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https://gitlab.winehq.org/wine/wine-gecko.git
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0fd9123eac
This patch was generated by a script. Here's the source of the script for
future reference:
function convert() {
echo "Converting $1 to $2..."
find . ! -wholename "*nsprpub*" \
! -wholename "*security/nss*" \
! -wholename "*/.hg*" \
! -wholename "obj-ff-dbg*" \
! -name nsXPCOMCID.h \
! -name prtypes.h \
-type f \
\( -iname "*.cpp" \
-o -iname "*.h" \
-o -iname "*.c" \
-o -iname "*.cc" \
-o -iname "*.idl" \
-o -iname "*.ipdl" \
-o -iname "*.ipdlh" \
-o -iname "*.mm" \) | \
xargs -n 1 sed -i -e "s/\b$1\b/$2/g"
}
convert PRInt8 int8_t
convert PRUint8 uint8_t
convert PRInt16 int16_t
convert PRUint16 uint16_t
convert PRInt32 int32_t
convert PRUint32 uint32_t
convert PRInt64 int64_t
convert PRUint64 uint64_t
convert PRIntn int
convert PRUintn unsigned
convert PRSize size_t
convert PROffset32 int32_t
convert PROffset64 int64_t
convert PRPtrdiff ptrdiff_t
convert PRFloat64 double
159 lines
6.5 KiB
Plaintext
159 lines
6.5 KiB
Plaintext
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "nsISupports.idl"
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#include "nsrootidl.idl"
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/**
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* An interface for access to a buffering stream implementation's underlying
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* memory buffer.
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*
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* Stream implementations that QueryInterface to nsIStreamBufferAccess must
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* ensure that all buffers are aligned on the most restrictive type size for
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* the current architecture (e.g., sizeof(double) for RISCy CPUs). malloc(3)
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* satisfies this requirement.
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*/
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[scriptable, uuid(ac923b72-ac87-4892-ac7a-ca385d429435)]
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interface nsIStreamBufferAccess : nsISupports
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{
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/**
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* Get access to a contiguous, aligned run of bytes in the stream's buffer.
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* Exactly one successful getBuffer call must occur before a putBuffer call
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* taking the non-null pointer returned by the successful getBuffer.
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*
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* The run of bytes are the next bytes (modulo alignment padding) to read
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* for an input stream, and the next bytes (modulo alignment padding) to
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* store before (eventually) writing buffered data to an output stream.
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* There can be space beyond this run of bytes in the buffer for further
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* accesses before the fill or flush point is reached.
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*
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* @param aLength
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* Count of contiguous bytes requested at the address A that satisfies
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* (A & aAlignMask) == 0 in the buffer, starting from the current stream
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* position, mapped to a buffer address B. The stream implementation
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* must pad from B to A by skipping bytes (if input stream) or storing
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* zero bytes (if output stream).
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*
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* @param aAlignMask
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* Bit-mask computed by subtracting 1 from the power-of-two alignment
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* modulus (e.g., 3 or sizeof(uint32_t)-1 for uint32_t alignment).
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*
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* @return
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* The aligned pointer to aLength bytes in the buffer, or null if the
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* buffer has no room for aLength bytes starting at the next address A
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* after the current position that satisfies (A & aAlignMask) == 0.
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*/
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[notxpcom,noscript] charPtr getBuffer(in uint32_t aLength, in uint32_t aAlignMask);
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/**
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* Relinquish access to the stream's buffer, filling if at end of an input
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* buffer, flushing if completing an output buffer. After a getBuffer call
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* that returns non-null, putBuffer must be called.
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*
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* @param aBuffer
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* A non-null pointer returned by getBuffer on the same stream buffer
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* access object.
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*
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* @param aLength
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* The same count of contiguous bytes passed to the getBuffer call that
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* returned aBuffer.
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*/
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[notxpcom,noscript] void putBuffer(in charPtr aBuffer, in uint32_t aLength);
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/**
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* Disable and enable buffering on the stream implementing this interface.
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* DisableBuffering flushes an output stream's buffer, and invalidates an
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* input stream's buffer.
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*/
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void disableBuffering();
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void enableBuffering();
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/**
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* The underlying, unbuffered input or output stream.
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*/
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readonly attribute nsISupports unbufferedStream;
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};
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%{C++
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// Swap macros, used to convert to/from canonical (big-endian) format
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#if defined IS_LITTLE_ENDIAN
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# define NS_SWAP16(x) ((((x) & 0xff) << 8) | (((x) >> 8) & 0xff))
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# define NS_SWAP32(x) ((NS_SWAP16((x) & 0xffff) << 16) | (NS_SWAP16((x) >> 16)))
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// We want to avoid casting to 32-bit types if possible, since that violates
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// aliasing rules (a standard compiler may assume that pointers of two types
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// do not address overlapping storage).
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//
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// XXX What if we have a compiler that follows aliasing rules strictly but
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// doesn't have a 64-bit int type?
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//
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// XXXbe shouldn't NSPR's LL_INIT work for non-constant arguments in all cases?
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# if defined HAVE_LONG_LONG
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# if PR_BYTES_PER_LONG == 8
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# define ULL_(x) x ## UL
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# elif defined WIN32 && defined _MSC_VER
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# define ULL_(x) x ## ui64
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# else
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# define ULL_(x) x ## ULL
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# endif
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# define NS_SWAP64(x) ((((x) & ULL_(0xff00000000000000)) >> 56) | \
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(((x) & ULL_(0x00ff000000000000)) >> 40) | \
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(((x) & ULL_(0x0000ff0000000000)) >> 24) | \
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(((x) & ULL_(0x000000ff00000000)) >> 8) | \
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(((x) & ULL_(0x00000000ff000000)) << 8) | \
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(((x) & ULL_(0x0000000000ff0000)) << 24) | \
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(((x) & ULL_(0x000000000000ff00)) << 40) | \
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(((x) /* & ULL_(0x00000000000000ff) */) << 56))
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# else
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# define NS_SWAP64(x) LL_INIT((((x).lo /* & 0xff000000ul */) >> 24) | \
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(((x).lo & 0x00ff0000ul) >> 8) | \
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(((x).lo & 0x0000ff00ul) << 8) | \
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(((x).lo /* & 0x000000fful */) << 24), \
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(((x).hi /* & 0xff000000ul */) >> 24) | \
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(((x).hi & 0x00ff0000ul) >> 8) | \
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(((x).hi & 0x0000ff00ul) << 8) | \
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(((x).hi /* & 0x000000fful */) << 24))
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# endif
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#elif defined IS_BIG_ENDIAN
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# define NS_SWAP16(x) (x)
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# define NS_SWAP32(x) (x)
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# define NS_SWAP64(x) (x)
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#else
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# error "Unknown byte order"
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#endif
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/**
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* These macros get and put a buffer given either an sba parameter that may
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* point to an object implementing nsIStreamBufferAccess, nsIObjectInputStream,
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* or nsIObjectOutputStream.
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*/
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#define NS_GET_BUFFER(sba,n,a) ((sba)->GetBuffer(n, a))
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#define NS_PUT_BUFFER(sba,p,n) ((sba)->PutBuffer(p, n))
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#define NS_GET8(p) (*(uint8_t*)(p))
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#define NS_GET16(p) NS_SWAP16(*(uint16_t*)(p))
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#define NS_GET32(p) NS_SWAP32(*(uint32_t*)(p))
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#define NS_GET64(p) NS_SWAP64(*(uint64_t*)(p))
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#define NS_GET_FLOAT(p) ((float)NS_SWAP32(*(uint32_t*)(p)))
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#define NS_GET_DOUBLE(p) ((double)NS_SWAP64(*(uint64_t*)(p)))
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#define NS_PUT8(p,x) (*(uint8_t*)(p) = (x))
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#define NS_PUT16(p,x) (*(uint16_t*)(p) = NS_SWAP16(x))
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#define NS_PUT32(p,x) (*(uint32_t*)(p) = NS_SWAP32(x))
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#define NS_PUT64(p,x) (*(uint64_t*)(p) = NS_SWAP64(x))
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#define NS_PUT_FLOAT(p,x) (*(uint32_t*)(p) = NS_SWAP32(*(uint32_t*)&(x)))
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#define NS_PUT_DOUBLE(p,x) (*(uint64_t*)(p) = NS_SWAP64(*(uint64_t*)&(x)))
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%}
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