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CC-Tweaked/src/main/java/dan200/computercraft/core/apis/handles/BinaryWritableHandle.java

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Fix binary handles reading in multiples of 8192
2018-12-31 09:41:58 +00:00
/*
* This file is part of ComputerCraft - http://www.computercraft.info
Happy new year
2020-01-01 00:09:18 +00:00
* Copyright Daniel Ratcliffe, 2011-2020. Do not distribute without permission.
Fix binary handles reading in multiples of 8192
2018-12-31 09:41:58 +00:00
* Send enquiries to dratcliffe@gmail.com
*/
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
package dan200.computercraft.core.apis.handles;
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
import dan200.computercraft.api.lua.IArguments;
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
import dan200.computercraft.api.lua.LuaException;
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
import dan200.computercraft.api.lua.LuaFunction;
import dan200.computercraft.api.lua.LuaValues;
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
import java.io.Closeable;
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
import java.io.IOException;
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
import java.nio.ByteBuffer;
import java.nio.channels.FileChannel;
import java.nio.channels.SeekableByteChannel;
import java.nio.channels.WritableByteChannel;
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
public class BinaryWritableHandle extends HandleGeneric
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
{
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
private final WritableByteChannel writer;
final SeekableByteChannel seekable;
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
private final ByteBuffer single = ByteBuffer.allocate( 1 );
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
protected BinaryWritableHandle( WritableByteChannel writer, SeekableByteChannel seekable, Closeable closeable )
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
{
super( closeable );
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
this.writer = writer;
this.seekable = seekable;
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
}
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
public static BinaryWritableHandle of( WritableByteChannel channel, Closeable closeable )
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
{
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
SeekableByteChannel seekable = asSeekable( channel );
return seekable == null ? new BinaryWritableHandle( channel, null, closeable ) : new Seekable( seekable, closeable );
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
}
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
public static BinaryWritableHandle of( WritableByteChannel channel )
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
{
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
return of( channel, channel );
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
}
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
@LuaFunction
public final void write( IArguments arguments ) throws LuaException
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
{
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
checkOpen();
try
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
{
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
Object arg = arguments.get( 0 );
if( arg instanceof Number )
{
int number = ((Number) arg).intValue();
single.clear();
single.put( (byte) number );
single.flip();
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
writer.write( single );
}
else if( arg instanceof String )
{
writer.write( arguments.getBytes( 0 ) );
}
else
{
throw LuaValues.badArgumentOf( 0, "string or number", arg );
}
}
catch( IOException e )
{
throw new LuaException( e.getMessage() );
}
}
Rewrite file systems to use ByteChannels This replaces the existing IMount openFor* method with openChannelFor* ones, which return an appropriate byte channel instead. As channels are not correctly closed when GCed, we introduce a FileSystemWrapper. We store a weak reference to this, and when it is GCed or the file closed, we will remove it from our "open file" set and ensure any underlying buffers are closed. While this change may seem a little odd, it does introduce some benefits: - We can replace JarMount with a more general FileSystemMount. This does assume a read-only file system, but could technically be used for other sources. - Add support for seekable (binary) handles. We can now look for instances of SeekableByteChannel and dynamically add it. This works for all binary filesystem and HTTP streams. - Rewrite the io library to more accurately emulate PUC Lua's implementation. We do not correctly implement some elements (most noticably "*n", but it's a definite improvement.
2018-09-21 15:00:26 +00:00
Replace getMethodNames/callMethod with annotations (#447) When creating a peripheral or custom Lua object, one must implement two methods: - getMethodNames(): String[] - Returns the name of the methods - callMethod(int, ...): Object[] - Invokes the method using an index in the above array. This has a couple of problems: - It's somewhat unwieldy to use - you need to keep track of array indices, which leads to ugly code. - Functions which yield (for instance, those which run on the main thread) are blocking. This means we need to spawn new threads for each CC-side yield. We replace this system with a few changes: - @LuaFunction annotation: One may annotate a public instance method with this annotation. This then exposes a peripheral/lua object method. Furthermore, this method can accept and return a variety of types, which often makes functions cleaner (e.g. can return an int rather than an Object[], and specify and int argument rather than Object[]). - MethodResult: Instead of returning an Object[] and having blocking yields, functions return a MethodResult. This either contains an immediate return, or an instruction to yield with some continuation to resume with. MethodResult is then interpreted by the Lua runtime (i.e. Cobalt), rather than our weird bodgey hacks before. This means we no longer spawn new threads when yielding within CC. - Methods accept IArguments instead of a raw Object array. This has a few benefits: - Consistent argument handling - people no longer need to use ArgumentHelper (as it doesn't exist!), or even be aware of its existence - you're rather forced into using it. - More efficient code in some cases. We provide a Cobalt-specific implementation of IArguments, which avoids the boxing/unboxing when handling numbers and binary strings.
2020-05-15 12:21:16 +00:00
@LuaFunction
public final void flush() throws LuaException
{
checkOpen();
try
{
// Technically this is not needed
if( writer instanceof FileChannel ) ((FileChannel) writer).force( false );
}
catch( IOException ignored )
{
}
}
public static class Seekable extends BinaryWritableHandle
{
public Seekable( SeekableByteChannel seekable, Closeable closeable )
{
super( seekable, seekable, closeable );
}
@LuaFunction
public final Object[] seek( IArguments args ) throws LuaException
{
checkOpen();
return handleSeek( seekable, args );
Refactor the filesystem and HTTP code - Move the encoding/decoding from the Filesystem implementation to the individual handles. - Move each handle into an core.apis.handles package from the main fs API. - Move the HTTP response to inherit from these handles. - Allow binary handles' read function to accept a number, specifying how many characters to read - these will be returned as a Lua string. - Add readAll to binary handles - Allow binary handles' write function to accept a string which is decoded into the individual bytes. - Add "binary" argument to http.request and friends in order to return a binary handle. - Ensure file handles are open when reading from/writing to them. - Return the error message when opening a file fails.
2017-05-12 21:49:44 +00:00
}
}
}
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