# Input and output streams of characters
module stream
-import string
+intrude import ropes
+
+in "C" `{
+ #include <unistd.h>
+ #include <poll.h>
+ #include <errno.h>
+ #include <string.h>
+ #include <signal.h>
+`}
# Abstract stream class
interface IOS
# Read at most i bytes
fun read(i: Int): String
do
- var s = new Buffer.with_capacity(i)
+ var s = new FlatBuffer.with_capacity(i)
while i > 0 and not eof do
var c = read_char
if c >= 0 then
fun read_line: String
do
assert not eof
- var s = new Buffer
+ var s = new FlatBuffer
append_line_to(s)
return s.to_s
end
# Read all the stream until the eof.
fun read_all: String
do
- var s = new Buffer
+ var s = new FlatBuffer
while not eof do
var c = read_char
if c >= 0 then s.add(c.ascii)
if eof then return
else
var c = x.ascii
- s.push(c)
+ s.chars.push(c)
if c == '\n' then return
end
end
end
# Is there something to read.
+ # This function returns 'false' if there is something to read.
fun eof: Bool is abstract
end
+# IStream capable of declaring if readable without blocking
+interface PollableIStream
+ super IStream
+
+ # Is there something to read? (without blocking)
+ fun poll_in: Bool is abstract
+
+end
+
# Abstract output stream
interface OStream
super IOS
# write a string
- fun write(s: String) is abstract
+ fun write(s: Text) is abstract
# Can the stream be used to write
fun is_writable: Bool is abstract
end
+# Things that can be efficienlty writen to a OStream
+#
+# The point of this interface it to allow is instance to be efficenty
+# writen into a OStream without having to allocate a big String object
+#
+# ready-to-save documents usually provide this interface.
+interface Streamable
+ # Write itself to a `stream`
+ # The specific logic it let to the concrete subclasses
+ fun write_to(stream: OStream) is abstract
+
+ # Like `write_to` but return a new String (may be quite large)
+ #
+ # This funtionnality is anectodical, since the point
+ # of streamable object to to be efficienlty written to a
+ # stream without having to allocate and concatenate strings
+ fun write_to_string: String
+ do
+ var stream = new StringOStream
+ write_to(stream)
+ return stream.to_s
+ end
+end
+
+redef class Text
+ super Streamable
+ redef fun write_to(stream) do stream.write(self)
+end
+
+redef class RopeNode
+ super Streamable
+end
+
+redef class Leaf
+
+ redef fun write_to(s) do s.write(str)
+end
+
+redef class Concat
+
+ redef fun write_to(s)
+ do
+ if left != null then left.write_to(s)
+ if right != null then right.write_to(s)
+ end
+end
+
+redef class RopeString
+
+ redef fun write_to(s) do root.write_to(s)
+end
+
# Input streams with a buffer
abstract class BufferedIStream
super IStream
if _buffer_pos >= _buffer.length then
return -1
end
- var c = _buffer[_buffer_pos]
+ var c = _buffer.chars[_buffer_pos]
_buffer_pos += 1
return c.ascii
end
redef fun read(i)
do
- var s = new Buffer.with_capacity(i)
- var j = _buffer_pos
- var k = _buffer.length
- while i > 0 do
- if j >= k then
+ if _buffer.length == _buffer_pos then
+ if not eof then
fill_buffer
- if eof then return s.to_s
- j = _buffer_pos
- k = _buffer.length
- end
- while j < k and i > 0 do
- s.add(_buffer[j])
- j += 1
- i -= 1
+ return read(i)
end
+ return ""
end
- _buffer_pos = j
- return s.to_s
+ if _buffer_pos + i >= _buffer.length then
+ var from = _buffer_pos
+ _buffer_pos = _buffer.length
+ return _buffer.substring_from(from).to_s
+ end
+ _buffer_pos += i
+ return _buffer.substring(_buffer_pos - i, i).to_s
end
redef fun read_all
do
- var s = new Buffer
+ var s = new FlatBuffer
while not eof do
var j = _buffer_pos
var k = _buffer.length
loop
# First phase: look for a '\n'
var i = _buffer_pos
- while i < _buffer.length and _buffer[i] != '\n' do i += 1
+ while i < _buffer.length and _buffer.chars[i] != '\n' do i += 1
# if there is something to append
if i > _buffer_pos then
# Copy from the buffer to the string
var j = _buffer_pos
while j < i do
- s.add(_buffer[j])
+ s.add(_buffer.chars[j])
j += 1
end
end
redef fun eof do return _buffer_pos >= _buffer.length and end_reached
# The buffer
- var _buffer: nullable Buffer = null
+ private var buffer: nullable FlatBuffer = null
# The current position in the buffer
- var _buffer_pos: Int = 0
+ private var buffer_pos: Int = 0
# Fill the buffer
protected fun fill_buffer is abstract
# Allocate a `_buffer` for a given `capacity`.
protected fun prepare_buffer(capacity: Int)
do
- _buffer = new Buffer.with_capacity(capacity)
+ _buffer = new FlatBuffer.with_capacity(capacity)
_buffer_pos = 0 # need to read
end
end
private fun native_read(i: Int, buf: NativeString, len: Int): Int is extern "stream_FDStream_FDStream_native_read_3"
private fun native_write(i: Int, buf: NativeString, len: Int): Int is extern "stream_FDStream_FDStream_native_write_3"
private fun native_write_char(i: Int, c: Char): Int is extern "stream_FDStream_FDStream_native_write_char_2"
-
- init(fd: Int) do self.fd = fd
end
class FDIStream
if nb == -1 then eof = true
return nb
end
-
- init(fd: Int) do end
end
class FDOStream
super FDStream
super OStream
- redef var is_writable: Bool
+ redef var is_writable = true
redef fun write(s)
do
var nb = native_write(fd, s.to_cstring, s.length)
if nb < s.length then is_writable = false
end
-
- init(fd: Int)
- do
- is_writable = true
- end
end
class FDIOStream
super FDIStream
super FDOStream
super IOStream
- init(fd: Int)
- do
- self.fd = fd
- is_writable = true
- end
end
redef interface Object
end
end
- private fun intern_poll( in_fds : Array[Int], out_fds : Array[Int] ) : nullable Int is extern import Array::length, Array::[], nullable Object as ( Int ), Int as nullable
+ private fun intern_poll(in_fds: Array[Int], out_fds: Array[Int]) : nullable Int is extern import Array[Int].length, Array[Int].[], Int.as(nullable Int) `{
+ int in_len, out_len, total_len;
+ struct pollfd *c_fds;
+ sigset_t sigmask;
+ int i;
+ int first_polled_fd = -1;
+ int result;
+
+ in_len = Array_of_Int_length( in_fds );
+ out_len = Array_of_Int_length( out_fds );
+ total_len = in_len + out_len;
+ c_fds = malloc( sizeof(struct pollfd) * total_len );
+
+ /* input streams */
+ for ( i=0; i<in_len; i ++ ) {
+ int fd;
+ fd = Array_of_Int__index( in_fds, i );
+
+ c_fds[i].fd = fd;
+ c_fds[i].events = POLLIN;
+ }
+
+ /* output streams */
+ for ( i=0; i<out_len; i ++ ) {
+ int fd;
+ fd = Array_of_Int__index( out_fds, i );
+
+ c_fds[i].fd = fd;
+ c_fds[i].events = POLLOUT;
+ }
+
+ /* poll all fds, unlimited timeout */
+ result = poll( c_fds, total_len, -1 );
+
+ if ( result > 0 ) {
+ /* analyse results */
+ for ( i=0; i<total_len; i++ )
+ if ( c_fds[i].revents & c_fds[i].events || /* awaited event */
+ c_fds[i].revents & POLLHUP ) /* closed */
+ {
+ first_polled_fd = c_fds[i].fd;
+ break;
+ }
+
+ return Int_as_nullable( first_polled_fd );
+ }
+ else if ( result < 0 )
+ fprintf( stderr, "Error in Stream:poll: %s\n", strerror( errno ) );
+
+ return null_Int();
+ `}
+end
+
+# Stream to a String. Mainly used for compatibility with OStream type and tests.
+class StringOStream
+ super OStream
+
+ private var content = new Array[String]
+ redef fun to_s do return content.to_s
+ redef fun is_writable do return not closed
+ redef fun write(str)
+ do
+ assert not closed
+ content.add(str.to_s)
+ end
+
+ protected var closed = false
+ redef fun close do closed = true
end