = vertices.len(); vertices.push(triangle.c); } } match normals.iter().position(\|&x\| x == triangle.normal) { Some(idx) => { normal_index = idx; }, None => { normal_index = vertices.len(); normals.push(triangle.normal); } } idx_triangles.push(IndexedTriangle { normal: triangle.normal, normal_index, a: a_position, b: b_position, c: c_position }); } }	6
{ MessagePackSource(r) }	7
{ assert!(-32 <= val && val < 0); write_fixval(wr, Marker::FixNeg(val)) }	8
{ # [ inline ] fn from ( val : T ) - > AtomicCell < T > { AtomicCell : : new ( val ) } } impl < T : Copy + fmt : : Debug > fmt : : Debug for AtomicCell < T > { fn fmt ( & self f : & mut fmt : : Formatter < ' _ > ) - > fmt : : Result { f . debug_struct ( " AtomicCell " ) . field ( " value " & self . load ( ) ) . finish ( ) } } const fn can_transmute < A B > ( ) - > bool { ( mem : : size_of : : < A > ( ) = = mem : : size_of : : < B > ( ) ) & ( mem : : align_of : : < A > ( ) > = mem : : align_of : : < B > ( ) ) }	9
{ let input = input.into(); let output = input .graph() .new_node(input.shape()) .set_name_unique(&format!("softsign({})", input)); let _op = Softsign::new_default(input, output.clone()).build()?; Ok(output) }	10
{ assert_eq!(PageSnapshot_Metadata::VERSION, snapshot.version); let mut snapshot_proxy = PageSnapshot_new_Proxy(snapshot.inner); // TODO get a reference when too big snapshot_proxy.get(key).with(move \|raw_res\| { let state = match raw_res.map(\|res\| ledger::value_result(res)) { // the .ok() has the behavior of acting like invalid state is empty // and thus deleting invalid state and overwriting it with good state Ok(Ok(Some(buf))) => Ok(buf_to_state(&buf).ok()), Ok(Ok(None)) => { info!("No state in conflicting page"); Ok(None) } Err(err) => { warn!("FIDL failed on initial response: {:?}", err); Err(()) } Ok(Err(err)) => { warn!("Ledger failed to retrieve key: {:?}", err); Err(()) } }; done(state); }); }	11
{ assert!(low_bound < high_bound); Ok(move \|ratio\| (ratio > low_bound) && (ratio < high_bound)) }	12
{ try!(write_marker(wr, Marker::I8)); write_data_i8(wr, val) }	13
{ }	14
{ write_fixval(wr, Marker::Null) }	15
{ client_async_with_config(request, stream, None).await }	16
{ let boxes = grid_9x9_keys(); let values = s.chars().map(\|c\| match c { '.' => None, c => c.to_digit(10).map(\|d\| d as usize), }); SudokuGrid::from_iter(boxes.zip(values)) }	17
{ Sampling::<(MCLK, SrInvalid)> { data: 0b1000 << 9, t: PhantomData::<(MCLK, SrInvalid)>, } }	18
{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_nand ( val Ordering : : AcqRel ) }	19
{ use std::convert::TryFrom; let vx: i16 = voxel.x.into(); let vy: i16 = voxel.y.into(); let vz: i16 = voxel.z.into(); let pos = dot_vox::Voxel { i: voxel.i, x: u8::try_from(vx + x)?, y: u8::try_from(vy + y)?, z: u8::try_from(vz + z)? }; let neighbor: Option<dot_vox::Voxel>; let idx = get_voxel_idx(&pos, size); neighbor = voxels[idx]; return Ok(neighbor.is_some()); }	20
{ // width = 1+max(len(values[s]) for s in boxes) // let width = 2; let line = std::iter::repeat("-").take(9).collect::<String>(); let line = std::iter::repeat(line).take(3).collect::<Vec<String>>().join("+"); for r in 0..9 { let value_str = (0..9).map(\|c\| (r, c)) .map(\|k\| { let num = g[&k]; let mut num_str = num.map_or(" . ".to_string(), \|num\|{ format!("{:^3}", num) }); if k.1 == 2 \|\| k.1 == 5 { num_str += "\|"; } num_str }).collect::<String>(); println!("{}", value_str); if r == 2 \|\| r == 5 { println!("{}", line); } } }	21
{ let compressed = comp(expected_dec); assert_eq!(compressed, expected_comp); }	22
{ try!(write_bin_len(wr, data.len() as u32)); wr.write_all(data).map_err(\|err\| ValueWriteError::InvalidDataWrite(WriteError(err))) }	23
{ let parsed_vidx = download_vidx_list(vidx_list, client, logger); let pdsc_list = parsed_vidx .filter_map(move \|vidx\| vidx.map(\|v\| flatmap_pdscs(v, client, logger))) .flatten(); download_stream(config, pdsc_list, client, logger, progress).collect() }	24
{ let metadata = if request.follow_symlink { std::fs::metadata(&request.path) } else { std::fs::symlink_metadata(&request.path) }.map_err(Error::Metadata)?; let symlink = if metadata.file_type().is_symlink() { ack! { std::fs::read_link(&request.path), warn: "failed to read symlink for '{}'", request.path.display() } } else { None }; let ext_attrs = if request.collect_ext_attrs { ext_attrs(&request) } else { vec!() }; #[cfg(target_os = "linux")] let flags_linux = if !metadata.file_type().is_symlink() { ack! { ospect::fs::linux::flags(&request.path), warn: "failed to collect flags for '{}'", request.path.display() } } else { // Flags are available only for non-symlinks. For symlinks, the function // would return flags mask for the target file, which can look confusing // in the results. None }; let response = Response { path: request.path, metadata: metadata, symlink: symlink, ext_attrs: ext_attrs, #[cfg(target_os = "linux")] flags_linux: flags_linux, }; session.reply(response)?; Ok(()) }	25
{ try!(write_marker(wr, Marker::U8)); write_data_u8(wr, val) }	26
{ atomic ! { T a { a = & * ( src as * const _ as * const _ ) ; mem : : transmute_copy ( & a . load ( Ordering : : Acquire ) ) } { let lock = lock ( src as usize ) ; / / Try doing an optimistic read first . if let Some ( stamp ) = lock . optimistic_read ( ) { / / We need a volatile read here because other threads might concurrently modify the / / value . In theory data races are * always * UB even if we use volatile reads and / / discard the data when a data race is detected . The proper solution would be to / / do atomic reads and atomic writes but we can ' t atomically read and write all / / kinds of data since AtomicU8 is not available on stable Rust yet . / / Load as MaybeUninit because we may load a value that is not valid as T . let val = ptr : : read_volatile ( src . cast : : < MaybeUninit < T > > ( ) ) ; if lock . validate_read ( stamp ) { return val . assume_init ( ) ; } } / / Grab a regular write lock so that writers don ' t starve this load . let guard = lock . write ( ) ; let val = ptr : : read ( src ) ; / / The value hasn ' t been changed . Drop the guard without incrementing the stamp . guard . abort ( ) ; val } } }	27
{ # [ allow ( non_snake_case ) ] let MASK : __m128i = _mm_set_epi64x ( 0x0001_0203_0405_0607 0x0809_0A0B_0C0D_0E0F ) ; let mut state_abcd = _mm_set_epi32 ( state [ 0 ] as i32 state [ 1 ] as i32 state [ 2 ] as i32 state [ 3 ] as i32 ) ; let mut state_e = _mm_set_epi32 ( state [ 4 ] as i32 0 0 0 ) ; for block in blocks { / / SAFETY : we use only unaligned loads with this pointer # [ allow ( clippy : : cast_ptr_alignment ) ] let block_ptr = block . as_ptr ( ) as * const __m128i ; let mut w0 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 0 ) ) MASK ) ; let mut w1 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 1 ) ) MASK ) ; let mut w2 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 2 ) ) MASK ) ; let mut w3 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 3 ) ) MASK ) ; # [ allow ( clippy : : needless_late_init ) ] let mut w4 ; let mut h0 = state_abcd ; let mut h1 = _mm_add_epi32 ( state_e w0 ) ; / / Rounds 0 . . 20 h1 = _mm_sha1rnds4_epu32 ( h0 h1 0 ) ; h0 = rounds4 ! ( h1 h0 w1 0 ) ; h1 = rounds4 ! ( h0 h1 w2 0 ) ; h0 = rounds4 ! ( h1 h0 w3 0 ) ; schedule_rounds4 ! ( h0 h1 w0 w1 w2 w3 w4 0 ) ; / / Rounds 20 . . 40 schedule_rounds4 ! ( h1 h0 w1 w2 w3 w4 w0 1 ) ; schedule_rounds4 ! ( h0 h1 w2 w3 w4 w0 w1 1 ) ; schedule_rounds4 ! ( h1 h0 w3 w4 w0 w1 w2 1 ) ; schedule_rounds4 ! ( h0 h1 w4 w0 w1 w2 w3 1 ) ; schedule_rounds4 ! ( h1 h0 w0 w1 w2 w3 w4 1 ) ; / / Rounds 40 . . 60 schedule_rounds4 ! ( h0 h1 w1 w2 w3 w4 w0 2 ) ; schedule_rounds4 ! ( h1 h0 w2 w3 w4 w0 w1 2 ) ; schedule_rounds4 ! ( h0 h1 w3 w4 w0 w1 w2 2 ) ; schedule_rounds4 ! ( h1 h0 w4 w0 w1 w2 w3 2 ) ; schedule_rounds4 ! ( h0 h1 w0 w1 w2 w3 w4 2 ) ; / / Rounds 60 . . 80 schedule_rounds4 ! ( h1 h0 w1 w2 w3 w4 w0 3 ) ; schedule_rounds4 ! ( h0 h1 w2 w3 w4 w0 w1 3 ) ; schedule_rounds4 ! ( h1 h0 w3 w4 w0 w1 w2 3 ) ; schedule_rounds4 ! ( h0 h1 w4 w0 w1 w2 w3 3 ) ; schedule_rounds4 ! ( h1 h0 w0 w1 w2 w3 w4 3 ) ; state_abcd = _mm_add_epi32 ( state_abcd h0 ) ; state_e = _mm_sha1nexte_epu32 ( h1 state_e ) ; } state [ 0 ] = _mm_extract_epi32 ( state_abcd 3 ) as u32 ; state [ 1 ] = _mm_extract_epi32 ( state_abcd 2 ) as u32 ; state [ 2 ] = _mm_extract_epi32 ( state_abcd 1 ) as u32 ; state [ 3 ] = _mm_extract_epi32 ( state_abcd 0 ) as u32 ; state [ 4 ] = _mm_extract_epi32 ( state_e 3 ) as u32 ; } cpufeatures : : new ! ( shani_cpuid " sha " " sse2 " " ssse3 " " sse4 . 1 " ) ; pub fn compress ( state : & mut [ u32 ; 5 ] blocks : & [ [ u8 ; 64 ] ] ) { / / TODO : Replace with https : / / github . com / rust - lang / rfcs / pull / 2725 / / after stabilization if shani_cpuid : : get ( ) { unsafe { digest_blocks ( state blocks ) ; } } else { super : : soft : : compress ( state blocks ) ; } }	28
{ connect_async_with_tls_connector_and_config(request, connector, None).await }	29
{ use std::fs::OpenOptions; let mut in_data = dot_vox::load(ifpath).unwrap(); let mut triangles: Vec<Triangle> = Vec::new(); for model in &mut in_data.models { let size = model.size; let voxels = reorder_voxels(&mut model.voxels, &size); let mvoxels = convert_meta_voxels(&voxels, &size); triangles.append(&mut convert_triangles(&mvoxels)); } let stl_triangles: Vec<stl_io::Triangle>; stl_triangles = triangles.iter().map(\|triangle\| (*triangle).into()).collect::<Vec<_>>(); let mut file = OpenOptions::new().write(true).create(true).open(ofpath).unwrap(); stl_io::write_stl(&mut file, stl_triangles.iter()).unwrap(); }	30
{ try!(write_marker(wr, Marker::F32)); write_data_f32(wr, val) }	31
{ return (vox.x as usize) + ((vox.y as usize) * (size.x as usize)) + ((vox.z as usize) * (size.x as usize) * (size.y as usize)); }	32
{ accept_hdr_async_with_config(stream, callback, None).await }	33
{ Ok ( ( ) ) }	34
{ let mut prev = self . load ( ) ; while let Some ( next ) = f ( prev ) { match self . compare_exchange ( prev next ) { x Ok ( _ ) = > return x Err ( next_prev ) = > prev = next_prev } } Err ( prev ) }	35
{ fn is_invalid_column_type ( err : Error ) - > bool { matches ! ( err Error : : InvalidColumnType ( . . ) ) } let db = checked_memory_handle ( ) ? ; db . execute ( " INSERT INTO foo ( b t i f ) VALUES ( X ' 0102 ' ' text ' 1 1 . 5 ) " [ ] ) ? ; let mut stmt = db . prepare ( " SELECT b t i f n FROM foo " ) ? ; let mut rows = stmt . query ( [ ] ) ? ; let row = rows . next ( ) ? . unwrap ( ) ; assert_eq ! ( vec ! [ 1 2 ] row . get : : < _ Vec < u8 > > ( 0 ) ? ) ; assert_eq ! ( " text " row . get : : < _ String > ( 1 ) ? ) ; assert_eq ! ( 1 row . get : : < _ c_int > ( 2 ) ? ) ; assert ! ( ( 1 . 5 - row . get : : < _ c_double > ( 3 ) ? ) . abs ( ) < f64 : : EPSILON ) ; assert_eq ! ( row . get : : < _ Option < c_int > > ( 4 ) ? None ) ; assert_eq ! ( row . get : : < _ Option < c_double > > ( 4 ) ? None ) ; assert_eq ! ( row . get : : < _ Option < String > > ( 4 ) ? None ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 0 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_double > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 0 ) . unwrap_err ( ) ) ) ; # [ cfg ( feature = " time " ) ] assert ! ( is_invalid_column_type ( row . get : : < _ time : : OffsetDateTime > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < c_int > > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 1 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_double > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < c_int > > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 2 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 2 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < String > > ( 2 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 3 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < c_int > > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 4 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 4 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_double > ( 4 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 4 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 4 ) . unwrap_err ( ) ) ) ; # [ cfg ( feature = " time " ) ] assert ! ( is_invalid_column_type ( row . get : : < _ time : : OffsetDateTime > ( 4 ) . unwrap_err ( ) ) ) ; Ok ( ( ) ) }	36
{ if mem : : needs_drop : : < T > ( ) { unsafe { self . as_ptr ( ) . drop_in_place ( ) ; } } }	37
{ device_manager::register_driver(&s_pci_legacy_driver); device_manager::register_driver(&s_pci_native_driver); }	38
{ match with_projects(dir, search_terms, \|p\| {f(p);Ok(())}){ Ok(_) => {}, Err(e) => error!("{}",e) } }	39
{ if len < 256 { try!(write_marker(wr, Marker::Bin8)); write_data_u8(wr, len as u8).and(Ok(Marker::Bin8)) } else if len < 65536 { try!(write_marker(wr, Marker::Bin16)); write_data_u16(wr, len as u16).and(Ok(Marker::Bin16)) } else { try!(write_marker(wr, Marker::Bin32)); write_data_u32(wr, len).and(Ok(Marker::Bin32)) } }	40
{ if -32 <= val && val <= 0 { let marker = Marker::FixNeg(val as i8); try!(write_fixval(wr, marker)); Ok(marker) } else if -128 <= val && val < 128 { write_i8(wr, val as i8).and(Ok(Marker::I8)) } else if -32768 <= val && val < 32768 { write_i16(wr, val as i16).and(Ok(Marker::I16)) } else if -2147483648 <= val && val <= 2147483647 { write_i32(wr, val as i32).and(Ok(Marker::I32)) } else { write_i64(wr, val).and(Ok(Marker::I64)) } }	41
{ let request: Request = request.into_client_request()?; let domain = domain(&request)?; let port = port(&request)?; let try_socket = TcpStream::connect((domain.as_str(), port)).await; let socket = try_socket.map_err(Error::Io)?; client_async_tls_with_connector_and_config(request, socket, None, config).await }	42
{ let db = checked_memory_handle ( ) ? ; let empty = vec ! [ ] ; db . execute ( " INSERT INTO foo ( b ) VALUES ( ? 1 ) " [ & empty ] ) ? ; let v : Vec < u8 > = db . one_column ( " SELECT b FROM foo " ) ? ; assert_eq ! ( v empty ) ; Ok ( ( ) ) }	43
{ use std::io::prelude::; let stdin = stdin(); let mut reader = BufReader::with_capacity(100 1024, stdin); let mut line = String::with_capacity(100); let mut matrix: Vec<Vec<T>> = Vec::new(); while reader.read_line(&mut line).unwrap() > 0 { matrix.push( line.trim() .split_whitespace() .map(\|s\| s.parse().unwrap()) .collect(), ); line.clear(); } return matrix; }	44
{ match File::create(&path) { Err(_) => { println!("cannot create file: {:?}", path.as_ref()); exit(1) } Ok(file) => file, } }	45
{ let serialized: Vec<u8> = SimpleSerializer::serialize(object).expect("Serialization should work"); let deserialized: T = SimpleDeserializer::deserialize(&serialized).expect("Deserialization should work"); assert_eq!(*object, deserialized); }	46
{ let mut ret_voxels: Vec<Option<dot_vox::Voxel>> = Vec::new(); let len: usize = (size.x as usize) * (size.y as usize) * (size.z as usize); ret_voxels.resize(len, None); for voxel in voxels { let idx = get_voxel_idx(voxel, size); ret_voxels[idx] = Some(*voxel); } return ret_voxels; }	47
{ match val { &Value::Nil => try!(write_nil(wr)), &Value::Boolean(val) => try!(write_bool(wr, val)), // TODO: Replace with generic write_int(...). &Value::Integer(Integer::U64(val)) => { try!(write_uint(wr, val)); } &Value::Integer(Integer::I64(val)) => { try!(write_sint(wr, val)); } // TODO: Replace with generic write_float(...). &Value::Float(Float::F32(val)) => try!(write_f32(wr, val)), &Value::Float(Float::F64(val)) => try!(write_f64(wr, val)), &Value::String(ref val) => { try!(write_str(wr, &val)); } &Value::Binary(ref val) => { try!(write_bin(wr, &val)); } &Value::Array(ref val) => { try!(write_array_len(wr, val.len() as u32)); for item in val { try!(write_value(wr, item)); } } &Value::Map(ref val) => { try!(write_map_len(wr, val.len() as u32)); for &(ref key, ref val) in val { try!(write_value(wr, key)); try!(write_value(wr, val)); } } &Value::Ext(ty, ref data) => { try!(write_ext_meta(wr, data.len() as u32, ty)); try!(wr.write_all(data).map_err(\|err\| ValueWriteError::InvalidDataWrite(WriteError(err)))); } } Ok(()) }	48
{ let db = checked_memory_handle ( ) ? ; db . execute ( " INSERT INTO foo ( i ) VALUES ( ? 1 ) " [ Value : : Integer ( 10 ) ] ) ? ; assert_eq ! ( 10i64 db . one_column : : < i64 > ( " SELECT i FROM foo " ) ? ) ; Ok ( ( ) ) }	49
{ atomic ! { T a { a = & * ( dst as * const _ as * const _ ) ; let res = mem : : transmute_copy ( & a . swap ( mem : : transmute_copy ( & val ) Ordering : : AcqRel ) ) ; mem : : forget ( val ) ; res } { let _guard = lock ( dst as usize ) . write ( ) ; ptr : : replace ( dst val ) } } }	50
{ let obj: Root = serde_yaml::from_str(input).unwrap(); let id = obj.meta.id.clone().unwrap_or_else(\|\| "root".to_owned()); let scope: Vec<_> = scope.iter().map(\|s\| syn::parse_str(&s[..]).unwrap()).collect(); let ctx = parse_type("Context".to_string(), scope.clone(), obj.context); let root = parse_type(id, scope, obj.root); (obj.meta.into(), ctx, root) }	51
{ self . execute ( fut ) }	52
{ let sdl = sdl2::init().unwrap(); let video_subsystem = sdl.video().unwrap(); let display_mode = video_subsystem.current_display_mode(0).unwrap(); let w = match display_mode.w as u32 > image.width { true => image.width, false => display_mode.w as u32 }; let h = match display_mode.h as u32 > image.height { true => image.height, false => display_mode.h as u32 }; let window = video_subsystem .window("Image", w, h) .build() .unwrap(); let mut canvas = window .into_canvas() .present_vsync() .build() .unwrap(); let black = sdl2::pixels::Color::RGB(0, 0, 0); let mut event_pump = sdl.event_pump().unwrap(); // render image canvas.set_draw_color(black); canvas.clear(); for r in 0..image.height { for c in 0..image.width { let pixel = &image.pixels[image.height as usize - r as usize - 1][c as usize]; canvas.set_draw_color(Color::RGB(pixel.R as u8, pixel.G as u8, pixel.B as u8)); canvas.fill_rect(Rect::new(c as i32, r as i32, 1, 1)).unwrap(); } } canvas.present(); 'main: loop { for event in event_pump.poll_iter() { match event { sdl2::event::Event::Quit {..} => break 'main, _ => {}, } } sleep(Duration::new(0, 250000000)); } }	53
{ let mut foot_children = layout.children(); let foot_background = Primitive::Quad { bounds: layout.bounds(), background: style.foot_background, border_radius: style.border_radius, border_width: 0.0, border_color: Color::TRANSPARENT, }; let (foot, foot_mouse_interaction) = foot.as_ref().map_or_else( \|\| (Primitive::None, mouse::Interaction::default()), \|foot\| { foot.draw( renderer, &Defaults { text: defaults::Text { color: style.foot_text_color, }, }, foot_children .next() .expect("Graphics: Layout should have a foot content layout"), cursor_position, viewport, ) }, ); ( Primitive::Group { primitives: vec![foot_background, foot], }, foot_mouse_interaction, ) }	54
{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_xor ( val Ordering : : AcqRel ) }	55
{ let mut parser = Parser::new(source, source_id, shebang); let ast = parser.parse::<T>()?; parser.eof()?; Ok(ast) }	56
{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_or ( val Ordering : : AcqRel ) }	57
{ try!(write_marker(wr, Marker::I32)); write_data_i32(wr, val) }	58
{ fn fmt ( & self f : & mut fmt : : Formatter < ' _ > ) - > fmt : : Result { f . debug_struct ( " AtomicCell " ) . field ( " value " & self . load ( ) ) . finish ( ) } }	59
{ let from = from . as_ref ( ) . to_owned ( ) ; let to = to . as_ref ( ) . to_owned ( ) ; asyncify ( move \| \| std : : fs : : rename ( from to ) ) . await }	60
{ assert!(typeid >= 0); let marker = match len { 1 => { try!(write_marker(wr, Marker::FixExt1)); Marker::FixExt1 } 2 => { try!(write_marker(wr, Marker::FixExt2)); Marker::FixExt2 } 4 => { try!(write_marker(wr, Marker::FixExt4)); Marker::FixExt4 } 8 => { try!(write_marker(wr, Marker::FixExt8)); Marker::FixExt8 } 16 => { try!(write_marker(wr, Marker::FixExt16)); Marker::FixExt16 } len if len < 256 => { try!(write_marker(wr, Marker::Ext8)); try!(write_data_u8(wr, len as u8)); Marker::Ext8 } len if len < 65536 => { try!(write_marker(wr, Marker::Ext16)); try!(write_data_u16(wr, len as u16)); Marker::Ext16 } len => { try!(write_marker(wr, Marker::Ext32)); try!(write_data_u32(wr, len)); Marker::Ext32 } }; try!(write_data_i8(wr, typeid)); Ok(marker) }	61
{ try!(write_marker(wr, Marker::U64)); write_data_u64(wr, val) }	62
{ MessagePackSink(w) }	63
{ trace!("with_projects({:?})", search_terms); let luigi = try!(setup_luigi()); let projects = try!(luigi.search_projects_any(dir, search_terms)); if projects.is_empty() { return Err(format!("Nothing found for {:?}", search_terms).into()) } for project in &projects{ try!(f(project)); } Ok(()) }	64
{ wr.write_u8(marker.to_u8()).map_err(\|err\| FixedValueWriteError(From::from(err))) }	65
{ let app = app::new_app(); let matches = app.get_matches(); let in_file = matches.value_of("input").unwrap_or(INPUT_FILEPATH); let out_file: &str; if matches.is_present("stl") { out_file = matches.value_of("output").unwrap_or(OUTPUT_STL_FILEPATH); convert_vox_stl(in_file, out_file); } else if matches.is_present("dae") { out_file = matches.value_of("output").unwrap_or(OUTPUT_DAE_FILEPATH); convert_vox_dae(in_file, out_file); } else { // Need either stl or dae so not sure what to do here } }	66
{ let mut in_data = dot_vox::load(ifpath).unwrap(); let collada: collada_io::collada::Collada; let mut geometries: Vec<collada_io::geometry::Geometry> = Vec::new(); for model in &mut in_data.models { let size = model.size; let voxels = reorder_voxels(&mut model.voxels, &size); let mvoxels = convert_meta_voxels(&voxels, &size); let triangles = convert_triangles(&mvoxels); let mut vertices: Vec<Vertex> = Vec::new(); let mut normals: Vec<Normal> = Vec::new(); let mut indexed_triangles: Vec<IndexedTriangle> = Vec::new(); index_triangles(&triangles, &mut vertices, &mut normals, &mut indexed_triangles); let mut primitive: Vec<usize> = Vec::new(); primitive.reserve(indexed_triangles.len() * 3); let mut mesh_positions: Vec<f32> = Vec::new(); mesh_positions.reserve(vertices.len() * 3); // TODO: Add normals for idx_triangle in indexed_triangles { primitive.push(idx_triangle.a); primitive.push(idx_triangle.b); primitive.push(idx_triangle.c); } for vertex in vertices { mesh_positions.push(vertex.x); mesh_positions.push(vertex.y); mesh_positions.push(vertex.z); } geometries.push(collada_io::geometry::Geometry { id: Some("Voxel-mesh".to_string()), name: Some("Voxel".to_string()), mesh: collada_io::geometry::Mesh { triangles: collada_io::geometry::Triangles { vertices: "#Cube-mesh-vertices".to_string(), normals: None, tex_vertices: None, primitive: Some(primitive), material: None }, vertices: collada_io::geometry::Vertices { id: "Voxel-mesh-vertices".to_string(), name: None, source: "#Voxel-mesh-positions".to_string() }, sources: vec! { collada_io::geometry::Source { id: "Voxel-mesh-positions".to_string(), float_array: collada_io::geometry::FloatArray { id: "Voxel-mesh-positions-array".to_string(), data: mesh_positions }, accessor: collada_io::geometry::Accessor { params: vec! { "X".to_string(), "Y".to_string(), "Z".to_string() } } }, } } }); } let mut file = File::create(ofpath).unwrap(); collada = collada_io::collada::Collada { scene: Some(collada_io::scene::Scene { visual_scenes: vec!{ "#Scene".to_string() } }), visual_scenes: Some(vec!{ collada_io::scene::VisualScene { id: "Scene".to_string(), name: "Scene".to_string(), nodes: vec!{ collada_io::scene::Node { id: "Voxel".to_string(), name: "Voxel".to_string(), transformation_elements: vec!{ collada_io::scene::TransformationElement::Matrix { sid: "transform".to_string(), matrix: vec! { 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, } } }, instances: vec!{ collada_io::scene::Instance::Geometry { url: "#Voxel-mesh".to_string(), name: Some("Voxel".to_string()), sid: None, bind_material: None } } } } } }), asset: collada_io::meta::Asset::default(), geometries: Some(geometries) }; collada.write_to(&mut file).unwrap(); }	67
{ match * self { Exec : : Default = > { # [ cfg ( feature = " tcp " ) ] { tokio : : task : : spawn ( fut ) ; } # [ cfg ( not ( feature = " tcp " ) ) ] { / / If no runtime we need an executor ! panic ! ( " executor must be set " ) } } Exec : : Executor ( ref e ) = > { e . execute ( Box : : pin ( fut ) ) ; } } } } impl fmt : : Debug for Exec { fn fmt ( & self f : & mut fmt : : Formatter < ' _ > ) - > fmt : : Result { f . debug_struct ( " Exec " ) . finish ( ) } }	68
{ let mut buf = String::new(); stdin().read_line(&mut buf).unwrap(); return buf.trim().parse().unwrap(); }	69
{ unsafe { atomic_load ( self . as_ptr ( ) ) } }	70
{ if len < 16 { let marker = Marker::FixMap(len as u8); try!(write_fixval(wr, marker)); Ok(marker) } else if len < 65536 { try!(write_marker(wr, Marker::Map16)); write_data_u16(wr, len as u16).and(Ok(Marker::Map16)) } else { try!(write_marker(wr, Marker::Map32)); write_data_u32(wr, len).and(Ok(Marker::Map32)) } }	71
{ Box::new(e) }	72
{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_and ( val Ordering : : AcqRel ) }	73
{ match val { val if -32 <= val && val < 0 => { let marker = Marker::FixNeg(val as i8); try!(write_fixval(wr, marker)); Ok(marker) } val if -128 <= val && val < -32 => { write_i8(wr, val as i8).and(Ok(Marker::I8)) } val if -32768 <= val && val < -128 => { write_i16(wr, val as i16).and(Ok(Marker::I16)) } val if -2147483648 <= val && val < -32768 => { write_i32(wr, val as i32).and(Ok(Marker::I32)) } val if val < -2147483648 => { write_i64(wr, val).and(Ok(Marker::I64)) } val if 0 <= val && val < 128 => { let marker = Marker::FixPos(val as u8); try!(write_fixval(wr, marker)); Ok(marker) } val if val < 256 => { write_u8(wr, val as u8).and(Ok(Marker::U8)) } val if val < 65536 => { write_u16(wr, val as u16).and(Ok(Marker::U16)) } val if val < 4294967296 => { write_u32(wr, val as u32).and(Ok(Marker::U32)) } val => { write_i64(wr, val).and(Ok(Marker::I64)) } } }	74
{ let db = checked_memory_handle ( ) ? ; let s = " hello world ! " ; db . execute ( " INSERT INTO foo ( t ) VALUES ( ? 1 ) " [ s . to_owned ( ) ] ) ? ; let from : String = db . one_column ( " SELECT t FROM foo " ) ? ; assert_eq ! ( from s ) ; Ok ( ( ) ) }	75
{ let request: Request = request.into_client_request()?; let domain = domain(&request)?; let port = port(&request)?; let try_socket = TcpStream::connect((domain.as_str(), port)).await; let socket = try_socket.map_err(Error::Io)?; client_async_tls_with_connector_and_config(request, socket, connector, config).await }	76
{ let decompressed = dec(expected_comp).expect("Valid Decompress"); assert_eq!(decompressed, expected_dec); }	77
{ if val < 128 { let marker = Marker::FixPos(val as u8); try!(write_fixval(wr, marker)); Ok(marker) } else if val < 256 { write_u8(wr, val as u8).and(Ok(Marker::U8)) } else if val < 65536 { write_u16(wr, val as u16).and(Ok(Marker::U16)) } else if val < 4294967296 { write_u32(wr, val as u32).and(Ok(Marker::U32)) } else { write_u64(wr, val).and(Ok(Marker::U64)) } }	78
{ crate::client_async_with_config(request, TokioAdapter(stream), config).await }	79
{ accept_hdr_async_with_config(stream, NoCallback, config).await }	80
{ let mut triangles = Vec::new(); for opt_mvoxel in mvoxels { match opt_mvoxel { Some(mvoxel) => { let vleft_back_top = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vleft_front_top = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vleft_back_bottom = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 0.0, }; let vleft_front_bottom = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 0.0, }; let vright_back_top = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vright_front_top = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vright_back_bottom = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 0.0, }; let vright_front_bottom = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 0.0, }; if mvoxel.has_left() { let normal = Normal { x: 1.0, y: 0.0, z: 0.0 }; triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_back_bottom, c: vleft_front_bottom }); triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_front_top, c: vleft_front_bottom }); } if mvoxel.has_back() { let normal = Normal { x: 0.0, y: 1.0, z: 0.0 }; triangles.push(Triangle { normal, a: vleft_back_top, b: vright_back_top, c: vright_back_bottom }); triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_back_bottom, c: vright_back_bottom }); } if mvoxel.has_bottom() { let normal = Normal { x: 0.0, y: 0.0, z: 1.0 }; triangles.push(Triangle { normal, a: vleft_back_bottom, b: vleft_front_bottom, c: vright_front_bottom }); triangles.push(Triangle { normal, a: vleft_back_bottom, b: vright_back_bottom, c: vright_front_bottom }); } if mvoxel.has_right() { let normal = Normal { x: -1.0, y: 0.0, z: 0.0 }; triangles.push(Triangle { normal, a: vright_back_top, b: vright_back_bottom, c: vright_front_bottom }); triangles.push(Triangle { normal, a: vright_back_top, b: vright_front_top, c: vright_front_bottom }); } if mvoxel.has_front() { let normal = Normal { x: 0.0, y: -1.0, z: 0.0 }; triangles.push(Triangle { normal, a: vleft_front_top, b: vright_front_top, c: vright_front_bottom }); triangles.push(Triangle { normal, a: vleft_front_top, b: vleft_front_bottom, c: vright_front_bottom }); } if mvoxel.has_top() { let normal = Normal { x: 0.0, y: 0.0, z: -1.0 }; triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_front_top, c: vright_front_top }); triangles.push(Triangle { normal, a: vleft_back_top, b: vright_back_top, c: vright_front_top }); } }, None => { } } } return triangles; }	81
{ client_async_tls_with_connector_and_config(request, stream, None, config).await }	82
{ let mut buf = String::with_capacity(100); stdin().read_line(&mut buf).unwrap(); return buf.split_whitespace().map(\|s\| s.parse().unwrap()).collect(); }	83
{ let args: Vec<String> = std::env::args().collect(); if args.len() < 2 { eprintln!("Syntax: {} <filename>", args[0]); return; } let path = Path::new(&args[1]); let display = path.display(); let mut file = match File::open(&path) { Err(why) => panic!("Could not open file: {} (Reason: {})", display, why.description()), Ok(file) => file }; // read the full file into memory. panic on failure let mut raw_file = Vec::new(); file.read_to_end(&mut raw_file).unwrap(); // construct a cursor so we can seek in the raw buffer let mut cursor = Cursor::new(raw_file); let mut image = match decode_ppm_image(&mut cursor) { Ok (img) => img, Err(why) => panic!("Could not parse PPM file - Desc: {}", why.description()), }; show_image(&image); }	84
{ try!(write_marker(wr, Marker::I16)); write_data_i16(wr, val) }	85
{ f . debug_struct ( " AtomicCell " ) . field ( " value " & self . load ( ) ) . finish ( ) }	86
{ let db = Connection : : open_in_memory ( ) ? ; db . execute_batch ( " CREATE TABLE foo ( b BLOB t TEXT i INTEGER f FLOAT n ) " ) ? ; Ok ( db ) }	87
{ let mut chars = i.chars(); if let Some(f) = chars.next() { if f.is_alphabetic() \|\| f == '_' { let mut idx = 1; for c in chars { if !(c.is_alphanumeric() \|\| c == '_') { break; } idx += 1; } let id = &i[..idx]; if is_reserved(id) { Err(nom::Err::Error(E::from_error_kind(i, ErrorKind::Satisfy))) } else { Ok((&i[idx..], Ident::from_str_unchecked(id))) } } else { Err(nom::Err::Error(E::from_error_kind(i, ErrorKind::Satisfy))) } } else { Err(nom::Err::Error(E::from_error_kind(i, ErrorKind::Eof))) } }	88
{ try!(write_marker(wr, Marker::F64)); write_data_f64(wr, val) }	89
{ move \|ratio\| { if ratio_checker(ratio) { format!("{ratio:.3}") } else { format!("* {ratio:.3} *") } } }	90
{ for bases in sequence.as_ref().chunks(line_bases) { writer.write_all(bases)?; writeln!(writer)?; } Ok(()) }	91
{ client_async_tls_with_connector_and_config(request, stream, None, None).await }	92
{ let mut head_children = layout.children(); let head_background = Primitive::Quad { bounds: layout.bounds(), background: style.head_background, border_radius: style.border_radius, border_width: 0.0, border_color: Color::TRANSPARENT, }; let (head, head_mouse_interaction) = head.draw( renderer, &Defaults { text: defaults::Text { color: style.head_text_color, }, }, head_children .next() .expect("Graphics: Layout should have a head content layout"), cursor_position, viewport, ); let (close, close_mouse_interaction) = head_children.next().map_or( (Primitive::None, mouse::Interaction::default()), \|close_layout\| { let close_bounds = close_layout.bounds(); let is_mouse_over_close = close_bounds.contains(cursor_position); ( Primitive::Text { content: super::icons::Icon::X.into(), font: super::icons::ICON_FONT, size: close_layout.bounds().height + if is_mouse_over_close { 5.0 } else { 0.0 }, bounds: Rectangle { x: close_bounds.center_x(), y: close_bounds.center_y(), ..close_bounds }, color: style.close_color, horizontal_alignment: HorizontalAlignment::Center, vertical_alignment: VerticalAlignment::Center, }, if is_mouse_over_close { mouse::Interaction::Pointer } else { mouse::Interaction::default() }, ) }, ); ( Primitive::Group { primitives: vec![head_background, head, close], }, head_mouse_interaction.max(close_mouse_interaction), ) }	93
{ assert!(val < 128); write_fixval(wr, Marker::FixPos(val)) }	94
{ wr.write_u8(marker.to_u8()).map_err(From::from) }	95
{ let boxes = iproduct!(0..9, 0..9); boxes }	96
{ atomic ! { T a { a = & * ( dst as * const _ as * const _ ) ; a . store ( mem : : transmute_copy ( & val ) Ordering : : Release ) ; mem : : forget ( val ) ; } { let _guard = lock ( dst as usize ) . write ( ) ; ptr : : write ( dst val ) ; } } }	97
{ unsafe { atomic_compare_exchange_weak ( self . as_ptr ( ) current new ) } }	98
{ try!(write_marker(wr, Marker::U32)); write_data_u32(wr, val) }	99

{ let db = checked_memory_handle ( ) ? ; let v1234 = vec ! [ 1u8 2 3 4 ] ; db . execute ( " INSERT INTO foo ( b ) VALUES ( ? 1 ) " [ & v1234 ] ) ? ; let v : Vec < u8 > = db . one_column ( " SELECT b FROM foo " ) ? ; assert_eq ! ( v v1234 ) ; Ok ( ( ) ) }

0

{ let p: Either<String, f64> = Deserialize::deserialize(de)?; Ok(p.right()) }

1

{ let mut mvoxels: Vec<Option<MetaVoxel>> = Vec::new(); let len: usize = (size.x as usize) * (size.y as usize) * (size.z as usize); mvoxels.resize(len, None); for (i, opt_voxel) in voxels.iter().enumerate() { match opt_voxel { Some(voxel) => { let mut faces: u8 = 0; let mut surrounded: bool = true; // Need to add check to see if there are empty spaces in order to add a face if voxel.x == 0 || !has_neighbor(voxels, voxel, size, -1, 0, 0).unwrap()// Left { faces |= 1 << 0; surrounded = false; } if voxel.y == 0 || !has_neighbor(voxels, voxel, size, 0, -1, 0).unwrap() // Back { faces |= 1 << 1; surrounded = false; } if voxel.z == 0 || !has_neighbor(voxels, voxel, size, 0, 0, -1).unwrap() // Bottom { faces |= 1 << 2; surrounded = false; } if ((voxel.x + 1) == (size.x as u8)) || !has_neighbor(voxels, voxel, size, 1, 0, 0).unwrap() // Right { faces |= 1 << 3; surrounded = false; } if (voxel.y + 1) == (size.y as u8) || !has_neighbor(voxels, voxel, size, 0, 1, 0).unwrap() // Front { faces |= 1 << 4; surrounded = false; } if ((voxel.z + 1) == (size.z as u8)) || !has_neighbor(voxels, voxel, size, 0, 0, 1).unwrap() // Top { faces |= 1 << 5; surrounded = false; } if !surrounded { mvoxels[i] = Some(MetaVoxel { voxel: *voxel, faces }); } } None => { } } } return mvoxels; }

2

{ let mut col = col; let mut writer = writer; let mut v = Vec::<u8>::with_capacity(((input.len() as f64) * 1.04) as usize); input.iter().for_each(|&b| { let encoded = encode_byte(b); v.push(encoded.0); col += match encoded.0 { ESCAPE => { v.push(encoded.1); 2 } DOT if col == 0 => { v.push(DOT); 2 } _ => 1, }; if col >= line_length { v.push(CR); v.push(LF); col = 0; } }); writer.write_all(&v)?; Ok(col) }

3

{ accept_hdr_async(stream, NoCallback).await }

4

{ let db = checked_memory_handle ( ) ? ; let s = " hello world ! " ; db . execute ( " INSERT INTO foo ( t ) VALUES ( ? 1 ) " [ & s ] ) ? ; let from : String = db . one_column ( " SELECT t FROM foo " ) ? ; assert_eq ! ( from s ) ; Ok ( ( ) ) }

5

{ for triangle in triangles { let normal_index: usize; let a_position: usize; let b_position: usize; let c_position: usize; match vertices.iter().position(|&x| x == triangle.a) { Some(idx) => { a_position = idx; }, None => { a_position = vertices.len(); vertices.push(triangle.a); } } match vertices.iter().position(|&x| x == triangle.b) { Some(idx) => { b_position = idx; }, None => { b_position = vertices.len(); vertices.push(triangle.b); } } match vertices.iter().position(|&x| x == triangle.c) { Some(idx) => { c_position = idx; }, None => { c_position = vertices.len(); vertices.push(triangle.c); } } match normals.iter().position(|&x| x == triangle.normal) { Some(idx) => { normal_index = idx; }, None => { normal_index = vertices.len(); normals.push(triangle.normal); } } idx_triangles.push(IndexedTriangle { normal: triangle.normal, normal_index, a: a_position, b: b_position, c: c_position }); } }

6

{ MessagePackSource(r) }

7

{ assert!(-32 <= val && val < 0); write_fixval(wr, Marker::FixNeg(val)) }

8

{ # [ inline ] fn from ( val : T ) - > AtomicCell < T > { AtomicCell : : new ( val ) } } impl < T : Copy + fmt : : Debug > fmt : : Debug for AtomicCell < T > { fn fmt ( & self f : & mut fmt : : Formatter < ' _ > ) - > fmt : : Result { f . debug_struct ( " AtomicCell " ) . field ( " value " & self . load ( ) ) . finish ( ) } } const fn can_transmute < A B > ( ) - > bool { ( mem : : size_of : : < A > ( ) = = mem : : size_of : : < B > ( ) ) & ( mem : : align_of : : < A > ( ) > = mem : : align_of : : < B > ( ) ) }

9

{ let input = input.into(); let output = input .graph() .new_node(input.shape()) .set_name_unique(&format!("softsign({})", input)); let _op = Softsign::new_default(input, output.clone()).build()?; Ok(output) }

10

{ assert_eq!(PageSnapshot_Metadata::VERSION, snapshot.version); let mut snapshot_proxy = PageSnapshot_new_Proxy(snapshot.inner); // TODO get a reference when too big snapshot_proxy.get(key).with(move |raw_res| { let state = match raw_res.map(|res| ledger::value_result(res)) { // the .ok() has the behavior of acting like invalid state is empty // and thus deleting invalid state and overwriting it with good state Ok(Ok(Some(buf))) => Ok(buf_to_state(&buf).ok()), Ok(Ok(None)) => { info!("No state in conflicting page"); Ok(None) } Err(err) => { warn!("FIDL failed on initial response: {:?}", err); Err(()) } Ok(Err(err)) => { warn!("Ledger failed to retrieve key: {:?}", err); Err(()) } }; done(state); }); }

11

{ assert!(low_bound < high_bound); Ok(move |ratio| (ratio > low_bound) && (ratio < high_bound)) }

12

{ try!(write_marker(wr, Marker::I8)); write_data_i8(wr, val) }

13

{ }

14

{ write_fixval(wr, Marker::Null) }

15

{ client_async_with_config(request, stream, None).await }

16

{ let boxes = grid_9x9_keys(); let values = s.chars().map(|c| match c { '.' => None, c => c.to_digit(10).map(|d| d as usize), }); SudokuGrid::from_iter(boxes.zip(values)) }

17

{ Sampling::<(MCLK, SrInvalid)> { data: 0b1000 << 9, t: PhantomData::<(MCLK, SrInvalid)>, } }

18

{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_nand ( val Ordering : : AcqRel ) }

19

{ use std::convert::TryFrom; let vx: i16 = voxel.x.into(); let vy: i16 = voxel.y.into(); let vz: i16 = voxel.z.into(); let pos = dot_vox::Voxel { i: voxel.i, x: u8::try_from(vx + x)?, y: u8::try_from(vy + y)?, z: u8::try_from(vz + z)? }; let neighbor: Option<dot_vox::Voxel>; let idx = get_voxel_idx(&pos, size); neighbor = voxels[idx]; return Ok(neighbor.is_some()); }

20

{ // width = 1+max(len(values[s]) for s in boxes) // let width = 2; let line = std::iter::repeat("-").take(9).collect::<String>(); let line = std::iter::repeat(line).take(3).collect::<Vec<String>>().join("+"); for r in 0..9 { let value_str = (0..9).map(|c| (r, c)) .map(|k| { let num = g[&k]; let mut num_str = num.map_or(" . ".to_string(), |num|{ format!("{:^3}", num) }); if k.1 == 2 || k.1 == 5 { num_str += "|"; } num_str }).collect::<String>(); println!("{}", value_str); if r == 2 || r == 5 { println!("{}", line); } } }

21

{ let compressed = comp(expected_dec); assert_eq!(compressed, expected_comp); }

22

{ try!(write_bin_len(wr, data.len() as u32)); wr.write_all(data).map_err(|err| ValueWriteError::InvalidDataWrite(WriteError(err))) }

23

{ let parsed_vidx = download_vidx_list(vidx_list, client, logger); let pdsc_list = parsed_vidx .filter_map(move |vidx| vidx.map(|v| flatmap_pdscs(v, client, logger))) .flatten(); download_stream(config, pdsc_list, client, logger, progress).collect() }

24

{ let metadata = if request.follow_symlink { std::fs::metadata(&request.path) } else { std::fs::symlink_metadata(&request.path) }.map_err(Error::Metadata)?; let symlink = if metadata.file_type().is_symlink() { ack! { std::fs::read_link(&request.path), warn: "failed to read symlink for '{}'", request.path.display() } } else { None }; let ext_attrs = if request.collect_ext_attrs { ext_attrs(&request) } else { vec!() }; #[cfg(target_os = "linux")] let flags_linux = if !metadata.file_type().is_symlink() { ack! { ospect::fs::linux::flags(&request.path), warn: "failed to collect flags for '{}'", request.path.display() } } else { // Flags are available only for non-symlinks. For symlinks, the function // would return flags mask for the target file, which can look confusing // in the results. None }; let response = Response { path: request.path, metadata: metadata, symlink: symlink, ext_attrs: ext_attrs, #[cfg(target_os = "linux")] flags_linux: flags_linux, }; session.reply(response)?; Ok(()) }

25

{ try!(write_marker(wr, Marker::U8)); write_data_u8(wr, val) }

26

{ atomic ! { T a { a = & * ( src as * const _ as * const _ ) ; mem : : transmute_copy ( & a . load ( Ordering : : Acquire ) ) } { let lock = lock ( src as usize ) ; / / Try doing an optimistic read first . if let Some ( stamp ) = lock . optimistic_read ( ) { / / We need a volatile read here because other threads might concurrently modify the / / value . In theory data races are * always * UB even if we use volatile reads and / / discard the data when a data race is detected . The proper solution would be to / / do atomic reads and atomic writes but we can ' t atomically read and write all / / kinds of data since AtomicU8 is not available on stable Rust yet . / / Load as MaybeUninit because we may load a value that is not valid as T . let val = ptr : : read_volatile ( src . cast : : < MaybeUninit < T > > ( ) ) ; if lock . validate_read ( stamp ) { return val . assume_init ( ) ; } } / / Grab a regular write lock so that writers don ' t starve this load . let guard = lock . write ( ) ; let val = ptr : : read ( src ) ; / / The value hasn ' t been changed . Drop the guard without incrementing the stamp . guard . abort ( ) ; val } } }

27

{ # [ allow ( non_snake_case ) ] let MASK : __m128i = _mm_set_epi64x ( 0x0001_0203_0405_0607 0x0809_0A0B_0C0D_0E0F ) ; let mut state_abcd = _mm_set_epi32 ( state [ 0 ] as i32 state [ 1 ] as i32 state [ 2 ] as i32 state [ 3 ] as i32 ) ; let mut state_e = _mm_set_epi32 ( state [ 4 ] as i32 0 0 0 ) ; for block in blocks { / / SAFETY : we use only unaligned loads with this pointer # [ allow ( clippy : : cast_ptr_alignment ) ] let block_ptr = block . as_ptr ( ) as * const __m128i ; let mut w0 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 0 ) ) MASK ) ; let mut w1 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 1 ) ) MASK ) ; let mut w2 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 2 ) ) MASK ) ; let mut w3 = _mm_shuffle_epi8 ( _mm_loadu_si128 ( block_ptr . offset ( 3 ) ) MASK ) ; # [ allow ( clippy : : needless_late_init ) ] let mut w4 ; let mut h0 = state_abcd ; let mut h1 = _mm_add_epi32 ( state_e w0 ) ; / / Rounds 0 . . 20 h1 = _mm_sha1rnds4_epu32 ( h0 h1 0 ) ; h0 = rounds4 ! ( h1 h0 w1 0 ) ; h1 = rounds4 ! ( h0 h1 w2 0 ) ; h0 = rounds4 ! ( h1 h0 w3 0 ) ; schedule_rounds4 ! ( h0 h1 w0 w1 w2 w3 w4 0 ) ; / / Rounds 20 . . 40 schedule_rounds4 ! ( h1 h0 w1 w2 w3 w4 w0 1 ) ; schedule_rounds4 ! ( h0 h1 w2 w3 w4 w0 w1 1 ) ; schedule_rounds4 ! ( h1 h0 w3 w4 w0 w1 w2 1 ) ; schedule_rounds4 ! ( h0 h1 w4 w0 w1 w2 w3 1 ) ; schedule_rounds4 ! ( h1 h0 w0 w1 w2 w3 w4 1 ) ; / / Rounds 40 . . 60 schedule_rounds4 ! ( h0 h1 w1 w2 w3 w4 w0 2 ) ; schedule_rounds4 ! ( h1 h0 w2 w3 w4 w0 w1 2 ) ; schedule_rounds4 ! ( h0 h1 w3 w4 w0 w1 w2 2 ) ; schedule_rounds4 ! ( h1 h0 w4 w0 w1 w2 w3 2 ) ; schedule_rounds4 ! ( h0 h1 w0 w1 w2 w3 w4 2 ) ; / / Rounds 60 . . 80 schedule_rounds4 ! ( h1 h0 w1 w2 w3 w4 w0 3 ) ; schedule_rounds4 ! ( h0 h1 w2 w3 w4 w0 w1 3 ) ; schedule_rounds4 ! ( h1 h0 w3 w4 w0 w1 w2 3 ) ; schedule_rounds4 ! ( h0 h1 w4 w0 w1 w2 w3 3 ) ; schedule_rounds4 ! ( h1 h0 w0 w1 w2 w3 w4 3 ) ; state_abcd = _mm_add_epi32 ( state_abcd h0 ) ; state_e = _mm_sha1nexte_epu32 ( h1 state_e ) ; } state [ 0 ] = _mm_extract_epi32 ( state_abcd 3 ) as u32 ; state [ 1 ] = _mm_extract_epi32 ( state_abcd 2 ) as u32 ; state [ 2 ] = _mm_extract_epi32 ( state_abcd 1 ) as u32 ; state [ 3 ] = _mm_extract_epi32 ( state_abcd 0 ) as u32 ; state [ 4 ] = _mm_extract_epi32 ( state_e 3 ) as u32 ; } cpufeatures : : new ! ( shani_cpuid " sha " " sse2 " " ssse3 " " sse4 . 1 " ) ; pub fn compress ( state : & mut [ u32 ; 5 ] blocks : & [ [ u8 ; 64 ] ] ) { / / TODO : Replace with https : / / github . com / rust - lang / rfcs / pull / 2725 / / after stabilization if shani_cpuid : : get ( ) { unsafe { digest_blocks ( state blocks ) ; } } else { super : : soft : : compress ( state blocks ) ; } }

28

{ connect_async_with_tls_connector_and_config(request, connector, None).await }

29

{ use std::fs::OpenOptions; let mut in_data = dot_vox::load(ifpath).unwrap(); let mut triangles: Vec<Triangle> = Vec::new(); for model in &mut in_data.models { let size = model.size; let voxels = reorder_voxels(&mut model.voxels, &size); let mvoxels = convert_meta_voxels(&voxels, &size); triangles.append(&mut convert_triangles(&mvoxels)); } let stl_triangles: Vec<stl_io::Triangle>; stl_triangles = triangles.iter().map(|triangle| (*triangle).into()).collect::<Vec<_>>(); let mut file = OpenOptions::new().write(true).create(true).open(ofpath).unwrap(); stl_io::write_stl(&mut file, stl_triangles.iter()).unwrap(); }

30

{ try!(write_marker(wr, Marker::F32)); write_data_f32(wr, val) }

31

{ return (vox.x as usize) + ((vox.y as usize) * (size.x as usize)) + ((vox.z as usize) * (size.x as usize) * (size.y as usize)); }

32

{ accept_hdr_async_with_config(stream, callback, None).await }

33

{ Ok ( ( ) ) }

34

{ let mut prev = self . load ( ) ; while let Some ( next ) = f ( prev ) { match self . compare_exchange ( prev next ) { x Ok ( _ ) = > return x Err ( next_prev ) = > prev = next_prev } } Err ( prev ) }

35

{ fn is_invalid_column_type ( err : Error ) - > bool { matches ! ( err Error : : InvalidColumnType ( . . ) ) } let db = checked_memory_handle ( ) ? ; db . execute ( " INSERT INTO foo ( b t i f ) VALUES ( X ' 0102 ' ' text ' 1 1 . 5 ) " [ ] ) ? ; let mut stmt = db . prepare ( " SELECT b t i f n FROM foo " ) ? ; let mut rows = stmt . query ( [ ] ) ? ; let row = rows . next ( ) ? . unwrap ( ) ; assert_eq ! ( vec ! [ 1 2 ] row . get : : < _ Vec < u8 > > ( 0 ) ? ) ; assert_eq ! ( " text " row . get : : < _ String > ( 1 ) ? ) ; assert_eq ! ( 1 row . get : : < _ c_int > ( 2 ) ? ) ; assert ! ( ( 1 . 5 - row . get : : < _ c_double > ( 3 ) ? ) . abs ( ) < f64 : : EPSILON ) ; assert_eq ! ( row . get : : < _ Option < c_int > > ( 4 ) ? None ) ; assert_eq ! ( row . get : : < _ Option < c_double > > ( 4 ) ? None ) ; assert_eq ! ( row . get : : < _ Option < String > > ( 4 ) ? None ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 0 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_double > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 0 ) . unwrap_err ( ) ) ) ; # [ cfg ( feature = " time " ) ] assert ! ( is_invalid_column_type ( row . get : : < _ time : : OffsetDateTime > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < c_int > > ( 0 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 1 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_double > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < c_int > > ( 1 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 2 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 2 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < String > > ( 2 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 3 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Option < c_int > > ( 3 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_int > ( 4 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ i64 > ( 4 ) . err ( ) . unwrap ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ c_double > ( 4 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ String > ( 4 ) . unwrap_err ( ) ) ) ; assert ! ( is_invalid_column_type ( row . get : : < _ Vec < u8 > > ( 4 ) . unwrap_err ( ) ) ) ; # [ cfg ( feature = " time " ) ] assert ! ( is_invalid_column_type ( row . get : : < _ time : : OffsetDateTime > ( 4 ) . unwrap_err ( ) ) ) ; Ok ( ( ) ) }

36

{ if mem : : needs_drop : : < T > ( ) { unsafe { self . as_ptr ( ) . drop_in_place ( ) ; } } }

37

{ device_manager::register_driver(&s_pci_legacy_driver); device_manager::register_driver(&s_pci_native_driver); }

38

{ match with_projects(dir, search_terms, |p| {f(p);Ok(())}){ Ok(_) => {}, Err(e) => error!("{}",e) } }

39

{ if len < 256 { try!(write_marker(wr, Marker::Bin8)); write_data_u8(wr, len as u8).and(Ok(Marker::Bin8)) } else if len < 65536 { try!(write_marker(wr, Marker::Bin16)); write_data_u16(wr, len as u16).and(Ok(Marker::Bin16)) } else { try!(write_marker(wr, Marker::Bin32)); write_data_u32(wr, len).and(Ok(Marker::Bin32)) } }

40

{ if -32 <= val && val <= 0 { let marker = Marker::FixNeg(val as i8); try!(write_fixval(wr, marker)); Ok(marker) } else if -128 <= val && val < 128 { write_i8(wr, val as i8).and(Ok(Marker::I8)) } else if -32768 <= val && val < 32768 { write_i16(wr, val as i16).and(Ok(Marker::I16)) } else if -2147483648 <= val && val <= 2147483647 { write_i32(wr, val as i32).and(Ok(Marker::I32)) } else { write_i64(wr, val).and(Ok(Marker::I64)) } }

41

{ let request: Request = request.into_client_request()?; let domain = domain(&request)?; let port = port(&request)?; let try_socket = TcpStream::connect((domain.as_str(), port)).await; let socket = try_socket.map_err(Error::Io)?; client_async_tls_with_connector_and_config(request, socket, None, config).await }

42

{ let db = checked_memory_handle ( ) ? ; let empty = vec ! [ ] ; db . execute ( " INSERT INTO foo ( b ) VALUES ( ? 1 ) " [ & empty ] ) ? ; let v : Vec < u8 > = db . one_column ( " SELECT b FROM foo " ) ? ; assert_eq ! ( v empty ) ; Ok ( ( ) ) }

43

{ use std::io::prelude::*; let stdin = stdin(); let mut reader = BufReader::with_capacity(100 * 1024, stdin); let mut line = String::with_capacity(100); let mut matrix: Vec<Vec<T>> = Vec::new(); while reader.read_line(&mut line).unwrap() > 0 { matrix.push( line.trim() .split_whitespace() .map(|s| s.parse().unwrap()) .collect(), ); line.clear(); } return matrix; }

44

{ match File::create(&path) { Err(_) => { println!("cannot create file: {:?}", path.as_ref()); exit(1) } Ok(file) => file, } }

45

{ let serialized: Vec<u8> = SimpleSerializer::serialize(object).expect("Serialization should work"); let deserialized: T = SimpleDeserializer::deserialize(&serialized).expect("Deserialization should work"); assert_eq!(*object, deserialized); }

46

{ let mut ret_voxels: Vec<Option<dot_vox::Voxel>> = Vec::new(); let len: usize = (size.x as usize) * (size.y as usize) * (size.z as usize); ret_voxels.resize(len, None); for voxel in voxels { let idx = get_voxel_idx(voxel, size); ret_voxels[idx] = Some(*voxel); } return ret_voxels; }

47

{ match val { &Value::Nil => try!(write_nil(wr)), &Value::Boolean(val) => try!(write_bool(wr, val)), // TODO: Replace with generic write_int(...). &Value::Integer(Integer::U64(val)) => { try!(write_uint(wr, val)); } &Value::Integer(Integer::I64(val)) => { try!(write_sint(wr, val)); } // TODO: Replace with generic write_float(...). &Value::Float(Float::F32(val)) => try!(write_f32(wr, val)), &Value::Float(Float::F64(val)) => try!(write_f64(wr, val)), &Value::String(ref val) => { try!(write_str(wr, &val)); } &Value::Binary(ref val) => { try!(write_bin(wr, &val)); } &Value::Array(ref val) => { try!(write_array_len(wr, val.len() as u32)); for item in val { try!(write_value(wr, item)); } } &Value::Map(ref val) => { try!(write_map_len(wr, val.len() as u32)); for &(ref key, ref val) in val { try!(write_value(wr, key)); try!(write_value(wr, val)); } } &Value::Ext(ty, ref data) => { try!(write_ext_meta(wr, data.len() as u32, ty)); try!(wr.write_all(data).map_err(|err| ValueWriteError::InvalidDataWrite(WriteError(err)))); } } Ok(()) }

48

{ let db = checked_memory_handle ( ) ? ; db . execute ( " INSERT INTO foo ( i ) VALUES ( ? 1 ) " [ Value : : Integer ( 10 ) ] ) ? ; assert_eq ! ( 10i64 db . one_column : : < i64 > ( " SELECT i FROM foo " ) ? ) ; Ok ( ( ) ) }

49

{ atomic ! { T a { a = & * ( dst as * const _ as * const _ ) ; let res = mem : : transmute_copy ( & a . swap ( mem : : transmute_copy ( & val ) Ordering : : AcqRel ) ) ; mem : : forget ( val ) ; res } { let _guard = lock ( dst as usize ) . write ( ) ; ptr : : replace ( dst val ) } } }

50

{ let obj: Root = serde_yaml::from_str(input).unwrap(); let id = obj.meta.id.clone().unwrap_or_else(|| "root".to_owned()); let scope: Vec<_> = scope.iter().map(|s| syn::parse_str(&s[..]).unwrap()).collect(); let ctx = parse_type("Context".to_string(), scope.clone(), obj.context); let root = parse_type(id, scope, obj.root); (obj.meta.into(), ctx, root) }

51

{ self . execute ( fut ) }

52

{ let sdl = sdl2::init().unwrap(); let video_subsystem = sdl.video().unwrap(); let display_mode = video_subsystem.current_display_mode(0).unwrap(); let w = match display_mode.w as u32 > image.width { true => image.width, false => display_mode.w as u32 }; let h = match display_mode.h as u32 > image.height { true => image.height, false => display_mode.h as u32 }; let window = video_subsystem .window("Image", w, h) .build() .unwrap(); let mut canvas = window .into_canvas() .present_vsync() .build() .unwrap(); let black = sdl2::pixels::Color::RGB(0, 0, 0); let mut event_pump = sdl.event_pump().unwrap(); // render image canvas.set_draw_color(black); canvas.clear(); for r in 0..image.height { for c in 0..image.width { let pixel = &image.pixels[image.height as usize - r as usize - 1][c as usize]; canvas.set_draw_color(Color::RGB(pixel.R as u8, pixel.G as u8, pixel.B as u8)); canvas.fill_rect(Rect::new(c as i32, r as i32, 1, 1)).unwrap(); } } canvas.present(); 'main: loop { for event in event_pump.poll_iter() { match event { sdl2::event::Event::Quit {..} => break 'main, _ => {}, } } sleep(Duration::new(0, 250000000)); } }

53

{ let mut foot_children = layout.children(); let foot_background = Primitive::Quad { bounds: layout.bounds(), background: style.foot_background, border_radius: style.border_radius, border_width: 0.0, border_color: Color::TRANSPARENT, }; let (foot, foot_mouse_interaction) = foot.as_ref().map_or_else( || (Primitive::None, mouse::Interaction::default()), |foot| { foot.draw( renderer, &Defaults { text: defaults::Text { color: style.foot_text_color, }, }, foot_children .next() .expect("Graphics: Layout should have a foot content layout"), cursor_position, viewport, ) }, ); ( Primitive::Group { primitives: vec![foot_background, foot], }, foot_mouse_interaction, ) }

54

{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_xor ( val Ordering : : AcqRel ) }

55

{ let mut parser = Parser::new(source, source_id, shebang); let ast = parser.parse::<T>()?; parser.eof()?; Ok(ast) }

56

{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_or ( val Ordering : : AcqRel ) }

57

{ try!(write_marker(wr, Marker::I32)); write_data_i32(wr, val) }

58

{ fn fmt ( & self f : & mut fmt : : Formatter < ' _ > ) - > fmt : : Result { f . debug_struct ( " AtomicCell " ) . field ( " value " & self . load ( ) ) . finish ( ) } }

59

{ let from = from . as_ref ( ) . to_owned ( ) ; let to = to . as_ref ( ) . to_owned ( ) ; asyncify ( move | | std : : fs : : rename ( from to ) ) . await }

60

{ assert!(typeid >= 0); let marker = match len { 1 => { try!(write_marker(wr, Marker::FixExt1)); Marker::FixExt1 } 2 => { try!(write_marker(wr, Marker::FixExt2)); Marker::FixExt2 } 4 => { try!(write_marker(wr, Marker::FixExt4)); Marker::FixExt4 } 8 => { try!(write_marker(wr, Marker::FixExt8)); Marker::FixExt8 } 16 => { try!(write_marker(wr, Marker::FixExt16)); Marker::FixExt16 } len if len < 256 => { try!(write_marker(wr, Marker::Ext8)); try!(write_data_u8(wr, len as u8)); Marker::Ext8 } len if len < 65536 => { try!(write_marker(wr, Marker::Ext16)); try!(write_data_u16(wr, len as u16)); Marker::Ext16 } len => { try!(write_marker(wr, Marker::Ext32)); try!(write_data_u32(wr, len)); Marker::Ext32 } }; try!(write_data_i8(wr, typeid)); Ok(marker) }

61

{ try!(write_marker(wr, Marker::U64)); write_data_u64(wr, val) }

62

{ MessagePackSink(w) }

63

{ trace!("with_projects({:?})", search_terms); let luigi = try!(setup_luigi()); let projects = try!(luigi.search_projects_any(dir, search_terms)); if projects.is_empty() { return Err(format!("Nothing found for {:?}", search_terms).into()) } for project in &projects{ try!(f(project)); } Ok(()) }

64

{ wr.write_u8(marker.to_u8()).map_err(|err| FixedValueWriteError(From::from(err))) }

65

{ let app = app::new_app(); let matches = app.get_matches(); let in_file = matches.value_of("input").unwrap_or(INPUT_FILEPATH); let out_file: &str; if matches.is_present("stl") { out_file = matches.value_of("output").unwrap_or(OUTPUT_STL_FILEPATH); convert_vox_stl(in_file, out_file); } else if matches.is_present("dae") { out_file = matches.value_of("output").unwrap_or(OUTPUT_DAE_FILEPATH); convert_vox_dae(in_file, out_file); } else { // Need either stl or dae so not sure what to do here } }

66

{ let mut in_data = dot_vox::load(ifpath).unwrap(); let collada: collada_io::collada::Collada; let mut geometries: Vec<collada_io::geometry::Geometry> = Vec::new(); for model in &mut in_data.models { let size = model.size; let voxels = reorder_voxels(&mut model.voxels, &size); let mvoxels = convert_meta_voxels(&voxels, &size); let triangles = convert_triangles(&mvoxels); let mut vertices: Vec<Vertex> = Vec::new(); let mut normals: Vec<Normal> = Vec::new(); let mut indexed_triangles: Vec<IndexedTriangle> = Vec::new(); index_triangles(&triangles, &mut vertices, &mut normals, &mut indexed_triangles); let mut primitive: Vec<usize> = Vec::new(); primitive.reserve(indexed_triangles.len() * 3); let mut mesh_positions: Vec<f32> = Vec::new(); mesh_positions.reserve(vertices.len() * 3); // TODO: Add normals for idx_triangle in indexed_triangles { primitive.push(idx_triangle.a); primitive.push(idx_triangle.b); primitive.push(idx_triangle.c); } for vertex in vertices { mesh_positions.push(vertex.x); mesh_positions.push(vertex.y); mesh_positions.push(vertex.z); } geometries.push(collada_io::geometry::Geometry { id: Some("Voxel-mesh".to_string()), name: Some("Voxel".to_string()), mesh: collada_io::geometry::Mesh { triangles: collada_io::geometry::Triangles { vertices: "#Cube-mesh-vertices".to_string(), normals: None, tex_vertices: None, primitive: Some(primitive), material: None }, vertices: collada_io::geometry::Vertices { id: "Voxel-mesh-vertices".to_string(), name: None, source: "#Voxel-mesh-positions".to_string() }, sources: vec! { collada_io::geometry::Source { id: "Voxel-mesh-positions".to_string(), float_array: collada_io::geometry::FloatArray { id: "Voxel-mesh-positions-array".to_string(), data: mesh_positions }, accessor: collada_io::geometry::Accessor { params: vec! { "X".to_string(), "Y".to_string(), "Z".to_string() } } }, } } }); } let mut file = File::create(ofpath).unwrap(); collada = collada_io::collada::Collada { scene: Some(collada_io::scene::Scene { visual_scenes: vec!{ "#Scene".to_string() } }), visual_scenes: Some(vec!{ collada_io::scene::VisualScene { id: "Scene".to_string(), name: "Scene".to_string(), nodes: vec!{ collada_io::scene::Node { id: "Voxel".to_string(), name: "Voxel".to_string(), transformation_elements: vec!{ collada_io::scene::TransformationElement::Matrix { sid: "transform".to_string(), matrix: vec! { 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, } } }, instances: vec!{ collada_io::scene::Instance::Geometry { url: "#Voxel-mesh".to_string(), name: Some("Voxel".to_string()), sid: None, bind_material: None } } } } } }), asset: collada_io::meta::Asset::default(), geometries: Some(geometries) }; collada.write_to(&mut file).unwrap(); }

67

{ match * self { Exec : : Default = > { # [ cfg ( feature = " tcp " ) ] { tokio : : task : : spawn ( fut ) ; } # [ cfg ( not ( feature = " tcp " ) ) ] { / / If no runtime we need an executor ! panic ! ( " executor must be set " ) } } Exec : : Executor ( ref e ) = > { e . execute ( Box : : pin ( fut ) ) ; } } } } impl fmt : : Debug for Exec { fn fmt ( & self f : & mut fmt : : Formatter < ' _ > ) - > fmt : : Result { f . debug_struct ( " Exec " ) . finish ( ) } }

68

{ let mut buf = String::new(); stdin().read_line(&mut buf).unwrap(); return buf.trim().parse().unwrap(); }

69

{ unsafe { atomic_load ( self . as_ptr ( ) ) } }

70

{ if len < 16 { let marker = Marker::FixMap(len as u8); try!(write_fixval(wr, marker)); Ok(marker) } else if len < 65536 { try!(write_marker(wr, Marker::Map16)); write_data_u16(wr, len as u16).and(Ok(Marker::Map16)) } else { try!(write_marker(wr, Marker::Map32)); write_data_u32(wr, len).and(Ok(Marker::Map32)) } }

71

{ Box::new(e) }

72

{ let a = unsafe { & * ( self . as_ptr ( ) as * const AtomicBool ) } ; a . fetch_and ( val Ordering : : AcqRel ) }

73

{ match val { val if -32 <= val && val < 0 => { let marker = Marker::FixNeg(val as i8); try!(write_fixval(wr, marker)); Ok(marker) } val if -128 <= val && val < -32 => { write_i8(wr, val as i8).and(Ok(Marker::I8)) } val if -32768 <= val && val < -128 => { write_i16(wr, val as i16).and(Ok(Marker::I16)) } val if -2147483648 <= val && val < -32768 => { write_i32(wr, val as i32).and(Ok(Marker::I32)) } val if val < -2147483648 => { write_i64(wr, val).and(Ok(Marker::I64)) } val if 0 <= val && val < 128 => { let marker = Marker::FixPos(val as u8); try!(write_fixval(wr, marker)); Ok(marker) } val if val < 256 => { write_u8(wr, val as u8).and(Ok(Marker::U8)) } val if val < 65536 => { write_u16(wr, val as u16).and(Ok(Marker::U16)) } val if val < 4294967296 => { write_u32(wr, val as u32).and(Ok(Marker::U32)) } val => { write_i64(wr, val).and(Ok(Marker::I64)) } } }

74

{ let db = checked_memory_handle ( ) ? ; let s = " hello world ! " ; db . execute ( " INSERT INTO foo ( t ) VALUES ( ? 1 ) " [ s . to_owned ( ) ] ) ? ; let from : String = db . one_column ( " SELECT t FROM foo " ) ? ; assert_eq ! ( from s ) ; Ok ( ( ) ) }

75

{ let request: Request = request.into_client_request()?; let domain = domain(&request)?; let port = port(&request)?; let try_socket = TcpStream::connect((domain.as_str(), port)).await; let socket = try_socket.map_err(Error::Io)?; client_async_tls_with_connector_and_config(request, socket, connector, config).await }

76

{ let decompressed = dec(expected_comp).expect("Valid Decompress"); assert_eq!(decompressed, expected_dec); }

77

{ if val < 128 { let marker = Marker::FixPos(val as u8); try!(write_fixval(wr, marker)); Ok(marker) } else if val < 256 { write_u8(wr, val as u8).and(Ok(Marker::U8)) } else if val < 65536 { write_u16(wr, val as u16).and(Ok(Marker::U16)) } else if val < 4294967296 { write_u32(wr, val as u32).and(Ok(Marker::U32)) } else { write_u64(wr, val).and(Ok(Marker::U64)) } }

78

{ crate::client_async_with_config(request, TokioAdapter(stream), config).await }

79

{ accept_hdr_async_with_config(stream, NoCallback, config).await }

80

{ let mut triangles = Vec::new(); for opt_mvoxel in mvoxels { match opt_mvoxel { Some(mvoxel) => { let vleft_back_top = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vleft_front_top = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vleft_back_bottom = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 0.0, }; let vleft_front_bottom = Vertex { x: mvoxel.voxel.x as f32 + 0.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 0.0, }; let vright_back_top = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vright_front_top = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 1.0, }; let vright_back_bottom = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 0.0, z: mvoxel.voxel.z as f32 + 0.0, }; let vright_front_bottom = Vertex { x: mvoxel.voxel.x as f32 + 1.0, y: mvoxel.voxel.y as f32 + 1.0, z: mvoxel.voxel.z as f32 + 0.0, }; if mvoxel.has_left() { let normal = Normal { x: 1.0, y: 0.0, z: 0.0 }; triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_back_bottom, c: vleft_front_bottom }); triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_front_top, c: vleft_front_bottom }); } if mvoxel.has_back() { let normal = Normal { x: 0.0, y: 1.0, z: 0.0 }; triangles.push(Triangle { normal, a: vleft_back_top, b: vright_back_top, c: vright_back_bottom }); triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_back_bottom, c: vright_back_bottom }); } if mvoxel.has_bottom() { let normal = Normal { x: 0.0, y: 0.0, z: 1.0 }; triangles.push(Triangle { normal, a: vleft_back_bottom, b: vleft_front_bottom, c: vright_front_bottom }); triangles.push(Triangle { normal, a: vleft_back_bottom, b: vright_back_bottom, c: vright_front_bottom }); } if mvoxel.has_right() { let normal = Normal { x: -1.0, y: 0.0, z: 0.0 }; triangles.push(Triangle { normal, a: vright_back_top, b: vright_back_bottom, c: vright_front_bottom }); triangles.push(Triangle { normal, a: vright_back_top, b: vright_front_top, c: vright_front_bottom }); } if mvoxel.has_front() { let normal = Normal { x: 0.0, y: -1.0, z: 0.0 }; triangles.push(Triangle { normal, a: vleft_front_top, b: vright_front_top, c: vright_front_bottom }); triangles.push(Triangle { normal, a: vleft_front_top, b: vleft_front_bottom, c: vright_front_bottom }); } if mvoxel.has_top() { let normal = Normal { x: 0.0, y: 0.0, z: -1.0 }; triangles.push(Triangle { normal, a: vleft_back_top, b: vleft_front_top, c: vright_front_top }); triangles.push(Triangle { normal, a: vleft_back_top, b: vright_back_top, c: vright_front_top }); } }, None => { } } } return triangles; }

81

{ client_async_tls_with_connector_and_config(request, stream, None, config).await }

82

{ let mut buf = String::with_capacity(100); stdin().read_line(&mut buf).unwrap(); return buf.split_whitespace().map(|s| s.parse().unwrap()).collect(); }

83

{ let args: Vec<String> = std::env::args().collect(); if args.len() < 2 { eprintln!("Syntax: {} <filename>", args[0]); return; } let path = Path::new(&args[1]); let display = path.display(); let mut file = match File::open(&path) { Err(why) => panic!("Could not open file: {} (Reason: {})", display, why.description()), Ok(file) => file }; // read the full file into memory. panic on failure let mut raw_file = Vec::new(); file.read_to_end(&mut raw_file).unwrap(); // construct a cursor so we can seek in the raw buffer let mut cursor = Cursor::new(raw_file); let mut image = match decode_ppm_image(&mut cursor) { Ok (img) => img, Err(why) => panic!("Could not parse PPM file - Desc: {}", why.description()), }; show_image(&image); }

84

{ try!(write_marker(wr, Marker::I16)); write_data_i16(wr, val) }

85

{ f . debug_struct ( " AtomicCell " ) . field ( " value " & self . load ( ) ) . finish ( ) }

86

{ let db = Connection : : open_in_memory ( ) ? ; db . execute_batch ( " CREATE TABLE foo ( b BLOB t TEXT i INTEGER f FLOAT n ) " ) ? ; Ok ( db ) }

87

{ let mut chars = i.chars(); if let Some(f) = chars.next() { if f.is_alphabetic() || f == '_' { let mut idx = 1; for c in chars { if !(c.is_alphanumeric() || c == '_') { break; } idx += 1; } let id = &i[..idx]; if is_reserved(id) { Err(nom::Err::Error(E::from_error_kind(i, ErrorKind::Satisfy))) } else { Ok((&i[idx..], Ident::from_str_unchecked(id))) } } else { Err(nom::Err::Error(E::from_error_kind(i, ErrorKind::Satisfy))) } } else { Err(nom::Err::Error(E::from_error_kind(i, ErrorKind::Eof))) } }

88

{ try!(write_marker(wr, Marker::F64)); write_data_f64(wr, val) }

89

{ move |ratio| { if ratio_checker(ratio) { format!("{ratio:.3}") } else { format!("* {ratio:.3} *") } } }

90

{ for bases in sequence.as_ref().chunks(line_bases) { writer.write_all(bases)?; writeln!(writer)?; } Ok(()) }

91

{ client_async_tls_with_connector_and_config(request, stream, None, None).await }

92

{ let mut head_children = layout.children(); let head_background = Primitive::Quad { bounds: layout.bounds(), background: style.head_background, border_radius: style.border_radius, border_width: 0.0, border_color: Color::TRANSPARENT, }; let (head, head_mouse_interaction) = head.draw( renderer, &Defaults { text: defaults::Text { color: style.head_text_color, }, }, head_children .next() .expect("Graphics: Layout should have a head content layout"), cursor_position, viewport, ); let (close, close_mouse_interaction) = head_children.next().map_or( (Primitive::None, mouse::Interaction::default()), |close_layout| { let close_bounds = close_layout.bounds(); let is_mouse_over_close = close_bounds.contains(cursor_position); ( Primitive::Text { content: super::icons::Icon::X.into(), font: super::icons::ICON_FONT, size: close_layout.bounds().height + if is_mouse_over_close { 5.0 } else { 0.0 }, bounds: Rectangle { x: close_bounds.center_x(), y: close_bounds.center_y(), ..close_bounds }, color: style.close_color, horizontal_alignment: HorizontalAlignment::Center, vertical_alignment: VerticalAlignment::Center, }, if is_mouse_over_close { mouse::Interaction::Pointer } else { mouse::Interaction::default() }, ) }, ); ( Primitive::Group { primitives: vec![head_background, head, close], }, head_mouse_interaction.max(close_mouse_interaction), ) }

93

{ assert!(val < 128); write_fixval(wr, Marker::FixPos(val)) }

94

{ wr.write_u8(marker.to_u8()).map_err(From::from) }

95

{ let boxes = iproduct!(0..9, 0..9); boxes }

96

{ atomic ! { T a { a = & * ( dst as * const _ as * const _ ) ; a . store ( mem : : transmute_copy ( & val ) Ordering : : Release ) ; mem : : forget ( val ) ; } { let _guard = lock ( dst as usize ) . write ( ) ; ptr : : write ( dst val ) ; } } }

97

{ unsafe { atomic_compare_exchange_weak ( self . as_ptr ( ) current new ) } }

98

{ try!(write_marker(wr, Marker::U32)); write_data_u32(wr, val) }

99