| Commit message (Collapse) | Author | Age | Files | Lines |
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Uri to handle relative path
Fix IOUtil.cleanPathString(..) special case:
Special case '/a/./../b' -> '/b'
requires to resolve './' before '../'.
Allow IOUtil and Uri to handle relative path:
- IOUtil.getParentOf(..)
- IOUtil.cleanPathString(..)
Handle cases:
'a/./../b' -> 'b'
'.././b' -> '../b'
- Uri: Handle null scheme
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ensure launched native exe process terminates.
See Bug 1219 comment 58: It seems that on some Windows platforms
the launched native process using our test-exe keeps running
even though we issued Process.waitFor().
Hence we issue Process.destroy() in the finalize block
to at least attempt to terminate it.
Note: The Process implementation is platform specific and may vary.
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IOUtil.testDirExe():
- Satisfactory when executed
Failure to execute produce an IOException right at ProcessBuilder.start().
Hence we can allow an unexpected process exit value,
since we only want to learn whether executable files are allowed.
- More debug options
DEBUG_EXE: 'jogamp.debug.IOUtil.Exe'
DEBUG_EXE_NOSTREAM: 'jogamp.debug.IOUtil.Exe.NoStream'
- if DEBUG_EXE
- a pre-existing 'jogamp_exe_tst'+<SUFFIX> will be used as-is.
- the test-exe will not be deleted
- StreamMonitor is being used to dump stdout/stderr
if !DEBUG_EXE_NOSTREAM.
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Windows using 'exe-windows-i586-268b.bin' (Fix attempt #1)
Replacing the tiny 268 byte sized 'exe-windows-i586-268b.bin' PE file
w/ a regular 2048 byte sized PE file 'exe-windows-i386-2048b.bin'.
File is produced via:
c:\mingw\bin\gcc -nodefaultlibs -nostdlib -s -Os -o tiny.exe tiny.c
Adding the 305 byte sized gzipped version 'exe-windows-i386-2048b.bin.305b.gz'
to the gluegen-rt jar file to reduce the payload for non Windows platforms.
Adding special property 'jogamp.debug.IOUtil.Exe' to debug testing the exe file,
enable via '-Djogamp.debug.IOUtil.Exe'.
Passes here on all Windows machines, however, the prev. one worked here as well.
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- Use InterruptSource.Thread.create(..),
while reducing InterruptSource.Thread ctors to 3 variants.
- Use InterruptSource.Thread instead of java.lang.Thread where possible
- Use SourcedInterruptedException where possible
- SingletonInstanceServerSocket: start(), stop() and run()
- Persistent-Wait and Cancelable
- Add @since 2.3.2
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'jogamp.debug.JNILibLoader.Perf'
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'natives/os.and.arch', reducing JAR search.
Since all native libraries are now contained within 'natives/os.and.arch',
we don't need to search the whole JAR file anymore
but simply can copy the content of the defined folder - if existing.
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PlatformPropsImpl.findSysLib(..).
This patch partially reverts of commit d12e4d4ea279998b27457691038e709879dcaca6.
NativeLibrary.open(..) requires search of system libraries,
since it loads the actual 'tool library' for which we generate the JNI binding.
The 'tool library' is preferably the system wide installed version,
e.g. libGL.so etc.
PlatformPropsImpl.findSysLib(..) also requires finding system libraries
as needed for PlatformPropsImpl.queryElfFile(..), i.e. using libjava.so etc.
Only the JNI 'glue library', glueing java calls to the 'tool library',
shall not use the system wide library search since we shall only use
JogAmp provided instances here.
This patch also reinstates binary compatibility w/ prev. GlueGen JARs
since NativeLibrary.enumerateLibraryPath(..) is public.
+++
Further more 'NativeLibrary.enumerateLibraryPath(..)'
now adds OSX system framework search _before_ the user path
in case 'searchSystemPath && searchSystemPathFirst'.
Original code always added this search to the end,
which does not match the intended behavior (-> bug).
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and bitCount(), add unit test (passed)
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tests
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ArrayHashMap; Unify ctor for both impl.
Add/Enhance unit tests for both.
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-> v23x
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regexp-constant and java-parser. (Due to PCPP -> JCPP)
Lack of parsing binary exponent floats is exposed due to using JCPP
and correct constant-definitions.
- JavaParser.g:
- Add support for hexadecimal w/ binary exponent floats
- TAB -> 4 spaces
- ConstantDefinition.java:
- Add RegExp 'fpRegexp', patternDecimalNumber:
decimal number w/ support for hexadecimal w/ binary exponent floats.
- isDecimalNumber(..): Use patternDecimalNumber
instead of try-and-error (NumberFormatException)
- patternCPPOperand: exclude patternDecimalNumber!
- JavaEmitter.java:
- Respect explicit suffix [dD] for double type.
- Drop floating point suffixes [fF]
- Test: Added tests for hexadecimal w/ binary exponent floats
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JCPP submodule, build, test and doc)
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MethodBinding/FunctionBinding Semantics
- Clarify name semantics: name -> [interfaceName, implName, nativeName]
- JavaMethodBindingEmitter: Refine native identity via isNativeMethod + isPrivateNativeMethod
- ProcAddressEmitter: Remove hack whether we need to wrap .. use isNativeMethod + isPrivateNativeMethod
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reduce test time (was: > 10 min)
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- We shall be able to import 'most' vanilla GL header,
i.e. only change the typedef part using our GlueGen types
- Type Safety:
- GlueGen now detects '#define' and 'enum' redefines
and throw an exception in this case.
This helps detecting wrongly renamed GL extensions into core!
- GlueGen now detects function redefines (overloading)
and throw an exception in this case.
Hence the semantics of duplicate functions has to be equal!
This helps detecting wrongly renamed GL extensions into core!
- Semantic equality for all types is provided
via interface TypeComparator.SemanticEqualityOp, i.e. 'boolean equalSemantics(..)'
implemented by com.jogamp.gluegen.cgram.types.Type.
Semantic equality can be relaxed via config "RelaxedEqualSemanticsTest true",
i.e. ignoring integer size, and const / volatile qualifiers.
- All equality/hash methods of 'com.jogamp.gluegen.cgram.types.*'
are restructured.
- Track and simplify renamed 'symbol', i.e. use a common
sub-interface for all renamed symbols (ConstantDefinition, FunctionSymbol, ..)
- This is provided in a unified manner
via interface com.jogamp.gluegen.cgram.types.AliasedSymbol
and its common implementation AliasedSymbolImpl
- All JavaConfiguration.shouldIgnore* methods operate w/
'AliasedSymbol' trying to match all aliases.
- Support 'struct NAME [ { ... } ]' w/o typedef's
- New GL / CL headers do not use typedef's for anonymous opaque types
- Opaque Type handling
- JavaConfiguration.typeInfo(..), identifying opaque types,
no more back references from target-type -> typedef.
Hence the following is possible now:
typedef void * Opaque01; // Opaque
typedef void * APointerBuffer; // A Buffer
- All Logger instances are no more static
and derive their warning level from the package's root Logger
via Logging.getLogger(..).
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commit 3b43a223253176731567c6d8b7a67c9a6110782b
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matching StaticConfig at runtime; Fix PPC (Bug 1056) and MIPSLE (Bug 1014) issues.
Currently the StaticConfig is being queried
via the key[OSType, CPUType ..]
as pre-determined by Java properties or the ELF parser.
This adds complication to maintain different platforms
and the key query might not even be sufficient.
The MachineDescriptor's StaticConfig only purpose shall be
to speed-up native data size and offset/alignment retrieval.
This is done by using the StaticConfig index within
all StaticConfig[]s as a lookup-index for the precomputed
struct's size and offset tables.
+++
Solution:
Rename: MachineDescriptor -> MachineDataInfo
Rename: MachineDescriptorRuntime -> MachineDataInfoRuntime
After having defined os.and.arch (OSType, CPUType and ABIType)
w/ the optional help of the now self containing ELF Reader (Bug 1125),
the native gluegen-rt library gets loaded enabling JNI methods.
It is satisfactory to retrieve MachineDataInfo
at runtime w/ JNI and find the matching/compatible StaticConfig.
Only in case none is found, the program needs to abort.
Otherwise the found MachineDataInfo.StaticConfig and MachineDataInfo
are stored for further use (see above).
This removes above complication and key to StaticConfig mapping.
New platforms simply need to add a new unique entry into the
StaticConfig[] table.
++
Also fixes Bug 1056 (PPC), thanks to tmancill [@] debian [.] org,
and Bug 1014 (MIPSLE), thanks to Dejan Latinovic.
Parts of the patch for Bug 1014 from Dejan Latinovic are included.
also solved by this change set.
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ELF Reader 'jogamp.common.os.elf' currently uses
Platform's pre-determined OS_TYPE and CPUType.
It also uses the host platforms MachineDescription,
hence can not read ELF files from other machines.
This also forbids Platform to determine CPUType etc
w/o having a valid 'os.arch' property.
+++
ElfHeader should be split in
- ElfHeaderPart1 (CPUType independent)
- ElfHeaderPart2 (CPUType dependent)
Fix shall make the ELF Reader self containing
by only using ELF CPUType data, etc.
This requires customization of struct parsing,
where MachineDescription.Static index shall be
- defined in ElfHeaderPart1 using e_Ident's CPUType.
- used in ElfHeaderPart2 and all its struct types.
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- Add AArch64 detection via
- Elf Parser
- Android properties
- Java properties
- Android: Validate CPUType.Family _and_ ABIType
- MachineDescription
- Remove redundant Type ID and its field
- Reuse X86_64_UNIX for AArch64 (static config)
New ARCH 'aarch64' for
ant: <os arch>
armv8a
aarch64
New CPUType.ARM64 (ARM):
java: os.arch
aarch64
arm64
New CPUType.ARMv8_A (ARM):
java: os.arch
armv8-a
arm64-v8a
New ABIType:
EABI_AARCH64
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>= 10d
Adjust build scripts and GlueGen Android tasks
for SDK >= 24.0.2 (build-tools >= 21.1.2) and NDK >= 10d
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access permission on Windows via BATCH file execution
Try using explicit call to Windows 'cmd.exe' w/ referencing the BATCH file location,
via
'Runtime.getRuntime().exec(new String[] { "cmd", "/c", "a.bat" } );'
While the bug itself could not be reproduced here,
I could test on Windows 7 (64bit and 32bit), as well as an WindowsXP 32bit
that no regression occured.
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setting of stream position (optional)
- Add setting position entry, optionally supported,
e.g. ByteBufferStream and ByteArrayStream
- Remove 'msbFirst' parameter on all 'bulk' read/write
operations.
These methods use LSB-first always, allowing proper
stream access of data w/ different bit-sizes.
Data is now read/write as little-endian
and swapped accordingly.
Optimizations are adopted for LSB-first operations.
This change removes API confusion/bugs:
- removes one decision (parameter)
- removes the data reversion case
- removes bugs w/ different bit-sizes
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- Validate active and GC'ed mapped-buffer count
in cleanAllSlices() via close() ..
- Fix missing unmapping last buffer in notifyLengthChangeImpl(),
branch criteria was off by one.
- cleanSlice(..) now also issues cleanBuffer(..) on the GC'ed entry,
hence if WeakReference is still alive, enforce it's release.
- cleanBuffer(..) reverts FLUSH_PRE_HARD -> FLUSH_PRE_SOFT
in case of an error.
- flush() -> flush(boolean metaData) to expose FileChannel.force(metaData).
- Add synchronous mode, flushing/syncing the mapped buffers when
in READ_WRITE mapping mode and issue FileChannel.force() if not READ_ONLY.
Above is implemented via flush()/flushImpl(..) for buffers and FileChannel,
as well as in syncSlice(..) for buffers only.
flush*()/syncSlice() is covered by:
- setLength()
- notifyLengthChange*(..)
- nextSlice()
Always issue flushImpl() in close().
- Windows: Clean all buffers in setLength(),
otherwise Windows will report:
- Windows: Catch MappedByteBuffer.force() IOException
- Optimization of position(..)
position(..) is now standalone to allow issuing flushSlice(..)
before gathering the new mapped buffer.
This shall avoid one extra cache miss.
Hence rename positionImpl(..) -> position2(..).
- All MappedByteBufferOutputStream.write(..) methods
issue syncSlice(..) on the last written current slice
to ensure new 'synchronous' mode is honored.
+++
Unit tests:
- Ensure test files are being deleted
- TestByteBufferCopyStream: Reduced test file size to more sensible values.
-
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to stream copy as well as direct memory mapped ByteBuffer access
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OutputStream impl.
Added MappedByteBufferOutputStream as a child instance of MappedByteBufferInputStream,
since the latter already manages the file's mapped buffer slices.
Current design is:
- MappedByteBufferInputStream (parent)
- MappedByteBufferOutputStream
this is due to InputStream and OutputStream not being interfaces,
but most functionality is provided in one class.
We could redesign both as follows:
- MappedByteBufferIOStream (parent)
- MappedByteBufferInputStream
- MappedByteBufferOutputStream
This might visualize things better .. dunno whether its worth the
extra redirection.
+++
MappedByteBufferInputStream:
- Adding [file] resize support via custom FileResizeOp
- All construction happens via ctors
- Handle refCount, incr. by ctor and getOutputStream(..), decr by close
- Check whether stream is closed already -> IOException
- Simplify / Reuse code
MappedByteBufferOutputStream:
- Adding simple write operations
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InputStream impl., incl. mark/reset
- ByteBufferInputStream simply impl. InputStream for an arbitrary 2MiB restricted ByteBuffer
- Users may only need a smaller implementation for 'smaller' file sizes
or for streaming a [native] ByteBuffer.
- MappedByteBufferInputStream impl. InputStream for any file size,
while slicing the total size to memory mapped buffers via the given FileChannel.
The latter are mapped lazily and diff. flush/cache methods are supported
to ease virtual memory usage.
- TestByteBufferInputStream: Basic unit test for basic functionality and perf. stats.
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for getNormalized(), getDirectory(), getParent() and getRelativeOf()
- Refine API doc
- Add notion of {@code host} and {@code port} validation
- Add create(Encoded ..), allowing creation of variants w/o re-encoding
- Provide common impl. for getNormalized(), getDirectory(), getParent() and getRelativeOf()
Above feature methods share common goals, hence use same implementation:
- If opaque, cut-off query and merge after operation
- cleanup path, i.e. /dummy/../test/ -> /test/
- cutoff file, dir - if requested
- append optional appendix and cleanup again
Return behavior various thought, i.e. null, this or allow exception.
Enhanced test of above features.
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- Uri:
- Add error correction (fix) of path at ctor
in case a a contained Uri is requested from an opaque one.
The latter might come from URI/URL and is not properly encoded!
See Uri.PARSE_HINT_FIX_PATH
- Simplify conversion methods:
- valueOf(URI/URL): Re-encode only if not opaque
- getNativeFilePath() -> toFile()
- Move IOUtil Uri related constants to class Uri
- Add DEBUG and DEBUG_SHOWFIX
- Complete adoption of URI -> Uri changes
- IOUtil, JarUtil and TempJarCache still holds some
left over deprecated methods, which will be removed
after officially starting 2.3.0 (JOGL dependencies)
- Otherwise not URI utilization left
- Tests
- Cleaned ip TestUri01 and TestUri03Resolving
- TestUri03Resolving also tests URL -> Uri,
and hence mentioned Uri.PARSE_HINT_FIX_PATH
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OSX and Windows)
- Refine Uri
- remove System.err.print*
- scheme is of type Encode
- Refine Uri.Encode
- substring(..) shall return type Encode
- Fix unit tests (passing on GNU/Linux, OSX and Windows)
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chars but '!', allows removal of PATH_MIN_LEGAL ; Add comment for Harmony values for review
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differentiating encoded/decoded variants by type [Part 1]
- Add immutable com.jogamp.common.net.Uri class impl. RFC 2396 w/ encoding of RFC 3986
- Class Uri.Encoded is used to represent encoded parts
- IOUtil: Remove unused methods (residing in Uri) and mark others deprecated (will move to Uri)
- Adopt usage of Uri: This must be completet in follow-up commits!
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used properly (Added unit test)
Bug 908 was caused by confusing URI encoded parts (e.g. scheme-specific-part) and it's decoded variant.
This especially happened due to:
- the fact, that the encoded and unencoded variant uses the same String type,
- the URI/URL decoding differs, is not complete (e.g. %20 .. SPACE remains in decoded part),
- and does not comply w/ RFC 2396 and RFC 3986 (encoding), e.g. not all RESERVED chars are encoded.
In branch 'v2.3.0_branch', we will introduce our own Uri and Uri.Encoded class
to solve above issue by replacing all URI usage w/ Uri.
- Backporting results of own Uri class introduction in branch 'v2.3.0_branch'
- Ensure the encoded URI parts are used where required, i.e. IOUtil.compose(..) etc
- TestNetIOURIReservedCharsBug908: Automated test, launching GlueGen jar file from an <i>odd pathname</i>.
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J2RE_HOME is set and path exists
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