58b71b15d8
More PluginManager refactoring Rearranged AUPluginInfo for better maintainability git-svn-id: svn://localhost/ardour2/trunk@748 d708f5d6-7413-0410-9779-e7cbd77b26cf
521 lines
18 KiB
C++
521 lines
18 KiB
C++
/* Copyright: © Copyright 2005 Apple Computer, Inc. All rights reserved.
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Disclaimer: IMPORTANT: This Apple software is supplied to you by Apple Computer, Inc.
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("Apple") in consideration of your agreement to the following terms, and your
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use, installation, modification or redistribution of this Apple software
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constitutes acceptance of these terms. If you do not agree with these terms,
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please do not use, install, modify or redistribute this Apple software.
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In consideration of your agreement to abide by the following terms, and subject
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to these terms, Apple grants you a personal, non-exclusive license, under AppleÕs
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copyrights in this original Apple software (the "Apple Software"), to use,
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reproduce, modify and redistribute the Apple Software, with or without
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modifications, in source and/or binary forms; provided that if you redistribute
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the Apple Software in its entirety and without modifications, you must retain
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this notice and the following text and disclaimers in all such redistributions of
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the Apple Software. Neither the name, trademarks, service marks or logos of
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Apple Computer, Inc. may be used to endorse or promote products derived from the
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Apple Software without specific prior written permission from Apple. Except as
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expressly stated in this notice, no other rights or licenses, express or implied,
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are granted by Apple herein, including but not limited to any patent rights that
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may be infringed by your derivative works or by other works in which the Apple
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Software may be incorporated.
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The Apple Software is provided by Apple on an "AS IS" basis. APPLE MAKES NO
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WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED
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WARRANTIES OF NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
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PURPOSE, REGARDING THE APPLE SOFTWARE OR ITS USE AND OPERATION ALONE OR IN
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COMBINATION WITH YOUR PRODUCTS.
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IN NO EVENT SHALL APPLE BE LIABLE FOR ANY SPECIAL, INDIRECT, INCIDENTAL OR
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CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE
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GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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ARISING IN ANY WAY OUT OF THE USE, REPRODUCTION, MODIFICATION AND/OR DISTRIBUTION
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OF THE APPLE SOFTWARE, HOWEVER CAUSED AND WHETHER UNDER THEORY OF CONTRACT, TORT
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(INCLUDING NEGLIGENCE), STRICT LIABILITY OR OTHERWISE, EVEN IF APPLE HAS BEEN
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ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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/*=============================================================================
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CAStreamBasicDescription.cpp
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=============================================================================*/
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#include "CAConditionalMacros.h"
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#include "CAStreamBasicDescription.h"
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#include "CAMath.h"
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#if !defined(__COREAUDIO_USE_FLAT_INCLUDES__)
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#include <CoreFoundation/CFByteOrder.h>
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#else
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#include <CFByteOrder.h>
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#endif
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#pragma mark This file needs to compile on more earlier versions of the OS, so please keep that in mind when editing it
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const AudioStreamBasicDescription CAStreamBasicDescription::sEmpty = { 0.0, 0, 0, 0, 0, 0, 0, 0, 0 };
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CAStreamBasicDescription::CAStreamBasicDescription(double inSampleRate, UInt32 inFormatID,
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UInt32 inBytesPerPacket, UInt32 inFramesPerPacket,
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UInt32 inBytesPerFrame, UInt32 inChannelsPerFrame,
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UInt32 inBitsPerChannel, UInt32 inFormatFlags)
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{
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mSampleRate = inSampleRate;
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mFormatID = inFormatID;
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mBytesPerPacket = inBytesPerPacket;
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mFramesPerPacket = inFramesPerPacket;
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mBytesPerFrame = inBytesPerFrame;
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mChannelsPerFrame = inChannelsPerFrame;
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mBitsPerChannel = inBitsPerChannel;
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mFormatFlags = inFormatFlags;
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}
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void CAStreamBasicDescription::PrintFormat(FILE *f, const char *indent, const char *name) const
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{
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fprintf(f, "%s%s ", indent, name);
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char formatID[5];
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*(UInt32 *)formatID = CFSwapInt32HostToBig(mFormatID);
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formatID[4] = '\0';
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fprintf(f, "%2ld ch, %6.0f Hz, '%-4.4s' (0x%08lX) ",
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NumberChannels(), mSampleRate, formatID,
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mFormatFlags);
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if (mFormatID == kAudioFormatLinearPCM) {
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bool isInt = !(mFormatFlags & kLinearPCMFormatFlagIsFloat);
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int wordSize = SampleWordSize();
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const char *endian = (wordSize > 1) ?
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((mFormatFlags & kLinearPCMFormatFlagIsBigEndian) ? " big-endian" : " little-endian" ) : "";
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const char *sign = isInt ?
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((mFormatFlags & kLinearPCMFormatFlagIsSignedInteger) ? " signed" : " unsigned") : "";
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const char *floatInt = isInt ? "integer" : "float";
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char packed[32];
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if (wordSize > 0 && PackednessIsSignificant()) {
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if (mFormatFlags & kLinearPCMFormatFlagIsPacked)
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sprintf(packed, "packed in %d bytes", wordSize);
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else
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sprintf(packed, "unpacked in %d bytes", wordSize);
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} else
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packed[0] = '\0';
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const char *align = (wordSize > 0 && AlignmentIsSignificant()) ?
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((mFormatFlags & kLinearPCMFormatFlagIsAlignedHigh) ? " high-aligned" : " low-aligned") : "";
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const char *deinter = (mFormatFlags & kAudioFormatFlagIsNonInterleaved) ? ", deinterleaved" : "";
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const char *commaSpace = (packed[0]!='\0') || (align[0]!='\0') ? ", " : "";
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fprintf(f, "%ld-bit%s%s %s%s%s%s%s\n",
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mBitsPerChannel, endian, sign, floatInt,
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commaSpace, packed, align, deinter);
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} else if (mFormatID == 'alac') { // kAudioFormatAppleLossless
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int sourceBits = 0;
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switch (mFormatFlags)
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{
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case 1: // kAppleLosslessFormatFlag_16BitSourceData
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sourceBits = 16;
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break;
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case 2: // kAppleLosslessFormatFlag_20BitSourceData
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sourceBits = 20;
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break;
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case 3: // kAppleLosslessFormatFlag_24BitSourceData
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sourceBits = 24;
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break;
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case 4: // kAppleLosslessFormatFlag_32BitSourceData
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sourceBits = 32;
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break;
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}
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if (sourceBits)
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fprintf(f, "from %d-bit source, ", sourceBits);
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else
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fprintf(f, "from UNKNOWN source bit depth, ");
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fprintf(f, "%ld frames/packet\n", mFramesPerPacket);
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}
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else
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fprintf(f, "%ld bits/channel, %ld bytes/packet, %ld frames/packet, %ld bytes/frame\n",
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mBitsPerChannel, mBytesPerPacket, mFramesPerPacket, mBytesPerFrame);
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}
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void CAStreamBasicDescription::NormalizeLinearPCMFormat(AudioStreamBasicDescription& ioDescription)
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{
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// the only thing that changes is to make mixable linear PCM into the canonical linear PCM format
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if((ioDescription.mFormatID == kAudioFormatLinearPCM) && ((ioDescription.mFormatFlags & kIsNonMixableFlag) == 0))
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{
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// the canonical linear PCM format is 32 bit native endian floats
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ioDescription.mFormatFlags = kAudioFormatFlagsNativeFloatPacked;
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ioDescription.mBytesPerPacket = sizeof(Float32) * ioDescription.mChannelsPerFrame;
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ioDescription.mFramesPerPacket = 1;
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ioDescription.mBytesPerFrame = sizeof(Float32) * ioDescription.mChannelsPerFrame;
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ioDescription.mBitsPerChannel = 8 * sizeof(Float32);
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}
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}
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void CAStreamBasicDescription::ResetFormat(AudioStreamBasicDescription& ioDescription)
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{
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ioDescription.mSampleRate = 0;
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ioDescription.mFormatID = 0;
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ioDescription.mBytesPerPacket = 0;
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ioDescription.mFramesPerPacket = 0;
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ioDescription.mBytesPerFrame = 0;
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ioDescription.mChannelsPerFrame = 0;
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ioDescription.mBitsPerChannel = 0;
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ioDescription.mFormatFlags = 0;
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}
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void CAStreamBasicDescription::FillOutFormat(AudioStreamBasicDescription& ioDescription, const AudioStreamBasicDescription& inTemplateDescription)
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{
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if(fiszero(ioDescription.mSampleRate))
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{
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ioDescription.mSampleRate = inTemplateDescription.mSampleRate;
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}
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if(ioDescription.mFormatID == 0)
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{
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ioDescription.mFormatID = inTemplateDescription.mFormatID;
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}
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if(ioDescription.mFormatFlags == 0)
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{
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ioDescription.mFormatFlags = inTemplateDescription.mFormatFlags;
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}
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if(ioDescription.mBytesPerPacket == 0)
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{
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ioDescription.mBytesPerPacket = inTemplateDescription.mBytesPerPacket;
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}
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if(ioDescription.mFramesPerPacket == 0)
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{
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ioDescription.mFramesPerPacket = inTemplateDescription.mFramesPerPacket;
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}
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if(ioDescription.mBytesPerFrame == 0)
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{
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ioDescription.mBytesPerFrame = inTemplateDescription.mBytesPerFrame;
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}
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if(ioDescription.mChannelsPerFrame == 0)
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{
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ioDescription.mChannelsPerFrame = inTemplateDescription.mChannelsPerFrame;
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}
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if(ioDescription.mBitsPerChannel == 0)
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{
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ioDescription.mBitsPerChannel = inTemplateDescription.mBitsPerChannel;
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}
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}
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void CAStreamBasicDescription::GetSimpleName(const AudioStreamBasicDescription& inDescription, char* outName, bool inAbbreviate)
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{
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switch(inDescription.mFormatID)
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{
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case kAudioFormatLinearPCM:
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{
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const char* theEndianString = NULL;
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if((inDescription.mFormatFlags & kAudioFormatFlagIsBigEndian) != 0)
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{
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#if TARGET_RT_LITTLE_ENDIAN
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theEndianString = "Big Endian";
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#endif
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}
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else
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{
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#if TARGET_RT_BIG_ENDIAN
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theEndianString = "Little Endian";
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#endif
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}
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const char* theKindString = NULL;
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if((inDescription.mFormatFlags & kAudioFormatFlagIsFloat) != 0)
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{
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theKindString = (inAbbreviate ? "Float" : "Floating Point");
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}
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else if((inDescription.mFormatFlags & kAudioFormatFlagIsSignedInteger) != 0)
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{
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theKindString = (inAbbreviate ? "SInt" : "Signed Integer");
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}
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else
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{
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theKindString = (inAbbreviate ? "UInt" : "Unsigned Integer");
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}
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const char* thePackingString = NULL;
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if((inDescription.mFormatFlags & kAudioFormatFlagIsPacked) == 0)
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{
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if((inDescription.mFormatFlags & kAudioFormatFlagIsAlignedHigh) != 0)
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{
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thePackingString = "High";
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}
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else
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{
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thePackingString = "Low";
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}
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}
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const char* theMixabilityString = NULL;
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if((inDescription.mFormatFlags & kIsNonMixableFlag) == 0)
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{
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theMixabilityString = "Mixable";
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}
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else
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{
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theMixabilityString = "Unmixable";
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}
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if(inAbbreviate)
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{
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if(theEndianString != NULL)
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{
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if(thePackingString != NULL)
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{
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sprintf(outName, "%s %d Ch %s %s %s%d/%s%d", theMixabilityString, (int)inDescription.mChannelsPerFrame, theEndianString, thePackingString, theKindString, (int)inDescription.mBitsPerChannel, theKindString, (int)(inDescription.mBytesPerFrame / inDescription.mChannelsPerFrame) * 8);
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}
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else
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{
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sprintf(outName, "%s %d Ch %s %s%d", theMixabilityString, (int)inDescription.mChannelsPerFrame, theEndianString, theKindString, (int)inDescription.mBitsPerChannel);
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}
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}
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else
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{
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if(thePackingString != NULL)
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{
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sprintf(outName, "%s %d Ch %s %s%d/%s%d", theMixabilityString, (int)inDescription.mChannelsPerFrame, thePackingString, theKindString, (int)inDescription.mBitsPerChannel, theKindString, (int)((inDescription.mBytesPerFrame / inDescription.mChannelsPerFrame) * 8));
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}
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else
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{
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sprintf(outName, "%s %d Ch %s%d", theMixabilityString, (int)inDescription.mChannelsPerFrame, theKindString, (int)inDescription.mBitsPerChannel);
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}
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}
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}
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else
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{
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if(theEndianString != NULL)
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{
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if(thePackingString != NULL)
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{
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sprintf(outName, "%s %d Channel %d Bit %s %s Aligned %s in %d Bits", theMixabilityString, (int)inDescription.mChannelsPerFrame, (int)inDescription.mBitsPerChannel, theEndianString, theKindString, thePackingString, (int)(inDescription.mBytesPerFrame / inDescription.mChannelsPerFrame) * 8);
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}
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else
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{
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sprintf(outName, "%s %d Channel %d Bit %s %s", theMixabilityString, (int)inDescription.mChannelsPerFrame, (int)inDescription.mBitsPerChannel, theEndianString, theKindString);
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}
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}
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else
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{
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if(thePackingString != NULL)
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{
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sprintf(outName, "%s %d Channel %d Bit %s Aligned %s in %d Bits", theMixabilityString, (int)inDescription.mChannelsPerFrame, (int)inDescription.mBitsPerChannel, theKindString, thePackingString, (int)(inDescription.mBytesPerFrame / inDescription.mChannelsPerFrame) * 8);
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}
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else
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{
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sprintf(outName, "%s %d Channel %d Bit %s", theMixabilityString, (int)inDescription.mChannelsPerFrame, (int)inDescription.mBitsPerChannel, theKindString);
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}
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}
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}
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}
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break;
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case kAudioFormatAC3:
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strcpy(outName, "AC-3");
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break;
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case kAudioFormat60958AC3:
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strcpy(outName, "AC-3 for SPDIF");
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break;
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default:
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{
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char* the4CCString = (char*)&inDescription.mFormatID;
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outName[0] = the4CCString[0];
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outName[1] = the4CCString[1];
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outName[2] = the4CCString[2];
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outName[3] = the4CCString[3];
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outName[4] = 0;
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}
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break;
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};
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}
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#if CoreAudio_Debug
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#include "CALogMacros.h"
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void CAStreamBasicDescription::PrintToLog(const AudioStreamBasicDescription& inDesc)
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{
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PrintFloat (" Sample Rate: ", inDesc.mSampleRate);
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Print4CharCode (" Format ID: ", inDesc.mFormatID);
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PrintHex (" Format Flags: ", inDesc.mFormatFlags);
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PrintInt (" Bytes per Packet: ", inDesc.mBytesPerPacket);
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PrintInt (" Frames per Packet: ", inDesc.mFramesPerPacket);
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PrintInt (" Bytes per Frame: ", inDesc.mBytesPerFrame);
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PrintInt (" Channels per Frame: ", inDesc.mChannelsPerFrame);
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PrintInt (" Bits per Channel: ", inDesc.mBitsPerChannel);
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}
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#endif
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bool operator<(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y)
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{
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bool theAnswer = false;
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bool isDone = false;
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// note that if either side is 0, that field is skipped
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// format ID is the first order sort
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if((!isDone) && ((x.mFormatID != 0) && (y.mFormatID != 0)))
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{
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if(x.mFormatID != y.mFormatID)
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{
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// formats are sorted numerically except that linear
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// PCM is always first
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if(x.mFormatID == kAudioFormatLinearPCM)
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{
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theAnswer = true;
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}
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else if(y.mFormatID == kAudioFormatLinearPCM)
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{
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theAnswer = false;
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}
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else
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{
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theAnswer = x.mFormatID < y.mFormatID;
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}
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isDone = true;
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}
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}
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// mixable is always better than non-mixable for linear PCM and should be the second order sort item
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if((!isDone) && ((x.mFormatID == kAudioFormatLinearPCM) && (y.mFormatID == kAudioFormatLinearPCM)))
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{
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if(((x.mFormatFlags & kIsNonMixableFlag) == 0) && ((y.mFormatFlags & kIsNonMixableFlag) != 0))
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{
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theAnswer = true;
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isDone = true;
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}
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else if(((x.mFormatFlags & kIsNonMixableFlag) != 0) && ((y.mFormatFlags & kIsNonMixableFlag) == 0))
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{
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theAnswer = false;
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isDone = true;
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}
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}
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// floating point vs integer for linear PCM only
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if((!isDone) && ((x.mFormatID == kAudioFormatLinearPCM) && (y.mFormatID == kAudioFormatLinearPCM)))
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{
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if((x.mFormatFlags & kAudioFormatFlagIsFloat) != (y.mFormatFlags & kAudioFormatFlagIsFloat))
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{
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// floating point is better than integer
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theAnswer = y.mFormatFlags & kAudioFormatFlagIsFloat;
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isDone = true;
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}
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}
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// bit depth
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if((!isDone) && ((x.mBitsPerChannel != 0) && (y.mBitsPerChannel != 0)))
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{
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if(x.mBitsPerChannel != y.mBitsPerChannel)
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{
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// deeper bit depths are higher quality
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theAnswer = x.mBitsPerChannel < y.mBitsPerChannel;
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isDone = true;
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}
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}
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// sample rate
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if((!isDone) && fnonzero(x.mSampleRate) && fnonzero(y.mSampleRate))
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{
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if(fnotequal(x.mSampleRate, y.mSampleRate))
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{
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// higher sample rates are higher quality
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theAnswer = x.mSampleRate < y.mSampleRate;
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isDone = true;
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}
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}
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// number of channels
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if((!isDone) && ((x.mChannelsPerFrame != 0) && (y.mChannelsPerFrame != 0)))
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{
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if(x.mChannelsPerFrame != y.mChannelsPerFrame)
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{
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// more channels is higher quality
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theAnswer = x.mChannelsPerFrame < y.mChannelsPerFrame;
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isDone = true;
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}
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}
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return theAnswer;
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}
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static bool MatchFormatFlags(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y)
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{
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UInt32 xFlags = x.mFormatFlags;
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UInt32 yFlags = y.mFormatFlags;
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// match wildcards
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if (x.mFormatID == 0 || y.mFormatID == 0 || xFlags == 0 || yFlags == 0)
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return true;
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if (x.mFormatID == kAudioFormatLinearPCM)
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{
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// knock off the all clear flag
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xFlags = xFlags & ~kAudioFormatFlagsAreAllClear;
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yFlags = yFlags & ~kAudioFormatFlagsAreAllClear;
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// if both kAudioFormatFlagIsPacked bits are set, then we don't care about the kAudioFormatFlagIsAlignedHigh bit.
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if (xFlags & yFlags & kAudioFormatFlagIsPacked) {
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xFlags = xFlags & ~kAudioFormatFlagIsAlignedHigh;
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yFlags = yFlags & ~kAudioFormatFlagIsAlignedHigh;
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}
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// if both kAudioFormatFlagIsFloat bits are set, then we don't care about the kAudioFormatFlagIsSignedInteger bit.
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if (xFlags & yFlags & kAudioFormatFlagIsFloat) {
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xFlags = xFlags & ~kAudioFormatFlagIsSignedInteger;
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yFlags = yFlags & ~kAudioFormatFlagIsSignedInteger;
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}
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// if the bit depth is 8 bits or less and the format is packed, we don't care about endianness
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if((x.mBitsPerChannel <= 8) && ((xFlags & kAudioFormatFlagIsPacked) == kAudioFormatFlagIsPacked))
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{
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|
xFlags = xFlags & ~kAudioFormatFlagIsBigEndian;
|
|
}
|
|
if((y.mBitsPerChannel <= 8) && ((yFlags & kAudioFormatFlagIsPacked) == kAudioFormatFlagIsPacked))
|
|
{
|
|
yFlags = yFlags & ~kAudioFormatFlagIsBigEndian;
|
|
}
|
|
|
|
// if the number of channels is 0 or 1, we don't care about non-interleavedness
|
|
if (x.mChannelsPerFrame <= 1 && y.mChannelsPerFrame <= 1) {
|
|
xFlags &= ~kLinearPCMFormatFlagIsNonInterleaved;
|
|
yFlags &= ~kLinearPCMFormatFlagIsNonInterleaved;
|
|
}
|
|
}
|
|
return xFlags == yFlags;
|
|
}
|
|
|
|
bool operator==(const AudioStreamBasicDescription& x, const AudioStreamBasicDescription& y)
|
|
{
|
|
// the semantics for equality are:
|
|
// 1) Values must match exactly
|
|
// 2) wildcard's are ignored in the comparison
|
|
|
|
#define MATCH(name) ((x.name) == 0 || (y.name) == 0 || (x.name) == (y.name))
|
|
|
|
return
|
|
// check the sample rate
|
|
(fiszero(x.mSampleRate) || fiszero(y.mSampleRate) || fequal(x.mSampleRate, y.mSampleRate))
|
|
|
|
// check the format ids
|
|
&& MATCH(mFormatID)
|
|
|
|
// check the format flags
|
|
&& MatchFormatFlags(x, y)
|
|
|
|
// check the bytes per packet
|
|
&& MATCH(mBytesPerPacket)
|
|
|
|
// check the frames per packet
|
|
&& MATCH(mFramesPerPacket)
|
|
|
|
// check the bytes per frame
|
|
&& MATCH(mBytesPerFrame)
|
|
|
|
// check the channels per frame
|
|
&& MATCH(mChannelsPerFrame)
|
|
|
|
// check the channels per frame
|
|
&& MATCH(mBitsPerChannel) ;
|
|
}
|
|
|
|
bool SanityCheck(const AudioStreamBasicDescription& x)
|
|
{
|
|
return (x.mSampleRate >= 0.);
|
|
}
|