00001 /*============================================================================= 00002 Copyright (C) 2012 Allied Vision Technologies. All Rights Reserved. 00003 00004 Redistribution of this file, in original or modified form, without 00005 prior written consent of Allied Vision Technologies is prohibited. 00006 00007 ------------------------------------------------------------------------------- 00008 00009 File: IRegisterDevice.h 00010 00011 Description: Definition of interface AVT::VmbAPI::IRegisterDevice. 00012 00013 ------------------------------------------------------------------------------- 00014 00015 THIS SOFTWARE IS PROVIDED BY THE AUTHOR "AS IS" AND ANY EXPRESS OR IMPLIED 00016 WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF TITLE, 00017 NON-INFRINGEMENT, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 00018 DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, 00019 INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 00020 (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 00021 LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED 00022 AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR 00023 TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE 00024 OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 00025 00026 =============================================================================*/ 00027 00028 #ifndef AVT_VMBAPI_IREGISTERDEVICE_H 00029 #define AVT_VMBAPI_IREGISTERDEVICE_H 00030 00031 #include <VimbaC/Include/VmbCommonTypes.h> 00032 #include <vector> 00033 00034 namespace AVT { 00035 namespace VmbAPI { 00036 00037 class IRegisterDevice 00038 { 00039 public: 00040 00041 virtual ~IRegisterDevice() {}; 00042 00043 // 00044 // Method: ReadRegisters() 00045 // 00046 // Purpose: Reads one or more registers consecutively. The number of registers to be read is determined by the number of provided addresses. 00047 // 00048 // Parameters: [in ] Uint64Vector &addresses A list of register addresses 00049 // [out] Uint64Vector &buffer The returned data as vector 00050 // 00051 // Returns: 00052 // - VmbErrorSuccess: If all requested registers have been read 00053 // - VmbErrorIncomplete: If at least one, but not all registers have been read. See overload ReadRegisters( const Uint64Vector &addresses, Uint64Vector &buffer, VmbUint32_t &completeReads ). 00054 // 00055 virtual VmbErrorType ReadRegisters( const Uint64Vector &addresses, Uint64Vector &buffer ) const = 0; 00056 00057 // 00058 // Method: ReadRegisters() 00059 // 00060 // Purpose: Reads one or more registers consecutively. The number of registers to be read is determined by the number of provided addresses. 00061 // 00062 // Parameters: [in ] const Uint64Vector &addresses A list of register addresses 00063 // [out] Uint64Vector &buffer The returned data as vector 00064 // [out] VmbUint64_t &completeReads The number of successfully read registers 00065 // 00066 // Returns: 00067 // - VmbErrorSuccess: If all requested registers have been read 00068 // - VmbErrorIncomplete: If at least one, but not all registers have been read. 00069 // 00070 virtual VmbErrorType ReadRegisters( const Uint64Vector &addresses, Uint64Vector &buffer, VmbUint32_t &completedReads ) const = 0; 00071 00072 // 00073 // Method: WriteRegisters() 00074 // 00075 // Purpose: Writes one or more registers consecutively. The number of registers to be written is determined by the number of provided addresses. 00076 // 00077 // Parameters: [in ] Uint64Vector &addresses A list of register addresses 00078 // [in ] Uint64Vector &buffer The data to write as vector 00079 // 00080 // Returns: 00081 // - VmbErrorSuccess: If all requested registers have been written 00082 // - VmbErrorIncomplete: If at least one, but not all registers have been written. See overload WriteRegisters( const Uint64Vector &addresses, Uint64Vector &buffer, VmbUint32_t &completeWrites ). 00083 // 00084 virtual VmbErrorType WriteRegisters( const Uint64Vector &addresses, const Uint64Vector &data ) = 0; 00085 00086 // 00087 // Method: WriteRegisters() 00088 // 00089 // Purpose: Writes one or more registers consecutively. The number of registers to be written is determined by the number of provided addresses. 00090 // 00091 // Parameters: [in ] Uint64Vector &addresses A list of register addresses 00092 // [in ] Uint64Vector &buffer The data to write as vector 00093 // [out] VmbUint64_t &completeWrites The number of successfully read registers 00094 // 00095 // Returns: 00096 // - VmbErrorSuccess: If all requested registers have been written 00097 // - VmbErrorIncomplete: If at least one, but not all registers have been written. 00098 // 00099 virtual VmbErrorType WriteRegisters( const Uint64Vector &addresses, const Uint64Vector &data, VmbUint32_t &completedWrites ) = 0; 00100 00101 // 00102 // Method: ReadMemory() 00103 // 00104 // Purpose: Reads a block of memory. The number of bytes to read is determined by the size of the provided buffer. 00105 // 00106 // Parameters: [in ] VmbUint64_t &address The address to read from 00107 // [out] UcharVector &buffer The returned data as vector 00108 // 00109 // Returns: 00110 // - VmbErrorSuccess: If all requested bytes have been read 00111 // - VmbErrorIncomplete: If at least one, but not all bytes have been read. See overload ReadMemory( const VmbUint64_t &address, UcharVector &buffer, VmbUint32_t &completeReads ). 00112 // 00113 virtual VmbErrorType ReadMemory( const VmbUint64_t &address, UcharVector &buffer ) const = 0; 00114 00115 // 00116 // Method: ReadMemory() 00117 // 00118 // Purpose: Reads a block of memory. The number of bytes to read is determined by the size of the provided buffer. 00119 // 00120 // Parameters: [in ] VmbUint64_t &address The address to read from 00121 // [out] UcharVector &buffer The returned data as vector 00122 // [out] VmbUint32_t &completeReads The number of successfully read bytes 00123 // 00124 // Returns: 00125 // - VmbErrorSuccess: If all requested bytes have been read 00126 // - VmbErrorIncomplete: If at least one, but not all bytes have been read. 00127 // 00128 virtual VmbErrorType ReadMemory( const VmbUint64_t &address, UcharVector &buffer, VmbUint32_t &sizeComplete ) const = 0; 00129 00130 // 00131 // Method: WriteMemory() 00132 // 00133 // Purpose: Writes a block of memory. The number of bytes to write is determined by the size of the provided buffer. 00134 // 00135 // Parameters: [in] VmbUint64_t &address The address to write to 00136 // [in] UcharVector &buffer The data to write as vector 00137 // 00138 // Returns: 00139 // - VmbErrorSuccess: If all requested bytes have been written 00140 // - VmbErrorIncomplete: If at least one, but not all bytes have been written. See overload ReadMemory( const VmbUint64_t &address, UcharVector &buffer, VmbUint32_t &completeWrites ). 00141 // 00142 virtual VmbErrorType WriteMemory( const VmbUint64_t &address, const UcharVector &buffer ) = 0; 00143 00144 // 00145 // Method: WriteMemory() 00146 // 00147 // Purpose: Writes a block of memory. The number of bytes to write is determined by the size of the provided buffer. 00148 // 00149 // Parameters: [in] VmbUint64_t &address The address to write to 00150 // [in] UcharVector &buffer The data to write as vector 00151 // [out] VmbUint32_t &completeWrites The number of successfully written bytes 00152 // 00153 // Returns: 00154 // - VmbErrorSuccess: If all requested bytes have been written 00155 // - VmbErrorIncomplete: If at least one, but not all bytes have been written. 00156 // 00157 virtual VmbErrorType WriteMemory( const VmbUint64_t &address, const UcharVector &buffer, VmbUint32_t &sizeComplete ) = 0; 00158 }; 00159 00160 }} // namespace AVT::VmbAPI 00161 00162 #endif