Merge pull request #182 from cjcliffe/soapysdr-support

SoapySDR Conversion and Updates
This commit is contained in:
Charles J. Cliffe 2015-11-09 19:12:54 -05:00
commit 23acca93c7
84 changed files with 4777 additions and 2169 deletions

1
.gitignore vendored
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@ -1,3 +1,4 @@
build/
cmake_build/
cmake_build_msvc/
dist/

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@ -2,8 +2,8 @@ cmake_minimum_required (VERSION 2.8)
SET(CUBICSDR_VERSION_MAJOR "0")
SET(CUBICSDR_VERSION_MINOR "1")
SET(CUBICSDR_VERSION_PATCH "6")
SET(CUBICSDR_VERSION_REL "beta-issue140")
SET(CUBICSDR_VERSION_PATCH "16")
SET(CUBICSDR_VERSION_REL "alpha")
SET(CUBICSDR_VERSION "${CUBICSDR_VERSION_MAJOR}.${CUBICSDR_VERSION_MINOR}.${CUBICSDR_VERSION_PATCH}-${CUBICSDR_VERSION_REL}")
SET(CPACK_PACKAGE_VERSION "${CUBICSDR_VERSION_MAJOR}.${CUBICSDR_VERSION_MINOR}.${CUBICSDR_VERSION_PATCH}")
@ -15,9 +15,7 @@ ADD_DEFINITIONS(
-DCUBICSDR_VERSION="${CUBICSDR_VERSION}"
)
IF (NOT APPLE)
set(CMAKE_MODULE_PATH ${CMAKE_MODULE_PATH} "${CMAKE_SOURCE_DIR}/cmake/Modules/")
ENDIF(NOT APPLE)
macro(configure_files srcDir destDir globStr)
@ -37,7 +35,6 @@ macro(configure_files srcDir destDir globStr)
endforeach(templateFile)
endmacro(configure_files)
macro(configure_files_recurse srcDir destDir)
message(STATUS "Configuring directory ${destDir}")
make_directory(${destDir})
@ -67,24 +64,29 @@ else( CMAKE_SIZEOF_VOID_P EQUAL 8 )
SET( EX_PLATFORM_NAME "x86" )
endif( CMAKE_SIZEOF_VOID_P EQUAL 8 )
if ( WIN32 AND EX_PLATFORM EQUAL 64)
set(BUILD_X86 OFF CACHE BOOL "Copy & Build 32-bit files even if 64-bit compiler is detected.")
if (BUILD_X86)
SET( EX_PLATFORM 32 )
SET( EX_PLATFORM_NAME "x86" )
endif (BUILD_X86)
endif ( WIN32 AND EX_PLATFORM EQUAL 64)
SET( CMAKE_RUNTIME_OUTPUT_DIRECTORY ${PROJECT_BINARY_DIR}/${EX_PLATFORM_NAME})
SET( CMAKE_RUNTIME_OUTPUT_DIRECTORY_DEBUG ${PROJECT_BINARY_DIR}/${EX_PLATFORM_NAME})
SET( CMAKE_RUNTIME_OUTPUT_DIRECTORY_RELEASE ${PROJECT_BINARY_DIR}/${EX_PLATFORM_NAME})
find_package(OpenGL REQUIRED)
#IF (NOT WIN32)
find_package(FFTW REQUIRED)
find_package(Liquid REQUIRED)
include_directories(${LIQUID_INCLUDES} ${FFTW_INCLUDES})
SET(OTHER_LIBRARIES ${OTHER_LIBRARIES} ${LIQUID_LIBRARIES} ${FFTW_LIBRARIES})
#ENDIF()
find_package(wxWidgets COMPONENTS gl core base REQUIRED)
find_package(wxWidgets COMPONENTS gl core propgrid base REQUIRED)
set(wxWidgets_CONFIGURATION mswu)
include(${wxWidgets_USE_FILE})
find_package(SoapySDR "0.4.0" NO_MODULE REQUIRED)
include_directories(${SOAPY_SDR_INCLUDE_DIR})
SET(OTHER_LIBRARIES ${SOAPY_SDR_LIBRARY} ${OTHER_LIBRARIES})
ADD_DEFINITIONS(
-DUSE_SOAPY_SDR=1
)
IF (WIN32)
set(wxWidgets_USE_STATIC ON)
@ -116,56 +118,31 @@ IF (WIN32)
ENDIF (MSVC)
ENDIF(USE_AUDIO_DS)
# ASIO?
#IF(USE_AUDIO_ASIO)
#ENDIF(USE_AUDIO_ASIO)
# FFTW
include_directories ( ${PROJECT_SOURCE_DIR}/external/fftw-3.3.4 ${PROJECT_SOURCE_DIR}/external/rtl-sdr-release )
set(FFTW_LIB libfftw3f-3)
link_directories ( ${PROJECT_SOURCE_DIR}/external/fftw-3.3.4/${EX_PLATFORM} )
configure_files(${PROJECT_SOURCE_DIR}/external/fftw-3.3.4/${EX_PLATFORM} ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.dll")
include_directories ( ${PROJECT_SOURCE_DIR}/external/liquid-dsp/include )
set(LIQUID_LIB libliquid)
# Haven't looked into why these are different, just explicitly including everything for now until it can be sorted neatly.
IF (MSVC)
# LIQUID
link_directories ( ${PROJECT_SOURCE_DIR}/external/liquid-dsp/msvc/${EX_PLATFORM} )
configure_files(${PROJECT_SOURCE_DIR}/external/liquid-dsp/msvc/${EX_PLATFORM} ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME}/ "*.dll")
# RTL-SDR
link_directories ( ${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/msvc/${EX_PLATFORM} )
configure_files(${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/msvc/${EX_PLATFORM} ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.dll")
ELSE (MSVC) # GCC
# LIQUID
link_directories ( ${PROJECT_SOURCE_DIR}/external/liquid-dsp/gcc/${EX_PLATFORM} )
configure_files(${PROJECT_SOURCE_DIR}/external/liquid-dsp/gcc/${EX_PLATFORM} ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.dll")
# RTL-SDR
link_directories ( ${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/gcc/${EX_PLATFORM} )
configure_files(${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/gcc/${EX_PLATFORM} ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.dll")
ENDIF(MSVC)
# Copy DLL files to build dir
configure_files(${PROJECT_SOURCE_DIR}/external/fftw-3.3.4/${EX_PLATFORM_NAME} ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.dll")
SET(USE_MINGW_PATCH OFF CACHE BOOL "Add some missing functions when compiling against mingw liquid-dsp.")
IF (USE_MINGW_PATCH)
SET(CMAKE_CXX_STANDARD_LIBRARIES "${CMAKE_CXX_STANDARD_LIBRARIES} legacy_stdio_definitions.lib libgcc.a")
ADD_DEFINITIONS(
-DMINGW_PATCH=1
)
SET (GCC_LINKDIR "" CACHE STRING "")
IF (GCC_LINKDIR)
link_directories("${GCC_LINKDIR}")
ENDIF()
ENDIF()
ENDIF (WIN32)
IF (UNIX AND NOT APPLE)
set(BUILD_DEB OFF CACHE BOOL "Build DEB")
set(RTLSDR_INCLUDE "/usr/local/include" CACHE FILEPATH "RTL-SDR Include Path")
set(RTLSDR_LIB "/usr/local/lib" CACHE FILEPATH "RTL-SDR Lib Path")
set(USE_AUDIO_PULSE ON CACHE BOOL "Use Pulse Audio")
set(USE_AUDIO_JACK OFF CACHE BOOL "Use Jack Audio")
set(USE_AUDIO_ALSA OFF CACHE BOOL "Use ALSA Audio")
set(USE_AUDIO_OSS OFF CACHE BOOL "Use OSS Audio")
include_directories(${RTLSDR_INCLUDE})
link_directories(${RTLSDR_LIB})
set(FFTW_LIB fftw3f)
set(LIQUID_LIB liquid)
set(OTHER_LIBRARIES dl)
SET(USE_AUDIO_PULSE ON CACHE BOOL "Use Pulse Audio")
SET(USE_AUDIO_JACK OFF CACHE BOOL "Use Jack Audio")
SET(USE_AUDIO_ALSA OFF CACHE BOOL "Use ALSA Audio")
SET(USE_AUDIO_OSS OFF CACHE BOOL "Use OSS Audio")
SET(FFTW_LIB fftw3f)
SET(LIQUID_LIB liquid)
SET(OTHER_LIBRARIES ${OTHER_LIBRARIES} dl)
IF(USE_AUDIO_PULSE)
SET (OTHER_LIBRARIES ${OTHER_LIBRARIES} pulse-simple pulse)
@ -203,21 +180,19 @@ ENDIF(USE_AUDIO_OSS)
ENDIF(UNIX AND NOT APPLE)
IF (APPLE)
set(RTLSDR_INCLUDE "/opt/local/include" CACHE FILEPATH "RTL-SDR Include Path")
set(RTLSDR_LIB "/opt/local/lib" CACHE FILEPATH "RTL-SDR Lib Path")
include_directories(${RTLSDR_INCLUDE})
link_directories(${RTLSDR_LIB})
set(LIB_DIRS "${LIB_DIRS} ${RTLSDR_LIB}")
SET(CMAKE_OSX_DEPLOYMENT_TARGET, "10.10")
set(FFTW_LIB fftw3f)
set(LIQUID_LIB liquid)
SET(FFTW_LIB fftw3f)
SET(LIQUID_LIB liquid)
link_directories(/usr/local/lib)
link_directories(/opt/local/lib)
ADD_DEFINITIONS(
-D__MACOSX_CORE__
)
FIND_LIBRARY(COREAUDIO_LIBRARY CoreAudio)
SET (OTHER_LIBRARIES ${COREAUDIO_LIBRARY})
SET (OTHER_LIBRARIES ${COREAUDIO_LIBRARY} ${OTHER_LIBRARIES})
set(BUNDLE_APP OFF CACHE BOOL "Bundle Application")
ENDIF (APPLE)
@ -230,8 +205,9 @@ SET (cubicsdr_sources
src/FrequencyDialog.cpp
src/IOThread.cpp
src/sdr/SDRDeviceInfo.cpp
src/sdr/SDRThread.cpp
src/sdr/SDRPostThread.cpp
src/sdr/SDREnumerator.cpp
src/sdr/SoapySDRThread.h
src/demod/DemodulatorPreThread.cpp
src/demod/DemodulatorThread.cpp
src/demod/DemodulatorWorkerThread.cpp
@ -260,6 +236,7 @@ SET (cubicsdr_sources
src/visual/ScopeContext.cpp
src/visual/SpectrumCanvas.cpp
src/visual/WaterfallCanvas.cpp
src/visual/GainCanvas.cpp
src/process/VisualProcessor.cpp
src/process/ScopeVisualProcessor.cpp
src/process/SpectrumVisualProcessor.cpp
@ -267,6 +244,8 @@ SET (cubicsdr_sources
src/process/FFTDataDistributor.cpp
src/process/SpectrumVisualDataThread.cpp
src/ui/GLPanel.cpp
src/forms/SDRDevices/SDRDevices.cpp
src/forms/SDRDevices/SDRDevicesForm.cpp
external/rtaudio/RtAudio.cpp
external/lodepng/lodepng.cpp
external/tinyxml/tinyxml.cpp
@ -284,8 +263,9 @@ SET (cubicsdr_headers
src/FrequencyDialog.h
src/IOThread.h
src/sdr/SDRDeviceInfo.h
src/sdr/SDRThread.h
src/sdr/SDRPostThread.h
src/sdr/SDREnumerator.h
src/sdr/SoapySDRThread.cpp
src/demod/DemodulatorPreThread.h
src/demod/DemodulatorThread.h
src/demod/DemodulatorWorkerThread.h
@ -316,6 +296,7 @@ SET (cubicsdr_headers
src/visual/ScopeContext.h
src/visual/SpectrumCanvas.h
src/visual/WaterfallCanvas.h
src/visual/GainCanvas.h
src/process/VisualProcessor.h
src/process/ScopeVisualProcessor.h
src/process/SpectrumVisualProcessor.h
@ -327,6 +308,8 @@ SET (cubicsdr_headers
src/ui/UITestCanvas.h
src/ui/UITestContext.cpp
src/ui/UITestContext.h
src/forms/SDRDevices/SDRDevices.h
src/forms/SDRDevices/SDRDevicesForm.h
external/rtaudio/RtAudio.h
external/lodepng/lodepng.h
external/tinyxml/tinyxml.h
@ -349,21 +332,23 @@ SET (cubicsdr_headers
set(REG_EXT "[^/]*([.]cpp|[.]c|[.]h|[.]hpp)$")
SOURCE_GROUP("Base" REGULAR_EXPRESSION src/${REG_EXT})
SOURCE_GROUP("SDR" REGULAR_EXPRESSION src/sdr/${REG_EXT})
SOURCE_GROUP("Demodulator" REGULAR_EXPRESSION src/demod/${REG_EXT})
SOURCE_GROUP("Audio" REGULAR_EXPRESSION src/audio/${REG_EXT})
SOURCE_GROUP("Utility" REGULAR_EXPRESSION src/util/${REG_EXT})
SOURCE_GROUP("Panel" REGULAR_EXPRESSION src/panel/${REG_EXT})
SOURCE_GROUP("Visual" REGULAR_EXPRESSION src/visual/${REG_EXT})
SOURCE_GROUP("Process" REGULAR_EXPRESSION src/process/${REG_EXT})
SOURCE_GROUP("UI" REGULAR_EXPRESSION src/ui/${REG_EXT})
SOURCE_GROUP("_ext-RTAudio" REGULAR_EXPRESSION external/rtaudio/.*${REG_EXT})
SOURCE_GROUP("_ext-LodePNG" REGULAR_EXPRESSION external/lodepng/.*${REG_EXT})
SOURCE_GROUP("_ext-TinyXML" REGULAR_EXPRESSION external/tinyxml/.*${REG_EXT})
SOURCE_GROUP("_ext-CubicVR2" REGULAR_EXPRESSION external/cubicvr2/.*${REG_EXT})
SOURCE_GROUP("Base" REGULAR_EXPRESSION "src/${REG_EXT}")
SOURCE_GROUP("Forms\\SDRDevices" REGULAR_EXPRESSION "src/forms/SDRDevices/${REG_EXT}")
SOURCE_GROUP("SDR" REGULAR_EXPRESSION "src/sdr/${REG_EXT}")
SOURCE_GROUP("Demodulator" REGULAR_EXPRESSION "src/demod/${REG_EXT}")
SOURCE_GROUP("Audio" REGULAR_EXPRESSION "src/audio/${REG_EXT}")
SOURCE_GROUP("Utility" REGULAR_EXPRESSION "src/util/${REG_EXT}")
SOURCE_GROUP("Visual" REGULAR_EXPRESSION "src/visual/${REG_EXT}")
SOURCE_GROUP("Panel" REGULAR_EXPRESSION "src/panel/${REG_EXT}")
SOURCE_GROUP("Process" REGULAR_EXPRESSION "src/process/${REG_EXT}")
SOURCE_GROUP("UI" REGULAR_EXPRESSION "src/ui/${REG_EXT}")
SOURCE_GROUP("_ext-RTAudio" REGULAR_EXPRESSION "external/rtaudio/.*${REG_EXT}")
SOURCE_GROUP("_ext-LodePNG" REGULAR_EXPRESSION "external/lodepng/.*${REG_EXT}")
SOURCE_GROUP("_ext-TinyXML" REGULAR_EXPRESSION "external/tinyxml/.*${REG_EXT}")
SOURCE_GROUP("_ext-CubicVR2" REGULAR_EXPRESSION "external/cubicvr2/.*${REG_EXT}")
include_directories (
${PROJECT_SOURCE_DIR}/src/forms/SDRDevices
${PROJECT_SOURCE_DIR}/src/sdr
${PROJECT_SOURCE_DIR}/src/demod
${PROJECT_SOURCE_DIR}/src/audio
@ -409,8 +394,12 @@ IF (NOT BUNDLE_APP)
configure_files(${PROJECT_SOURCE_DIR}/font ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.fnt")
configure_files(${PROJECT_SOURCE_DIR}/font ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.png")
configure_files(${PROJECT_SOURCE_DIR}/icon ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} CubicSDR.ico)
IF(MSVC)
configure_files(${SOAPY_SDR_ROOT}/bin/ ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME} "*.dll")
configure_files(${SOAPY_SDR_ROOT}/lib/SoapySDR/modules/ ${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME}/modules/ "*.dll")
ENDIF()
add_executable(CubicSDR ${cubicsdr_sources} ${cubicsdr_headers} ${RES_FILES})
target_link_libraries(CubicSDR rtlsdr ${LIQUID_LIB} ${FFTW_LIB} ${wxWidgets_LIBRARIES} ${OPENGL_LIBRARIES} ${OTHER_LIBRARIES})
target_link_libraries(CubicSDR ${LIQUID_LIB} ${FFTW_LIB} ${wxWidgets_LIBRARIES} ${OPENGL_LIBRARIES} ${OTHER_LIBRARIES})
ENDIF (NOT BUNDLE_APP)
IF (MSVC)
@ -428,7 +417,7 @@ ENDIF(MSVC)
IF (APPLE)
ADD_DEFINITIONS(
-DHAVE_TYPE_TRAITS=1
-mmacosx-version-min=10.9
-mmacosx-version-min=10.10
)
ENDIF(APPLE)
@ -436,6 +425,14 @@ IF (APPLE AND BUNDLE_APP)
PROJECT(CubicSDR)
SET(MACOSX_BUNDLE_BUNDLE_NAME CubicSDR)
set(BUNDLE_SOAPY_MODS OFF CACHE BOOL "Bundle local SoapySDR modules")
IF (BUNDLE_SOAPY_MODS)
ADD_DEFINITIONS(
-DBUNDLE_SOAPY_MODS=1
)
ENDIF()
ADD_DEFINITIONS(
-std=c++0x
-pthread
@ -477,9 +474,9 @@ IF (APPLE AND BUNDLE_APP)
${PROJECT_SOURCE_DIR}/icon/CubicSDR.icns
PROPERTIES
MACOSX_PACKAGE_LOCATION Resources
)
target_link_libraries(CubicSDR rtlsdr ${LIQUID_LIB} ${FFTW_LIB} ${wxWidgets_LIBRARIES} ${OPENGL_LIBRARIES} ${OTHER_LIBRARIES})
)
target_link_libraries(CubicSDR ${LIQUID_LIB} ${FFTW_LIB} ${wxWidgets_LIBRARIES} ${OPENGL_LIBRARIES} ${OTHER_LIBRARIES})
SET_TARGET_PROPERTIES(CubicSDR PROPERTIES MACOSX_BUNDLE TRUE)
SET_TARGET_PROPERTIES(CubicSDR PROPERTIES
@ -489,16 +486,49 @@ IF (APPLE AND BUNDLE_APP)
# MACOSX_BUNDLE_SHORT_VERSION_STRING "${PROJECT_VERSION}"
MACOSX_BUNDLE_GUI_IDENTIFIER "com.cubicproductions.cubicsdr"
MACOSX_BUNDLE_ICON_FILE CubicSDR.icns
)
)
SET(APPS "${CMAKE_BINARY_DIR}/${EX_PLATFORM_NAME}/CubicSDR.app")
# SET(CMAKE_INSTALL_RPATH_USE_LINK_PATH FALSE)
# SET(CMAKE_BUILD_WITH_INSTALL_RPATH FALSE)
IF (BUNDLE_SOAPY_MODS)
message(STATUS "SOAPY_ROOT: ${SOAPY_SDR_ROOT}")
file(GLOB SOAPY_MODS ${SOAPY_SDR_ROOT}/lib/SoapySDR/modules/*.so)
FOREACH(SOAPY_MOD_FILE ${SOAPY_MODS})
INSTALL( FILES "${SOAPY_MOD_FILE}"
DESTINATION "${APPS}/Contents/MacOS/modules"
COMPONENT Runtime
)
ENDFOREACH()
ENDIF(BUNDLE_SOAPY_MODS)
INSTALL(CODE "
SET(BU_COPY_FULL_FRAMEWORK_CONTENTS ON)
SET(BU_COPY_FULL_FRAMEWORK_CONTENTS ON)
include(BundleUtilities)
fixup_bundle(\"${APPS}\" \"\" \"${RTLSDR_LIB}\")
fixup_bundle(\"${APPS}\" \"\" \"/usr/local/lib\")
" COMPONENT Runtime)
IF (BUNDLE_SOAPY_MODS)
FOREACH(SOAPY_MOD_FILE ${SOAPY_MODS})
GET_FILENAME_COMPONENT(SOAPY_MOD_NAME ${SOAPY_MOD_FILE} NAME)
IF(${SOAPY_MOD_NAME} STREQUAL "libsdrPlaySupport.so") # prevent inclusion of libmirsdrapi-rsp.so
message(STATUS "Excluding libsdrPlaySupport.so")
CONTINUE()
ELSE()
message(STATUS "Bundling ${SOAPY_MOD_NAME} from ${SOAPY_MOD_FILE}")
ENDIF()
INSTALL(CODE "
fixup_bundle(\"${APPS}\" \"${APPS}/Contents/MacOS/modules/${SOAPY_MOD_NAME}\" \"/usr/local/lib\")
" COMPONENT Runtime)
ENDFOREACH()
ENDIF(BUNDLE_SOAPY_MODS)
INSTALL(CODE "
VERIFY_APP(\"${APPS}\")
" COMPONENT Runtime)
@ -511,6 +541,8 @@ IF (APPLE AND BUNDLE_APP)
ENDIF (APPLE AND BUNDLE_APP)
IF (WIN32 AND BUILD_INSTALLER)
set(BUNDLE_SOAPY_MODS OFF CACHE BOOL "Bundle local SoapySDR modules")
set(CPACK_GENERATOR NSIS)
set(CPACK_PACKAGE_NAME "CubicSDR")
set(CPACK_PACKAGE_VENDOR "cubicsdr.com")
@ -533,6 +565,7 @@ IF (WIN32 AND BUILD_INSTALLER)
set(CPACK_NSIS_EXECUTABLES_DIRECTORY ".")
install(TARGETS CubicSDR RUNTIME DESTINATION .)
install(FILES
${PROJECT_SOURCE_DIR}/font/vera_sans_mono12.fnt
${PROJECT_SOURCE_DIR}/font/vera_sans_mono16.fnt
@ -548,20 +581,20 @@ IF (WIN32 AND BUILD_INSTALLER)
${PROJECT_SOURCE_DIR}/font/vera_sans_mono48_0.png
${PROJECT_SOURCE_DIR}/icon/CubicSDR.ico
${PROJECT_SOURCE_DIR}/external/fftw-3.3.4/${EX_PLATFORM}/libfftw3f-3.dll
DESTINATION .)
IF (MSVC)
install(FILES
${PROJECT_SOURCE_DIR}/external/liquid-dsp/msvc/${EX_PLATFORM}/libliquid.dll
${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/msvc/${EX_PLATFORM}/rtlsdr.dll
${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/msvc/${EX_PLATFORM}/libusb-1.0.dll
DESTINATION .)
ELSE (MSVC)
install(FILES
${PROJECT_SOURCE_DIR}/external/liquid-dsp/gcc/${EX_PLATFORM}/libliquid.dll
${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/gcc/${EX_PLATFORM}/librtlsdr.dll
${PROJECT_SOURCE_DIR}/external/rtl-sdr-release/gcc/${EX_PLATFORM}/libusb-1.0.dll
DESTINATION .)
ENDIF(MSVC)
IF (BUNDLE_SOAPY_MODS)
ADD_DEFINITIONS(
-DBUNDLE_SOAPY_MODS=1
)
file(GLOB SOAPY_BINS ${SOAPY_SDR_ROOT}/bin/*.dll)
file(GLOB SOAPY_MODS ${SOAPY_SDR_ROOT}/lib/SoapySDR/modules/*.dll)
message(STATUS "SOAPY_BINS: ${SOAPY_BINS}")
message(STATUS "SOAPY_MODS: ${SOAPY_MODS}")
install(FILES ${SOAPY_BINS} DESTINATION .)
install(FILES ${SOAPY_MODS} DESTINATION modules)
ENDIF(BUNDLE_SOAPY_MODS)
IF(MSVC AND EX_PLATFORM EQUAL 32)
install(FILES
@ -572,8 +605,8 @@ IF (WIN32 AND BUILD_INSTALLER)
set(CPACK_PACKAGE_EXECUTABLES CubicSDR "CubicSDR")
IF (MSVC)
install(PROGRAMS ${CMAKE_CURRENT_SOURCE_DIR}/external/msvc/${EX_PLATFORM_NAME}/vcredist_${EX_PLATFORM_NAME}.exe DESTINATION vc_redist)
set(CPACK_NSIS_EXTRA_INSTALL_COMMANDS "ExecWait '\\\"$INSTDIR\\\\vc_redist\\\\vcredist_${EX_PLATFORM_NAME}.exe\\\" /q:a'")
install(PROGRAMS ${CMAKE_CURRENT_SOURCE_DIR}/external/msvc/${EX_PLATFORM_NAME}/vc_redist.${EX_PLATFORM_NAME}.exe DESTINATION vc_redist)
set(CPACK_NSIS_EXTRA_INSTALL_COMMANDS "ExecWait '\\\"$INSTDIR\\\\vc_redist\\\\vc_redist.${EX_PLATFORM_NAME}.exe\\\" /q:a'")
ENDIF (MSVC)
@ -583,10 +616,10 @@ ENDIF (WIN32 AND BUILD_INSTALLER)
IF (UNIX AND BUILD_DEB)
set(CPACK_GENERATOR DEB)
set(CPACK_GENERATOR DEB)
set(CPACK_PACKAGE_NAME "CubicSDR")
SET(CPACK_DEBIAN_PACKAGE_DEPENDS " librtlsdr0, libfftw3-single3, libwxgtk3.0-0, libpulse0")
SET(CPACK_DEBIAN_PACKAGE_MAINTAINER "Charles J. Cliffe <cj@cubicproductions.com>")
SET(CPACK_DEBIAN_PACKAGE_DEPENDS " libfftw3-single3, libwxgtk3.0-0, libpulse0")
SET(CPACK_DEBIAN_PACKAGE_MAINTAINER "Charles J. Cliffe <cj@cubicproductions.com>")
SET(CPACK_DEBIAN_PACKAGE_DESCRIPTION "CubicSDR Software Defined Radio application v${CUBICSDR_VERSION}")
SET(CPACK_DEBIAN_PACKAGE_SECTION "comm")
SET(CPACK_RESOURCE_FILE_LICENSE "${CMAKE_SOURCE_DIR}/LICENSE")

View File

@ -7,12 +7,12 @@ Please see the [CubicSDR GitHub Wiki](https://github.com/cjcliffe/CubicSDR/wiki)
Utilizes:
--------
- liquid-dsp (http://liquidsdr.org/ https://github.com/jgaeddert/liquid-dsp)
- FFTW (http://www.fftw.org/ https://github.com/FFTW/fftw3)
- RtAudio (http://www.music.mcgill.ca/~gary/rtaudio/ http://github.com/thestk/rtaudio/)
- Osmocom RTLSDR (http://sdr.osmocom.org/trac/wiki/rtl-sdr)
- liquid-dsp (http://liquidsdr.org/ -- https://github.com/jgaeddert/liquid-dsp)
- SoapySDR (http://www.pothosware.com/ -- https://github.com/pothosware/SoapySDR)
- FFTW (http://www.fftw.org/ -- https://github.com/FFTW/fftw3)
- RtAudio (http://www.music.mcgill.ca/~gary/rtaudio/ -- http://github.com/thestk/rtaudio/)
- LodePNG (http://lodev.org/lodepng/)
- BMFont (http://www.angelcode.com/ http://www.angelcode.com/products/bmfont/)
- BMFont (http://www.angelcode.com/ -- http://www.angelcode.com/products/bmfont/)
- Bitstream Vera font (http://en.wikipedia.org/wiki/Bitstream_Vera)
- OpenGL (https://www.opengl.org/)
- wxWidgets (https://www.wxwidgets.org/)
@ -22,9 +22,20 @@ Features and Status:
--------------------
- Simple UI
- Devices
- [x] RTL-SDR
- [ ] rtl_tcp client
- [ ] gr-osmosdr
- [x] SoapySDR Device support (known working checked)
- [x] SoapySDRPlay for SDRPlay (Maintained by C.J.)
- [x] SoapyRTLSDR for RTL-SDR (Maintained by C.J.)
- [x] SoapyHackRF for HackRF
- [x] SoapyBladeRF for BladeRF
- [ ] SoapyUHD for Ettus USRP (untested)
- [x] SoapyRemote, use any SoapySDR Device via network (works on Pi)
- [ ] SoapyAirSpy (WIP by C.J.)
- [ ] SoapyAudio (WIP by C.J.)
- [x] SoapyOsmo for GrOsmoSDR devices
- [ ] OsmoSDR
- [ ] MiriSDR
- [ ] RFSpace
- [x] AirSpy
- Basic Features
- [x] Device Selection
- [x] Bandwidth
@ -32,12 +43,15 @@ Features and Status:
- [x] Load/Save session
- [x] Audio sample rate
- [x] Device PPM
- [x] Waterfall speed
- [x] Spectrum average speed
- [x] Gain Controls
- [ ] Bookmarks
- [ ] History
- [ ] Default preferences
- [ ] Audio defaults
- [x] Device defaults
- [ ] Bookmarks
- [ ] History
- [ ] Run as rtl_tcp server and visualize control
- [ ] Run any device as rtl_tcp server and visualize control
- Neat Visuals
- [ ] 2D visuals
- [x] Y Scope
@ -61,7 +75,7 @@ Features and Status:
- [x] USB
- [x] DSB
- [x] I/Q
- [ ] Controls
- [x] Controls
- [x] Display Frequency and allow manual adjustments
- [x] Allow selection of demodulation type
- [x] Display separate zoomed-in view of current waterfall and spectrum, allow adjustments
@ -70,8 +84,6 @@ Features and Status:
- [x] Volume control
- [x] Direct frequency input
- [x] Mute
- [x] Waterfall speed
- [ ] RTL-SDR Gain
- Basic Input Controls
- [x] Drag spectrum to change center frequency
- [x] Hold shift and click on waterfall to create a new demodulator
@ -127,7 +139,7 @@ Features and Status:
- [ ] Update visuals to OpenGL 3.x / OpenGL ES
- [x] Resolve constant refresh on visuals that don't change often
- [ ] Resolve all driver/platform vertical sync issues
- [ ] Group and divide IQ data distribution workload instead of 100% distribution per instance
- [x] Group and divide IQ data distribution workload instead of 100% distribution per instance
Advanced Goals and ideas:
@ -158,9 +170,9 @@ Advanced Goals and ideas:
- Accessibility / Control
- USB/MIDI control surfaces
- Joystick / gamepad input
- Vibration / force-feedback
- Investigate compilation via emscripten using rtl_tcp for input
- Create web server+rtl_tcp bundle for embedded devices
- Vibration / force-feeback
- Investigate compilation via emscripten using SoapyRemote for input
- Create web server+SoapyRemote bundle for embedded devices
- Use emscripten compiled CubicSDR via embedded web server
Target Platforms:

View File

@ -0,0 +1,22 @@
# - Find FFTW
# Find the native FFTW includes and library
#
# FFTW_INCLUDES - where to find fftw3.h
# FFTW_LIBRARIES - List of libraries when using FFTW.
# FFTW_FOUND - True if FFTW found.
if (FFTW_INCLUDES)
# Already in cache, be silent
set (FFTW_FIND_QUIETLY TRUE)
endif (FFTW_INCLUDES)
find_path (FFTW_INCLUDES fftw3.h)
find_library (FFTW_LIBRARIES NAMES fftw3)
# handle the QUIETLY and REQUIRED arguments and set FFTW_FOUND to TRUE if
# all listed variables are TRUE
include (FindPackageHandleStandardArgs)
find_package_handle_standard_args (FFTW DEFAULT_MSG FFTW_LIBRARIES FFTW_INCLUDES)
mark_as_advanced (FFTW_LIBRARIES FFTW_INCLUDES)

View File

@ -0,0 +1,22 @@
# - Find LIQUID
# Find the native LIQUID includes and library
#
# LIQUID_INCLUDES - where to find LIQUID3.h
# LIQUID_LIBRARIES - List of libraries when using LIQUID.
# LIQUID_FOUND - True if LIQUID found.
if (LIQUID_INCLUDES)
# Already in cache, be silent
set (LIQUID_FIND_QUIETLY TRUE)
endif (LIQUID_INCLUDES)
find_path (LIQUID_INCLUDES liquid/liquid.h)
find_library (LIQUID_LIBRARIES NAMES liquid)
# handle the QUIETLY and REQUIRED arguments and set LIQUID_FOUND to TRUE if
# all listed variables are TRUE
include (FindPackageHandleStandardArgs)
find_package_handle_standard_args (LIQUID DEFAULT_MSG LIQUID_LIBRARIES LIQUID_INCLUDES)
mark_as_advanced (LIQUID_LIBRARIES LIQUID_INCLUDES)

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BIN
external/fftw-3.3.4/64/libfftw3f-3.lib vendored Normal file

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BIN
external/msvc/x64/vc_redist.x64.exe vendored Normal file

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BIN
external/msvc/x86/vc_redist.x86.exe vendored Normal file

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@ -1,4 +0,0 @@
Steve Markgraf <steve@steve-m.de>
Dimitri Stolnikov <horiz0n@gmx.net>
Hoernchen <la@tfc-server.de>
Kyle Keen <keenerd@gmail.com>

View File

@ -1,339 +0,0 @@
GNU GENERAL PUBLIC LICENSE
Version 2, June 1991
Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Everyone is permitted to copy and distribute verbatim copies
of this license document, but changing it is not allowed.
Preamble
The licenses for most software are designed to take away your
freedom to share and change it. By contrast, the GNU General Public
License is intended to guarantee your freedom to share and change free
software--to make sure the software is free for all its users. This
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When we speak of free software, we are referring to freedom, not
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TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
0. This License applies to any program or other work which contains
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END OF TERMS AND CONDITIONS
How to Apply These Terms to Your New Programs
If you develop a new program, and you want it to be of the greatest
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Copyright (C) <year> <name of author>
This program is free software; you can redistribute it and/or modify
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This program is distributed in the hope that it will be useful,
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Also add information on how to contact you by electronic and paper mail.
If the program is interactive, make it output a short notice like this
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Gnomovision version 69, Copyright (C) year name of author
Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
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The hypothetical commands `show w' and `show c' should show the appropriate
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You should also get your employer (if you work as a programmer) or your
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Yoyodyne, Inc., hereby disclaims all copyright interest in the program
`Gnomovision' (which makes passes at compilers) written by James Hacker.
<signature of Ty Coon>, 1 April 1989
Ty Coon, President of Vice
This General Public License does not permit incorporating your program into
proprietary programs. If your program is a subroutine library, you may
consider it more useful to permit linking proprietary applications with the
library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License.

View File

@ -1,504 +0,0 @@
GNU LESSER GENERAL PUBLIC LICENSE
Version 2.1, February 1999
Copyright (C) 1991, 1999 Free Software Foundation, Inc.
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Everyone is permitted to copy and distribute verbatim copies
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That's all there is to it!

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rtl-sdr
turns your Realtek RTL2832 based DVB dongle into a SDR receiver
======================================================================
For more information see:
http://sdr.osmocom.org/trac/wiki/rtl-sdr

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The Windows build is using
https://github.com/libusbx/libusbx 33ba1231a1b07425eaa83935f84b2e4b7f904f35
and
http://sources.redhat.com/pthreads-win32/ cvs
See the corresponding COPYING* files for the license text.
You might need to grab the runtime from
http://www.microsoft.com/en-us/download/details.aspx?id=8328
or
http://www.microsoft.com/en-us/download/details.aspx?id=13523

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@ -1,378 +0,0 @@
/*
* rtl-sdr, turns your Realtek RTL2832 based DVB dongle into a SDR receiver
* Copyright (C) 2012-2013 by Steve Markgraf <steve@steve-m.de>
* Copyright (C) 2012 by Dimitri Stolnikov <horiz0n@gmx.net>
*
* 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 2 of the License, or
* (at your option) any later version.
*
* 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/>.
*/
#ifndef __RTL_SDR_H
#define __RTL_SDR_H
#ifdef __cplusplus
extern "C" {
#endif
#include <stdint.h>
#include <rtl-sdr_export.h>
typedef struct rtlsdr_dev rtlsdr_dev_t;
RTLSDR_API uint32_t rtlsdr_get_device_count(void);
RTLSDR_API const char* rtlsdr_get_device_name(uint32_t index);
/*!
* Get USB device strings.
*
* NOTE: The string arguments must provide space for up to 256 bytes.
*
* \param index the device index
* \param manufact manufacturer name, may be NULL
* \param product product name, may be NULL
* \param serial serial number, may be NULL
* \return 0 on success
*/
RTLSDR_API int rtlsdr_get_device_usb_strings(uint32_t index,
char *manufact,
char *product,
char *serial);
/*!
* Get device index by USB serial string descriptor.
*
* \param serial serial string of the device
* \return device index of first device where the name matched
* \return -1 if name is NULL
* \return -2 if no devices were found at all
* \return -3 if devices were found, but none with matching name
*/
RTLSDR_API int rtlsdr_get_index_by_serial(const char *serial);
RTLSDR_API int rtlsdr_open(rtlsdr_dev_t **dev, uint32_t index);
RTLSDR_API int rtlsdr_close(rtlsdr_dev_t *dev);
/* configuration functions */
/*!
* Set crystal oscillator frequencies used for the RTL2832 and the tuner IC.
*
* Usually both ICs use the same clock. Changing the clock may make sense if
* you are applying an external clock to the tuner or to compensate the
* frequency (and samplerate) error caused by the original (cheap) crystal.
*
* NOTE: Call this function only if you fully understand the implications.
*
* \param dev the device handle given by rtlsdr_open()
* \param rtl_freq frequency value used to clock the RTL2832 in Hz
* \param tuner_freq frequency value used to clock the tuner IC in Hz
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_xtal_freq(rtlsdr_dev_t *dev, uint32_t rtl_freq,
uint32_t tuner_freq);
/*!
* Get crystal oscillator frequencies used for the RTL2832 and the tuner IC.
*
* Usually both ICs use the same clock.
*
* \param dev the device handle given by rtlsdr_open()
* \param rtl_freq frequency value used to clock the RTL2832 in Hz
* \param tuner_freq frequency value used to clock the tuner IC in Hz
* \return 0 on success
*/
RTLSDR_API int rtlsdr_get_xtal_freq(rtlsdr_dev_t *dev, uint32_t *rtl_freq,
uint32_t *tuner_freq);
/*!
* Get USB device strings.
*
* NOTE: The string arguments must provide space for up to 256 bytes.
*
* \param dev the device handle given by rtlsdr_open()
* \param manufact manufacturer name, may be NULL
* \param product product name, may be NULL
* \param serial serial number, may be NULL
* \return 0 on success
*/
RTLSDR_API int rtlsdr_get_usb_strings(rtlsdr_dev_t *dev, char *manufact,
char *product, char *serial);
/*!
* Write the device EEPROM
*
* \param dev the device handle given by rtlsdr_open()
* \param data buffer of data to be written
* \param offset address where the data should be written
* \param len length of the data
* \return 0 on success
* \return -1 if device handle is invalid
* \return -2 if EEPROM size is exceeded
* \return -3 if no EEPROM was found
*/
RTLSDR_API int rtlsdr_write_eeprom(rtlsdr_dev_t *dev, uint8_t *data,
uint8_t offset, uint16_t len);
/*!
* Read the device EEPROM
*
* \param dev the device handle given by rtlsdr_open()
* \param data buffer where the data should be written
* \param offset address where the data should be read from
* \param len length of the data
* \return 0 on success
* \return -1 if device handle is invalid
* \return -2 if EEPROM size is exceeded
* \return -3 if no EEPROM was found
*/
RTLSDR_API int rtlsdr_read_eeprom(rtlsdr_dev_t *dev, uint8_t *data,
uint8_t offset, uint16_t len);
RTLSDR_API int rtlsdr_set_center_freq(rtlsdr_dev_t *dev, uint32_t freq);
/*!
* Get actual frequency the device is tuned to.
*
* \param dev the device handle given by rtlsdr_open()
* \return 0 on error, frequency in Hz otherwise
*/
RTLSDR_API uint32_t rtlsdr_get_center_freq(rtlsdr_dev_t *dev);
/*!
* Set the frequency correction value for the device.
*
* \param dev the device handle given by rtlsdr_open()
* \param ppm correction value in parts per million (ppm)
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_freq_correction(rtlsdr_dev_t *dev, int ppm);
/*!
* Get actual frequency correction value of the device.
*
* \param dev the device handle given by rtlsdr_open()
* \return correction value in parts per million (ppm)
*/
RTLSDR_API int rtlsdr_get_freq_correction(rtlsdr_dev_t *dev);
enum rtlsdr_tuner {
RTLSDR_TUNER_UNKNOWN = 0,
RTLSDR_TUNER_E4000,
RTLSDR_TUNER_FC0012,
RTLSDR_TUNER_FC0013,
RTLSDR_TUNER_FC2580,
RTLSDR_TUNER_R820T,
RTLSDR_TUNER_R828D
};
/*!
* Get the tuner type.
*
* \param dev the device handle given by rtlsdr_open()
* \return RTLSDR_TUNER_UNKNOWN on error, tuner type otherwise
*/
RTLSDR_API enum rtlsdr_tuner rtlsdr_get_tuner_type(rtlsdr_dev_t *dev);
/*!
* Get a list of gains supported by the tuner.
*
* NOTE: The gains argument must be preallocated by the caller. If NULL is
* being given instead, the number of available gain values will be returned.
*
* \param dev the device handle given by rtlsdr_open()
* \param gains array of gain values. In tenths of a dB, 115 means 11.5 dB.
* \return <= 0 on error, number of available (returned) gain values otherwise
*/
RTLSDR_API int rtlsdr_get_tuner_gains(rtlsdr_dev_t *dev, int *gains);
/*!
* Set the gain for the device.
* Manual gain mode must be enabled for this to work.
*
* Valid gain values (in tenths of a dB) for the E4000 tuner:
* -10, 15, 40, 65, 90, 115, 140, 165, 190,
* 215, 240, 290, 340, 420, 430, 450, 470, 490
*
* Valid gain values may be queried with \ref rtlsdr_get_tuner_gains function.
*
* \param dev the device handle given by rtlsdr_open()
* \param gain in tenths of a dB, 115 means 11.5 dB.
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_tuner_gain(rtlsdr_dev_t *dev, int gain);
/*!
* Get actual gain the device is configured to.
*
* \param dev the device handle given by rtlsdr_open()
* \return 0 on error, gain in tenths of a dB, 115 means 11.5 dB.
*/
RTLSDR_API int rtlsdr_get_tuner_gain(rtlsdr_dev_t *dev);
/*!
* Set the intermediate frequency gain for the device.
*
* \param dev the device handle given by rtlsdr_open()
* \param stage intermediate frequency gain stage number (1 to 6 for E4000)
* \param gain in tenths of a dB, -30 means -3.0 dB.
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_tuner_if_gain(rtlsdr_dev_t *dev, int stage, int gain);
/*!
* Set the gain mode (automatic/manual) for the device.
* Manual gain mode must be enabled for the gain setter function to work.
*
* \param dev the device handle given by rtlsdr_open()
* \param manual gain mode, 1 means manual gain mode shall be enabled.
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_tuner_gain_mode(rtlsdr_dev_t *dev, int manual);
/*!
* Set the sample rate for the device, also selects the baseband filters
* according to the requested sample rate for tuners where this is possible.
*
* \param dev the device handle given by rtlsdr_open()
* \param samp_rate the sample rate to be set, possible values are:
* 225001 - 300000 Hz
* 900001 - 3200000 Hz
* sample loss is to be expected for rates > 2400000
* \return 0 on success, -EINVAL on invalid rate
*/
RTLSDR_API int rtlsdr_set_sample_rate(rtlsdr_dev_t *dev, uint32_t rate);
/*!
* Get actual sample rate the device is configured to.
*
* \param dev the device handle given by rtlsdr_open()
* \return 0 on error, sample rate in Hz otherwise
*/
RTLSDR_API uint32_t rtlsdr_get_sample_rate(rtlsdr_dev_t *dev);
/*!
* Enable test mode that returns an 8 bit counter instead of the samples.
* The counter is generated inside the RTL2832.
*
* \param dev the device handle given by rtlsdr_open()
* \param test mode, 1 means enabled, 0 disabled
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_testmode(rtlsdr_dev_t *dev, int on);
/*!
* Enable or disable the internal digital AGC of the RTL2832.
*
* \param dev the device handle given by rtlsdr_open()
* \param digital AGC mode, 1 means enabled, 0 disabled
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_agc_mode(rtlsdr_dev_t *dev, int on);
/*!
* Enable or disable the direct sampling mode. When enabled, the IF mode
* of the RTL2832 is activated, and rtlsdr_set_center_freq() will control
* the IF-frequency of the DDC, which can be used to tune from 0 to 28.8 MHz
* (xtal frequency of the RTL2832).
*
* \param dev the device handle given by rtlsdr_open()
* \param on 0 means disabled, 1 I-ADC input enabled, 2 Q-ADC input enabled
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_direct_sampling(rtlsdr_dev_t *dev, int on);
/*!
* Get state of the direct sampling mode
*
* \param dev the device handle given by rtlsdr_open()
* \return -1 on error, 0 means disabled, 1 I-ADC input enabled
* 2 Q-ADC input enabled
*/
RTLSDR_API int rtlsdr_get_direct_sampling(rtlsdr_dev_t *dev);
/*!
* Enable or disable offset tuning for zero-IF tuners, which allows to avoid
* problems caused by the DC offset of the ADCs and 1/f noise.
*
* \param dev the device handle given by rtlsdr_open()
* \param on 0 means disabled, 1 enabled
* \return 0 on success
*/
RTLSDR_API int rtlsdr_set_offset_tuning(rtlsdr_dev_t *dev, int on);
/*!
* Get state of the offset tuning mode
*
* \param dev the device handle given by rtlsdr_open()
* \return -1 on error, 0 means disabled, 1 enabled
*/
RTLSDR_API int rtlsdr_get_offset_tuning(rtlsdr_dev_t *dev);
/* streaming functions */
RTLSDR_API int rtlsdr_reset_buffer(rtlsdr_dev_t *dev);
RTLSDR_API int rtlsdr_read_sync(rtlsdr_dev_t *dev, void *buf, int len, int *n_read);
typedef void(*rtlsdr_read_async_cb_t)(unsigned char *buf, uint32_t len, void *ctx);
/*!
* Read samples from the device asynchronously. This function will block until
* it is being canceled using rtlsdr_cancel_async()
*
* NOTE: This function is deprecated and is subject for removal.
*
* \param dev the device handle given by rtlsdr_open()
* \param cb callback function to return received samples
* \param ctx user specific context to pass via the callback function
* \return 0 on success
*/
RTLSDR_API int rtlsdr_wait_async(rtlsdr_dev_t *dev, rtlsdr_read_async_cb_t cb, void *ctx);
/*!
* Read samples from the device asynchronously. This function will block until
* it is being canceled using rtlsdr_cancel_async()
*
* \param dev the device handle given by rtlsdr_open()
* \param cb callback function to return received samples
* \param ctx user specific context to pass via the callback function
* \param buf_num optional buffer count, buf_num * buf_len = overall buffer size
* set to 0 for default buffer count (15)
* \param buf_len optional buffer length, must be multiple of 512,
* should be a multiple of 16384 (URB size), set to 0
* for default buffer length (16 * 32 * 512)
* \return 0 on success
*/
RTLSDR_API int rtlsdr_read_async(rtlsdr_dev_t *dev,
rtlsdr_read_async_cb_t cb,
void *ctx,
uint32_t buf_num,
uint32_t buf_len);
/*!
* Cancel all pending asynchronous operations on the device.
*
* \param dev the device handle given by rtlsdr_open()
* \return 0 on success
*/
RTLSDR_API int rtlsdr_cancel_async(rtlsdr_dev_t *dev);
#ifdef __cplusplus
}
#endif
#endif /* __RTL_SDR_H */

View File

@ -1,47 +0,0 @@
/*
* rtl-sdr, turns your Realtek RTL2832 based DVB dongle into a SDR receiver
* Copyright (C) 2012 by Hoernchen <la@tfc-server.de>
*
* 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 2 of the License, or
* (at your option) any later version.
*
* 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/>.
*/
#ifndef RTLSDR_EXPORT_H
#define RTLSDR_EXPORT_H
#if defined __GNUC__
# if __GNUC__ >= 4
# define __SDR_EXPORT __attribute__((visibility("default")))
# define __SDR_IMPORT __attribute__((visibility("default")))
# else
# define __SDR_EXPORT
# define __SDR_IMPORT
# endif
#elif _MSC_VER
# define __SDR_EXPORT __declspec(dllexport)
# define __SDR_IMPORT __declspec(dllimport)
#else
# define __SDR_EXPORT
# define __SDR_IMPORT
#endif
#ifndef rtlsdr_STATIC
# ifdef rtlsdr_EXPORTS
# define RTLSDR_API __SDR_EXPORT
# else
# define RTLSDR_API __SDR_IMPORT
# endif
#else
#define RTLSDR_API
#endif
#endif /* RTLSDR_EXPORT_H */

View File

@ -2,9 +2,7 @@
#include "CubicSDR.h"
DeviceConfig::DeviceConfig() : deviceId("") {
iqSwap.store(0);
ppm.store(0);
directSampling.store(false);
offset.store(0);
}
@ -20,14 +18,6 @@ int DeviceConfig::getPPM() {
return ppm.load();
}
void DeviceConfig::setDirectSampling(int mode) {
directSampling.store(mode);
}
int DeviceConfig::getDirectSampling() {
return directSampling.load();
}
void DeviceConfig::setOffset(long long offset) {
this->offset.store(offset);
}
@ -36,14 +26,6 @@ long long DeviceConfig::getOffset() {
return offset.load();
}
void DeviceConfig::setIQSwap(bool iqSwap) {
this->iqSwap.store(iqSwap);
}
bool DeviceConfig::getIQSwap() {
return iqSwap.load();
}
void DeviceConfig::setDeviceId(std::string deviceId) {
busy_lock.lock();
this->deviceId = deviceId;
@ -64,8 +46,6 @@ void DeviceConfig::save(DataNode *node) {
busy_lock.lock();
*node->newChild("id") = deviceId;
*node->newChild("ppm") = (int)ppm;
*node->newChild("iq_swap") = iqSwap;
*node->newChild("direct_sampling") = directSampling;
*node->newChild("offset") = offset;
busy_lock.unlock();
}
@ -79,32 +59,6 @@ void DeviceConfig::load(DataNode *node) {
setPPM(ppmValue);
std::cout << "Loaded PPM for device '" << deviceId << "' at " << ppmValue << "ppm" << std::endl;
}
if (node->hasAnother("iq_swap")) {
DataNode *iq_swap_node = node->getNext("iq_swap");
int iqSwapValue = 0;
iq_swap_node->element()->get(iqSwapValue);
setIQSwap(iqSwapValue?true:false);
std::cout << "Loaded I/Q Swap for device '" << deviceId << "' as " << (iqSwapValue?"swapped":"not swapped") << std::endl;
}
if (node->hasAnother("direct_sampling")) {
DataNode *direct_sampling_node = node->getNext("direct_sampling");
int directSamplingValue = 0;
direct_sampling_node->element()->get(directSamplingValue);
setDirectSampling(directSamplingValue);
std::cout << "Loaded Direct Sampling Mode for device '" << deviceId << "': ";
switch (directSamplingValue) {
case 0:
std::cout << "off" << std::endl;
break;
case 1:
std::cout << "I-ADC" << std::endl;
break;
case 2:
std::cout << "Q-ADC" << std::endl;
break;
}
}
if (node->hasAnother("offset")) {
DataNode *offset_node = node->getNext("offset");
long long offsetValue = 0;

View File

@ -17,15 +17,9 @@ public:
void setPPM(int ppm);
int getPPM();
void setDirectSampling(int mode);
int getDirectSampling();
void setOffset(long long offset);
long long getOffset();
void setIQSwap(bool iqSwap);
bool getIQSwap();
void setDeviceId(std::string deviceId);
std::string getDeviceId();
@ -36,8 +30,7 @@ private:
std::string deviceId;
std::mutex busy_lock;
std::atomic_int ppm, directSampling;
std::atomic_bool iqSwap;
std::atomic_int ppm;
std::atomic_llong offset;
};

View File

@ -14,12 +14,11 @@
#endif
#include <vector>
#include "SDRThread.h"
#include "DemodulatorMgr.h"
#include "AudioThread.h"
#include "CubicSDR.h"
#include "DataTree.h"
#include "ColorTheme.h"
#include "DemodulatorMgr.h"
#include <thread>
@ -35,8 +34,11 @@ EVT_CLOSE(AppFrame::OnClose)
EVT_MENU(wxID_ANY, AppFrame::OnMenu)
EVT_COMMAND(wxID_ANY, wxEVT_THREAD, AppFrame::OnThread)
EVT_IDLE(AppFrame::OnIdle)
EVT_SPLITTER_DCLICK(wxID_ANY, AppFrame::OnDoubleClickSash)
EVT_SPLITTER_UNSPLIT(wxID_ANY, AppFrame::OnUnSplit)
wxEND_EVENT_TABLE()
AppFrame::AppFrame() :
wxFrame(NULL, wxID_ANY, CUBICSDR_TITLE), activeDemodulator(NULL) {
@ -46,12 +48,25 @@ AppFrame::AppFrame() :
wxBoxSizer *vbox = new wxBoxSizer(wxVERTICAL);
wxBoxSizer *demodVisuals = new wxBoxSizer(wxVERTICAL);
wxBoxSizer *demodTray = new wxBoxSizer(wxHORIZONTAL);
demodTray = new wxBoxSizer(wxHORIZONTAL);
wxBoxSizer *demodScopeTray = new wxBoxSizer(wxVERTICAL);
int attribList[] = { WX_GL_RGBA, WX_GL_DOUBLEBUFFER, 0 };
demodModeSelector = new ModeSelectorCanvas(this, attribList);
mainSplitter = new wxSplitterWindow( this, wxID_MAIN_SPLITTER, wxDefaultPosition, wxDefaultSize, wxSP_3DSASH | wxSP_LIVE_UPDATE );
mainSplitter->SetSashGravity(12.0/37.0);
mainSplitter->SetMinimumPaneSize(1);
wxPanel *demodPanel = new wxPanel(mainSplitter, wxID_ANY);
gainCanvas = new GainCanvas(demodPanel, attribList);
gainSizerItem = demodTray->Add(gainCanvas, 0, wxEXPAND | wxALL, 0);
gainSizerItem->Show(false);
gainSpacerItem = demodTray->AddSpacer(1);
gainSpacerItem->Show(false);
demodModeSelector = new ModeSelectorCanvas(demodPanel, attribList);
demodModeSelector->addChoice(DEMOD_TYPE_FM, "FM");
demodModeSelector->addChoice(DEMOD_TYPE_AM, "AM");
demodModeSelector->addChoice(DEMOD_TYPE_LSB, "LSB");
@ -63,14 +78,14 @@ AppFrame::AppFrame() :
demodTray->Add(demodModeSelector, 2, wxEXPAND | wxALL, 0);
wxGetApp().getDemodSpectrumProcessor()->setup(1024);
demodSpectrumCanvas = new SpectrumCanvas(this, attribList);
demodSpectrumCanvas = new SpectrumCanvas(demodPanel, attribList);
demodSpectrumCanvas->setView(wxGetApp().getConfig()->getCenterFreq(), 300000);
demodVisuals->Add(demodSpectrumCanvas, 3, wxEXPAND | wxALL, 0);
wxGetApp().getDemodSpectrumProcessor()->attachOutput(demodSpectrumCanvas->getVisualDataQueue());
demodVisuals->AddSpacer(1);
demodWaterfallCanvas = new WaterfallCanvas(this, attribList);
demodWaterfallCanvas = new WaterfallCanvas(demodPanel, attribList);
demodWaterfallCanvas->setup(1024, 128);
demodWaterfallCanvas->setView(wxGetApp().getConfig()->getCenterFreq(), 300000);
demodWaterfallCanvas->attachSpectrumCanvas(demodSpectrumCanvas);
@ -83,14 +98,16 @@ AppFrame::AppFrame() :
demodTray->AddSpacer(1);
demodSignalMeter = new MeterCanvas(this, attribList);
demodSignalMeter = new MeterCanvas(demodPanel, attribList);
demodSignalMeter->setMax(0.5);
demodSignalMeter->setHelpTip("Current Signal Level. Click / Drag to set Squelch level.");
demodSignalMeter->SetMinSize(wxSize(12,24));
demodTray->Add(demodSignalMeter, 1, wxEXPAND | wxALL, 0);
demodTray->AddSpacer(1);
scopeCanvas = new ScopeCanvas(this, attribList);
scopeCanvas = new ScopeCanvas(demodPanel, attribList);
scopeCanvas->setHelpTip("Audio Visuals, drag left/right to toggle Scope or Spectrum.");
demodScopeTray->Add(scopeCanvas, 8, wxEXPAND | wxALL, 0);
wxGetApp().getScopeProcessor()->setup(2048);
@ -98,8 +115,9 @@ AppFrame::AppFrame() :
demodScopeTray->AddSpacer(1);
demodTuner = new TuningCanvas(this, attribList);
demodTuner = new TuningCanvas(demodPanel, attribList);
demodTuner->setHelpTip("Testing tuner");
demodTuner->SetMinClientSize(wxSize(200,24));
demodScopeTray->Add(demodTuner, 1, wxEXPAND | wxALL, 0);
demodTray->Add(demodScopeTray, 30, wxEXPAND | wxALL, 0);
@ -108,73 +126,99 @@ AppFrame::AppFrame() :
wxBoxSizer *demodGainTray = new wxBoxSizer(wxVERTICAL);
demodGainMeter = new MeterCanvas(this, attribList);
demodGainMeter = new MeterCanvas(demodPanel, attribList);
demodGainMeter->setMax(2.0);
demodGainMeter->setHelpTip("Current Demodulator Gain Level. Click / Drag to set Gain level.");
demodGainMeter->setShowUserInput(false);
demodGainMeter->SetMinSize(wxSize(12,24));
demodGainTray->Add(demodGainMeter, 8, wxEXPAND | wxALL, 0);
demodGainTray->AddSpacer(1);
demodMuteButton = new ModeSelectorCanvas(this, attribList);
demodMuteButton = new ModeSelectorCanvas(demodPanel, attribList);
demodMuteButton->addChoice(1, "M");
demodMuteButton->setPadding(-1,-1);
demodMuteButton->setHighlightColor(RGBA4f(0.8,0.2,0.2));
demodMuteButton->setHelpTip("Demodulator Mute Toggle");
demodMuteButton->setToggleMode(true);
demodMuteButton->setSelection(-1);
demodMuteButton->SetMinSize(wxSize(12,24));
demodGainTray->Add(demodMuteButton, 1, wxEXPAND | wxALL, 0);
demodTray->Add(demodGainTray, 1, wxEXPAND | wxALL, 0);
vbox->Add(demodTray, 12, wxEXPAND | wxALL, 0);
vbox->AddSpacer(1);
demodPanel->SetSizer(demodTray);
// vbox->Add(demodTray, 12, wxEXPAND | wxALL, 0);
// vbox->AddSpacer(1);
mainVisSplitter = new wxSplitterWindow( mainSplitter, wxID_VIS_SPLITTER, wxDefaultPosition, wxDefaultSize, wxSP_3DSASH | wxSP_LIVE_UPDATE );
mainVisSplitter->SetSashGravity(5.0/25.0);
mainVisSplitter->SetMinimumPaneSize(1);
// mainVisSplitter->Connect( wxEVT_IDLE, wxIdleEventHandler( AppFrame::mainVisSplitterIdle ), NULL, this );
wxPanel *spectrumPanel = new wxPanel(mainVisSplitter, wxID_ANY);
wxBoxSizer *spectrumSizer = new wxBoxSizer(wxHORIZONTAL);
wxGetApp().getSpectrumProcessor()->setup(2048);
spectrumCanvas = new SpectrumCanvas(this, attribList);
spectrumCanvas = new SpectrumCanvas(spectrumPanel, attribList);
spectrumCanvas->setShowDb(true);
spectrumCanvas->setScaleFactorEnabled(true);
wxGetApp().getSpectrumProcessor()->attachOutput(spectrumCanvas->getVisualDataQueue());
spectrumAvgMeter = new MeterCanvas(this, attribList);
spectrumAvgMeter = new MeterCanvas(spectrumPanel, attribList);
spectrumAvgMeter->setHelpTip("Spectrum averaging speed, click or drag to adjust.");
spectrumAvgMeter->setMax(1.0);
spectrumAvgMeter->setLevel(0.65);
spectrumAvgMeter->setShowUserInput(false);
spectrumAvgMeter->SetMinSize(wxSize(12,24));
spectrumSizer->Add(spectrumCanvas, 63, wxEXPAND | wxALL, 0);
spectrumSizer->AddSpacer(1);
spectrumSizer->Add(spectrumAvgMeter, 1, wxEXPAND | wxALL, 0);
spectrumPanel->SetSizer(spectrumSizer);
vbox->Add(spectrumSizer, 5, wxEXPAND | wxALL, 0);
// vbox->Add(spectrumSizer, 5, wxEXPAND | wxALL, 0);
vbox->AddSpacer(1);
// vbox->AddSpacer(1);
wxPanel *waterfallPanel = new wxPanel(mainVisSplitter, wxID_ANY);
wxBoxSizer *wfSizer = new wxBoxSizer(wxHORIZONTAL);
waterfallCanvas = new WaterfallCanvas(this, attribList);
waterfallCanvas = new WaterfallCanvas(waterfallPanel, attribList);
waterfallCanvas->setup(2048, 512);
waterfallDataThread = new FFTVisualDataThread();
waterfallDataThread->setInputQueue("IQDataInput", wxGetApp().getWaterfallVisualQueue());
waterfallDataThread->setOutputQueue("FFTDataOutput", waterfallCanvas->getVisualDataQueue());
waterfallDataThread->getProcessor()->setHideDC(true);
t_FFTData = new std::thread(&FFTVisualDataThread::threadMain, waterfallDataThread);
waterfallSpeedMeter = new MeterCanvas(this, attribList);
waterfallSpeedMeter = new MeterCanvas(waterfallPanel, attribList);
waterfallSpeedMeter->setHelpTip("Waterfall speed, click or drag to adjust (max 1024 lines per second)");
waterfallSpeedMeter->setMax(sqrt(1024));
waterfallSpeedMeter->setLevel(sqrt(DEFAULT_WATERFALL_LPS));
waterfallSpeedMeter->setShowUserInput(false);
waterfallSpeedMeter->SetMinSize(wxSize(12,24));
wfSizer->Add(waterfallCanvas, 63, wxEXPAND | wxALL, 0);
wfSizer->AddSpacer(1);
wfSizer->Add(waterfallSpeedMeter, 1, wxEXPAND | wxALL, 0);
waterfallPanel->SetSizer(wfSizer);
vbox->Add(wfSizer, 20, wxEXPAND | wxALL, 0);
// vbox->Add(wfSizer, 20, wxEXPAND | wxALL, 0);
mainVisSplitter->SplitHorizontally( spectrumPanel, waterfallPanel, 0 );
mainSplitter->SplitHorizontally( demodPanel, mainVisSplitter );
vbox->Add(mainSplitter, 1, wxEXPAND | wxALL, 0);
// TODO: refactor these..
waterfallCanvas->attachSpectrumCanvas(spectrumCanvas);
spectrumCanvas->attachWaterfallCanvas(waterfallCanvas);
@ -193,9 +237,11 @@ AppFrame::AppFrame() :
// SetIcon(wxICON(sample));
// Make a menubar
wxMenuBar *menuBar = new wxMenuBar;
menuBar = new wxMenuBar;
wxMenu *menu = new wxMenu;
menu->Append(wxID_SDR_DEVICES, "SDR Devices");
menu->AppendSeparator();
menu->Append(wxID_OPEN, "&Open Session");
menu->Append(wxID_SAVE, "&Save Session");
menu->Append(wxID_SAVEAS, "Save Session &As..");
@ -209,21 +255,9 @@ AppFrame::AppFrame() :
menuBar->Append(menu, wxT("&File"));
menu = new wxMenu;
menu->Append(wxID_SET_FREQ_OFFSET, "Frequency Offset");
menu->Append(wxID_SET_PPM, "Device PPM");
iqSwapMenuItem = menu->AppendCheckItem(wxID_SET_SWAP_IQ, "Swap I/Q");
wxMenu *dsMenu = new wxMenu;
directSamplingMenuItems[0] = dsMenu->AppendRadioItem(wxID_SET_DS_OFF, "Off");
directSamplingMenuItems[1] = dsMenu->AppendRadioItem(wxID_SET_DS_I, "I-ADC");
directSamplingMenuItems[2] = dsMenu->AppendRadioItem(wxID_SET_DS_Q, "Q-ADC");
menu->AppendSubMenu(dsMenu, "Direct Sampling");
menuBar->Append(menu, wxT("&Settings"));
settingsMenu = new wxMenu;
menuBar->Append(settingsMenu, wxT("&Settings"));
menu = new wxMenu;
@ -269,54 +303,6 @@ AppFrame::AppFrame() :
menuBar->Append(menu, wxT("&Color Scheme"));
menu = new wxMenu;
sampleRateMenuItems[wxID_BANDWIDTH_250K] = menu->AppendRadioItem(wxID_BANDWIDTH_250K, "250k");
sampleRateMenuItems[wxID_BANDWIDTH_1000M] = menu->AppendRadioItem(wxID_BANDWIDTH_1000M, "1.0M");
sampleRateMenuItems[wxID_BANDWIDTH_1500M] = menu->AppendRadioItem(wxID_BANDWIDTH_1024M, "1.024M");
sampleRateMenuItems[wxID_BANDWIDTH_1024M] = menu->AppendRadioItem(wxID_BANDWIDTH_1500M, "1.5M");
sampleRateMenuItems[wxID_BANDWIDTH_1800M] = menu->AppendRadioItem(wxID_BANDWIDTH_1800M, "1.8M");
sampleRateMenuItems[wxID_BANDWIDTH_1920M] = menu->AppendRadioItem(wxID_BANDWIDTH_1920M, "1.92M");
sampleRateMenuItems[wxID_BANDWIDTH_2000M] = menu->AppendRadioItem(wxID_BANDWIDTH_2000M, "2.0M");
sampleRateMenuItems[wxID_BANDWIDTH_2048M] = menu->AppendRadioItem(wxID_BANDWIDTH_2048M, "2.048M");
sampleRateMenuItems[wxID_BANDWIDTH_2160M] = menu->AppendRadioItem(wxID_BANDWIDTH_2160M, "2.16M");
sampleRateMenuItems[wxID_BANDWIDTH_2400M] = menu->AppendRadioItem(wxID_BANDWIDTH_2400M, "2.4M");
sampleRateMenuItems[wxID_BANDWIDTH_2560M] = menu->AppendRadioItem(wxID_BANDWIDTH_2560M, "2.56M");
sampleRateMenuItems[wxID_BANDWIDTH_2880M] = menu->AppendRadioItem(wxID_BANDWIDTH_2880M, "2.88M");
// sampleRateMenuItems[wxID_BANDWIDTH_3000M] = menu->AppendRadioItem(wxID_BANDWIDTH_3000M, "3.0M");
sampleRateMenuItems[wxID_BANDWIDTH_3200M] = menu->AppendRadioItem(wxID_BANDWIDTH_3200M, "3.2M");
sampleRateMenuItems[wxID_BANDWIDTH_2400M]->Check(true);
menuBar->Append(menu, wxT("&Input Bandwidth"));
std::vector<SDRDeviceInfo *> *devs = wxGetApp().getDevices();
std::vector<SDRDeviceInfo *>::iterator devs_i;
if (devs->size() > 1) {
menu = new wxMenu;
int p = 0;
for (devs_i = devs->begin(); devs_i != devs->end(); devs_i++) {
std::string devName = (*devs_i)->getName();
if ((*devs_i)->isAvailable()) {
devName.append(": ");
devName.append((*devs_i)->getProduct());
devName.append(" [");
devName.append((*devs_i)->getSerial());
devName.append("]");
} else {
devName.append(" (In Use?)");
}
menu->AppendRadioItem(wxID_DEVICE_ID + p, devName)->Check(wxGetApp().getDevice() == p);
p++;
}
menuBar->Append(menu, wxT("Input &Device"));
}
menu = new wxMenu;
#define NUM_RATES_DEFAULT 4
int desired_rates[NUM_RATES_DEFAULT] = { 48000, 44100, 96000, 192000 };
@ -344,7 +330,6 @@ AppFrame::AppFrame() :
}
for (mdevices_i = outputDevices.begin(); mdevices_i != outputDevices.end(); mdevices_i++) {
new wxMenu;
int menu_id = wxID_AUDIO_BANDWIDTH_BASE + wxID_AUDIO_DEVICE_MULTIPLIER * mdevices_i->first;
wxMenu *subMenu = new wxMenu;
menu->AppendSubMenu(subMenu, mdevices_i->second.name, wxT("Description?"));
@ -365,6 +350,10 @@ AppFrame::AppFrame() :
}
}
sampleRateMenu = new wxMenu;
menuBar->Append(sampleRateMenu, wxT("&Input Bandwidth"));
menuBar->Append(menu, wxT("Audio &Bandwidth"));
SetMenuBar(menuBar);
@ -414,7 +403,10 @@ AppFrame::AppFrame() :
wxAcceleratorTable accel(3, entries);
SetAcceleratorTable(accel);
deviceChanged.store(false);
devInfo = NULL;
wxGetApp().deviceSelector();
// static const int attribs[] = { WX_GL_RGBA, WX_GL_DOUBLEBUFFER, 0 };
// wxLogStatus("Double-buffered display %s supported", wxGLCanvas::IsDisplaySupported(attribs) ? "is" : "not");
// ShowFullScreen(true);
@ -425,19 +417,116 @@ AppFrame::~AppFrame() {
t_FFTData->join();
}
void AppFrame::initDeviceParams(SDRDeviceInfo *devInfo) {
this->devInfo = devInfo;
deviceChanged.store(true);
}
void AppFrame::initDeviceParams(std::string deviceId) {
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(deviceId);
void AppFrame::updateDeviceParams() {
int dsMode = devConfig->getDirectSampling();
if (dsMode > 0 && dsMode <= 2) {
directSamplingMenuItems[devConfig->getDirectSampling()]->Check();
if (!deviceChanged.load()) {
return;
}
if (devConfig->getIQSwap()) {
iqSwapMenuItem->Check();
// Build settings menu
wxMenu *newSettingsMenu = new wxMenu;
newSettingsMenu->Append(wxID_SET_FREQ_OFFSET, "Frequency Offset");
if (devInfo->getRxChannel()->hasCORR()) {
newSettingsMenu->Append(wxID_SET_PPM, "Device PPM");
}
agcMenuItem = newSettingsMenu->AppendCheckItem(wxID_AGC_CONTROL, "Automatic Gain");
agcMenuItem->Check(wxGetApp().getAGCMode());
SoapySDR::ArgInfoList::const_iterator args_i;
int i = 0;
settingArgs = devInfo->getSettingsArgInfo();
for (args_i = settingArgs.begin(); args_i != settingArgs.end(); args_i++) {
SoapySDR::ArgInfo arg = (*args_i);
std::string currentVal = wxGetApp().getSDRThread()->readSetting(arg.key);
if (arg.type == SoapySDR::ArgInfo::BOOL) {
wxMenuItem *item = newSettingsMenu->AppendCheckItem(wxID_SETTINGS_BASE+i, arg.name, arg.description);
item->Check(currentVal=="true");
i++;
} else if (arg.type == SoapySDR::ArgInfo::INT) {
newSettingsMenu->Append(wxID_SETTINGS_BASE+i, arg.name, arg.description);
i++;
} else if (arg.type == SoapySDR::ArgInfo::FLOAT) {
newSettingsMenu->Append(wxID_SETTINGS_BASE+i, arg.name, arg.description);
i++;
} else if (arg.type == SoapySDR::ArgInfo::STRING) {
if (arg.options.size()) {
wxMenu *subMenu = new wxMenu;
int j = 0;
for (std::vector<std::string>::iterator str_i = arg.options.begin(); str_i != arg.options.end(); str_i++) {
std::string optName = (*str_i);
std::string displayName = optName;
if (arg.optionNames.size()) {
displayName = arg.optionNames[j];
}
wxMenuItem *item = subMenu->AppendRadioItem(wxID_SETTINGS_BASE+i, displayName);
if (currentVal == (*str_i)) {
item->Check();
}
j++;
i++;
}
newSettingsMenu->AppendSubMenu(subMenu, arg.name, arg.description);
} else {
newSettingsMenu->Append(wxID_SETTINGS_BASE+i, arg.name, arg.description);
i++;
}
}
}
settingsIdMax = wxID_SETTINGS_BASE+i;
menuBar->Replace(1, newSettingsMenu, wxT("&Settings"));
settingsMenu = newSettingsMenu;
// Build sample rate menu
sampleRates = devInfo->getRxChannel()->getSampleRates();
sampleRateMenuItems.erase(sampleRateMenuItems.begin(),sampleRateMenuItems.end());
wxMenu *newSampleRateMenu = new wxMenu;
int ofs = 0;
long sampleRate = wxGetApp().getSampleRate();
bool checked = false;
for (vector<long>::iterator i = sampleRates.begin(); i != sampleRates.end(); i++) {
sampleRateMenuItems[wxID_BANDWIDTH_BASE+ofs] = newSampleRateMenu->AppendRadioItem(wxID_BANDWIDTH_BASE+ofs, frequencyToStr(*i));
if (sampleRate == (*i)) {
sampleRateMenuItems[wxID_BANDWIDTH_BASE+ofs]->Check(true);
checked = true;
}
ofs++;
}
sampleRateMenuItems[wxID_BANDWIDTH_MANUAL] = newSampleRateMenu->AppendRadioItem(wxID_BANDWIDTH_MANUAL, wxT("Manual Entry"));
if (!checked) {
sampleRateMenuItems[wxID_BANDWIDTH_MANUAL]->Check(true);
}
menuBar->Replace(4, newSampleRateMenu, wxT("&Input Bandwidth"));
sampleRateMenu = newSampleRateMenu;
if (!wxGetApp().getAGCMode()) {
gainSpacerItem->Show(true);
gainSizerItem->Show(true);
gainSizerItem->SetMinSize(devInfo->getRxChannel()->getGains().size()*50,0);
demodTray->Layout();
gainCanvas->updateGainUI();
gainCanvas->Refresh();
gainCanvas->Refresh();
} else {
gainSpacerItem->Show(false);
gainSizerItem->Show(false);
demodTray->Layout();
}
agcMenuItem->Check(wxGetApp().getAGCMode());
deviceChanged.store(false);
}
@ -455,19 +544,41 @@ void AppFrame::OnMenu(wxCommandEvent& event) {
wxGetApp().saveConfig();
}
} else if (event.GetId() == wxID_SET_DS_OFF) {
wxGetApp().setDirectSampling(0);
wxGetApp().saveConfig();
// wxGetApp().setDirectSampling(0);
// wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SET_DS_I) {
wxGetApp().setDirectSampling(1);
wxGetApp().saveConfig();
// wxGetApp().setDirectSampling(1);
// wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SET_DS_Q) {
wxGetApp().setDirectSampling(2);
wxGetApp().saveConfig();
// wxGetApp().setDirectSampling(2);
// wxGetApp().saveConfig();
} else if (event.GetId() == wxID_SET_SWAP_IQ) {
bool swap_state = !wxGetApp().getSwapIQ();
wxGetApp().setSwapIQ(swap_state);
wxGetApp().saveConfig();
iqSwapMenuItem->Check(swap_state);
// bool swap_state = !wxGetApp().getSwapIQ();
// wxGetApp().setSwapIQ(swap_state);
// wxGetApp().saveConfig();
// iqSwapMenuItem->Check(swap_state);
} else if (event.GetId() == wxID_AGC_CONTROL) {
if (wxGetApp().getDevice() == NULL) {
agcMenuItem->Check();
return;
}
if (!wxGetApp().getAGCMode()) {
wxGetApp().setAGCMode(true);
gainSpacerItem->Show(false);
gainSizerItem->Show(false);
demodTray->Layout();
} else {
wxGetApp().setAGCMode(false);
gainSpacerItem->Show(true);
gainSizerItem->Show(true);
gainSizerItem->SetMinSize(wxGetApp().getDevice()->getRxChannel()->getGains().size()*40,0);
demodTray->Layout();
gainCanvas->updateGainUI();
gainCanvas->Refresh();
gainCanvas->Refresh();
}
} else if (event.GetId() == wxID_SDR_DEVICES) {
wxGetApp().deviceSelector();
} else if (event.GetId() == wxID_SET_PPM) {
long ofs = wxGetNumberFromUser("Frequency correction for device in PPM.\ni.e. -51 for -51 PPM\n\nNote: you can adjust PPM interactively\nby holding ALT over the frequency tuning bar.\n", "Parts per million (PPM)",
"Frequency Correction", wxGetApp().getPPM(), -1000, 1000, this);
@ -536,73 +647,99 @@ void AppFrame::OnMenu(wxCommandEvent& event) {
ThemeMgr::mgr.setTheme(COLOR_THEME_RADAR);
}
if (event.GetId() >= wxID_SETTINGS_BASE && event.GetId() < settingsIdMax) {
int setIdx = event.GetId()-wxID_SETTINGS_BASE;
int menuIdx = 0;
for (std::vector<SoapySDR::ArgInfo>::iterator arg_i = settingArgs.begin(); arg_i != settingArgs.end(); arg_i++) {
SoapySDR::ArgInfo &arg = (*arg_i);
if (arg.type == SoapySDR::ArgInfo::STRING && arg.options.size() && setIdx >= menuIdx && setIdx < menuIdx+arg.options.size()) {
int optIdx = setIdx-menuIdx;
wxGetApp().getSDRThread()->writeSetting(arg.key, arg.options[optIdx]);
break;
} else if (arg.type == SoapySDR::ArgInfo::STRING && arg.options.size()) {
menuIdx += arg.options.size();
} else if (menuIdx == setIdx) {
if (arg.type == SoapySDR::ArgInfo::BOOL) {
wxGetApp().getSDRThread()->writeSetting(arg.key, (wxGetApp().getSDRThread()->readSetting(arg.key)=="true")?"false":"true");
break;
} else if (arg.type == SoapySDR::ArgInfo::STRING) {
menuIdx++;
} else if (arg.type == SoapySDR::ArgInfo::INT) {
int currentVal;
try {
currentVal = std::stoi(wxGetApp().getSDRThread()->readSetting(arg.key));
} catch (std::invalid_argument e) {
currentVal = 0;
}
int intVal = wxGetNumberFromUser(arg.description, arg.units, arg.name, currentVal, arg.range.minimum(), arg.range.maximum(), this);
if (intVal != -1) {
wxGetApp().getSDRThread()->writeSetting(arg.key, std::to_string(intVal));
}
break;
} else if (arg.type == SoapySDR::ArgInfo::FLOAT) {
wxString floatVal = wxGetTextFromUser(arg.description, arg.name, wxGetApp().getSDRThread()->readSetting(arg.key));
try {
wxGetApp().getSDRThread()->writeSetting(arg.key, floatVal.ToStdString());
} catch (std::invalid_argument e) {
// ...
}
break;
} else {
menuIdx++;
}
} else {
menuIdx++;
}
}
}
if (event.GetId() >= wxID_THEME_DEFAULT && event.GetId() <= wxID_THEME_RADAR) {
demodTuner->Refresh();
demodModeSelector->Refresh();
waterfallSpeedMeter->Refresh();
spectrumAvgMeter->Refresh();
gainCanvas->setThemeColors();
}
switch (event.GetId()) {
case wxID_BANDWIDTH_250K:
wxGetApp().setSampleRate(250000);
break;
case wxID_BANDWIDTH_1000M:
wxGetApp().setSampleRate(1000000);
break;
case wxID_BANDWIDTH_1024M:
wxGetApp().setSampleRate(1024000);
break;
case wxID_BANDWIDTH_1500M:
wxGetApp().setSampleRate(1500000);
break;
case wxID_BANDWIDTH_1800M:
wxGetApp().setSampleRate(1800000);
break;
case wxID_BANDWIDTH_1920M:
wxGetApp().setSampleRate(1920000);
break;
case wxID_BANDWIDTH_2000M:
wxGetApp().setSampleRate(2000000);
break;
case wxID_BANDWIDTH_2048M:
wxGetApp().setSampleRate(2048000);
break;
case wxID_BANDWIDTH_2160M:
wxGetApp().setSampleRate(2160000);
break;
case wxID_BANDWIDTH_2400M:
wxGetApp().setSampleRate(2400000);
break;
case wxID_BANDWIDTH_2560M:
wxGetApp().setSampleRate(2560000);
break;
case wxID_BANDWIDTH_2880M:
wxGetApp().setSampleRate(2880000);
break;
// case wxID_BANDWIDTH_3000M:
// wxGetApp().setSampleRate(3000000);
// break;
case wxID_BANDWIDTH_3200M:
wxGetApp().setSampleRate(3200000);
case wxID_BANDWIDTH_MANUAL:
int rateHigh, rateLow;
SDRDeviceInfo *dev = wxGetApp().getDevice();
if (dev == NULL) {
break;
}
SDRDeviceChannel *chan = dev->getRxChannel();
rateLow = 2000000;
rateHigh = 30000000;
if (chan->getSampleRates().size()) {
rateLow = chan->getSampleRates()[0];
rateHigh = chan->getSampleRates()[chan->getSampleRates().size()-1];
}
long bw = wxGetNumberFromUser("\n" + dev->getName() + "\n\n "
+ "min: " + std::to_string(rateLow) + " Hz"
+ ", max: " + std::to_string(rateHigh) + " Hz\n",
"Sample Rate in Hz",
"Manual Bandwidth Entry",
wxGetApp().getSampleRate(),
rateLow,
rateHigh,
this);
if (bw != -1) {
wxGetApp().setSampleRate(bw);
}
break;
}
std::vector<SDRDeviceInfo *> *devs = wxGetApp().getDevices();
if (event.GetId() >= wxID_DEVICE_ID && event.GetId() <= wxID_DEVICE_ID + devs->size()) {
int devId = event.GetId() - wxID_DEVICE_ID;
wxGetApp().setDevice(devId);
SDRDeviceInfo *dev = (*wxGetApp().getDevices())[devId];
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(dev->getDeviceId());
int dsMode = devConfig->getDirectSampling();
if (dsMode >= 0 && dsMode <= 2) {
directSamplingMenuItems[devConfig->getDirectSampling()]->Check();
}
iqSwapMenuItem->Check(devConfig->getIQSwap());
if (event.GetId() >= wxID_BANDWIDTH_BASE && event.GetId() < wxID_BANDWIDTH_BASE+sampleRates.size()) {
wxGetApp().setSampleRate(sampleRates[event.GetId()-wxID_BANDWIDTH_BASE]);
}
if (event.GetId() >= wxID_AUDIO_BANDWIDTH_BASE) {
int evId = event.GetId();
std::vector<RtAudio::DeviceInfo>::iterator devices_i;
@ -656,11 +793,13 @@ void AppFrame::OnThread(wxCommandEvent& event) {
void AppFrame::OnIdle(wxIdleEvent& event) {
if (deviceChanged.load()) {
updateDeviceParams();
}
DemodulatorInstance *demod = wxGetApp().getDemodMgr().getLastActiveDemodulator();
if (demod) {
DemodulatorInstance *demod = wxGetApp().getDemodMgr().getLastActiveDemodulator();
if (demod->isTracking()) {
if (spectrumCanvas->getViewState()) {
long long diff = abs(demod->getFrequency() - spectrumCanvas->getCenterFrequency()) + (demod->getBandwidth()/2) + (demod->getBandwidth()/4);
@ -790,8 +929,10 @@ void AppFrame::OnIdle(wxIdleEvent& event) {
if (!demodTuner->HasFocus()) {
demodTuner->SetFocus();
}
} else if (!waterfallCanvas->HasFocus()) {
waterfallCanvas->SetFocus();
} else if (!wxGetApp().isDeviceSelectorOpen()) {
if (!waterfallCanvas->HasFocus()) {
waterfallCanvas->SetFocus();
}
}
scopeCanvas->setPPMMode(demodTuner->isAltDown());
@ -802,10 +943,10 @@ void AppFrame::OnIdle(wxIdleEvent& event) {
wxGetApp().getAudioVisualQueue()->set_max_num_items((scopeCanvas->scopeVisible()?1:0) + (scopeCanvas->spectrumVisible()?1:0));
wxGetApp().getScopeProcessor()->run();
wxGetApp().getSpectrumDistributor()->run();
// wxGetApp().getSpectrumDistributor()->run();
SpectrumVisualProcessor *proc = wxGetApp().getSpectrumProcessor();
if (spectrumAvgMeter->inputChanged()) {
float val = spectrumAvgMeter->getInputValue();
if (val < 0.01) {
@ -831,7 +972,7 @@ void AppFrame::OnIdle(wxIdleEvent& event) {
dproc->setCenterFrequency(demodWaterfallCanvas->getCenterFrequency());
SpectrumVisualProcessor *wproc = waterfallDataThread->getProcessor();
if (waterfallSpeedMeter->inputChanged()) {
float val = waterfallSpeedMeter->getInputValue();
waterfallSpeedMeter->setLevel(val);
@ -843,6 +984,7 @@ void AppFrame::OnIdle(wxIdleEvent& event) {
wproc->setView(waterfallCanvas->getViewState());
wproc->setBandwidth(waterfallCanvas->getBandwidth());
wproc->setCenterFrequency(waterfallCanvas->getCenterFrequency());
wxGetApp().getSDRPostThread()->setIQVisualRange(waterfallCanvas->getCenterFrequency(), waterfallCanvas->getBandwidth());
// waterfallCanvas->processInputQueue();
// waterfallCanvas->Refresh();
@ -856,6 +998,39 @@ void AppFrame::OnIdle(wxIdleEvent& event) {
event.RequestMore();
}
void AppFrame::OnDoubleClickSash(wxSplitterEvent& event)
{
wxWindow *a, *b;
wxSplitterWindow *w = NULL;
float g = 0.5;
if (event.GetId() == wxID_MAIN_SPLITTER) {
w = mainSplitter;
g = 12.0/37.0;
} else if (event.GetId() == wxID_VIS_SPLITTER) {
w = mainVisSplitter;
g = 7.4/37.0;
}
if (w != NULL) {
a = w->GetWindow1();
b = w->GetWindow2();
w->Unsplit();
w->SetSashGravity(g);
wxSize s = w->GetSize();
w->SplitHorizontally(a, b, int(float(s.GetHeight()) * g));
}
event.Veto();
}
void AppFrame::OnUnSplit(wxSplitterEvent& event)
{
event.Veto();
}
void AppFrame::saveSession(std::string fileName) {
DataTree s("cubicsdr_session");
DataNode *header = s.rootNode()->newChild("header");
@ -993,3 +1168,8 @@ bool AppFrame::loadSession(std::string fileName) {
return true;
}
FFTVisualDataThread *AppFrame::getWaterfallDataThread() {
return waterfallDataThread;
}

View File

@ -1,6 +1,10 @@
#pragma once
#include "wx/frame.h"
#include <wx/frame.h>
#include <wx/panel.h>
#include <wx/splitter.h>
#include <wx/sizer.h>
#include "PrimaryGLContext.h"
#include "ScopeCanvas.h"
@ -9,7 +13,9 @@
#include "MeterCanvas.h"
#include "TuningCanvas.h"
#include "ModeSelectorCanvas.h"
#include "GainCanvas.h"
#include "FFTVisualDataThread.h"
#include "SDRDeviceInfo.h"
//#include "UITestCanvas.h"
#include <map>
@ -22,6 +28,11 @@
#define wxID_SET_DS_I 2005
#define wxID_SET_DS_Q 2006
#define wxID_SET_SWAP_IQ 2007
#define wxID_SDR_DEVICES 2008
#define wxID_AGC_CONTROL 2009
#define wxID_MAIN_SPLITTER 2050
#define wxID_VIS_SPLITTER 2051
#define wxID_THEME_DEFAULT 2100
#define wxID_THEME_SHARP 2101
@ -31,20 +42,10 @@
#define wxID_THEME_HD 2105
#define wxID_THEME_RADAR 2106
#define wxID_BANDWIDTH_250K 2150
#define wxID_BANDWIDTH_1000M 2151
#define wxID_BANDWIDTH_1024M 2152
#define wxID_BANDWIDTH_1500M 2153
#define wxID_BANDWIDTH_1800M 2154
#define wxID_BANDWIDTH_1920M 2155
#define wxID_BANDWIDTH_2000M 2156
#define wxID_BANDWIDTH_2048M 2157
#define wxID_BANDWIDTH_2160M 2158
#define wxID_BANDWIDTH_2400M 2159
#define wxID_BANDWIDTH_2560M 2160
#define wxID_BANDWIDTH_2880M 2161
//#define wxID_BANDWIDTH_3000M 2162
#define wxID_BANDWIDTH_3200M 2163
#define wxID_BANDWIDTH_BASE 2150
#define wxID_BANDWIDTH_MANUAL 2200
#define wxID_SETTINGS_BASE 2300
#define wxID_DEVICE_ID 3500
@ -58,17 +59,22 @@ public:
~AppFrame();
void OnThread(wxCommandEvent& event);
void OnEventInput(wxThreadEvent& event);
void initDeviceParams(std::string deviceId);
void initDeviceParams(SDRDeviceInfo *devInfo);
void updateDeviceParams();
void saveSession(std::string fileName);
bool loadSession(std::string fileName);
FFTVisualDataThread *getWaterfallDataThread();
private:
void OnMenu(wxCommandEvent& event);
void OnClose(wxCloseEvent& event);
void OnNewWindow(wxCommandEvent& event);
void OnIdle(wxIdleEvent& event);
void OnDoubleClickSash(wxSplitterEvent& event);
void OnUnSplit(wxSplitterEvent& event);
ScopeCanvas *scopeCanvas;
SpectrumCanvas *spectrumCanvas;
WaterfallCanvas *waterfallCanvas;
@ -82,7 +88,11 @@ private:
MeterCanvas *spectrumAvgMeter;
MeterCanvas *waterfallSpeedMeter;
ModeSelectorCanvas *demodMuteButton;
GainCanvas *gainCanvas;
wxSizerItem *gainSizerItem, *gainSpacerItem;
wxSplitterWindow *mainVisSplitter, *mainSplitter;
wxBoxSizer *demodTray;
DemodulatorInstance *activeDemodulator;
std::vector<RtAudio::DeviceInfo> devices;
@ -92,13 +102,21 @@ private:
std::map<int, wxMenuItem *> sampleRateMenuItems;
std::map<int, wxMenuItem *> audioSampleRateMenuItems;
std::map<int, wxMenuItem *> directSamplingMenuItems;
wxMenuItem *iqSwapMenuItem;
wxMenuBar *menuBar;
wxMenu *sampleRateMenu;
wxMenuItem *agcMenuItem;
wxMenu *settingsMenu;
SoapySDR::ArgInfoList settingArgs;
int settingsIdMax;
std::vector<long> sampleRates;
std::string currentSessionFile;
FFTVisualDataThread *waterfallDataThread;
std::thread *t_FFTData;
SDRDeviceInfo *devInfo;
std::atomic_bool deviceChanged;
wxDECLARE_EVENT_TABLE();
};

View File

@ -13,6 +13,7 @@
#endif
#include "CubicSDR.h"
#include <iomanip>
#ifdef _OSX_APP_
#include "CoreFoundation/CoreFoundation.h"
@ -20,9 +21,101 @@
IMPLEMENT_APP(CubicSDR)
CubicSDR::CubicSDR() : appframe(NULL), m_glContext(NULL), frequency(0), offset(0), ppm(0), snap(1), sampleRate(DEFAULT_SAMPLE_RATE), directSamplingMode(0),
sdrThread(NULL), sdrPostThread(NULL), spectrumVisualThread(NULL), demodVisualThread(NULL), pipeSDRCommand(NULL), pipeSDRIQData(NULL), pipeIQVisualData(NULL), pipeAudioVisualData(NULL), t_SDR(NULL), t_PostSDR(NULL) {
#ifdef MINGW_PATCH
FILE _iob[] = { *stdin, *stdout, *stderr };
extern "C" FILE * __cdecl __iob_func(void)
{
return _iob;
}
extern "C" int __cdecl __isnan(double x)
{
return _finite(x)?0:1;
}
extern "C" int __cdecl __isnanf(float x)
{
return _finitef(x)?0:1;
}
#endif
std::string& filterChars(std::string& s, const std::string& allowed) {
s.erase(remove_if(s.begin(), s.end(), [&allowed](const char& c) {
return allowed.find(c) == std::string::npos;
}), s.end());
return s;
}
std::string frequencyToStr(long long freq) {
long double freqTemp;
freqTemp = freq;
std::string suffix("");
std::stringstream freqStr;
if (freqTemp >= 1.0e9) {
freqTemp /= 1.0e9;
freqStr << std::setprecision(10);
suffix = std::string("GHz");
} else if (freqTemp >= 1.0e6) {
freqTemp /= 1.0e6;
freqStr << std::setprecision(7);
suffix = std::string("MHz");
} else if (freqTemp >= 1.0e3) {
freqTemp /= 1.0e3;
freqStr << std::setprecision(4);
suffix = std::string("KHz");
}
freqStr << freqTemp;
freqStr << suffix;
return freqStr.str();
}
long long strToFrequency(std::string freqStr) {
std::string filterStr = filterChars(freqStr, std::string("0123456789.MKGHmkgh"));
int numLen = filterStr.find_first_not_of("0123456789.");
if (numLen == std::string::npos) {
numLen = freqStr.length();
}
std::string numPartStr = freqStr.substr(0, numLen);
std::string suffixStr = freqStr.substr(numLen);
std::stringstream numPartStream;
numPartStream.str(numPartStr);
long double freqTemp = 0;
numPartStream >> freqTemp;
if (suffixStr.length()) {
if (suffixStr.find_first_of("Gg") != std::string::npos) {
freqTemp *= 1.0e9;
} else if (suffixStr.find_first_of("Mm") != std::string::npos) {
freqTemp *= 1.0e6;
} else if (suffixStr.find_first_of("Kk") != std::string::npos) {
freqTemp *= 1.0e3;
} else if (suffixStr.find_first_of("Hh") != std::string::npos) {
// ...
}
} else if (numPartStr.find_first_of(".") != std::string::npos || freqTemp <= 3000) {
freqTemp *= 1.0e6;
}
return (long long) freqTemp;
}
CubicSDR::CubicSDR() : appframe(NULL), m_glContext(NULL), frequency(0), offset(0), ppm(0), snap(1), sampleRate(DEFAULT_SAMPLE_RATE),
sdrThread(NULL), sdrPostThread(NULL), spectrumVisualThread(NULL), demodVisualThread(NULL), pipeSDRIQData(NULL), pipeIQVisualData(NULL), pipeAudioVisualData(NULL), t_SDR(NULL), t_PostSDR(NULL) {
sampleRateInitialized.store(false);
agcMode.store(true);
}
@ -48,7 +141,8 @@ bool CubicSDR::OnInit() {
frequency = wxGetApp().getConfig()->getCenterFreq();
offset = 0;
ppm = 0;
directSamplingMode = 0;
devicesReady.store(false);
deviceSelectorOpen.store(false);
// Visual Data
spectrumVisualThread = new SpectrumVisualDataThread();
@ -57,22 +151,15 @@ bool CubicSDR::OnInit() {
pipeIQVisualData = new DemodulatorThreadInputQueue();
pipeIQVisualData->set_max_num_items(1);
spectrumDistributor.setInput(pipeIQVisualData);
pipeDemodIQVisualData = new DemodulatorThreadInputQueue();
pipeDemodIQVisualData->set_max_num_items(1);
pipeSpectrumIQVisualData = new DemodulatorThreadInputQueue();
pipeSpectrumIQVisualData->set_max_num_items(1);
pipeWaterfallIQVisualData = new DemodulatorThreadInputQueue();
pipeWaterfallIQVisualData->set_max_num_items(128);
spectrumDistributor.attachOutput(pipeDemodIQVisualData);
spectrumDistributor.attachOutput(pipeSpectrumIQVisualData);
getDemodSpectrumProcessor()->setInput(pipeDemodIQVisualData);
getSpectrumProcessor()->setInput(pipeSpectrumIQVisualData);
getSpectrumProcessor()->setInput(pipeIQVisualData);
getSpectrumProcessor()->setHideDC(true);
pipeAudioVisualData = new DemodulatorThreadOutputQueue();
pipeAudioVisualData->set_max_num_items(1);
@ -81,83 +168,35 @@ bool CubicSDR::OnInit() {
// I/Q Data
pipeSDRIQData = new SDRThreadIQDataQueue();
pipeSDRCommand = new SDRThreadCommandQueue();
pipeSDRIQData->set_max_num_items(100);
sdrThread = new SDRThread();
sdrThread->setInputQueue("SDRCommandQueue",pipeSDRCommand);
sdrThread->setOutputQueue("IQDataOutput",pipeSDRIQData);
sdrPostThread = new SDRPostThread();
// sdrPostThread->setNumVisSamples(BUF_SIZE);
sdrPostThread->setInputQueue("IQDataInput", pipeSDRIQData);
sdrPostThread->setOutputQueue("IQVisualDataOutput", pipeIQVisualData);
sdrPostThread->setOutputQueue("IQDataOutput", pipeWaterfallIQVisualData);
sdrPostThread->setOutputQueue("IQActiveDemodVisualDataOutput", pipeDemodIQVisualData);
std::vector<SDRDeviceInfo *>::iterator devs_i;
SDRThread::enumerate_rtl(&devs);
SDRDeviceInfo *dev = NULL;
if (devs.size() > 1) {
wxArrayString choices;
for (devs_i = devs.begin(); devs_i != devs.end(); devs_i++) {
std::string devName = (*devs_i)->getName();
if ((*devs_i)->isAvailable()) {
devName.append(": ");
devName.append((*devs_i)->getProduct());
devName.append(" [");
devName.append((*devs_i)->getSerial());
devName.append("]");
} else {
devName.append(" (In Use?)");
}
choices.Add(devName);
}
int devId = wxGetSingleChoiceIndex(wxT("Devices"), wxT("Choose Input Device"), choices);
if (devId == -1) { // User chose to cancel
return false;
}
dev = devs[devId];
sdrThread->setDeviceId(devId);
} else if (devs.size() == 1) {
dev = devs[0];
}
if (!dev) {
wxMessageDialog *info;
info = new wxMessageDialog(NULL, wxT("\x28\u256F\xB0\u25A1\xB0\uFF09\u256F\uFE35\x20\u253B\u2501\u253B"), wxT("RTL-SDR device not found"), wxOK | wxICON_ERROR);
info->ShowModal();
return false;
}
t_PostSDR = new std::thread(&SDRPostThread::threadMain, sdrPostThread);
t_SDR = new std::thread(&SDRThread::threadMain, sdrThread);
t_SpectrumVisual = new std::thread(&SpectrumVisualDataThread::threadMain, spectrumVisualThread);
t_DemodVisual = new std::thread(&SpectrumVisualDataThread::threadMain, demodVisualThread);
sdrEnum = new SDREnumerator();
appframe = new AppFrame();
if (dev != NULL) {
appframe->initDeviceParams(dev->getDeviceId());
DeviceConfig *devConfig = wxGetApp().getConfig()->getDevice(dev->getDeviceId());
ppm = devConfig->getPPM();
offset = devConfig->getOffset();
directSamplingMode = devConfig->getDirectSampling();
}
t_SDREnum = new std::thread(&SDREnumerator::threadMain, sdrEnum);
#ifdef __APPLE__
int main_policy;
struct sched_param main_param;
main_policy = SCHED_RR;
main_param.sched_priority = sched_get_priority_min(SCHED_RR)+2;
pthread_setschedparam(pthread_self(), main_policy, &main_param);
#endif
//#ifdef __APPLE__
// int main_policy;
// struct sched_param main_param;
//
// main_policy = SCHED_RR;
// main_param.sched_priority = sched_get_priority_min(SCHED_RR)+2;
//
// pthread_setschedparam(pthread_self(), main_policy, &main_param);
//#endif
return true;
}
@ -166,9 +205,12 @@ int CubicSDR::OnExit() {
demodMgr.terminateAll();
std::cout << "Terminating SDR thread.." << std::endl;
sdrThread->terminate();
t_SDR->join();
if (!sdrThread->isTerminated()) {
sdrThread->terminate();
if (t_SDR) {
t_SDR->join();
}
}
std::cout << "Terminating SDR post-processing thread.." << std::endl;
sdrPostThread->terminate();
t_PostSDR->join();
@ -181,7 +223,6 @@ int CubicSDR::OnExit() {
t_DemodVisual->join();
delete sdrThread;
delete t_SDR;
delete sdrPostThread;
delete t_PostSDR;
@ -191,8 +232,6 @@ int CubicSDR::OnExit() {
delete t_DemodVisual;
delete demodVisualThread;
delete pipeSDRCommand;
delete pipeIQVisualData;
delete pipeAudioVisualData;
delete pipeSDRIQData;
@ -231,17 +270,87 @@ bool CubicSDR::OnCmdLineParsed(wxCmdLineParser& parser) {
config.load();
#ifdef BUNDLE_SOAPY_MODS
if (parser.Found("l")) {
useLocalMod.store(true);
} else {
useLocalMod.store(false);
}
#else
useLocalMod.store(false);
#endif
return true;
}
void CubicSDR::deviceSelector() {
if (deviceSelectorOpen) {
deviceSelectorDialog->Raise();
deviceSelectorDialog->SetFocus();
return;
}
deviceSelectorOpen.store(true);
deviceSelectorDialog = new SDRDevicesDialog(appframe);
deviceSelectorDialog->Show();
}
void CubicSDR::addRemote(std::string remoteAddr) {
SDREnumerator::addRemote(remoteAddr);
devicesReady.store(false);
t_SDREnum = new std::thread(&SDREnumerator::threadMain, sdrEnum);
}
void CubicSDR::removeRemote(std::string remoteAddr) {
SDREnumerator::removeRemote(remoteAddr);
}
void CubicSDR::sdrThreadNotify(SDRThread::SDRThreadState state, std::string message) {
notify_busy.lock();
if (state == SDRThread::SDR_THREAD_INITIALIZED) {
appframe->initDeviceParams(getDevice());
}
if (state == SDRThread::SDR_THREAD_MESSAGE) {
notifyMessage = message;
}
if (state == SDRThread::SDR_THREAD_TERMINATED) {
t_SDR->join();
delete t_SDR;
}
if (state == SDRThread::SDR_THREAD_FAILED) {
notifyMessage = message;
// wxMessageDialog *info;
// info = new wxMessageDialog(NULL, message, wxT("Error initializing device"), wxOK | wxICON_ERROR);
// info->ShowModal();
}
//if (appframe) { appframe->SetStatusText(message); }
notify_busy.unlock();
}
void CubicSDR::sdrEnumThreadNotify(SDREnumerator::SDREnumState state, std::string message) {
notify_busy.lock();
if (state == SDREnumerator::SDR_ENUM_MESSAGE) {
notifyMessage = message;
}
if (state == SDREnumerator::SDR_ENUM_DEVICES_READY) {
devs = SDREnumerator::enumerate_devices("", true);
devicesReady.store(true);
}
if (state == SDREnumerator::SDR_ENUM_FAILED) {
notifyMessage = message;
sdrEnum->terminate();
}
//if (appframe) { appframe->SetStatusText(message); }
notify_busy.unlock();
}
void CubicSDR::setFrequency(long long freq) {
if (freq < sampleRate / 2) {
freq = sampleRate / 2;
}
frequency = freq;
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_TUNE);
command.llong_value = freq;
pipeSDRCommand->push(command);
sdrThread->setFrequency(freq);
}
long long CubicSDR::getOffset() {
@ -250,42 +359,93 @@ long long CubicSDR::getOffset() {
void CubicSDR::setOffset(long long ofs) {
offset = ofs;
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_SET_OFFSET);
command.llong_value = ofs;
pipeSDRCommand->push(command);
SDRDeviceInfo *dev = (*getDevices())[getDevice()];
sdrThread->setOffset(offset);
SDRDeviceInfo *dev = getDevice();
config.getDevice(dev->getDeviceId())->setOffset(ofs);
}
void CubicSDR::setDirectSampling(int mode) {
directSamplingMode = mode;
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_SET_DIRECT_SAMPLING);
command.llong_value = mode;
pipeSDRCommand->push(command);
SDRDeviceInfo *dev = (*getDevices())[getDevice()];
config.getDevice(dev->getDeviceId())->setDirectSampling(mode);
}
int CubicSDR::getDirectSampling() {
return directSamplingMode;
}
void CubicSDR::setSwapIQ(bool swapIQ) {
sdrPostThread->setSwapIQ(swapIQ);
SDRDeviceInfo *dev = (*getDevices())[getDevice()];
config.getDevice(dev->getDeviceId())->setIQSwap(swapIQ);
}
bool CubicSDR::getSwapIQ() {
return sdrPostThread->getSwapIQ();
}
long long CubicSDR::getFrequency() {
return frequency;
}
void CubicSDR::setSampleRate(long long rate_in) {
sampleRate = rate_in;
sdrThread->setSampleRate(sampleRate);
setFrequency(frequency);
}
void CubicSDR::setDevice(SDRDeviceInfo *dev) {
if (!sdrThread->isTerminated()) {
sdrThread->terminate();
if (t_SDR) {
t_SDR->join();
delete t_SDR;
}
}
for (SoapySDR::Kwargs::const_iterator i = settingArgs.begin(); i != settingArgs.end(); i++) {
sdrThread->writeSetting(i->first, i->second);
}
sdrThread->setStreamArgs(streamArgs);
sdrThread->setDevice(dev);
DeviceConfig *devConfig = config.getDevice(dev->getDeviceId());
SDRDeviceChannel *chan = dev->getRxChannel();
if (chan) {
long long freqHigh, freqLow;
freqHigh = chan->getRFRange().getHigh();
freqLow = chan->getRFRange().getLow();
// upconverter settings don't like this, need to handle elsewhere..
// if (frequency > freqHigh) {
// frequency = freqHigh;
// }
// else if (frequency < freqLow) {
// frequency = freqLow;
// }
// Try for a reasonable default sample rate.
if (!sampleRateInitialized.load()) {
sampleRate = chan->getSampleRateNear(DEFAULT_SAMPLE_RATE);
sampleRateInitialized.store(true);
}
int rateHigh, rateLow;
rateHigh = rateLow = sampleRate;
if (chan->getSampleRates().size()) {
rateLow = chan->getSampleRates()[0];
rateHigh = chan->getSampleRates()[chan->getSampleRates().size()-1];
}
if (sampleRate > rateHigh) {
sampleRate = rateHigh;
} else if (sampleRate < rateLow) {
sampleRate = rateLow;
}
if (frequency < sampleRate/2) {
frequency = sampleRate/2;
}
setFrequency(frequency);
setSampleRate(sampleRate);
setPPM(devConfig->getPPM());
setOffset(devConfig->getOffset());
t_SDR = new std::thread(&SDRThread::threadMain, sdrThread);
}
}
SDRDeviceInfo *CubicSDR::getDevice() {
return sdrThread->getDevice();
}
ScopeVisualProcessor *CubicSDR::getScopeProcessor() {
return &scopeProcessor;
}
@ -298,11 +458,6 @@ SpectrumVisualProcessor *CubicSDR::getDemodSpectrumProcessor() {
return demodVisualThread->getProcessor();
}
VisualDataReDistributor<DemodulatorThreadIQData> *CubicSDR::getSpectrumDistributor() {
return &spectrumDistributor;
}
DemodulatorThreadOutputQueue* CubicSDR::getAudioVisualQueue() {
return pipeAudioVisualData;
}
@ -319,6 +474,15 @@ DemodulatorMgr &CubicSDR::getDemodMgr() {
return demodMgr;
}
SDRPostThread *CubicSDR::getSDRPostThread() {
return sdrPostThread;
}
SDRThread *CubicSDR::getSDRThread() {
return sdrThread;
}
void CubicSDR::bindDemodulator(DemodulatorInstance *demod) {
if (!demod) {
return;
@ -326,14 +490,6 @@ void CubicSDR::bindDemodulator(DemodulatorInstance *demod) {
sdrPostThread->bindDemodulator(demod);
}
void CubicSDR::setSampleRate(long long rate_in) {
sampleRate = rate_in;
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_SET_SAMPLERATE);
command.llong_value = rate_in;
pipeSDRCommand->push(command);
setFrequency(frequency);
}
long long CubicSDR::getSampleRate() {
return sampleRate;
}
@ -347,27 +503,9 @@ void CubicSDR::removeDemodulator(DemodulatorInstance *demod) {
}
std::vector<SDRDeviceInfo*>* CubicSDR::getDevices() {
return &devs;
return devs;
}
void CubicSDR::setDevice(int deviceId) {
sdrThread->setDeviceId(deviceId);
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_SET_DEVICE);
command.llong_value = deviceId;
pipeSDRCommand->push(command);
SDRDeviceInfo *dev = (*getDevices())[deviceId];
DeviceConfig *devConfig = config.getDevice(dev->getDeviceId());
setPPM(devConfig->getPPM());
setDirectSampling(devConfig->getDirectSampling());
setSwapIQ(devConfig->getIQSwap());
setOffset(devConfig->getOffset());
}
int CubicSDR::getDevice() {
return sdrThread->getDeviceId();
}
AppConfig *CubicSDR::getConfig() {
return &config;
@ -378,29 +516,20 @@ void CubicSDR::saveConfig() {
}
void CubicSDR::setPPM(int ppm_in) {
if (sdrThread->getDeviceId() < 0) {
return;
}
ppm = ppm_in;
sdrThread->setPPM(ppm);
SDRThreadCommand command(SDRThreadCommand::SDR_THREAD_CMD_SET_PPM);
command.llong_value = ppm;
pipeSDRCommand->push(command);
SDRDeviceInfo *dev = (*getDevices())[getDevice()];
config.getDevice(dev->getDeviceId())->setPPM(ppm_in);
SDRDeviceInfo *dev = getDevice();
if (dev) {
config.getDevice(dev->getDeviceId())->setPPM(ppm_in);
}
}
int CubicSDR::getPPM() {
if (sdrThread->getDeviceId() < 0) {
return 0;
SDRDeviceInfo *dev = sdrThread->getDevice();
if (dev) {
ppm = config.getDevice(dev->getDeviceId())->getPPM();
}
SDRDeviceInfo *dev = (*getDevices())[getDevice()];
SDRThreadCommand command_ppm(SDRThreadCommand::SDR_THREAD_CMD_SET_PPM);
ppm = config.getDevice(dev->getDeviceId())->getPPM();
return ppm;
}
@ -441,3 +570,57 @@ void CubicSDR::setFrequencySnap(int snap) {
int CubicSDR::getFrequencySnap() {
return snap;
}
bool CubicSDR::areDevicesReady() {
return devicesReady.load();
}
bool CubicSDR::areDevicesEnumerating() {
return !sdrEnum->isTerminated();
}
std::string CubicSDR::getNotification() {
std::string msg;
notify_busy.lock();
msg = notifyMessage;
notify_busy.unlock();
return msg;
}
void CubicSDR::setDeviceSelectorClosed() {
deviceSelectorOpen.store(false);
}
bool CubicSDR::isDeviceSelectorOpen() {
return deviceSelectorOpen.load();
}
void CubicSDR::setAGCMode(bool mode) {
agcMode.store(mode);
sdrThread->setAGCMode(mode);
}
bool CubicSDR::getAGCMode() {
return agcMode.load();
}
void CubicSDR::setGain(std::string name, float gain_in) {
sdrThread->setGain(name,gain_in);
}
float CubicSDR::getGain(std::string name) {
return sdrThread->getGain(name);
}
void CubicSDR::setStreamArgs(SoapySDR::Kwargs streamArgs_in) {
streamArgs = streamArgs_in;
}
void CubicSDR::setDeviceArgs(SoapySDR::Kwargs settingArgs_in) {
settingArgs = settingArgs_in;
}
bool CubicSDR::getUseLocalMod() {
return useLocalMod.load();
}

View File

@ -10,7 +10,12 @@
#include "PrimaryGLContext.h"
#include "ThreadQueue.h"
#include "SDRThread.h"
#ifdef USE_RTL_SDR
#include "SDRThread.h"
#else
#include "SoapySDRThread.h"
#include "SDREnumerator.h"
#endif
#include "SDRPostThread.h"
#include "AudioThread.h"
#include "DemodulatorMgr.h"
@ -21,11 +26,16 @@
#include "ScopeVisualProcessor.h"
#include "SpectrumVisualProcessor.h"
#include "SpectrumVisualDataThread.h"
#include "SDRDevices.h"
#include <wx/cmdline.h>
#define NUM_DEMODULATORS 1
std::string& filterChars(std::string& s, const std::string& allowed);
std::string frequencyToStr(long long freq);
long long strToFrequency(std::string freqStr);
class CubicSDR: public wxApp {
public:
CubicSDR();
@ -38,35 +48,36 @@ public:
virtual void OnInitCmdLine(wxCmdLineParser& parser);
virtual bool OnCmdLineParsed(wxCmdLineParser& parser);
void deviceSelector();
void sdrThreadNotify(SDRThread::SDRThreadState state, std::string message);
void sdrEnumThreadNotify(SDREnumerator::SDREnumState state, std::string message);
void setFrequency(long long freq);
long long getFrequency();
void setOffset(long long ofs);
long long getOffset();
void setDirectSampling(int mode);
int getDirectSampling();
void setSwapIQ(bool swapIQ);
bool getSwapIQ();
void setSampleRate(long long rate_in);
long long getSampleRate();
std::vector<SDRDeviceInfo *> *getDevices();
void setDevice(int deviceId);
int getDevice();
void setDevice(SDRDeviceInfo *dev);
SDRDeviceInfo * getDevice();
ScopeVisualProcessor *getScopeProcessor();
SpectrumVisualProcessor *getSpectrumProcessor();
SpectrumVisualProcessor *getDemodSpectrumProcessor();
VisualDataReDistributor<DemodulatorThreadIQData> *getSpectrumDistributor();
DemodulatorThreadOutputQueue* getAudioVisualQueue();
DemodulatorThreadInputQueue* getIQVisualQueue();
DemodulatorThreadInputQueue* getWaterfallVisualQueue();
DemodulatorThreadInputQueue* getActiveDemodVisualQueue();
DemodulatorMgr &getDemodMgr();
SDRPostThread *getSDRPostThread();
SDRThread *getSDRThread();
void bindDemodulator(DemodulatorInstance *demod);
void removeDemodulator(DemodulatorInstance *demod);
@ -82,11 +93,31 @@ public:
void showFrequencyInput(FrequencyDialog::FrequencyDialogTarget targetMode = FrequencyDialog::FDIALOG_TARGET_DEFAULT);
AppFrame *getAppFrame();
bool areDevicesReady();
bool areDevicesEnumerating();
std::string getNotification();
void addRemote(std::string remoteAddr);
void removeRemote(std::string remoteAddr);
void setDeviceSelectorClosed();
bool isDeviceSelectorOpen();
void setAGCMode(bool mode);
bool getAGCMode();
void setGain(std::string name, float gain_in);
float getGain(std::string name);
void setStreamArgs(SoapySDR::Kwargs streamArgs_in);
void setDeviceArgs(SoapySDR::Kwargs settingArgs_in);
bool getUseLocalMod();
private:
AppFrame *appframe;
AppConfig config;
PrimaryGLContext *m_glContext;
std::vector<SDRDeviceInfo *> devs;
std::vector<SDRDeviceInfo *> *devs;
DemodulatorMgr demodMgr;
@ -94,36 +125,52 @@ private:
long long offset;
int ppm, snap;
long long sampleRate;
int directSamplingMode;
std::atomic_bool agcMode;
SDRThread *sdrThread;
SDREnumerator *sdrEnum;
SDRPostThread *sdrPostThread;
SpectrumVisualDataThread *spectrumVisualThread;
SpectrumVisualDataThread *demodVisualThread;
SDRThreadCommandQueue* pipeSDRCommand;
SDRThreadIQDataQueue* pipeSDRIQData;
DemodulatorThreadInputQueue* pipeIQVisualData;
DemodulatorThreadOutputQueue* pipeAudioVisualData;
DemodulatorThreadInputQueue* pipeDemodIQVisualData;
DemodulatorThreadInputQueue* pipeSpectrumIQVisualData;
DemodulatorThreadInputQueue* pipeWaterfallIQVisualData;
DemodulatorThreadInputQueue* pipeActiveDemodIQVisualData;
ScopeVisualProcessor scopeProcessor;
VisualDataReDistributor<DemodulatorThreadIQData> spectrumDistributor;
SDRDevicesDialog *deviceSelectorDialog;
std::thread *t_SDR;
std::thread *t_PostSDR;
std::thread *t_SpectrumVisual;
std::thread *t_DemodVisual;
SoapySDR::Kwargs streamArgs;
SoapySDR::Kwargs settingArgs;
std::thread *t_SDR, *t_SDREnum, *t_PostSDR, *t_SpectrumVisual, *t_DemodVisual;
std::atomic_bool devicesReady;
std::atomic_bool deviceSelectorOpen;
std::atomic_bool sampleRateInitialized;
std::atomic_bool useLocalMod;
std::string notifyMessage;
std::mutex notify_busy;
};
#ifdef BUNDLE_SOAPY_MODS
static const wxCmdLineEntryDesc commandLineInfo [] =
{
{ wxCMD_LINE_SWITCH, "h", "help", "Command line parameter help", wxCMD_LINE_VAL_NONE, wxCMD_LINE_OPTION_HELP },
{ wxCMD_LINE_OPTION, "c", "config", "Specify a named configuration to use, i.e. '-c ham'" },
{ wxCMD_LINE_SWITCH, "l", "localmod", "Check local SoapySDR modules instead of bundled first." },
{ wxCMD_LINE_NONE }
};
#else
static const wxCmdLineEntryDesc commandLineInfo [] =
{
{ wxCMD_LINE_SWITCH, "h", "help", "Command line parameter help", wxCMD_LINE_VAL_NONE, wxCMD_LINE_OPTION_HELP },
{ wxCMD_LINE_OPTION, "c", "config", "Specify a named configuration to use, i.e. '-c ham'" },
{ wxCMD_LINE_NONE }
};
#endif
DECLARE_APP(CubicSDR)

View File

@ -27,10 +27,14 @@ const char filePathSeparator =
#define BUF_SIZE (16384*6)
#define DEFAULT_SAMPLE_RATE 2400000
#define DEFAULT_SAMPLE_RATE 2500000
#define DEFAULT_FFT_SIZE 2048
#define DEFAULT_DEMOD_TYPE 1
#define DEFAULT_DEMOD_BW 200000
#define DEFAULT_WATERFALL_LPS 30
#define CHANNELIZER_RATE_MAX 400000

View File

@ -2,7 +2,6 @@
#include "wx/clipbrd.h"
#include <sstream>
#include <iomanip>
#include "CubicSDR.h"
wxBEGIN_EVENT_TABLE(FrequencyDialog, wxDialog)
@ -37,75 +36,6 @@ FrequencyDialog::FrequencyDialog(wxWindow * parent, wxWindowID id, const wxStrin
dialogText->SetSelection(-1, -1);
}
std::string& FrequencyDialog::filterChars(std::string& s, const std::string& allowed) {
s.erase(remove_if(s.begin(), s.end(), [&allowed](const char& c) {
return allowed.find(c) == std::string::npos;
}), s.end());
return s;
}
std::string FrequencyDialog::frequencyToStr(long long freq) {
long double freqTemp;
freqTemp = freq;
std::string suffix("");
std::stringstream freqStr;
if (freqTemp >= 1.0e9) {
freqTemp /= 1.0e9;
freqStr << std::setprecision(10);
suffix = std::string("GHz");
} else if (freqTemp >= 1.0e6) {
freqTemp /= 1.0e6;
freqStr << std::setprecision(7);
suffix = std::string("MHz");
} else if (freqTemp >= 1.0e3) {
freqTemp /= 1.0e3;
freqStr << std::setprecision(4);
suffix = std::string("KHz");
}
freqStr << freqTemp;
freqStr << suffix;
return freqStr.str();
}
long long FrequencyDialog::strToFrequency(std::string freqStr) {
std::string filterStr = filterChars(freqStr, std::string("0123456789.MKGHmkgh"));
int numLen = filterStr.find_first_not_of("0123456789.");
if (numLen == std::string::npos) {
numLen = freqStr.length();
}
std::string numPartStr = freqStr.substr(0, numLen);
std::string suffixStr = freqStr.substr(numLen);
std::stringstream numPartStream;
numPartStream.str(numPartStr);
long double freqTemp = 0;
numPartStream >> freqTemp;
if (suffixStr.length()) {
if (suffixStr.find_first_of("Gg") != std::string::npos) {
freqTemp *= 1.0e9;
} else if (suffixStr.find_first_of("Mm") != std::string::npos) {
freqTemp *= 1.0e6;
} else if (suffixStr.find_first_of("Kk") != std::string::npos) {
freqTemp *= 1.0e3;
} else if (suffixStr.find_first_of("Hh") != std::string::npos) {
// ...
}
} else if (numPartStr.find_first_of(".") != std::string::npos || freqTemp <= 3000) {
freqTemp *= 1.0e6;
}
return (long long) freqTemp;
}
void FrequencyDialog::OnChar(wxKeyEvent& event) {
int c = event.GetKeyCode();

View File

@ -21,14 +21,10 @@ public:
wxTextCtrl * dialogText;
long long strToFrequency(std::string freqStr);
std::string frequencyToStr(long long freq);
private:
DemodulatorInstance *activeDemod;
void OnEnter ( wxCommandEvent &event );
void OnChar ( wxKeyEvent &event );
std::string& filterChars(std::string& s, const std::string& allowed);
FrequencyDialogTarget targetMode;
DECLARE_EVENT_TABLE()
};

View File

@ -20,7 +20,7 @@ AudioThread::AudioThread() : IOThread(),
outputDevice.store(-1);
gain.store(1.0);
boundThreads = new std::vector<AudioThread *>;
boundThreads.store(new std::vector<AudioThread *>);
}
AudioThread::~AudioThread() {

View File

@ -255,7 +255,9 @@ void DemodulatorInstance::setOutputDevice(int device_id) {
int DemodulatorInstance::getOutputDevice() {
if (currentOutputDevice == -1) {
currentOutputDevice = audioThread->getOutputDevice();
if (audioThread) {
currentOutputDevice = audioThread->getOutputDevice();
}
}
return currentOutputDevice;
@ -308,7 +310,7 @@ void DemodulatorInstance::setBandwidth(int bw) {
bw = AudioThread::deviceSampleRate[getOutputDevice()];
}
}
if (!active) {
if (!active && demodulatorPreThread != NULL) {
currentBandwidth = bw;
checkBandwidth();
demodulatorPreThread->getParams().bandwidth = currentBandwidth;

View File

@ -155,18 +155,20 @@ void DemodulatorPreThread::run() {
}
if (!initialized) {
inp->decRefCount();
continue;
}
// Requested frequency is not center, shift it into the center!
if ((params.frequency - inp->frequency) != shiftFrequency || rateChanged) {
shiftFrequency = params.frequency - inp->frequency;
if (abs(shiftFrequency) <= (int) ((double) (wxGetApp().getSampleRate() / 2) * 1.5)) {
nco_crcf_set_frequency(freqShifter, (2.0 * M_PI) * (((double) abs(shiftFrequency)) / ((double) wxGetApp().getSampleRate())));
if (abs(shiftFrequency) <= (int) ((double) (inp->sampleRate / 2) * 1.5)) {
nco_crcf_set_frequency(freqShifter, (2.0 * M_PI) * (((double) abs(shiftFrequency)) / ((double) inp->sampleRate)));
}
}
if (abs(shiftFrequency) > (int) ((double) (wxGetApp().getSampleRate() / 2) * 1.5)) {
if (abs(shiftFrequency) > (int) ((double) (inp->sampleRate / 2) * 1.5)) {
inp->decRefCount();
continue;
}

View File

@ -59,14 +59,13 @@ void DemodulatorThread::run() {
nco_crcf_pll_set_bandwidth(stereoPilot, 0.25f);
// half band filter used for side-band elimination
resamp2_cccf ssbFilt = resamp2_cccf_create(12,-0.25f,60.0f);
resamp2_crcf ssbFilt = resamp2_crcf_create(12,-0.25f,60.0f);
// Automatic IQ gain
iqAutoGain = agc_crcf_create();
agc_crcf_set_bandwidth(iqAutoGain, 0.1);
AudioThreadInput *ati_vis = new AudioThreadInput;
ati_vis->data.reserve(DEMOD_VIS_SIZE);
ReBuffer<AudioThreadInput> audioVisBuffers;
std::cout << "Demodulator thread started.." << std::endl;
@ -192,13 +191,13 @@ void DemodulatorThread::run() {
switch (demodulatorType.load()) {
case DEMOD_TYPE_LSB:
for (int i = 0; i < bufSize; i++) { // Reject upper band
resamp2_cccf_filter_execute(ssbFilt,(*inputData)[i],&x,&y);
resamp2_crcf_filter_execute(ssbFilt,(*inputData)[i],&x,&y);
ampmodem_demodulate(demodAM, x, &demodOutputData[i]);
}
break;
case DEMOD_TYPE_USB:
for (int i = 0; i < bufSize; i++) { // Reject lower band
resamp2_cccf_filter_execute(ssbFilt,(*inputData)[i],&x,&y);
resamp2_crcf_filter_execute(ssbFilt,(*inputData)[i],&x,&y);
ampmodem_demodulate(demodAM, y, &demodOutputData[i]);
}
break;
@ -358,8 +357,8 @@ void DemodulatorThread::run() {
}
if (ati && audioVisOutputQueue != NULL && audioVisOutputQueue->empty()) {
ati_vis->busy_update.lock();
AudioThreadInput *ati_vis = audioVisBuffers.getBuffer();
ati_vis->setRefCount(1);
ati_vis->sampleRate = inp->sampleRate;
ati_vis->inputRate = inp->sampleRate;
@ -404,7 +403,6 @@ void DemodulatorThread::run() {
// std::cout << "Signal: " << agc_crcf_get_signal_level(agc) << " -- " << agc_crcf_get_rssi(agc) << "dB " << std::endl;
}
ati_vis->busy_update.unlock();
audioVisOutputQueue->push(ati_vis);
}
@ -487,7 +485,7 @@ void DemodulatorThread::run() {
firhilbf_destroy(firStereoR2C);
firhilbf_destroy(firStereoC2R);
nco_crcf_destroy(stereoPilot);
resamp2_cccf_destroy(ssbFilt);
resamp2_crcf_destroy(ssbFilt);
outputBuffers.purge();
@ -495,7 +493,7 @@ void DemodulatorThread::run() {
AudioThreadInput *dummy_vis;
audioVisOutputQueue->pop(dummy_vis);
}
delete ati_vis;
audioVisBuffers.purge();
DemodulatorThreadCommand tCmd(DemodulatorThreadCommand::DEMOD_THREAD_CMD_DEMOD_TERMINATED);
tCmd.context = this;

View File

@ -0,0 +1,267 @@
#include "SDRDevices.h"
#include <wx/textdlg.h>
#include <wx/msgdlg.h>
#include "CubicSDR.h"
SDRDevicesDialog::SDRDevicesDialog( wxWindow* parent ): devFrame( parent ) {
refresh = true;
m_addRemoteButton->Disable();
m_useSelectedButton->Disable();
m_deviceTimer.Start(250);
}
void SDRDevicesDialog::OnClose( wxCloseEvent& event ) {
wxGetApp().setDeviceSelectorClosed();
Destroy();
}
void SDRDevicesDialog::OnDeleteItem( wxTreeEvent& event ) {
event.Skip();
}
wxPGProperty *SDRDevicesDialog::addArgInfoProperty(wxPropertyGrid *pg, SoapySDR::ArgInfo arg) {
wxPGProperty *prop = NULL;
int intVal;
double floatVal;
std::vector<std::string>::iterator stringIter;
switch (arg.type) {
case SoapySDR::ArgInfo::INT:
try {
intVal = std::stoi(arg.value);
} catch (std::invalid_argument e) {
intVal = 0;
}
prop = pg->Append( new wxIntProperty(arg.name, wxPG_LABEL, intVal) );
if (arg.range.minimum() != arg.range.maximum()) {
pg->SetPropertyAttribute( prop, wxPG_ATTR_MIN, arg.range.minimum());
pg->SetPropertyAttribute( prop, wxPG_ATTR_MAX, arg.range.maximum());
}
break;
case SoapySDR::ArgInfo::FLOAT:
try {
floatVal = std::stod(arg.value);
} catch (std::invalid_argument e) {
floatVal = 0;
}
prop = pg->Append( new wxFloatProperty(arg.name, wxPG_LABEL, floatVal) );
if (arg.range.minimum() != arg.range.maximum()) {
pg->SetPropertyAttribute( prop, wxPG_ATTR_MIN, arg.range.minimum());
pg->SetPropertyAttribute( prop, wxPG_ATTR_MAX, arg.range.maximum());
}
break;
case SoapySDR::ArgInfo::BOOL:
prop = pg->Append( new wxBoolProperty(arg.name, wxPG_LABEL, (arg.value=="true")) );
break;
case SoapySDR::ArgInfo::STRING:
if (arg.options.size()) {
intVal = 0;
prop = pg->Append( new wxEnumProperty(arg.name, wxPG_LABEL) );
for (stringIter = arg.options.begin(); stringIter != arg.options.end(); stringIter++) {
std::string optName = (*stringIter);
std::string displayName = optName;
if (arg.optionNames.size()) {
displayName = arg.optionNames[intVal];
}
prop->AddChoice(displayName);
if ((*stringIter)==arg.value) {
prop->SetChoiceSelection(intVal);
}
intVal++;
}
} else {
prop = pg->Append( new wxStringProperty(arg.name, wxPG_LABEL, arg.value) );
}
break;
}
if (prop != NULL) {
prop->SetHelpString(arg.key + ": " + arg.description);
}
return prop;
}
void SDRDevicesDialog::OnSelectionChanged( wxTreeEvent& event ) {
wxTreeItemId selId = devTree->GetSelection();
dev = getSelectedDevice(selId);
props.erase(props.begin(), props.end());
if (dev) {
m_propertyGrid->Clear();
m_propertyGrid->Append(new wxPropertyCategory("Run-time Settings"));
SoapySDR::ArgInfoList::const_iterator args_i;
SoapySDR::ArgInfoList args = dev->getSettingsArgInfo();
for (args_i = args.begin(); args_i != args.end(); args_i++) {
SoapySDR::ArgInfo arg = (*args_i);
props.push_back(addArgInfoProperty(m_propertyGrid, arg));
}
if (dev->getRxChannel()) {
args = dev->getRxChannel()->getStreamArgsInfo();
if (args.size()) {
m_propertyGrid->Append(new wxPropertyCategory("Stream Settings"));
for (args_i = args.begin(); args_i != args.end(); args_i++) {
SoapySDR::ArgInfo arg = (*args_i);
props.push_back(addArgInfoProperty(m_propertyGrid, arg));
}
}
}
}
event.Skip();
}
void SDRDevicesDialog::OnAddRemote( wxMouseEvent& event ) {
if (!SDREnumerator::hasRemoteModule()) {
wxMessageDialog *info;
info = new wxMessageDialog(NULL, wxT("Install SoapyRemote module to add remote servers.\n\nhttps://github.com/pothosware/SoapyRemote"), wxT("SoapyRemote not found."), wxOK | wxICON_ERROR);
info->ShowModal();
return;
}
wxString remoteAddr =
wxGetTextFromUser("Remote Address (address[:port])\n\ni.e. 'raspberrypi.local', '192.168.1.103:1234'\n","SoapySDR Remote Address", "", this);
if (!remoteAddr.Trim().empty()) {
wxGetApp().addRemote(remoteAddr.Trim().ToStdString());
}
devTree->Disable();
m_addRemoteButton->Disable();
m_useSelectedButton->Disable();
refresh = true;
}
SDRDeviceInfo *SDRDevicesDialog::getSelectedDevice(wxTreeItemId selId) {
devItems_i = devItems.find(selId);
if (devItems_i != devItems.end()) {
return devItems[selId];
}
return NULL;
}
void SDRDevicesDialog::OnUseSelected( wxMouseEvent& event ) {
wxTreeItemId selId = devTree->GetSelection();
dev = getSelectedDevice(selId);
if (dev != NULL) {
int i = 0;
SoapySDR::ArgInfoList::const_iterator args_i;
SoapySDR::ArgInfoList args = dev->getSettingsArgInfo();
SoapySDR::Kwargs settingArgs;
SoapySDR::Kwargs streamArgs;
for (args_i = args.begin(); args_i != args.end(); args_i++) {
SoapySDR::ArgInfo arg = (*args_i);
wxPGProperty *prop = props[i];
if (arg.type == SoapySDR::ArgInfo::STRING && arg.options.size()) {
settingArgs[arg.key] = arg.options[prop->GetChoiceSelection()];
} else if (arg.type == SoapySDR::ArgInfo::BOOL) {
settingArgs[arg.key] = (prop->GetValueAsString()=="True")?"true":"false";
} else {
settingArgs[arg.key] = prop->GetValueAsString();
}
i++;
}
if (dev->getRxChannel()) {
args = dev->getRxChannel()->getStreamArgsInfo();
if (args.size()) {
for (args_i = args.begin(); args_i != args.end(); args_i++) {
SoapySDR::ArgInfo arg = (*args_i);
wxPGProperty *prop = props[i];
if (arg.type == SoapySDR::ArgInfo::STRING && arg.options.size()) {
streamArgs[arg.key] = arg.options[prop->GetChoiceSelection()];
} else if (arg.type == SoapySDR::ArgInfo::BOOL) {
streamArgs[arg.key] = (prop->GetValueAsString()=="True")?"true":"false";
} else {
streamArgs[arg.key] = prop->GetValueAsString();
}
i++;
}
}
}
wxGetApp().setDeviceArgs(settingArgs);
wxGetApp().setStreamArgs(streamArgs);
wxGetApp().setDevice(dev);
Close();
}
}
void SDRDevicesDialog::OnTreeDoubleClick( wxMouseEvent& event ) {
OnUseSelected(event);
}
void SDRDevicesDialog::OnDeviceTimer( wxTimerEvent& event ) {
if (refresh) {
if (wxGetApp().areDevicesEnumerating() || !wxGetApp().areDevicesReady()) {
std::string msg = wxGetApp().getNotification();
devStatusBar->SetStatusText(msg);
devTree->DeleteAllItems();
devTree->AddRoot(msg);
event.Skip();
return;
}
devTree->DeleteAllItems();
wxTreeItemId devRoot = devTree->AddRoot("Devices");
wxTreeItemId localBranch = devTree->AppendItem(devRoot, "Local");
wxTreeItemId remoteBranch = devTree->AppendItem(devRoot, "Remote");
devs[""] = SDREnumerator::enumerate_devices("",true);
if (devs[""] != NULL) {
for (devs_i = devs[""]->begin(); devs_i != devs[""]->end(); devs_i++) {
devItems[devTree->AppendItem(localBranch, (*devs_i)->getName())] = (*devs_i);
}
}
std::vector<std::string> remotes = SDREnumerator::getRemotes();
std::vector<std::string>::iterator remotes_i;
std::vector<SDRDeviceInfo *>::iterator remoteDevs_i;
if (remotes.size()) {
for (remotes_i = remotes.begin(); remotes_i != remotes.end(); remotes_i++) {
devs[*remotes_i] = SDREnumerator::enumerate_devices(*remotes_i, true);
wxTreeItemId remoteNode = devTree->AppendItem(remoteBranch, *remotes_i);
if (devs[*remotes_i] != NULL) {
for (remoteDevs_i = devs[*remotes_i]->begin(); remoteDevs_i != devs[*remotes_i]->end(); remoteDevs_i++) {
devItems[devTree->AppendItem(remoteNode, (*remoteDevs_i)->getName())] = (*remoteDevs_i);
}
}
}
}
m_addRemoteButton->Enable();
m_useSelectedButton->Enable();
devTree->Enable();
devTree->ExpandAll();
devStatusBar->SetStatusText("Ready.");
refresh = false;
}
}

View File

@ -0,0 +1,945 @@
<?xml version="1.0" encoding="UTF-8" standalone="yes" ?>
<wxFormBuilder_Project>
<FileVersion major="1" minor="13" />
<object class="Project" expanded="1">
<property name="class_decoration"></property>
<property name="code_generation">C++</property>
<property name="disconnect_events">1</property>
<property name="disconnect_mode">source_name</property>
<property name="disconnect_php_events">0</property>
<property name="disconnect_python_events">0</property>
<property name="embedded_files_path">res</property>
<property name="encoding">UTF-8</property>
<property name="event_generation">connect</property>
<property name="file">SDRDevicesForm</property>
<property name="first_id">1000</property>
<property name="help_provider">none</property>
<property name="internationalize">0</property>
<property name="name">SDRDevicesForm</property>
<property name="namespace"></property>
<property name="path">.</property>
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<property name="skip_lua_events">1</property>
<property name="skip_php_events">1</property>
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<property name="ui_table">UI</property>
<property name="use_enum">0</property>
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<object class="Frame" expanded="1">
<property name="aui_managed">0</property>
<property name="aui_manager_style">wxAUI_MGR_DEFAULT</property>
<property name="bg"></property>
<property name="center">wxBOTH</property>
<property name="context_help"></property>
<property name="context_menu">1</property>
<property name="enabled">1</property>
<property name="event_handler">impl_virtual</property>
<property name="extra_style"></property>
<property name="fg"></property>
<property name="font"></property>
<property name="hidden">0</property>
<property name="id">wxID_ANY</property>
<property name="maximum_size"></property>
<property name="minimum_size"></property>
<property name="name">devFrame</property>
<property name="pos"></property>
<property name="size">700,467</property>
<property name="style">wxDEFAULT_FRAME_STYLE</property>
<property name="subclass"></property>
<property name="title">CubicSDR :: SDR Devices</property>
<property name="tooltip"></property>
<property name="window_extra_style"></property>
<property name="window_name"></property>
<property name="window_style">wxTAB_TRAVERSAL</property>
<property name="xrc_skip_sizer">1</property>
<event name="OnActivate"></event>
<event name="OnActivateApp"></event>
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<event name="OnAuiPaneButton"></event>
<event name="OnAuiPaneClose"></event>
<event name="OnAuiPaneMaximize"></event>
<event name="OnAuiPaneRestore"></event>
<event name="OnAuiRender"></event>
<event name="OnChar"></event>
<event name="OnClose">OnClose</event>
<event name="OnEnterWindow"></event>
<event name="OnEraseBackground"></event>
<event name="OnHibernate"></event>
<event name="OnIconize"></event>
<event name="OnIdle"></event>
<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp"></event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
<object class="wxStatusBar" expanded="1">
<property name="bg"></property>
<property name="context_help"></property>
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<property name="minimum_size"></property>
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<event name="OnKeyDown"></event>
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<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
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<event name="OnLeftDown"></event>
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<event name="OnMiddleDown"></event>
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<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
</object>
<object class="wxBoxSizer" expanded="1">
<property name="minimum_size"></property>
<property name="name">devFrameSizer</property>
<property name="orient">wxVERTICAL</property>
<property name="permission">none</property>
<object class="sizeritem" expanded="1">
<property name="border">5</property>
<property name="flag">wxEXPAND | wxALL</property>
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<object class="wxPanel" expanded="1">
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<property name="fg"></property>
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<property name="gripper">0</property>
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<property name="max_size"></property>
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<property name="min_size"></property>
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<event name="OnKillFocus"></event>
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<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp"></event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
<object class="wxBoxSizer" expanded="1">
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<event name="OnTreeBeginDrag"></event>
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<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp"></event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
<object class="wxBoxSizer" expanded="1">
<property name="minimum_size"></property>
<property name="name">bSizer5</property>
<property name="orient">wxHORIZONTAL</property>
<property name="permission">none</property>
<object class="sizeritem" expanded="0">
<property name="border">5</property>
<property name="flag">wxALL</property>
<property name="proportion">1</property>
<object class="wxButton" expanded="0">
<property name="BottomDockable">1</property>
<property name="LeftDockable">1</property>
<property name="RightDockable">1</property>
<property name="TopDockable">1</property>
<property name="aui_layer"></property>
<property name="aui_name"></property>
<property name="aui_position"></property>
<property name="aui_row"></property>
<property name="best_size"></property>
<property name="bg"></property>
<property name="caption"></property>
<property name="caption_visible">1</property>
<property name="center_pane">0</property>
<property name="close_button">1</property>
<property name="context_help"></property>
<property name="context_menu">1</property>
<property name="default">0</property>
<property name="default_pane">0</property>
<property name="dock">Dock</property>
<property name="dock_fixed">0</property>
<property name="docking">Left</property>
<property name="enabled">1</property>
<property name="fg"></property>
<property name="floatable">1</property>
<property name="font"></property>
<property name="gripper">0</property>
<property name="hidden">0</property>
<property name="id">wxID_ANY</property>
<property name="label">Add Remote</property>
<property name="max_size"></property>
<property name="maximize_button">0</property>
<property name="maximum_size"></property>
<property name="min_size"></property>
<property name="minimize_button">0</property>
<property name="minimum_size"></property>
<property name="moveable">1</property>
<property name="name">m_addRemoteButton</property>
<property name="pane_border">1</property>
<property name="pane_position"></property>
<property name="pane_size"></property>
<property name="permission">protected</property>
<property name="pin_button">1</property>
<property name="pos"></property>
<property name="resize">Resizable</property>
<property name="show">1</property>
<property name="size"></property>
<property name="style"></property>
<property name="subclass"></property>
<property name="toolbar_pane">0</property>
<property name="tooltip"></property>
<property name="validator_data_type"></property>
<property name="validator_style">wxFILTER_NONE</property>
<property name="validator_type">wxDefaultValidator</property>
<property name="validator_variable"></property>
<property name="window_extra_style"></property>
<property name="window_name"></property>
<property name="window_style"></property>
<event name="OnButtonClick"></event>
<event name="OnChar"></event>
<event name="OnEnterWindow"></event>
<event name="OnEraseBackground"></event>
<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp">OnAddRemote</event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
</object>
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<object class="sizeritem" expanded="0">
<property name="border">5</property>
<property name="flag">wxALL|wxALIGN_CENTER_VERTICAL</property>
<property name="proportion">1</property>
<object class="wxButton" expanded="0">
<property name="BottomDockable">1</property>
<property name="LeftDockable">1</property>
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<property name="TopDockable">1</property>
<property name="aui_layer"></property>
<property name="aui_name"></property>
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<property name="aui_row"></property>
<property name="best_size"></property>
<property name="bg"></property>
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<property name="close_button">1</property>
<property name="context_help"></property>
<property name="context_menu">1</property>
<property name="default">0</property>
<property name="default_pane">0</property>
<property name="dock">Dock</property>
<property name="dock_fixed">0</property>
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<property name="enabled">1</property>
<property name="fg"></property>
<property name="floatable">1</property>
<property name="font"></property>
<property name="gripper">0</property>
<property name="hidden">0</property>
<property name="id">wxID_ANY</property>
<property name="label">Use Selected</property>
<property name="max_size"></property>
<property name="maximize_button">0</property>
<property name="maximum_size"></property>
<property name="min_size"></property>
<property name="minimize_button">0</property>
<property name="minimum_size"></property>
<property name="moveable">1</property>
<property name="name">m_useSelectedButton</property>
<property name="pane_border">1</property>
<property name="pane_position"></property>
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<property name="permission">protected</property>
<property name="pin_button">1</property>
<property name="pos"></property>
<property name="resize">Resizable</property>
<property name="show">1</property>
<property name="size"></property>
<property name="style"></property>
<property name="subclass"></property>
<property name="toolbar_pane">0</property>
<property name="tooltip"></property>
<property name="validator_data_type"></property>
<property name="validator_style">wxFILTER_NONE</property>
<property name="validator_type">wxDefaultValidator</property>
<property name="validator_variable"></property>
<property name="window_extra_style"></property>
<property name="window_name"></property>
<property name="window_style"></property>
<event name="OnButtonClick"></event>
<event name="OnChar"></event>
<event name="OnEnterWindow"></event>
<event name="OnEraseBackground"></event>
<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp">OnUseSelected</event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
</object>
</object>
</object>
</object>
</object>
</object>
</object>
</object>
<object class="sizeritem" expanded="1">
<property name="border">5</property>
<property name="flag">wxEXPAND | wxALL</property>
<property name="proportion">1</property>
<object class="wxPanel" expanded="1">
<property name="BottomDockable">1</property>
<property name="LeftDockable">1</property>
<property name="RightDockable">1</property>
<property name="TopDockable">1</property>
<property name="aui_layer"></property>
<property name="aui_name"></property>
<property name="aui_position"></property>
<property name="aui_row"></property>
<property name="best_size"></property>
<property name="bg"></property>
<property name="caption"></property>
<property name="caption_visible">1</property>
<property name="center_pane">0</property>
<property name="close_button">1</property>
<property name="context_help"></property>
<property name="context_menu">1</property>
<property name="default_pane">0</property>
<property name="dock">Dock</property>
<property name="dock_fixed">0</property>
<property name="docking">Left</property>
<property name="enabled">1</property>
<property name="fg"></property>
<property name="floatable">1</property>
<property name="font"></property>
<property name="gripper">0</property>
<property name="hidden">0</property>
<property name="id">wxID_ANY</property>
<property name="max_size"></property>
<property name="maximize_button">0</property>
<property name="maximum_size"></property>
<property name="min_size"></property>
<property name="minimize_button">0</property>
<property name="minimum_size"></property>
<property name="moveable">1</property>
<property name="name">m_panel61</property>
<property name="pane_border">1</property>
<property name="pane_position"></property>
<property name="pane_size"></property>
<property name="permission">protected</property>
<property name="pin_button">1</property>
<property name="pos"></property>
<property name="resize">Resizable</property>
<property name="show">1</property>
<property name="size"></property>
<property name="subclass"></property>
<property name="toolbar_pane">0</property>
<property name="tooltip"></property>
<property name="window_extra_style"></property>
<property name="window_name"></property>
<property name="window_style">wxTAB_TRAVERSAL</property>
<event name="OnChar"></event>
<event name="OnEnterWindow"></event>
<event name="OnEraseBackground"></event>
<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp"></event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
<object class="wxBoxSizer" expanded="1">
<property name="minimum_size"></property>
<property name="name">bSizer7</property>
<property name="orient">wxVERTICAL</property>
<property name="permission">none</property>
<object class="sizeritem" expanded="1">
<property name="border">5</property>
<property name="flag">wxALL</property>
<property name="proportion">0</property>
<object class="wxStaticText" expanded="1">
<property name="BottomDockable">1</property>
<property name="LeftDockable">1</property>
<property name="RightDockable">1</property>
<property name="TopDockable">1</property>
<property name="aui_layer"></property>
<property name="aui_name"></property>
<property name="aui_position"></property>
<property name="aui_row"></property>
<property name="best_size"></property>
<property name="bg"></property>
<property name="caption"></property>
<property name="caption_visible">1</property>
<property name="center_pane">0</property>
<property name="close_button">1</property>
<property name="context_help"></property>
<property name="context_menu">1</property>
<property name="default_pane">0</property>
<property name="dock">Dock</property>
<property name="dock_fixed">0</property>
<property name="docking">Left</property>
<property name="enabled">1</property>
<property name="fg"></property>
<property name="floatable">1</property>
<property name="font"></property>
<property name="gripper">0</property>
<property name="hidden">0</property>
<property name="id">wxID_ANY</property>
<property name="label">SoapySDR Device Options</property>
<property name="max_size"></property>
<property name="maximize_button">0</property>
<property name="maximum_size"></property>
<property name="min_size"></property>
<property name="minimize_button">0</property>
<property name="minimum_size"></property>
<property name="moveable">1</property>
<property name="name">m_staticText1</property>
<property name="pane_border">1</property>
<property name="pane_position"></property>
<property name="pane_size"></property>
<property name="permission">protected</property>
<property name="pin_button">1</property>
<property name="pos"></property>
<property name="resize">Resizable</property>
<property name="show">1</property>
<property name="size"></property>
<property name="style"></property>
<property name="subclass"></property>
<property name="toolbar_pane">0</property>
<property name="tooltip"></property>
<property name="window_extra_style"></property>
<property name="window_name"></property>
<property name="window_style"></property>
<property name="wrap">-1</property>
<event name="OnChar"></event>
<event name="OnEnterWindow"></event>
<event name="OnEraseBackground"></event>
<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp"></event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
</object>
</object>
<object class="sizeritem" expanded="1">
<property name="border">5</property>
<property name="flag">wxALL|wxEXPAND</property>
<property name="proportion">1</property>
<object class="wxPropertyGrid" expanded="1">
<property name="BottomDockable">1</property>
<property name="LeftDockable">1</property>
<property name="RightDockable">1</property>
<property name="TopDockable">1</property>
<property name="aui_layer"></property>
<property name="aui_name"></property>
<property name="aui_position"></property>
<property name="aui_row"></property>
<property name="best_size"></property>
<property name="bg"></property>
<property name="bitmap"></property>
<property name="caption"></property>
<property name="caption_visible">1</property>
<property name="center_pane">0</property>
<property name="close_button">1</property>
<property name="context_help"></property>
<property name="context_menu">1</property>
<property name="default_pane">0</property>
<property name="dock">Dock</property>
<property name="dock_fixed">0</property>
<property name="docking">Left</property>
<property name="enabled">1</property>
<property name="extra_style"></property>
<property name="fg"></property>
<property name="floatable">1</property>
<property name="font"></property>
<property name="gripper">0</property>
<property name="hidden">0</property>
<property name="id">wxID_ANY</property>
<property name="include_advanced">1</property>
<property name="max_size"></property>
<property name="maximize_button">0</property>
<property name="maximum_size"></property>
<property name="min_size"></property>
<property name="minimize_button">0</property>
<property name="minimum_size"></property>
<property name="moveable">1</property>
<property name="name">m_propertyGrid</property>
<property name="pane_border">1</property>
<property name="pane_position"></property>
<property name="pane_size"></property>
<property name="permission">protected</property>
<property name="pin_button">1</property>
<property name="pos"></property>
<property name="resize">Resizable</property>
<property name="show">1</property>
<property name="size"></property>
<property name="style">wxPG_DEFAULT_STYLE</property>
<property name="subclass"></property>
<property name="toolbar_pane">0</property>
<property name="tooltip"></property>
<property name="window_extra_style"></property>
<property name="window_name"></property>
<property name="window_style"></property>
<event name="OnChar"></event>
<event name="OnEnterWindow"></event>
<event name="OnEraseBackground"></event>
<event name="OnKeyDown"></event>
<event name="OnKeyUp"></event>
<event name="OnKillFocus"></event>
<event name="OnLeaveWindow"></event>
<event name="OnLeftDClick"></event>
<event name="OnLeftDown"></event>
<event name="OnLeftUp"></event>
<event name="OnMiddleDClick"></event>
<event name="OnMiddleDown"></event>
<event name="OnMiddleUp"></event>
<event name="OnMotion"></event>
<event name="OnMouseEvents"></event>
<event name="OnMouseWheel"></event>
<event name="OnPaint"></event>
<event name="OnPropertyGridChanged"></event>
<event name="OnPropertyGridChanging"></event>
<event name="OnRightDClick"></event>
<event name="OnRightDown"></event>
<event name="OnRightUp"></event>
<event name="OnSetFocus"></event>
<event name="OnSize"></event>
<event name="OnUpdateUI"></event>
</object>
</object>
</object>
</object>
</object>
</object>
</object>
</object>
</object>
<object class="wxTimer" expanded="1">
<property name="enabled">0</property>
<property name="id">wxID_ANY</property>
<property name="name">m_deviceTimer</property>
<property name="oneshot">0</property>
<property name="period">5000</property>
<property name="permission">protected</property>
<event name="OnTimer">OnDeviceTimer</event>
</object>
</object>
</object>
</wxFormBuilder_Project>

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@ -0,0 +1,34 @@
#pragma once
#include <map>
#include <vector>
#include "SDRDevices.h"
#include "SDRDevicesForm.h"
#include "SoapySDRThread.h"
#include "SDREnumerator.h"
class SDRDevicesDialog: public devFrame {
public:
SDRDevicesDialog( wxWindow* parent );
void OnClose( wxCloseEvent& event );
void OnDeleteItem( wxTreeEvent& event );
void OnSelectionChanged( wxTreeEvent& event );
void OnAddRemote( wxMouseEvent& event );
void OnUseSelected( wxMouseEvent& event );
void OnTreeDoubleClick( wxMouseEvent& event );
void OnDeviceTimer( wxTimerEvent& event );
private:
SDRDeviceInfo *getSelectedDevice(wxTreeItemId selId);
wxPGProperty *addArgInfoProperty(wxPropertyGrid *pg, SoapySDR::ArgInfo arg);
bool refresh;
std::map<std::string, std::vector<SDRDeviceInfo *>* > devs;
std::vector<SDRDeviceInfo *>::iterator devs_i;
std::map<wxTreeItemId, SDRDeviceInfo *> devItems;
std::map<wxTreeItemId, SDRDeviceInfo *>::iterator devItems_i;
SDRDeviceInfo *dev = NULL;
std::vector<wxPGProperty *> props;
};

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///////////////////////////////////////////////////////////////////////////
// C++ code generated with wxFormBuilder (version Aug 23 2015)
// http://www.wxformbuilder.org/
//
// PLEASE DO "NOT" EDIT THIS FILE!
///////////////////////////////////////////////////////////////////////////
#include "SDRDevicesForm.h"
///////////////////////////////////////////////////////////////////////////
devFrame::devFrame( wxWindow* parent, wxWindowID id, const wxString& title, const wxPoint& pos, const wxSize& size, long style ) : wxFrame( parent, id, title, pos, size, style )
{
this->SetSizeHints( wxDefaultSize, wxDefaultSize );
devStatusBar = this->CreateStatusBar( 1, wxST_SIZEGRIP, wxID_ANY );
wxBoxSizer* devFrameSizer;
devFrameSizer = new wxBoxSizer( wxVERTICAL );
m_panel3 = new wxPanel( this, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTAB_TRAVERSAL );
wxBoxSizer* bSizer4;
bSizer4 = new wxBoxSizer( wxHORIZONTAL );
m_panel6 = new wxPanel( m_panel3, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTAB_TRAVERSAL );
wxBoxSizer* bSizer6;
bSizer6 = new wxBoxSizer( wxVERTICAL );
devTree = new wxTreeCtrl( m_panel6, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTR_DEFAULT_STYLE );
devTree->Enable( false );
bSizer6->Add( devTree, 1, wxEXPAND|wxALIGN_RIGHT, 5 );
m_panel4 = new wxPanel( m_panel6, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTAB_TRAVERSAL );
wxBoxSizer* bSizer5;
bSizer5 = new wxBoxSizer( wxHORIZONTAL );
m_addRemoteButton = new wxButton( m_panel4, wxID_ANY, wxT("Add Remote"), wxDefaultPosition, wxDefaultSize, 0 );
bSizer5->Add( m_addRemoteButton, 1, wxALL, 5 );
m_useSelectedButton = new wxButton( m_panel4, wxID_ANY, wxT("Use Selected"), wxDefaultPosition, wxDefaultSize, 0 );
bSizer5->Add( m_useSelectedButton, 1, wxALL|wxALIGN_CENTER_VERTICAL, 5 );
m_panel4->SetSizer( bSizer5 );
m_panel4->Layout();
bSizer5->Fit( m_panel4 );
bSizer6->Add( m_panel4, 0, wxEXPAND, 5 );
m_panel6->SetSizer( bSizer6 );
m_panel6->Layout();
bSizer6->Fit( m_panel6 );
bSizer4->Add( m_panel6, 1, wxEXPAND | wxALL, 5 );
m_panel61 = new wxPanel( m_panel3, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxTAB_TRAVERSAL );
wxBoxSizer* bSizer7;
bSizer7 = new wxBoxSizer( wxVERTICAL );
m_staticText1 = new wxStaticText( m_panel61, wxID_ANY, wxT("SoapySDR Device Options"), wxDefaultPosition, wxDefaultSize, 0 );
m_staticText1->Wrap( -1 );
bSizer7->Add( m_staticText1, 0, wxALL, 5 );
m_propertyGrid = new wxPropertyGrid(m_panel61, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxPG_DEFAULT_STYLE);
bSizer7->Add( m_propertyGrid, 1, wxALL|wxEXPAND, 5 );
m_panel61->SetSizer( bSizer7 );
m_panel61->Layout();
bSizer7->Fit( m_panel61 );
bSizer4->Add( m_panel61, 1, wxEXPAND | wxALL, 5 );
m_panel3->SetSizer( bSizer4 );
m_panel3->Layout();
bSizer4->Fit( m_panel3 );
devFrameSizer->Add( m_panel3, 1, wxEXPAND | wxALL, 5 );
this->SetSizer( devFrameSizer );
this->Layout();
m_deviceTimer.SetOwner( this, wxID_ANY );
this->Centre( wxBOTH );
// Connect Events
this->Connect( wxEVT_CLOSE_WINDOW, wxCloseEventHandler( devFrame::OnClose ) );
devTree->Connect( wxEVT_LEFT_DCLICK, wxMouseEventHandler( devFrame::OnTreeDoubleClick ), NULL, this );
devTree->Connect( wxEVT_COMMAND_TREE_DELETE_ITEM, wxTreeEventHandler( devFrame::OnDeleteItem ), NULL, this );
devTree->Connect( wxEVT_COMMAND_TREE_SEL_CHANGED, wxTreeEventHandler( devFrame::OnSelectionChanged ), NULL, this );
m_addRemoteButton->Connect( wxEVT_LEFT_UP, wxMouseEventHandler( devFrame::OnAddRemote ), NULL, this );
m_useSelectedButton->Connect( wxEVT_LEFT_UP, wxMouseEventHandler( devFrame::OnUseSelected ), NULL, this );
this->Connect( wxID_ANY, wxEVT_TIMER, wxTimerEventHandler( devFrame::OnDeviceTimer ) );
}
devFrame::~devFrame()
{
// Disconnect Events
this->Disconnect( wxEVT_CLOSE_WINDOW, wxCloseEventHandler( devFrame::OnClose ) );
devTree->Disconnect( wxEVT_LEFT_DCLICK, wxMouseEventHandler( devFrame::OnTreeDoubleClick ), NULL, this );
devTree->Disconnect( wxEVT_COMMAND_TREE_DELETE_ITEM, wxTreeEventHandler( devFrame::OnDeleteItem ), NULL, this );
devTree->Disconnect( wxEVT_COMMAND_TREE_SEL_CHANGED, wxTreeEventHandler( devFrame::OnSelectionChanged ), NULL, this );
m_addRemoteButton->Disconnect( wxEVT_LEFT_UP, wxMouseEventHandler( devFrame::OnAddRemote ), NULL, this );
m_useSelectedButton->Disconnect( wxEVT_LEFT_UP, wxMouseEventHandler( devFrame::OnUseSelected ), NULL, this );
this->Disconnect( wxID_ANY, wxEVT_TIMER, wxTimerEventHandler( devFrame::OnDeviceTimer ) );
}

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@ -0,0 +1,73 @@
///////////////////////////////////////////////////////////////////////////
// C++ code generated with wxFormBuilder (version Aug 23 2015)
// http://www.wxformbuilder.org/
//
// PLEASE DO "NOT" EDIT THIS FILE!
///////////////////////////////////////////////////////////////////////////
#ifndef __SDRDEVICESFORM_H__
#define __SDRDEVICESFORM_H__
#include <wx/artprov.h>
#include <wx/xrc/xmlres.h>
#include <wx/statusbr.h>
#include <wx/gdicmn.h>
#include <wx/font.h>
#include <wx/colour.h>
#include <wx/settings.h>
#include <wx/string.h>
#include <wx/treectrl.h>
#include <wx/button.h>
#include <wx/sizer.h>
#include <wx/panel.h>
#include <wx/stattext.h>
#include <wx/bitmap.h>
#include <wx/image.h>
#include <wx/icon.h>
#include <wx/propgrid/propgrid.h>
#include <wx/propgrid/advprops.h>
#include <wx/timer.h>
#include <wx/frame.h>
///////////////////////////////////////////////////////////////////////////
///////////////////////////////////////////////////////////////////////////////
/// Class devFrame
///////////////////////////////////////////////////////////////////////////////
class devFrame : public wxFrame
{
private:
protected:
wxStatusBar* devStatusBar;
wxPanel* m_panel3;
wxPanel* m_panel6;
wxTreeCtrl* devTree;
wxPanel* m_panel4;
wxButton* m_addRemoteButton;
wxButton* m_useSelectedButton;
wxPanel* m_panel61;
wxStaticText* m_staticText1;
wxPropertyGrid* m_propertyGrid;
wxTimer m_deviceTimer;
// Virtual event handlers, overide them in your derived class
virtual void OnClose( wxCloseEvent& event ) { event.Skip(); }
virtual void OnTreeDoubleClick( wxMouseEvent& event ) { event.Skip(); }
virtual void OnDeleteItem( wxTreeEvent& event ) { event.Skip(); }
virtual void OnSelectionChanged( wxTreeEvent& event ) { event.Skip(); }
virtual void OnAddRemote( wxMouseEvent& event ) { event.Skip(); }
virtual void OnUseSelected( wxMouseEvent& event ) { event.Skip(); }
virtual void OnDeviceTimer( wxTimerEvent& event ) { event.Skip(); }
public:
devFrame( wxWindow* parent, wxWindowID id = wxID_ANY, const wxString& title = wxT("CubicSDR :: SDR Devices"), const wxPoint& pos = wxDefaultPosition, const wxSize& size = wxSize( 700,467 ), long style = wxDEFAULT_FRAME_STYLE|wxTAB_TRAVERSAL );
~devFrame();
};
#endif //__SDRDEVICESFORM_H__

View File

@ -10,6 +10,7 @@ WaterfallPanel::WaterfallPanel() : GLPanel(), fft_size(0), waterfall_lines(0), w
void WaterfallPanel::setup(int fft_size_in, int num_waterfall_lines_in) {
waterfall_lines = num_waterfall_lines_in;
fft_size = fft_size_in;
lines_buffered.store(0);
if (points.size() != fft_size) {
points.resize(fft_size);
@ -23,6 +24,8 @@ void WaterfallPanel::setup(int fft_size_in, int num_waterfall_lines_in) {
waterfall_ofs[i] = waterfall_lines - 1;
}
texInitialized.store(false);
bufferInitialized.store(false);
}
void WaterfallPanel::refreshTheme() {
@ -52,7 +55,47 @@ void WaterfallPanel::setPoints(std::vector<float> &points) {
void WaterfallPanel::step() {
int half_fft_size = fft_size / 2;
if (!waterfall[0]) {
if (!bufferInitialized.load()) {
if (waterfall_slice != NULL) {
delete waterfall_slice;
}
waterfall_slice = new unsigned char[half_fft_size];
bufferInitialized.store(true);
}
if (!texInitialized.load()) {
return;
}
if (points.size()) {
for (int j = 0; j < 2; j++) {
for (int i = 0, iMax = half_fft_size; i < iMax; i++) {
float v = points[j * half_fft_size + i];
float wv = v < 0 ? 0 : (v > 0.99 ? 0.99 : v);
waterfall_slice[i] = (unsigned char) floor(wv * 255.0);
}
int newBufSize = (half_fft_size*lines_buffered.load()+half_fft_size);
if (lineBuffer[j].size() < newBufSize) {
lineBuffer[j].resize(newBufSize);
rLineBuffer[j].resize(newBufSize);
}
memcpy(&(lineBuffer[j][half_fft_size*lines_buffered.load()]), waterfall_slice, sizeof(unsigned char) * half_fft_size);
}
lines_buffered++;
}
}
void WaterfallPanel::update() {
int half_fft_size = fft_size / 2;
if (!bufferInitialized.load()) {
return;
}
if (!texInitialized.load()) {
glGenTextures(2, waterfall);
unsigned char *waterfall_tex;
@ -73,38 +116,42 @@ void WaterfallPanel::step() {
glTexImage2D(GL_TEXTURE_2D, 0, GL_RGB, half_fft_size, waterfall_lines, 0, GL_COLOR_INDEX, GL_UNSIGNED_BYTE, (GLvoid *) waterfall_tex);
}
if (waterfall_slice != NULL) {
delete waterfall_slice;
}
waterfall_slice = new unsigned char[half_fft_size];
delete[] waterfall_tex;
texInitialized.store(true);
}
if (points.size()) {
for (int i = 0, iMax = lines_buffered.load(); i < iMax; i++) {
for (int j = 0; j < 2; j++) {
memcpy(&(rLineBuffer[j][i*half_fft_size]),
&(lineBuffer[j][((iMax-1)*half_fft_size)-(i*half_fft_size)]), sizeof(unsigned char) * half_fft_size);
}
}
int run_ofs = 0;
while (lines_buffered.load()) {
int run_lines = lines_buffered.load();
if (run_lines > waterfall_ofs[0]) {
run_lines = waterfall_ofs[0];
}
for (int j = 0; j < 2; j++) {
for (int i = 0, iMax = half_fft_size; i < iMax; i++) {
float v = points[j * half_fft_size + i];
float wv = v < 0 ? 0 : (v > 0.99 ? 0.99 : v);
waterfall_slice[i] = (unsigned char) floor(wv * 255.0);
}
glBindTexture(GL_TEXTURE_2D, waterfall[j]);
glTexSubImage2D(GL_TEXTURE_2D, 0, 0, waterfall_ofs[j], half_fft_size, 1, GL_COLOR_INDEX, GL_UNSIGNED_BYTE, (GLvoid *) waterfall_slice);
glTexSubImage2D(GL_TEXTURE_2D, 0, 0, waterfall_ofs[j]-run_lines, half_fft_size, run_lines,
GL_COLOR_INDEX, GL_UNSIGNED_BYTE, (GLvoid *) &(rLineBuffer[j][run_ofs]));
waterfall_ofs[j]-=run_lines;
if (waterfall_ofs[j] == 0) {
waterfall_ofs[j] = waterfall_lines;
}
waterfall_ofs[j]--;
}
run_ofs += run_lines*half_fft_size;
lines_buffered.store(lines_buffered.load()-run_lines);
}
}
void WaterfallPanel::drawPanelContents() {
if (!waterfall[0]) {
if (!texInitialized.load()) {
return;
}
@ -130,7 +177,7 @@ void WaterfallPanel::drawPanelContents() {
float half_pixel = 1.0 / viewWidth;
float half_texel = 1.0 / (float) half_fft_size;
float vtexel = 1.0 / (float) waterfall_lines;
float vofs = (float) (waterfall_ofs[0] + 1) * vtexel;
float vofs = (float) (waterfall_ofs[0]) * vtexel;
glBindTexture(GL_TEXTURE_2D, waterfall[0]);
glBegin (GL_QUADS);
@ -144,7 +191,7 @@ void WaterfallPanel::drawPanelContents() {
glVertex3f(-1.0, 1.0, 0.0);
glEnd();
vofs = (float) (waterfall_ofs[1] + 1) * vtexel;
vofs = (float) (waterfall_ofs[1]) * vtexel;
glBindTexture(GL_TEXTURE_2D, waterfall[1]);
glBegin(GL_QUADS);
glTexCoord2f(0.0 + half_texel, 1.0 + vofs);

View File

@ -1,6 +1,7 @@
#pragma once
#include "GLPanel.h"
#include <atomic>
class WaterfallPanel : public GLPanel {
public:
@ -9,7 +10,8 @@ public:
void refreshTheme();
void setPoints(std::vector<float> &points);
void step();
void update();
protected:
void drawPanelContents();
@ -21,6 +23,10 @@ private:
int fft_size;
int waterfall_lines;
unsigned char *waterfall_slice;
std::vector<unsigned char> lineBuffer[2];
std::vector<unsigned char> rLineBuffer[2];
std::atomic_int lines_buffered;
std::atomic_bool texInitialized, bufferInitialized;
ColorTheme *activeTheme;
};

View File

@ -1,6 +1,7 @@
#include "FFTDataDistributor.h"
FFTDataDistributor::FFTDataDistributor() : linesPerSecond(DEFAULT_WATERFALL_LPS), lineRateAccum(0.0), fftSize(DEFAULT_FFT_SIZE) {
bufferedItems = 0;
}
void FFTDataDistributor::setFFTSize(int fftSize) {
@ -25,34 +26,44 @@ void FFTDataDistributor::process() {
if (inp) {
if (inputBuffer.sampleRate != inp->sampleRate || inputBuffer.frequency != inp->frequency) {
bufferMax = inp->sampleRate / 4;
// std::cout << "Buffer Max: " << bufferMax << std::endl;
bufferOffset = 0;
inputBuffer.sampleRate = inp->sampleRate;
inputBuffer.frequency = inp->frequency;
inputBuffer.data.assign(inp->data.begin(), inp->data.end());
} else {
inputBuffer.data.insert(inputBuffer.data.end(), inp->data.begin(), inp->data.end());
inputBuffer.data.resize(bufferMax);
}
if ((bufferOffset + bufferedItems + inp->data.size()) > bufferMax) {
memmove(&inputBuffer.data[0], &inputBuffer.data[bufferOffset], bufferedItems*sizeof(liquid_float_complex));
bufferOffset = 0;
} else {
memcpy(&inputBuffer.data[bufferOffset+bufferedItems],&inp->data[0],inp->data.size()*sizeof(liquid_float_complex));
bufferedItems += inp->data.size();
}
inp->decRefCount();
} else {
continue;
}
// number of seconds contained in input
double inputTime = (double)inputBuffer.data.size() / (double)inputBuffer.sampleRate;
double inputTime = (double)bufferedItems / (double)inputBuffer.sampleRate;
// number of lines in input
double inputLines = (double)inputBuffer.data.size()/(double)fftSize;
double inputLines = (double)bufferedItems / (double)fftSize;
// ratio required to achieve the desired rate
double lineRateStep = ((double)linesPerSecond * inputTime)/(double)inputLines;
if (inputBuffer.data.size() >= fftSize) {
if (bufferedItems >= fftSize) {
int numProcessed = 0;
if (lineRateAccum + (lineRateStep * ((double)inputBuffer.data.size()/(double)fftSize)) < 1.0) {
if (lineRateAccum + (lineRateStep * ((double)bufferedItems/(double)fftSize)) < 1.0) {
// move along, nothing to see here..
lineRateAccum += (lineRateStep * ((double)inputBuffer.data.size()/(double)fftSize));
numProcessed = inputBuffer.data.size();
lineRateAccum += (lineRateStep * ((double)bufferedItems/(double)fftSize));
numProcessed = bufferedItems;
} else {
for (int i = 0, iMax = inputBuffer.data.size(); i < iMax; i += fftSize) {
for (int i = 0, iMax = bufferedItems; i < iMax; i += fftSize) {
if ((i + fftSize) > iMax) {
break;
}
@ -62,7 +73,7 @@ void FFTDataDistributor::process() {
DemodulatorThreadIQData *outp = outputBuffers.getBuffer();
outp->frequency = inputBuffer.frequency;
outp->sampleRate = inputBuffer.sampleRate;
outp->data.assign(inputBuffer.data.begin()+i,inputBuffer.data.begin()+i+fftSize);
outp->data.assign(inputBuffer.data.begin()+bufferOffset+i,inputBuffer.data.begin()+bufferOffset+i+fftSize);
distribute(outp);
while (lineRateAccum >= 1.0) {
@ -74,8 +85,13 @@ void FFTDataDistributor::process() {
}
}
if (numProcessed) {
inputBuffer.data.erase(inputBuffer.data.begin(), inputBuffer.data.begin() + numProcessed);
}
bufferedItems -= numProcessed;
bufferOffset += numProcessed;
}
if (bufferedItems <= 0) {
bufferedItems = 0;
bufferOffset = 0;
}
}
}
}

View File

@ -3,6 +3,7 @@
#include "VisualProcessor.h"
#include "DemodDefs.h"
#include <cmath>
#include <cstring>
class FFTDataDistributor : public VisualProcessor<DemodulatorThreadIQData, DemodulatorThreadIQData> {
public:
@ -19,4 +20,5 @@ protected:
int fftSize;
int linesPerSecond;
double lineRateAccum;
int bufferMax, bufferOffset, bufferedItems;
};

View File

@ -6,6 +6,8 @@ ScopeVisualProcessor::ScopeVisualProcessor(): fftInData(NULL), fftwOutput(NULL),
scopeEnabled.store(true);
spectrumEnabled.store(true);
fft_average_rate = 0.65;
fft_ceil_ma = fft_ceil_maa = 0;
fft_floor_ma = fft_floor_maa = 0;
}
ScopeVisualProcessor::~ScopeVisualProcessor() {
@ -66,9 +68,7 @@ void ScopeVisualProcessor::process() {
audioInputData->decRefCount();
return;
}
audioInputData->busy_update.lock();
ScopeRenderData *renderData = NULL;
if (scopeEnabled) {
@ -81,7 +81,7 @@ void ScopeVisualProcessor::process() {
renderData->channels = audioInputData->channels;
renderData->inputRate = audioInputData->inputRate;
renderData->sampleRate = audioInputData->sampleRate;
if (renderData->waveform_points.size() != iMax * 2) {
renderData->waveform_points.resize(iMax * 2);
}
@ -112,12 +112,10 @@ void ScopeVisualProcessor::process() {
}
renderData->spectrum = false;
distribute(renderData);
}
if (spectrumEnabled) {
renderData = outputBuffers.getBuffer();
iMax = audioInputData->data.size();
if (audioInputData->channels==1) {
@ -138,7 +136,14 @@ void ScopeVisualProcessor::process() {
}
}
}
renderData = outputBuffers.getBuffer();
renderData->channels = audioInputData->channels;
renderData->inputRate = audioInputData->inputRate;
renderData->sampleRate = audioInputData->sampleRate;
audioInputData->decRefCount();
fftwf_execute(fftw_plan);
@ -157,9 +162,9 @@ void ScopeVisualProcessor::process() {
}
for (i = 0; i < (fftSize/2); i++) {
fft_result_maa[i] += (fft_result_ma[i] - fft_result_maa[i]) * fft_average_rate;
fft_result_ma[i] += (fft_result[i] - fft_result_ma[i]) * fft_average_rate;
fft_result_maa[i] += (fft_result_ma[i] - fft_result_maa[i]) * fft_average_rate;
if (fft_result_maa[i] > fft_ceil) {
fft_ceil = fft_result_maa[i];
}
@ -167,7 +172,7 @@ void ScopeVisualProcessor::process() {
fft_floor = fft_result_maa[i];
}
}
fft_ceil_ma = fft_ceil_ma + (fft_ceil - fft_ceil_ma) * 0.05;
fft_ceil_maa = fft_ceil_maa + (fft_ceil_ma - fft_ceil_maa) * 0.05;
@ -176,8 +181,8 @@ void ScopeVisualProcessor::process() {
int outSize = fftSize/2;
if (audioInputData->sampleRate != audioInputData->inputRate) {
outSize = (int)floor((float)outSize * ((float)audioInputData->sampleRate/(float)audioInputData->inputRate));
if (renderData->sampleRate != renderData->inputRate) {
outSize = (int)floor((float)outSize * ((float)renderData->sampleRate/(float)renderData->inputRate));
}
if (renderData->waveform_points.size() != outSize*2) {
@ -193,12 +198,10 @@ void ScopeVisualProcessor::process() {
renderData->fft_floor = fft_floor_maa;
renderData->fft_ceil = fft_ceil_maa;
renderData->fft_size = fftSize/2;
renderData->inputRate = audioInputData->inputRate;
renderData->sampleRate = audioInputData->sampleRate;
renderData->spectrum = true;
distribute(renderData);
} else {
audioInputData->decRefCount();
}
audioInputData->busy_update.unlock();
}
}

View File

@ -8,6 +8,7 @@ SpectrumVisualProcessor::SpectrumVisualProcessor() : lastInputBandwidth(0), last
fftSize.store(0);
centerFreq.store(0);
bandwidth.store(0);
hideDC.store(false);
freqShifter = nco_crcf_create(LIQUID_NCO);
shiftFrequency = 0;
@ -16,6 +17,7 @@ SpectrumVisualProcessor::SpectrumVisualProcessor() : lastInputBandwidth(0), last
fft_floor_ma = fft_floor_maa = 0.0;
desiredInputSize.store(0);
fft_average_rate = 0.65;
scaleFactor.store(1.0);
}
SpectrumVisualProcessor::~SpectrumVisualProcessor() {
@ -95,6 +97,11 @@ void SpectrumVisualProcessor::setup(int fftSize_in) {
busy_run.unlock();
}
void SpectrumVisualProcessor::setHideDC(bool hideDC) {
this->hideDC.store(hideDC);
}
void SpectrumVisualProcessor::process() {
if (!isOutputEmpty()) {
return;
@ -301,13 +308,51 @@ void SpectrumVisualProcessor::process() {
fft_floor_ma = fft_floor_ma + (fft_floor - fft_floor_ma) * 0.05;
fft_floor_maa = fft_floor_maa + (fft_floor_ma - fft_floor_maa) * 0.05;
float sf = scaleFactor.load();
for (int i = 0, iMax = fftSize; i < iMax; i++) {
float v = (log10(fft_result_maa[i]+0.25 - (fft_floor_maa-0.75)) / log10((fft_ceil_maa+0.25) - (fft_floor_maa-0.75)));
output->spectrum_points[i * 2] = ((float) i / (float) iMax);
output->spectrum_points[i * 2 + 1] = v;
output->spectrum_points[i * 2 + 1] = v*sf;
}
if (hideDC.load()) { // DC-spike removal
long long freqMin = centerFreq-(bandwidth/2);
long long freqMax = centerFreq+(bandwidth/2);
long long zeroPt = (iqData->frequency-freqMin);
if (freqMin < iqData->frequency && freqMax > iqData->frequency) {
int freqRange = int(freqMax-freqMin);
int freqStep = freqRange/fftSize;
int fftStart = (zeroPt/freqStep)-(2000/freqStep);
int fftEnd = (zeroPt/freqStep)+(2000/freqStep);
// std::cout << "range:" << freqRange << ", step: " << freqStep << ", start: " << fftStart << ", end: " << fftEnd << std::endl;
if (fftEnd-fftStart < 2) {
fftEnd++;
fftStart--;
}
int numSteps = (fftEnd-fftStart);
int halfWay = fftStart+(numSteps/2);
if ((fftEnd+numSteps/2+1 < fftSize) && (fftStart-numSteps/2-1 >= 0) && (fftEnd > fftStart)) {
int n = 1;
for (int i = fftStart; i < halfWay; i++) {
output->spectrum_points[i * 2 + 1] = output->spectrum_points[(fftStart - n) * 2 + 1];
n++;
}
n = 1;
for (int i = halfWay; i < fftEnd; i++) {
output->spectrum_points[i * 2 + 1] = output->spectrum_points[(fftEnd + n) * 2 + 1];
n++;
}
}
}
}
output->fft_ceiling = fft_ceil_maa;
output->fft_ceiling = fft_ceil_maa/sf;
output->fft_floor = fft_floor_maa;
}
@ -319,3 +364,13 @@ void SpectrumVisualProcessor::process() {
busy_run.unlock();
}
void SpectrumVisualProcessor::setScaleFactor(float sf) {
scaleFactor.store(sf);
}
float SpectrumVisualProcessor::getScaleFactor() {
return scaleFactor.load();
}

View File

@ -33,6 +33,10 @@ public:
int getDesiredInputSize();
void setup(int fftSize);
void setHideDC(bool hideDC);
void setScaleFactor(float sf);
float getScaleFactor();
protected:
void process();
@ -68,4 +72,6 @@ private:
std::vector<liquid_float_complex> resampleBuffer;
std::atomic_int desiredInputSize;
std::mutex busy_run;
std::atomic_bool hideDC;
std::atomic<float> scaleFactor;
};

View File

@ -1,4 +1,163 @@
#include "SDRDeviceInfo.h"
#include <cstdlib>
SDRDeviceRange::SDRDeviceRange() {
low = 0;
high = 0;
}
SDRDeviceRange::SDRDeviceRange(double low, double high) {
this->low = low;
this->high = high;
}
SDRDeviceRange::SDRDeviceRange(std::string name, double low, double high) : SDRDeviceRange(low, high) {
this->name = name;
}
double SDRDeviceRange::getLow() {
return low;
}
void SDRDeviceRange::setLow(double low) {
this->low = low;
}
double SDRDeviceRange::getHigh() {
return high;
}
void SDRDeviceRange::setHigh(double high) {
this->high = high;
}
std::string SDRDeviceRange::getName() {
return this->name;
}
void SDRDeviceRange::setName(std::string name) {
this->name = name;
}
SDRDeviceChannel::SDRDeviceChannel() {
hardwareDC = false;
hasCorr = false;
}
SDRDeviceChannel::~SDRDeviceChannel() {
}
int SDRDeviceChannel::getChannel() {
return channel;
}
void SDRDeviceChannel::setChannel(int channel) {
this->channel = channel;
}
bool SDRDeviceChannel::isFullDuplex() {
return fullDuplex;
}
void SDRDeviceChannel::setFullDuplex(bool fullDuplex) {
this->fullDuplex = fullDuplex;
}
bool SDRDeviceChannel::isTx() {
return tx;
}
void SDRDeviceChannel::setTx(bool tx) {
this->tx = tx;
}
bool SDRDeviceChannel::isRx() {
return rx;
}
void SDRDeviceChannel::setRx(bool rx) {
this->rx = rx;
}
SDRDeviceRange &SDRDeviceChannel::getGain() {
return rangeGain;
}
SDRDeviceRange &SDRDeviceChannel::getLNAGain() {
return rangeLNA;
}
SDRDeviceRange &SDRDeviceChannel::getFreqRange() {
return rangeFull;
}
SDRDeviceRange &SDRDeviceChannel::getRFRange() {
return rangeRF;
}
void SDRDeviceChannel::addGain(SDRDeviceRange range) {
gainInfo.push_back(range);
}
std::vector<SDRDeviceRange> &SDRDeviceChannel::getGains() {
return gainInfo;
}
void SDRDeviceChannel::addGain(std::string name, SoapySDR::Range range) {
gainInfo.push_back(SDRDeviceRange(name,range.minimum(),range.maximum()));
}
std::vector<long> &SDRDeviceChannel::getSampleRates() {
return sampleRates;
}
long SDRDeviceChannel::getSampleRateNear(long sampleRate_in) {
long returnRate = sampleRates[0];
long sDelta = (long)sampleRate_in-sampleRates[0];
long minDelta = std::abs(sDelta);
for (std::vector<long>::iterator i = sampleRates.begin(); i != sampleRates.end(); i++) {
long thisDelta = std::abs(sampleRate_in - (*i));
if (thisDelta < minDelta) {
minDelta = thisDelta;
returnRate = (*i);
}
}
return returnRate;
}
std::vector<long long> &SDRDeviceChannel::getFilterBandwidths() {
return filterBandwidths;
}
const bool& SDRDeviceChannel::hasHardwareDC() const {
return hardwareDC;
}
void SDRDeviceChannel::setHardwareDC(const bool& hardware) {
hardwareDC = hardware;
}
const bool& SDRDeviceChannel::hasCORR() const {
return hasCorr;
}
void SDRDeviceChannel::setCORR(const bool& hasCorr) {
this->hasCorr = hasCorr;
}
void SDRDeviceChannel::setStreamArgsInfo(SoapySDR::ArgInfoList streamArgs) {
streamArgInfo = streamArgs;
}
SoapySDR::ArgInfoList SDRDeviceChannel::getStreamArgsInfo() {
return streamArgInfo;
}
std::vector<std::string> SDRDeviceChannel::getStreamArgNames() {
std::vector<std::string> names;
for (SoapySDR::ArgInfoList::const_iterator i = streamArgInfo.begin(); i != streamArgInfo.end(); i++) {
names.push_back((*i).key);
}
return names;
}
SDRDeviceInfo::SDRDeviceInfo() : name(""), serial(""), available(false) {
@ -9,12 +168,20 @@ std::string SDRDeviceInfo::getDeviceId() {
std::string deviceId;
deviceId.append(getName());
deviceId.append(" :: ");
deviceId.append(getSerial());
// deviceId.append(" :: ");
// deviceId.append(getSerial());
return deviceId;
}
const int SDRDeviceInfo::getIndex() const {
return index;
}
void SDRDeviceInfo::setIndex(const int index) {
this->index = index;
}
bool SDRDeviceInfo::isAvailable() const {
return available;
}
@ -63,3 +230,88 @@ void SDRDeviceInfo::setProduct(const std::string& product) {
this->product = product;
}
const std::string& SDRDeviceInfo::getDriver() const {
return driver;
}
void SDRDeviceInfo::setDriver(const std::string& driver) {
this->driver = driver;
}
const std::string& SDRDeviceInfo::getHardware() const {
return hardware;
}
void SDRDeviceInfo::setHardware(const std::string& hardware) {
this->hardware = hardware;
}
bool SDRDeviceInfo::hasTimestamps() const {
return timestamps;
}
void SDRDeviceInfo::setTimestamps(bool timestamps) {
this->timestamps = timestamps;
}
void SDRDeviceInfo::setDeviceArgs(SoapySDR::Kwargs deviceArgs) {
this->deviceArgs = deviceArgs;
}
SoapySDR::Kwargs SDRDeviceInfo::getDeviceArgs() {
return deviceArgs;
}
void SDRDeviceInfo::setStreamArgs(SoapySDR::Kwargs streamArgs) {
this->streamArgs = streamArgs;
}
SoapySDR::Kwargs SDRDeviceInfo::getStreamArgs() {
return streamArgs;
}
void SDRDeviceInfo::setSettingsInfo(SoapySDR::ArgInfoList settingsArgs) {
settingInfo = settingsArgs;
}
SoapySDR::ArgInfoList SDRDeviceInfo::getSettingsArgInfo() {
return settingInfo;
}
std::vector<std::string> SDRDeviceInfo::getSettingNames() {
std::vector<std::string> names;
for (SoapySDR::ArgInfoList::const_iterator i = settingInfo.begin(); i != settingInfo.end(); i++) {
names.push_back((*i).key);
}
return names;
}
void SDRDeviceInfo::addChannel(SDRDeviceChannel *chan) {
channels.push_back(chan);
}
std::vector<SDRDeviceChannel *> &SDRDeviceInfo::getChannels() {
return channels;
}
SDRDeviceChannel * SDRDeviceInfo::getRxChannel() {
std::vector<SDRDeviceChannel *>::iterator channel_i;
for (channel_i = channels.begin(); channel_i != channels.end(); channel_i++) {
if ((*channel_i)->isRx()) {
return (*channel_i);
}
}
return NULL;
}
SDRDeviceChannel * SDRDeviceInfo::getTxChannel() {
std::vector<SDRDeviceChannel *>::iterator channel_i;
for (channel_i = channels.begin(); channel_i != channels.end(); channel_i++) {
if ((*channel_i)->isTx()) {
return (*channel_i);
}
}
return NULL;
}

View File

@ -1,6 +1,105 @@
#pragma once
#include <string>
#include <vector>
#include <SoapySDR/Types.hpp>
/*
----------------------------------------------------
-- Device identification
----------------------------------------------------
driver=rtl
hardware=rtl
----------------------------------------------------
-- Peripheral summary
----------------------------------------------------
Channels: 1 Rx, 0 Tx
Timestamps: NO
----------------------------------------------------
-- RX Channel 0
----------------------------------------------------
Full-duplex: YES
Antennas: RX
Full gain range: [0, 49.6] dB
LNA gain range: [0, 49.6] dB
Full freq range: [24, 1766] MHz
RF freq range: [24, 1766] MHz
CORR freq range: MHz
Sample rates: [0.25, 2.56] MHz
Filter bandwidths: [] MHz
*/
class SDRDeviceRange {
public:
SDRDeviceRange();
SDRDeviceRange(double low, double high);
SDRDeviceRange(std::string name, double low, double high);
double getLow();
void setLow(double low);
double getHigh();
void setHigh(double high);
std::string getName();
void setName(std::string name);
private:
std::string name;
double low, high;
};
class SDRDeviceChannel {
public:
SDRDeviceChannel();
~SDRDeviceChannel();
int getChannel();
void setChannel(int channel);
bool isFullDuplex();
void setFullDuplex(bool fullDuplex);
bool isTx();
void setTx(bool tx);
bool isRx();
void setRx(bool rx);
void addGain(SDRDeviceRange range);
void addGain(std::string name, SoapySDR::Range range);
std::vector<SDRDeviceRange> &getGains();
SDRDeviceRange &getGain();
SDRDeviceRange &getLNAGain();
SDRDeviceRange &getFreqRange();
SDRDeviceRange &getRFRange();
std::vector<long> &getSampleRates();
long getSampleRateNear(long sampleRate_in);
std::vector<long long> &getFilterBandwidths();
const bool& hasHardwareDC() const;
void setHardwareDC(const bool& hardware);
const bool& hasCORR() const;
void setCORR(const bool& corr);
void setStreamArgsInfo(SoapySDR::ArgInfoList streamArgs);
SoapySDR::ArgInfoList getStreamArgsInfo();
std::vector<std::string> getStreamArgNames();
private:
int channel;
bool fullDuplex, tx, rx, hardwareDC, hasCorr;
SDRDeviceRange rangeGain, rangeLNA, rangeFull, rangeRF;
std::vector<long> sampleRates;
std::vector<long long> filterBandwidths;
SoapySDR::ArgInfoList streamArgInfo;
std::vector<SDRDeviceRange> gainInfo;
};
class SDRDeviceInfo {
public:
@ -8,6 +107,9 @@ public:
std::string getDeviceId();
const int getIndex() const;
void setIndex(const int index);
bool isAvailable() const;
void setAvailable(bool available);
@ -25,12 +127,39 @@ public:
const std::string& getProduct() const;
void setProduct(const std::string& product);
const std::string& getDriver() const;
void setDriver(const std::string& driver);
const std::string& getHardware() const;
void setHardware(const std::string& hardware);
bool hasTimestamps() const;
void setTimestamps(bool timestamps);
void addChannel(SDRDeviceChannel *chan);
std::vector<SDRDeviceChannel *> &getChannels();
SDRDeviceChannel * getRxChannel();
SDRDeviceChannel * getTxChannel();
void setDeviceArgs(SoapySDR::Kwargs deviceArgs);
SoapySDR::Kwargs getDeviceArgs();
void setStreamArgs(SoapySDR::Kwargs deviceArgs);
SoapySDR::Kwargs getStreamArgs();
void setSettingsInfo(SoapySDR::ArgInfoList settingsArgs);
SoapySDR::ArgInfoList getSettingsArgInfo();
std::vector<std::string> getSettingNames();
private:
std::string name;
std::string serial;
std::string product;
std::string manufacturer;
std::string tuner;
bool available;
int index;
std::string name, serial, product, manufacturer, tuner;
std::string driver, hardware;
bool timestamps, available;
SoapySDR::Kwargs deviceArgs, streamArgs;
SoapySDR::ArgInfoList settingInfo;
std::vector<SDRDeviceChannel *> channels;
};

298
src/sdr/SDREnumerator.cpp Normal file
View File

@ -0,0 +1,298 @@
#include "SDREnumerator.h"
#include "CubicSDRDefs.h"
#include <vector>
#include "CubicSDR.h"
#include <string>
std::vector<std::string> SDREnumerator::factories;
std::vector<std::string> SDREnumerator::modules;
std::vector<std::string> SDREnumerator::remotes;
std::map< std::string, std::vector<SDRDeviceInfo *> > SDREnumerator::devs;
bool SDREnumerator::soapy_initialized = false;
bool SDREnumerator::has_remote = false;
SDREnumerator::SDREnumerator() : IOThread() {
}
SDREnumerator::~SDREnumerator() {
}
std::vector<SDRDeviceInfo *> *SDREnumerator::enumerate_devices(std::string remoteAddr, bool noInit) {
if (SDREnumerator::devs[remoteAddr].size()) {
return &SDREnumerator::devs[remoteAddr];
}
if (noInit) {
return NULL;
}
if (!soapy_initialized) {
std::cout << "SoapySDR init.." << std::endl;
std::cout << "\tAPI Version: v" << SoapySDR::getAPIVersion() << std::endl;
std::cout << "\tABI Version: v" << SoapySDR::getABIVersion() << std::endl;
std::cout << "\tInstall root: " << SoapySDR::getRootPath() << std::endl;
std::cout << "\tLoading modules... " << std::endl;
#ifdef BUNDLE_SOAPY_MODS
bool localModPref = wxGetApp().getUseLocalMod();
if (localModPref) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules..");
std::cout << "Checking local system SoapySDR modules.." << std::flush;
SoapySDR::loadModules();
}
wxFileName exePath = wxFileName(wxStandardPaths::Get().GetExecutablePath());
std::vector<std::string> localMods = SoapySDR::listModules(exePath.GetPath().ToStdString() + "/modules/");
for (std::vector<std::string>::iterator mods_i = localMods.begin(); mods_i != localMods.end(); mods_i++) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Initializing bundled SoapySDR module " + (*mods_i) + "..");
std::cout << "Loading bundled SoapySDR module " << (*mods_i) << ".." << std::endl;
SoapySDR::loadModule(*mods_i);
}
if (!localModPref) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules..");
std::cout << "Checking system SoapySDR modules.." << std::flush;
SoapySDR::loadModules();
}
#else
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Loading SoapySDR modules..");
SoapySDR::loadModules();
#endif
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "done.");
std::cout << "done." << std::endl;
// modules = SoapySDR::listModules();
// for (size_t i = 0; i < modules.size(); i++) {
// std::cout << "\tModule found: " << modules[i] << std::endl;
// }
// if (modules.empty()) {
// std::cout << "No modules found!" << std::endl;
// }
if (SDREnumerator::factories.size()) {
SDREnumerator::factories.erase(SDREnumerator::factories.begin(), SDREnumerator::factories.end());
}
std::cout << "\tAvailable factories...";
SoapySDR::FindFunctions factories = SoapySDR::Registry::listFindFunctions();
for (SoapySDR::FindFunctions::const_iterator it = factories.begin(); it != factories.end(); ++it) {
if (it != factories.begin()) {
std::cout << ", ";
}
std::cout << it->first;
if (it->first == "remote") {
has_remote = true;
}
SDREnumerator::factories.push_back(it->first);
}
if (factories.empty()) {
std::cout << "No factories found!" << std::endl;
}
std::cout << std::endl;
soapy_initialized = true;
}
std::vector<SoapySDR::Kwargs> results;
SoapySDR::Kwargs enumArgs;
bool isRemote = false;
if (remoteAddr.length()) {
std::cout << "Enumerating remote address: " << remoteAddr << std::endl;
enumArgs["driver"] = "remote";
enumArgs["remote"] = remoteAddr;
isRemote = true;
results = SoapySDR::Device::enumerate(enumArgs);
} else {
results = SoapySDR::Device::enumerate();
}
if (isRemote) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Opening remote server ") + remoteAddr + "..");
}
for (size_t i = 0; i < results.size(); i++) {
// std::cout << "Found device " << i << std::endl;
SDRDeviceInfo *dev = new SDRDeviceInfo();
SoapySDR::Kwargs deviceArgs = results[i];
for (SoapySDR::Kwargs::const_iterator it = deviceArgs.begin(); it != deviceArgs.end(); ++it) {
std::cout << " " << it->first << " = " << it->second << std::endl;
if (it->first == "driver") {
dev->setDriver(it->second);
} else if (it->first == "label" || it->first == "device") {
dev->setName(it->second);
}
}
dev->setDeviceArgs(deviceArgs);
std::cout << "Make device " << i << std::endl;
try {
SoapySDR::Device *device = SoapySDR::Device::make(dev->getDeviceArgs());
SoapySDR::Kwargs info = device->getHardwareInfo();
for (SoapySDR::Kwargs::const_iterator it = info.begin(); it != info.end(); ++it) {
std::cout << " " << it->first << "=" << it->second << std::endl;
if (it->first == "hardware") {
dev->setHardware(it->second);
}
}
int numChan = device->getNumChannels(SOAPY_SDR_RX);
for (int i = 0; i < numChan; i++) {
SDRDeviceChannel *chan = new SDRDeviceChannel();
SoapySDR::RangeList rfRange = device->getFrequencyRange(SOAPY_SDR_RX, i);
double rfMin = rfRange[0].minimum();
double rfMax = rfRange[rfRange.size()-1].maximum();
chan->setChannel(i);
chan->setFullDuplex(device->getFullDuplex(SOAPY_SDR_RX, i));
chan->setRx(true);
chan->setTx(false);
chan->getRFRange().setLow(rfMin);
chan->getRFRange().setHigh(rfMax);
std::vector<std::string> freqs = device->listFrequencies(SOAPY_SDR_RX,i);
if (std::find(freqs.begin(), freqs.end(), "CORR") != freqs.end()) {
chan->setCORR(true);
} else {
chan->setCORR(false);
}
if (device->hasDCOffsetMode(SOAPY_SDR_RX, i)) {
chan->setHardwareDC(true);
} else {
chan->setHardwareDC(false);
}
std::vector<double> rates = device->listSampleRates(SOAPY_SDR_RX, i);
for (std::vector<double>::iterator i = rates.begin(); i != rates.end(); i++) {
chan->getSampleRates().push_back((long)(*i));
}
chan->setStreamArgsInfo(device->getStreamArgsInfo(SOAPY_SDR_RX, i));
std::vector<std::string> gainNames = device->listGains(SOAPY_SDR_RX, i);
for (std::vector<std::string>::iterator gname = gainNames.begin(); gname!= gainNames.end(); gname++) {
chan->addGain((*gname),device->getGainRange(SOAPY_SDR_RX, i, (*gname)));
}
dev->addChannel(chan);
}
SoapySDR::Kwargs streamArgs;
if (isRemote) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Querying remote " + remoteAddr + " device #" + std::to_string(i));
// if (deviceArgs.count("rtl") != 0) {
// streamArgs["remote:mtu"] = "8192";
// streamArgs["remote:window"] = "16384000";
// }
double fullScale = 0;
std::string nativeFormat = device->getNativeStreamFormat(SOAPY_SDR_RX, dev->getRxChannel()->getChannel(), fullScale);
if (nativeFormat.length()) {
streamArgs["remote:format"] = nativeFormat;
}
} else {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Found local device #") + std::to_string(i));
}
dev->setStreamArgs(streamArgs);
dev->setSettingsInfo(device->getSettingInfo());
SoapySDR::Device::unmake(device);
dev->setAvailable(true);
} catch (const std::exception &ex) {
std::cerr << "Error making device: " << ex.what() << std::endl;
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Error making device #") + std::to_string(i));
dev->setAvailable(false);
}
std::cout << std::endl;
SDREnumerator::devs[remoteAddr].push_back(dev);
}
if (SDREnumerator::devs[remoteAddr].empty()) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("No devices found!"));
}
std::cout << std::endl;
return &SDREnumerator::devs[remoteAddr];
}
void SDREnumerator::run() {
std::cout << "SDR enumerator starting." << std::endl;
terminated.store(false);
// if (!remotes.size()) {
// remotes.push_back("raspberrypi.local");
// }
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Scanning local devices, please wait..");
SDREnumerator::enumerate_devices("");
if (remotes.size()) {
std::vector<std::string>::iterator remote_i;
for (remote_i = remotes.begin(); remote_i != remotes.end(); remote_i++) {
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, "Scanning devices at " + (*remote_i) + ", please wait..");
SDREnumerator::enumerate_devices(*remote_i);
}
}
std::cout << "Reporting enumeration complete." << std::endl;
terminated.store(true);
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_DEVICES_READY, "Finished scanning devices.");
std::cout << "SDR enumerator done." << std::endl;
}
void SDREnumerator::addRemote(std::string remoteAddr) {
std::vector<std::string>::iterator remote_i = std::find(remotes.begin(), remotes.end(), remoteAddr);
if (remote_i != remotes.end()) {
return;
} else {
remotes.push_back(remoteAddr);
}
}
void SDREnumerator::removeRemote(std::string remoteAddr) {
std::vector<std::string>::iterator remote_i = std::find(remotes.begin(), remotes.end(), remoteAddr);
if (remote_i != remotes.end()) {
if (devs.find(*remote_i) != devs.end()) {
while (devs[*remote_i].size()) {
SDRDeviceInfo *devRemove = devs[*remote_i].back();
devs[*remote_i].pop_back();
delete devRemove;
}
}
remotes.erase(remote_i);
} else {
return;
}
}
std::vector<std::string> &SDREnumerator::getRemotes() {
return remotes;
}
bool SDREnumerator::hasRemoteModule() {
return SDREnumerator::has_remote;
}

39
src/sdr/SDREnumerator.h Normal file
View File

@ -0,0 +1,39 @@
#pragma once
#include <atomic>
#include <map>
#include <string>
#include "IOThread.h"
#include "SDRDeviceInfo.h"
#include "AppConfig.h"
#include <SoapySDR/Version.hpp>
#include <SoapySDR/Modules.hpp>
#include <SoapySDR/Registry.hpp>
#include <SoapySDR/Device.hpp>
class SDREnumerator: public IOThread {
private:
public:
SDREnumerator();
~SDREnumerator();
enum SDREnumState { SDR_ENUM_DEVICES_READY, SDR_ENUM_MESSAGE, SDR_ENUM_TERMINATED, SDR_ENUM_FAILED };
static std::vector<SDRDeviceInfo *> *enumerate_devices(std::string remoteAddr = "", bool noInit=false);
void run();
static void addRemote(std::string remoteAddr);
static void removeRemote(std::string remoteAddr);
static std::vector<std::string> &getRemotes();
static bool hasRemoteModule();
protected:
static bool soapy_initialized, has_remote;
static std::vector<std::string> factories;
static std::vector<std::string> modules;
static std::vector<std::string> remotes;
static std::map< std::string, std::vector<SDRDeviceInfo *> > devs;
};

View File

@ -5,26 +5,22 @@
#include <vector>
#include <deque>
SDRPostThread::SDRPostThread() : IOThread(),
iqDataInQueue(NULL), iqDataOutQueue(NULL), iqVisualQueue(NULL), dcFilter(NULL){
swapIQ.store(false);
SDRPostThread::SDRPostThread() : IOThread() {
iqDataInQueue = NULL;
iqDataOutQueue = NULL;
iqVisualQueue = NULL;
// create a lookup table
for (unsigned int i = 0; i <= 0xffff; i++) {
liquid_float_complex tmp,tmp_swap;
# if (__BYTE_ORDER == __LITTLE_ENDIAN)
tmp_swap.imag = tmp.real = (float(i & 0xff) - 127.4f) * (1.0f/128.0f);
tmp_swap.real = tmp.imag = (float(i >> 8) - 127.4f) * (1.0f/128.0f);
_lut.push_back(tmp);
_lut_swap.push_back(tmp_swap);
#else // BIG_ENDIAN
tmp_swap.imag = tmp.real = (float(i >> 8) - 127.4f) * (1.0f/128.0f);
tmp_swap.real = tmp.imag = (float(i & 0xff) - 127.4f) * (1.0f/128.0f);
_lut.push_back(tmp);
_lut_swap.push_back(tmp_swap);
#endif
}
numChannels = 0;
channelizer = NULL;
sampleRate = 0;
nRunDemods = 0;
visFrequency.store(0);
visBandwidth.store(0);
doRefresh.store(false);
dcFilter = iirfilt_crcf_create_dc_blocker(0.0005);
}
SDRPostThread::~SDRPostThread() {
@ -33,6 +29,7 @@ SDRPostThread::~SDRPostThread() {
void SDRPostThread::bindDemodulator(DemodulatorInstance *demod) {
busy_demod.lock();
demodulators.push_back(demod);
doRefresh.store(true);
busy_demod.unlock();
}
@ -46,39 +43,121 @@ void SDRPostThread::removeDemodulator(DemodulatorInstance *demod) {
if (i != demodulators.end()) {
demodulators.erase(i);
doRefresh.store(true);
}
busy_demod.unlock();
}
void SDRPostThread::setSwapIQ(bool swapIQ) {
this->swapIQ.store(swapIQ);
void SDRPostThread::initPFBChannelizer() {
// std::cout << "Initializing post-process FIR polyphase filterbank channelizer with " << numChannels << " channels." << std::endl;
if (channelizer) {
firpfbch_crcf_destroy(channelizer);
}
channelizer = firpfbch_crcf_create_kaiser(LIQUID_ANALYZER, numChannels, 4, 60);
chanBw = (sampleRate / numChannels);
chanCenters.resize(numChannels+1);
demodChannelActive.resize(numChannels+1);
// std::cout << "Channel bandwidth spacing: " << (chanBw) << std::endl;
}
bool SDRPostThread::getSwapIQ() {
return this->swapIQ.load();
void SDRPostThread::updateActiveDemodulators() {
// In range?
std::vector<DemodulatorInstance *>::iterator demod_i;
nRunDemods = 0;
for (demod_i = demodulators.begin(); demod_i != demodulators.end(); demod_i++) {
DemodulatorInstance *demod = *demod_i;
DemodulatorThreadInputQueue *demodQueue = demod->getIQInputDataPipe();
// not in range?
if (abs(frequency - demod->getFrequency()) > (sampleRate / 2)) {
// deactivate if active
if (demod->isActive() && !demod->isFollow() && !demod->isTracking()) {
demod->setActive(false);
DemodulatorThreadIQData *dummyDataOut = new DemodulatorThreadIQData;
dummyDataOut->frequency = frequency;
dummyDataOut->sampleRate = sampleRate;
demodQueue->push(dummyDataOut);
}
// follow if follow mode
if (demod->isFollow() && wxGetApp().getFrequency() != demod->getFrequency()) {
wxGetApp().setFrequency(demod->getFrequency());
demod->setFollow(false);
}
} else if (!demod->isActive()) { // in range, activate if not activated
demod->setActive(true);
if (wxGetApp().getDemodMgr().getLastActiveDemodulator() == NULL) {
wxGetApp().getDemodMgr().setActiveDemodulator(demod);
}
}
if (!demod->isActive()) {
continue;
}
// Add to the current run
if (nRunDemods == runDemods.size()) {
runDemods.push_back(demod);
demodChannel.push_back(-1);
} else {
runDemods[nRunDemods] = demod;
demodChannel[nRunDemods] = -1;
}
nRunDemods++;
}
}
void SDRPostThread::updateChannels() {
// calculate channel center frequencies, todo: cache
for (int i = 0; i < numChannels/2; i++) {
int ofs = ((chanBw) * i);
chanCenters[i] = frequency + ofs;
chanCenters[i+(numChannels/2)] = frequency - (sampleRate/2) + ofs;
}
chanCenters[numChannels] = frequency + (sampleRate/2);
}
int SDRPostThread::getChannelAt(long long frequency) {
int chan = -1;
long long minDelta = sampleRate;
for (int i = 0; i < numChannels+1; i++) {
long long fdelta = abs(frequency - chanCenters[i]);
if (fdelta < minDelta) {
minDelta = fdelta;
chan = i;
}
}
return chan;
}
void SDRPostThread::setIQVisualRange(long long frequency, int bandwidth) {
visFrequency.store(frequency);
visBandwidth.store(bandwidth);
}
void SDRPostThread::run() {
#ifdef __APPLE__
pthread_t tID = pthread_self(); // ID of this thread
int priority = sched_get_priority_max( SCHED_FIFO) - 1;
int priority = sched_get_priority_max( SCHED_FIFO);
sched_param prio = {priority}; // scheduling priority of thread
pthread_setschedparam(tID, SCHED_FIFO, &prio);
#endif
dcFilter = iirfilt_crcf_create_dc_blocker(0.0005);
std::cout << "SDR post-processing thread started.." << std::endl;
iqDataInQueue = (SDRThreadIQDataQueue*)getInputQueue("IQDataInput");
iqDataOutQueue = (DemodulatorThreadInputQueue*)getOutputQueue("IQDataOutput");
iqVisualQueue = (DemodulatorThreadInputQueue*)getOutputQueue("IQVisualDataOutput");
ReBuffer<DemodulatorThreadIQData> buffers;
std::vector<liquid_float_complex> fpData;
std::vector<liquid_float_complex> dataOut;
iqActiveDemodVisualQueue = (DemodulatorThreadInputQueue*)getOutputQueue("IQActiveDemodVisualDataOutput");
iqDataInQueue->set_max_num_items(0);
std::vector<liquid_float_complex> dcBuf;
while (!terminated) {
SDRThreadIQData *data_in;
@ -86,125 +165,185 @@ void SDRPostThread::run() {
iqDataInQueue->pop(data_in);
// std::lock_guard < std::mutex > lock(data_in->m_mutex);
if (data_in && data_in->data.size()) {
int dataSize = data_in->data.size()/2;
if (dataSize > fpData.capacity()) {
fpData.reserve(dataSize);
dataOut.reserve(dataSize);
}
if (dataSize != fpData.size()) {
fpData.resize(dataSize);
dataOut.resize(dataSize);
if (data_in && data_in->data.size() && data_in->numChannels) {
if (numChannels != data_in->numChannels || sampleRate != data_in->sampleRate) {
numChannels = data_in->numChannels;
sampleRate = data_in->sampleRate;
initPFBChannelizer();
doRefresh.store(true);
}
if (swapIQ) {
for (int i = 0; i < dataSize; i++) {
fpData[i] = _lut_swap[*((uint16_t*)&data_in->data[2*i])];
}
} else {
for (int i = 0; i < dataSize; i++) {
fpData[i] = _lut[*((uint16_t*)&data_in->data[2*i])];
}
}
iirfilt_crcf_execute_block(dcFilter, &fpData[0], dataSize, &dataOut[0]);
if (iqVisualQueue != NULL && !iqVisualQueue->full()) {
DemodulatorThreadIQData *visualDataOut = visualDataBuffers.getBuffer();
visualDataOut->setRefCount(1);
int num_vis_samples = dataOut.size();
int dataSize = data_in->data.size();
int outSize = data_in->data.size();
// if (visualDataOut->data.size() < num_vis_samples) {
// if (visualDataOut->data.capacity() < num_vis_samples) {
// visualDataOut->data.reserve(num_vis_samples);
// }
// visualDataOut->data.resize(num_vis_samples);
// }
//
visualDataOut->frequency = data_in->frequency;
visualDataOut->sampleRate = data_in->sampleRate;
visualDataOut->data.assign(dataOut.begin(), dataOut.begin() + num_vis_samples);
iqVisualQueue->push(visualDataOut);
if (outSize > dataOut.capacity()) {
dataOut.reserve(outSize);
}
if (outSize != dataOut.size()) {
dataOut.resize(outSize);
}
int activeVisChannel = -1;
// if (visBandwidth.load() && visBandwidth.load() < (chanBw/2)) {
// activeVisChannel = getChannelAt(visFrequency);
// }
if (iqDataOutQueue != NULL && !iqDataOutQueue->full() && activeVisChannel < 0) {
DemodulatorThreadIQData *iqDataOut = visualDataBuffers.getBuffer();
bool doVis = false;
if (iqVisualQueue != NULL && !iqVisualQueue->full()) {
doVis = true;
}
iqDataOut->setRefCount(1 + (doVis?1:0));
iqDataOut->frequency = data_in->frequency;
iqDataOut->sampleRate = data_in->sampleRate;
iqDataOut->data.assign(data_in->data.begin(), data_in->data.begin() + dataSize);
iqDataOutQueue->push(iqDataOut);
if (doVis) {
iqVisualQueue->push(iqDataOut);
}
}
busy_demod.lock();
int activeDemods = 0;
bool pushedData = false;
if (frequency != data_in->frequency) {
frequency = data_in->frequency;
doRefresh.store(true);
}
if (doRefresh.load()) {
updateActiveDemodulators();
updateChannels();
doRefresh.store(false);
}
DemodulatorInstance *activeDemod = wxGetApp().getDemodMgr().getLastActiveDemodulator();
int activeDemodChannel = -1;
if (demodulators.size() || iqDataOutQueue != NULL) {
std::vector<DemodulatorInstance *>::iterator demod_i;
for (demod_i = demodulators.begin(); demod_i != demodulators.end(); demod_i++) {
DemodulatorInstance *demod = *demod_i;
if (demod->getFrequency() != data_in->frequency
&& abs(data_in->frequency - demod->getFrequency()) > (wxGetApp().getSampleRate() / 2)) {
// Find active demodulators
if (nRunDemods || (activeVisChannel >= 0)) {
// for (int i = 0; i < numChannels; i++) {
// firpfbch_crcf_set_channel_state(channelizer, i, (demodChannelActive[i]>0)?1:0);
// }
// channelize data
// firpfbch output rate is (input rate / channels)
for (int i = 0, iMax = dataSize; i < iMax; i+=numChannels) {
firpfbch_crcf_analyzer_execute(channelizer, &data_in->data[i], &dataOut[i]);
}
for (int i = 0, iMax = numChannels; i < iMax; i++) {
demodChannelActive[i] = 0;
}
// Find nearest channel for each demodulator
for (int i = 0; i < nRunDemods; i++) {
DemodulatorInstance *demod = runDemods[i];
demodChannel[i] = getChannelAt(demod->getFrequency());
if (demod == activeDemod) {
activeDemodChannel = demodChannel[i];
}
}
for (int i = 0; i < nRunDemods; i++) {
// cache channel usage refcounts
if (demodChannel[i] >= 0) {
demodChannelActive[demodChannel[i]]++;
}
}
// Run channels
for (int i = 0; i < numChannels+1; i++) {
int doDemodVis = ((activeDemodChannel == i) && (iqActiveDemodVisualQueue != NULL) && !iqActiveDemodVisualQueue->full())?1:0;
int doVis = 0;
// if (activeVisChannel == i) {
// doVis = (((iqDataOutQueue != NULL))?1:0) + ((iqVisualQueue != NULL && !iqVisualQueue->full())?1:0);
// }
if (!doVis && !doDemodVis && demodChannelActive[i] == 0) {
continue;
}
activeDemods++;
}
if (iqDataOutQueue != NULL) {
activeDemods++;
}
DemodulatorThreadIQData *demodDataOut = buffers.getBuffer();
// std::lock_guard < std::mutex > lock(demodDataOut->m_mutex);
demodDataOut->frequency = data_in->frequency;
demodDataOut->sampleRate = data_in->sampleRate;
demodDataOut->setRefCount(activeDemods);
demodDataOut->data.assign(dataOut.begin(), dataOut.end());
for (demod_i = demodulators.begin(); demod_i != demodulators.end(); demod_i++) {
DemodulatorInstance *demod = *demod_i;
DemodulatorThreadInputQueue *demodQueue = demod->getIQInputDataPipe();
if (abs(data_in->frequency - demod->getFrequency()) > (wxGetApp().getSampleRate() / 2)) {
if (demod->isActive() && !demod->isFollow() && !demod->isTracking()) {
demod->setActive(false);
DemodulatorThreadIQData *dummyDataOut = new DemodulatorThreadIQData;
dummyDataOut->frequency = data_in->frequency;
dummyDataOut->sampleRate = data_in->sampleRate;
demodQueue->push(dummyDataOut);
}
if (demod->isFollow() && wxGetApp().getFrequency() != demod->getFrequency()) {
wxGetApp().setFrequency(demod->getFrequency());
}
} else if (!demod->isActive()) {
demod->setActive(true);
if (wxGetApp().getDemodMgr().getLastActiveDemodulator() == NULL) {
wxGetApp().getDemodMgr().setActiveDemodulator(demod);
DemodulatorThreadIQData *demodDataOut = buffers.getBuffer();
demodDataOut->setRefCount(demodChannelActive[i] + doVis + doDemodVis);
demodDataOut->frequency = chanCenters[i];
demodDataOut->sampleRate = chanBw;
// Calculate channel buffer size
int chanDataSize = (outSize/numChannels);
if (demodDataOut->data.size() != chanDataSize) {
if (demodDataOut->data.capacity() < chanDataSize) {
demodDataOut->data.reserve(chanDataSize);
}
demodDataOut->data.resize(chanDataSize);
}
int idx = i;
// Extra channel wraps lower side band of lowest channel
// to fix frequency gap on upper side of spectrum
if (i == numChannels) {
idx = (numChannels/2);
}
if (!demod->isActive()) {
continue;
}
if (demod->isFollow()) {
demod->setFollow(false);
}
demodQueue->push(demodDataOut);
pushedData = true;
}
if (iqDataOutQueue != NULL) {
if (!iqDataOutQueue->full()) {
iqDataOutQueue->push(demodDataOut);
pushedData = true;
// prepare channel data buffer
if (i == 0) { // Channel 0 requires DC correction
if (dcBuf.size() != chanDataSize) {
dcBuf.resize(chanDataSize);
}
for (int j = 0; j < chanDataSize; j++) {
dcBuf[j] = dataOut[idx];
idx += numChannels;
}
iirfilt_crcf_execute_block(dcFilter, &dcBuf[0], chanDataSize, &demodDataOut->data[0]);
} else {
demodDataOut->decRefCount();
for (int j = 0; j < chanDataSize; j++) {
demodDataOut->data[j] = dataOut[idx];
idx += numChannels;
}
}
// if (doVis) {
// iqDataOutQueue->push(demodDataOut);
// if (doVis>1) {
// iqVisualQueue->push(demodDataOut);
// }
// }
if (doDemodVis) {
iqActiveDemodVisualQueue->push(demodDataOut);
}
for (int j = 0; j < nRunDemods; j++) {
if (demodChannel[j] == i) {
DemodulatorInstance *demod = runDemods[j];
demod->getIQInputDataPipe()->push(demodDataOut);
// std::cout << "Demodulator " << j << " in channel #" << i << " ctr: " << chanCenters[i] << " dataSize: " << chanDataSize << std::endl;
}
}
}
if (!pushedData && iqDataOutQueue == NULL) {
demodDataOut->setRefCount(0);
}
bool doUpdate = false;
for (int j = 0; j < nRunDemods; j++) {
DemodulatorInstance *demod = runDemods[j];
if (abs(frequency - demod->getFrequency()) > (sampleRate / 2)) {
doUpdate = true;
}
}
if (doUpdate) {
updateActiveDemodulators();
}
busy_demod.unlock();
}
data_in->decRefCount();

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@ -1,6 +1,10 @@
#pragma once
#if USE_RTL_SDR
#include "SDRThread.h"
#else
#include "SoapySDRThread.h"
#endif
#include <algorithm>
class SDRPostThread : public IOThread {
@ -10,26 +14,44 @@ public:
void bindDemodulator(DemodulatorInstance *demod);
void removeDemodulator(DemodulatorInstance *demod);
void setSwapIQ(bool swapIQ);
bool getSwapIQ();
void run();
void terminate();
void setIQVisualRange(long long frequency, int bandwidth);
protected:
SDRThreadIQDataQueue *iqDataInQueue;
DemodulatorThreadInputQueue *iqDataOutQueue;
DemodulatorThreadInputQueue *iqVisualQueue;
DemodulatorThreadInputQueue *iqActiveDemodVisualQueue;
std::mutex busy_demod;
std::vector<DemodulatorInstance *> demodulators;
iirfilt_crcf dcFilter;
std::atomic_bool swapIQ;
ReBuffer<DemodulatorThreadIQData> visualDataBuffers;
private:
std::vector<liquid_float_complex> _lut;
std::vector<liquid_float_complex> _lut_swap;
void initPFBChannelizer();
void updateActiveDemodulators();
void updateChannels();
int getChannelAt(long long frequency);
ReBuffer<DemodulatorThreadIQData> buffers;
std::vector<liquid_float_complex> fpData;
std::vector<liquid_float_complex> dataOut;
std::vector<long long> chanCenters;
long long chanBw;
int nRunDemods;
std::vector<DemodulatorInstance *> runDemods;
std::vector<int> demodChannel;
std::vector<int> demodChannelActive;
ReBuffer<DemodulatorThreadIQData> visualDataBuffers;
atomic_bool doRefresh;
atomic_llong visFrequency;
atomic_int visBandwidth;
int numChannels, sampleRate;
long long frequency;
firpfbch_crcf channelizer;
iirfilt_crcf dcFilter;
};

423
src/sdr/SoapySDRThread.cpp Normal file
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@ -0,0 +1,423 @@
#include "SoapySDRThread.h"
#include "CubicSDRDefs.h"
#include <vector>
#include "CubicSDR.h"
#include <string>
SDRThread::SDRThread() : IOThread() {
device = NULL;
deviceConfig.store(NULL);
deviceInfo.store(NULL);
sampleRate.store(DEFAULT_SAMPLE_RATE);
frequency.store(0);
offset.store(0);
ppm.store(0);
numElems.store(0);
rate_changed.store(false);
freq_changed.store(false);
offset_changed.store(false);
ppm_changed .store(false);
device_changed.store(false);
hasPPM.store(false);
hasHardwareDC.store(false);
numChannels.store(8);
agc_mode.store(true);
agc_mode_changed.store(false);
gain_value_changed.store(false);
setting_value_changed.store(false);
}
SDRThread::~SDRThread() {
}
SoapySDR::Kwargs SDRThread::combineArgs(SoapySDR::Kwargs a, SoapySDR::Kwargs b) {
SoapySDR::Kwargs c;
SoapySDR::Kwargs::iterator i;
for (i = a.begin(); i != a.end(); i++) {
c[i->first] = i->second;
}
for (i = b.begin(); i != b.end(); i++) {
c[i->first] = i->second;
}
return c;
}
void SDRThread::init() {
SDRDeviceInfo *devInfo = deviceInfo.load();
deviceConfig.store(wxGetApp().getConfig()->getDevice(devInfo->getDeviceId()));
DeviceConfig *devConfig = deviceConfig.load();
ppm.store(devConfig->getPPM());
ppm_changed.store(true);
std::string driverName = devInfo->getDriver();
offset = devConfig->getOffset();
SoapySDR::Kwargs args = devInfo->getDeviceArgs();
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Initializing device."));
device = SoapySDR::Device::make(args);
stream = device->setupStream(SOAPY_SDR_RX,"CF32", std::vector<size_t>(), combineArgs(devInfo->getStreamArgs(),streamArgs));
wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Activating stream."));
device->setSampleRate(SOAPY_SDR_RX,0,sampleRate.load());
device->setFrequency(SOAPY_SDR_RX,0,"RF",frequency - offset.load());
device->activateStream(stream);
SDRDeviceChannel *chan = devInfo->getRxChannel();
if (chan->hasCORR()) {
hasPPM.store(true);
device->setFrequency(SOAPY_SDR_RX,0,"CORR",ppm.load());
} else {
hasPPM.store(false);
}
if (chan->hasHardwareDC()) {
hasHardwareDC.store(true);
// wxGetApp().sdrEnumThreadNotify(SDREnumerator::SDR_ENUM_MESSAGE, std::string("Found hardware DC offset correction support, internal disabled."));
device->setDCOffsetMode(SOAPY_SDR_RX, chan->getChannel(), true);
} else {
hasHardwareDC.store(false);
}
device->setGainMode(SOAPY_SDR_RX,0,agc_mode.load());
numChannels.store(getOptimalChannelCount(sampleRate.load()));
numElems.store(getOptimalElementCount(sampleRate.load(), 30));
inpBuffer.data.resize(numElems.load());
buffs[0] = malloc(numElems * 2 * sizeof(float));
SoapySDR::ArgInfoList settingsInfo = device->getSettingInfo();
SoapySDR::ArgInfoList::const_iterator settings_i;
if (!setting_value_changed.load()) {
settings.erase(settings.begin(), settings.end());
settingChanged.erase(settingChanged.begin(), settingChanged.end());
}
setting_busy.lock();
for (settings_i = settingsInfo.begin(); settings_i != settingsInfo.end(); settings_i++) {
SoapySDR::ArgInfo setting = (*settings_i);
if ((settingChanged.find(setting.key) != settingChanged.end()) && (settings.find(setting.key) != settings.end())) {
device->writeSetting(setting.key, settings[setting.key]);
settingChanged[setting.key] = false;
} else {
settings[setting.key] = device->readSetting(setting.key);
settingChanged[setting.key] = false;
}
}
setting_value_changed.store(false);
setting_busy.unlock();
wxGetApp().sdrThreadNotify(SDRThread::SDR_THREAD_INITIALIZED, std::string("Device Initialized."));
}
void SDRThread::deinit() {
device->deactivateStream(stream);
device->closeStream(stream);
SoapySDR::Device::unmake(device);
free(buffs[0]);
}
void SDRThread::readStream(SDRThreadIQDataQueue* iqDataOutQueue) {
int flags;
long long timeNs;
int n_read = 0;
while (n_read != numElems && !terminated) {
int n_stream_read = device->readStream(stream, buffs, numElems-n_read, flags, timeNs);
if (n_stream_read > 0) {
memcpy(&inpBuffer.data[n_read], buffs[0], n_stream_read * sizeof(float) * 2);
n_read += n_stream_read;
} else {
break;
}
}
if (n_read > 0 && !terminated) {
SDRThreadIQData *dataOut = buffers.getBuffer();
// if (hasHardwareDC) {
dataOut->data.assign(inpBuffer.data.begin(), inpBuffer.data.begin()+n_read);
// } else {
// if (dataOut->data.size() != n_read) {
// dataOut->data.resize(n_read);
// }
// iirfilt_crcf_execute_block(dcFilter, &inpBuffer.data[0], n_read, &dataOut->data[0]);
// }
dataOut->setRefCount(1);
dataOut->frequency = frequency.load();
dataOut->sampleRate = sampleRate.load();
dataOut->dcCorrected = hasHardwareDC.load();
dataOut->numChannels = numChannels.load();
iqDataOutQueue->push(dataOut);
}
}
void SDRThread::readLoop() {
SDRThreadIQDataQueue* iqDataOutQueue = (SDRThreadIQDataQueue*) getOutputQueue("IQDataOutput");
if (iqDataOutQueue == NULL) {
return;
}
updateGains();
while (!terminated.load()) {
updateSettings();
readStream(iqDataOutQueue);
}
buffers.purge();
}
void SDRThread::updateGains() {
SDRDeviceInfo *devInfo = deviceInfo.load();
gainValues.erase(gainValues.begin(),gainValues.end());
gainChanged.erase(gainChanged.begin(),gainChanged.end());
std::vector<SDRDeviceRange> gains = devInfo->getRxChannel()->getGains();
for (std::vector<SDRDeviceRange>::iterator gi = gains.begin(); gi != gains.end(); gi++) {
gainValues[(*gi).getName()] = device->getGain(SOAPY_SDR_RX, devInfo->getRxChannel()->getChannel(), (*gi).getName());
gainChanged[(*gi).getName()] = false;
}
gain_value_changed.store(false);
}
void SDRThread::updateSettings() {
if (offset_changed.load()) {
if (!freq_changed.load()) {
frequency.store(frequency.load());
freq_changed.store(true);
}
offset_changed.store(false);
}
if (rate_changed.load()) {
device->setSampleRate(SOAPY_SDR_RX,0,sampleRate.load());
sampleRate.store(device->getSampleRate(SOAPY_SDR_RX,0));
numChannels.store(getOptimalChannelCount(sampleRate.load()));
numElems.store(getOptimalElementCount(sampleRate.load(), 60));
inpBuffer.data.resize(numElems.load());
free(buffs[0]);
buffs[0] = malloc(numElems.load() * 2 * sizeof(float));
rate_changed.store(false);
}
if (ppm_changed.load() && hasPPM.load()) {
device->setFrequency(SOAPY_SDR_RX,0,"CORR",ppm.load());
ppm_changed.store(false);
}
if (freq_changed.load()) {
device->setFrequency(SOAPY_SDR_RX,0,"RF",frequency.load() - offset.load());
freq_changed.store(false);
}
if (agc_mode_changed.load()) {
SDRDeviceInfo *devInfo = deviceInfo.load();
device->setGainMode(SOAPY_SDR_RX,devInfo->getRxChannel()->getChannel(),agc_mode.load());
agc_mode_changed.store(false);
if (!agc_mode.load()) {
updateGains();
}
}
if (gain_value_changed.load() && !agc_mode.load()) {
SDRDeviceInfo *devInfo = deviceInfo.load();
gain_busy.lock();
for (std::map<std::string,bool>::iterator gci = gainChanged.begin(); gci != gainChanged.end(); gci++) {
if (gci->second) {
device->setGain(SOAPY_SDR_RX, devInfo->getRxChannel()->getChannel(), gci->first, gainValues[gci->first]);
gainChanged[gci->first] = false;
}
}
gain_busy.unlock();
gain_value_changed.store(false);
}
if (setting_value_changed.load()) {
setting_busy.lock();
for (std::map<std::string, bool>::iterator sci = settingChanged.begin(); sci != settingChanged.end(); sci++) {
if (sci->second) {
device->writeSetting(sci->first, settings[sci->first]);
settingChanged[sci->first] = false;
}
}
setting_value_changed.store(false);
setting_busy.unlock();
}
}
void SDRThread::run() {
//#ifdef __APPLE__
// pthread_t tID = pthread_self(); // ID of this thread
// int priority = sched_get_priority_max( SCHED_FIFO);
// sched_param prio = { priority }; // scheduling priority of thread
// pthread_setschedparam(tID, SCHED_FIFO, &prio);
//#endif
std::cout << "SDR thread starting." << std::endl;
terminated.store(false);
if (deviceInfo.load() != NULL) {
std::cout << "device init()" << std::endl;
init();
std::cout << "starting readLoop()" << std::endl;
readLoop();
std::cout << "readLoop() ended." << std::endl;
deinit();
std::cout << "device deinit()" << std::endl;
} else {
std::cout << "SDR Thread started with null device?" << std::endl;
}
std::cout << "SDR thread done." << std::endl;
if (!terminated.load()) {
terminated.store(true);
wxGetApp().sdrThreadNotify(SDRThread::SDR_THREAD_TERMINATED, "Done.");
}
}
SDRDeviceInfo *SDRThread::getDevice() {
return deviceInfo.load();
}
void SDRThread::setDevice(SDRDeviceInfo *dev) {
deviceInfo.store(dev);
deviceConfig.store(wxGetApp().getConfig()->getDevice(dev->getDeviceId()));
}
int SDRThread::getOptimalElementCount(long long sampleRate, int fps) {
int elemCount = (int)floor((double)sampleRate/(double)fps);
int nch = numChannels.load();
elemCount = int(ceil((double)elemCount/(double)nch))*nch;
std::cout << "Calculated optimal " << numChannels.load() << " channel element count of " << elemCount << std::endl;
return elemCount;
}
int SDRThread::getOptimalChannelCount(long long sampleRate) {
int optimal_rate = CHANNELIZER_RATE_MAX;
int optimal_count = int(ceil(double(sampleRate)/double(optimal_rate)));
if (optimal_count % 2 == 1) {
optimal_count--;
}
if (optimal_count < 4) {
optimal_count = 4;
}
// if (optimal_count > 16) {
// optimal_count = 16;
// }
return optimal_count;
}
void SDRThread::setFrequency(long long freq) {
if (freq < sampleRate.load() / 2) {
freq = sampleRate.load() / 2;
}
frequency.store(freq);
freq_changed.store(true);
}
long long SDRThread::getFrequency() {
return frequency.load();
}
void SDRThread::setOffset(long long ofs) {
offset.store(ofs);
offset_changed.store(true);
std::cout << "Set offset: " << offset.load() << std::endl;
}
long long SDRThread::getOffset() {
return offset.load();
}
void SDRThread::setSampleRate(int rate) {
sampleRate.store(rate);
rate_changed = true;
std::cout << "Set sample rate: " << sampleRate.load() << std::endl;
}
int SDRThread::getSampleRate() {
return sampleRate.load();
}
void SDRThread::setPPM(int ppm) {
this->ppm.store(ppm);
ppm_changed.store(true);
std::cout << "Set PPM: " << this->ppm.load() << std::endl;
}
int SDRThread::getPPM() {
return ppm.load();
}
void SDRThread::setAGCMode(bool mode) {
agc_mode.store(mode);
agc_mode_changed.store(true);
}
bool SDRThread::getAGCMode() {
return agc_mode.load();
}
void SDRThread::setGain(std::string name, float value) {
gain_busy.lock();
gainValues[name] = value;
gainChanged[name] = true;
gain_value_changed.store(true);
gain_busy.unlock();
}
float SDRThread::getGain(std::string name) {
gain_busy.lock();
float val = gainValues[name];
gain_busy.unlock();
return val;
}
void SDRThread::writeSetting(std::string name, std::string value) {
setting_busy.lock();
settings[name] = value;
settingChanged[name] = true;
setting_value_changed.store(true);
setting_busy.unlock();
}
std::string SDRThread::readSetting(std::string name) {
std::string val;
setting_busy.lock();
val = device->readSetting(name);
setting_busy.unlock();
return val;
}
void SDRThread::setStreamArgs(SoapySDR::Kwargs streamArgs_in) {
streamArgs = streamArgs_in;
}

112
src/sdr/SoapySDRThread.h Normal file
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@ -0,0 +1,112 @@
#pragma once
#include <atomic>
#include "ThreadQueue.h"
#include "DemodulatorMgr.h"
#include "SDRDeviceInfo.h"
#include "AppConfig.h"
#include <SoapySDR/Version.hpp>
#include <SoapySDR/Modules.hpp>
#include <SoapySDR/Registry.hpp>
#include <SoapySDR/Device.hpp>
class SDRThreadIQData: public ReferenceCounter {
public:
long long frequency;
long long sampleRate;
bool dcCorrected;
int numChannels;
std::vector<liquid_float_complex> data;
SDRThreadIQData() :
frequency(0), sampleRate(DEFAULT_SAMPLE_RATE), dcCorrected(true), numChannels(0) {
}
SDRThreadIQData(long long bandwidth, long long frequency, std::vector<signed char> *data) :
frequency(frequency), sampleRate(bandwidth) {
}
~SDRThreadIQData() {
}
};
typedef ThreadQueue<SDRThreadIQData *> SDRThreadIQDataQueue;
class SDRThread : public IOThread {
private:
void init();
void deinit();
void readStream(SDRThreadIQDataQueue* iqDataOutQueue);
void readLoop();
public:
SDRThread();
~SDRThread();
enum SDRThreadState { SDR_THREAD_MESSAGE, SDR_THREAD_INITIALIZED, SDR_THREAD_TERMINATED, SDR_THREAD_FAILED };
void run();
SDRDeviceInfo *getDevice();
void setDevice(SDRDeviceInfo *dev);
int getOptimalElementCount(long long sampleRate, int fps);
int getOptimalChannelCount(long long sampleRate);
void setFrequency(long long freq);
long long getFrequency();
void setOffset(long long ofs);
long long getOffset();
void setSampleRate(int rate);
int getSampleRate();
void setPPM(int ppm);
int getPPM();
void setAGCMode(bool mode);
bool getAGCMode();
void setGain(std::string name, float value);
float getGain(std::string name);
void writeSetting(std::string name, std::string value);
std::string readSetting(std::string name);
void setStreamArgs(SoapySDR::Kwargs streamArgs);
protected:
void updateGains();
void updateSettings();
SoapySDR::Kwargs combineArgs(SoapySDR::Kwargs a, SoapySDR::Kwargs b);
SoapySDR::Stream *stream;
SoapySDR::Device *device;
void *buffs[1];
ReBuffer<SDRThreadIQData> buffers;
SDRThreadIQData inpBuffer;
std::atomic<DeviceConfig *> deviceConfig;
std::atomic<SDRDeviceInfo *> deviceInfo;
std::mutex setting_busy;
std::map<std::string, std::string> settings;
std::map<std::string, bool> settingChanged;
std::atomic<uint32_t> sampleRate;
std::atomic_llong frequency, offset;
std::atomic_int ppm, numElems, numChannels;
std::atomic_bool hasPPM, hasHardwareDC;
std::atomic_bool agc_mode, rate_changed, freq_changed, offset_changed,
ppm_changed, device_changed, agc_mode_changed, gain_value_changed, setting_value_changed;
std::mutex gain_busy;
std::map<std::string, float> gainValues;
std::map<std::string, bool> gainChanged;
SoapySDR::Kwargs streamArgs;
};

View File

@ -5,7 +5,7 @@
using namespace CubicVR;
GLPanel::GLPanel() : fillType(GLPANEL_FILL_SOLID), contentsVisible(true), transform(mat4::identity()) {
GLPanel::GLPanel() : fillType(GLPANEL_FILL_SOLID), contentsVisible(true), visible(true), transform(mat4::identity()) {
pos[0] = 0.0f;
pos[1] = 0.0f;
rot[0] = 0.0f;
@ -19,6 +19,8 @@ GLPanel::GLPanel() : fillType(GLPANEL_FILL_SOLID), contentsVisible(true), transf
setCoordinateSystem(GLPANEL_Y_UP);
setMarginPx(0);
setBorderPx(0);
srcBlend = GL_SRC_ALPHA;
dstBlend = GL_ONE_MINUS_SRC_ALPHA;
}
void GLPanel::genArrays() {
@ -174,6 +176,19 @@ void GLPanel::setCoordinateSystem(GLPanelCoordinateSystem coord_in) {
genArrays();
}
bool GLPanel::hitTest(CubicVR::vec2 pos, CubicVR::vec2 &result) {
CubicVR::vec4 hitPos = CubicVR::mat4::vec4_multiply(CubicVR::vec4(pos.x, pos.y, 0.0, 1.0), transformInverse);
if (hitPos.x >= -1.0 && hitPos.x <= 1.0 && hitPos.y >= -1.0 && hitPos.y <= 1.0) {
result.x = hitPos.x;
result.y = hitPos.y;
return true;
}
return false;
}
void GLPanel::setFill(GLPanelFillType fill_mode) {
fillType = fill_mode;
genArrays();
@ -210,6 +225,11 @@ void GLPanel::setBorderPx(float bordl, float bordr, float bordt, float bordb) {
borderPx.bottom = bordb;
}
void GLPanel::setBlend(GLuint src, GLuint dst) {
srcBlend = src;
dstBlend = dst;
}
void GLPanel::addChild(GLPanel *childPanel) {
std::vector<GLPanel *>::iterator i = std::find(children.begin(), children.end(), childPanel);
@ -278,6 +298,8 @@ void GLPanel::calcTransform(mat4 transform_in) {
if (marginPx) {
transform *= mat4::scale(1.0 - marginPx * 2.0 * pvec.x / size[0], 1.0 - marginPx * 2.0 * pvec.y / size[1], 1);
}
transformInverse = CubicVR::mat4::inverse(transform);
}
void GLPanel::draw() {
@ -285,9 +307,9 @@ void GLPanel::draw() {
glLoadMatrixf(transform);
if (fillType != GLPANEL_FILL_NONE) {
if (fillType != GLPANEL_FILL_NONE && visible) {
glEnable(GL_BLEND);
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
glBlendFunc(srcBlend, dstBlend);
glEnableClientState(GL_VERTEX_ARRAY);
glEnableClientState(GL_COLOR_ARRAY);
glVertexPointer(2, GL_FLOAT, 0, &glPoints[0]);

View File

@ -45,8 +45,8 @@ public:
GLPanelEdges borderPx;
RGBA4f fill[2];
RGBA4f borderColor;
bool contentsVisible;
CubicVR::mat4 transform;
bool contentsVisible, visible;
CubicVR::mat4 transform, transformInverse;
CubicVR::mat4 localTransform;
float min, mid, max;
// screen dimensions
@ -55,7 +55,8 @@ public:
CubicVR::vec2 umin, umax, ucenter;
// pixel dimensions
CubicVR::vec2 pdim, pvec;
GLuint srcBlend, dstBlend;
std::vector<GLPanel *> children;
GLPanel();
@ -68,6 +69,8 @@ public:
float getHeightPx();
void setCoordinateSystem(GLPanelCoordinateSystem coord);
bool hitTest(CubicVR::vec2 pos, CubicVR::vec2 &result);
void setFill(GLPanelFillType fill_mode);
void setFillColor(RGBA4f color1);
void setFillColor(RGBA4f color1, RGBA4f color2);
@ -77,6 +80,8 @@ public:
void setBorderPx(float bord);
void setBorderPx(float bordl, float bordr, float bordt, float bordb);
void setBlend(GLuint src, GLuint dst);
void addChild(GLPanel *childPanel);
void removeChild(GLPanel *childPanel);

View File

@ -35,10 +35,10 @@ void initGLExtensions() {
// const GLubyte *extensions = glGetString(GL_EXTENSIONS);
// std::cout << std::endl << "Supported GL Extensions: " << std::endl << extensions << std::endl << std::endl;
#ifdef __linux__
const GLint interval = 2;
#else
#ifdef __APPLE__
const GLint interval = 1;
#else
const GLint interval = 2;
#endif
#ifdef _WIN32

305
src/visual/GainCanvas.cpp Normal file
View File

@ -0,0 +1,305 @@
#include "GainCanvas.h"
#include "wx/wxprec.h"
#ifndef WX_PRECOMP
#include "wx/wx.h"
#endif
#if !wxUSE_GLCANVAS
#error "OpenGL required: set wxUSE_GLCANVAS to 1 and rebuild the library"
#endif
#include "CubicSDR.h"
#include "CubicSDRDefs.h"
#include "AppFrame.h"
#include <algorithm>
wxBEGIN_EVENT_TABLE(GainCanvas, wxGLCanvas) EVT_PAINT(GainCanvas::OnPaint)
EVT_IDLE(GainCanvas::OnIdle)
EVT_MOTION(GainCanvas::OnMouseMoved)
EVT_LEFT_DOWN(GainCanvas::OnMouseDown)
EVT_LEFT_UP(GainCanvas::OnMouseReleased)
EVT_LEAVE_WINDOW(GainCanvas::OnMouseLeftWindow)
EVT_ENTER_WINDOW(GainCanvas::OnMouseEnterWindow)
wxEND_EVENT_TABLE()
GainCanvas::GainCanvas(wxWindow *parent, int *attribList) :
InteractiveCanvas(parent, attribList) {
glContext = new PrimaryGLContext(this, &wxGetApp().GetContext(this));
bgPanel.setCoordinateSystem(GLPanel::GLPANEL_Y_UP);
bgPanel.setFill(GLPanel::GLPANEL_FILL_GRAD_X);
numGains = 1;
spacing = 2.0/numGains;
barWidth = (1.0/numGains)*0.8;
startPos = spacing/2.0;
barHeight = 0.8;
}
GainCanvas::~GainCanvas() {
}
void GainCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) {
wxPaintDC dc(this);
const wxSize ClientSize = GetClientSize();
glContext->SetCurrent(*this);
initGLExtensions();
glViewport(0, 0, ClientSize.x, ClientSize.y);
float i = 0;
for (std::vector<GainInfo *>::iterator gi = gainInfo.begin(); gi != gainInfo.end(); gi++) {
GainInfo *gInfo = (*gi);
float midPos = -1.0+startPos+spacing*i;
gInfo->labelPanel.setSize(spacing/2.0,(15.0/float(ClientSize.y)));
gInfo->labelPanel.setPosition(midPos, -barHeight-(20.0/float(ClientSize.y)));
gInfo->valuePanel.setSize(spacing/2.0,(15.0/float(ClientSize.y)));
gInfo->valuePanel.setPosition(midPos, barHeight+(20.0/float(ClientSize.y)));
i+=1.0;
}
bgPanel.draw();
SwapBuffers();
}
void GainCanvas::OnIdle(wxIdleEvent &event) {
if (mouseTracker.mouseInView()) {
Refresh();
} else {
event.Skip();
}
for (std::vector<GainInfo *>::iterator gi = gainInfo.begin(); gi != gainInfo.end(); gi++) {
GainInfo *gInfo = (*gi);
if (gInfo->changed) {
wxGetApp().setGain(gInfo->name, gInfo->current);
gInfo->changed = false;
}
}
}
int GainCanvas::GetPanelHit(CubicVR::vec2 &result) {
std::vector<GainInfo *>::iterator gi;
int i = 0;
for (gi = gainInfo.begin(); gi != gainInfo.end(); gi++) {
GainInfo *gInfo = (*gi);
CubicVR::vec2 hitResult;
if (gInfo->panel.hitTest(CubicVR::vec2((mouseTracker.getMouseX()-0.5)*2.0, (mouseTracker.getMouseY()-0.5)*2.0), hitResult)) {
// std::cout << "Hit #" << i << " result: " << hitResult << std::endl;
result = (hitResult + CubicVR::vec2(1.0,1.0)) * 0.5;
return i;
}
i++;
}
return -1;
}
void GainCanvas::SetLevel() {
CubicVR::vec2 hitResult;
int panelHit = GetPanelHit(hitResult);
if (panelHit >= 0) {
gainInfo[panelHit]->levelPanel.setSize(1.0, hitResult.y);
gainInfo[panelHit]->levelPanel.setPosition(0.0, (-1.0+(hitResult.y)));
gainInfo[panelHit]->current = gainInfo[panelHit]->low+(hitResult.y * (gainInfo[panelHit]->high-gainInfo[panelHit]->low));
gainInfo[panelHit]->changed = true;
gainInfo[panelHit]->valuePanel.setText(std::to_string(int(gainInfo[panelHit]->current)));
}
}
void GainCanvas::OnMouseMoved(wxMouseEvent& event) {
InteractiveCanvas::OnMouseMoved(event);
CubicVR::vec2 hitResult;
int panelHit = GetPanelHit(hitResult);
if (panelHit >= 0) {
gainInfo[panelHit]->highlightPanel.setSize(1.0, hitResult.y);
gainInfo[panelHit]->highlightPanel.setPosition(0.0, (-1.0+(hitResult.y)));
}
int i = 0;
for (std::vector<GainInfo *>::iterator gi = gainInfo.begin(); gi != gainInfo.end(); gi++) {
(*gi)->highlightPanel.visible = (i==panelHit);
i++;
}
if (mouseTracker.mouseDown()) {
SetLevel();
}
}
void GainCanvas::OnMouseDown(wxMouseEvent& event) {
InteractiveCanvas::OnMouseDown(event);
SetLevel();
}
void GainCanvas::OnMouseWheelMoved(wxMouseEvent& event) {
InteractiveCanvas::OnMouseWheelMoved(event);
// Refresh();
}
void GainCanvas::OnMouseReleased(wxMouseEvent& event) {
InteractiveCanvas::OnMouseReleased(event);
// Refresh();
}
void GainCanvas::OnMouseLeftWindow(wxMouseEvent& event) {
InteractiveCanvas::OnMouseLeftWindow(event);
SetCursor(wxCURSOR_CROSS);
int i = 0;
for (std::vector<GainInfo *>::iterator gi = gainInfo.begin(); gi != gainInfo.end(); gi++) {
(*gi)->highlightPanel.visible = false;
i++;
}
Refresh();
}
void GainCanvas::OnMouseEnterWindow(wxMouseEvent& event) {
InteractiveCanvas::mouseTracker.OnMouseEnterWindow(event);
SetCursor(wxCURSOR_CROSS);
// Refresh();
}
void GainCanvas::setHelpTip(std::string tip) {
helpTip = tip;
}
void GainCanvas::updateGainUI() {
const wxSize ClientSize = GetClientSize();
SDRDeviceInfo *devInfo = wxGetApp().getDevice();
std::vector<SDRDeviceRange> &gains = devInfo->getRxChannel()->getGains();
std::vector<SDRDeviceRange>::iterator gi;
numGains = gains.size();
float i = 0;
if (!numGains) {
return;
}
spacing = 2.0/numGains;
barWidth = (1.0/numGains)*0.7;
startPos = spacing/2.0;
barHeight = 0.8;
RGBA4f c1, c2;
while (gainInfo.size()) {
GainInfo *giDel;
giDel = gainInfo.back();
gainInfo.pop_back();
giDel->panel.removeChild(&giDel->levelPanel);
bgPanel.removeChild(&(giDel->labelPanel));
bgPanel.removeChild(&(giDel->valuePanel));
bgPanel.removeChild(&(giDel->panel));
delete giDel;
}
for (gi = gains.begin(); gi != gains.end(); gi++) {
GainInfo *gInfo = new GainInfo;
float midPos = -1.0+startPos+spacing*i;
gInfo->name = (*gi).getName();
gInfo->low = (*gi).getLow();
gInfo->high = (*gi).getHigh();
gInfo->current = wxGetApp().getGain(gInfo->name);
gInfo->panel.setBorderPx(1);
gInfo->panel.setFill(GLPanel::GLPANEL_FILL_GRAD_BAR_X);
gInfo->panel.setPosition(midPos, 0);
gInfo->panel.setSize(barWidth, barHeight);
gInfo->panel.setBlend(GL_ONE, GL_ONE);
gInfo->levelPanel.setBorderPx(0);
gInfo->levelPanel.setMarginPx(1);
gInfo->levelPanel.setSize(1.0,0.8);
float levelVal = float(gInfo->current-gInfo->low)/float(gInfo->high-gInfo->low);
gInfo->levelPanel.setSize(1.0, levelVal);
gInfo->levelPanel.setPosition(0.0, (-1.0+(levelVal)));
gInfo->levelPanel.setFill(GLPanel::GLPANEL_FILL_GRAD_BAR_X);
gInfo->levelPanel.setBlend(GL_ONE, GL_ONE);
gInfo->panel.addChild(&gInfo->levelPanel);
gInfo->highlightPanel.setBorderPx(0);
gInfo->highlightPanel.setMarginPx(1);
gInfo->highlightPanel.setSize(1.0,0.8);
gInfo->highlightPanel.setPosition(0.0,-0.2);
gInfo->highlightPanel.setFill(GLPanel::GLPANEL_FILL_GRAD_BAR_X);
gInfo->highlightPanel.setBlend(GL_ONE, GL_ONE);
gInfo->highlightPanel.visible = false;
gInfo->panel.addChild(&gInfo->highlightPanel);
gInfo->labelPanel.setSize(spacing/2.0,(15.0/float(ClientSize.y)));
gInfo->labelPanel.setPosition(midPos, -barHeight-(20.0/float(ClientSize.y)));
gInfo->labelPanel.setText((*gi).getName());
gInfo->labelPanel.setFill(GLPanel::GLPANEL_FILL_NONE);
bgPanel.addChild(&(gInfo->labelPanel));
gInfo->valuePanel.setSize(spacing/2.0,(15.0/float(ClientSize.y)));
gInfo->valuePanel.setPosition(midPos, barHeight+(20.0/float(ClientSize.y)));
gInfo->valuePanel.setText(std::to_string(int(gInfo->current)));
gInfo->valuePanel.setFill(GLPanel::GLPANEL_FILL_NONE);
bgPanel.addChild(&(gInfo->valuePanel));
bgPanel.addChild(&(gInfo->panel));
gainInfo.push_back(gInfo);
i++;
}
setThemeColors();
}
void GainCanvas::setThemeColors() {
std::vector<GainInfo *>::iterator gi;
RGBA4f c1, c2;
c1 = ThemeMgr::mgr.currentTheme->generalBackground;
c2 = ThemeMgr::mgr.currentTheme->generalBackground * 0.5;
bgPanel.setFillColor(c1, c2);
for (gi = gainInfo.begin(); gi != gainInfo.end(); gi++) {
GainInfo *gInfo = (*gi);
c1 = ThemeMgr::mgr.currentTheme->generalBackground;
c2 = ThemeMgr::mgr.currentTheme->generalBackground * 0.5;
c1.a = 1.0;
c2.a = 1.0;
gInfo->panel.setFillColor(c1, c2);
c1 = ThemeMgr::mgr.currentTheme->meterLevel * 0.5;
c2 = ThemeMgr::mgr.currentTheme->meterLevel;
c1.a = 1.0;
c2.a = 1.0;
gInfo->levelPanel.setFillColor(c1, c2);
c1 = RGBA4f(0.3,0.3,0.3,1.0);
c2 = RGBA4f(0.65,0.65,0.65,1.0);;
gInfo->highlightPanel.setFillColor(c1, c2);
}
Refresh();
}

63
src/visual/GainCanvas.h Normal file
View File

@ -0,0 +1,63 @@
#pragma once
#include "wx/glcanvas.h"
#include "wx/timer.h"
#include <vector>
#include <queue>
#include "InteractiveCanvas.h"
#include "MouseTracker.h"
#include "GLPanel.h"
#include "PrimaryGLContext.h"
#include "fftw3.h"
#include "Timer.h"
class GainInfo {
public:
std::string name;
float low, high, current;
bool changed;
GLPanel panel;
GLPanel levelPanel;
GLPanel highlightPanel;
GLTextPanel labelPanel;
GLTextPanel valuePanel;
};
class GainCanvas: public InteractiveCanvas {
public:
GainCanvas(wxWindow *parent, int *attribList = NULL);
~GainCanvas();
void setHelpTip(std::string tip);
void updateGainUI();
void setThemeColors();
private:
void OnPaint(wxPaintEvent& event);
void OnIdle(wxIdleEvent &event);
int GetPanelHit(CubicVR::vec2 &result);
void SetLevel();
void OnShow(wxShowEvent& event);
void OnMouseMoved(wxMouseEvent& event);
void OnMouseDown(wxMouseEvent& event);
void OnMouseWheelMoved(wxMouseEvent& event);
void OnMouseReleased(wxMouseEvent& event);
void OnMouseEnterWindow(wxMouseEvent& event);
void OnMouseLeftWindow(wxMouseEvent& event);
PrimaryGLContext *glContext;
std::string helpTip;
std::vector<GainInfo *> gainInfo;
GLPanel bgPanel;
float spacing, barWidth, startPos, barHeight, numGains;
wxSize clientSize;
//
wxDECLARE_EVENT_TABLE();
};

View File

@ -19,7 +19,7 @@
InteractiveCanvas::InteractiveCanvas(wxWindow *parent, int *attribList) :
wxGLCanvas(parent, wxID_ANY, attribList, wxDefaultPosition, wxDefaultSize,
wxFULL_REPAINT_ON_RESIZE), parent(parent), shiftDown(false), altDown(false), ctrlDown(false), centerFreq(0), bandwidth(0), lastBandwidth(0), isView(
wxFULL_REPAINT_ON_RESIZE| wxWANTS_CHARS), parent(parent), shiftDown(false), altDown(false), ctrlDown(false), centerFreq(0), bandwidth(0), lastBandwidth(0), isView(
false) {
mouseTracker.setTarget(this);
}
@ -150,11 +150,11 @@ void InteractiveCanvas::OnMouseEnterWindow(wxMouseEvent& event) {
}
void InteractiveCanvas::setStatusText(std::string statusText) {
((wxFrame*) parent)->GetStatusBar()->SetStatusText(statusText);
wxGetApp().getAppFrame()->GetStatusBar()->SetStatusText(statusText);
}
void InteractiveCanvas::setStatusText(std::string statusText, int value) {
((wxFrame*) parent)->GetStatusBar()->SetStatusText(
wxGetApp().getAppFrame()->GetStatusBar()->SetStatusText(
wxString::Format(statusText.c_str(), wxNumberFormatter::ToString((long) value, wxNumberFormatter::Style_WithThousandsSep)));
}

View File

@ -13,8 +13,8 @@ public:
long long getFrequencyAt(float x);
void setView(long long center_freq_in, int bandwidth_in);
void disableView();
virtual void setView(long long center_freq_in, int bandwidth_in);
virtual void disableView();
bool getViewState();
void setCenterFrequency(long long center_freq_in);

View File

@ -25,6 +25,8 @@ EVT_LEFT_UP(SpectrumCanvas::OnMouseReleased)
EVT_ENTER_WINDOW(SpectrumCanvas::OnMouseEnterWindow)
EVT_LEAVE_WINDOW(SpectrumCanvas::OnMouseLeftWindow)
EVT_MOUSEWHEEL(SpectrumCanvas::OnMouseWheelMoved)
EVT_RIGHT_DOWN(SpectrumCanvas::OnMouseRightDown)
EVT_RIGHT_UP(SpectrumCanvas::OnMouseRightReleased)
wxEND_EVENT_TABLE()
SpectrumCanvas::SpectrumCanvas(wxWindow *parent, int *attribList) :
@ -32,10 +34,13 @@ SpectrumCanvas::SpectrumCanvas(wxWindow *parent, int *attribList) :
glContext = new PrimaryGLContext(this, &wxGetApp().GetContext(this));
mouseTracker.setVertDragLock(true);
visualDataQueue.set_max_num_items(1);
SetCursor(wxCURSOR_SIZEWE);
scaleFactor = 1.0;
resetScaleFactor = false;
scaleFactorEnabled = false;
bwChange = 0.0;
}
SpectrumCanvas::~SpectrumCanvas() {
@ -59,6 +64,15 @@ void SpectrumCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) {
}
}
if (resetScaleFactor) {
scaleFactor += (1.0-scaleFactor)*0.05;
if (fabs(scaleFactor-1.0) < 0.01) {
scaleFactor = 1.0;
resetScaleFactor = false;
}
updateScaleFactor(scaleFactor);
}
glContext->SetCurrent(*this);
initGLExtensions();
@ -137,6 +151,34 @@ bool SpectrumCanvas::getShowDb() {
return spectrumPanel.getShowDb();
}
void SpectrumCanvas::setView(long long center_freq_in, int bandwidth_in) {
bwChange += bandwidth_in-bandwidth;
#define BW_RESET_TH 400000
if (bwChange > BW_RESET_TH || bwChange < -BW_RESET_TH) {
resetScaleFactor = true;
bwChange = 0;
}
InteractiveCanvas::setView(center_freq_in, bandwidth_in);
}
void SpectrumCanvas::disableView() {
InteractiveCanvas::disableView();
}
void SpectrumCanvas::setScaleFactorEnabled(bool en) {
scaleFactorEnabled = en;
}
void SpectrumCanvas::updateScaleFactor(float factor) {
SpectrumVisualProcessor *sp = wxGetApp().getSpectrumProcessor();
FFTVisualDataThread *wdt = wxGetApp().getAppFrame()->getWaterfallDataThread();
SpectrumVisualProcessor *wp = wdt->getProcessor();
scaleFactor = factor;
sp->setScaleFactor(factor);
wp->setScaleFactor(factor);
}
void SpectrumCanvas::OnMouseMoved(wxMouseEvent& event) {
InteractiveCanvas::OnMouseMoved(event);
@ -146,12 +188,32 @@ void SpectrumCanvas::OnMouseMoved(wxMouseEvent& event) {
if (freqChange != 0) {
moveCenterFrequency(freqChange);
}
}
else if (scaleFactorEnabled && mouseTracker.mouseRightDown()) {
float yDelta = mouseTracker.getDeltaMouseY();
scaleFactor += yDelta*2.0;
if (scaleFactor < 0.25) {
scaleFactor = 0.25;
}
if (scaleFactor > 10.0) {
scaleFactor = 10.0;
}
resetScaleFactor = false;
updateScaleFactor(scaleFactor);
} else {
setStatusText("Click and drag to adjust center frequency. 'B' to toggle decibels display.");
if (scaleFactorEnabled) {
setStatusText("Drag horizontal to adjust center frequency. Right-drag or SHIFT+UP/DOWN to adjust vertical scale; right-click to reset. 'B' to toggle decibels display.");
} else {
setStatusText("Displaying spectrum of active demodulator.");
}
}
}
void SpectrumCanvas::OnMouseDown(wxMouseEvent& event) {
mouseTracker.setVertDragLock(true);
InteractiveCanvas::OnMouseDown(event);
SetCursor(wxCURSOR_CROSS);
}
@ -161,7 +223,8 @@ void SpectrumCanvas::OnMouseWheelMoved(wxMouseEvent& event) {
}
void SpectrumCanvas::OnMouseReleased(wxMouseEvent& event) {
InteractiveCanvas::OnMouseReleased(event);
mouseTracker.setVertDragLock(false);
InteractiveCanvas::OnMouseReleased(event);
SetCursor(wxCURSOR_SIZEWE);
}
@ -182,3 +245,17 @@ void SpectrumCanvas::attachWaterfallCanvas(WaterfallCanvas* canvas_in) {
SpectrumVisualDataQueue *SpectrumCanvas::getVisualDataQueue() {
return &visualDataQueue;
}
void SpectrumCanvas::OnMouseRightDown(wxMouseEvent& event) {
mouseTracker.setHorizDragLock(true);
mouseTracker.OnMouseRightDown(event);
scaleFactor = wxGetApp().getSpectrumProcessor()->getScaleFactor();
}
void SpectrumCanvas::OnMouseRightReleased(wxMouseEvent& event) {
mouseTracker.setHorizDragLock(false);
if (!mouseTracker.getOriginDeltaMouseY()) {
resetScaleFactor = true;
}
mouseTracker.OnMouseRightReleased(event);
}

View File

@ -22,6 +22,11 @@ public:
void setShowDb(bool showDb);
bool getShowDb();
void setView(long long center_freq_in, int bandwidth_in);
void disableView();
void setScaleFactorEnabled(bool en);
SpectrumVisualDataQueue *getVisualDataQueue();
private:
@ -35,10 +40,17 @@ private:
void OnMouseReleased(wxMouseEvent& event);
void OnMouseEnterWindow(wxMouseEvent& event);
void OnMouseLeftWindow(wxMouseEvent& event);
void OnMouseRightDown(wxMouseEvent& event);
void OnMouseRightReleased(wxMouseEvent& event);
void updateScaleFactor(float factor);
PrimaryGLContext *glContext;
WaterfallCanvas *waterfallCanvas;
SpectrumPanel spectrumPanel;
float scaleFactor;
int bwChange;
bool resetScaleFactor, scaleFactorEnabled;
SpectrumVisualDataQueue visualDataQueue;

View File

@ -190,8 +190,8 @@ void TuningCanvas::StepTuner(ActiveState state, int exponent, bool up) {
bw += amount;
}
if (bw > wxGetApp().getSampleRate()) {
bw = wxGetApp().getSampleRate();
if (bw > CHANNELIZER_RATE_MAX) {
bw = CHANNELIZER_RATE_MAX;
}
wxGetApp().getDemodMgr().setLastBandwidth(bw);

View File

@ -43,6 +43,7 @@ WaterfallCanvas::WaterfallCanvas(wxWindow *parent, int *attribList) :
lpsIndex = 0;
preBuf = false;
SetCursor(wxCURSOR_CROSS);
scaleMove = 0;
}
WaterfallCanvas::~WaterfallCanvas() {
@ -72,19 +73,16 @@ void WaterfallCanvas::attachSpectrumCanvas(SpectrumCanvas *canvas_in) {
}
void WaterfallCanvas::processInputQueue() {
if (!glContext) {
return;
}
glContext->SetCurrent(*this);
tex_update.lock();
gTimer.update();
double targetVis = 1.0 / (double)linesPerSecond;
lpsIndex += gTimer.lastUpdateSeconds();
bool updated = false;
if (linesPerSecond) {
if (lpsIndex >= targetVis) {
tex_update.lock();
while (lpsIndex >= targetVis) {
SpectrumVisualData *vData;
if (!visualDataQueue.empty()) {
@ -94,21 +92,27 @@ void WaterfallCanvas::processInputQueue() {
waterfallPanel.setPoints(vData->spectrum_points);
waterfallPanel.step();
vData->decRefCount();
updated = true;
}
lpsIndex-=targetVis;
} else {
break;
}
}
tex_update.unlock();
}
}}
}
if (updated) {
wxClientDC(this);
glContext->SetCurrent(*this);
waterfallPanel.update();
}
tex_update.unlock();
}
void WaterfallCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) {
tex_update.lock();
wxPaintDC dc(this);
processInputQueue();
const wxSize ClientSize = GetClientSize();
long double currentZoom = zoom;
@ -120,9 +124,33 @@ void WaterfallCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) {
}
}
if (scaleMove != 0) {
SpectrumVisualProcessor *sp = wxGetApp().getSpectrumProcessor();
FFTVisualDataThread *wdt = wxGetApp().getAppFrame()->getWaterfallDataThread();
SpectrumVisualProcessor *wp = wdt->getProcessor();
float factor = sp->getScaleFactor();
factor += scaleMove * 0.02;
if (factor < 0.25) {
factor = 0.25;
}
if (factor > 10.0) {
factor = 10.0;
}
sp->setScaleFactor(factor);
wp->setScaleFactor(factor);
}
if (freqMove != 0.0) {
long long newFreq = getCenterFrequency() + (long long)((long double)getBandwidth()*freqMove) * 0.01;
long long minFreq = bandwidth/2;
if (newFreq < minFreq) {
newFreq = minFreq;
}
updateCenterFrequency(newFreq);
if (!freqMoving) {
@ -211,9 +239,7 @@ void WaterfallCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) {
glContext->BeginDraw(0,0,0);
waterfallPanel.calcTransform(CubicVR::mat4::identity());
tex_update.lock();
waterfallPanel.draw();
tex_update.unlock();
std::vector<DemodulatorInstance *> &demods = wxGetApp().getDemodMgr().getDemodulators();
@ -293,6 +319,7 @@ void WaterfallCanvas::OnPaint(wxPaintEvent& WXUNUSED(event)) {
glContext->EndDraw();
SwapBuffers();
tex_update.unlock();
}
void WaterfallCanvas::OnKeyUp(wxKeyEvent& event) {
@ -304,14 +331,20 @@ void WaterfallCanvas::OnKeyUp(wxKeyEvent& event) {
case 'A':
case WXK_UP:
case WXK_NUMPAD_UP:
scaleMove = 0.0;
zoom = 1.0;
mouseZoom = 0.95;
if (mouseZoom != 1.0) {
mouseZoom = 0.95;
}
break;
case 'Z':
case WXK_DOWN:
case WXK_NUMPAD_DOWN:
scaleMove = 0.0;
zoom = 1.0;
mouseZoom = 1.05;
if (mouseZoom != 1.0) {
mouseZoom = 1.05;
}
break;
case WXK_LEFT:
case WXK_NUMPAD_LEFT:
@ -334,14 +367,22 @@ void WaterfallCanvas::OnKeyDown(wxKeyEvent& event) {
case 'A':
case WXK_UP:
case WXK_NUMPAD_UP:
mouseZoom = 1.0;
zoom = 0.95;
if (!shiftDown) {
mouseZoom = 1.0;
zoom = 0.95;
} else {
scaleMove = 1.0;
}
break;
case 'Z':
case WXK_DOWN:
case WXK_NUMPAD_DOWN:
mouseZoom = 1.0;
zoom = 1.05;
if (!shiftDown) {
mouseZoom = 1.0;
zoom = 1.05;
} else {
scaleMove = -1.0;
}
break;
case WXK_RIGHT:
case WXK_NUMPAD_RIGHT:
@ -398,7 +439,7 @@ void WaterfallCanvas::OnKeyDown(wxKeyEvent& event) {
return;
}
long long minFreq = wxGetApp().getSampleRate()/2;
long long minFreq = bandwidth/2;
if (freq < minFreq) {
freq = minFreq;
}
@ -409,11 +450,9 @@ void WaterfallCanvas::OnKeyDown(wxKeyEvent& event) {
}
void WaterfallCanvas::OnIdle(wxIdleEvent &event) {
processInputQueue();
Refresh();
event.RequestMore();
if (visualDataQueue.size() > linesPerSecond) {
processInputQueue();
}
}
void WaterfallCanvas::OnMouseMoved(wxMouseEvent& event) {
@ -435,8 +474,8 @@ void WaterfallCanvas::OnMouseMoved(wxMouseEvent& event) {
int currentBW = demod->getBandwidth();
currentBW = currentBW + bwDiff;
if (currentBW > wxGetApp().getSampleRate()) {
currentBW = wxGetApp().getSampleRate();
if (currentBW > CHANNELIZER_RATE_MAX) {
currentBW = CHANNELIZER_RATE_MAX;
}
if (currentBW < MIN_BANDWIDTH) {
currentBW = MIN_BANDWIDTH;
@ -802,6 +841,7 @@ void WaterfallCanvas::updateCenterFrequency(long long freq) {
}
void WaterfallCanvas::setLinesPerSecond(int lps) {
tex_update.lock();
linesPerSecond = lps;
while (!visualDataQueue.empty()) {
SpectrumVisualData *vData;
@ -811,7 +851,7 @@ void WaterfallCanvas::setLinesPerSecond(int lps) {
vData->decRefCount();
}
}
tex_update.unlock();
}

View File

@ -67,6 +67,7 @@ private:
long double freqMove;
float hoverAlpha;
int linesPerSecond;
float scaleMove;
SpectrumVisualDataQueue visualDataQueue;
Timer gTimer;