SR_ARG_OPT_PKG([libftdi], [LIBFTDI], , [libftdi1 >= 1.0])
+# pkg-config file names: MinGW/MacOSX: hidapi; Linux: hidapi-hidraw/-libusb
SR_ARG_OPT_PKG([libhidapi], [LIBHIDAPI], ,
[hidapi >= 0.8.0], [hidapi-hidraw >= 0.8.0], [hidapi-libusb >= 0.8.0])
-SR_ARG_OPT_PKG([libbluez], [LIBBLUEZ], , [bluez >= 4.0], [bluetooth >= 4.0])
+SR_ARG_OPT_PKG([libbluez], [LIBBLUEZ], , [bluez >= 4.0])
# FreeBSD comes with an "integrated" libusb-1.0-style USB API.
# This means libusb-1.0 is always available; no need to check for it.
AS_IF([test "x$sr_have_libieee1284" = xyes],
[SR_PREPEND([SR_EXTRA_LIBS], [-lieee1284])])
+SR_ARG_OPT_PKG([libgio], [LIBGIO], , [gio-2.0 >= 2.24.0])
+
# See if any of the (potentially platform specific) libs are available
# which provide some means of Bluetooth communication.
AS_IF([test "x$sr_have_libbluez" = xyes],
sr_have_bluetooth=yes, sr_have_bluetooth=no)
AS_IF([test "x$sr_have_bluetooth" = xyes],
[AC_DEFINE([HAVE_BLUETOOTH], [1], [Specifies whether Bluetooth communication is supported.])])
+AS_IF([test "x$sr_have_bluetooth" = xyes],
+ [SR_APPEND([sr_deps_avail], [bluetooth_comm])])
AS_IF([test "x$sr_have_libserialport" = xyes -o "x$sr_have_libhidapi" = xyes -o "x$sr_have_bluetooth" = xyes],
sr_have_serial_comm=yes, sr_have_serial_comm=no)
SR_DRIVER([Atten PPS3xxx], [atten-pps3xxx], [serial_comm])
SR_DRIVER([BayLibre ACME], [baylibre-acme], [sys_timerfd_h])
SR_DRIVER([BeagleLogic], [beaglelogic], [sys_mman_h sys_ioctl_h])
-SR_DRIVER([Brymen BM86x], [brymen-bm86x], [libusb])
SR_DRIVER([Brymen DMM], [brymen-dmm], [serial_comm])
SR_DRIVER([CEM DT-885x], [cem-dt-885x], [serial_comm])
SR_DRIVER([Center 3xx], [center-3xx], [serial_comm])
SR_DRIVER([LeCroy LogicStudio], [lecroy-logicstudio], [libusb])
SR_DRIVER([LeCroy X-Stream], [lecroy-xstream])
SR_DRIVER([Manson HCS-3xxx], [manson-hcs-3xxx], [serial_comm])
+SR_DRIVER([Mastech MS6514], [mastech-ms6514], [serial_comm])
SR_DRIVER([maynuo-m97], [maynuo-m97])
SR_DRIVER([MIC 985xx], [mic-985xx], [serial_comm])
SR_DRIVER([Microchip PICkit2], [microchip-pickit2], [libusb])
+SR_DRIVER([Mooshimeter DMM], [mooshimeter-dmm], [bluetooth_comm libgio])
SR_DRIVER([Motech LPS 30x], [motech-lps-30x], [serial_comm])
SR_DRIVER([Norma DMM], [norma-dmm], [serial_comm])
SR_DRIVER([OpenBench Logic Sniffer], [openbench-logic-sniffer], [serial_comm])
SR_DRIVER([Tondaj SL-814], [tondaj-sl-814], [serial_comm])
SR_DRIVER([UNI-T DMM], [uni-t-dmm], [libusb])
SR_DRIVER([UNI-T UT32x], [uni-t-ut32x], [serial_comm])
-SR_DRIVER([Victor DMM], [victor-dmm], [libusb])
SR_DRIVER([Yokogawa DL/DLM], [yokogawa-dlm])
SR_DRIVER([ZEROPLUS Logic Cube], [zeroplus-logic-cube], [libusb])
SR_DRIVER([ZKETECH EBD-USB], [zketech-ebd-usb], [serial_comm])
[], [enable_python=$enable_bindings])
AC_ARG_ENABLE([ruby],
- [AS_HELP_STRING([--enable-ruby], [build Ruby bindings [default=yes]])],
- [], [enable_ruby=$enable_bindings])
+ [AS_HELP_STRING([--enable-ruby], [build Ruby bindings [default=no]])],
+ [], [enable_ruby=no])
AC_ARG_ENABLE([java],
[AS_HELP_STRING([--enable-java], [build Java bindings [default=yes]])],
[SR_APPEND([sr_python_missing], [', '], [numpy])])
# The Python bindings use SWIG to generate code.
-AC_CHECK_PROGS([SWIG], [swig swig3.0 swig2.0])
+AC_CHECK_PROGS([SWIG], [swig swig4.0 swig3.0 swig2.0])
AS_IF([test "x$SWIG" != x],
AC_MSG_CHECKING([for $SWIG version])
[SWIG_VERSION=`$SWIG -version 2>&1 | sed -n 's/SWIG Version //p'`]