Mercurial > hg > orthanc
view OrthancCppClient/SharedLibrary/AUTOGENERATED/OrthancCppClient.h @ 958:1fbe89dc18b5
extraction of the shared tags
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Wed, 25 Jun 2014 21:48:16 +0200 |
parents | f2841a9e04cf |
children | de18e90d5507 |
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/** * Laaw - Lightweight, Automated API Wrapper * Copyright (C) 2010-2013 Jomago - Alain Mazy, Benjamin Golinvaux, * Sebastien Jodogne * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * In addition, as a special exception, the copyright holders of this * program give permission to link the code of its release with the * OpenSSL project's "OpenSSL" library (or with modified versions of it * that use the same license as the "OpenSSL" library), and distribute * the linked executables. You must obey the GNU General Public License * in all respects for all of the code used other than "OpenSSL". If you * modify file(s) with this exception, you may extend this exception to * your version of the file(s), but you are not obligated to do so. If * you do not wish to do so, delete this exception statement from your * version. If you delete this exception statement from all source files * in the program, then also delete it here. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ /** * @file **/ #pragma once #include <stdexcept> #include <memory> #include <string> #include <string.h> #if defined(_WIN32) /******************************************************************** ** This is the Windows-specific section ********************************************************************/ #include <windows.h> /* cf. http://sourceforge.net/p/predef/wiki/Architectures/ */ #ifdef _M_X64 /* 64 bits target */ #define LAAW_ORTHANC_CLIENT_CALL_CONV __fastcall #define LAAW_ORTHANC_CLIENT_CALL_DECORATION(Name, StdCallSuffix) Name #define LAAW_ORTHANC_CLIENT_DEFAULT_PATH "OrthancClient_Windows64.dll" #else /* 32 bits target */ #define LAAW_ORTHANC_CLIENT_CALL_CONV __stdcall #define LAAW_ORTHANC_CLIENT_CALL_DECORATION(Name, StdCallSuffix) "_" Name "@" StdCallSuffix #define LAAW_ORTHANC_CLIENT_DEFAULT_PATH "OrthancClient_Windows32.dll" #endif #define LAAW_ORTHANC_CLIENT_HANDLE_TYPE HINSTANCE #define LAAW_ORTHANC_CLIENT_HANDLE_NULL 0 #define LAAW_ORTHANC_CLIENT_FUNCTION_TYPE FARPROC #define LAAW_ORTHANC_CLIENT_LOADER(path) LoadLibraryA(path) #define LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle, name, decoration) GetProcAddress(handle, LAAW_ORTHANC_CLIENT_CALL_DECORATION(name, decoration)) #define LAAW_ORTHANC_CLIENT_CLOSER(handle) FreeLibrary(handle) /******************************************************************** ** This is the Linux-specific section ********************************************************************/ #elif defined (__linux) #include <stdlib.h> #include <dlfcn.h> /* cf. http://sourceforge.net/p/predef/wiki/Architectures/ */ #ifdef __amd64__ #define LAAW_ORTHANC_CLIENT_DEFAULT_PATH "libOrthancClient.so.0.7" #else #define LAAW_ORTHANC_CLIENT_DEFAULT_PATH "libOrthancClient.so.0.7" #endif #define LAAW_ORTHANC_CLIENT_CALL_CONV #define LAAW_ORTHANC_CLIENT_HANDLE_TYPE void* #define LAAW_ORTHANC_CLIENT_HANDLE_NULL NULL #define LAAW_ORTHANC_CLIENT_FUNCTION_TYPE intptr_t #define LAAW_ORTHANC_CLIENT_LOADER(path) dlopen(path, RTLD_LAZY) #define LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle, name, decoration) (LAAW_ORTHANC_CLIENT_FUNCTION_TYPE) dlsym(handle, name) #define LAAW_ORTHANC_CLIENT_CLOSER(handle) dlclose(handle) #else #error Please support your platform here #endif /******************************************************************** ** Definition of the integer types ********************************************************************/ #ifndef LAAW_INT8 // Only define the integer types once #if defined(__GNUC__) // Under GCC (including MinGW), the stdint.h standard header is used. #include <stdint.h> #define LAAW_INT8 int8_t #define LAAW_UINT8 uint8_t #define LAAW_INT16 int16_t #define LAAW_UINT16 uint16_t #define LAAW_INT32 int32_t #define LAAW_UINT32 uint32_t #define LAAW_INT64 int64_t #define LAAW_UINT64 uint64_t #elif defined(_MSC_VER) // Under Visual Studio, it is required to define the various integer // types by hand. #if (_MSC_VER < 1300) typedef signed char LAAW_INT8; typedef signed short LAAW_INT16; typedef signed int LAAW_INT32; typedef unsigned char LAAW_UINT8; typedef unsigned short LAAW_UINT16; typedef unsigned int LAAW_UINT32; #else typedef signed __int8 LAAW_INT8; typedef signed __int16 LAAW_INT16; typedef signed __int32 LAAW_INT32; typedef unsigned __int8 LAAW_UINT8; typedef unsigned __int16 LAAW_UINT16; typedef unsigned __int32 LAAW_UINT32; #endif typedef signed __int64 LAAW_INT64; typedef unsigned __int64 LAAW_UINT64; #else #error "Please support your compiler here" #endif #endif /******************************************************************** ** This is a shared section between Windows and Linux ********************************************************************/ namespace OrthancClient { /** * @brief Exception class that is thrown by the functions of this shared library. **/ class OrthancClientException : public std::exception { private: std::string message_; public: /** * @brief Constructs an exception. * @param message The error message. **/ OrthancClientException(std::string message) : message_(message) { } ~OrthancClientException() throw() { } /** * @brief Get the error message associated with this exception. * @returns The error message. **/ const std::string& What() const throw() { return message_; } }; } namespace OrthancClient { namespace Internals { /** * This internal class implements a Singleton design pattern that will * store a reference to the shared library handle, together with a * pointer to each function in the shared library. **/ class Library { private: LAAW_ORTHANC_CLIENT_HANDLE_TYPE handle_; LAAW_ORTHANC_CLIENT_FUNCTION_TYPE functionsIndex_[62 + 1]; void Load(const char* sharedLibraryPath) { if (handle_ != LAAW_ORTHANC_CLIENT_HANDLE_NULL) { // Do nothing if the library is already loaded return; } /* Setup the path to the default shared library if not provided */ if (sharedLibraryPath == NULL) { sharedLibraryPath = LAAW_ORTHANC_CLIENT_DEFAULT_PATH; } /* Load the shared library */ handle_ = LAAW_ORTHANC_CLIENT_LOADER(sharedLibraryPath); if (handle_ == LAAW_ORTHANC_CLIENT_HANDLE_NULL) { throw ::OrthancClient::OrthancClientException("Error loading shared library"); } LoadFunctions(); } inline void LoadFunctions(); void FreeString(char* str) { typedef void (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (char*); Function function = (Function) GetFunction(62); function(str); } Library() { handle_ = LAAW_ORTHANC_CLIENT_HANDLE_NULL; } ~Library() { Finalize(); } public: LAAW_ORTHANC_CLIENT_FUNCTION_TYPE GetFunction(unsigned int index) { /** * If the library has not been manually initialized by a call to * ::OrthancClient::Initialize(), it is loaded from * the default location (lazy initialization). **/ if (handle_ == NULL) { Load(NULL); } return functionsIndex_[index]; } void ThrowExceptionIfNeeded(char* message) { if (message != NULL) { std::string tmp(message); FreeString(message); throw ::OrthancClient::OrthancClientException(tmp); } } static inline Library& GetInstance() { /** * This function defines a "static variable" inside a "static * inline method" of a class. This ensures that a single * instance of this variable will be used across all the * compilation modules of the software. * http://stackoverflow.com/a/1389403/881731 **/ static Library singleton; return singleton; } static void Initialize(const char* sharedLibraryPath) { GetInstance().Load(sharedLibraryPath); } void Finalize() { if (handle_ != LAAW_ORTHANC_CLIENT_HANDLE_NULL) { LAAW_ORTHANC_CLIENT_CLOSER(handle_); handle_ = LAAW_ORTHANC_CLIENT_HANDLE_NULL; } } }; }} /*! * \addtogroup Global Global definitions. * @{ * @} */ namespace OrthancClient { /*! * \addtogroup Initialization Initialization of the shared library. * @{ */ /** * @brief Manually initialize the shared library, using the default library name. * * Call this method before using the library to ensure correct * behaviour in multi-threaded applications. This method is also * useful to control the time at which the shared library is * loaded (e.g. for real-time applications). **/ inline void Initialize() { ::OrthancClient::Internals::Library::Initialize(NULL); } /** * @brief Manually initialize the shared library. * * Call this method before using the library to ensure correct * behaviour in multi-threaded applications. This method is also * useful to control the time at which the shared library is * loaded (e.g. for real-time applications). * * @param sharedLibraryPath The path to the shared library that * contains the module. **/ inline void Initialize(const std::string& sharedLibraryPath) { ::OrthancClient::Internals::Library::Initialize(sharedLibraryPath.c_str()); } /** * @brief Manually finalize the shared library. * * Calling explicitly this function is not mandatory. It is useful to * force the release of the resources acquired by the shared library, * or to manually control the order in which the global variables get * deleted. **/ inline void Finalize() { ::OrthancClient::Internals::Library::GetInstance().Finalize(); } /** * @} */ } namespace OrthancClient { namespace Internals { inline void Library::LoadFunctions() { typedef const char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (); Function getVersion = (Function) LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_GetVersion", "0"); if (getVersion == NULL) { throw ::OrthancClient::OrthancClientException("Unable to get the library version"); } /** * It is assumed that the API does not change when the revision * number (MAJOR.MINOR.REVISION) changes. **/ if (strcmp(getVersion(), "0.7")) { throw ::OrthancClient::OrthancClientException("Mismatch between the C++ header and the library version"); } functionsIndex_[62] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_FreeString", "4"); functionsIndex_[3] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_557aee7b61817292a0f31269d3c35db7", "8"); functionsIndex_[4] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_0b8dff0ce67f10954a49b059e348837e", "8"); functionsIndex_[5] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_e05097c153f676e5a5ee54dcfc78256f", "4"); functionsIndex_[6] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_e840242bf58d17d3c1d722da09ce88e0", "8"); functionsIndex_[7] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_c9af31433001b5dfc012a552dc6d0050", "8"); functionsIndex_[8] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_3fba4d6b818180a44cd1cae6046334dc", "12"); functionsIndex_[9] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_aeb20dc75b9246188db857317e5e0ce7", "8"); functionsIndex_[10] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_62689803d9871e4d9c51a648640b320b", "8"); functionsIndex_[11] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_2fb64c9e5a67eccd413b0e913469a421", "16"); functionsIndex_[0] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_1f1acb322ea4d0aad65172824607673c", "8"); functionsIndex_[1] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_f3fd272e4636f6a531aabb72ee01cd5b", "16"); functionsIndex_[2] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_12d3de0a96e9efb11136a9811bb9ed38", "4"); functionsIndex_[14] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_f756172daf04516eec3a566adabb4335", "4"); functionsIndex_[15] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_ddb68763ec902a97d579666a73a20118", "8"); functionsIndex_[16] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_fba3c68b4be7558dbc65f7ce1ab57d63", "12"); functionsIndex_[17] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_b4ca99d958f843493e58d1ef967340e1", "8"); functionsIndex_[18] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_78d5cc76d282437b6f93ec3b82c35701", "16"); functionsIndex_[12] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_6cf0d7268667f9b0aa4511bacf184919", "12"); functionsIndex_[13] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_7d81cd502ee27e859735d0ea7112b5a1", "4"); functionsIndex_[21] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_48a2a1a9d68c047e22bfba23014643d2", "4"); functionsIndex_[22] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_852bf8296ca21c5fde5ec565cc10721d", "8"); functionsIndex_[23] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_efd04574e0779faa83df1f2d8f9888db", "12"); functionsIndex_[24] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_736247ff5e8036dac38163da6f666ed5", "8"); functionsIndex_[25] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_d82d2598a7a73f4b6fcc0c09c25b08ca", "8"); functionsIndex_[26] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_88134b978f9acb2aecdadf54aeab3c64", "16"); functionsIndex_[27] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_152cb1b704c053d24b0dab7461ba6ea3", "8"); functionsIndex_[28] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_eee03f337ec81d9f1783cd41e5238757", "8"); functionsIndex_[29] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_006f08237bd7611636fc721baebfb4c5", "8"); functionsIndex_[30] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_b794f5cd3dad7d7b575dd1fd902afdd0", "8"); functionsIndex_[31] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_8ee2e50dd9df8f66a3c1766090dd03ab", "8"); functionsIndex_[32] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_046aed35bbe4751691f4c34cc249a61d", "8"); functionsIndex_[33] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_4dcc7a0fd025efba251ac6e9b701c2c5", "28"); functionsIndex_[34] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_b2601a161c24ad0a1d3586246f87452c", "32"); functionsIndex_[19] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_193599b9e345384fcdfcd47c29c55342", "12"); functionsIndex_[20] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_7c97f17063a357d38c5fab1136ad12a0", "4"); functionsIndex_[37] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_e65b20b7e0170b67544cd6664a4639b7", "4"); functionsIndex_[38] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_470e981b0e41f17231ba0ae6f3033321", "8"); functionsIndex_[39] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_04cefd138b6ea15ad909858f2a0a8f05", "12"); functionsIndex_[40] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_aee5b1f6f0c082f2c3b0986f9f6a18c7", "8"); functionsIndex_[41] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_93965682bace75491413e1f0b8d5a654", "16"); functionsIndex_[35] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_b01c6003238eb46c8db5dc823d7ca678", "12"); functionsIndex_[36] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_0147007fb99bad8cd95a139ec8795376", "4"); functionsIndex_[44] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_236ee8b403bc99535a8a4695c0cd45cb", "8"); functionsIndex_[45] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_2a437b7aba6bb01e81113835be8f0146", "8"); functionsIndex_[46] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_2bcbcb850934ae0bb4c6f0cc940e6cda", "8"); functionsIndex_[47] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_8d415c3a78a48e7e61d9fd24e7c79484", "12"); functionsIndex_[48] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_70d2f8398bbc63b5f792b69b4ad5fecb", "12"); functionsIndex_[49] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_1729a067d902771517388eedd7346b23", "12"); functionsIndex_[50] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_72e2aeee66cd3abd8ab7e987321c3745", "8"); functionsIndex_[51] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_1ea3df5a1ac1a1a687fe7325adddb6f0", "8"); functionsIndex_[52] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_99b4f370e4f532d8b763e2cb49db92f8", "8"); functionsIndex_[53] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_c41c742b68617f1c0590577a0a5ebc0c", "8"); functionsIndex_[54] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_142dd2feba0fc1d262bbd0baeb441a8b", "8"); functionsIndex_[55] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_5f5c9f81a4dff8daa6c359f1d0488fef", "12"); functionsIndex_[56] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_9ca979fffd08fa256306d4e68d8b0e91", "8"); functionsIndex_[57] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_6f2d77a26edc91c28d89408dbc3c271e", "8"); functionsIndex_[58] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_c0f494b80d4ff8b232df7a75baa0700a", "4"); functionsIndex_[59] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_d604f44bd5195e082e745e9cbc164f4c", "4"); functionsIndex_[60] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_1710299d1c5f3b1f2b7cf3962deebbfd", "8"); functionsIndex_[61] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_bb55aaf772ddceaadee36f4e54136bcb", "8"); functionsIndex_[42] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_6c5ad02f91b583e29cebd0bd319ce21d", "12"); functionsIndex_[43] = LAAW_ORTHANC_CLIENT_GET_FUNCTION(handle_, "LAAW_EXTERNC_4068241c44a9c1367fe0e57be523f207", "4"); /* Check whether the functions were properly loaded */ for (unsigned int i = 0; i <= 62; i++) { if (functionsIndex_[i] == (LAAW_ORTHANC_CLIENT_FUNCTION_TYPE) NULL) { throw ::OrthancClient::OrthancClientException("Unable to load the functions of the shared library"); } } } }} namespace OrthancClient { class OrthancConnection; } namespace OrthancClient { class Patient; } namespace OrthancClient { class Series; } namespace OrthancClient { class Study; } namespace OrthancClient { class Instance; } namespace Orthanc { /** * @brief The memory layout of the pixels (resp. voxels) of a 2D (resp. 3D) image. * * The memory layout of the pixels (resp. voxels) of a 2D (resp. 3D) image. * * @ingroup Global **/ enum PixelFormat { /** * @brief Graylevel, signed 16bpp image. * * The image is graylevel. Each pixel is signed and stored in two bytes. * **/ PixelFormat_SignedGrayscale16 = 5, /** * @brief Color image in RGB24 format. * * This format describes a color image. The pixels are stored in 3 consecutive bytes. The memory layout is RGB. * **/ PixelFormat_RGB24 = 1, /** * @brief Color image in RGBA32 format. * * This format describes a color image. The pixels are stored in 4 consecutive bytes. The memory layout is RGBA. * **/ PixelFormat_RGBA32 = 2, /** * @brief Graylevel 8bpp image. * * The image is graylevel. Each pixel is unsigned and stored in one byte. * **/ PixelFormat_Grayscale8 = 3, /** * @brief Graylevel, unsigned 16bpp image. * * The image is graylevel. Each pixel is unsigned and stored in two bytes. * **/ PixelFormat_Grayscale16 = 4 }; } namespace Orthanc { /** * @brief The extraction mode specifies the way the values of the pixels are scaled when downloading a 2D image. * * The extraction mode specifies the way the values of the pixels are scaled when downloading a 2D image. * * @ingroup Global **/ enum ImageExtractionMode { /** * @brief Truncation to the [-32768, 32767] range. * * Truncation to the [-32768, 32767] range. * **/ ImageExtractionMode_Int16 = 4, /** * @brief Rescaled to 8bpp. * * The minimum value of the image is set to 0, and its maximum value is set to 255. * **/ ImageExtractionMode_Preview = 1, /** * @brief Truncation to the [0, 255] range. * * Truncation to the [0, 255] range. * **/ ImageExtractionMode_UInt8 = 2, /** * @brief Truncation to the [0, 65535] range. * * Truncation to the [0, 65535] range. * **/ ImageExtractionMode_UInt16 = 3 }; } namespace OrthancClient { /** * @brief Connection to an instance of %Orthanc. * * This class encapsulates a connection to a remote instance of %Orthanc through its REST API. * **/ class OrthancConnection { friend class ::OrthancClient::Patient; friend class ::OrthancClient::Series; friend class ::OrthancClient::Study; friend class ::OrthancClient::Instance; private: bool isReference_; OrthancConnection& operator= (const OrthancConnection&); // Assignment is forbidden void* pimpl_; OrthancConnection(void* pimpl) : isReference_(true), pimpl_(pimpl) {} public: /** * @brief Construct a new reference to this object. * * Construct a new reference to this object. Pay attention to the fact that when the referenced object is deleted, the content of this object will be invalid. * * @param other The original object. **/ OrthancConnection(const OrthancConnection& other) : isReference_(true), pimpl_(other.pimpl_) { } inline OrthancConnection(const ::std::string& orthancUrl); inline OrthancConnection(const ::std::string& orthancUrl, const ::std::string& username, const ::std::string& password); inline ~OrthancConnection(); inline LAAW_UINT32 GetThreadCount() const; inline void SetThreadCount(LAAW_UINT32 threadCount); inline void Reload(); inline ::std::string GetOrthancUrl() const; inline LAAW_UINT32 GetPatientCount(); inline ::OrthancClient::Patient GetPatient(LAAW_UINT32 index); inline void DeletePatient(LAAW_UINT32 index); inline void StoreFile(const ::std::string& filename); inline void Store(const void* dicom, LAAW_UINT64 size); }; } namespace OrthancClient { /** * @brief Connection to a patient stored in %Orthanc. * * This class encapsulates a connection to a patient from a remote instance of %Orthanc. * **/ class Patient { friend class ::OrthancClient::OrthancConnection; friend class ::OrthancClient::Series; friend class ::OrthancClient::Study; friend class ::OrthancClient::Instance; private: bool isReference_; Patient& operator= (const Patient&); // Assignment is forbidden void* pimpl_; Patient(void* pimpl) : isReference_(true), pimpl_(pimpl) {} public: /** * @brief Construct a new reference to this object. * * Construct a new reference to this object. Pay attention to the fact that when the referenced object is deleted, the content of this object will be invalid. * * @param other The original object. **/ Patient(const Patient& other) : isReference_(true), pimpl_(other.pimpl_) { } inline Patient(::OrthancClient::OrthancConnection& connection, const ::std::string& id); inline ~Patient(); inline void Reload(); inline LAAW_UINT32 GetStudyCount(); inline ::OrthancClient::Study GetStudy(LAAW_UINT32 index); inline ::std::string GetId() const; inline ::std::string GetMainDicomTag(const ::std::string& tag, const ::std::string& defaultValue) const; }; } namespace OrthancClient { /** * @brief Connection to a series stored in %Orthanc. * * This class encapsulates a connection to a series from a remote instance of %Orthanc. * **/ class Series { friend class ::OrthancClient::OrthancConnection; friend class ::OrthancClient::Patient; friend class ::OrthancClient::Study; friend class ::OrthancClient::Instance; private: bool isReference_; Series& operator= (const Series&); // Assignment is forbidden void* pimpl_; Series(void* pimpl) : isReference_(true), pimpl_(pimpl) {} public: /** * @brief Construct a new reference to this object. * * Construct a new reference to this object. Pay attention to the fact that when the referenced object is deleted, the content of this object will be invalid. * * @param other The original object. **/ Series(const Series& other) : isReference_(true), pimpl_(other.pimpl_) { } inline Series(::OrthancClient::OrthancConnection& connection, const ::std::string& id); inline ~Series(); inline void Reload(); inline LAAW_UINT32 GetInstanceCount(); inline ::OrthancClient::Instance GetInstance(LAAW_UINT32 index); inline ::std::string GetId() const; inline ::std::string GetUrl() const; inline ::std::string GetMainDicomTag(const ::std::string& tag, const ::std::string& defaultValue) const; inline bool Is3DImage(); inline LAAW_UINT32 GetWidth(); inline LAAW_UINT32 GetHeight(); inline float GetVoxelSizeX(); inline float GetVoxelSizeY(); inline float GetVoxelSizeZ(); inline void Load3DImage(void* target, ::Orthanc::PixelFormat format, LAAW_INT64 lineStride, LAAW_INT64 stackStride); inline void Load3DImage(void* target, ::Orthanc::PixelFormat format, LAAW_INT64 lineStride, LAAW_INT64 stackStride, float progress[]); }; } namespace OrthancClient { /** * @brief Connection to a study stored in %Orthanc. * * This class encapsulates a connection to a study from a remote instance of %Orthanc. * **/ class Study { friend class ::OrthancClient::OrthancConnection; friend class ::OrthancClient::Patient; friend class ::OrthancClient::Series; friend class ::OrthancClient::Instance; private: bool isReference_; Study& operator= (const Study&); // Assignment is forbidden void* pimpl_; Study(void* pimpl) : isReference_(true), pimpl_(pimpl) {} public: /** * @brief Construct a new reference to this object. * * Construct a new reference to this object. Pay attention to the fact that when the referenced object is deleted, the content of this object will be invalid. * * @param other The original object. **/ Study(const Study& other) : isReference_(true), pimpl_(other.pimpl_) { } inline Study(::OrthancClient::OrthancConnection& connection, const ::std::string& id); inline ~Study(); inline void Reload(); inline LAAW_UINT32 GetSeriesCount(); inline ::OrthancClient::Series GetSeries(LAAW_UINT32 index); inline ::std::string GetId() const; inline ::std::string GetMainDicomTag(const ::std::string& tag, const ::std::string& defaultValue) const; }; } namespace OrthancClient { /** * @brief Connection to an instance stored in %Orthanc. * * This class encapsulates a connection to an image instance from a remote instance of %Orthanc. * **/ class Instance { friend class ::OrthancClient::OrthancConnection; friend class ::OrthancClient::Patient; friend class ::OrthancClient::Series; friend class ::OrthancClient::Study; private: bool isReference_; Instance& operator= (const Instance&); // Assignment is forbidden void* pimpl_; Instance(void* pimpl) : isReference_(true), pimpl_(pimpl) {} public: /** * @brief Construct a new reference to this object. * * Construct a new reference to this object. Pay attention to the fact that when the referenced object is deleted, the content of this object will be invalid. * * @param other The original object. **/ Instance(const Instance& other) : isReference_(true), pimpl_(other.pimpl_) { } inline Instance(::OrthancClient::OrthancConnection& connection, const ::std::string& id); inline ~Instance(); inline ::std::string GetId() const; inline void SetImageExtractionMode(::Orthanc::ImageExtractionMode mode); inline ::Orthanc::ImageExtractionMode GetImageExtractionMode() const; inline ::std::string GetTagAsString(const ::std::string& tag) const; inline float GetTagAsFloat(const ::std::string& tag) const; inline LAAW_INT32 GetTagAsInt(const ::std::string& tag) const; inline LAAW_UINT32 GetWidth(); inline LAAW_UINT32 GetHeight(); inline LAAW_UINT32 GetPitch(); inline ::Orthanc::PixelFormat GetPixelFormat(); inline const void* GetBuffer(); inline const void* GetBuffer(LAAW_UINT32 y); inline LAAW_UINT64 GetDicomSize(); inline const void* GetDicom(); inline void DiscardImage(); inline void DiscardDicom(); inline void LoadTagContent(const ::std::string& path); inline ::std::string GetLoadedTagContent() const; }; } namespace OrthancClient { /** * @brief Create a connection to an instance of %Orthanc. * * Create a connection to an instance of %Orthanc. * * @param orthancUrl URL to which the REST API of %Orthanc is listening. **/ inline OrthancConnection::OrthancConnection(const ::std::string& orthancUrl) { isReference_ = false; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void**, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(0); char* error = function(&pimpl_, orthancUrl.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Create a connection to an instance of %Orthanc, with authentication. * * Create a connection to an instance of %Orthanc, with authentication. * * @param orthancUrl URL to which the REST API of %Orthanc is listening. * @param username The username. * @param password The password. **/ inline OrthancConnection::OrthancConnection(const ::std::string& orthancUrl, const ::std::string& username, const ::std::string& password) { isReference_ = false; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void**, const char*, const char*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(1); char* error = function(&pimpl_, orthancUrl.c_str(), username.c_str(), password.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Destructs the object. * * Destructs the object. * **/ inline OrthancConnection::~OrthancConnection() { if (isReference_) return; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(2); char* error = function(pimpl_); error = error; // Remove warning about unused variable } /** * @brief Returns the number of threads for this connection. * * Returns the number of simultaneous connections that are used when downloading information from this instance of %Orthanc. * * @return The number of threads. **/ inline LAAW_UINT32 OrthancConnection::GetThreadCount() const { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(3); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Sets the number of threads for this connection. * * Sets the number of simultaneous connections that are used when downloading information from this instance of %Orthanc. * * @param threadCount The number of threads. **/ inline void OrthancConnection::SetThreadCount(LAAW_UINT32 threadCount) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(4); char* error = function(pimpl_, threadCount); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Reload the list of the patients. * * This method will reload the list of the patients from the remote instance of %Orthanc. Pay attention to the fact that the patients that have been previously returned by GetPatient() will be invalidated. * **/ inline void OrthancConnection::Reload() { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(5); char* error = function(pimpl_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Returns the URL of this instance of %Orthanc. * * Returns the URL of the remote %Orthanc instance to which this object is connected. * * @return The URL. **/ inline ::std::string OrthancConnection::GetOrthancUrl() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(6); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Returns the number of patients. * * Returns the number of patients that are stored in the remote instance of %Orthanc. * * @return The number of patients. **/ inline LAAW_UINT32 OrthancConnection::GetPatientCount() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(7); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get some patient. * * This method will return an object that contains information about some patient. The patients are indexed by a number between 0 (inclusive) and the result of GetPatientCount() (exclusive). * * @param index The index of the patient of interest. * @return The patient. **/ inline ::OrthancClient::Patient OrthancConnection::GetPatient(LAAW_UINT32 index) { void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, void**, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(8); char* error = function(pimpl_, &result_, index); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return ::OrthancClient::Patient(result_); } /** * @brief Delete some patient. * * Delete some patient from the remote instance of %Orthanc. Pay attention to the fact that the patients that have been previously returned by GetPatient() will be invalidated. * * @param index The index of the patient of interest. * @return The patient. **/ inline void OrthancConnection::DeletePatient(LAAW_UINT32 index) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(9); char* error = function(pimpl_, index); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Send a DICOM file. * * This method will store a DICOM file in the remote instance of %Orthanc. Pay attention to the fact that the patients that have been previously returned by GetPatient() will be invalidated. * * @param filename Path to the DICOM file **/ inline void OrthancConnection::StoreFile(const ::std::string& filename) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(10); char* error = function(pimpl_, filename.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Send a DICOM file that is contained inside a memory buffer. * * This method will store a DICOM file in the remote instance of %Orthanc. Pay attention to the fact that the patients that have been previously returned by GetPatient() will be invalidated. * * @param dicom The memory buffer containing the DICOM file. * @param size The size of the DICOM file. **/ inline void OrthancConnection::Store(const void* dicom, LAAW_UINT64 size) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, const void*, LAAW_UINT64); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(11); char* error = function(pimpl_, dicom, size); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } } namespace OrthancClient { /** * @brief Create a connection to some patient. * * Create a connection to some patient. * * @param connection The remote instance of %Orthanc. * @param id The %Orthanc identifier of the patient. **/ inline Patient::Patient(::OrthancClient::OrthancConnection& connection, const ::std::string& id) { isReference_ = false; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void**, void*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(12); char* error = function(&pimpl_, connection.pimpl_, id.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Destructs the object. * * Destructs the object. * **/ inline Patient::~Patient() { if (isReference_) return; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(13); char* error = function(pimpl_); error = error; // Remove warning about unused variable } /** * @brief Reload the studies of this patient. * * This method will reload the list of the studies of this patient. Pay attention to the fact that the studies that have been previously returned by GetStudy() will be invalidated. * **/ inline void Patient::Reload() { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(14); char* error = function(pimpl_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Return the number of studies for this patient. * * Return the number of studies for this patient. * * @return The number of studies. **/ inline LAAW_UINT32 Patient::GetStudyCount() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(15); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get some study of this patient. * * This method will return an object that contains information about some study. The studies are indexed by a number between 0 (inclusive) and the result of GetStudyCount() (exclusive). * * @param index The index of the study of interest. * @return The study. **/ inline ::OrthancClient::Study Patient::GetStudy(LAAW_UINT32 index) { void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, void**, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(16); char* error = function(pimpl_, &result_, index); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return ::OrthancClient::Study(result_); } /** * @brief Get the %Orthanc identifier of this patient. * * Get the %Orthanc identifier of this patient. * * @return The identifier. **/ inline ::std::string Patient::GetId() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(17); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Get the value of one of the main DICOM tags for this patient. * * Get the value of one of the main DICOM tags for this patient. * * @param tag The name of the tag of interest ("PatientName", "PatientID", "PatientSex" or "PatientBirthDate"). * @param defaultValue The default value to be returned if this tag does not exist. * @return The value of the tag. **/ inline ::std::string Patient::GetMainDicomTag(const ::std::string& tag, const ::std::string& defaultValue) const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**, const char*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(18); char* error = function(pimpl_, &result_, tag.c_str(), defaultValue.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } } namespace OrthancClient { /** * @brief Create a connection to some series. * * Create a connection to some series. * * @param connection The remote instance of %Orthanc. * @param id The %Orthanc identifier of the series. **/ inline Series::Series(::OrthancClient::OrthancConnection& connection, const ::std::string& id) { isReference_ = false; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void**, void*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(19); char* error = function(&pimpl_, connection.pimpl_, id.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Destructs the object. * * Destructs the object. * **/ inline Series::~Series() { if (isReference_) return; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(20); char* error = function(pimpl_); error = error; // Remove warning about unused variable } /** * @brief Reload the instances of this series. * * This method will reload the list of the instances of this series. Pay attention to the fact that the instances that have been previously returned by GetInstance() will be invalidated. * **/ inline void Series::Reload() { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(21); char* error = function(pimpl_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Return the number of instances for this series. * * Return the number of instances for this series. * * @return The number of instances. **/ inline LAAW_UINT32 Series::GetInstanceCount() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(22); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get some instance of this series. * * This method will return an object that contains information about some instance. The instances are indexed by a number between 0 (inclusive) and the result of GetInstanceCount() (exclusive). * * @param index The index of the instance of interest. * @return The instance. **/ inline ::OrthancClient::Instance Series::GetInstance(LAAW_UINT32 index) { void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, void**, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(23); char* error = function(pimpl_, &result_, index); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return ::OrthancClient::Instance(result_); } /** * @brief Get the %Orthanc identifier of this series. * * Get the %Orthanc identifier of this series. * * @return The identifier. **/ inline ::std::string Series::GetId() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(24); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Returns the URL to this series. * * Returns the URL to this series. * * @return The URL. **/ inline ::std::string Series::GetUrl() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(25); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Get the value of one of the main DICOM tags for this series. * * Get the value of one of the main DICOM tags for this series. * * @param tag The name of the tag of interest ("Modality", "Manufacturer", "SeriesDate", "SeriesDescription", "SeriesInstanceUID"...). * @param defaultValue The default value to be returned if this tag does not exist. * @return The value of the tag. **/ inline ::std::string Series::GetMainDicomTag(const ::std::string& tag, const ::std::string& defaultValue) const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**, const char*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(26); char* error = function(pimpl_, &result_, tag.c_str(), defaultValue.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Test whether this series encodes a 3D image that can be downloaded from %Orthanc. * * Test whether this series encodes a 3D image that can be downloaded from %Orthanc. * * @return "true" if and only if this is a 3D image. **/ inline bool Series::Is3DImage() { LAAW_INT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_INT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(27); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_ != 0; } /** * @brief Get the width of the 3D image. * * Get the width of the 3D image (i.e. along the X-axis). This call is only valid if this series corresponds to a 3D image. * * @return The width. **/ inline LAAW_UINT32 Series::GetWidth() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(28); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the height of the 3D image. * * Get the height of the 3D image (i.e. along the Y-axis). This call is only valid if this series corresponds to a 3D image. * * @return The height. **/ inline LAAW_UINT32 Series::GetHeight() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(29); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the physical size of a voxel along the X-axis. * * Get the physical size of a voxel along the X-axis. This call is only valid if this series corresponds to a 3D image. * * @return The voxel size. **/ inline float Series::GetVoxelSizeX() { float result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, float*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(30); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the physical size of a voxel along the Y-axis. * * Get the physical size of a voxel along the Y-axis. This call is only valid if this series corresponds to a 3D image. * * @return The voxel size. **/ inline float Series::GetVoxelSizeY() { float result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, float*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(31); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the physical size of a voxel along the Z-axis. * * Get the physical size of a voxel along the Z-axis. This call is only valid if this series corresponds to a 3D image. * * @return The voxel size. **/ inline float Series::GetVoxelSizeZ() { float result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, float*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(32); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Load the 3D image into a memory buffer. * * Load the 3D image into a memory buffer. This call is only valid if this series corresponds to a 3D image. The "target" buffer must be wide enough to store all the voxels of the image. * * @param target The target memory buffer. * @param format The memory layout of the voxels. * @param lineStride The number of bytes between two lines in the target memory buffer. * @param stackStride The number of bytes between two 2D slices in the target memory buffer. **/ inline void Series::Load3DImage(void* target, ::Orthanc::PixelFormat format, LAAW_INT64 lineStride, LAAW_INT64 stackStride) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, void*, LAAW_INT32, LAAW_INT64, LAAW_INT64); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(33); char* error = function(pimpl_, target, format, lineStride, stackStride); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Load the 3D image into a memory buffer. * * Load the 3D image into a memory buffer. This call is only valid if this series corresponds to a 3D image. The "target" buffer must be wide enough to store all the voxels of the image. This method will also update a progress indicator to monitor the loading of the image. * * @param target The target memory buffer. * @param format The memory layout of the voxels. * @param lineStride The number of bytes between two lines in the target memory buffer. * @param stackStride The number of bytes between two 2D slices in the target memory buffer. * @param progress A pointer to a floating-point number that is continuously updated by the download threads to reflect the percentage of completion (between 0 and 1). This value can be read from a separate thread. **/ inline void Series::Load3DImage(void* target, ::Orthanc::PixelFormat format, LAAW_INT64 lineStride, LAAW_INT64 stackStride, float progress[]) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, void*, LAAW_INT32, LAAW_INT64, LAAW_INT64, float*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(34); char* error = function(pimpl_, target, format, lineStride, stackStride, progress); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } } namespace OrthancClient { /** * @brief Create a connection to some study. * * Create a connection to some study. * * @param connection The remote instance of %Orthanc. * @param id The %Orthanc identifier of the study. **/ inline Study::Study(::OrthancClient::OrthancConnection& connection, const ::std::string& id) { isReference_ = false; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void**, void*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(35); char* error = function(&pimpl_, connection.pimpl_, id.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Destructs the object. * * Destructs the object. * **/ inline Study::~Study() { if (isReference_) return; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(36); char* error = function(pimpl_); error = error; // Remove warning about unused variable } /** * @brief Reload the series of this study. * * This method will reload the list of the series of this study. Pay attention to the fact that the series that have been previously returned by GetSeries() will be invalidated. * **/ inline void Study::Reload() { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(37); char* error = function(pimpl_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Return the number of series for this study. * * Return the number of series for this study. * * @return The number of series. **/ inline LAAW_UINT32 Study::GetSeriesCount() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(38); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get some series of this study. * * This method will return an object that contains information about some series. The series are indexed by a number between 0 (inclusive) and the result of GetSeriesCount() (exclusive). * * @param index The index of the series of interest. * @return The series. **/ inline ::OrthancClient::Series Study::GetSeries(LAAW_UINT32 index) { void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, void**, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(39); char* error = function(pimpl_, &result_, index); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return ::OrthancClient::Series(result_); } /** * @brief Get the %Orthanc identifier of this study. * * Get the %Orthanc identifier of this study. * * @return The identifier. **/ inline ::std::string Study::GetId() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(40); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Get the value of one of the main DICOM tags for this study. * * Get the value of one of the main DICOM tags for this study. * * @param tag The name of the tag of interest ("StudyDate", "StudyDescription", "StudyInstanceUID" or "StudyTime"). * @param defaultValue The default value to be returned if this tag does not exist. * @return The value of the tag. **/ inline ::std::string Study::GetMainDicomTag(const ::std::string& tag, const ::std::string& defaultValue) const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**, const char*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(41); char* error = function(pimpl_, &result_, tag.c_str(), defaultValue.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } } namespace OrthancClient { /** * @brief Create a connection to some image instance. * * Create a connection to some image instance. * * @param connection The remote instance of %Orthanc. * @param id The %Orthanc identifier of the image instance. **/ inline Instance::Instance(::OrthancClient::OrthancConnection& connection, const ::std::string& id) { isReference_ = false; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void**, void*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(42); char* error = function(&pimpl_, connection.pimpl_, id.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Destructs the object. * * Destructs the object. * **/ inline Instance::~Instance() { if (isReference_) return; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(43); char* error = function(pimpl_); error = error; // Remove warning about unused variable } /** * @brief Get the %Orthanc identifier of this identifier. * * Get the %Orthanc identifier of this identifier. * * @return The identifier. **/ inline ::std::string Instance::GetId() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(44); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Set the extraction mode for the 2D image corresponding to this instance. * * Set the extraction mode for the 2D image corresponding to this instance. * * @param mode The extraction mode. **/ inline void Instance::SetImageExtractionMode(::Orthanc::ImageExtractionMode mode) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_INT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(45); char* error = function(pimpl_, mode); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Get the extraction mode for the 2D image corresponding to this instance. * * Get the extraction mode for the 2D image corresponding to this instance. * * @return The extraction mode. **/ inline ::Orthanc::ImageExtractionMode Instance::GetImageExtractionMode() const { LAAW_INT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, LAAW_INT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(46); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return static_cast< ::Orthanc::ImageExtractionMode >(result_); } /** * @brief Get the string value of some DICOM tag of this instance. * * Get the string value of some DICOM tag of this instance. * * @param tag The name of the tag of interest. * @return The value of the tag. **/ inline ::std::string Instance::GetTagAsString(const ::std::string& tag) const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(47); char* error = function(pimpl_, &result_, tag.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } /** * @brief Get the floating point value that is stored in some DICOM tag of this instance. * * Get the floating point value that is stored in some DICOM tag of this instance. * * @param tag The name of the tag of interest. * @return The value of the tag. **/ inline float Instance::GetTagAsFloat(const ::std::string& tag) const { float result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, float*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(48); char* error = function(pimpl_, &result_, tag.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the integer value that is stored in some DICOM tag of this instance. * * Get the integer value that is stored in some DICOM tag of this instance. * * @param tag The name of the tag of interest. * @return The value of the tag. **/ inline LAAW_INT32 Instance::GetTagAsInt(const ::std::string& tag) const { LAAW_INT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, LAAW_INT32*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(49); char* error = function(pimpl_, &result_, tag.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the width of the 2D image. * * Get the width of the 2D image that is encoded by this DICOM instance. * * @return The width. **/ inline LAAW_UINT32 Instance::GetWidth() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(50); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the height of the 2D image. * * Get the height of the 2D image that is encoded by this DICOM instance. * * @return The height. **/ inline LAAW_UINT32 Instance::GetHeight() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(51); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the number of bytes between two lines of the image (pitch). * * Get the number of bytes between two lines of the image in the memory buffer returned by GetBuffer(). This value depends on the extraction mode for the image. * * @return The pitch. **/ inline LAAW_UINT32 Instance::GetPitch() { LAAW_UINT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(52); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get the format of the pixels of the 2D image. * * Return the memory layout that is used for the 2D image that is encoded by this DICOM instance. This value depends on the extraction mode for the image. * * @return The pixel format. **/ inline ::Orthanc::PixelFormat Instance::GetPixelFormat() { LAAW_INT32 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_INT32*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(53); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return static_cast< ::Orthanc::PixelFormat >(result_); } /** * @brief Access the memory buffer in which the raw pixels of the 2D image are stored. * * Access the memory buffer in which the raw pixels of the 2D image are stored. * * @return A pointer to the memory buffer. **/ inline const void* Instance::GetBuffer() { const void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, const void**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(54); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return reinterpret_cast< const void* >(result_); } /** * @brief Access the memory buffer in which the raw pixels of some line of the 2D image are stored. * * Access the memory buffer in which the raw pixels of some line of the 2D image are stored. * * @param y The line of interest. * @return A pointer to the memory buffer. **/ inline const void* Instance::GetBuffer(LAAW_UINT32 y) { const void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, const void**, LAAW_UINT32); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(55); char* error = function(pimpl_, &result_, y); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return reinterpret_cast< const void* >(result_); } /** * @brief Get the size of the DICOM file corresponding to this instance. * * Get the size of the DICOM file corresponding to this instance. * * @return The file size. **/ inline LAAW_UINT64 Instance::GetDicomSize() { LAAW_UINT64 result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, LAAW_UINT64*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(56); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return result_; } /** * @brief Get a pointer to the content of the DICOM file corresponding to this instance. * * Get a pointer to the content of the DICOM file corresponding to this instance. * * @return The DICOM file. **/ inline const void* Instance::GetDicom() { const void* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, const void**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(57); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return reinterpret_cast< const void* >(result_); } /** * @brief Discard the downloaded 2D image, so as to make room in memory. * * Discard the downloaded 2D image, so as to make room in memory. * **/ inline void Instance::DiscardImage() { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(58); char* error = function(pimpl_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Discard the downloaded DICOM file, so as to make room in memory. * * Discard the downloaded DICOM file, so as to make room in memory. * **/ inline void Instance::DiscardDicom() { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(59); char* error = function(pimpl_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Load a raw tag from the DICOM file. * * Load a raw tag from the DICOM file. * * @param path The path to the tag of interest (e.g. "0020-000d"). **/ inline void Instance::LoadTagContent(const ::std::string& path) { typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (void*, const char*); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(60); char* error = function(pimpl_, path.c_str()); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); } /** * @brief Return the value of the raw tag that was loaded by LoadContent. * * Return the value of the raw tag that was loaded by LoadContent. * * @return The tag value. **/ inline ::std::string Instance::GetLoadedTagContent() const { const char* result_; typedef char* (LAAW_ORTHANC_CLIENT_CALL_CONV* Function) (const void*, const char**); Function function = (Function) ::OrthancClient::Internals::Library::GetInstance().GetFunction(61); char* error = function(pimpl_, &result_); ::OrthancClient::Internals::Library::GetInstance().ThrowExceptionIfNeeded(error); return std::string(result_); } }