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[dgit import orig nyquist_3.05.orig.tar.gz]

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diff --git a/portaudio/src/hostapi/asio/ASIO-README.txt b/portaudio/src/hostapi/asio/ASIO-README.txt
new file mode 100644
index 0000000..9fb74ae
--- /dev/null
+++ b/portaudio/src/hostapi/asio/ASIO-README.txt
@@ -0,0 +1,137 @@
+ASIO-README.txt
+
+This document contains information to help you compile PortAudio with 
+ASIO support. If you find any omissions or errors in this document 
+please notify Ross Bencina <rossb@audiomulch.com>.
+
+
+Building PortAudio with ASIO support
+------------------------------------
+
+To build PortAudio with ASIO support you need to compile and link with
+pa_asio.c, and files from the ASIO SDK (see below), along with the common 
+files from pa_common/ and platform specific files from pa_win/ (for Win32) 
+or pa_mac/ (for Macintosh).
+
+If you are compiling with a non-Microsoft compiler on windows, also 
+compile and link with iasiothiscallresolver.cpp (see below for 
+an explanation).
+
+For some platforms (MingW, possibly Mac), you may simply
+be able to type:
+
+./configure --with-host_os=mingw --with-winapi=asio [--with-asiodir=/usr/local/asiosdk2]
+make
+
+./configure --with-host_os=darwin --with-winapi=asio [--with-asiodir=/usr/local/asiosdk2]
+make
+
+and life will be good.
+
+
+Obtaining the ASIO SDK
+----------------------
+
+In order to build PortAudio with ASIO support, you need to download 
+the ASIO SDK (version 2.0) from Steinberg. Steinberg makes the ASIO 
+SDK available to anyone free of charge, however they do not permit its 
+source code to be distributed.
+
+NOTE: In some cases the ASIO SDK may require patching, see below 
+for further details.
+
+http://www.steinberg.net/en/ps/support/3rdparty/asio_sdk/
+
+If the above link is broken search Google for:
+"download steinberg ASIO SDK"
+
+
+
+Building the ASIO SDK on Macintosh
+----------------------------------
+
+To build the ASIO SDK on Macintosh you need to compile and link with the 
+following files from the ASIO SDK:
+
+host/asiodrivers.cpp 
+host/mac/asioshlib.cpp 
+host/mac/codefragements.cpp
+
+
+
+Building the ASIO SDK on Windows
+--------------------------------
+
+To build the ASIO SDK on Windows you need to compile and link with the 
+following files from the ASIO SDK:
+
+asio_sdk\common\asio.cpp
+asio_sdk\host\asiodrivers.cpp
+asio_sdk\host\pc\asiolist.cpp
+
+You may also need to adjust your include paths to support inclusion of 
+header files from the above directories.
+
+The ASIO SDK depends on the following COM API functions: 
+CoInitialize, CoUninitialize, CoCreateInstance, CLSIDFromString
+For compilation with MinGW you will need to link with -lole32, for
+Borland link with Import32.lib.
+
+
+
+Non-Microsoft (MSVC) Compilers on Windows including Borland and GCC
+-------------------------------------------------------------------
+
+Steinberg did not specify a calling convention in the IASIO interface 
+definition. This causes the Microsoft compiler to use the proprietary 
+thiscall convention which is not compatible with other compilers, such 
+as compilers from Borland (BCC and C++Builder) and GNU (gcc). 
+Steinberg's ASIO SDK will compile but crash on initialization if 
+compiled with a non-Microsoft compiler on Windows.
+
+PortAudio solves this problem using the iasiothiscallresolver library 
+which is included in the distribution. When building ASIO support for
+non-Microsoft compilers, be sure to compile and link with
+iasiothiscallresolver.cpp. Note that iasiothiscallresolver includes
+conditional directives which cause it to have no effect if it is
+compiled with a Microsoft compiler, or on the Macintosh.
+
+If you use configure and make (see above), this should be handled
+automatically for you.
+
+For further information about the IASIO thiscall problem see this page:
+http://www.audiomulch.com/~rossb/code/calliasio
+
+
+
+Macintosh ASIO SDK Bug Patch
+----------------------------
+
+There is a bug in the ASIO SDK that causes the Macintosh version to 
+often fail during initialization. Below is a patch that you can apply.
+
+In codefragments.cpp replace getFrontProcessDirectory function with 
+the following one (GetFrontProcess replaced by GetCurrentProcess).
+
+
+bool CodeFragments::getFrontProcessDirectory(void *specs)
+{
+	FSSpec *fss = (FSSpec *)specs;
+	ProcessInfoRec pif;
+	ProcessSerialNumber psn;
+
+	memset(&psn,0,(long)sizeof(ProcessSerialNumber));
+	//  if(GetFrontProcess(&psn) == noErr)  // wrong !!!
+	if(GetCurrentProcess(&psn) == noErr)  // correct !!!
+	{
+		pif.processName = 0;
+		pif.processAppSpec = fss;
+		pif.processInfoLength = sizeof(ProcessInfoRec);
+		if(GetProcessInformation(&psn, &pif) == noErr)
+				return true;
+	}
+	return false;
+}
+
+
+---
diff --git a/portaudio/src/hostapi/asio/Callback_adaptation_.pdf b/portaudio/src/hostapi/asio/Callback_adaptation_.pdf
new file mode 100644
index 0000000..76bf678
--- /dev/null
+++ b/portaudio/src/hostapi/asio/Callback_adaptation_.pdf
diff --git a/portaudio/src/hostapi/asio/Pa_ASIO.pdf b/portaudio/src/hostapi/asio/Pa_ASIO.pdf
new file mode 100644
index 0000000..ac5ecad
--- /dev/null
+++ b/portaudio/src/hostapi/asio/Pa_ASIO.pdf
diff --git a/portaudio/src/hostapi/asio/iasiothiscallresolver.cpp b/portaudio/src/hostapi/asio/iasiothiscallresolver.cpp
new file mode 100644
index 0000000..8dfefbd
--- /dev/null
+++ b/portaudio/src/hostapi/asio/iasiothiscallresolver.cpp
@@ -0,0 +1,563 @@
+/*
+	IASIOThiscallResolver.cpp see the comments in iasiothiscallresolver.h for
+    the top level description - this comment describes the technical details of
+    the implementation.
+
+    The latest version of this file is available from:
+    http://www.audiomulch.com/~rossb/code/calliasio
+
+    please email comments to Ross Bencina <rossb@audiomulch.com>
+
+    BACKGROUND
+
+    The IASIO interface declared in the Steinberg ASIO 2 SDK declares
+    functions with no explicit calling convention. This causes MSVC++ to default
+    to using the thiscall convention, which is a proprietary convention not
+    implemented by some non-microsoft compilers - notably borland BCC,
+    C++Builder, and gcc. MSVC++ is the defacto standard compiler used by
+    Steinberg. As a result of this situation, the ASIO sdk will compile with
+    any compiler, however attempting to execute the compiled code will cause a
+    crash due to different default calling conventions on non-Microsoft
+    compilers.
+
+    IASIOThiscallResolver solves the problem by providing an adapter class that
+    delegates to the IASIO interface using the correct calling convention
+    (thiscall). Due to the lack of support for thiscall in the Borland and GCC
+    compilers, the calls have been implemented in assembly language.
+
+    A number of macros are defined for thiscall function calls with different
+    numbers of parameters, with and without return values - it may be possible
+    to modify the format of these macros to make them work with other inline
+    assemblers.
+
+
+    THISCALL DEFINITION
+
+    A number of definitions of the thiscall calling convention are floating
+    around the internet. The following definition has been validated against
+    output from the MSVC++ compiler:
+
+    For non-vararg functions, thiscall works as follows: the object (this)
+    pointer is passed in ECX. All arguments are passed on the stack in
+    right to left order. The return value is placed in EAX. The callee
+    clears the passed arguments from the stack.
+
+
+    FINDING FUNCTION POINTERS FROM AN IASIO POINTER
+
+    The first field of a COM object is a pointer to its vtble. Thus a pointer
+    to an object implementing the IASIO interface also points to a pointer to
+    that object's vtbl. The vtble is a table of function pointers for all of
+    the virtual functions exposed by the implemented interfaces.
+
+    If we consider a variable declared as a pointer to IASO:
+
+    IASIO *theAsioDriver
+
+    theAsioDriver points to:
+
+    object implementing IASIO
+    {
+        IASIOvtbl *vtbl
+        other data
+    }
+
+    in other words, theAsioDriver points to a pointer to an IASIOvtbl
+
+    vtbl points to a table of function pointers:
+
+    IASIOvtbl ( interface IASIO : public IUnknown )
+    {
+    (IUnknown functions)
+    0   virtual HRESULT STDMETHODCALLTYPE (*QueryInterface)(REFIID riid, void **ppv) = 0;
+    4   virtual ULONG STDMETHODCALLTYPE (*AddRef)() = 0;
+    8   virtual ULONG STDMETHODCALLTYPE (*Release)() = 0;      
+
+    (IASIO functions)
+    12	virtual ASIOBool (*init)(void *sysHandle) = 0;
+    16	virtual void (*getDriverName)(char *name) = 0;
+    20	virtual long (*getDriverVersion)() = 0;
+    24	virtual void (*getErrorMessage)(char *string) = 0;
+    28	virtual ASIOError (*start)() = 0;
+    32	virtual ASIOError (*stop)() = 0;
+    36	virtual ASIOError (*getChannels)(long *numInputChannels, long *numOutputChannels) = 0;
+    40	virtual ASIOError (*getLatencies)(long *inputLatency, long *outputLatency) = 0;
+    44	virtual ASIOError (*getBufferSize)(long *minSize, long *maxSize,
+            long *preferredSize, long *granularity) = 0;
+    48	virtual ASIOError (*canSampleRate)(ASIOSampleRate sampleRate) = 0;
+    52	virtual ASIOError (*getSampleRate)(ASIOSampleRate *sampleRate) = 0;
+    56	virtual ASIOError (*setSampleRate)(ASIOSampleRate sampleRate) = 0;
+    60	virtual ASIOError (*getClockSources)(ASIOClockSource *clocks, long *numSources) = 0;
+    64	virtual ASIOError (*setClockSource)(long reference) = 0;
+    68	virtual ASIOError (*getSamplePosition)(ASIOSamples *sPos, ASIOTimeStamp *tStamp) = 0;
+    72	virtual ASIOError (*getChannelInfo)(ASIOChannelInfo *info) = 0;
+    76	virtual ASIOError (*createBuffers)(ASIOBufferInfo *bufferInfos, long numChannels,
+            long bufferSize, ASIOCallbacks *callbacks) = 0;
+    80	virtual ASIOError (*disposeBuffers)() = 0;
+    84	virtual ASIOError (*controlPanel)() = 0;
+    88	virtual ASIOError (*future)(long selector,void *opt) = 0;
+    92	virtual ASIOError (*outputReady)() = 0;
+    };
+
+    The numbers in the left column show the byte offset of each function ptr
+    from the beginning of the vtbl. These numbers are used in the code below
+    to select different functions.
+
+    In order to find the address of a particular function, theAsioDriver
+    must first be dereferenced to find the value of the vtbl pointer:
+
+    mov     eax, theAsioDriver
+    mov     edx, [theAsioDriver]  // edx now points to vtbl[0]
+
+    Then an offset must be added to the vtbl pointer to select a
+    particular function, for example vtbl+44 points to the slot containing
+    a pointer to the getBufferSize function.
+
+    Finally vtbl+x must be dereferenced to obtain the value of the function
+    pointer stored in that address:
+
+    call    [edx+44]    // call the function pointed to by
+                        // the value in the getBufferSize field of the vtbl
+
+
+    SEE ALSO
+
+    Martin Fay's OpenASIO DLL at http://www.martinfay.com solves the same
+    problem by providing a new COM interface which wraps IASIO with an
+    interface that uses portable calling conventions. OpenASIO must be compiled
+    with MSVC, and requires that you ship the OpenASIO DLL with your
+    application.
+
+    
+    ACKNOWLEDGEMENTS
+
+    Ross Bencina: worked out the thiscall details above, wrote the original
+    Borland asm macros, and a patch for asio.cpp (which is no longer needed).
+    Thanks to Martin Fay for introducing me to the issues discussed here,
+    and to Rene G. Ceballos for assisting with asm dumps from MSVC++.
+
+    Antti Silvast: converted the original calliasio to work with gcc and NASM
+    by implementing the asm code in a separate file.
+
+	Fraser Adams: modified the original calliasio containing the Borland inline
+    asm to add inline asm for gcc i.e. Intel syntax for Borland and AT&T syntax
+    for gcc. This seems a neater approach for gcc than to have a separate .asm
+    file and it means that we only need one version of the thiscall patch.
+
+    Fraser Adams: rewrote the original calliasio patch in the form of the
+    IASIOThiscallResolver class in order to avoid modifications to files from
+    the Steinberg SDK, which may have had potential licence issues.
+
+    Andrew Baldwin: contributed fixes for compatibility problems with more
+    recent versions of the gcc assembler.
+*/
+
+
+// We only need IASIOThiscallResolver at all if we are on Win32. For other
+// platforms we simply bypass the IASIOThiscallResolver definition to allow us
+// to be safely #include'd whatever the platform to keep client code portable
+#if defined(WIN32) || defined(_WIN32) || defined(__WIN32__)
+
+
+// If microsoft compiler we can call IASIO directly so IASIOThiscallResolver
+// is not used.
+#if !defined(_MSC_VER)
+
+
+#include <new>
+#include <assert.h>
+
+// We have a mechanism in iasiothiscallresolver.h to ensure that asio.h is
+// #include'd before it in client code, we do NOT want to do this test here.
+#define iasiothiscallresolver_sourcefile 1
+#include "iasiothiscallresolver.h"
+#undef iasiothiscallresolver_sourcefile
+
+// iasiothiscallresolver.h redefines ASIOInit for clients, but we don't want
+// this macro defined in this translation unit.
+#undef ASIOInit
+
+
+// theAsioDriver is a global pointer to the current IASIO instance which the
+// ASIO SDK uses to perform all actions on the IASIO interface. We substitute
+// our own forwarding interface into this pointer.
+extern IASIO* theAsioDriver;
+
+
+// The following macros define the inline assembler for BORLAND first then gcc
+
+#if defined(__BCPLUSPLUS__) || defined(__BORLANDC__)          
+
+
+#define CALL_THISCALL_0( resultName, thisPtr, funcOffset )\
+    void *this_ = (thisPtr);                                                \
+    __asm {                                                                 \
+        mov     ecx, this_            ;                                     \
+        mov     eax, [ecx]            ;                                     \
+        call    [eax+funcOffset]      ;                                     \
+        mov     resultName, eax       ;                                     \
+    }
+
+
+#define CALL_VOID_THISCALL_1( thisPtr, funcOffset, param1 )\
+    void *this_ = (thisPtr);                                                \
+    __asm {                                                                 \
+        mov     eax, param1           ;                                     \
+        push    eax                   ;                                     \
+        mov     ecx, this_            ;                                     \
+        mov     eax, [ecx]            ;                                     \
+        call    [eax+funcOffset]      ;                                     \
+    }
+
+
+#define CALL_THISCALL_1( resultName, thisPtr, funcOffset, param1 )\
+    void *this_ = (thisPtr);                                                \
+    __asm {                                                                 \
+        mov     eax, param1           ;                                     \
+        push    eax                   ;                                     \
+        mov     ecx, this_            ;                                     \
+        mov     eax, [ecx]            ;                                     \
+        call    [eax+funcOffset]      ;                                     \
+        mov     resultName, eax       ;                                     \
+    }
+
+
+#define CALL_THISCALL_1_DOUBLE( resultName, thisPtr, funcOffset, param1 )\
+    void *this_ = (thisPtr);                                                \
+    void *doubleParamPtr_ (&param1);                                        \
+    __asm {                                                                 \
+        mov     eax, doubleParamPtr_  ;                                     \
+        push    [eax+4]               ;                                     \
+        push    [eax]                 ;                                     \
+        mov     ecx, this_            ;                                     \
+        mov     eax, [ecx]            ;                                     \
+        call    [eax+funcOffset]      ;                                     \
+        mov     resultName, eax       ;                                     \
+    }
+
+
+#define CALL_THISCALL_2( resultName, thisPtr, funcOffset, param1, param2 )\
+    void *this_ = (thisPtr);                                                \
+    __asm {                                                                 \
+        mov     eax, param2           ;                                     \
+        push    eax                   ;                                     \
+        mov     eax, param1           ;                                     \
+        push    eax                   ;                                     \
+        mov     ecx, this_            ;                                     \
+        mov     eax, [ecx]            ;                                     \
+        call    [eax+funcOffset]      ;                                     \
+        mov     resultName, eax       ;                                     \
+    }
+
+
+#define CALL_THISCALL_4( resultName, thisPtr, funcOffset, param1, param2, param3, param4 )\
+    void *this_ = (thisPtr);                                                \
+    __asm {                                                                 \
+        mov     eax, param4           ;                                     \
+        push    eax                   ;                                     \
+        mov     eax, param3           ;                                     \
+        push    eax                   ;                                     \
+        mov     eax, param2           ;                                     \
+        push    eax                   ;                                     \
+        mov     eax, param1           ;                                     \
+        push    eax                   ;                                     \
+        mov     ecx, this_            ;                                     \
+        mov     eax, [ecx]            ;                                     \
+        call    [eax+funcOffset]      ;                                     \
+        mov     resultName, eax       ;                                     \
+    }
+
+
+#elif defined(__GNUC__)
+
+
+#define CALL_THISCALL_0( resultName, thisPtr, funcOffset )                  \
+    __asm__ __volatile__ ("movl (%1), %%edx\n\t"                            \
+                          "call *"#funcOffset"(%%edx)\n\t"                  \
+                          :"=a"(resultName) /* Output Operands */           \
+                          :"c"(thisPtr)     /* Input Operands */            \
+                         );                                                 \
+
+
+#define CALL_VOID_THISCALL_1( thisPtr, funcOffset, param1 )                 \
+    __asm__ __volatile__ ("pushl %0\n\t"                                    \
+                          "movl (%1), %%edx\n\t"                            \
+                          "call *"#funcOffset"(%%edx)\n\t"                  \
+                          :                 /* Output Operands */           \
+                          :"r"(param1),     /* Input Operands */            \
+                           "c"(thisPtr)                                     \
+                         );                                                 \
+
+
+#define CALL_THISCALL_1( resultName, thisPtr, funcOffset, param1 )          \
+    __asm__ __volatile__ ("pushl %1\n\t"                                    \
+                          "movl (%2), %%edx\n\t"                            \
+                          "call *"#funcOffset"(%%edx)\n\t"                  \
+                          :"=a"(resultName) /* Output Operands */           \
+                          :"r"(param1),     /* Input Operands */            \
+                           "c"(thisPtr)                                     \
+                          );                                                \
+
+
+#define CALL_THISCALL_1_DOUBLE( resultName, thisPtr, funcOffset, param1 )   \
+    __asm__ __volatile__ ("pushl 4(%1)\n\t"                                 \
+                          "pushl (%1)\n\t"                                  \
+                          "movl (%2), %%edx\n\t"                            \
+                          "call *"#funcOffset"(%%edx);\n\t"                 \
+                          :"=a"(resultName) /* Output Operands */           \
+                          :"a"(&param1),    /* Input Operands */            \
+                           /* Note: Using "r" above instead of "a" fails */ \
+                           /* when using GCC 3.3.3, and maybe later versions*/\
+                           "c"(thisPtr)                                     \
+                          );                                                \
+
+
+#define CALL_THISCALL_2( resultName, thisPtr, funcOffset, param1, param2 )  \
+    __asm__ __volatile__ ("pushl %1\n\t"                                    \
+                          "pushl %2\n\t"                                    \
+                          "movl (%3), %%edx\n\t"                            \
+                          "call *"#funcOffset"(%%edx)\n\t"                  \
+                          :"=a"(resultName) /* Output Operands */           \
+                          :"r"(param2),     /* Input Operands */            \
+                           "r"(param1),                                     \
+                           "c"(thisPtr)                                     \
+                          );                                                \
+
+
+#define CALL_THISCALL_4( resultName, thisPtr, funcOffset, param1, param2, param3, param4 )\
+    __asm__ __volatile__ ("pushl %1\n\t"                                    \
+                          "pushl %2\n\t"                                    \
+                          "pushl %3\n\t"                                    \
+                          "pushl %4\n\t"                                    \
+                          "movl (%5), %%edx\n\t"                            \
+                          "call *"#funcOffset"(%%edx)\n\t"                  \
+                          :"=a"(resultName) /* Output Operands */           \
+                          :"r"(param4),     /* Input Operands  */           \
+                           "r"(param3),                                     \
+                           "r"(param2),                                     \
+                           "r"(param1),                                     \
+                           "c"(thisPtr)                                     \
+                          );                                                \
+
+#endif
+
+
+
+// Our static singleton instance.
+IASIOThiscallResolver IASIOThiscallResolver::instance;
+
+// Constructor called to initialize static Singleton instance above. Note that
+// it is important not to clear that_ incase it has already been set by the call
+// to placement new in ASIOInit().
+IASIOThiscallResolver::IASIOThiscallResolver()
+{
+}
+
+// Constructor called from ASIOInit() below
+IASIOThiscallResolver::IASIOThiscallResolver(IASIO* that)
+: that_( that )
+{
+}
+
+// Implement IUnknown methods as assert(false). IASIOThiscallResolver is not
+// really a COM object, just a wrapper which will work with the ASIO SDK.
+// If you wanted to use ASIO without the SDK you might want to implement COM
+// aggregation in these methods.
+HRESULT STDMETHODCALLTYPE IASIOThiscallResolver::QueryInterface(REFIID riid, void **ppv)
+{
+    (void)riid;     // suppress unused variable warning
+
+    assert( false ); // this function should never be called by the ASIO SDK.
+
+    *ppv = NULL;
+    return E_NOINTERFACE;
+}
+
+ULONG STDMETHODCALLTYPE IASIOThiscallResolver::AddRef()
+{
+    assert( false ); // this function should never be called by the ASIO SDK.
+
+    return 1;
+}
+
+ULONG STDMETHODCALLTYPE IASIOThiscallResolver::Release()
+{
+    assert( false ); // this function should never be called by the ASIO SDK.
+    
+    return 1;
+}
+
+
+// Implement the IASIO interface methods by performing the vptr manipulation
+// described above then delegating to the real implementation.
+ASIOBool IASIOThiscallResolver::init(void *sysHandle)
+{
+    ASIOBool result;
+    CALL_THISCALL_1( result, that_, 12, sysHandle );
+    return result;
+}
+
+void IASIOThiscallResolver::getDriverName(char *name)
+{
+    CALL_VOID_THISCALL_1( that_, 16, name );
+}
+
+long IASIOThiscallResolver::getDriverVersion()
+{
+    ASIOBool result;
+    CALL_THISCALL_0( result, that_, 20 );
+    return result;
+}
+
+void IASIOThiscallResolver::getErrorMessage(char *string)
+{
+     CALL_VOID_THISCALL_1( that_, 24, string );
+}
+
+ASIOError IASIOThiscallResolver::start()
+{
+    ASIOBool result;
+    CALL_THISCALL_0( result, that_, 28 );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::stop()
+{
+    ASIOBool result;
+    CALL_THISCALL_0( result, that_, 32 );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getChannels(long *numInputChannels, long *numOutputChannels)
+{
+    ASIOBool result;
+    CALL_THISCALL_2( result, that_, 36, numInputChannels, numOutputChannels );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getLatencies(long *inputLatency, long *outputLatency)
+{
+    ASIOBool result;
+    CALL_THISCALL_2( result, that_, 40, inputLatency, outputLatency );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getBufferSize(long *minSize, long *maxSize,
+        long *preferredSize, long *granularity)
+{
+    ASIOBool result;
+    CALL_THISCALL_4( result, that_, 44, minSize, maxSize, preferredSize, granularity );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::canSampleRate(ASIOSampleRate sampleRate)
+{
+    ASIOBool result;
+    CALL_THISCALL_1_DOUBLE( result, that_, 48, sampleRate );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getSampleRate(ASIOSampleRate *sampleRate)
+{
+    ASIOBool result;
+    CALL_THISCALL_1( result, that_, 52, sampleRate );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::setSampleRate(ASIOSampleRate sampleRate)
+{    
+    ASIOBool result;
+    CALL_THISCALL_1_DOUBLE( result, that_, 56, sampleRate );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getClockSources(ASIOClockSource *clocks, long *numSources)
+{
+    ASIOBool result;
+    CALL_THISCALL_2( result, that_, 60, clocks, numSources );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::setClockSource(long reference)
+{
+    ASIOBool result;
+    CALL_THISCALL_1( result, that_, 64, reference );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getSamplePosition(ASIOSamples *sPos, ASIOTimeStamp *tStamp)
+{
+    ASIOBool result;
+    CALL_THISCALL_2( result, that_, 68, sPos, tStamp );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::getChannelInfo(ASIOChannelInfo *info)
+{
+    ASIOBool result;
+    CALL_THISCALL_1( result, that_, 72, info );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::createBuffers(ASIOBufferInfo *bufferInfos,
+        long numChannels, long bufferSize, ASIOCallbacks *callbacks)
+{
+    ASIOBool result;
+    CALL_THISCALL_4( result, that_, 76, bufferInfos, numChannels, bufferSize, callbacks );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::disposeBuffers()
+{
+    ASIOBool result;
+    CALL_THISCALL_0( result, that_, 80 );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::controlPanel()
+{
+    ASIOBool result;
+    CALL_THISCALL_0( result, that_, 84 );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::future(long selector,void *opt)
+{
+    ASIOBool result;
+    CALL_THISCALL_2( result, that_, 88, selector, opt );
+    return result;
+}
+
+ASIOError IASIOThiscallResolver::outputReady()
+{
+    ASIOBool result;
+    CALL_THISCALL_0( result, that_, 92 );
+    return result;
+}
+
+
+// Implement our substitute ASIOInit() method
+ASIOError IASIOThiscallResolver::ASIOInit(ASIODriverInfo *info)
+{
+    // To ensure that our instance's vptr is correctly constructed, even if
+    // ASIOInit is called prior to main(), we explicitly call its constructor
+    // (potentially over the top of an existing instance). Note that this is
+    // pretty ugly, and is only safe because IASIOThiscallResolver has no
+    // destructor and contains no objects with destructors.
+    new((void*)&instance) IASIOThiscallResolver( theAsioDriver );
+
+    // Interpose between ASIO client code and the real driver.
+    theAsioDriver = &instance;
+
+    // Note that we never need to switch theAsioDriver back to point to the
+    // real driver because theAsioDriver is reset to zero in ASIOExit().
+
+    // Delegate to the real ASIOInit
+	return ::ASIOInit(info);
+}
+
+
+#endif /* !defined(_MSC_VER) */
+
+#endif /* Win32 */
+
diff --git a/portaudio/src/hostapi/asio/iasiothiscallresolver.h b/portaudio/src/hostapi/asio/iasiothiscallresolver.h
new file mode 100644
index 0000000..2ecfed7
--- /dev/null
+++ b/portaudio/src/hostapi/asio/iasiothiscallresolver.h
@@ -0,0 +1,197 @@
+// ****************************************************************************
+// File:			IASIOThiscallResolver.h
+// Description:     The IASIOThiscallResolver class implements the IASIO
+//					interface and acts as a proxy to the real IASIO interface by
+//                  calling through its vptr table using the thiscall calling
+//                  convention. To put it another way, we interpose
+//                  IASIOThiscallResolver between ASIO SDK code and the driver.
+//                  This is necessary because most non-Microsoft compilers don't
+//                  implement the thiscall calling convention used by IASIO.
+//
+//					iasiothiscallresolver.cpp contains the background of this
+//					problem plus a technical description of the vptr
+//                  manipulations.
+//
+//					In order to use this mechanism one simply has to add
+//					iasiothiscallresolver.cpp to the list of files to compile
+//                  and #include <iasiothiscallresolver.h>
+//
+//					Note that this #include must come after the other ASIO SDK
+//                  #includes, for example:
+//
+//					#include <windows.h>
+//					#include <asiosys.h>
+//					#include <asio.h>
+//					#include <asiodrivers.h>
+//					#include <iasiothiscallresolver.h>
+//
+//					Actually the important thing is to #include
+//                  <iasiothiscallresolver.h> after <asio.h>. We have
+//                  incorporated a test to enforce this ordering.
+//
+//					The code transparently takes care of the interposition by
+//                  using macro substitution to intercept calls to ASIOInit()
+//                  and ASIOExit(). We save the original ASIO global
+//                  "theAsioDriver" in our "that" variable, and then set
+//                  "theAsioDriver" to equal our IASIOThiscallResolver instance.
+//
+// 					Whilst this method of resolving the thiscall problem requires
+//					the addition of #include <iasiothiscallresolver.h> to client
+//                  code it has the advantage that it does not break the terms
+//                  of the ASIO licence by publishing it. We are NOT modifying
+//                  any Steinberg code here, we are merely implementing the IASIO
+//					interface in the same way that we would need to do if we
+//					wished to provide an open source ASIO driver.
+//
+//					For compilation with MinGW -lole32 needs to be added to the
+//                  linker options. For BORLAND, linking with Import32.lib is
+//                  sufficient.
+//
+//					The dependencies are with: CoInitialize, CoUninitialize,
+//					CoCreateInstance, CLSIDFromString - used by asiolist.cpp
+//					and are required on Windows whether ThiscallResolver is used
+//					or not.
+//
+//					Searching for the above strings in the root library path
+//					of your compiler should enable the correct libraries to be
+//					identified if they aren't immediately obvious.
+//
+//                  Note that the current implementation of IASIOThiscallResolver
+//                  is not COM compliant - it does not correctly implement the
+//                  IUnknown interface. Implementing it is not necessary because
+//                  it is not called by parts of the ASIO SDK which call through
+//                  theAsioDriver ptr. The IUnknown methods are implemented as
+//                  assert(false) to ensure that the code fails if they are
+//                  ever called.
+// Restrictions:	None. Public Domain & Open Source distribute freely
+//					You may use IASIOThiscallResolver commercially as well as
+//                  privately.
+//					You the user assume the responsibility for the use of the
+//					files, binary or text, and there is no guarantee or warranty,
+//					expressed or implied, including but not limited to the
+//					implied warranties of merchantability and fitness for a
+//					particular purpose. You assume all responsibility and agree
+//					to hold no entity, copyright holder or distributors liable
+//					for any loss of data or inaccurate representations of data
+//					as a result of using IASIOThiscallResolver.
+// Version:         1.4 Added separate macro CALL_THISCALL_1_DOUBLE from
+//                  Andrew Baldwin, and volatile for whole gcc asm blocks,
+//                  both for compatibility with newer gcc versions. Cleaned up
+//                  Borland asm to use one less register.
+//                  1.3 Switched to including assert.h for better compatibility.
+//                  Wrapped entire .h and .cpp contents with a check for
+//                  _MSC_VER to provide better compatibility with MS compilers.
+//                  Changed Singleton implementation to use static instance
+//                  instead of freestore allocated instance. Removed ASIOExit
+//                  macro as it is no longer needed.
+//                  1.2 Removed semicolons from ASIOInit and ASIOExit macros to
+//                  allow them to be embedded in expressions (if statements).
+//                  Cleaned up some comments. Removed combase.c dependency (it
+//                  doesn't compile with BCB anyway) by stubbing IUnknown.
+//                  1.1 Incorporated comments from Ross Bencina including things
+//					such as changing name from ThiscallResolver to
+//					IASIOThiscallResolver, tidying up the constructor, fixing
+//					a bug in IASIOThiscallResolver::ASIOExit() and improving
+//					portability through the use of conditional compilation
+//					1.0 Initial working version.
+// Created:			6/09/2003
+// Authors:         Fraser Adams
+//                  Ross Bencina
+//                  Rene G. Ceballos
+//                  Martin Fay
+//                  Antti Silvast
+//                  Andrew Baldwin
+//
+// ****************************************************************************
+
+
+#ifndef included_iasiothiscallresolver_h
+#define included_iasiothiscallresolver_h
+
+// We only need IASIOThiscallResolver at all if we are on Win32. For other
+// platforms we simply bypass the IASIOThiscallResolver definition to allow us
+// to be safely #include'd whatever the platform to keep client code portable
+#if defined(WIN32) || defined(_WIN32) || defined(__WIN32__)
+
+
+// If microsoft compiler we can call IASIO directly so IASIOThiscallResolver
+// is not used.
+#if !defined(_MSC_VER)
+
+
+// The following is in order to ensure that this header is only included after
+// the other ASIO headers (except for the case of iasiothiscallresolver.cpp).
+// We need to do this because IASIOThiscallResolver works by eclipsing the
+// original definition of ASIOInit() with a macro (see below).
+#if !defined(iasiothiscallresolver_sourcefile)
+	#if !defined(__ASIO_H)
+	#error iasiothiscallresolver.h must be included AFTER asio.h
+	#endif
+#endif
+
+#include <windows.h>
+#include <asiodrvr.h> /* From ASIO SDK */
+
+
+class IASIOThiscallResolver : public IASIO {
+private:
+	IASIO* that_; // Points to the real IASIO
+
+	static IASIOThiscallResolver instance; // Singleton instance
+
+	// Constructors - declared private so construction is limited to
+    // our Singleton instance
+    IASIOThiscallResolver();
+	IASIOThiscallResolver(IASIO* that);
+public:
+
+    // Methods from the IUnknown interface. We don't fully implement IUnknown
+    // because the ASIO SDK never calls these methods through theAsioDriver ptr.
+    // These methods are implemented as assert(false).
+    virtual HRESULT STDMETHODCALLTYPE QueryInterface(REFIID riid, void **ppv);
+    virtual ULONG STDMETHODCALLTYPE AddRef();
+    virtual ULONG STDMETHODCALLTYPE Release();
+
+    // Methods from the IASIO interface, implemented as forwarning calls to that.
+	virtual ASIOBool init(void *sysHandle);
+	virtual void getDriverName(char *name);
+	virtual long getDriverVersion();
+	virtual void getErrorMessage(char *string);
+	virtual ASIOError start();
+	virtual ASIOError stop();
+	virtual ASIOError getChannels(long *numInputChannels, long *numOutputChannels);
+	virtual ASIOError getLatencies(long *inputLatency, long *outputLatency);
+	virtual ASIOError getBufferSize(long *minSize, long *maxSize, long *preferredSize, long *granularity);
+	virtual ASIOError canSampleRate(ASIOSampleRate sampleRate);
+	virtual ASIOError getSampleRate(ASIOSampleRate *sampleRate);
+	virtual ASIOError setSampleRate(ASIOSampleRate sampleRate);
+	virtual ASIOError getClockSources(ASIOClockSource *clocks, long *numSources);
+	virtual ASIOError setClockSource(long reference);
+	virtual ASIOError getSamplePosition(ASIOSamples *sPos, ASIOTimeStamp *tStamp);
+	virtual ASIOError getChannelInfo(ASIOChannelInfo *info);
+	virtual ASIOError createBuffers(ASIOBufferInfo *bufferInfos, long numChannels, long bufferSize, ASIOCallbacks *callbacks);
+	virtual ASIOError disposeBuffers();
+	virtual ASIOError controlPanel();
+	virtual ASIOError future(long selector,void *opt);
+	virtual ASIOError outputReady();
+
+    // Class method, see ASIOInit() macro below.
+    static ASIOError ASIOInit(ASIODriverInfo *info); // Delegates to ::ASIOInit
+};
+
+
+// Replace calls to ASIOInit with our interposing version.
+// This macro enables us to perform thiscall resolution simply by #including
+// <iasiothiscallresolver.h> after the asio #includes (this file _must_ be
+// included _after_ the asio #includes)
+
+#define ASIOInit(name) IASIOThiscallResolver::ASIOInit((name))
+
+
+#endif /* !defined(_MSC_VER) */
+
+#endif /* Win32 */
+
+#endif /* included_iasiothiscallresolver_h */
+
+
diff --git a/portaudio/src/hostapi/asio/pa_asio.cpp b/portaudio/src/hostapi/asio/pa_asio.cpp
new file mode 100644
index 0000000..74476b5
--- /dev/null
+++ b/portaudio/src/hostapi/asio/pa_asio.cpp
@@ -0,0 +1,3023 @@
+/*
+ * $Id: pa_asio.cpp,v 1.1 2010/11/04 21:04:36 rbd Exp $
+ * Portable Audio I/O Library for ASIO Drivers
+ *
+ * Author: Stephane Letz
+ * Based on the Open Source API proposed by Ross Bencina
+ * Copyright (c) 2000-2002 Stephane Letz, Phil Burk, Ross Bencina
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining
+ * a copy of this software and associated documentation files
+ * (the "Software"), to deal in the Software without restriction,
+ * including without limitation the rights to use, copy, modify, merge,
+ * publish, distribute, sublicense, and/or sell copies of the Software,
+ * and to permit persons to whom the Software is furnished to do so,
+ * subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be
+ * included in all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
+ * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
+ * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
+ * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
+ * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
+ * CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
+ * WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
+ */
+
+/*
+ * The text above constitutes the entire PortAudio license; however, 
+ * the PortAudio community also makes the following non-binding requests:
+ *
+ * Any person wishing to distribute modifications to the Software is
+ * requested to send the modifications to the original developer so that
+ * they can be incorporated into the canonical version. It is also 
+ * requested that these non-binding requests be included along with the 
+ * license above.
+ */
+
+/* Modification History
+
+        08-03-01 First version : Stephane Letz
+        08-06-01 Tweaks for PC, use C++, buffer allocation, Float32 to Int32 conversion : Phil Burk
+        08-20-01 More conversion, PA_StreamTime, Pa_GetHostError : Stephane Letz
+        08-21-01 PaUInt8 bug correction, implementation of ASIOSTFloat32LSB and ASIOSTFloat32MSB native formats : Stephane Letz
+        08-24-01 MAX_INT32_FP hack, another Uint8 fix : Stephane and Phil
+        08-27-01 Implementation of hostBufferSize < userBufferSize case, better management of the ouput buffer when
+                 the stream is stopped : Stephane Letz
+        08-28-01 Check the stream pointer for null in bufferSwitchTimeInfo, correct bug in bufferSwitchTimeInfo when
+                 the stream is stopped : Stephane Letz
+        10-12-01 Correct the PaHost_CalcNumHostBuffers function: computes FramesPerHostBuffer to be the lowest that
+                 respect requested FramesPerUserBuffer and userBuffersPerHostBuffer : Stephane Letz
+        10-26-01 Management of hostBufferSize and userBufferSize of any size : Stephane Letz
+        10-27-01 Improve calculus of hostBufferSize to be multiple or divisor of userBufferSize if possible : Stephane and Phil
+        10-29-01 Change MAX_INT32_FP to (2147483520.0f) to prevent roundup to 0x80000000 : Phil Burk
+        10-31-01 Clear the ouput buffer and user buffers in PaHost_StartOutput, correct bug in GetFirstMultiple : Stephane Letz
+        11-06-01 Rename functions : Stephane Letz
+        11-08-01 New Pa_ASIO_Adaptor_Init function to init Callback adpatation variables, cleanup of Pa_ASIO_Callback_Input: Stephane Letz
+        11-29-01 Break apart device loading to debug random failure in Pa_ASIO_QueryDeviceInfo ; Phil Burk
+        01-03-02 Desallocate all resources in PaHost_Term for cases where Pa_CloseStream is not called properly :  Stephane Letz
+        02-01-02 Cleanup, test of multiple-stream opening : Stephane Letz
+        19-02-02 New Pa_ASIO_loadDriver that calls CoInitialize on each thread on Windows : Stephane Letz
+        09-04-02 Correct error code management in PaHost_Term, removes various compiler warning : Stephane Letz
+        12-04-02 Add Mac includes for <Devices.h> and <Timer.h> : Phil Burk
+        13-04-02 Removes another compiler warning : Stephane Letz
+        30-04-02 Pa_ASIO_QueryDeviceInfo bug correction, memory allocation checking, better error handling : D Viens, P Burk, S Letz
+        12-06-02 Rehashed into new multi-api infrastructure, added support for all ASIO sample formats : Ross Bencina
+        18-06-02 Added pa_asio.h, PaAsio_GetAvailableLatencyValues() : Ross B.
+        21-06-02 Added SelectHostBufferSize() which selects host buffer size based on user latency parameters : Ross Bencina
+        ** NOTE  maintanance history is now stored in CVS **
+*/
+
+/** @file
+	@ingroup hostapi_src
+
+    Note that specific support for paInputUnderflow, paOutputOverflow and
+    paNeverDropInput is not necessary or possible with this driver due to the
+    synchronous full duplex double-buffered architecture of ASIO.
+
+    @todo check that CoInitialize()/CoUninitialize() are always correctly
+        paired, even in error cases.
+
+    @todo implement host api specific extension to set i/o buffer sizes in frames
+
+    @todo implement ReadStream, WriteStream, GetStreamReadAvailable, GetStreamWriteAvailable
+
+    @todo implement IsFormatSupported
+
+    @todo work out how to implement stream stoppage from callback and
+            implement IsStreamActive properly. Stream stoppage could be implemented
+            using a high-priority thread blocked on an Event which is signalled
+            by the callback. Or, we could just call ASIO stop from the callback
+            and see what happens.
+
+    @todo rigorously check asio return codes and convert to pa error codes
+
+    @todo Different channels of a multichannel stream can have different sample
+            formats, but we assume that all are the same as the first channel for now.
+            Fixing this will require the block processor to maintain per-channel
+            conversion functions - could get nasty.
+
+    @todo investigate whether the asio processNow flag needs to be honoured
+
+    @todo handle asioMessages() callbacks in a useful way, or at least document
+            what cases we don't handle.
+
+    @todo miscellaneous other FIXMEs
+
+    @todo provide an asio-specific method for setting the systems specific
+        value (aka main window handle) - check that this matches the value
+        passed to PaAsio_ShowControlPanel, or remove it entirely from
+        PaAsio_ShowControlPanel. - this would allow PaAsio_ShowControlPanel
+        to be called for the currently open stream (at present all streams
+        must be closed).
+*/
+
+
+
+#include <stdio.h>
+#include <assert.h>
+#include <string.h>
+//#include <values.h>
+
+#include <windows.h>
+#include <mmsystem.h>
+
+#include "portaudio.h"
+#include "pa_asio.h"
+#include "pa_util.h"
+#include "pa_allocation.h"
+#include "pa_hostapi.h"
+#include "pa_stream.h"
+#include "pa_cpuload.h"
+#include "pa_process.h"
+#include "pa_debugprint.h"
+
+/* This version of pa_asio.cpp is currently only targetted at Win32,
+   It would require a few tweaks to work with pre-OS X Macintosh.
+   To make configuration easier, we define WIN32 here to make sure
+   that the ASIO SDK knows this is Win32.
+*/
+#ifndef WIN32
+#define WIN32
+#endif
+
+#include "asiosys.h"
+#include "asio.h"
+#include "asiodrivers.h"
+#include "iasiothiscallresolver.h"
+
+/*
+#if MAC
+#include <Devices.h>
+#include <Timer.h>
+#include <Math64.h>
+#else
+*/
+/*
+#include <math.h>
+#include <windows.h>
+#include <mmsystem.h>
+*/
+/*
+#endif
+*/
+
+/* external references */
+extern AsioDrivers* asioDrivers ;
+bool loadAsioDriver(char *name);
+
+
+/* We are trying to be compatible with CARBON but this has not been thoroughly tested. */
+/* not tested at all since new code was introduced. */
+#define CARBON_COMPATIBLE  (0)
+
+
+
+
+/* prototypes for functions declared in this file */
+
+extern "C" PaError PaAsio_Initialize( PaUtilHostApiRepresentation **hostApi, PaHostApiIndex hostApiIndex );
+static void Terminate( struct PaUtilHostApiRepresentation *hostApi );
+static PaError OpenStream( struct PaUtilHostApiRepresentation *hostApi,
+                           PaStream** s,
+                           const PaStreamParameters *inputParameters,
+                           const PaStreamParameters *outputParameters,
+                           double sampleRate,
+                           unsigned long framesPerBuffer,
+                           PaStreamFlags streamFlags,
+                           PaStreamCallback *streamCallback,
+                           void *userData );
+static PaError IsFormatSupported( struct PaUtilHostApiRepresentation *hostApi,
+                                  const PaStreamParameters *inputParameters,
+                                  const PaStreamParameters *outputParameters,
+                                  double sampleRate );
+static PaError CloseStream( PaStream* stream );
+static PaError StartStream( PaStream *stream );
+static PaError StopStream( PaStream *stream );
+static PaError AbortStream( PaStream *stream );
+static PaError IsStreamStopped( PaStream *s );
+static PaError IsStreamActive( PaStream *stream );
+static PaTime GetStreamTime( PaStream *stream );
+static double GetStreamCpuLoad( PaStream* stream );
+static PaError ReadStream( PaStream* stream, void *buffer, unsigned long frames );
+static PaError WriteStream( PaStream* stream, const void *buffer, unsigned long frames );
+static signed long GetStreamReadAvailable( PaStream* stream );
+static signed long GetStreamWriteAvailable( PaStream* stream );
+
+/* our ASIO callback functions */
+
+static void bufferSwitch(long index, ASIOBool processNow);
+static ASIOTime *bufferSwitchTimeInfo(ASIOTime *timeInfo, long index, ASIOBool processNow);
+static void sampleRateChanged(ASIOSampleRate sRate);
+static long asioMessages(long selector, long value, void* message, double* opt);
+
+static ASIOCallbacks asioCallbacks_ =
+    { bufferSwitch, sampleRateChanged, asioMessages, bufferSwitchTimeInfo };
+
+
+#define PA_ASIO_SET_LAST_HOST_ERROR( errorCode, errorText ) \
+    PaUtil_SetLastHostErrorInfo( paASIO, errorCode, errorText )
+
+
+static void PaAsio_SetLastSystemError( DWORD errorCode )
+{
+    LPVOID lpMsgBuf;
+    FormatMessage(
+        FORMAT_MESSAGE_ALLOCATE_BUFFER | FORMAT_MESSAGE_FROM_SYSTEM,
+        NULL,
+        errorCode,
+        MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
+        (LPTSTR) &lpMsgBuf,
+        0,
+        NULL
+    );
+    PaUtil_SetLastHostErrorInfo( paASIO, errorCode, (const char*)lpMsgBuf );
+    LocalFree( lpMsgBuf );
+}
+
+#define PA_ASIO_SET_LAST_SYSTEM_ERROR( errorCode ) \
+    PaAsio_SetLastSystemError( errorCode )
+
+
+static const char* PaAsio_GetAsioErrorText( ASIOError asioError )
+{
+    const char *result;
+
+    switch( asioError ){
+        case ASE_OK:
+        case ASE_SUCCESS:           result = "Success"; break;
+        case ASE_NotPresent:        result = "Hardware input or output is not present or available"; break;
+        case ASE_HWMalfunction:     result = "Hardware is malfunctioning"; break;
+        case ASE_InvalidParameter:  result = "Input parameter invalid"; break;
+        case ASE_InvalidMode:       result = "Hardware is in a bad mode or used in a bad mode"; break;
+        case ASE_SPNotAdvancing:    result = "Hardware is not running when sample position is inquired"; break;
+        case ASE_NoClock:           result = "Sample clock or rate cannot be determined or is not present"; break;
+        case ASE_NoMemory:          result = "Not enough memory for completing the request"; break;
+        default:                    result = "Unknown ASIO error"; break;
+    }
+
+    return result;
+}
+
+
+#define PA_ASIO_SET_LAST_ASIO_ERROR( asioError ) \
+    PaUtil_SetLastHostErrorInfo( paASIO, asioError, PaAsio_GetAsioErrorText( asioError ) )
+
+
+
+
+// Atomic increment and decrement operations
+#if MAC
+	/* need to be implemented on Mac */
+	inline long PaAsio_AtomicIncrement(volatile long* v) {return ++(*const_cast<long*>(v));}
+	inline long PaAsio_AtomicDecrement(volatile long* v) {return --(*const_cast<long*>(v));}
+#elif WINDOWS
+	inline long PaAsio_AtomicIncrement(volatile long* v) {return InterlockedIncrement(const_cast<long*>(v));}
+	inline long PaAsio_AtomicDecrement(volatile long* v) {return InterlockedDecrement(const_cast<long*>(v));}
+#endif
+
+
+
+typedef struct PaAsioDriverInfo
+{
+    ASIODriverInfo asioDriverInfo;
+    long inputChannelCount, outputChannelCount;
+    long bufferMinSize, bufferMaxSize, bufferPreferredSize, bufferGranularity;
+    bool postOutput;
+}
+PaAsioDriverInfo;
+
+
+/* PaAsioHostApiRepresentation - host api datastructure specific to this implementation */
+
+typedef struct
+{
+    PaUtilHostApiRepresentation inheritedHostApiRep;
+    PaUtilStreamInterface callbackStreamInterface;
+    PaUtilStreamInterface blockingStreamInterface;
+
+    PaUtilAllocationGroup *allocations;
+
+    void *systemSpecific;
+    
+    /* the ASIO C API only allows one ASIO driver to be open at a time,
+        so we keep track of whether we have the driver open here, and
+        use this information to return errors from OpenStream if the
+        driver is already open.
+
+        openAsioDeviceIndex will be PaNoDevice if there is no device open
+        and a valid pa_asio (not global) device index otherwise.
+
+        openAsioDriverInfo is populated with the driver info for the
+        currently open device (if any)
+    */
+    PaDeviceIndex openAsioDeviceIndex;
+    PaAsioDriverInfo openAsioDriverInfo;
+}
+PaAsioHostApiRepresentation;
+
+
+/*
+    Retrieve <driverCount> driver names from ASIO, returned in a char**
+    allocated in <group>.
+*/
+static char **GetAsioDriverNames( PaUtilAllocationGroup *group, long driverCount )
+{
+    char **result = 0;
+    int i;
+
+    result =(char**)PaUtil_GroupAllocateMemory(
+            group, sizeof(char*) * driverCount );
+    if( !result )
+        goto error;
+
+    result[0] = (char*)PaUtil_GroupAllocateMemory(
+            group, 32 * driverCount );
+    if( !result[0] )
+        goto error;
+
+    for( i=0; i<driverCount; ++i )
+        result[i] = result[0] + (32 * i);
+
+    asioDrivers->getDriverNames( result, driverCount );
+
+error:
+    return result;
+}
+
+
+static PaSampleFormat AsioSampleTypeToPaNativeSampleFormat(ASIOSampleType type)
+{
+    switch (type) {
+        case ASIOSTInt16MSB:
+        case ASIOSTInt16LSB:
+                return paInt16;
+
+        case ASIOSTFloat32MSB:
+        case ASIOSTFloat32LSB:
+        case ASIOSTFloat64MSB:
+        case ASIOSTFloat64LSB:
+                return paFloat32;
+
+        case ASIOSTInt32MSB:
+        case ASIOSTInt32LSB:
+        case ASIOSTInt32MSB16:
+        case ASIOSTInt32LSB16:
+        case ASIOSTInt32MSB18:
+        case ASIOSTInt32MSB20:
+        case ASIOSTInt32MSB24:
+        case ASIOSTInt32LSB18:
+        case ASIOSTInt32LSB20:
+        case ASIOSTInt32LSB24:
+                return paInt32;
+
+        case ASIOSTInt24MSB:
+        case ASIOSTInt24LSB:
+                return paInt24;
+
+        default:
+                return paCustomFormat;
+    }
+}
+
+void AsioSampleTypeLOG(ASIOSampleType type)
+{
+    switch (type) {
+        case ASIOSTInt16MSB:  PA_DEBUG(("ASIOSTInt16MSB\n"));  break;
+        case ASIOSTInt16LSB:  PA_DEBUG(("ASIOSTInt16LSB\n"));  break;
+        case ASIOSTFloat32MSB:PA_DEBUG(("ASIOSTFloat32MSB\n"));break;
+        case ASIOSTFloat32LSB:PA_DEBUG(("ASIOSTFloat32LSB\n"));break;
+        case ASIOSTFloat64MSB:PA_DEBUG(("ASIOSTFloat64MSB\n"));break;
+        case ASIOSTFloat64LSB:PA_DEBUG(("ASIOSTFloat64LSB\n"));break;
+        case ASIOSTInt32MSB:  PA_DEBUG(("ASIOSTInt32MSB\n"));  break;
+        case ASIOSTInt32LSB:  PA_DEBUG(("ASIOSTInt32LSB\n"));  break;
+        case ASIOSTInt32MSB16:PA_DEBUG(("ASIOSTInt32MSB16\n"));break;
+        case ASIOSTInt32LSB16:PA_DEBUG(("ASIOSTInt32LSB16\n"));break;
+        case ASIOSTInt32MSB18:PA_DEBUG(("ASIOSTInt32MSB18\n"));break;
+        case ASIOSTInt32MSB20:PA_DEBUG(("ASIOSTInt32MSB20\n"));break;
+        case ASIOSTInt32MSB24:PA_DEBUG(("ASIOSTInt32MSB24\n"));break;
+        case ASIOSTInt32LSB18:PA_DEBUG(("ASIOSTInt32LSB18\n"));break;
+        case ASIOSTInt32LSB20:PA_DEBUG(("ASIOSTInt32LSB20\n"));break;
+        case ASIOSTInt32LSB24:PA_DEBUG(("ASIOSTInt32LSB24\n"));break;
+        case ASIOSTInt24MSB:  PA_DEBUG(("ASIOSTInt24MSB\n"));  break;
+        case ASIOSTInt24LSB:  PA_DEBUG(("ASIOSTInt24LSB\n"));  break;
+        default:              PA_DEBUG(("Custom Format%d\n",type));break;
+
+    }
+}
+
+static int BytesPerAsioSample( ASIOSampleType sampleType )
+{
+    switch (sampleType) {
+        case ASIOSTInt16MSB:
+        case ASIOSTInt16LSB:
+            return 2;
+
+        case ASIOSTFloat64MSB:
+        case ASIOSTFloat64LSB:
+            return 8;
+
+        case ASIOSTFloat32MSB:
+        case ASIOSTFloat32LSB:
+        case ASIOSTInt32MSB:
+        case ASIOSTInt32LSB:
+        case ASIOSTInt32MSB16:
+        case ASIOSTInt32LSB16:
+        case ASIOSTInt32MSB18:
+        case ASIOSTInt32MSB20:
+        case ASIOSTInt32MSB24:
+        case ASIOSTInt32LSB18:
+        case ASIOSTInt32LSB20:
+        case ASIOSTInt32LSB24:
+            return 4;
+
+        case ASIOSTInt24MSB:
+        case ASIOSTInt24LSB:
+            return 3;
+
+        default:
+            return 0;
+    }
+}
+
+
+static void Swap16( void *buffer, long shift, long count )
+{
+    unsigned short *p = (unsigned short*)buffer;
+    unsigned short temp;
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+    {
+        temp = *p;
+        *p++ = (unsigned short)((temp<<8) | (temp>>8));
+    }
+}
+
+static void Swap24( void *buffer, long shift, long count )
+{
+    unsigned char *p = (unsigned char*)buffer;
+    unsigned char temp;
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+    {
+        temp = *p;
+        *p = *(p+2);
+        *(p+2) = temp;
+        p += 3;
+    }
+}
+
+#define PA_SWAP32_( x ) ((x>>24) | ((x>>8)&0xFF00) | ((x<<8)&0xFF0000) | (x<<24));
+
+static void Swap32( void *buffer, long shift, long count )
+{
+    unsigned long *p = (unsigned long*)buffer;
+    unsigned long temp;
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+    {
+        temp = *p;
+        *p++ = PA_SWAP32_( temp);
+    }
+}
+
+static void SwapShiftLeft32( void *buffer, long shift, long count )
+{
+    unsigned long *p = (unsigned long*)buffer;
+    unsigned long temp;
+
+    while( count-- )
+    {
+        temp = *p;
+        temp = PA_SWAP32_( temp);
+        *p++ = temp << shift;
+    }
+}
+
+static void ShiftRightSwap32( void *buffer, long shift, long count )
+{
+    unsigned long *p = (unsigned long*)buffer;
+    unsigned long temp;
+
+    while( count-- )
+    {
+        temp = *p >> shift;
+        *p++ = PA_SWAP32_( temp);
+    }
+}
+
+static void ShiftLeft32( void *buffer, long shift, long count )
+{
+    unsigned long *p = (unsigned long*)buffer;
+    unsigned long temp;
+
+    while( count-- )
+    {
+        temp = *p;
+        *p++ = temp << shift;
+    }
+}
+
+static void ShiftRight32( void *buffer, long shift, long count )
+{
+    unsigned long *p = (unsigned long*)buffer;
+    unsigned long temp;
+
+    while( count-- )
+    {
+        temp = *p;
+        *p++ = temp >> shift;
+    }
+}
+
+#define PA_SWAP_( x, y ) temp=x; x = y; y = temp;
+
+static void Swap64ConvertFloat64ToFloat32( void *buffer, long shift, long count )
+{
+    double *in = (double*)buffer;
+    float *out = (float*)buffer;
+    unsigned char *p;
+    unsigned char temp;
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+    {
+        p = (unsigned char*)in;
+        PA_SWAP_( p[0], p[7] );
+        PA_SWAP_( p[1], p[6] );
+        PA_SWAP_( p[2], p[5] );
+        PA_SWAP_( p[3], p[4] );
+
+        *out++ = (float) (*in++);
+    }
+}
+
+static void ConvertFloat64ToFloat32( void *buffer, long shift, long count )
+{
+    double *in = (double*)buffer;
+    float *out = (float*)buffer;
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+        *out++ = (float) (*in++);
+}
+
+static void ConvertFloat32ToFloat64Swap64( void *buffer, long shift, long count )
+{
+    float *in = ((float*)buffer) + (count-1);
+    double *out = ((double*)buffer) + (count-1);
+    unsigned char *p;
+    unsigned char temp;
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+    {
+        *out = *in--;
+
+        p = (unsigned char*)out;
+        PA_SWAP_( p[0], p[7] );
+        PA_SWAP_( p[1], p[6] );
+        PA_SWAP_( p[2], p[5] );
+        PA_SWAP_( p[3], p[4] );
+
+        out--;
+    }
+}
+
+static void ConvertFloat32ToFloat64( void *buffer, long shift, long count )
+{
+    float *in = ((float*)buffer) + (count-1);
+    double *out = ((double*)buffer) + (count-1);
+    (void) shift; /* unused parameter */
+
+    while( count-- )
+        *out-- = *in--;
+}
+
+#ifdef MAC
+#define PA_MSB_IS_NATIVE_
+#undef PA_LSB_IS_NATIVE_
+#endif
+
+#ifdef WINDOWS
+#undef PA_MSB_IS_NATIVE_
+#define PA_LSB_IS_NATIVE_
+#endif
+
+typedef void PaAsioBufferConverter( void *, long, long );
+
+static void SelectAsioToPaConverter( ASIOSampleType type, PaAsioBufferConverter **converter, long *shift )
+{
+    *shift = 0;
+    *converter = 0;
+
+    switch (type) {
+        case ASIOSTInt16MSB:
+            /* dest: paInt16, no conversion necessary, possible byte swap*/
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap16;
+            #endif
+            break;
+        case ASIOSTInt16LSB:
+            /* dest: paInt16, no conversion necessary, possible byte swap*/
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap16;
+            #endif
+            break;
+        case ASIOSTFloat32MSB:
+            /* dest: paFloat32, no conversion necessary, possible byte swap*/
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTFloat32LSB:
+            /* dest: paFloat32, no conversion necessary, possible byte swap*/
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTFloat64MSB:
+            /* dest: paFloat32, in-place conversion to/from float32, possible byte swap*/
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap64ConvertFloat64ToFloat32;
+            #else
+                *converter = ConvertFloat64ToFloat32;
+            #endif
+            break;
+        case ASIOSTFloat64LSB:
+            /* dest: paFloat32, in-place conversion to/from float32, possible byte swap*/
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap64ConvertFloat64ToFloat32;
+            #else
+                *converter = ConvertFloat64ToFloat32;
+            #endif
+            break;
+        case ASIOSTInt32MSB:
+            /* dest: paInt32, no conversion necessary, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTInt32LSB:
+            /* dest: paInt32, no conversion necessary, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTInt32MSB16:
+            /* dest: paInt32, 16 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 16;
+            break;
+        case ASIOSTInt32MSB18:
+            /* dest: paInt32, 14 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 14;
+            break;
+        case ASIOSTInt32MSB20:
+            /* dest: paInt32, 12 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 12;
+            break;
+        case ASIOSTInt32MSB24:
+            /* dest: paInt32, 8 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 8;
+            break;
+        case ASIOSTInt32LSB16:
+            /* dest: paInt32, 16 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 16;
+            break;
+        case ASIOSTInt32LSB18:
+            /* dest: paInt32, 14 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 14;
+            break;
+        case ASIOSTInt32LSB20:
+            /* dest: paInt32, 12 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 12;
+            break;
+        case ASIOSTInt32LSB24:
+            /* dest: paInt32, 8 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = SwapShiftLeft32;
+            #else
+                *converter = ShiftLeft32;
+            #endif
+            *shift = 8;
+            break;
+        case ASIOSTInt24MSB:
+            /* dest: paInt24, no conversion necessary, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap24;
+            #endif
+            break;
+        case ASIOSTInt24LSB:
+            /* dest: paInt24, no conversion necessary, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap24;
+            #endif
+            break;
+    }
+}
+
+
+static void SelectPaToAsioConverter( ASIOSampleType type, PaAsioBufferConverter **converter, long *shift )
+{
+    *shift = 0;
+    *converter = 0;
+
+    switch (type) {
+        case ASIOSTInt16MSB:
+            /* src: paInt16, no conversion necessary, possible byte swap*/
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap16;
+            #endif
+            break;
+        case ASIOSTInt16LSB:
+            /* src: paInt16, no conversion necessary, possible byte swap*/
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap16;
+            #endif
+            break;
+        case ASIOSTFloat32MSB:
+            /* src: paFloat32, no conversion necessary, possible byte swap*/
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTFloat32LSB:
+            /* src: paFloat32, no conversion necessary, possible byte swap*/
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTFloat64MSB:
+            /* src: paFloat32, in-place conversion to/from float32, possible byte swap*/
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = ConvertFloat32ToFloat64Swap64;
+            #else
+                *converter = ConvertFloat32ToFloat64;
+            #endif
+            break;
+        case ASIOSTFloat64LSB:
+            /* src: paFloat32, in-place conversion to/from float32, possible byte swap*/
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = ConvertFloat32ToFloat64Swap64;
+            #else
+                *converter = ConvertFloat32ToFloat64;
+            #endif
+            break;
+        case ASIOSTInt32MSB:
+            /* src: paInt32, no conversion necessary, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTInt32LSB:
+            /* src: paInt32, no conversion necessary, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap32;
+            #endif
+            break;
+        case ASIOSTInt32MSB16:
+            /* src: paInt32, 16 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 16;
+            break;
+        case ASIOSTInt32MSB18:
+            /* src: paInt32, 14 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 14;
+            break;
+        case ASIOSTInt32MSB20:
+            /* src: paInt32, 12 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 12;
+            break;
+        case ASIOSTInt32MSB24:
+            /* src: paInt32, 8 bit shift, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 8;
+            break;
+        case ASIOSTInt32LSB16:
+            /* src: paInt32, 16 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 16;
+            break;
+        case ASIOSTInt32LSB18:
+            /* src: paInt32, 14 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 14;
+            break;
+        case ASIOSTInt32LSB20:
+            /* src: paInt32, 12 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 12;
+            break;
+        case ASIOSTInt32LSB24:
+            /* src: paInt32, 8 bit shift, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = ShiftRightSwap32;
+            #else
+                *converter = ShiftRight32;
+            #endif
+            *shift = 8;
+            break;
+        case ASIOSTInt24MSB:
+            /* src: paInt24, no conversion necessary, possible byte swap */
+            #ifdef PA_LSB_IS_NATIVE_
+                *converter = Swap24;
+            #endif
+            break;
+        case ASIOSTInt24LSB:
+            /* src: paInt24, no conversion necessary, possible byte swap */
+            #ifdef PA_MSB_IS_NATIVE_
+                *converter = Swap24;
+            #endif
+            break;
+    }
+}
+
+
+typedef struct PaAsioDeviceInfo
+{
+    PaDeviceInfo commonDeviceInfo;
+    long minBufferSize;
+    long maxBufferSize;
+    long preferredBufferSize;
+    long bufferGranularity;
+
+    ASIOChannelInfo *asioChannelInfos;
+}
+PaAsioDeviceInfo;
+
+
+PaError PaAsio_GetAvailableLatencyValues( PaDeviceIndex device,
+		long *minLatency, long *maxLatency, long *preferredLatency, long *granularity )
+{
+    PaError result;
+    PaUtilHostApiRepresentation *hostApi;
+    PaDeviceIndex hostApiDevice;
+
+    result = PaUtil_GetHostApiRepresentation( &hostApi, paASIO );
+
+    if( result == paNoError )
+    {
+        result = PaUtil_DeviceIndexToHostApiDeviceIndex( &hostApiDevice, device, hostApi );
+
+        if( result == paNoError )
+        {
+            PaAsioDeviceInfo *asioDeviceInfo =
+                    (PaAsioDeviceInfo*)hostApi->deviceInfos[hostApiDevice];
+
+            *minLatency = asioDeviceInfo->minBufferSize;
+            *maxLatency = asioDeviceInfo->maxBufferSize;
+            *preferredLatency = asioDeviceInfo->preferredBufferSize;
+            *granularity = asioDeviceInfo->bufferGranularity;
+        }
+    }
+
+    return result;
+}
+
+
+
+/*
+    load the asio driver named by <driverName> and return statistics about
+    the driver in info. If no error occurred, the driver will remain open
+    and must be closed by the called by calling ASIOExit() - if an error
+    is returned the driver will already be closed.
+*/
+static PaError LoadAsioDriver( const char *driverName,
+        PaAsioDriverInfo *driverInfo, void *systemSpecific )
+{
+    PaError result = paNoError;
+    ASIOError asioError;
+    int asioIsInitialized = 0;
+
+    if( !loadAsioDriver( const_cast<char*>(driverName) ) )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_HOST_ERROR( 0, "Failed to load ASIO driver" );
+        goto error;
+    }
+
+    memset( &driverInfo->asioDriverInfo, 0, sizeof(ASIODriverInfo) );
+    driverInfo->asioDriverInfo.asioVersion = 2;
+    driverInfo->asioDriverInfo.sysRef = systemSpecific;
+    if( (asioError = ASIOInit( &driverInfo->asioDriverInfo )) != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        goto error;
+    }
+    else
+    {
+        asioIsInitialized = 1;
+    }
+
+    if( (asioError = ASIOGetChannels(&driverInfo->inputChannelCount,
+            &driverInfo->outputChannelCount)) != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        goto error;
+    }
+
+    if( (asioError = ASIOGetBufferSize(&driverInfo->bufferMinSize,
+            &driverInfo->bufferMaxSize, &driverInfo->bufferPreferredSize,
+            &driverInfo->bufferGranularity)) != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        goto error;
+    }
+
+    if( ASIOOutputReady() == ASE_OK )
+        driverInfo->postOutput = true;
+    else
+        driverInfo->postOutput = false;
+
+    return result;
+
+error:
+    if( asioIsInitialized )
+        ASIOExit();
+
+    return result;
+}
+
+
+#define PA_DEFAULTSAMPLERATESEARCHORDER_COUNT_     13   /* must be the same number of elements as in the array below */
+static ASIOSampleRate defaultSampleRateSearchOrder_[]
+     = {44100.0, 48000.0, 32000.0, 24000.0, 22050.0, 88200.0, 96000.0,
+        192000.0, 16000.0, 12000.0, 11025.0, 9600.0, 8000.0 };
+
+
+/* we look up IsDebuggerPresent at runtime incase it isn't present (on Win95 for example) */
+typedef BOOL (WINAPI *IsDebuggerPresentPtr)(VOID);
+IsDebuggerPresentPtr IsDebuggerPresent_ = 0;
+//FARPROC IsDebuggerPresent_ = 0; // this is the current way to do it apparently according to davidv
+
+PaError PaAsio_Initialize( PaUtilHostApiRepresentation **hostApi, PaHostApiIndex hostApiIndex )
+{
+    PaError result = paNoError;
+    int i, driverCount;
+    PaAsioHostApiRepresentation *asioHostApi;
+    PaAsioDeviceInfo *deviceInfoArray;
+    char **names;
+    PaAsioDriverInfo paAsioDriverInfo;
+
+    asioHostApi = (PaAsioHostApiRepresentation*)PaUtil_AllocateMemory( sizeof(PaAsioHostApiRepresentation) );
+    if( !asioHostApi )
+    {
+        result = paInsufficientMemory;
+        goto error;
+    }
+
+    asioHostApi->allocations = PaUtil_CreateAllocationGroup();
+    if( !asioHostApi->allocations )
+    {
+        result = paInsufficientMemory;
+        goto error;
+    }
+
+    asioHostApi->systemSpecific = 0;
+    asioHostApi->openAsioDeviceIndex = paNoDevice;
+
+    *hostApi = &asioHostApi->inheritedHostApiRep;
+    (*hostApi)->info.structVersion = 1;
+
+    (*hostApi)->info.type = paASIO;
+    (*hostApi)->info.name = "ASIO";
+    (*hostApi)->info.deviceCount = 0;
+
+    #ifdef WINDOWS
+        /* use desktop window as system specific ptr */
+        asioHostApi->systemSpecific = GetDesktopWindow();
+        CoInitialize(NULL);
+    #endif
+
+    /* MUST BE CHECKED : to force fragments loading on Mac */
+    loadAsioDriver( "dummy" ); 
+
+    /* driverCount is the number of installed drivers - not necessarily
+        the number of installed physical devices. */
+    #if MAC
+        driverCount = asioDrivers->getNumFragments();
+    #elif WINDOWS
+        driverCount = asioDrivers->asioGetNumDev();
+    #endif
+
+    if( driverCount > 0 )
+    {
+        names = GetAsioDriverNames( asioHostApi->allocations, driverCount );
+        if( !names )
+        {
+            result = paInsufficientMemory;
+            goto error;
+        }
+
+
+        /* allocate enough space for all drivers, even if some aren't installed */
+
+        (*hostApi)->deviceInfos = (PaDeviceInfo**)PaUtil_GroupAllocateMemory(
+                asioHostApi->allocations, sizeof(PaDeviceInfo*) * driverCount );
+        if( !(*hostApi)->deviceInfos )
+        {
+            result = paInsufficientMemory;
+            goto error;
+        }
+
+        /* allocate all device info structs in a contiguous block */
+        deviceInfoArray = (PaAsioDeviceInfo*)PaUtil_GroupAllocateMemory(
+                asioHostApi->allocations, sizeof(PaAsioDeviceInfo) * driverCount );
+        if( !deviceInfoArray )
+        {
+            result = paInsufficientMemory;
+            goto error;
+        }
+
+		IsDebuggerPresent_ = GetProcAddress( LoadLibrary( "Kernel32.dll" ), "IsDebuggerPresent" );
+
+        for( i=0; i < driverCount; ++i )
+        {
+
+            PA_DEBUG(("ASIO names[%d]:%s\n",i,names[i]));
+
+            // Since portaudio opens ALL ASIO drivers, and no one else does that,
+            // we face fact that some drivers were not meant for it, drivers which act
+            // like shells on top of REAL drivers, for instance.
+            // so we get duplicate handles, locks and other problems.
+            // so lets NOT try to load any such wrappers. 
+            // The ones i [davidv] know of so far are:
+
+            if (   strcmp (names[i],"ASIO DirectX Full Duplex Driver") == 0
+                || strcmp (names[i],"ASIO Multimedia Driver")          == 0
+                || strncmp(names[i],"Premiere",8)                      == 0   //"Premiere Elements Windows Sound 1.0"
+                || strncmp(names[i],"Adobe",5)                         == 0   //"Adobe Default Windows Sound 1.5"
+                || strncmp(names[i],"ReaRoute ASIO",13)                == 0   //Reaper www.reaper.fm <- fix your stuff man.
+               )
+            {
+                PA_DEBUG(("BLACKLISTED!!!\n"));
+                continue;
+            }
+
+
+            if( IsDebuggerPresent_ && IsDebuggerPresent_() )  
+            {
+                /* ASIO Digidesign Driver uses PACE copy protection which quits out
+                   if a debugger is running. So we don't load it if a debugger is running. */
+                if( strcmp(names[i], "ASIO Digidesign Driver") == 0 )  
+                {
+                    PA_DEBUG(("BLACKLISTED!!! ASIO Digidesign Driver would quit the debugger\n"));  
+                    continue;  
+                }  
+            }  
+
+
+            /* Attempt to load the asio driver... */
+            if( LoadAsioDriver( names[i], &paAsioDriverInfo, asioHostApi->systemSpecific ) == paNoError )
+            {
+                PaAsioDeviceInfo *asioDeviceInfo = &deviceInfoArray[ (*hostApi)->info.deviceCount ];
+                PaDeviceInfo *deviceInfo = &asioDeviceInfo->commonDeviceInfo;
+
+                deviceInfo->structVersion = 2;
+                deviceInfo->hostApi = hostApiIndex;
+
+                deviceInfo->name = names[i];
+                PA_DEBUG(("PaAsio_Initialize: drv:%d name = %s\n",  i,deviceInfo->name));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d inputChannels       = %d\n", i, paAsioDriverInfo.inputChannelCount));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d outputChannels      = %d\n", i, paAsioDriverInfo.outputChannelCount));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d bufferMinSize       = %d\n", i, paAsioDriverInfo.bufferMinSize));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d bufferMaxSize       = %d\n", i, paAsioDriverInfo.bufferMaxSize));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d bufferPreferredSize = %d\n", i, paAsioDriverInfo.bufferPreferredSize));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d bufferGranularity   = %d\n", i, paAsioDriverInfo.bufferGranularity));
+
+                deviceInfo->maxInputChannels  = paAsioDriverInfo.inputChannelCount;
+                deviceInfo->maxOutputChannels = paAsioDriverInfo.outputChannelCount;
+
+                deviceInfo->defaultSampleRate = 0.;
+                bool foundDefaultSampleRate = false;
+                for( int j=0; j < PA_DEFAULTSAMPLERATESEARCHORDER_COUNT_; ++j )
+                {
+                    ASIOError asioError = ASIOCanSampleRate( defaultSampleRateSearchOrder_[j] );
+                    if( asioError != ASE_NoClock && asioError != ASE_NotPresent )
+                    {
+                        deviceInfo->defaultSampleRate = defaultSampleRateSearchOrder_[j];
+                        foundDefaultSampleRate = true;
+                        break;
+                    }
+                }
+
+                PA_DEBUG(("PaAsio_Initialize: drv:%d defaultSampleRate = %f\n", i, deviceInfo->defaultSampleRate));
+
+                if( foundDefaultSampleRate ){
+
+                    /* calculate default latency values from bufferPreferredSize
+                        for default low latency, and bufferPreferredSize * 3
+                        for default high latency.
+                        use the default sample rate to convert from samples to
+                        seconds. Without knowing what sample rate the user will
+                        use this is the best we can do.
+                    */
+
+                    double defaultLowLatency =
+                            paAsioDriverInfo.bufferPreferredSize / deviceInfo->defaultSampleRate;
+
+                    deviceInfo->defaultLowInputLatency = defaultLowLatency;
+                    deviceInfo->defaultLowOutputLatency = defaultLowLatency;
+
+                    long defaultHighLatencyBufferSize =
+                            paAsioDriverInfo.bufferPreferredSize * 3;
+
+                    if( defaultHighLatencyBufferSize > paAsioDriverInfo.bufferMaxSize )
+                        defaultHighLatencyBufferSize = paAsioDriverInfo.bufferMaxSize;
+
+                    double defaultHighLatency =
+                            defaultHighLatencyBufferSize / deviceInfo->defaultSampleRate;
+
+                    if( defaultHighLatency < defaultLowLatency )
+                        defaultHighLatency = defaultLowLatency; /* just incase the driver returns something strange */ 
+                            
+                    deviceInfo->defaultHighInputLatency = defaultHighLatency;
+                    deviceInfo->defaultHighOutputLatency = defaultHighLatency;
+                    
+                }else{
+
+                    deviceInfo->defaultLowInputLatency = 0.;
+                    deviceInfo->defaultLowOutputLatency = 0.;
+                    deviceInfo->defaultHighInputLatency = 0.;
+                    deviceInfo->defaultHighOutputLatency = 0.;
+                }
+
+                PA_DEBUG(("PaAsio_Initialize: drv:%d defaultLowInputLatency = %f\n", i, deviceInfo->defaultLowInputLatency));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d defaultLowOutputLatency = %f\n", i, deviceInfo->defaultLowOutputLatency));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d defaultHighInputLatency = %f\n", i, deviceInfo->defaultHighInputLatency));
+                PA_DEBUG(("PaAsio_Initialize: drv:%d defaultHighOutputLatency = %f\n", i, deviceInfo->defaultHighOutputLatency));
+
+                asioDeviceInfo->minBufferSize = paAsioDriverInfo.bufferMinSize;
+                asioDeviceInfo->maxBufferSize = paAsioDriverInfo.bufferMaxSize;
+                asioDeviceInfo->preferredBufferSize = paAsioDriverInfo.bufferPreferredSize;
+                asioDeviceInfo->bufferGranularity = paAsioDriverInfo.bufferGranularity;
+
+
+                asioDeviceInfo->asioChannelInfos = (ASIOChannelInfo*)PaUtil_GroupAllocateMemory(
+                        asioHostApi->allocations,
+                        sizeof(ASIOChannelInfo) * (deviceInfo->maxInputChannels
+                                + deviceInfo->maxOutputChannels) );
+                if( !asioDeviceInfo->asioChannelInfos )
+                {
+                    result = paInsufficientMemory;
+                    goto error;
+                }
+
+                int a;
+
+                for( a=0; a < deviceInfo->maxInputChannels; ++a ){
+                    asioDeviceInfo->asioChannelInfos[a].channel = a;
+                    asioDeviceInfo->asioChannelInfos[a].isInput = ASIOTrue;
+                    ASIOError asioError = ASIOGetChannelInfo( &asioDeviceInfo->asioChannelInfos[a] );
+                    if( asioError != ASE_OK )
+                    {
+                        result = paUnanticipatedHostError;
+                        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+                        goto error;
+                    }
+                }
+
+                for( a=0; a < deviceInfo->maxOutputChannels; ++a ){
+                    int b = deviceInfo->maxInputChannels + a;
+                    asioDeviceInfo->asioChannelInfos[b].channel = a;
+                    asioDeviceInfo->asioChannelInfos[b].isInput = ASIOFalse;
+                    ASIOError asioError = ASIOGetChannelInfo( &asioDeviceInfo->asioChannelInfos[b] );
+                    if( asioError != ASE_OK )
+                    {
+                        result = paUnanticipatedHostError;
+                        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+                        goto error;
+                    }
+                }
+
+
+                /* unload the driver */
+                ASIOExit();
+
+                (*hostApi)->deviceInfos[ (*hostApi)->info.deviceCount ] = deviceInfo;
+                ++(*hostApi)->info.deviceCount;
+            }
+        }
+    }
+
+    if( (*hostApi)->info.deviceCount > 0 )
+    {
+        (*hostApi)->info.defaultInputDevice = 0;
+        (*hostApi)->info.defaultOutputDevice = 0;
+    }
+    else
+    {
+        (*hostApi)->info.defaultInputDevice = paNoDevice;
+        (*hostApi)->info.defaultOutputDevice = paNoDevice;
+    }
+
+
+    (*hostApi)->Terminate = Terminate;
+    (*hostApi)->OpenStream = OpenStream;
+    (*hostApi)->IsFormatSupported = IsFormatSupported;
+
+    PaUtil_InitializeStreamInterface( &asioHostApi->callbackStreamInterface, CloseStream, StartStream,
+                                      StopStream, AbortStream, IsStreamStopped, IsStreamActive,
+                                      GetStreamTime, GetStreamCpuLoad,
+                                      PaUtil_DummyRead, PaUtil_DummyWrite,
+                                      PaUtil_DummyGetReadAvailable, PaUtil_DummyGetWriteAvailable );
+
+    PaUtil_InitializeStreamInterface( &asioHostApi->blockingStreamInterface, CloseStream, StartStream,
+                                      StopStream, AbortStream, IsStreamStopped, IsStreamActive,
+                                      GetStreamTime, PaUtil_DummyGetCpuLoad,
+                                      ReadStream, WriteStream, GetStreamReadAvailable, GetStreamWriteAvailable );
+
+    return result;
+
+error:
+    if( asioHostApi )
+    {
+        if( asioHostApi->allocations )
+        {
+            PaUtil_FreeAllAllocations( asioHostApi->allocations );
+            PaUtil_DestroyAllocationGroup( asioHostApi->allocations );
+        }
+
+        PaUtil_FreeMemory( asioHostApi );
+    }
+    return result;
+}
+
+
+static void Terminate( struct PaUtilHostApiRepresentation *hostApi )
+{
+    PaAsioHostApiRepresentation *asioHostApi = (PaAsioHostApiRepresentation*)hostApi;
+
+    /*
+        IMPLEMENT ME:
+            - clean up any resources not handled by the allocation group
+    */
+
+    if( asioHostApi->allocations )
+    {
+        PaUtil_FreeAllAllocations( asioHostApi->allocations );
+        PaUtil_DestroyAllocationGroup( asioHostApi->allocations );
+    }
+
+    PaUtil_FreeMemory( asioHostApi );
+}
+
+
+static PaError IsFormatSupported( struct PaUtilHostApiRepresentation *hostApi,
+                                  const PaStreamParameters *inputParameters,
+                                  const PaStreamParameters *outputParameters,
+                                  double sampleRate )
+{
+    PaError result = paNoError;
+    PaAsioHostApiRepresentation *asioHostApi = (PaAsioHostApiRepresentation*)hostApi;
+    PaAsioDriverInfo *driverInfo = &asioHostApi->openAsioDriverInfo;
+    int inputChannelCount, outputChannelCount;
+    PaSampleFormat inputSampleFormat, outputSampleFormat;
+    PaDeviceIndex asioDeviceIndex;                                  
+    ASIOError asioError;
+    
+    if( inputParameters && outputParameters )
+    {
+        /* full duplex ASIO stream must use the same device for input and output */
+
+        if( inputParameters->device != outputParameters->device )
+            return paBadIODeviceCombination;
+    }
+    
+    if( inputParameters )
+    {
+        inputChannelCount = inputParameters->channelCount;
+        inputSampleFormat = inputParameters->sampleFormat;
+
+        /* all standard sample formats are supported by the buffer adapter,
+            this implementation doesn't support any custom sample formats */
+        if( inputSampleFormat & paCustomFormat )
+            return paSampleFormatNotSupported;
+            
+        /* unless alternate device specification is supported, reject the use of
+            paUseHostApiSpecificDeviceSpecification */
+
+        if( inputParameters->device == paUseHostApiSpecificDeviceSpecification )
+            return paInvalidDevice;
+
+        asioDeviceIndex = inputParameters->device;
+
+        /* validate inputStreamInfo */
+        /** @todo do more validation here */
+        // if( inputParameters->hostApiSpecificStreamInfo )
+        //    return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */
+    }
+    else
+    {
+        inputChannelCount = 0;
+    }
+
+    if( outputParameters )
+    {
+        outputChannelCount = outputParameters->channelCount;
+        outputSampleFormat = outputParameters->sampleFormat;
+
+        /* all standard sample formats are supported by the buffer adapter,
+            this implementation doesn't support any custom sample formats */
+        if( outputSampleFormat & paCustomFormat )
+            return paSampleFormatNotSupported;
+            
+        /* unless alternate device specification is supported, reject the use of
+            paUseHostApiSpecificDeviceSpecification */
+
+        if( outputParameters->device == paUseHostApiSpecificDeviceSpecification )
+            return paInvalidDevice;
+
+        asioDeviceIndex = outputParameters->device;
+
+        /* validate outputStreamInfo */
+        /** @todo do more validation here */
+        // if( outputParameters->hostApiSpecificStreamInfo )
+        //    return paIncompatibleHostApiSpecificStreamInfo; /* this implementation doesn't use custom stream info */
+    }
+    else
+    {
+        outputChannelCount = 0;
+    }
+
+
+
+    /* if an ASIO device is open we can only get format information for the currently open device */
+
+    if( asioHostApi->openAsioDeviceIndex != paNoDevice 
+			&& asioHostApi->openAsioDeviceIndex != asioDeviceIndex )
+    {
+        return paDeviceUnavailable;
+    }
+
+
+    /* NOTE: we load the driver and use its current settings
+        rather than the ones in our device info structure which may be stale */
+
+    /* open the device if it's not already open */
+    if( asioHostApi->openAsioDeviceIndex == paNoDevice )
+    {
+        result = LoadAsioDriver( asioHostApi->inheritedHostApiRep.deviceInfos[ asioDeviceIndex ]->name,
+                driverInfo, asioHostApi->systemSpecific );
+        if( result != paNoError )
+            return result;
+    }
+
+    /* check that input device can support inputChannelCount */
+    if( inputChannelCount > 0 )
+    {
+        if( inputChannelCount > driverInfo->inputChannelCount )
+        {
+            result = paInvalidChannelCount;
+            goto done;
+        }
+    }
+
+    /* check that output device can support outputChannelCount */
+    if( outputChannelCount )
+    {
+        if( outputChannelCount > driverInfo->outputChannelCount )
+        {
+            result = paInvalidChannelCount;
+            goto done;
+        }
+    }
+    
+    /* query for sample rate support */
+    asioError = ASIOCanSampleRate( sampleRate );
+    if( asioError == ASE_NoClock || asioError == ASE_NotPresent )
+    {
+        result = paInvalidSampleRate;
+        goto done;
+    }
+
+done:
+    /* close the device if it wasn't already open */
+    if( asioHostApi->openAsioDeviceIndex == paNoDevice )
+    {
+        ASIOExit(); /* not sure if we should check for errors here */
+    }
+
+    if( result == paNoError )
+        return paFormatIsSupported;
+    else
+        return result;
+}
+
+
+
+/* PaAsioStream - a stream data structure specifically for this implementation */
+
+typedef struct PaAsioStream
+{
+    PaUtilStreamRepresentation streamRepresentation;
+    PaUtilCpuLoadMeasurer cpuLoadMeasurer;
+    PaUtilBufferProcessor bufferProcessor;
+
+    PaAsioHostApiRepresentation *asioHostApi;
+    unsigned long framesPerHostCallback;
+
+    /* ASIO driver info  - these may not be needed for the life of the stream,
+        but store them here until we work out how format conversion is going
+        to work. */
+
+    ASIOBufferInfo *asioBufferInfos;
+    ASIOChannelInfo *asioChannelInfos;
+    long inputLatency, outputLatency; // actual latencies returned by asio
+
+    long inputChannelCount, outputChannelCount;
+    bool postOutput;
+
+    void **bufferPtrs; /* this is carved up for inputBufferPtrs and outputBufferPtrs */
+    void **inputBufferPtrs[2];
+    void **outputBufferPtrs[2];
+
+    PaAsioBufferConverter *inputBufferConverter;
+    long inputShift;
+    PaAsioBufferConverter *outputBufferConverter;
+    long outputShift;
+
+    volatile bool stopProcessing;
+    int stopPlayoutCount;
+    HANDLE completedBuffersPlayedEvent;
+
+    bool streamFinishedCallbackCalled;
+    volatile int isActive;
+    volatile bool zeroOutput; /* all future calls to the callback will output silence */
+
+    volatile long reenterCount;
+    volatile long reenterError;
+
+    PaStreamCallbackFlags callbackFlags;
+}
+PaAsioStream;
+
+static PaAsioStream *theAsioStream = 0; /* due to ASIO sdk limitations there can be only one stream */
+
+
+static void ZeroOutputBuffers( PaAsioStream *stream, long index )
+{
+    int i;
+
+    for( i=0; i < stream->outputChannelCount; ++i )
+    {
+        void *buffer = stream->asioBufferInfos[ i + stream->inputChannelCount ].buffers[index];
+
+        int bytesPerSample = BytesPerAsioSample( stream->asioChannelInfos[ i + stream->inputChannelCount ].type );
+
+        memset( buffer, 0, stream->framesPerHostCallback * bytesPerSample );
+    }
+}
+
+
+static unsigned long SelectHostBufferSize( unsigned long suggestedLatencyFrames,
+        PaAsioDriverInfo *driverInfo )
+{
+    unsigned long result;
+
+    if( suggestedLatencyFrames == 0 )
+    {
+        result = driverInfo->bufferPreferredSize;
+    }
+    else{
+        if( suggestedLatencyFrames <= (unsigned long)driverInfo->bufferMinSize )
+        {
+            result = driverInfo->bufferMinSize;
+        }
+        else if( suggestedLatencyFrames >= (unsigned long)driverInfo->bufferMaxSize )
+        {
+            result = driverInfo->bufferMaxSize;
+        }
+        else
+        {
+            if( driverInfo->bufferGranularity == -1 )
+            {
+                /* power-of-two */
+                result = 2;
+
+                while( result < suggestedLatencyFrames )
+                    result *= 2;
+
+                if( result < (unsigned long)driverInfo->bufferMinSize )
+                    result = driverInfo->bufferMinSize;
+
+                if( result > (unsigned long)driverInfo->bufferMaxSize )
+                    result = driverInfo->bufferMaxSize;
+            }
+            else if( driverInfo->bufferGranularity == 0 )
+            {
+                /* the documentation states that bufferGranularity should be
+                    zero when bufferMinSize, bufferMaxSize and
+                    bufferPreferredSize are the same. We assume that is the case.
+                */
+
+                result = driverInfo->bufferPreferredSize;
+            }
+            else
+            {
+                /* modulo granularity */
+
+                unsigned long remainder =
+                        suggestedLatencyFrames % driverInfo->bufferGranularity;
+
+                if( remainder == 0 )
+                {
+                    result = suggestedLatencyFrames;
+                }
+                else
+                {
+                    result = suggestedLatencyFrames
+                            + (driverInfo->bufferGranularity - remainder);
+
+                    if( result > (unsigned long)driverInfo->bufferMaxSize )
+                        result = driverInfo->bufferMaxSize;
+                }
+            }
+        }
+    }
+
+    return result;
+}
+
+
+/* returns channelSelectors if present */
+
+static PaError ValidateAsioSpecificStreamInfo(
+        const PaStreamParameters *streamParameters,
+        const PaAsioStreamInfo *streamInfo,
+        int deviceChannelCount,
+        int **channelSelectors )
+{
+	if( streamInfo )
+	{
+	    if( streamInfo->size != sizeof( PaAsioStreamInfo )
+	            || streamInfo->version != 1 )
+	    {
+	        return paIncompatibleHostApiSpecificStreamInfo;
+	    }
+
+	    if( streamInfo->flags & paAsioUseChannelSelectors )
+            *channelSelectors = streamInfo->channelSelectors;
+
+        if( !(*channelSelectors) )
+            return paIncompatibleHostApiSpecificStreamInfo;
+
+        for( int i=0; i < streamParameters->channelCount; ++i ){
+             if( (*channelSelectors)[i] < 0
+                    || (*channelSelectors)[i] >= deviceChannelCount ){
+                return paInvalidChannelCount;
+             }           
+        }
+	}
+
+	return paNoError;
+}
+
+
+/* see pa_hostapi.h for a list of validity guarantees made about OpenStream  parameters */
+
+static PaError OpenStream( struct PaUtilHostApiRepresentation *hostApi,
+                           PaStream** s,
+                           const PaStreamParameters *inputParameters,
+                           const PaStreamParameters *outputParameters,
+                           double sampleRate,
+                           unsigned long framesPerBuffer,
+                           PaStreamFlags streamFlags,
+                           PaStreamCallback *streamCallback,
+                           void *userData )
+{
+    PaError result = paNoError;
+    PaAsioHostApiRepresentation *asioHostApi = (PaAsioHostApiRepresentation*)hostApi;
+    PaAsioStream *stream = 0;
+    PaAsioStreamInfo *inputStreamInfo, *outputStreamInfo;
+    unsigned long framesPerHostBuffer;
+    int inputChannelCount, outputChannelCount;
+    PaSampleFormat inputSampleFormat, outputSampleFormat;
+    PaSampleFormat hostInputSampleFormat, hostOutputSampleFormat;
+    unsigned long suggestedInputLatencyFrames;
+    unsigned long suggestedOutputLatencyFrames;
+    PaDeviceIndex asioDeviceIndex;
+    ASIOError asioError;
+    int asioIsInitialized = 0;
+    int asioBuffersCreated = 0;
+    int completedBuffersPlayedEventInited = 0;
+    int i;
+    PaAsioDriverInfo *driverInfo;
+    int *inputChannelSelectors = 0;
+    int *outputChannelSelectors = 0;
+    bool isExternal = false;
+
+    /* unless we move to using lower level ASIO calls, we can only have
+        one device open at a time */
+    if( asioHostApi->openAsioDeviceIndex != paNoDevice ){
+        PA_DEBUG(("OpenStream paDeviceUnavailable\n"));
+        return paDeviceUnavailable;
+    }
+
+    if( inputParameters && outputParameters )
+    {
+        /* full duplex ASIO stream must use the same device for input and output */
+
+        if( inputParameters->device != outputParameters->device ){
+            PA_DEBUG(("OpenStream paBadIODeviceCombination\n"));
+            return paBadIODeviceCombination;
+    }
+    }
+
+    if( inputParameters )
+    {
+        inputChannelCount = inputParameters->channelCount;
+        inputSampleFormat = inputParameters->sampleFormat;
+        suggestedInputLatencyFrames = (unsigned long)((inputParameters->suggestedLatency * sampleRate)+0.5f);
+
+        /* unless alternate device specification is supported, reject the use of
+            paUseHostApiSpecificDeviceSpecification */
+        if( inputParameters->device == paUseHostApiSpecificDeviceSpecification )
+            return paInvalidDevice;
+
+        asioDeviceIndex = inputParameters->device;
+
+        PaAsioDeviceInfo *asioDeviceInfo = (PaAsioDeviceInfo*)hostApi->deviceInfos[asioDeviceIndex];
+
+        /* validate hostApiSpecificStreamInfo */
+        inputStreamInfo = (PaAsioStreamInfo*)inputParameters->hostApiSpecificStreamInfo;
+        result = ValidateAsioSpecificStreamInfo( inputParameters, inputStreamInfo,
+            asioDeviceInfo->commonDeviceInfo.maxInputChannels,
+            &inputChannelSelectors
+        );
+        if( result != paNoError ) return result;
+    }
+    else
+    {
+        inputChannelCount = 0;
+        inputSampleFormat = 0;
+        suggestedInputLatencyFrames = 0;
+    }
+
+    if( outputParameters )
+    {
+        outputChannelCount = outputParameters->channelCount;
+        outputSampleFormat = outputParameters->sampleFormat;
+        suggestedOutputLatencyFrames = (unsigned long)((outputParameters->suggestedLatency * sampleRate)+0.5f);
+
+        /* unless alternate device specification is supported, reject the use of
+            paUseHostApiSpecificDeviceSpecification */
+        if( outputParameters->device == paUseHostApiSpecificDeviceSpecification )
+            return paInvalidDevice;
+
+        asioDeviceIndex = outputParameters->device;
+
+        PaAsioDeviceInfo *asioDeviceInfo = (PaAsioDeviceInfo*)hostApi->deviceInfos[asioDeviceIndex];
+
+        /* validate hostApiSpecificStreamInfo */
+        outputStreamInfo = (PaAsioStreamInfo*)outputParameters->hostApiSpecificStreamInfo;
+        result = ValidateAsioSpecificStreamInfo( outputParameters, outputStreamInfo,
+            asioDeviceInfo->commonDeviceInfo.maxOutputChannels,
+            &outputChannelSelectors
+        );
+        if( result != paNoError ) return result;
+    }
+    else
+    {
+        outputChannelCount = 0;
+        outputSampleFormat = 0;
+        suggestedOutputLatencyFrames = 0;
+    }
+
+    driverInfo = &asioHostApi->openAsioDriverInfo;
+
+    /* NOTE: we load the driver and use its current settings
+        rather than the ones in our device info structure which may be stale */
+
+    result = LoadAsioDriver( asioHostApi->inheritedHostApiRep.deviceInfos[ asioDeviceIndex ]->name,
+            driverInfo, asioHostApi->systemSpecific );
+    if( result == paNoError )
+        asioIsInitialized = 1;
+    else{
+        PA_DEBUG(("OpenStream ERROR1\n"));
+        goto error;
+    }
+
+    /* check that input device can support inputChannelCount */
+    if( inputChannelCount > 0 )
+    {
+        if( inputChannelCount > driverInfo->inputChannelCount )
+        {
+            result = paInvalidChannelCount;
+            PA_DEBUG(("OpenStream ERROR2\n"));
+            goto error;
+        }
+    }
+
+    /* check that output device can support outputChannelCount */
+    if( outputChannelCount )
+    {
+        if( outputChannelCount > driverInfo->outputChannelCount )
+        {
+            result = paInvalidChannelCount;
+            PA_DEBUG(("OpenStream ERROR3\n"));
+            goto error;
+        }
+    }
+
+
+    /* davidv: listing ASIO Clock sources, there is an ongoing investigation by
+       me about whether or not call ASIOSetSampleRate if an external Clock is
+       used. A few drivers expected different things here */
+    {
+        ASIOClockSource clocks[32];
+        long numSources=32;
+        asioError = ASIOGetClockSources(clocks, &numSources);
+        if( asioError != ASE_OK ){
+            PA_DEBUG(("ERROR: ASIOGetClockSources: %s\n", PaAsio_GetAsioErrorText(asioError) ));
+        }else{
+            PA_DEBUG(("INFO ASIOGetClockSources listing %d clocks\n", numSources ));
+            for (int i=0;i<numSources;++i){
+                PA_DEBUG(("ASIOClockSource%d %s current:%d\n", i,clocks[i].name, clocks[i].isCurrentSource ));
+               
+                /*
+                  If you have problems with some drivers when externally clocked, 
+                  uncomment the next two lines
+                 */
+                //if (clocks[i].isCurrentSource)
+                //    isExternal = true;
+            }
+        }
+    }
+
+    // check that the device supports the requested sample rate 
+
+    asioError = ASIOCanSampleRate( sampleRate );
+    PA_DEBUG(("ASIOCanSampleRate(%f):%d\n",sampleRate, asioError ));
+
+    if( asioError != ASE_OK )
+    {
+        result = paInvalidSampleRate;
+        PA_DEBUG(("ERROR: ASIOCanSampleRate: %s\n", PaAsio_GetAsioErrorText(asioError) ));
+        goto error;
+    }
+
+
+    // retrieve the current sample rate, we only change to the requested
+    // sample rate if the device is not already in that rate.
+
+    ASIOSampleRate oldRate;
+    asioError = ASIOGetSampleRate(&oldRate);
+    if( asioError != ASE_OK )
+    {
+        result = paInvalidSampleRate;
+        PA_DEBUG(("ERROR: ASIOGetSampleRate: %s\n", PaAsio_GetAsioErrorText(asioError) ));
+        goto error;
+    }
+    PA_DEBUG(("ASIOGetSampleRate:%f\n",oldRate));
+
+    if (oldRate != sampleRate){
+
+        PA_DEBUG(("before ASIOSetSampleRate(%f)\n",sampleRate));
+
+        asioError = ASIOSetSampleRate( isExternal?0:sampleRate );
+        /* Set sample rate */
+        if( asioError != ASE_OK )
+        {
+            result = paInvalidSampleRate;
+            PA_DEBUG(("ERROR: ASIOSetSampleRate: %s\n", PaAsio_GetAsioErrorText(asioError) ));
+            goto error;
+        }
+        PA_DEBUG(("after ASIOSetSampleRate(%f)\n",sampleRate));
+    }
+    else
+    {
+        PA_DEBUG(("No Need to change SR\n"));
+    }
+
+
+    /*
+        IMPLEMENT ME:
+            - if a full duplex stream is requested, check that the combination
+                of input and output parameters is supported
+    */
+
+    /* validate platform specific flags */
+    if( (streamFlags & paPlatformSpecificFlags) != 0 ){
+        PA_DEBUG(("OpenStream invalid flags!!\n"));
+        return paInvalidFlag; /* unexpected platform specific flag */
+    }
+
+
+    stream = (PaAsioStream*)PaUtil_AllocateMemory( sizeof(PaAsioStream) );
+    if( !stream )
+    {
+        result = paInsufficientMemory;
+        PA_DEBUG(("OpenStream ERROR5\n"));
+        goto error;
+    }
+
+    stream->completedBuffersPlayedEvent = CreateEvent( NULL, TRUE, FALSE, NULL );
+    if( stream->completedBuffersPlayedEvent == NULL )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_SYSTEM_ERROR( GetLastError() );
+        PA_DEBUG(("OpenStream ERROR6\n"));
+        goto error;
+    }
+    completedBuffersPlayedEventInited = 1;
+
+
+    stream->asioBufferInfos = 0; /* for deallocation in error */
+    stream->asioChannelInfos = 0; /* for deallocation in error */
+    stream->bufferPtrs = 0; /* for deallocation in error */
+
+    if( streamCallback )
+    {
+        PaUtil_InitializeStreamRepresentation( &stream->streamRepresentation,
+                                               &asioHostApi->callbackStreamInterface, streamCallback, userData );
+    }
+    else
+    {
+        PaUtil_InitializeStreamRepresentation( &stream->streamRepresentation,
+                                               &asioHostApi->blockingStreamInterface, streamCallback, userData );
+    }
+
+
+    PaUtil_InitializeCpuLoadMeasurer( &stream->cpuLoadMeasurer, sampleRate );
+
+
+    stream->asioBufferInfos = (ASIOBufferInfo*)PaUtil_AllocateMemory(
+            sizeof(ASIOBufferInfo) * (inputChannelCount + outputChannelCount) );
+    if( !stream->asioBufferInfos )
+    {
+        result = paInsufficientMemory;
+        PA_DEBUG(("OpenStream ERROR7\n"));
+        goto error;
+    }
+
+
+    for( i=0; i < inputChannelCount; ++i )
+    {
+        ASIOBufferInfo *info = &stream->asioBufferInfos[i];
+
+        info->isInput = ASIOTrue;
+
+        if( inputChannelSelectors ){
+            // inputChannelSelectors values have already been validated in
+            // ValidateAsioSpecificStreamInfo() above
+            info->channelNum = inputChannelSelectors[i];
+        }else{
+            info->channelNum = i;
+        }
+
+        info->buffers[0] = info->buffers[1] = 0;
+    }
+
+    for( i=0; i < outputChannelCount; ++i ){
+        ASIOBufferInfo *info = &stream->asioBufferInfos[inputChannelCount+i];
+
+        info->isInput = ASIOFalse;
+
+        if( outputChannelSelectors ){
+            // outputChannelSelectors values have already been validated in
+            // ValidateAsioSpecificStreamInfo() above
+            info->channelNum = outputChannelSelectors[i];
+        }else{
+            info->channelNum = i;
+        }
+        
+        info->buffers[0] = info->buffers[1] = 0;
+    }
+
+
+    framesPerHostBuffer = SelectHostBufferSize(
+            (( suggestedInputLatencyFrames > suggestedOutputLatencyFrames )
+                    ? suggestedInputLatencyFrames : suggestedOutputLatencyFrames),
+            driverInfo );
+
+
+	PA_DEBUG(("PaAsioOpenStream: framesPerHostBuffer :%d\n",  framesPerHostBuffer));
+
+    asioError = ASIOCreateBuffers( stream->asioBufferInfos,
+            inputChannelCount+outputChannelCount,
+            framesPerHostBuffer, &asioCallbacks_ );
+
+    if( asioError != ASE_OK
+            && framesPerHostBuffer != (unsigned long)driverInfo->bufferPreferredSize )
+    {
+        PA_DEBUG(("ERROR: ASIOCreateBuffers: %s\n", PaAsio_GetAsioErrorText(asioError) ));
+        /*
+            Some buggy drivers (like the Hoontech DSP24) give incorrect
+            [min, preferred, max] values They should work with the preferred size
+            value, thus if Pa_ASIO_CreateBuffers fails with the hostBufferSize
+            computed in SelectHostBufferSize, we try again with the preferred size.
+        */
+
+        framesPerHostBuffer = driverInfo->bufferPreferredSize;
+
+        PA_DEBUG(("PaAsioOpenStream: CORRECTED framesPerHostBuffer :%d\n",  framesPerHostBuffer));
+
+        ASIOError asioError2 = ASIOCreateBuffers( stream->asioBufferInfos,
+                inputChannelCount+outputChannelCount,
+                 framesPerHostBuffer, &asioCallbacks_ );
+        if( asioError2 == ASE_OK )
+            asioError = ASE_OK;
+    }
+
+    if( asioError != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        PA_DEBUG(("OpenStream ERROR9\n"));
+        goto error;
+    }
+
+    asioBuffersCreated = 1;
+
+    stream->asioChannelInfos = (ASIOChannelInfo*)PaUtil_AllocateMemory(
+            sizeof(ASIOChannelInfo) * (inputChannelCount + outputChannelCount) );
+    if( !stream->asioChannelInfos )
+    {
+        result = paInsufficientMemory;
+        PA_DEBUG(("OpenStream ERROR10\n"));
+        goto error;
+    }
+
+    for( i=0; i < inputChannelCount + outputChannelCount; ++i )
+    {
+        stream->asioChannelInfos[i].channel = stream->asioBufferInfos[i].channelNum;
+        stream->asioChannelInfos[i].isInput = stream->asioBufferInfos[i].isInput;
+        asioError = ASIOGetChannelInfo( &stream->asioChannelInfos[i] );
+        if( asioError != ASE_OK )
+        {
+            result = paUnanticipatedHostError;
+            PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+            PA_DEBUG(("OpenStream ERROR11\n"));
+            goto error;
+        }
+    }
+
+    stream->bufferPtrs = (void**)PaUtil_AllocateMemory(
+            2 * sizeof(void*) * (inputChannelCount + outputChannelCount) );
+    if( !stream->bufferPtrs )
+    {
+        result = paInsufficientMemory;
+        PA_DEBUG(("OpenStream ERROR12\n"));
+        goto error;
+    }
+
+    if( inputChannelCount > 0 )
+    {
+        stream->inputBufferPtrs[0] = stream-> bufferPtrs;
+        stream->inputBufferPtrs[1] = &stream->bufferPtrs[inputChannelCount];
+
+        for( i=0; i<inputChannelCount; ++i )
+        {
+            stream->inputBufferPtrs[0][i] = stream->asioBufferInfos[i].buffers[0];
+            stream->inputBufferPtrs[1][i] = stream->asioBufferInfos[i].buffers[1];
+        }
+    }
+    else
+    {
+        stream->inputBufferPtrs[0] = 0;
+        stream->inputBufferPtrs[1] = 0;
+    }
+
+    if( outputChannelCount > 0 )
+    {
+        stream->outputBufferPtrs[0] = &stream->bufferPtrs[inputChannelCount*2];
+        stream->outputBufferPtrs[1] = &stream->bufferPtrs[inputChannelCount*2 + outputChannelCount];
+
+        for( i=0; i<outputChannelCount; ++i )
+        {
+            stream->outputBufferPtrs[0][i] = stream->asioBufferInfos[inputChannelCount+i].buffers[0];
+            stream->outputBufferPtrs[1][i] = stream->asioBufferInfos[inputChannelCount+i].buffers[1];
+        }
+    }
+    else
+    {
+        stream->outputBufferPtrs[0] = 0;
+        stream->outputBufferPtrs[1] = 0;
+    }
+
+    if( inputChannelCount > 0 )
+    {
+        /* FIXME: assume all channels use the same type for now */
+        ASIOSampleType inputType = stream->asioChannelInfos[0].type;
+
+        PA_DEBUG(("ASIO Input  type:%d",inputType));
+        AsioSampleTypeLOG(inputType);
+        hostInputSampleFormat = AsioSampleTypeToPaNativeSampleFormat( inputType );
+
+        SelectAsioToPaConverter( inputType, &stream->inputBufferConverter, &stream->inputShift );
+    }
+    else
+    {
+        hostInputSampleFormat = 0;
+        stream->inputBufferConverter = 0;
+    }
+
+    if( outputChannelCount > 0 )
+    {
+        /* FIXME: assume all channels use the same type for now */
+        ASIOSampleType outputType = stream->asioChannelInfos[inputChannelCount].type;
+
+        PA_DEBUG(("ASIO Output type:%d",outputType));
+        AsioSampleTypeLOG(outputType);
+        hostOutputSampleFormat = AsioSampleTypeToPaNativeSampleFormat( outputType );
+
+        SelectPaToAsioConverter( outputType, &stream->outputBufferConverter, &stream->outputShift );
+    }
+    else
+    {
+        hostOutputSampleFormat = 0;
+        stream->outputBufferConverter = 0;
+    }
+
+    result =  PaUtil_InitializeBufferProcessor( &stream->bufferProcessor,
+                    inputChannelCount, inputSampleFormat, hostInputSampleFormat,
+                    outputChannelCount, outputSampleFormat, hostOutputSampleFormat,
+                    sampleRate, streamFlags, framesPerBuffer,
+                    framesPerHostBuffer, paUtilFixedHostBufferSize,
+                    streamCallback, userData );
+    if( result != paNoError ){
+        PA_DEBUG(("OpenStream ERROR13\n"));
+        goto error;
+    }
+
+
+    ASIOGetLatencies( &stream->inputLatency, &stream->outputLatency );
+
+    stream->streamRepresentation.streamInfo.inputLatency =
+            (double)( PaUtil_GetBufferProcessorInputLatency(&stream->bufferProcessor)
+                + stream->inputLatency) / sampleRate;   // seconds
+    stream->streamRepresentation.streamInfo.outputLatency =
+            (double)( PaUtil_GetBufferProcessorOutputLatency(&stream->bufferProcessor)
+                + stream->outputLatency) / sampleRate; // seconds
+    stream->streamRepresentation.streamInfo.sampleRate = sampleRate;
+
+    // the code below prints the ASIO latency which doesn't include the
+    // buffer processor latency. it reports the added latency separately
+    PA_DEBUG(("PaAsio : ASIO InputLatency = %ld (%ld ms), added buffProc:%ld (%ld ms)\n",
+            stream->inputLatency,
+            (long)((stream->inputLatency*1000)/ sampleRate),  
+            PaUtil_GetBufferProcessorInputLatency(&stream->bufferProcessor),
+            (long)((PaUtil_GetBufferProcessorInputLatency(&stream->bufferProcessor)*1000)/ sampleRate)
+            ));
+
+    PA_DEBUG(("PaAsio : ASIO OuputLatency = %ld (%ld ms), added buffProc:%ld (%ld ms)\n",
+            stream->outputLatency,
+            (long)((stream->outputLatency*1000)/ sampleRate), 
+            PaUtil_GetBufferProcessorOutputLatency(&stream->bufferProcessor),
+            (long)((PaUtil_GetBufferProcessorOutputLatency(&stream->bufferProcessor)*1000)/ sampleRate)
+            ));
+
+    stream->asioHostApi = asioHostApi;
+    stream->framesPerHostCallback = framesPerHostBuffer;
+
+    stream->inputChannelCount = inputChannelCount;
+    stream->outputChannelCount = outputChannelCount;
+    stream->postOutput = driverInfo->postOutput;
+    stream->isActive = 0;
+
+    asioHostApi->openAsioDeviceIndex = asioDeviceIndex;
+
+    *s = (PaStream*)stream;
+
+    return result;
+
+error:
+    PA_DEBUG(("goto errored\n"));
+    if( stream )
+    {
+        if( completedBuffersPlayedEventInited )
+            CloseHandle( stream->completedBuffersPlayedEvent );
+
+        if( stream->asioBufferInfos )
+            PaUtil_FreeMemory( stream->asioBufferInfos );
+
+        if( stream->asioChannelInfos )
+            PaUtil_FreeMemory( stream->asioChannelInfos );
+
+        if( stream->bufferPtrs )
+            PaUtil_FreeMemory( stream->bufferPtrs );
+
+        PaUtil_FreeMemory( stream );
+    }
+
+    if( asioBuffersCreated )
+        ASIODisposeBuffers();
+
+    if( asioIsInitialized )
+        ASIOExit();
+
+    return result;
+}
+
+
+/*
+    When CloseStream() is called, the multi-api layer ensures that
+    the stream has already been stopped or aborted.
+*/
+static PaError CloseStream( PaStream* s )
+{
+    PaError result = paNoError;
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    /*
+        IMPLEMENT ME:
+            - additional stream closing + cleanup
+    */
+
+    PaUtil_TerminateBufferProcessor( &stream->bufferProcessor );
+    PaUtil_TerminateStreamRepresentation( &stream->streamRepresentation );
+
+    stream->asioHostApi->openAsioDeviceIndex = paNoDevice;
+
+    CloseHandle( stream->completedBuffersPlayedEvent );
+
+    PaUtil_FreeMemory( stream->asioBufferInfos );
+    PaUtil_FreeMemory( stream->asioChannelInfos );
+    PaUtil_FreeMemory( stream->bufferPtrs );
+    PaUtil_FreeMemory( stream );
+
+    ASIODisposeBuffers();
+    ASIOExit();
+
+    return result;
+}
+
+
+static void bufferSwitch(long index, ASIOBool directProcess)
+{
+//TAKEN FROM THE ASIO SDK
+
+    // the actual processing callback.
+    // Beware that this is normally in a seperate thread, hence be sure that
+    // you take care about thread synchronization. This is omitted here for
+    // simplicity.
+
+    // as this is a "back door" into the bufferSwitchTimeInfo a timeInfo needs
+    // to be created though it will only set the timeInfo.samplePosition and
+    // timeInfo.systemTime fields and the according flags
+
+    ASIOTime  timeInfo;
+    memset( &timeInfo, 0, sizeof (timeInfo) );
+
+    // get the time stamp of the buffer, not necessary if no
+    // synchronization to other media is required
+    if( ASIOGetSamplePosition(&timeInfo.timeInfo.samplePosition, &timeInfo.timeInfo.systemTime) == ASE_OK)
+            timeInfo.timeInfo.flags = kSystemTimeValid | kSamplePositionValid;
+
+    // Call the real callback
+    bufferSwitchTimeInfo( &timeInfo, index, directProcess );
+}
+
+
+// conversion from 64 bit ASIOSample/ASIOTimeStamp to double float
+#if NATIVE_INT64
+	#define ASIO64toDouble(a)  (a)
+#else
+	const double twoRaisedTo32 = 4294967296.;
+	#define ASIO64toDouble(a)  ((a).lo + (a).hi * twoRaisedTo32)
+#endif
+
+static ASIOTime *bufferSwitchTimeInfo( ASIOTime *timeInfo, long index, ASIOBool directProcess )
+{
+    // the actual processing callback.
+    // Beware that this is normally in a seperate thread, hence be sure that
+    // you take care about thread synchronization.
+
+
+    /* The SDK says the following about the directProcess flag:
+        suggests to the host whether it should immediately start processing
+        (directProcess == ASIOTrue), or whether its process should be deferred
+        because the call comes from a very low level (for instance, a high level
+        priority interrupt), and direct processing would cause timing instabilities for
+        the rest of the system. If in doubt, directProcess should be set to ASIOFalse.
+
+        We just ignore directProcess. This could cause incompatibilities with
+        drivers which really don't want the audio processing to occur in this
+        callback, but none have been identified yet.
+    */
+
+    (void) directProcess; /* suppress unused parameter warning */
+
+#if 0
+    // store the timeInfo for later use
+    asioDriverInfo.tInfo = *timeInfo;
+
+    // get the time stamp of the buffer, not necessary if no
+    // synchronization to other media is required
+
+    if (timeInfo->timeInfo.flags & kSystemTimeValid)
+            asioDriverInfo.nanoSeconds = ASIO64toDouble(timeInfo->timeInfo.systemTime);
+    else
+            asioDriverInfo.nanoSeconds = 0;
+
+    if (timeInfo->timeInfo.flags & kSamplePositionValid)
+            asioDriverInfo.samples = ASIO64toDouble(timeInfo->timeInfo.samplePosition);
+    else
+            asioDriverInfo.samples = 0;
+
+    if (timeInfo->timeCode.flags & kTcValid)
+            asioDriverInfo.tcSamples = ASIO64toDouble(timeInfo->timeCode.timeCodeSamples);
+    else
+            asioDriverInfo.tcSamples = 0;
+
+    // get the system reference time
+    asioDriverInfo.sysRefTime = get_sys_reference_time();
+#endif
+
+#if 0
+    // a few debug messages for the Windows device driver developer
+    // tells you the time when driver got its interrupt and the delay until the app receives
+    // the event notification.
+    static double last_samples = 0;
+    char tmp[128];
+    sprintf (tmp, "diff: %d / %d ms / %d ms / %d samples                 \n", asioDriverInfo.sysRefTime - (long)(asioDriverInfo.nanoSeconds / 1000000.0), asioDriverInfo.sysRefTime, (long)(asioDriverInfo.nanoSeconds / 1000000.0), (long)(asioDriverInfo.samples - last_samples));
+    OutputDebugString (tmp);
+    last_samples = asioDriverInfo.samples;
+#endif
+
+
+    if( !theAsioStream )
+        return 0L;
+
+    // Keep sample position
+    // FIXME: asioDriverInfo.pahsc_NumFramesDone = timeInfo->timeInfo.samplePosition.lo;
+
+
+    // protect against reentrancy
+    if( PaAsio_AtomicIncrement(&theAsioStream->reenterCount) )
+    {
+        theAsioStream->reenterError++;
+        //DBUG(("bufferSwitchTimeInfo : reentrancy detection = %d\n", asioDriverInfo.reenterError));
+        return 0L;
+    }
+
+    int buffersDone = 0;
+    
+    do
+    {
+        if( buffersDone > 0 )
+        {
+            // this is a reentered buffer, we missed processing it on time
+            // set the input overflow and output underflow flags as appropriate
+            
+            if( theAsioStream->inputChannelCount > 0 )
+                theAsioStream->callbackFlags |= paInputOverflow;
+                
+            if( theAsioStream->outputChannelCount > 0 )
+                theAsioStream->callbackFlags |= paOutputUnderflow;
+        }
+        else
+        {
+            if( theAsioStream->zeroOutput )
+            {
+                ZeroOutputBuffers( theAsioStream, index );
+
+                // Finally if the driver supports the ASIOOutputReady() optimization,
+                // do it here, all data are in place
+                if( theAsioStream->postOutput )
+                    ASIOOutputReady();
+
+                if( theAsioStream->stopProcessing )
+                {
+                    if( theAsioStream->stopPlayoutCount < 2 )
+                    {
+                        ++theAsioStream->stopPlayoutCount;
+                        if( theAsioStream->stopPlayoutCount == 2 )
+                        {
+                            theAsioStream->isActive = 0;
+                            if( theAsioStream->streamRepresentation.streamFinishedCallback != 0 )
+                                theAsioStream->streamRepresentation.streamFinishedCallback( theAsioStream->streamRepresentation.userData );
+                            theAsioStream->streamFinishedCallbackCalled = true;
+                            SetEvent( theAsioStream->completedBuffersPlayedEvent );
+                        }
+                    }
+                }
+            }
+            else
+            {
+
+#if 0
+// test code to try to detect slip conditions... these may work on some systems
+// but neither of them work on the RME Digi96
+
+// check that sample delta matches buffer size (otherwise we must have skipped
+// a buffer.
+static double last_samples = -512;
+double samples;
+//if( timeInfo->timeCode.flags & kTcValid )
+//    samples = ASIO64toDouble(timeInfo->timeCode.timeCodeSamples);
+//else
+    samples = ASIO64toDouble(timeInfo->timeInfo.samplePosition);
+int delta = samples - last_samples;
+//printf( "%d\n", delta);
+last_samples = samples;
+
+if( delta > theAsioStream->framesPerHostCallback )
+{
+    if( theAsioStream->inputChannelCount > 0 )
+        theAsioStream->callbackFlags |= paInputOverflow;
+
+    if( theAsioStream->outputChannelCount > 0 )
+        theAsioStream->callbackFlags |= paOutputUnderflow;
+}
+
+// check that the buffer index is not the previous index (which would indicate
+// that a buffer was skipped.
+static int previousIndex = 1;
+if( index == previousIndex )
+{
+    if( theAsioStream->inputChannelCount > 0 )
+        theAsioStream->callbackFlags |= paInputOverflow;
+
+    if( theAsioStream->outputChannelCount > 0 )
+        theAsioStream->callbackFlags |= paOutputUnderflow;
+}
+previousIndex = index;
+#endif
+
+                int i;
+
+                PaUtil_BeginCpuLoadMeasurement( &theAsioStream->cpuLoadMeasurer );
+
+                PaStreamCallbackTimeInfo paTimeInfo;
+
+                // asio systemTime is supposed to be measured according to the same
+                // clock as timeGetTime
+                paTimeInfo.currentTime = (ASIO64toDouble( timeInfo->timeInfo.systemTime ) * .000000001);
+
+                /* patch from Paul Boege */
+                paTimeInfo.inputBufferAdcTime = paTimeInfo.currentTime -
+                    ((double)theAsioStream->inputLatency/theAsioStream->streamRepresentation.streamInfo.sampleRate);
+
+                paTimeInfo.outputBufferDacTime = paTimeInfo.currentTime +
+                    ((double)theAsioStream->outputLatency/theAsioStream->streamRepresentation.streamInfo.sampleRate);
+
+                /* old version is buggy because the buffer processor also adds in its latency to the time parameters
+                paTimeInfo.inputBufferAdcTime = paTimeInfo.currentTime - theAsioStream->streamRepresentation.streamInfo.inputLatency;
+                paTimeInfo.outputBufferDacTime = paTimeInfo.currentTime + theAsioStream->streamRepresentation.streamInfo.outputLatency;
+                */
+#if 1
+// detect underflows by checking inter-callback time > 2 buffer period
+static double previousTime = -1;
+if( previousTime > 0 ){
+
+    double delta = paTimeInfo.currentTime - previousTime;
+
+    if( delta >= 2. * (theAsioStream->framesPerHostCallback / theAsioStream->streamRepresentation.streamInfo.sampleRate) ){
+        if( theAsioStream->inputChannelCount > 0 )
+            theAsioStream->callbackFlags |= paInputOverflow;
+
+        if( theAsioStream->outputChannelCount > 0 )
+            theAsioStream->callbackFlags |= paOutputUnderflow;
+    }
+}
+previousTime = paTimeInfo.currentTime;
+#endif
+
+                // note that the above input and output times do not need to be
+                // adjusted for the latency of the buffer processor -- the buffer
+                // processor handles that.
+
+                if( theAsioStream->inputBufferConverter )
+                {
+                    for( i=0; i<theAsioStream->inputChannelCount; i++ )
+                    {
+                        theAsioStream->inputBufferConverter( theAsioStream->inputBufferPtrs[index][i],
+                                theAsioStream->inputShift, theAsioStream->framesPerHostCallback );
+                    }
+                }
+
+                PaUtil_BeginBufferProcessing( &theAsioStream->bufferProcessor, &paTimeInfo, theAsioStream->callbackFlags );
+
+                /* reset status flags once they've been passed to the callback */
+                theAsioStream->callbackFlags = 0;
+
+                PaUtil_SetInputFrameCount( &theAsioStream->bufferProcessor, 0 /* default to host buffer size */ );
+                for( i=0; i<theAsioStream->inputChannelCount; ++i )
+                    PaUtil_SetNonInterleavedInputChannel( &theAsioStream->bufferProcessor, i, theAsioStream->inputBufferPtrs[index][i] );
+
+                PaUtil_SetOutputFrameCount( &theAsioStream->bufferProcessor, 0 /* default to host buffer size */ );
+                for( i=0; i<theAsioStream->outputChannelCount; ++i )
+                    PaUtil_SetNonInterleavedOutputChannel( &theAsioStream->bufferProcessor, i, theAsioStream->outputBufferPtrs[index][i] );
+
+                int callbackResult;
+                if( theAsioStream->stopProcessing )
+                    callbackResult = paComplete;
+                else
+                    callbackResult = paContinue;
+                unsigned long framesProcessed = PaUtil_EndBufferProcessing( &theAsioStream->bufferProcessor, &callbackResult );
+
+                if( theAsioStream->outputBufferConverter )
+                {
+                    for( i=0; i<theAsioStream->outputChannelCount; i++ )
+                    {
+                        theAsioStream->outputBufferConverter( theAsioStream->outputBufferPtrs[index][i],
+                                theAsioStream->outputShift, theAsioStream->framesPerHostCallback );
+                    }
+                }
+
+                PaUtil_EndCpuLoadMeasurement( &theAsioStream->cpuLoadMeasurer, framesProcessed );
+
+                // Finally if the driver supports the ASIOOutputReady() optimization,
+                // do it here, all data are in place
+                if( theAsioStream->postOutput )
+                    ASIOOutputReady();
+
+                if( callbackResult == paContinue )
+                {
+                    /* nothing special to do */
+                }
+                else if( callbackResult == paAbort )
+                {
+                    /* finish playback immediately  */
+                    theAsioStream->isActive = 0;
+                    if( theAsioStream->streamRepresentation.streamFinishedCallback != 0 )
+                        theAsioStream->streamRepresentation.streamFinishedCallback( theAsioStream->streamRepresentation.userData );
+                    theAsioStream->streamFinishedCallbackCalled = true;
+                    SetEvent( theAsioStream->completedBuffersPlayedEvent );
+                    theAsioStream->zeroOutput = true;
+                }
+                else /* paComplete or other non-zero value indicating complete */
+                {
+                    /* Finish playback once currently queued audio has completed. */
+                    theAsioStream->stopProcessing = true;
+
+                    if( PaUtil_IsBufferProcessorOutputEmpty( &theAsioStream->bufferProcessor ) )
+                    {
+                        theAsioStream->zeroOutput = true;
+                        theAsioStream->stopPlayoutCount = 0;
+                    }
+                }
+            }
+        }
+        
+        ++buffersDone;
+    }while( PaAsio_AtomicDecrement(&theAsioStream->reenterCount) >= 0 );
+
+    return 0L;
+}
+
+
+static void sampleRateChanged(ASIOSampleRate sRate)
+{
+    // TAKEN FROM THE ASIO SDK
+    // do whatever you need to do if the sample rate changed
+    // usually this only happens during external sync.
+    // Audio processing is not stopped by the driver, actual sample rate
+    // might not have even changed, maybe only the sample rate status of an
+    // AES/EBU or S/PDIF digital input at the audio device.
+    // You might have to update time/sample related conversion routines, etc.
+
+    (void) sRate; /* unused parameter */
+    PA_DEBUG( ("sampleRateChanged : %d \n", sRate));
+}
+
+static long asioMessages(long selector, long value, void* message, double* opt)
+{
+// TAKEN FROM THE ASIO SDK
+    // currently the parameters "value", "message" and "opt" are not used.
+    long ret = 0;
+
+    (void) message; /* unused parameters */
+    (void) opt;
+
+    PA_DEBUG( ("asioMessages : %d , %d \n", selector, value));
+
+    switch(selector)
+    {
+        case kAsioSelectorSupported:
+            if(value == kAsioResetRequest
+            || value == kAsioEngineVersion
+            || value == kAsioResyncRequest
+            || value == kAsioLatenciesChanged
+            // the following three were added for ASIO 2.0, you don't necessarily have to support them
+            || value == kAsioSupportsTimeInfo
+            || value == kAsioSupportsTimeCode
+            || value == kAsioSupportsInputMonitor)
+                    ret = 1L;
+            break;
+
+        case kAsioBufferSizeChange:
+            //printf("kAsioBufferSizeChange \n");
+            break;
+
+        case kAsioResetRequest:
+            // defer the task and perform the reset of the driver during the next "safe" situation
+            // You cannot reset the driver right now, as this code is called from the driver.
+            // Reset the driver is done by completely destruct is. I.e. ASIOStop(), ASIODisposeBuffers(), Destruction
+            // Afterwards you initialize the driver again.
+
+            /*FIXME: commented the next line out */
+            //asioDriverInfo.stopped;  // In this sample the processing will just stop
+            ret = 1L;
+            break;
+
+        case kAsioResyncRequest:
+            // This informs the application, that the driver encountered some non fatal data loss.
+            // It is used for synchronization purposes of different media.
+            // Added mainly to work around the Win16Mutex problems in Windows 95/98 with the
+            // Windows Multimedia system, which could loose data because the Mutex was hold too long
+            // by another thread.
+            // However a driver can issue it in other situations, too.
+            ret = 1L;
+            break;
+
+        case kAsioLatenciesChanged:
+            // This will inform the host application that the drivers were latencies changed.
+            // Beware, it this does not mean that the buffer sizes have changed!
+            // You might need to update internal delay data.
+            ret = 1L;
+            //printf("kAsioLatenciesChanged \n");
+            break;
+
+        case kAsioEngineVersion:
+            // return the supported ASIO version of the host application
+            // If a host applications does not implement this selector, ASIO 1.0 is assumed
+            // by the driver
+            ret = 2L;
+            break;
+
+        case kAsioSupportsTimeInfo:
+            // informs the driver wether the asioCallbacks.bufferSwitchTimeInfo() callback
+            // is supported.
+            // For compatibility with ASIO 1.0 drivers the host application should always support
+            // the "old" bufferSwitch method, too.
+            ret = 1;
+            break;
+
+        case kAsioSupportsTimeCode:
+            // informs the driver wether application is interested in time code info.
+            // If an application does not need to know about time code, the driver has less work
+            // to do.
+            ret = 0;
+            break;
+    }
+    return ret;
+}
+
+
+static PaError StartStream( PaStream *s )
+{
+    PaError result = paNoError;
+    PaAsioStream *stream = (PaAsioStream*)s;
+    ASIOError asioError;
+
+    if( stream->outputChannelCount > 0 )
+    {
+        ZeroOutputBuffers( stream, 0 );
+        ZeroOutputBuffers( stream, 1 );
+    }
+
+    PaUtil_ResetBufferProcessor( &stream->bufferProcessor );
+    stream->stopProcessing = false;
+    stream->zeroOutput = false;
+
+    /* Reentrancy counter initialisation */
+    stream->reenterCount = -1;
+    stream->reenterError = 0;
+
+    stream->callbackFlags = 0;
+
+    if( ResetEvent( stream->completedBuffersPlayedEvent ) == 0 )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_SYSTEM_ERROR( GetLastError() );
+    }
+
+    if( result == paNoError )
+    {
+        theAsioStream = stream;
+        asioError = ASIOStart();
+        if( asioError == ASE_OK )
+        {
+            stream->isActive = 1;
+            stream->streamFinishedCallbackCalled = false;
+        }
+        else
+        {
+            theAsioStream = 0;
+            result = paUnanticipatedHostError;
+            PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        }
+    }
+
+    return result;
+}
+
+
+static PaError StopStream( PaStream *s )
+{
+    PaError result = paNoError;
+    PaAsioStream *stream = (PaAsioStream*)s;
+    ASIOError asioError;
+
+    if( stream->isActive )
+    {
+        stream->stopProcessing = true;
+
+        /* wait for the stream to finish playing out enqueued buffers.
+            timeout after four times the stream latency.
+
+            @todo should use a better time out value - if the user buffer
+            length is longer than the asio buffer size then that should
+            be taken into account.
+        */
+        if( WaitForSingleObject( theAsioStream->completedBuffersPlayedEvent,
+                (DWORD)(stream->streamRepresentation.streamInfo.outputLatency * 1000. * 4.) )
+                    == WAIT_TIMEOUT	 )
+        {
+            PA_DEBUG(("WaitForSingleObject() timed out in StopStream()\n" ));
+        }
+    }
+
+    asioError = ASIOStop();
+    if( asioError != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+    }
+
+    theAsioStream = 0;
+    stream->isActive = 0;
+
+    if( !stream->streamFinishedCallbackCalled )
+    {
+        if( stream->streamRepresentation.streamFinishedCallback != 0 )
+            stream->streamRepresentation.streamFinishedCallback( stream->streamRepresentation.userData );
+    }
+
+    return result;
+}
+
+
+static PaError AbortStream( PaStream *s )
+{
+    PaError result = paNoError;
+    PaAsioStream *stream = (PaAsioStream*)s;
+    ASIOError asioError;
+
+    stream->zeroOutput = true;
+
+    asioError = ASIOStop();
+    if( asioError != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+    }
+    else
+    {
+        // make sure that the callback is not still in-flight when ASIOStop()
+        // returns. This has been observed to happen on the Hoontech DSP24 for
+        // example.
+        int count = 2000;  // only wait for 2 seconds, rather than hanging.
+        while( theAsioStream->reenterCount != -1 && count > 0 )
+        {
+            Sleep(1);
+            --count;
+        }
+    }
+
+    /* it is questionable whether we should zero theAsioStream if ASIOStop()
+        returns an error, because the callback could still be active. We assume
+        not - this is based on the fact that ASIOStop is unlikely to fail
+        if the callback is running - it's more likely to fail because the
+        callback is not running. */
+        
+    theAsioStream = 0;
+    stream->isActive = 0;
+
+    if( !stream->streamFinishedCallbackCalled )
+    {
+        if( stream->streamRepresentation.streamFinishedCallback != 0 )
+            stream->streamRepresentation.streamFinishedCallback( stream->streamRepresentation.userData );
+    }
+
+    return result;
+}
+
+
+static PaError IsStreamStopped( PaStream *s )
+{
+    //PaAsioStream *stream = (PaAsioStream*)s;
+    (void) s; /* unused parameter */
+    return theAsioStream == 0;
+}
+
+
+static PaError IsStreamActive( PaStream *s )
+{
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    return stream->isActive;
+}
+
+
+static PaTime GetStreamTime( PaStream *s )
+{
+    (void) s; /* unused parameter */
+    return (double)timeGetTime() * .001;
+}
+
+
+static double GetStreamCpuLoad( PaStream* s )
+{
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    return PaUtil_GetCpuLoad( &stream->cpuLoadMeasurer );
+}
+
+
+/*
+    As separate stream interfaces are used for blocking and callback
+    streams, the following functions can be guaranteed to only be called
+    for blocking streams.
+*/
+
+static PaError ReadStream( PaStream* s,
+                           void *buffer,
+                           unsigned long frames )
+{
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    /* IMPLEMENT ME, see portaudio.h for required behavior*/
+    (void) stream; /* unused parameters */
+    (void) buffer;
+    (void) frames;
+
+    return paNoError;
+}
+
+
+static PaError WriteStream( PaStream* s,
+                            const void *buffer,
+                            unsigned long frames )
+{
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    /* IMPLEMENT ME, see portaudio.h for required behavior*/
+    (void) stream; /* unused parameters */
+    (void) buffer;
+    (void) frames;
+
+    return paNoError;
+}
+
+
+static signed long GetStreamReadAvailable( PaStream* s )
+{
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    /* IMPLEMENT ME, see portaudio.h for required behavior*/
+    (void) stream; /* unused parameter */
+
+    return 0;
+}
+
+
+static signed long GetStreamWriteAvailable( PaStream* s )
+{
+    PaAsioStream *stream = (PaAsioStream*)s;
+
+    /* IMPLEMENT ME, see portaudio.h for required behavior*/
+    (void) stream; /* unused parameter */
+
+    return 0;
+}
+
+
+PaError PaAsio_ShowControlPanel( PaDeviceIndex device, void* systemSpecific )
+{
+	PaError result = paNoError;
+    PaUtilHostApiRepresentation *hostApi;
+    PaDeviceIndex hostApiDevice;
+    ASIODriverInfo asioDriverInfo;
+	ASIOError asioError;
+    int asioIsInitialized = 0;
+    PaAsioHostApiRepresentation *asioHostApi;
+    PaAsioDeviceInfo *asioDeviceInfo;
+
+
+    result = PaUtil_GetHostApiRepresentation( &hostApi, paASIO );
+    if( result != paNoError )
+        goto error;
+
+    result = PaUtil_DeviceIndexToHostApiDeviceIndex( &hostApiDevice, device, hostApi );
+    if( result != paNoError )
+        goto error;
+
+    /*
+        In theory we could proceed if the currently open device was the same
+        one for which the control panel was requested, however  because the
+        window pointer is not available until this function is called we
+        currently need to call ASIOInit() again here, which of course can't be
+        done safely while a stream is open.
+    */
+
+    asioHostApi = (PaAsioHostApiRepresentation*)hostApi;
+    if( asioHostApi->openAsioDeviceIndex != paNoDevice )
+    {
+        result = paDeviceUnavailable;
+        goto error;
+    }
+
+    asioDeviceInfo = (PaAsioDeviceInfo*)hostApi->deviceInfos[hostApiDevice];
+
+    if( !loadAsioDriver( const_cast<char*>(asioDeviceInfo->commonDeviceInfo.name) ) )
+    {
+        result = paUnanticipatedHostError;
+        goto error;
+    }
+
+    /* CRUCIAL!!! */
+    memset( &asioDriverInfo, 0, sizeof(ASIODriverInfo) );
+    asioDriverInfo.asioVersion = 2;
+    asioDriverInfo.sysRef = systemSpecific;
+    asioError = ASIOInit( &asioDriverInfo );
+    if( asioError != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        goto error;
+    }
+    else
+    {
+        asioIsInitialized = 1;
+    }
+
+PA_DEBUG(("PaAsio_ShowControlPanel: ASIOInit(): %s\n", PaAsio_GetAsioErrorText(asioError) ));
+PA_DEBUG(("asioVersion: ASIOInit(): %ld\n",   asioDriverInfo.asioVersion )); 
+PA_DEBUG(("driverVersion: ASIOInit(): %ld\n", asioDriverInfo.driverVersion )); 
+PA_DEBUG(("Name: ASIOInit(): %s\n",           asioDriverInfo.name )); 
+PA_DEBUG(("ErrorMessage: ASIOInit(): %s\n",   asioDriverInfo.errorMessage )); 
+
+    asioError = ASIOControlPanel();
+    if( asioError != ASE_OK )
+    {
+        PA_DEBUG(("PaAsio_ShowControlPanel: ASIOControlPanel(): %s\n", PaAsio_GetAsioErrorText(asioError) ));
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        goto error;
+    }
+
+PA_DEBUG(("PaAsio_ShowControlPanel: ASIOControlPanel(): %s\n", PaAsio_GetAsioErrorText(asioError) ));
+
+    asioError = ASIOExit();
+    if( asioError != ASE_OK )
+    {
+        result = paUnanticipatedHostError;
+        PA_ASIO_SET_LAST_ASIO_ERROR( asioError );
+        asioIsInitialized = 0;
+        goto error;
+    }
+
+PA_DEBUG(("PaAsio_ShowControlPanel: ASIOExit(): %s\n", PaAsio_GetAsioErrorText(asioError) ));
+
+	return result;
+
+error:
+    if( asioIsInitialized )
+        ASIOExit();
+
+	return result;
+}
+
+
+PaError PaAsio_GetInputChannelName( PaDeviceIndex device, int channelIndex,
+        const char** channelName )
+{
+    PaError result = paNoError;
+    PaUtilHostApiRepresentation *hostApi;
+    PaDeviceIndex hostApiDevice;
+    PaAsioDeviceInfo *asioDeviceInfo;
+
+
+    result = PaUtil_GetHostApiRepresentation( &hostApi, paASIO );
+    if( result != paNoError )
+        goto error;
+
+    result = PaUtil_DeviceIndexToHostApiDeviceIndex( &hostApiDevice, device, hostApi );
+    if( result != paNoError )
+        goto error;
+
+    asioDeviceInfo = (PaAsioDeviceInfo*)hostApi->deviceInfos[hostApiDevice];
+
+    if( channelIndex < 0 || channelIndex >= asioDeviceInfo->commonDeviceInfo.maxInputChannels ){
+        result = paInvalidChannelCount;
+        goto error;
+    }
+
+    *channelName = asioDeviceInfo->asioChannelInfos[channelIndex].name;
+
+    return paNoError;
+    
+error:
+    return result;
+}
+
+
+PaError PaAsio_GetOutputChannelName( PaDeviceIndex device, int channelIndex,
+        const char** channelName )
+{
+    PaError result = paNoError;
+    PaUtilHostApiRepresentation *hostApi;
+    PaDeviceIndex hostApiDevice;
+    PaAsioDeviceInfo *asioDeviceInfo;
+
+
+    result = PaUtil_GetHostApiRepresentation( &hostApi, paASIO );
+    if( result != paNoError )
+        goto error;
+
+    result = PaUtil_DeviceIndexToHostApiDeviceIndex( &hostApiDevice, device, hostApi );
+    if( result != paNoError )
+        goto error;
+
+    asioDeviceInfo = (PaAsioDeviceInfo*)hostApi->deviceInfos[hostApiDevice];
+
+    if( channelIndex < 0 || channelIndex >= asioDeviceInfo->commonDeviceInfo.maxOutputChannels ){
+        result = paInvalidChannelCount;
+        goto error;
+    }
+
+    *channelName = asioDeviceInfo->asioChannelInfos[
+            asioDeviceInfo->commonDeviceInfo.maxInputChannels + channelIndex].name;
+
+    return paNoError;
+    
+error:
+    return result;
+}