Commit b84d634d authored by Damien George's avatar Damien George

Add Demo_uPy_TypesPI, to test all types input to a MicroPython PI.

parent 37b9bbb1
TASTE-Dataview DEFINITIONS ::=
BEGIN
IMPORTS T-Int32, T-UInt32, T-Int8, T-UInt8, T-Boolean FROM TASTE-BasicTypes;
-- A few simple types to start with ASN.1
MyInteger ::= T-UInt8
MyReal ::= REAL (0.0 .. 1000.0)
MyBool ::= BOOLEAN
MyEnum ::= ENUMERATED { hello, world, howareyou }
MySeq ::= SEQUENCE {
input-data MyInteger,
output-data MyInteger,
validity ENUMERATED { valid, invalid }
}
MyChoice ::= CHOICE {
a BOOLEAN,
b MySeq
}
MySeqOf ::= SEQUENCE (SIZE (2)) OF MyEnum
MyOctStr ::= OCTET STRING (SIZE (3))
-- You can also declare constants
myVar MySeqOf ::= { hello, world }
END
---------------------------------------------------
-- AADL2.0
-- TASTE
--
--
---------------------------------------------------
PACKAGE deploymentview::DV::Node1
PUBLIC
WITH Taste;
WITH Deployment;
WITH TASTE_DV_Properties;
PROCESS x86_partition
END x86_partition;
PROCESS IMPLEMENTATION x86_partition.others
END x86_partition.others;
END deploymentview::DV::Node1;
PACKAGE deploymentview::DV
PUBLIC
WITH ocarina_processors_x86;
WITH deploymentview::DV::Node1;
WITH Taste;
WITH Deployment;
WITH interfaceview::IV;
WITH TASTE_DV_Properties;
SYSTEM Node1
END Node1;
SYSTEM IMPLEMENTATION Node1.others
SUBCOMPONENTS
IV_GND : SYSTEM interfaceview::IV::GND.others {
Taste::coordinates => "990 990 1457 1452";
Taste::FunctionName => "GND";
};
IV_PAYLOAD : SYSTEM interfaceview::IV::PAYLOAD.others {
Taste::coordinates => "1636 980 2165 1421";
Taste::FunctionName => "PAYLOAD";
};
x86_partition : PROCESS deploymentview::DV::Node1::x86_partition.others {
Taste::coordinates => "664 752 2276 1614";
Deployment::Port_Number => 0;
};
x86_linux : PROCESSOR ocarina_processors_x86::x86.linux {
Taste::coordinates => "462 506 2477 1737";
};
PROPERTIES
Taste::APLC_Binding => (reference (x86_partition)) APPLIES TO IV_GND;
Taste::APLC_Binding => (reference (x86_partition)) APPLIES TO IV_PAYLOAD;
Actual_Processor_Binding => (reference (x86_linux)) APPLIES TO x86_partition;
END Node1.others;
SYSTEM deploymentview
END deploymentview;
SYSTEM IMPLEMENTATION deploymentview.others
SUBCOMPONENTS
Node1 : SYSTEM Node1.others {
Taste::coordinates => "210 154 2729 1913";
};
interfaceview : SYSTEM interfaceview::IV::interfaceview.others;
END deploymentview.others;
PROPERTIES
Taste::coordinates => "0 0 2970 2100";
Taste::version => "1.3.19";
Taste::interfaceView => "InterfaceView.aadl";
Taste::HWLibraries => ("../../tool-inst/share/ocarina/AADLv2/ocarina_components.aadl");
END deploymentview::DV;
-- copied aadl libraries
\ No newline at end of file
---------------------------------------------------
-- AADL2.0
-- TASTE
--
--
---------------------------------------------------
PACKAGE interfaceview::FV::GND
PUBLIC
WITH Taste;
WITH DataView;
WITH TASTE_IV_Properties;
SUBPROGRAM PI_CYCLE
PROPERTIES
Taste::Associated_Queue_Size => 1;
END PI_CYCLE;
SUBPROGRAM IMPLEMENTATION PI_CYCLE.others
END PI_CYCLE.others;
SUBPROGRAM RI_TC_Seq_NATIVE
FEATURES
a : IN PARAMETER DataView::MySeq {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MySeq {
Taste::encoding => NATIVE;
};
END RI_TC_Seq_NATIVE;
SUBPROGRAM IMPLEMENTATION RI_TC_Seq_NATIVE.others
END RI_TC_Seq_NATIVE.others;
SUBPROGRAM RI_TC_Seq_UPER
FEATURES
a : IN PARAMETER DataView::MySeq {
Taste::encoding => UPER;
};
b : OUT PARAMETER DataView::MySeq {
Taste::encoding => UPER;
};
END RI_TC_Seq_UPER;
SUBPROGRAM IMPLEMENTATION RI_TC_Seq_UPER.others
END RI_TC_Seq_UPER.others;
SUBPROGRAM RI_TC_Choice_NATIVE
FEATURES
a : IN PARAMETER DataView::MyChoice {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MyChoice {
Taste::encoding => NATIVE;
};
END RI_TC_Choice_NATIVE;
SUBPROGRAM IMPLEMENTATION RI_TC_Choice_NATIVE.others
END RI_TC_Choice_NATIVE.others;
SUBPROGRAM RI_TC_OctStr_NATIVE
FEATURES
a : IN PARAMETER DataView::MyOctStr {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MyOctStr {
Taste::encoding => NATIVE;
};
END RI_TC_OctStr_NATIVE;
SUBPROGRAM IMPLEMENTATION RI_TC_OctStr_NATIVE.others
END RI_TC_OctStr_NATIVE.others;
SUBPROGRAM RI_TC_SeqOf_NATIVE
FEATURES
a : IN PARAMETER DataView::MySeqOf {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MySeqOf {
Taste::encoding => NATIVE;
};
END RI_TC_SeqOf_NATIVE;
SUBPROGRAM IMPLEMENTATION RI_TC_SeqOf_NATIVE.others
END RI_TC_SeqOf_NATIVE.others;
END interfaceview::FV::GND;
PACKAGE interfaceview::FV::PAYLOAD
PUBLIC
WITH Taste;
WITH DataView;
WITH TASTE_IV_Properties;
SUBPROGRAM PI_TC_Seq_NATIVE
FEATURES
a : IN PARAMETER DataView::MySeq {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MySeq {
Taste::encoding => NATIVE;
};
PROPERTIES
Taste::Associated_Queue_Size => 1;
END PI_TC_Seq_NATIVE;
SUBPROGRAM IMPLEMENTATION PI_TC_Seq_NATIVE.others
END PI_TC_Seq_NATIVE.others;
SUBPROGRAM PI_TC_Seq_UPER
FEATURES
a : IN PARAMETER DataView::MySeq {
Taste::encoding => UPER;
};
b : OUT PARAMETER DataView::MySeq {
Taste::encoding => UPER;
};
PROPERTIES
Taste::Associated_Queue_Size => 1;
END PI_TC_Seq_UPER;
SUBPROGRAM IMPLEMENTATION PI_TC_Seq_UPER.others
END PI_TC_Seq_UPER.others;
SUBPROGRAM PI_TC_Choice_NATIVE
FEATURES
a : IN PARAMETER DataView::MyChoice {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MyChoice {
Taste::encoding => NATIVE;
};
PROPERTIES
Taste::Associated_Queue_Size => 1;
END PI_TC_Choice_NATIVE;
SUBPROGRAM IMPLEMENTATION PI_TC_Choice_NATIVE.others
END PI_TC_Choice_NATIVE.others;
SUBPROGRAM PI_TC_OctStr_NATIVE
FEATURES
a : IN PARAMETER DataView::MyOctStr {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MyOctStr {
Taste::encoding => NATIVE;
};
PROPERTIES
Taste::Associated_Queue_Size => 1;
END PI_TC_OctStr_NATIVE;
SUBPROGRAM IMPLEMENTATION PI_TC_OctStr_NATIVE.others
END PI_TC_OctStr_NATIVE.others;
SUBPROGRAM PI_TC_SeqOf_NATIVE
FEATURES
a : IN PARAMETER DataView::MySeqOf {
Taste::encoding => NATIVE;
};
b : OUT PARAMETER DataView::MySeqOf {
Taste::encoding => NATIVE;
};
PROPERTIES
Taste::Associated_Queue_Size => 1;
END PI_TC_SeqOf_NATIVE;
SUBPROGRAM IMPLEMENTATION PI_TC_SeqOf_NATIVE.others
END PI_TC_SeqOf_NATIVE.others;
END interfaceview::FV::PAYLOAD;
PACKAGE interfaceview::IV
PUBLIC
WITH interfaceview::FV::GND;
WITH interfaceview::FV::PAYLOAD;
WITH interfaceview::FV;
WITH Taste;
WITH DataView;
WITH TASTE_IV_Properties;
SYSTEM GND
FEATURES
PI_CYCLE : PROVIDES SUBPROGRAM ACCESS interfaceview::FV::GND::PI_CYCLE.others {
Taste::coordinates => "487 180";
Taste::RCMoperationKind => cyclic;
Taste::RCMperiod => 2000 ms;
Taste::Deadline => 2000 ms;
Taste::InterfaceName => "CYCLE";
};
RI_TC_Seq_NATIVE : REQUIRES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_Seq_NATIVE.others {
Taste::coordinates => "1246 297";
Taste::RCMoperationKind => any;
Taste::InterfaceName => "TC_Seq_NATIVE";
Taste::labelInheritance => "true";
};
RI_TC_Seq_UPER : REQUIRES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_Seq_UPER.others {
Taste::coordinates => "1246 574";
Taste::RCMoperationKind => any;
Taste::InterfaceName => "TC_Seq_UPER";
Taste::labelInheritance => "true";
};
RI_TC_Choice_NATIVE : REQUIRES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_Choice_NATIVE.others {
Taste::coordinates => "1246 821";
Taste::RCMoperationKind => any;
Taste::InterfaceName => "TC_Choice_NATIVE";
Taste::labelInheritance => "true";
};
RI_TC_OctStr_NATIVE : REQUIRES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_OctStr_NATIVE.others {
Taste::coordinates => "1246 1057";
Taste::RCMoperationKind => any;
Taste::InterfaceName => "TC_OctStr_NATIVE";
Taste::labelInheritance => "true";
};
RI_TC_SeqOf_NATIVE : REQUIRES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_SeqOf_NATIVE.others {
Taste::coordinates => "1246 1267";
Taste::RCMoperationKind => any;
Taste::InterfaceName => "TC_SeqOf_NATIVE";
Taste::labelInheritance => "true";
};
PROPERTIES
Source_Language => (C);
END GND;
SYSTEM IMPLEMENTATION GND.others
SUBCOMPONENTS
CYCLE_impl : SUBPROGRAM interfaceview::FV::GND::PI_CYCLE.others {
Compute_Execution_Time => 0 ms .. 0 ms;
};
CONNECTIONS
OpToPICnx_CYCLE_impl : SUBPROGRAM ACCESS CYCLE_impl -> PI_CYCLE;
END GND.others;
SYSTEM PAYLOAD
FEATURES
PI_TC_Seq_NATIVE : PROVIDES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_Seq_NATIVE.others {
Taste::coordinates => "1621 298";
Taste::RCMoperationKind => unprotected;
Taste::RCMperiod => 0 ms;
Taste::Deadline => 0 ms;
Taste::InterfaceName => "TC_Seq_NATIVE";
};
PI_TC_Seq_UPER : PROVIDES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_Seq_UPER.others {
Taste::coordinates => "1621 575";
Taste::RCMoperationKind => unprotected;
Taste::RCMperiod => 0 ms;
Taste::Deadline => 0 ms;
Taste::InterfaceName => "TC_Seq_UPER";
};
PI_TC_Choice_NATIVE : PROVIDES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_Choice_NATIVE.others {
Taste::coordinates => "1621 820";
Taste::RCMoperationKind => unprotected;
Taste::RCMperiod => 0 ms;
Taste::Deadline => 0 ms;
Taste::InterfaceName => "TC_Choice_NATIVE";
};
PI_TC_OctStr_NATIVE : PROVIDES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_OctStr_NATIVE.others {
Taste::coordinates => "1621 1057";
Taste::RCMoperationKind => unprotected;
Taste::RCMperiod => 0 ms;
Taste::Deadline => 0 ms;
Taste::InterfaceName => "TC_OctStr_NATIVE";
};
PI_TC_SeqOf_NATIVE : PROVIDES SUBPROGRAM ACCESS interfaceview::FV::PAYLOAD::PI_TC_SeqOf_NATIVE.others {
Taste::coordinates => "1621 1267";
Taste::RCMoperationKind => unprotected;
Taste::RCMperiod => 0 ms;
Taste::Deadline => 0 ms;
Taste::InterfaceName => "TC_SeqOf_NATIVE";
};
PROPERTIES
Source_Language => (Micropython);
END PAYLOAD;
SYSTEM IMPLEMENTATION PAYLOAD.others
SUBCOMPONENTS
TC_Seq_NATIVE_impl : SUBPROGRAM interfaceview::FV::PAYLOAD::PI_TC_Seq_NATIVE.others {
Compute_Execution_Time => 0 ms .. 0 ms;
};
TC_Seq_UPER_impl : SUBPROGRAM interfaceview::FV::PAYLOAD::PI_TC_Seq_UPER.others {
Compute_Execution_Time => 0 ms .. 0 ms;
};
TC_Choice_NATIVE_impl : SUBPROGRAM interfaceview::FV::PAYLOAD::PI_TC_Choice_NATIVE.others {
Compute_Execution_Time => 0 ms .. 0 ms;
};
TC_OctStr_NATIVE_impl : SUBPROGRAM interfaceview::FV::PAYLOAD::PI_TC_OctStr_NATIVE.others {
Compute_Execution_Time => 0 ms .. 0 ms;
};
TC_SeqOf_NATIVE_impl : SUBPROGRAM interfaceview::FV::PAYLOAD::PI_TC_SeqOf_NATIVE.others {
Compute_Execution_Time => 0 ms .. 0 ms;
};
CONNECTIONS
OpToPICnx_TC_Seq_NATIVE_impl : SUBPROGRAM ACCESS TC_Seq_NATIVE_impl -> PI_TC_Seq_NATIVE;
OpToPICnx_TC_Seq_UPER_impl : SUBPROGRAM ACCESS TC_Seq_UPER_impl -> PI_TC_Seq_UPER;
OpToPICnx_TC_Choice_NATIVE_impl : SUBPROGRAM ACCESS TC_Choice_NATIVE_impl -> PI_TC_Choice_NATIVE;
OpToPICnx_TC_OctStr_NATIVE_impl : SUBPROGRAM ACCESS TC_OctStr_NATIVE_impl -> PI_TC_OctStr_NATIVE;
OpToPICnx_TC_SeqOf_NATIVE_impl : SUBPROGRAM ACCESS TC_SeqOf_NATIVE_impl -> PI_TC_SeqOf_NATIVE;
END PAYLOAD.others;
SYSTEM interfaceview
END interfaceview;
SYSTEM IMPLEMENTATION interfaceview.others
SUBCOMPONENTS
GND : SYSTEM interfaceview::IV::GND.others {
Taste::coordinates => "236 180 1246 2052";
};
PAYLOAD : SYSTEM interfaceview::IV::PAYLOAD.others {
Taste::coordinates => "1621 190 2698 2057";
};
CONNECTIONS
PAYLOAD_TC_Seq_NATIVE_GND_TC_Seq_NATIVE : SUBPROGRAM ACCESS PAYLOAD.PI_TC_Seq_NATIVE -> GND.RI_TC_Seq_NATIVE {
Taste::coordinates => "1246 297 1433 297 1433 298 1621 298";
};
PAYLOAD_TC_Seq_UPER_GND_TC_Seq_UPER : SUBPROGRAM ACCESS PAYLOAD.PI_TC_Seq_UPER -> GND.RI_TC_Seq_UPER {
Taste::coordinates => "1246 574 1433 574 1433 575 1621 575";
};
PAYLOAD_TC_Choice_NATIVE_GND_TC_Choice_NATIVE : SUBPROGRAM ACCESS PAYLOAD.PI_TC_Choice_NATIVE -> GND.RI_TC_Choice_NATIVE {
Taste::coordinates => "1246 821 1433 821 1433 820 1621 820";
};
PAYLOAD_TC_OctStr_NATIVE_GND_TC_OctStr_NATIVE : SUBPROGRAM ACCESS PAYLOAD.PI_TC_OctStr_NATIVE -> GND.RI_TC_OctStr_NATIVE {
Taste::coordinates => "1246 1057 1433 1057 1433 1057 1621 1057";
};
PAYLOAD_TC_SeqOf_NATIVE_GND_TC_SeqOf_NATIVE : SUBPROGRAM ACCESS PAYLOAD.PI_TC_SeqOf_NATIVE -> GND.RI_TC_SeqOf_NATIVE {
Taste::coordinates => "1246 1267 1433 1267 1433 1267 1621 1267";
};
END interfaceview.others;
PROPERTIES
Taste::dataView => ("DataView");
Taste::dataViewPath => ("DataView.aadl");
Taste::coordinates => "0 0 2970 2100";
Taste::version => "1.3.19";
END interfaceview::IV;
PACKAGE interfaceview::FV
PUBLIC
WITH Taste;
WITH DataView;
WITH TASTE_IV_Properties;
END interfaceview::FV;
b3bf1cb905c9901d9c09712bc3c6c7ca InterfaceView.aadl
#!/bin/bash -e
# This script will build your TASTE system.
# You should not change this file as it was automatically generated.
# If you need additional preprocessing, there are three hook files
# that you can provide and that are called dring the build:
# user_init_pre.sh, user_init_post.sh and user_init_last.sh
# These files will never get overwritten by TASTE.'
# Inside these files you may set some environment variables:
# C_INCLUDE_PATH=/usr/include/xenomai/analogy/:${C_INCLUDE_PATH}
# unset USE_POHIC
CWD=$(pwd)
if [ -t 1 ] ; then
COLORON="\e[1m\e[32m"
COLOROFF="\e[0m"
else
COLORON=""
COLOROFF=""
fi
INFO="${COLORON}[INFO]${COLOROFF}"
if [ -f user_init_pre.sh ]
then
echo -e "${INFO} Executing user-defined init script"
source user_init_pre.sh
fi
# Use PolyORB-HI-C runtime
USE_POHIC=1
# Detect models from Ellidiss tools v2, and convert them to 1.3
INTERFACEVIEW=InterfaceView.aadl
grep "version => \"2" InterfaceView.aadl >/dev/null && {
echo -e "${INFO} Converting interface view from V2 to V1.3"
TASTE --load-interface-view InterfaceView.aadl --export-interface-view-to-1_3 __iv_1_3.aadl
INTERFACEVIEW=__iv_1_3.aadl
};
if [ -z "$DEPLOYMENTVIEW" ]
then
DEPLOYMENTVIEW=DeploymentView.aadl
fi
# Detect models from Ellidiss tools v2, and convert them to 1.3
grep "version => \"2" "$DEPLOYMENTVIEW" >/dev/null && {
echo -e "${INFO} Converting deployment view from V2 to V1.3"
TASTE --load-deployment-view "$DEPLOYMENTVIEW" --export-deployment-view-to-1_3 __dv_1_3.aadl
DEPLOYMENTVIEW=__dv_1_3.aadl
};
SKELS="./"
# Check if Dataview references existing files
taste-extract-asn-from-design.exe -i "$INTERFACEVIEW" -j /tmp/dv.asn
cd "$SKELS" && rm -f gnd.zip && zip gnd gnd/* && cd $OLDPWD
cd "$SKELS" && rm -f payload.zip && zip payload payload/* && cd $OLDPWD
[ ! -z "$CLEANUP" ] && rm -rf binary*
if [ -f ConcurrencyView.pro ]
then
ORCHESTRATOR_OPTIONS+=" -w ConcurrencyView.pro "
fi
if [ -f user_init_post.sh ]
then
echo -e "${INFO} Executing user-defined post-init script"
source user_init_post.sh
fi
if [ ! -z "$USE_POHIC" ]
then
OUTPUTDIR=binary.c
ORCHESTRATOR_OPTIONS+=" -p "
elif [ ! -z "$USE_POHIADA" ]
then
OUTPUTDIR=binary.ada
else
OUTPUTDIR=binary
fi
cd "$CWD" && assert-builder-ocarina.py \
--fast \
--debug \
--aadlv2 \
--keep-case \
--interfaceView "$INTERFACEVIEW" \
--deploymentView "$DEPLOYMENTVIEW" \
-o "$OUTPUTDIR" \
--subC gnd:"$SKELS"/gnd.zip \
--subMicroPython payload:"$SKELS"/payload.zip \
$ORCHESTRATOR_OPTIONS
if [ -f user_init_last.sh ]
then
echo -e "${INFO} Executing user-defined post-build script"
source user_init_last.sh
fi
#ifndef ASN1SCC_ASN1CRT_H_
#define ASN1SCC_ASN1CRT_H_
#if (!defined(_MSC_VER) || _MSC_VER >= 1800)
# ifndef SWIG
# include <stdbool.h>
# endif
#else
typedef unsigned char bool;
#define true 1
#define false 0
#endif
#ifdef __cplusplus
extern "C" {
#endif
#ifndef NULL
#define NULL 0
#endif
#ifndef TRUE
#define TRUE true
#endif
#ifndef FALSE
#define FALSE false
#endif
#ifndef WORD_SIZE
#define WORD_SIZE 8
#endif
typedef int asn1SccSint32;
typedef unsigned int asn1SccUint32;
typedef unsigned char byte;
typedef long long asn1SccSint64;
typedef unsigned long long asn1SccUint64;
#if WORD_SIZE==8
typedef asn1SccUint64 asn1SccUint;
typedef asn1SccSint64 asn1SccSint;
#else
typedef asn1SccUint32 asn1SccUint;
typedef asn1SccSint32 asn1SccSint;
#endif
#ifdef _MSC_VER
# ifndef INFINITY
# define INFINITY (DBL_MAX+DBL_MAX)
# endif
# ifndef NAN
# define NAN (INFINITY-INFINITY)
# endif
#endif
typedef bool flag;
typedef char NullType;
typedef struct {
byte* buf;
long count;
long currentByte;
/* Next available bit for writting. Possible vallues 0..7, 0 is most significant bit of current byte*/
int currentBit;
} BitStream;
typedef struct {
byte* buf;
long count;
long currentByte;
flag EncodeWhiteSpace;
} ByteStream;
typedef struct {
int TokenID;
char Value[100];
} Token;
typedef struct {
char Name[50];
char Value[100];
} XmlAttribute;
typedef struct {
XmlAttribute attrs[20];
int nCount;
} XmlAttributeArray;
#define ERR_INSUFFICIENT_DATA 101
#define ERR_INCORRECT_PER_STREAM 102
#define ERR_INVALID_CHOICE_ALTERNATIVE 103
#define ERR_INVALID_ENUM_VALUE 104
#define ERR_INVALID_XML_FILE 200
#define ERR_INVALID_BER_FILE 201
#define ERR_BER_LENGTH_MISMATCH 202
/* Bit strean functions */
void BitStream_Init(BitStream* pBitStrm, unsigned char* buf, long count);
void BitStream_AttachBuffer(BitStream* pBitStrm, unsigned char* buf, long count);
void BitStream_AppendBit(BitStream* pBitStrm, flag v);
void BitStream_AppendBits(BitStream* pBitStrm, const byte* srcBuffer, int nBitsToWrite);
void BitStream_AppendByte(BitStream* pBitStrm, byte v, flag negate);
void BitStream_AppendByte0(BitStream* pBitStrm, byte v);
void ByteStream_Init(ByteStream* pStrm, byte* buf, long count);
void ByteStream_AttachBuffer(ByteStream* pStrm, unsigned char* buf, long count);
asn1SccSint ByteStream_GetLength(ByteStream* pStrm);
asn1SccSint BitStream_GetLength(BitStream* pBitStrm);
void BitStream_AppendBitOne(BitStream* pBitStrm);
void BitStream_AppendBitZero(BitStream* pBitStrm);
flag BitStream_ReadBit(BitStream* pBitStrm, flag* v);
flag BitStream_ReadBits(BitStream* pBitStrm, byte* BuffToWrite, int nBitsToRead);
flag BitStream_ReadByte(BitStream* pBitStrm, byte* v);
/* Integer functions */
void BitStream_EncodeUnConstraintWholeNumber(BitStream* pBitStrm, asn1SccSint v);
void BitStream_EncodeSemiConstraintWholeNumber(BitStream* pBitStrm, asn1SccSint v, asn1SccSint min);
void BitStream_EncodeSemiConstraintPosWholeNumber(BitStream* pBitStrm, asn1SccUint v, asn1SccUint min);
void BitStream_EncodeConstraintWholeNumber(BitStream* pBitStrm, asn1SccSint v, asn1SccSint min, asn1SccSint max);
void BitStream_EncodeConstraintPosWholeNumber(BitStream* pBitStrm, asn1SccUint v, asn1SccUint min, asn1SccUint max);
flag BitStream_DecodeUnConstraintWholeNumber(BitStream* pBitStrm, asn1SccSint* v);
flag BitStream_DecodeSemiConstraintWholeNumber(BitStream* pBitStrm, asn1SccSint* v, asn1SccSint min);
flag BitStream_DecodeSemiConstraintPosWholeNumber(BitStream* pBitStrm, asn1SccUint* v, asn1SccUint min);
flag BitStream_DecodeConstraintWholeNumber(BitStream* pBitStrm, asn1SccSint* v, asn1SccSint min, asn1SccSint max);
flag BitStream_DecodeConstraintPosWholeNumber(BitStream* pBitStrm, asn1SccUint* v, asn1SccUint min, asn1SccUint max);