diff options
38 files changed, 149 insertions, 3908 deletions
diff --git a/package/firefox/Makefile b/package/firefox/Makefile index e7b81944d..1a9aabb77 100644 --- a/package/firefox/Makefile +++ b/package/firefox/Makefile @@ -4,9 +4,9 @@ include $(ADK_TOPDIR)/rules.mk PKG_NAME:= firefox -PKG_VERSION:= 26.0 -PKG_RELEASE:= 4 -PKG_HASH:= 31c4fb2792df63ae450e350380a5e18cf1c51487011a9da0b6cc4bffb69d9812 +PKG_VERSION:= 35.0 +PKG_RELEASE:= 1 +PKG_HASH:= bedeb5bbd8b49e5b286497ef7732542c6e7441088fd8cd577d7ca8af4c871e81 PKG_DESCR:= graphical webbrowser PKG_SECTION:= x11/apps PKG_DEPENDS:= libpthread alsa-lib glib libgtk libpng libtiff libxcursor libffi @@ -18,20 +18,21 @@ PKG_BUILDDEP+= nspr nss libjpeg-turbo libXt fontconfig sqlite atk libpng hicolo PKG_BUILDDEP+= libvpx pango gettext-tiny bzip2 libevent bzip2-host python2-host yasm-host PKG_BUILDDEP+= zip-host PKG_URL:= http://www.mozilla.org/ -PKG_SITES:= http://releases.mozilla.org/pub/mozilla.org/firefox/releases/${PKG_VERSION}/source/ +PKG_SITES:= http://releases.mozilla.org/pub/mozilla.org/firefox/releases/$(PKG_VERSION)/source/ PKG_NOPARALLEL:= 1 PKG_ARCH_DEPENDS:= arm x86 x86_64 mips PKG_HOST_DEPENDS:= !netbsd !freebsd !openbsd !cygwin -PKG_SYSTEM_DEPENDS:= tarox-pc ibm-x40 lemote-yeelong qemu-i686 qemu-x86_64 qemu-mips64el raspberry-pi +PKG_SYSTEM_DEPENDS:= solidrun-imx6 ibm-x40 lemote-yeelong qemu-i686 qemu-x86_64 qemu-mips64el raspberry-pi -DISTFILES:= ${PKG_NAME}-${PKG_VERSION}.source.tar.bz2 -WRKDIST= ${WRKDIR}/mozilla-release +DISTFILES:= $(PKG_NAME)-$(PKG_VERSION).source.tar.bz2 +WRKDIST= $(WRKDIR)/mozilla-release +WRKBUILD= $(WRKDIR)/$(PKG_NAME)-obj include $(ADK_TOPDIR)/mk/package.mk include $(ADK_TOPDIR)/mk/python.mk -$(eval $(call PKG_template,FIREFOX,firefox,$(PKG_VERSION)-${PKG_RELEASE},${PKG_DEPENDS},${PKG_DESCR},${PKG_SECTION})) +$(eval $(call PKG_template,FIREFOX,firefox,$(PKG_VERSION)-$(PKG_RELEASE),$(PKG_DEPENDS),$(PKG_DESCR),$(PKG_SECTION))) ifeq ($(ADK_DEBUG),y) CONFIGURE_ARGS+= --enable-debug --enable-logging @@ -42,14 +43,14 @@ endif CONFIGURE_ENV+= CROSS_COMPILE=1 \ PYTHON="$(PYTHON)" \ - HOST_CC="${HOST_CC}" \ - HOST_CPPFLAGS="${HOST_CPPFLAGS}" \ - HOST_CFLAGS="${HOST_CFLAGS}" \ - HOST_LDFLAGS="${HOST_LDLAGS}" \ - HOST_CXX="${HOST_CXX}" \ - HOST_CXXFLAGS="${HOST_CXXFLAGS}" \ + HOST_CC="$(HOST_CC)" \ + HOST_CPPFLAGS="$(HOST_CPPFLAGS)" \ + HOST_CFLAGS="$(HOST_CFLAGS)" \ + HOST_LDFLAGS="$(HOST_LDLAGS)" \ + HOST_CXX="$(HOST_CXX)" \ + HOST_CXXFLAGS="$(HOST_CXXFLAGS)" \ HOST_RANLIB="ranlib" HOST_AR="ar" \ - CPPFLAGS="-I${STAGING_TARGET_DIR}/usr/include/freetype2" \ + CPPFLAGS="-I$(STAGING_TARGET_DIR)/usr/include/freetype2" \ ac_cv_sqlite_secure_delete=yes \ ac_cv_sqlite_threadsafe=yes \ ac_cv_sqlite_enable_fts3=yes \ @@ -66,19 +67,24 @@ CONFIGURE_ARGS+= --enable-application=browser \ --with-system-nspr \ --with-system-pango \ --with-system-libvpx \ - --with-system-libevent=${STAGING_TARGET_DIR}/usr \ + --with-system-libevent=$(STAGING_TARGET_DIR)/usr \ --enable-system-ffi \ --enable-system-sqlite \ --disable-libnotify \ - --with-libIDL-prefix=${STAGING_TARGET_DIR}/usr \ - --with-glib-prefix=${STAGING_TARGET_DIR}/usr \ + --with-libIDL-prefix=$(STAGING_TARGET_DIR)/usr \ + --with-glib-prefix=$(STAGING_TARGET_DIR)/usr \ --enable-chrome-format=jar \ --enable-necko-protocols=all \ --enable-libxul \ --enable-alsa \ + --disable-profiling \ + --disable-jprof \ + --disable-shark \ + --disable-systrace \ --disable-pulseaudio \ --disable-gstreamer \ --disable-gio \ + --disable-gold \ --disable-gconf \ --disable-accessibility \ --disable-smil \ @@ -98,6 +104,8 @@ CONFIGURE_ARGS+= --enable-application=browser \ --disable-mathml \ --disable-jemalloc \ --disable-crashreporter \ + --disable-printing \ + --disable-pie \ --disable-updater \ --disable-xpcom-fastload \ --disable-url-classifier \ @@ -109,17 +117,17 @@ TARGET_CFLAGS:= $(subst Os,g3,$(TARGET_CFLAGS)) endif XAKE_FLAGS+= OS_RELEASE="2.6" HOST_CC=$(HOST_CC) HOST_LDFLAGS=$(HOST_LDFLAGS) -XAKE_FLAGS+= ARCHFLAG="${TARGET_CFLAGS} ${TARGET_CPPFLAGS} ${TARGET_LDFLAGS} -lnss3 -lnssutil3 -lsmime3 -lssl3 -fPIC" +XAKE_FLAGS+= ARCHFLAG="$(TARGET_CFLAGS) $(TARGET_CPPFLAGS) $(TARGET_LDFLAGS) -lnss3 -lnssutil3 -lsmime3 -lssl3 -fPIC" pre-build: - -mkdir ${WRKBUILD}/js/src/.deps + -mkdir $(WRKBUILD)/js/src/.deps firefox-install: $(INSTALL_DIR) $(IDIR_FIREFOX)/usr/bin $(INSTALL_DIR) $(IDIR_FIREFOX)/usr/lib - $(CP) $(WRKINST)/usr/lib/firefox-${PKG_VERSION} \ + $(CP) $(WRKINST)/usr/lib/firefox-$(PKG_VERSION) \ $(IDIR_FIREFOX)/usr/lib $(CP) ./files/firefox \ $(IDIR_FIREFOX)/usr/bin -include ${ADK_TOPDIR}/mk/pkg-bottom.mk +include $(ADK_TOPDIR)/mk/pkg-bottom.mk diff --git a/package/firefox/files/firefox b/package/firefox/files/firefox index 339daaf09..30470334a 100755 --- a/package/firefox/files/firefox +++ b/package/firefox/files/firefox @@ -1,2 +1,2 @@ #!/bin/sh -env LD_LIBRARY_PATH=/usr/lib/firefox-26.0 /usr/lib/firefox-26.0/firefox +env LD_LIBRARY_PATH=/usr/lib/firefox-35.0 /usr/lib/firefox-35.0/firefox diff --git a/package/firefox/patches/patch-configure b/package/firefox/patches/patch-configure index 884cea4dd..52210624e 100644 --- a/package/firefox/patches/patch-configure +++ b/package/firefox/patches/patch-configure @@ -1,30 +1,41 @@ ---- mozilla-release.orig/configure 2013-12-05 17:08:46.000000000 +0100 -+++ mozilla-release/configure 2014-01-06 18:17:43.008094174 +0100 -@@ -9787,27 +9787,6 @@ if test -z "$GNU_CC"; then - esac +--- mozilla-release.orig/configure 2015-01-09 05:39:04.000000000 +0100 ++++ mozilla-release/configure 2015-02-04 11:49:00.000000000 +0100 +@@ -8156,38 +8156,6 @@ EOF + fi --if test "$GNU_CC" -a -n "$DEVELOPER_OPTIONS"; then -- if $CC -Wl,--version 2>&1 | grep -q "GNU ld"; then -- GOLD=$($CC -print-prog-name=ld.gold) -- case "$GOLD" in -- /*) -- ;; -- *) -- GOLD=$(which $GOLD) -- ;; -- esac -- if test -n "$GOLD"; then -- mkdir -p $_objdir/build/unix/gold -- ln -s "$GOLD" $_objdir/build/unix/gold/ld -- if $CC -B $_objdir/build/unix/gold -Wl,--version 2>&1 | grep -q "GNU gold"; then -- LDFLAGS="$LDFLAGS -B $_objdir/build/unix/gold" -- else -- rm -rf $_objdir/build/unix/gold -- fi -- fi -- fi +-MOZ_ENABLE_PROFILER_SPS=1 +- +-case "${OS_TARGET}" in +-Android) +- case "${CPU_ARCH}" in +- x86 | arm) ;; +- *) +- MOZ_ENABLE_PROFILER_SPS= +- esac +- ;; +-Linux) +- case "${CPU_ARCH}" in +- x86 | x86_64) ;; +- *) +- MOZ_ENABLE_PROFILER_SPS= +- esac +- ;; +-WINNT|Darwin) ;; +-*) +- MOZ_ENABLE_PROFILER_SPS= +- ;; +-esac +- +-if test -n "$MOZ_ENABLE_PROFILER_SPS"; then +- cat >> confdefs.pytmp <<\EOF +- (''' MOZ_ENABLE_PROFILER_SPS ''', ' 1 ') +-EOF +-cat >> confdefs.h <<\EOF +-#define MOZ_ENABLE_PROFILER_SPS 1 +-EOF +- -fi - if test "$GNU_CC"; then - if test -z "$DEVELOPER_OPTIONS"; then + # Check whether --enable-shark or --disable-shark was given. + if test "${enable_shark+set}" = set; then diff --git a/package/firefox/patches/patch-gfx_angle_src_common_angleutils_cpp b/package/firefox/patches/patch-gfx_angle_src_common_angleutils_cpp new file mode 100644 index 000000000..bcf9ac30a --- /dev/null +++ b/package/firefox/patches/patch-gfx_angle_src_common_angleutils_cpp @@ -0,0 +1,10 @@ +--- mozilla-release.orig/gfx/angle/src/common/angleutils.cpp 2015-01-09 05:38:28.000000000 +0100 ++++ mozilla-release/gfx/angle/src/common/angleutils.cpp 2015-02-03 04:42:10.000000000 +0100 +@@ -7,6 +7,7 @@ + #include "common/angleutils.h" + + #include <vector> ++#include <cstdio> + + std::string FormatString(const char *fmt, va_list vararg) + { diff --git a/package/firefox/patches/patch-gfx_layers_BufferUnrotate_cpp b/package/firefox/patches/patch-gfx_layers_BufferUnrotate_cpp deleted file mode 100644 index 0a96d2259..000000000 --- a/package/firefox/patches/patch-gfx_layers_BufferUnrotate_cpp +++ /dev/null @@ -1,10 +0,0 @@ ---- mozilla-release.orig/gfx/layers/BufferUnrotate.cpp 2013-12-05 17:07:31.000000000 +0100 -+++ mozilla-release/gfx/layers/BufferUnrotate.cpp 2014-01-06 21:27:39.000000000 +0100 -@@ -8,6 +8,7 @@ - #include <stdint.h> - #include <stdio.h> - #include <stdlib.h> -+#include <string.h> - - void BufferUnrotate(uint8_t* aBuffer, int aByteWidth, int aHeight, - int aByteStride, int aXBoundary, int aYBoundary) diff --git a/package/firefox/patches/patch-ipc_chromium_src_base_debug_util_posix_cc b/package/firefox/patches/patch-ipc_chromium_src_base_debug_util_posix_cc deleted file mode 100644 index 8537bed9a..000000000 --- a/package/firefox/patches/patch-ipc_chromium_src_base_debug_util_posix_cc +++ /dev/null @@ -1,13 +0,0 @@ ---- mozilla-release.orig/ipc/chromium/src/base/debug_util_posix.cc 2013-09-11 01:15:04.000000000 +0200 -+++ mozilla-release/ipc/chromium/src/base/debug_util_posix.cc 2013-10-23 16:28:38.000000000 +0200 -@@ -5,7 +5,9 @@ - #include "build/build_config.h" - #include "base/debug_util.h" - --#define MOZ_HAVE_EXECINFO_H (defined(OS_LINUX) && !defined(ANDROID)) -+#include <features.h> -+ -+#define MOZ_HAVE_EXECINFO_H (defined(OS_LINUX) && !defined(ANDROID) && !defined(__UCLIBC__)) && defined(__GLIBC__) - - #include <errno.h> - #include <fcntl.h> diff --git a/package/firefox/patches/patch-ipc_chromium_src_base_file_util_h b/package/firefox/patches/patch-ipc_chromium_src_base_file_util_h deleted file mode 100644 index 5f7e30a10..000000000 --- a/package/firefox/patches/patch-ipc_chromium_src_base_file_util_h +++ /dev/null @@ -1,10 +0,0 @@ ---- mozilla-release.orig/ipc/chromium/src/base/file_util.h 2013-12-05 17:07:35.000000000 +0100 -+++ mozilla-release/ipc/chromium/src/base/file_util.h 2014-01-02 15:01:42.000000000 +0100 -@@ -16,7 +16,6 @@ - #include <sys/stat.h> - #elif defined(OS_POSIX) - #include <sys/types.h> --#include <fts.h> - #include <sys/stat.h> - #endif - diff --git a/package/firefox/patches/patch-ipc_chromium_src_base_file_util_posix_cc b/package/firefox/patches/patch-ipc_chromium_src_base_file_util_posix_cc deleted file mode 100644 index 7680a29c4..000000000 --- a/package/firefox/patches/patch-ipc_chromium_src_base_file_util_posix_cc +++ /dev/null @@ -1,48 +0,0 @@ ---- mozilla-release.orig/ipc/chromium/src/base/file_util_posix.cc 2013-12-05 17:07:35.000000000 +0100 -+++ mozilla-release/ipc/chromium/src/base/file_util_posix.cc 2014-01-02 14:53:44.000000000 +0100 -@@ -8,13 +8,16 @@ - #include <errno.h> - #include <fcntl.h> - #include <fnmatch.h> --#ifndef ANDROID -+#ifndef __GLIBC__ -+#define NO_FTS -+#endif -+#ifndef NO_FTS - #include <fts.h> - #endif - #include <libgen.h> - #include <stdio.h> - #include <string.h> --#include <sys/errno.h> -+#include <errno.h> - #include <sys/mman.h> - #define _DARWIN_USE_64_BIT_INODE // Use 64-bit inode data structures - #include <sys/stat.h> -@@ -67,7 +70,7 @@ bool Delete(const FilePath& path, bool r - if (!recursive) - return (rmdir(path_str) == 0); - --#ifdef ANDROID -+#ifdef NO_FTS - // XXX Need ftsless impl for bionic - return false; - #else -@@ -140,7 +143,7 @@ bool CopyDirectory(const FilePath& from_ - return false; - } - --#ifdef ANDROID -+#ifdef NO_FTS - // XXX Need ftsless impl for bionic - return false; - #else -@@ -333,7 +336,7 @@ bool CreateNewTempDirectory(const FilePa - return false; - tmpdir = tmpdir.Append(kTempFileName); - std::string tmpdir_string = tmpdir.value(); --#ifdef ANDROID -+#ifdef NO_FTS - char* dtemp = NULL; - #else - // this should be OK since mkdtemp just replaces characters in place diff --git a/package/firefox/patches/patch-js_src_Makefile_in b/package/firefox/patches/patch-js_src_Makefile_in index d4acee98c..b536ab3f5 100644 --- a/package/firefox/patches/patch-js_src_Makefile_in +++ b/package/firefox/patches/patch-js_src_Makefile_in @@ -1,11 +1,11 @@ ---- mozilla-release.orig/js/src/Makefile.in 2013-12-05 17:07:35.000000000 +0100 -+++ mozilla-release/js/src/Makefile.in 2014-01-02 14:53:44.000000000 +0100 -@@ -103,7 +103,7 @@ ifdef JS_HAS_CTYPES - VPATH += $(srcdir)/ctypes +--- mozilla-release.orig/js/src/Makefile.in 2015-01-09 05:38:17.000000000 +0100 ++++ mozilla-release/js/src/Makefile.in 2015-01-29 17:03:28.000000000 +0100 +@@ -21,7 +21,7 @@ NO_EXPAND_LIBS = 1 + ifdef JS_HAS_CTYPES ifdef MOZ_NATIVE_FFI -LOCAL_INCLUDES = $(MOZ_FFI_CFLAGS) -+LOCAL_INCLUDES = - else - LOCAL_INCLUDES = -Ictypes/libffi/include ++LOCAL_INCLUDES = endif + + # Windows needs this to be linked with a static library. diff --git a/package/firefox/patches/patch-js_src_assembler_wtf_Platform_h b/package/firefox/patches/patch-js_src_assembler_wtf_Platform_h deleted file mode 100644 index 68a7adf0a..000000000 --- a/package/firefox/patches/patch-js_src_assembler_wtf_Platform_h +++ /dev/null @@ -1,12 +0,0 @@ ---- mozilla-release.orig/js/src/assembler/wtf/Platform.h 2013-09-11 01:15:04.000000000 +0200 -+++ mozilla-release/js/src/assembler/wtf/Platform.h 2013-10-28 12:43:50.000000000 +0100 -@@ -139,8 +139,7 @@ - - /* WTF_CPU_MIPS - MIPS 32-bit */ - /* Note: Only O32 ABI is tested, so we enable it for O32 ABI for now. */ --#if (defined(mips) || defined(__mips__) || defined(MIPS) || defined(_MIPS_)) \ -- && defined(_ABIO32) -+#if (defined(mips) || defined(__mips__) || defined(MIPS) || defined(_MIPS_)) - #define WTF_CPU_MIPS 1 - #if defined(__MIPSEB__) - #define WTF_CPU_BIG_ENDIAN 1 diff --git a/package/firefox/patches/patch-js_src_configure b/package/firefox/patches/patch-js_src_configure deleted file mode 100644 index c37f501e4..000000000 --- a/package/firefox/patches/patch-js_src_configure +++ /dev/null @@ -1,31 +0,0 @@ ---- mozilla-release.orig/js/src/configure 2013-12-05 17:08:46.000000000 +0100 -+++ mozilla-release/js/src/configure 2014-01-07 19:30:38.660353287 +0100 -@@ -8652,28 +8652,6 @@ if test -z "$GNU_CC"; then - esac - fi - --if test "$GNU_CC" -a -n "$DEVELOPER_OPTIONS"; then -- if $CC -Wl,--version 2>&1 | grep -q "GNU ld"; then -- GOLD=$($CC -print-prog-name=ld.gold) -- case "$GOLD" in -- /*) -- ;; -- *) -- GOLD=$(which $GOLD) -- ;; -- esac -- if test -n "$GOLD"; then -- mkdir -p $_objdir/build/unix/gold -- ln -s "$GOLD" $_objdir/build/unix/gold/ld -- if $CC -B $_objdir/build/unix/gold -Wl,--version 2>&1 | grep -q "GNU gold"; then -- LDFLAGS="$LDFLAGS -B $_objdir/build/unix/gold" -- else -- rm -rf $_objdir/build/unix/gold -- fi -- fi -- fi --fi -- - if test "$GNU_CC"; then - if test -z "$DEVELOPER_OPTIONS"; then - CFLAGS="$CFLAGS -ffunction-sections -fdata-sections" diff --git a/package/firefox/patches/patch-js_src_yarr_BumpPointerAllocator_h b/package/firefox/patches/patch-js_src_yarr_BumpPointerAllocator_h deleted file mode 100644 index 1697dfddd..000000000 --- a/package/firefox/patches/patch-js_src_yarr_BumpPointerAllocator_h +++ /dev/null @@ -1,11 +0,0 @@ ---- mozilla-release.orig/js/src/yarr/BumpPointerAllocator.h 2013-09-11 01:15:09.000000000 +0200 -+++ mozilla-release/js/src/yarr/BumpPointerAllocator.h 2013-10-28 12:44:10.000000000 +0100 -@@ -38,6 +38,8 @@ namespace WTF { - #define MINIMUM_BUMP_POOL_SIZE 0x2000 - #elif WTF_CPU_IA64 - #define MINIMUM_BUMP_POOL_SIZE 0x4000 -+#elif WTF_CPU_MIPS -+#define MINIMUM_BUMP_POOL_SIZE 0x4000 - #else - #define MINIMUM_BUMP_POOL_SIZE 0x1000 - #endif diff --git a/package/firefox/patches/patch-media_mtransport_third_party_nICEr_src_stun_addrs_c b/package/firefox/patches/patch-media_mtransport_third_party_nICEr_src_stun_addrs_c deleted file mode 100644 index f2b55cd6a..000000000 --- a/package/firefox/patches/patch-media_mtransport_third_party_nICEr_src_stun_addrs_c +++ /dev/null @@ -1,43 +0,0 @@ ---- mozilla-release.orig/media/mtransport/third_party/nICEr/src/stun/addrs.c 2013-12-05 17:07:48.000000000 +0100 -+++ mozilla-release/media/mtransport/third_party/nICEr/src/stun/addrs.c 2014-03-16 18:41:03.000000000 +0100 -@@ -45,7 +45,9 @@ static char *RCSSTRING __UNUSED__="$Id: - #include <sys/param.h> - #include <sys/socket.h> - #ifndef ANDROID -+#ifdef __GLIBC__ - #include <sys/sysctl.h> -+#endif - #include <sys/syslog.h> - #else - #include <syslog.h> -@@ -53,7 +55,9 @@ static char *RCSSTRING __UNUSED__="$Id: - #undef __unused - #include <linux/sysctl.h> - #endif -+#if defined(__GLIBC__) - #include <net/if.h> -+#endif - #ifndef LINUX - #if !defined(__OpenBSD__) && !defined(__NetBSD__) - #include <net/if_var.h> -@@ -61,14 +65,17 @@ static char *RCSSTRING __UNUSED__="$Id: - #include <net/if_dl.h> - #include <net/if_types.h> - #include <sys/sockio.h> --#else -+#elif defined(__GLIBC__) - #include <linux/sockios.h> - #include <linux/if.h> - #include <linux/kernel.h> - #include <linux/wireless.h> --#ifndef ANDROID - #include <linux/ethtool.h> --#endif -+#else -+#include <linux/sockios.h> -+#include <linux/kernel.h> -+#include <linux/wireless.h> -+#include <linux/ethtool.h> - #endif - #include <net/route.h> - diff --git a/package/firefox/patches/patch-media_mtransport_third_party_nICEr_src_stun_stun_h b/package/firefox/patches/patch-media_mtransport_third_party_nICEr_src_stun_stun_h deleted file mode 100644 index 7877d65cc..000000000 --- a/package/firefox/patches/patch-media_mtransport_third_party_nICEr_src_stun_stun_h +++ /dev/null @@ -1,12 +0,0 @@ ---- mozilla-release.orig/media/mtransport/third_party/nICEr/src/stun/stun.h 2013-12-05 17:07:48.000000000 +0100 -+++ mozilla-release/media/mtransport/third_party/nICEr/src/stun/stun.h 2014-01-03 17:19:05.000000000 +0100 -@@ -39,7 +39,9 @@ OF THIS SOFTWARE, EVEN IF ADVISED OF THE - #else - #include <sys/param.h> - #include <sys/socket.h> -+#if defined(__GLIBC__) - #include <net/if.h> -+#endif - #ifndef LINUX - #if !defined(__OpenBSD__) && !defined(__NetBSD__) - #include <net/if_var.h> diff --git a/package/firefox/patches/patch-media_webrtc_trunk_tools_gyp_pylib_gyp_common_py b/package/firefox/patches/patch-media_webrtc_trunk_tools_gyp_pylib_gyp_common_py deleted file mode 100644 index 60d33bb2e..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_tools_gyp_pylib_gyp_common_py +++ /dev/null @@ -1,23 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/tools/gyp/pylib/gyp/common.py 2013-12-05 17:07:48.000000000 +0100 -+++ mozilla-release/media/webrtc/trunk/tools/gyp/pylib/gyp/common.py 2014-02-05 08:12:49.000000000 +0100 -@@ -364,20 +364,6 @@ def WriteOnDiff(filename): - - def GetFlavor(params): - """Returns |params.flavor| if it's set, the system's default flavor else.""" -- flavors = { -- 'cygwin': 'win', -- 'win32': 'win', -- 'darwin': 'mac', -- } -- -- if 'flavor' in params: -- return params['flavor'] -- if sys.platform in flavors: -- return flavors[sys.platform] -- if sys.platform.startswith('sunos'): -- return 'solaris' -- if sys.platform.startswith('freebsd'): -- return 'freebsd' - - return 'linux' - diff --git a/package/firefox/patches/patch-media_webrtc_trunk_tools_gyp_pylib_gyp_generator_mozmake_py b/package/firefox/patches/patch-media_webrtc_trunk_tools_gyp_pylib_gyp_generator_mozmake_py deleted file mode 100644 index 452d380f0..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_tools_gyp_pylib_gyp_generator_mozmake_py +++ /dev/null @@ -1,26 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/tools/gyp/pylib/gyp/generator/mozmake.py 2013-12-05 17:07:48.000000000 +0100 -+++ mozilla-release/media/webrtc/trunk/tools/gyp/pylib/gyp/generator/mozmake.py 2014-02-05 08:13:30.000000000 +0100 -@@ -118,23 +118,6 @@ def ensure_directory_exists(path): - - def GetFlavor(params): - """Returns |params.flavor| if it's set, the system's default flavor else.""" -- system = platform.system().lower() -- flavors = { -- 'microsoft': 'win', -- 'windows' : 'win', -- 'cygwin' : 'win', -- 'darwin' : 'mac', -- 'sunos' : 'solaris', -- 'dragonfly': 'dragonfly', -- 'freebsd' : 'freebsd', -- 'netbsd' : 'netbsd', -- 'openbsd' : 'openbsd', -- } -- -- if 'flavor' in params: -- return params['flavor'] -- if system in flavors: -- return flavors[system] - - return 'linux' - diff --git a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_audio_device_impl_cc b/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_audio_device_impl_cc deleted file mode 100644 index 0ef4e5714..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_audio_device_impl_cc +++ /dev/null @@ -1,11 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/webrtc/modules/audio_device/audio_device_impl.cc 2013-09-11 01:15:17.000000000 +0200 -+++ mozilla-release/media/webrtc/trunk/webrtc/modules/audio_device/audio_device_impl.cc 2013-10-23 16:28:38.000000000 +0200 -@@ -8,6 +8,8 @@ - * be found in the AUTHORS file in the root of the source tree. - */ - -+#define _POSIX_SOURCE -+ - #include "audio_device_impl.h" - #include "audio_device_config.h" - #include "common_audio/signal_processing/include/signal_processing_library.h" diff --git a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_linux_audio_device_alsa_linux_cc b/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_linux_audio_device_alsa_linux_cc deleted file mode 100644 index a5fd50511..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_linux_audio_device_alsa_linux_cc +++ /dev/null @@ -1,11 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/webrtc/modules/audio_device/linux/audio_device_alsa_linux.cc 2013-09-11 01:15:17.000000000 +0200 -+++ mozilla-release/media/webrtc/trunk/webrtc/modules/audio_device/linux/audio_device_alsa_linux.cc 2013-10-23 16:28:38.000000000 +0200 -@@ -8,6 +8,8 @@ - * be found in the AUTHORS file in the root of the source tree. - */ - -+#define _POSIX_SOURCE -+ - #include <cassert> - - #include "audio_device_utility.h" diff --git a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_linux_audio_mixer_manager_alsa_linux_cc b/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_linux_audio_mixer_manager_alsa_linux_cc deleted file mode 100644 index 2544d6c08..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_modules_audio_device_linux_audio_mixer_manager_alsa_linux_cc +++ /dev/null @@ -1,11 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/webrtc/modules/audio_device/linux/audio_mixer_manager_alsa_linux.cc 2013-09-11 01:15:17.000000000 +0200 -+++ mozilla-release/media/webrtc/trunk/webrtc/modules/audio_device/linux/audio_mixer_manager_alsa_linux.cc 2013-10-23 16:28:38.000000000 +0200 -@@ -8,6 +8,8 @@ - * be found in the AUTHORS file in the root of the source tree. - */ - -+#define _POSIX_SOURCE -+ - #include <cassert> - - #include "audio_mixer_manager_alsa_linux.h" diff --git a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_system_wrappers_source_cpu_info_cc b/package/firefox/patches/patch-media_webrtc_trunk_webrtc_system_wrappers_source_cpu_info_cc deleted file mode 100644 index 5e066a88a..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_system_wrappers_source_cpu_info_cc +++ /dev/null @@ -1,23 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/webrtc/system_wrappers/source/cpu_info.cc 2013-12-05 17:07:50.000000000 +0100 -+++ mozilla-release/media/webrtc/trunk/webrtc/system_wrappers/source/cpu_info.cc 2014-03-16 10:56:09.000000000 +0100 -@@ -36,11 +36,6 @@ uint32_t CpuInfo::DetectNumberOfCores() - WEBRTC_TRACE(kTraceStateInfo, kTraceUtility, -1, - "Available number of cores:%d", number_of_cores_); - --#elif defined(WEBRTC_LINUX) && !defined(WEBRTC_ANDROID) && !defined(WEBRTC_GONK) -- number_of_cores_ = static_cast<uint32_t>(sysconf(_SC_NPROCESSORS_ONLN)); -- WEBRTC_TRACE(kTraceStateInfo, kTraceUtility, -1, -- "Available number of cores:%d", number_of_cores_); -- - #elif defined(WEBRTC_BSD) || defined(WEBRTC_MAC) - int name[] = { - CTL_HW, -@@ -61,8 +56,6 @@ uint32_t CpuInfo::DetectNumberOfCores() - "Failed to get number of cores"); - number_of_cores_ = 1; - } --#elif defined(_SC_NPROCESSORS_ONLN) -- number_of_cores_ = sysconf(_SC_NPROCESSORS_ONLN); - #else - WEBRTC_TRACE(kTraceWarning, kTraceUtility, -1, - "No function to get number of cores"); diff --git a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_system_wrappers_source_spreadsortlib_spreadsort_hpp b/package/firefox/patches/patch-media_webrtc_trunk_webrtc_system_wrappers_source_spreadsortlib_spreadsort_hpp deleted file mode 100644 index 95cfd56ba..000000000 --- a/package/firefox/patches/patch-media_webrtc_trunk_webrtc_system_wrappers_source_spreadsortlib_spreadsort_hpp +++ /dev/null @@ -1,3385 +0,0 @@ ---- mozilla-release.orig/media/webrtc/trunk/webrtc/system_wrappers/source/spreadsortlib/spreadsort.hpp 2013-12-05 17:07:50.000000000 +0100 -+++ mozilla-release/media/webrtc/trunk/webrtc/system_wrappers/source/spreadsortlib/spreadsort.hpp 2014-02-05 09:52:11.000000000 +0100 -@@ -1,1688 +1,1694 @@ --//Templated spread_sort library
--
--// Copyright Steven J. Ross 2001 - 2009.
--// Distributed under the Boost Software License, Version 1.0.
--// (See accompanying file LICENSE_1_0.txt or copy at
--// http://www.boost.org/LICENSE_1_0.txt)
--
--// See http://www.boost.org/ for updates, documentation, and revision history.
--
--/*
--Some improvements suggested by:
--Phil Endecott and Frank Gennari
--Cygwin fix provided by:
--Scott McMurray
--*/
--
--#ifndef BOOST_SPREAD_SORT_H
--#define BOOST_SPREAD_SORT_H
--#include <algorithm>
--#include <cstring>
--#include <vector>
--#include "webrtc/system_wrappers/source/spreadsortlib/constants.hpp"
--
--namespace boost {
-- namespace detail {
-- //This only works on unsigned data types
-- template <typename T>
-- inline unsigned
-- rough_log_2_size(const T& input)
-- {
-- unsigned result = 0;
-- //The && is necessary on some compilers to avoid infinite loops; it doesn't significantly impair performance
-- while((input >> result) && (result < (8*sizeof(T)))) ++result;
-- return result;
-- }
--
-- //Gets the maximum size which we'll call spread_sort on to control worst-case performance
-- //Maintains both a minimum size to recurse and a check of distribution size versus count
-- //This is called for a set of bins, instead of bin-by-bin, to avoid performance overhead
-- inline size_t
-- get_max_count(unsigned log_range, size_t count)
-- {
-- unsigned divisor = rough_log_2_size(count);
-- //Making sure the divisor is positive
-- if(divisor > LOG_MEAN_BIN_SIZE)
-- divisor -= LOG_MEAN_BIN_SIZE;
-- else
-- divisor = 1;
-- unsigned relative_width = (LOG_CONST * log_range)/((divisor > MAX_SPLITS) ? MAX_SPLITS : divisor);
-- //Don't try to bitshift more than the size of an element
-- if((8*sizeof(size_t)) <= relative_width)
-- relative_width = (8*sizeof(size_t)) - 1;
-- return (size_t)1 << ((relative_width < (LOG_MEAN_BIN_SIZE + LOG_MIN_SPLIT_COUNT)) ?
-- (LOG_MEAN_BIN_SIZE + LOG_MIN_SPLIT_COUNT) : relative_width);
-- }
--
-- //Find the minimum and maximum using <
-- template <class RandomAccessIter>
-- inline void
-- find_extremes(RandomAccessIter current, RandomAccessIter last, RandomAccessIter & max, RandomAccessIter & min)
-- {
-- min = max = current;
-- //Start from the second item, as max and min are initialized to the first
-- while(++current < last) {
-- if(*max < *current)
-- max = current;
-- else if(*current < *min)
-- min = current;
-- }
-- }
--
-- //Uses a user-defined comparison operator to find minimum and maximum
-- template <class RandomAccessIter, class compare>
-- inline void
-- find_extremes(RandomAccessIter current, RandomAccessIter last, RandomAccessIter & max, RandomAccessIter & min, compare comp)
-- {
-- min = max = current;
-- while(++current < last) {
-- if(comp(*max, *current))
-- max = current;
-- else if(comp(*current, *min))
-- min = current;
-- }
-- }
--
-- //Gets a non-negative right bit shift to operate as a logarithmic divisor
-- inline int
-- get_log_divisor(size_t count, unsigned log_range)
-- {
-- int log_divisor;
-- //If we can finish in one iteration without exceeding either (2 to the MAX_SPLITS) or n bins, do so
-- if((log_divisor = log_range - rough_log_2_size(count)) <= 0 && log_range < MAX_SPLITS)
-- log_divisor = 0;
-- else {
-- //otherwise divide the data into an optimized number of pieces
-- log_divisor += LOG_MEAN_BIN_SIZE;
-- if(log_divisor < 0)
-- log_divisor = 0;
-- //Cannot exceed MAX_SPLITS or cache misses slow down bin lookups dramatically
-- if((log_range - log_divisor) > MAX_SPLITS)
-- log_divisor = log_range - MAX_SPLITS;
-- }
-- return log_divisor;
-- }
--
-- template <class RandomAccessIter>
-- inline RandomAccessIter *
-- size_bins(std::vector<size_t> &bin_sizes, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset, unsigned &cache_end, unsigned bin_count)
-- {
-- //Assure space for the size of each bin, followed by initializing sizes
-- if(bin_count > bin_sizes.size())
-- bin_sizes.resize(bin_count);
-- for(size_t u = 0; u < bin_count; u++)
-- bin_sizes[u] = 0;
-- //Make sure there is space for the bins
-- cache_end = cache_offset + bin_count;
-- if(cache_end > bin_cache.size())
-- bin_cache.resize(cache_end);
-- return &(bin_cache[cache_offset]);
-- }
--
-- //Implementation for recursive integer sorting
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void
-- spread_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes)
-- {
-- //This step is roughly 10% of runtime, but it helps avoid worst-case behavior and improve behavior with real data
-- //If you know the maximum and minimum ahead of time, you can pass those values in and skip this step for the first iteration
-- RandomAccessIter max, min;
-- find_extremes(first, last, max, min);
-- //max and min will be the same (the first item) iff all values are equivalent
-- if(max == min)
-- return;
-- RandomAccessIter * target_bin;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(*max >> 0) - (*min >> 0)));
-- div_type div_min = *min >> log_divisor;
-- div_type div_max = *max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin; this takes roughly 10% of runtime
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[(*(current++) >> log_divisor) - div_min]++;
-- //Assign the bin positions
-- bins[0] = first;
-- for(unsigned u = 0; u < bin_count - 1; u++)
-- bins[u + 1] = bins[u] + bin_sizes[u];
--
-- //Swap into place
-- //This dominates runtime, mostly in the swap and bin lookups
-- RandomAccessIter nextbinstart = first;
-- for(unsigned u = 0; u < bin_count - 1; ++u) {
-- RandomAccessIter * local_bin = bins + u;
-- nextbinstart += bin_sizes[u];
-- //Iterating over each element in this bin
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //Swapping elements in current into place until the correct element has been swapped in
-- for(target_bin = (bins + ((*current >> log_divisor) - div_min)); target_bin != local_bin;
-- target_bin = bins + ((*current >> log_divisor) - div_min)) {
-- //3-way swap; this is about 1% faster than a 2-way swap with integers
-- //The main advantage is less copies are involved per item put in the correct place
-- data_type tmp;
-- RandomAccessIter b = (*target_bin)++;
-- RandomAccessIter * b_bin = bins + ((*b >> log_divisor) - div_min);
-- if (b_bin != local_bin) {
-- RandomAccessIter c = (*b_bin)++;
-- tmp = *c;
-- *c = *b;
-- }
-- else
-- tmp = *b;
-- *b = *current;
-- *current = tmp;
-- }
-- }
-- *local_bin = nextbinstart;
-- }
-- bins[bin_count - 1] = last;
--
-- //If we've bucketsorted, the array is sorted and we should skip recursion
-- if(!log_divisor)
-- return;
--
-- //Recursing; log_divisor is the remaining range
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- //don't sort unless there are at least two items to compare
-- if(count < 2)
-- continue;
-- //using std::sort if its worst-case is better
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u]);
-- else
-- spread_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes);
-- }
-- }
--
-- //Generic bitshift-based 3-way swapping code
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void inner_swap_loop(RandomAccessIter * bins, const RandomAccessIter & nextbinstart, unsigned ii, right_shift &shift
-- , const unsigned log_divisor, const div_type div_min)
-- {
-- RandomAccessIter * local_bin = bins + ii;
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- for(RandomAccessIter * target_bin = (bins + (shift(*current, log_divisor) - div_min)); target_bin != local_bin;
-- target_bin = bins + (shift(*current, log_divisor) - div_min)) {
-- data_type tmp;
-- RandomAccessIter b = (*target_bin)++;
-- RandomAccessIter * b_bin = bins + (shift(*b, log_divisor) - div_min);
-- //Three-way swap; if the item to be swapped doesn't belong in the current bin, swap it to where it belongs
-- if (b_bin != local_bin) {
-- RandomAccessIter c = (*b_bin)++;
-- tmp = *c;
-- *c = *b;
-- }
-- //Note: we could increment current once the swap is done in this case, but that seems to impair performance
-- else
-- tmp = *b;
-- *b = *current;
-- *current = tmp;
-- }
-- }
-- *local_bin = nextbinstart;
-- }
--
-- //Standard swapping wrapper for ascending values
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void swap_loop(RandomAccessIter * bins, RandomAccessIter & nextbinstart, unsigned ii, right_shift &shift
-- , const std::vector<size_t> &bin_sizes, const unsigned log_divisor, const div_type div_min)
-- {
-- nextbinstart += bin_sizes[ii];
-- inner_swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, log_divisor, div_min);
-- }
--
-- //Functor implementation for recursive sorting
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare>
-- inline void
-- spread_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes, right_shift shift, compare comp)
-- {
-- RandomAccessIter max, min;
-- find_extremes(first, last, max, min, comp);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(shift(*max, 0)) - (shift(*min, 0))));
-- div_type div_min = shift(*min, log_divisor);
-- div_type div_max = shift(*max, log_divisor);
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[shift(*(current++), log_divisor) - div_min]++;
-- bins[0] = first;
-- for(unsigned u = 0; u < bin_count - 1; u++)
-- bins[u + 1] = bins[u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- for(unsigned u = 0; u < bin_count - 1; ++u)
-- swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, u, shift, bin_sizes, log_divisor, div_min);
-- bins[bin_count - 1] = last;
--
-- //If we've bucketsorted, the array is sorted and we should skip recursion
-- if(!log_divisor)
-- return;
--
-- //Recursing
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u], comp);
-- else
-- spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift, compare>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift, comp);
-- }
-- }
--
-- //Functor implementation for recursive sorting with only Shift overridden
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void
-- spread_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes, right_shift shift)
-- {
-- RandomAccessIter max, min;
-- find_extremes(first, last, max, min);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(shift(*max, 0)) - (shift(*min, 0))));
-- div_type div_min = shift(*min, log_divisor);
-- div_type div_max = shift(*max, log_divisor);
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[shift(*(current++), log_divisor) - div_min]++;
-- bins[0] = first;
-- for(unsigned u = 0; u < bin_count - 1; u++)
-- bins[u + 1] = bins[u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- for(unsigned ii = 0; ii < bin_count - 1; ++ii)
-- swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, bin_sizes, log_divisor, div_min);
-- bins[bin_count - 1] = last;
--
-- //If we've bucketsorted, the array is sorted and we should skip recursion
-- if(!log_divisor)
-- return;
--
-- //Recursing
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u]);
-- else
-- spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift);
-- }
-- }
--
-- //Holds the bin vector and makes the initial recursive call
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void
-- spread_sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- spread_sort_rec<RandomAccessIter, div_type, data_type>(first, last, bin_cache, 0, bin_sizes);
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare>
-- inline void
-- spread_sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift, compare comp)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift, compare>(first, last, bin_cache, 0, bin_sizes, shift, comp);
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void
-- spread_sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(first, last, bin_cache, 0, bin_sizes, shift);
-- }
-- }
--
-- //Top-level sorting call for integers
-- template <class RandomAccessIter>
-- inline void integer_sort(RandomAccessIter first, RandomAccessIter last)
-- {
-- //Don't sort if it's too small to optimize
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last);
-- else
-- detail::spread_sort(first, last, *first >> 0, *first);
-- }
--
-- //integer_sort with functors
-- template <class RandomAccessIter, class right_shift, class compare>
-- inline void integer_sort(RandomAccessIter first, RandomAccessIter last,
-- right_shift shift, compare comp) {
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last, comp);
-- else
-- detail::spread_sort(first, last, shift(*first, 0), *first, shift, comp);
-- }
--
-- //integer_sort with right_shift functor
-- template <class RandomAccessIter, class right_shift>
-- inline void integer_sort(RandomAccessIter first, RandomAccessIter last,
-- right_shift shift) {
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last);
-- else
-- detail::spread_sort(first, last, shift(*first, 0), *first, shift);
-- }
--
-- //------------------------------------------------------ float_sort source --------------------------------------
-- //Casts a RandomAccessIter to the specified data type
-- template<class cast_type, class RandomAccessIter>
-- inline cast_type
-- cast_float_iter(const RandomAccessIter & floatiter)
-- {
-- cast_type result;
-- std::memcpy(&result, &(*floatiter), sizeof(cast_type));
-- return result;
-- }
--
-- //Casts a data element to the specified datinner_float_a type
-- template<class data_type, class cast_type>
-- inline cast_type
-- mem_cast(const data_type & data)
-- {
-- cast_type result;
-- std::memcpy(&result, &data, sizeof(cast_type));
-- return result;
-- }
--
-- namespace detail {
-- template <class RandomAccessIter, class div_type, class right_shift>
-- inline void
-- find_extremes(RandomAccessIter current, RandomAccessIter last, div_type & max, div_type & min, right_shift shift)
-- {
-- min = max = shift(*current, 0);
-- while(++current < last) {
-- div_type value = shift(*current, 0);
-- if(max < value)
-- max = value;
-- else if(value < min)
-- min = value;
-- }
-- }
--
-- //Specialized swap loops for floating-point casting
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void inner_float_swap_loop(RandomAccessIter * bins, const RandomAccessIter & nextbinstart, unsigned ii
-- , const unsigned log_divisor, const div_type div_min)
-- {
-- RandomAccessIter * local_bin = bins + ii;
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- for(RandomAccessIter * target_bin = (bins + ((cast_float_iter<div_type, RandomAccessIter>(current) >> log_divisor) - div_min)); target_bin != local_bin;
-- target_bin = bins + ((cast_float_iter<div_type, RandomAccessIter>(current) >> log_divisor) - div_min)) {
-- data_type tmp;
-- RandomAccessIter b = (*target_bin)++;
-- RandomAccessIter * b_bin = bins + ((cast_float_iter<div_type, RandomAccessIter>(b) >> log_divisor) - div_min);
-- //Three-way swap; if the item to be swapped doesn't belong in the current bin, swap it to where it belongs
-- if (b_bin != local_bin) {
-- RandomAccessIter c = (*b_bin)++;
-- tmp = *c;
-- *c = *b;
-- }
-- else
-- tmp = *b;
-- *b = *current;
-- *current = tmp;
-- }
-- }
-- *local_bin = nextbinstart;
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void float_swap_loop(RandomAccessIter * bins, RandomAccessIter & nextbinstart, unsigned ii
-- , const std::vector<size_t> &bin_sizes, const unsigned log_divisor, const div_type div_min)
-- {
-- nextbinstart += bin_sizes[ii];
-- inner_float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, ii, log_divisor, div_min);
-- }
--
-- template <class RandomAccessIter, class cast_type>
-- inline void
-- find_extremes(RandomAccessIter current, RandomAccessIter last, cast_type & max, cast_type & min)
-- {
-- min = max = cast_float_iter<cast_type, RandomAccessIter>(current);
-- while(++current < last) {
-- cast_type value = cast_float_iter<cast_type, RandomAccessIter>(current);
-- if(max < value)
-- max = value;
-- else if(value < min)
-- min = value;
-- }
-- }
--
-- //Special-case sorting of positive floats with casting instead of a right_shift
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void
-- positive_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[(cast_float_iter<div_type, RandomAccessIter>(current++) >> log_divisor) - div_min]++;
-- bins[0] = first;
-- for(unsigned u = 0; u < bin_count - 1; u++)
-- bins[u + 1] = bins[u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- for(unsigned u = 0; u < bin_count - 1; ++u)
-- float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, u, bin_sizes, log_divisor, div_min);
-- bins[bin_count - 1] = last;
--
-- //Return if we've completed bucketsorting
-- if(!log_divisor)
-- return;
--
-- //Recursing
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u]);
-- else
-- positive_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes);
-- }
-- }
--
-- //Sorting negative_ float_s
-- //Note that bins are iterated in reverse order because max_neg_float = min_neg_int
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void
-- negative_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[(cast_float_iter<div_type, RandomAccessIter>(current++) >> log_divisor) - div_min]++;
-- bins[bin_count - 1] = first;
-- for(int ii = bin_count - 2; ii >= 0; --ii)
-- bins[ii] = bins[ii + 1] + bin_sizes[ii + 1];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- //The last bin will always have the correct elements in it
-- for(int ii = bin_count - 1; ii > 0; --ii)
-- float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, ii, bin_sizes, log_divisor, div_min);
-- //Since we don't process the last bin, we need to update its end position
-- bin_cache[cache_offset] = last;
--
-- //Return if we've completed bucketsorting
-- if(!log_divisor)
-- return;
--
-- //Recursing
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(int ii = cache_end - 1; ii >= (int)cache_offset; lastPos = bin_cache[ii], --ii) {
-- size_t count = bin_cache[ii] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[ii]);
-- else
-- negative_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes);
-- }
-- }
--
-- //Sorting negative_ float_s
-- //Note that bins are iterated in reverse order because max_neg_float = min_neg_int
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void
-- negative_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes, right_shift shift)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min, shift);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[shift(*(current++), log_divisor) - div_min]++;
-- bins[bin_count - 1] = first;
-- for(int ii = bin_count - 2; ii >= 0; --ii)
-- bins[ii] = bins[ii + 1] + bin_sizes[ii + 1];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- //The last bin will always have the correct elements in it
-- for(int ii = bin_count - 1; ii > 0; --ii)
-- swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, bin_sizes, log_divisor, div_min);
-- //Since we don't process the last bin, we need to update its end position
-- bin_cache[cache_offset] = last;
--
-- //Return if we've completed bucketsorting
-- if(!log_divisor)
-- return;
--
-- //Recursing
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(int ii = cache_end - 1; ii >= (int)cache_offset; lastPos = bin_cache[ii], --ii) {
-- size_t count = bin_cache[ii] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[ii]);
-- else
-- negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift);
-- }
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare>
-- inline void
-- negative_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes, right_shift shift, compare comp)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min, shift);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[shift(*(current++), log_divisor) - div_min]++;
-- bins[bin_count - 1] = first;
-- for(int ii = bin_count - 2; ii >= 0; --ii)
-- bins[ii] = bins[ii + 1] + bin_sizes[ii + 1];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- //The last bin will always have the correct elements in it
-- for(int ii = bin_count - 1; ii > 0; --ii)
-- swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, bin_sizes, log_divisor, div_min);
-- //Since we don't process the last bin, we need to update its end position
-- bin_cache[cache_offset] = last;
--
-- //Return if we've completed bucketsorting
-- if(!log_divisor)
-- return;
--
-- //Recursing
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(int ii = cache_end - 1; ii >= (int)cache_offset; lastPos = bin_cache[ii], --ii) {
-- size_t count = bin_cache[ii] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[ii], comp);
-- else
-- negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift, compare>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift, comp);
-- }
-- }
--
-- //Casting special-case for floating-point sorting
-- template <class RandomAccessIter, class div_type, class data_type>
-- inline void
-- float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[(cast_float_iter<div_type, RandomAccessIter>(current++) >> log_divisor) - div_min]++;
-- //The index of the first positive bin
-- div_type first_positive = (div_min < 0) ? -div_min : 0;
-- //Resetting if all bins are negative
-- if(cache_offset + first_positive > cache_end)
-- first_positive = cache_end - cache_offset;
-- //Reversing the order of the negative bins
-- //Note that because of the negative/positive ordering direction flip
-- //We can not depend upon bin order and positions matching up
-- //so bin_sizes must be reused to contain the end of the bin
-- if(first_positive > 0) {
-- bins[first_positive - 1] = first;
-- for(int ii = first_positive - 2; ii >= 0; --ii) {
-- bins[ii] = first + bin_sizes[ii + 1];
-- bin_sizes[ii] += bin_sizes[ii + 1];
-- }
-- //Handling positives following negatives
-- if((unsigned)first_positive < bin_count) {
-- bins[first_positive] = first + bin_sizes[0];
-- bin_sizes[first_positive] += bin_sizes[0];
-- }
-- }
-- else
-- bins[0] = first;
-- for(unsigned u = first_positive; u < bin_count - 1; u++) {
-- bins[u + 1] = first + bin_sizes[u];
-- bin_sizes[u + 1] += bin_sizes[u];
-- }
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- for(unsigned u = 0; u < bin_count; ++u) {
-- nextbinstart = first + bin_sizes[u];
-- inner_float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, u, log_divisor, div_min);
-- }
--
-- if(!log_divisor)
-- return;
--
-- //Handling negative values first
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(int ii = cache_offset + first_positive - 1; ii >= (int)cache_offset ; lastPos = bin_cache[ii--]) {
-- size_t count = bin_cache[ii] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[ii]);
-- //sort negative values using reversed-bin spread_sort
-- else
-- negative_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes);
-- }
--
-- for(unsigned u = cache_offset + first_positive; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u]);
-- //sort positive values using normal spread_sort
-- else
-- positive_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes);
-- }
-- }
--
-- //Functor implementation for recursive sorting
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void
-- float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes, right_shift shift)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min, shift);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[shift(*(current++), log_divisor) - div_min]++;
-- //The index of the first positive bin
-- div_type first_positive = (div_min < 0) ? -div_min : 0;
-- //Resetting if all bins are negative
-- if(cache_offset + first_positive > cache_end)
-- first_positive = cache_end - cache_offset;
-- //Reversing the order of the negative bins
-- //Note that because of the negative/positive ordering direction flip
-- //We can not depend upon bin order and positions matching up
-- //so bin_sizes must be reused to contain the end of the bin
-- if(first_positive > 0) {
-- bins[first_positive - 1] = first;
-- for(int ii = first_positive - 2; ii >= 0; --ii) {
-- bins[ii] = first + bin_sizes[ii + 1];
-- bin_sizes[ii] += bin_sizes[ii + 1];
-- }
-- //Handling positives following negatives
-- if((unsigned)first_positive < bin_count) {
-- bins[first_positive] = first + bin_sizes[0];
-- bin_sizes[first_positive] += bin_sizes[0];
-- }
-- }
-- else
-- bins[0] = first;
-- for(unsigned u = first_positive; u < bin_count - 1; u++) {
-- bins[u + 1] = first + bin_sizes[u];
-- bin_sizes[u + 1] += bin_sizes[u];
-- }
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- for(unsigned u = 0; u < bin_count; ++u) {
-- nextbinstart = first + bin_sizes[u];
-- inner_swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, u, shift, log_divisor, div_min);
-- }
--
-- //Return if we've completed bucketsorting
-- if(!log_divisor)
-- return;
--
-- //Handling negative values first
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(int ii = cache_offset + first_positive - 1; ii >= (int)cache_offset ; lastPos = bin_cache[ii--]) {
-- size_t count = bin_cache[ii] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[ii]);
-- //sort negative values using reversed-bin spread_sort
-- else
-- negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift);
-- }
--
-- for(unsigned u = cache_offset + first_positive; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u]);
-- //sort positive values using normal spread_sort
-- else
-- spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift);
-- }
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare>
-- inline void
-- float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset
-- , std::vector<size_t> &bin_sizes, right_shift shift, compare comp)
-- {
-- div_type max, min;
-- find_extremes(first, last, max, min, shift);
-- if(max == min)
-- return;
-- unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min));
-- div_type div_min = min >> log_divisor;
-- div_type div_max = max >> log_divisor;
-- unsigned bin_count = div_max - div_min + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count);
--
-- //Calculating the size of each bin
-- for (RandomAccessIter current = first; current != last;)
-- bin_sizes[shift(*(current++), log_divisor) - div_min]++;
-- //The index of the first positive bin
-- div_type first_positive = (div_min < 0) ? -div_min : 0;
-- //Resetting if all bins are negative
-- if(cache_offset + first_positive > cache_end)
-- first_positive = cache_end - cache_offset;
-- //Reversing the order of the negative bins
-- //Note that because of the negative/positive ordering direction flip
-- //We can not depend upon bin order and positions matching up
-- //so bin_sizes must be reused to contain the end of the bin
-- if(first_positive > 0) {
-- bins[first_positive - 1] = first;
-- for(int ii = first_positive - 2; ii >= 0; --ii) {
-- bins[ii] = first + bin_sizes[ii + 1];
-- bin_sizes[ii] += bin_sizes[ii + 1];
-- }
-- //Handling positives following negatives
-- if((unsigned)first_positive < bin_count) {
-- bins[first_positive] = first + bin_sizes[0];
-- bin_sizes[first_positive] += bin_sizes[0];
-- }
-- }
-- else
-- bins[0] = first;
-- for(unsigned u = first_positive; u < bin_count - 1; u++) {
-- bins[u + 1] = first + bin_sizes[u];
-- bin_sizes[u + 1] += bin_sizes[u];
-- }
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- for(unsigned u = 0; u < bin_count; ++u) {
-- nextbinstart = first + bin_sizes[u];
-- inner_swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, u, shift, log_divisor, div_min);
-- }
--
-- //Return if we've completed bucketsorting
-- if(!log_divisor)
-- return;
--
-- //Handling negative values first
-- size_t max_count = get_max_count(log_divisor, last - first);
-- RandomAccessIter lastPos = first;
-- for(int ii = cache_offset + first_positive - 1; ii >= (int)cache_offset ; lastPos = bin_cache[ii--]) {
-- size_t count = bin_cache[ii] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[ii]);
-- //sort negative values using reversed-bin spread_sort
-- else
-- negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift, comp);
-- }
--
-- for(unsigned u = cache_offset + first_positive; u < cache_end; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- if(count < 2)
-- continue;
-- if(count < max_count)
-- std::sort(lastPos, bin_cache[u]);
-- //sort positive values using normal spread_sort
-- else
-- spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift, comp);
-- }
-- }
--
-- template <class RandomAccessIter, class cast_type, class data_type>
-- inline void
-- float_Sort(RandomAccessIter first, RandomAccessIter last, cast_type, data_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- float_sort_rec<RandomAccessIter, cast_type, data_type>(first, last, bin_cache, 0, bin_sizes);
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift>
-- inline void
-- float_Sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(first, last, bin_cache, 0, bin_sizes, shift);
-- }
--
-- template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare>
-- inline void
-- float_Sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift, compare comp)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(first, last, bin_cache, 0, bin_sizes, shift, comp);
-- }
-- }
--
-- //float_sort with casting
-- //The cast_type must be equal in size to the data type, and must be a signed integer
-- template <class RandomAccessIter, class cast_type>
-- inline void float_sort_cast(RandomAccessIter first, RandomAccessIter last, cast_type cVal)
-- {
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last);
-- else
-- detail::float_Sort(first, last, cVal, *first);
-- }
--
-- //float_sort with casting to an int
-- //Only use this with IEEE floating-point numbers
-- template <class RandomAccessIter>
-- inline void float_sort_cast_to_int(RandomAccessIter first, RandomAccessIter last)
-- {
-- int cVal = 0;
-- float_sort_cast(first, last, cVal);
-- }
--
-- //float_sort with functors
-- template <class RandomAccessIter, class right_shift>
-- inline void float_sort(RandomAccessIter first, RandomAccessIter last, right_shift shift)
-- {
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last);
-- else
-- detail::float_Sort(first, last, shift(*first, 0), *first, shift);
-- }
--
-- template <class RandomAccessIter, class right_shift, class compare>
-- inline void float_sort(RandomAccessIter first, RandomAccessIter last, right_shift shift, compare comp)
-- {
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last, comp);
-- else
-- detail::float_Sort(first, last, shift(*first, 0), *first, shift, comp);
-- }
--
-- //------------------------------------------------- string_sort source ---------------------------------------------
-- namespace detail {
-- //Offsetting on identical characters. This function works a character at a time for optimal worst-case performance.
-- template<class RandomAccessIter>
-- inline void
-- update_offset(RandomAccessIter first, RandomAccessIter finish, unsigned &char_offset)
-- {
-- unsigned nextOffset = char_offset;
-- bool done = false;
-- while(!done) {
-- RandomAccessIter curr = first;
-- do {
-- //ignore empties, but if the nextOffset would exceed the length or not match, exit; we've found the last matching character
-- if((*curr).size() > char_offset && ((*curr).size() <= (nextOffset + 1) || (*curr)[nextOffset] != (*first)[nextOffset])) {
-- done = true;
-- break;
-- }
-- } while(++curr != finish);
-- if(!done)
-- ++nextOffset;
-- }
-- char_offset = nextOffset;
-- }
--
-- //Offsetting on identical characters. This function works a character at a time for optimal worst-case performance.
-- template<class RandomAccessIter, class get_char, class get_length>
-- inline void
-- update_offset(RandomAccessIter first, RandomAccessIter finish, unsigned &char_offset, get_char getchar, get_length length)
-- {
-- unsigned nextOffset = char_offset;
-- bool done = false;
-- while(!done) {
-- RandomAccessIter curr = first;
-- do {
-- //ignore empties, but if the nextOffset would exceed the length or not match, exit; we've found the last matching character
-- if(length(*curr) > char_offset && (length(*curr) <= (nextOffset + 1) || getchar((*curr), nextOffset) != getchar((*first), nextOffset))) {
-- done = true;
-- break;
-- }
-- } while(++curr != finish);
-- if(!done)
-- ++nextOffset;
-- }
-- char_offset = nextOffset;
-- }
--
-- //A comparison functor for strings that assumes they are identical up to char_offset
-- template<class data_type, class unsignedchar_type>
-- struct offset_lessthan {
-- offset_lessthan(unsigned char_offset) : fchar_offset(char_offset){}
-- inline bool operator()(const data_type &x, const data_type &y) const
-- {
-- unsigned minSize = std::min(x.size(), y.size());
-- for(unsigned u = fchar_offset; u < minSize; ++u) {
-- if(static_cast<unsignedchar_type>(x[u]) < static_cast<unsignedchar_type>(y[u]))
-- return true;
-- else if(static_cast<unsignedchar_type>(y[u]) < static_cast<unsignedchar_type>(x[u]))
-- return false;
-- }
-- return x.size() < y.size();
-- }
-- unsigned fchar_offset;
-- };
--
-- //A comparison functor for strings that assumes they are identical up to char_offset
-- template<class data_type, class unsignedchar_type>
-- struct offset_greaterthan {
-- offset_greaterthan(unsigned char_offset) : fchar_offset(char_offset){}
-- inline bool operator()(const data_type &x, const data_type &y) const
-- {
-- unsigned minSize = std::min(x.size(), y.size());
-- for(unsigned u = fchar_offset; u < minSize; ++u) {
-- if(static_cast<unsignedchar_type>(x[u]) > static_cast<unsignedchar_type>(y[u]))
-- return true;
-- else if(static_cast<unsignedchar_type>(y[u]) > static_cast<unsignedchar_type>(x[u]))
-- return false;
-- }
-- return x.size() > y.size();
-- }
-- unsigned fchar_offset;
-- };
--
-- //A comparison functor for strings that assumes they are identical up to char_offset
-- template<class data_type, class get_char, class get_length>
-- struct offset_char_lessthan {
-- offset_char_lessthan(unsigned char_offset) : fchar_offset(char_offset){}
-- inline bool operator()(const data_type &x, const data_type &y) const
-- {
-- unsigned minSize = std::min(length(x), length(y));
-- for(unsigned u = fchar_offset; u < minSize; ++u) {
-- if(getchar(x, u) < getchar(y, u))
-- return true;
-- else if(getchar(y, u) < getchar(x, u))
-- return false;
-- }
-- return length(x) < length(y);
-- }
-- unsigned fchar_offset;
-- get_char getchar;
-- get_length length;
-- };
--
-- //String sorting recursive implementation
-- template <class RandomAccessIter, class data_type, class unsignedchar_type>
-- inline void
-- string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache
-- , unsigned cache_offset, std::vector<size_t> &bin_sizes)
-- {
-- //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact.
-- //Iterate to the end of the empties. If all empty, return
-- while((*first).size() <= char_offset) {
-- if(++first == last)
-- return;
-- }
-- RandomAccessIter finish = last - 1;
-- //Getting the last non-empty
-- for(;(*finish).size() <= char_offset; --finish) { }
-- ++finish;
-- //Offsetting on identical characters. This section works a character at a time for optimal worst-case performance.
-- update_offset(first, finish, char_offset);
--
-- const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8));
-- //Equal worst-case between radix and comparison-based is when bin_count = n*log(n).
-- const unsigned max_size = bin_count;
-- const unsigned membin_count = bin_count + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1;
--
-- //Calculating the size of each bin; this takes roughly 10% of runtime
-- for (RandomAccessIter current = first; current != last; ++current) {
-- if((*current).size() <= char_offset) {
-- bin_sizes[0]++;
-- }
-- else
-- bin_sizes[static_cast<unsignedchar_type>((*current)[char_offset]) + 1]++;
-- }
-- //Assign the bin positions
-- bin_cache[cache_offset] = first;
-- for(unsigned u = 0; u < membin_count - 1; u++)
-- bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- //handling empty bins
-- RandomAccessIter * local_bin = &(bin_cache[cache_offset]);
-- nextbinstart += bin_sizes[0];
-- RandomAccessIter * target_bin;
-- //Iterating over each element in the bin of empties
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //empties belong in this bin
-- while((*current).size() > char_offset) {
-- target_bin = bins + static_cast<unsignedchar_type>((*current)[char_offset]);
-- iter_swap(current, (*target_bin)++);
-- }
-- }
-- *local_bin = nextbinstart;
-- //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops
-- unsigned last_bin = bin_count - 1;
-- for(; last_bin && !bin_sizes[last_bin + 1]; --last_bin) { }
-- //This dominates runtime, mostly in the swap and bin lookups
-- for(unsigned u = 0; u < last_bin; ++u) {
-- local_bin = bins + u;
-- nextbinstart += bin_sizes[u + 1];
-- //Iterating over each element in this bin
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //Swapping elements in current into place until the correct element has been swapped in
-- for(target_bin = bins + static_cast<unsignedchar_type>((*current)[char_offset]); target_bin != local_bin;
-- target_bin = bins + static_cast<unsignedchar_type>((*current)[char_offset]))
-- iter_swap(current, (*target_bin)++);
-- }
-- *local_bin = nextbinstart;
-- }
-- bins[last_bin] = last;
-- //Recursing
-- RandomAccessIter lastPos = bin_cache[cache_offset];
-- //Skip this loop for empties
-- for(unsigned u = cache_offset + 1; u < cache_offset + last_bin + 2; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- //don't sort unless there are at least two items to compare
-- if(count < 2)
-- continue;
-- //using std::sort if its worst-case is better
-- if(count < max_size)
-- std::sort(lastPos, bin_cache[u], offset_lessthan<data_type, unsignedchar_type>(char_offset + 1));
-- else
-- string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(lastPos, bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes);
-- }
-- }
--
-- //Sorts strings in reverse order, with empties at the end
-- template <class RandomAccessIter, class data_type, class unsignedchar_type>
-- inline void
-- reverse_string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache
-- , unsigned cache_offset, std::vector<size_t> &bin_sizes)
-- {
-- //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact.
-- RandomAccessIter curr = first;
-- //Iterate to the end of the empties. If all empty, return
-- while((*curr).size() <= char_offset) {
-- if(++curr == last)
-- return;
-- }
-- //Getting the last non-empty
-- while((*(--last)).size() <= char_offset) { }
-- ++last;
-- //Offsetting on identical characters. This section works a character at a time for optimal worst-case performance.
-- update_offset(curr, last, char_offset);
-- RandomAccessIter * target_bin;
--
-- const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8));
-- //Equal worst-case between radix and comparison-based is when bin_count = n*log(n).
-- const unsigned max_size = bin_count;
-- const unsigned membin_count = bin_count + 1;
-- const unsigned max_bin = bin_count - 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count);
-- RandomAccessIter * end_bin = &(bin_cache[cache_offset + max_bin]);
--
-- //Calculating the size of each bin; this takes roughly 10% of runtime
-- for (RandomAccessIter current = first; current != last; ++current) {
-- if((*current).size() <= char_offset) {
-- bin_sizes[bin_count]++;
-- }
-- else
-- bin_sizes[max_bin - static_cast<unsignedchar_type>((*current)[char_offset])]++;
-- }
-- //Assign the bin positions
-- bin_cache[cache_offset] = first;
-- for(unsigned u = 0; u < membin_count - 1; u++)
-- bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = last;
-- //handling empty bins
-- RandomAccessIter * local_bin = &(bin_cache[cache_offset + bin_count]);
-- RandomAccessIter lastFull = *local_bin;
-- //Iterating over each element in the bin of empties
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //empties belong in this bin
-- while((*current).size() > char_offset) {
-- target_bin = end_bin - static_cast<unsignedchar_type>((*current)[char_offset]);
-- iter_swap(current, (*target_bin)++);
-- }
-- }
-- *local_bin = nextbinstart;
-- nextbinstart = first;
-- //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops
-- unsigned last_bin = max_bin;
-- for(; last_bin && !bin_sizes[last_bin]; --last_bin) { }
-- //This dominates runtime, mostly in the swap and bin lookups
-- for(unsigned u = 0; u < last_bin; ++u) {
-- local_bin = bins + u;
-- nextbinstart += bin_sizes[u];
-- //Iterating over each element in this bin
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //Swapping elements in current into place until the correct element has been swapped in
-- for(target_bin = end_bin - static_cast<unsignedchar_type>((*current)[char_offset]); target_bin != local_bin;
-- target_bin = end_bin - static_cast<unsignedchar_type>((*current)[char_offset]))
-- iter_swap(current, (*target_bin)++);
-- }
-- *local_bin = nextbinstart;
-- }
-- bins[last_bin] = lastFull;
-- //Recursing
-- RandomAccessIter lastPos = first;
-- //Skip this loop for empties
-- for(unsigned u = cache_offset; u <= cache_offset + last_bin; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- //don't sort unless there are at least two items to compare
-- if(count < 2)
-- continue;
-- //using std::sort if its worst-case is better
-- if(count < max_size)
-- std::sort(lastPos, bin_cache[u], offset_greaterthan<data_type, unsignedchar_type>(char_offset + 1));
-- else
-- reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(lastPos, bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes);
-- }
-- }
--
-- //String sorting recursive implementation
-- template <class RandomAccessIter, class data_type, class unsignedchar_type, class get_char, class get_length>
-- inline void
-- string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache
-- , unsigned cache_offset, std::vector<size_t> &bin_sizes, get_char getchar, get_length length)
-- {
-- //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact.
-- //Iterate to the end of the empties. If all empty, return
-- while(length(*first) <= char_offset) {
-- if(++first == last)
-- return;
-- }
-- RandomAccessIter finish = last - 1;
-- //Getting the last non-empty
-- for(;length(*finish) <= char_offset; --finish) { }
-- ++finish;
-- update_offset(first, finish, char_offset, getchar, length);
--
-- const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8));
-- //Equal worst-case between radix and comparison-based is when bin_count = n*log(n).
-- const unsigned max_size = bin_count;
-- const unsigned membin_count = bin_count + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1;
--
-- //Calculating the size of each bin; this takes roughly 10% of runtime
-- for (RandomAccessIter current = first; current != last; ++current) {
-- if(length(*current) <= char_offset) {
-- bin_sizes[0]++;
-- }
-- else
-- bin_sizes[getchar((*current), char_offset) + 1]++;
-- }
-- //Assign the bin positions
-- bin_cache[cache_offset] = first;
-- for(unsigned u = 0; u < membin_count - 1; u++)
-- bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- //handling empty bins
-- RandomAccessIter * local_bin = &(bin_cache[cache_offset]);
-- nextbinstart += bin_sizes[0];
-- RandomAccessIter * target_bin;
-- //Iterating over each element in the bin of empties
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //empties belong in this bin
-- while(length(*current) > char_offset) {
-- target_bin = bins + getchar((*current), char_offset);
-- iter_swap(current, (*target_bin)++);
-- }
-- }
-- *local_bin = nextbinstart;
-- //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops
-- unsigned last_bin = bin_count - 1;
-- for(; last_bin && !bin_sizes[last_bin + 1]; --last_bin) { }
-- //This dominates runtime, mostly in the swap and bin lookups
-- for(unsigned ii = 0; ii < last_bin; ++ii) {
-- local_bin = bins + ii;
-- nextbinstart += bin_sizes[ii + 1];
-- //Iterating over each element in this bin
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //Swapping elements in current into place until the correct element has been swapped in
-- for(target_bin = bins + getchar((*current), char_offset); target_bin != local_bin;
-- target_bin = bins + getchar((*current), char_offset))
-- iter_swap(current, (*target_bin)++);
-- }
-- *local_bin = nextbinstart;
-- }
-- bins[last_bin] = last;
--
-- //Recursing
-- RandomAccessIter lastPos = bin_cache[cache_offset];
-- //Skip this loop for empties
-- for(unsigned u = cache_offset + 1; u < cache_offset + last_bin + 2; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- //don't sort unless there are at least two items to compare
-- if(count < 2)
-- continue;
-- //using std::sort if its worst-case is better
-- if(count < max_size)
-- std::sort(lastPos, bin_cache[u], offset_char_lessthan<data_type, get_char, get_length>(char_offset + 1));
-- else
-- string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length>(lastPos, bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes, getchar, length);
-- }
-- }
--
-- //String sorting recursive implementation
-- template <class RandomAccessIter, class data_type, class unsignedchar_type, class get_char, class get_length, class compare>
-- inline void
-- string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache
-- , unsigned cache_offset, std::vector<size_t> &bin_sizes, get_char getchar, get_length length, compare comp)
-- {
-- //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact.
-- //Iterate to the end of the empties. If all empty, return
-- while(length(*first) <= char_offset) {
-- if(++first == last)
-- return;
-- }
-- RandomAccessIter finish = last - 1;
-- //Getting the last non-empty
-- for(;length(*finish) <= char_offset; --finish) { }
-- ++finish;
-- update_offset(first, finish, char_offset, getchar, length);
--
-- const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8));
-- //Equal worst-case between radix and comparison-based is when bin_count = n*log(n).
-- const unsigned max_size = bin_count;
-- const unsigned membin_count = bin_count + 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1;
--
-- //Calculating the size of each bin; this takes roughly 10% of runtime
-- for (RandomAccessIter current = first; current != last; ++current) {
-- if(length(*current) <= char_offset) {
-- bin_sizes[0]++;
-- }
-- else
-- bin_sizes[getchar((*current), char_offset) + 1]++;
-- }
-- //Assign the bin positions
-- bin_cache[cache_offset] = first;
-- for(unsigned u = 0; u < membin_count - 1; u++)
-- bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = first;
-- //handling empty bins
-- RandomAccessIter * local_bin = &(bin_cache[cache_offset]);
-- nextbinstart += bin_sizes[0];
-- RandomAccessIter * target_bin;
-- //Iterating over each element in the bin of empties
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //empties belong in this bin
-- while(length(*current) > char_offset) {
-- target_bin = bins + getchar((*current), char_offset);
-- iter_swap(current, (*target_bin)++);
-- }
-- }
-- *local_bin = nextbinstart;
-- //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops
-- unsigned last_bin = bin_count - 1;
-- for(; last_bin && !bin_sizes[last_bin + 1]; --last_bin) { }
-- //This dominates runtime, mostly in the swap and bin lookups
-- for(unsigned u = 0; u < last_bin; ++u) {
-- local_bin = bins + u;
-- nextbinstart += bin_sizes[u + 1];
-- //Iterating over each element in this bin
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //Swapping elements in current into place until the correct element has been swapped in
-- for(target_bin = bins + getchar((*current), char_offset); target_bin != local_bin;
-- target_bin = bins + getchar((*current), char_offset))
-- iter_swap(current, (*target_bin)++);
-- }
-- *local_bin = nextbinstart;
-- }
-- bins[last_bin] = last;
--
-- //Recursing
-- RandomAccessIter lastPos = bin_cache[cache_offset];
-- //Skip this loop for empties
-- for(unsigned u = cache_offset + 1; u < cache_offset + last_bin + 2; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- //don't sort unless there are at least two items to compare
-- if(count < 2)
-- continue;
-- //using std::sort if its worst-case is better
-- if(count < max_size)
-- std::sort(lastPos, bin_cache[u], comp);
-- else
-- string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(lastPos
-- , bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes, getchar, length, comp);
-- }
-- }
--
-- //Sorts strings in reverse order, with empties at the end
-- template <class RandomAccessIter, class data_type, class unsignedchar_type, class get_char, class get_length, class compare>
-- inline void
-- reverse_string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache
-- , unsigned cache_offset, std::vector<size_t> &bin_sizes, get_char getchar, get_length length, compare comp)
-- {
-- //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact.
-- RandomAccessIter curr = first;
-- //Iterate to the end of the empties. If all empty, return
-- while(length(*curr) <= char_offset) {
-- if(++curr == last)
-- return;
-- }
-- //Getting the last non-empty
-- while(length(*(--last)) <= char_offset) { }
-- ++last;
-- //Offsetting on identical characters. This section works a character at a time for optimal worst-case performance.
-- update_offset(first, last, char_offset, getchar, length);
--
-- const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8));
-- //Equal worst-case between radix and comparison-based is when bin_count = n*log(n).
-- const unsigned max_size = bin_count;
-- const unsigned membin_count = bin_count + 1;
-- const unsigned max_bin = bin_count - 1;
-- unsigned cache_end;
-- RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count);
-- RandomAccessIter *end_bin = &(bin_cache[cache_offset + max_bin]);
--
-- //Calculating the size of each bin; this takes roughly 10% of runtime
-- for (RandomAccessIter current = first; current != last; ++current) {
-- if(length(*current) <= char_offset) {
-- bin_sizes[bin_count]++;
-- }
-- else
-- bin_sizes[max_bin - getchar((*current), char_offset)]++;
-- }
-- //Assign the bin positions
-- bin_cache[cache_offset] = first;
-- for(unsigned u = 0; u < membin_count - 1; u++)
-- bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u];
--
-- //Swap into place
-- RandomAccessIter nextbinstart = last;
-- //handling empty bins
-- RandomAccessIter * local_bin = &(bin_cache[cache_offset + bin_count]);
-- RandomAccessIter lastFull = *local_bin;
-- RandomAccessIter * target_bin;
-- //Iterating over each element in the bin of empties
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //empties belong in this bin
-- while(length(*current) > char_offset) {
-- target_bin = end_bin - getchar((*current), char_offset);
-- iter_swap(current, (*target_bin)++);
-- }
-- }
-- *local_bin = nextbinstart;
-- nextbinstart = first;
-- //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops
-- unsigned last_bin = max_bin;
-- for(; last_bin && !bin_sizes[last_bin]; --last_bin) { }
-- //This dominates runtime, mostly in the swap and bin lookups
-- for(unsigned u = 0; u < last_bin; ++u) {
-- local_bin = bins + u;
-- nextbinstart += bin_sizes[u];
-- //Iterating over each element in this bin
-- for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) {
-- //Swapping elements in current into place until the correct element has been swapped in
-- for(target_bin = end_bin - getchar((*current), char_offset); target_bin != local_bin;
-- target_bin = end_bin - getchar((*current), char_offset))
-- iter_swap(current, (*target_bin)++);
-- }
-- *local_bin = nextbinstart;
-- }
-- bins[last_bin] = lastFull;
-- //Recursing
-- RandomAccessIter lastPos = first;
-- //Skip this loop for empties
-- for(unsigned u = cache_offset; u <= cache_offset + last_bin; lastPos = bin_cache[u], ++u) {
-- size_t count = bin_cache[u] - lastPos;
-- //don't sort unless there are at least two items to compare
-- if(count < 2)
-- continue;
-- //using std::sort if its worst-case is better
-- if(count < max_size)
-- std::sort(lastPos, bin_cache[u], comp);
-- else
-- reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(lastPos
-- , bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes, getchar, length, comp);
-- }
-- }
--
-- //Holds the bin vector and makes the initial recursive call
-- template <class RandomAccessIter, class data_type, class unsignedchar_type>
-- inline void
-- string_sort(RandomAccessIter first, RandomAccessIter last, data_type, unsignedchar_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(first, last, 0, bin_cache, 0, bin_sizes);
-- }
--
-- //Holds the bin vector and makes the initial recursive call
-- template <class RandomAccessIter, class data_type, class unsignedchar_type>
-- inline void
-- reverse_string_sort(RandomAccessIter first, RandomAccessIter last, data_type, unsignedchar_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(first, last, 0, bin_cache, 0, bin_sizes);
-- }
--
-- //Holds the bin vector and makes the initial recursive call
-- template <class RandomAccessIter, class get_char, class get_length, class data_type, class unsignedchar_type>
-- inline void
-- string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, data_type, unsignedchar_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length>(first, last, 0, bin_cache, 0, bin_sizes, getchar, length);
-- }
--
-- //Holds the bin vector and makes the initial recursive call
-- template <class RandomAccessIter, class get_char, class get_length, class compare, class data_type, class unsignedchar_type>
-- inline void
-- string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp, data_type, unsignedchar_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(first, last, 0, bin_cache, 0, bin_sizes, getchar, length, comp);
-- }
--
-- //Holds the bin vector and makes the initial recursive call
-- template <class RandomAccessIter, class get_char, class get_length, class compare, class data_type, class unsignedchar_type>
-- inline void
-- reverse_string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp, data_type, unsignedchar_type)
-- {
-- std::vector<size_t> bin_sizes;
-- std::vector<RandomAccessIter> bin_cache;
-- reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(first, last, 0, bin_cache, 0, bin_sizes, getchar, length, comp);
-- }
-- }
--
-- //Allows character-type overloads
-- template <class RandomAccessIter, class unsignedchar_type>
-- inline void string_sort(RandomAccessIter first, RandomAccessIter last, unsignedchar_type unused)
-- {
-- //Don't sort if it's too small to optimize
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last);
-- else
-- detail::string_sort(first, last, *first, unused);
-- }
--
-- //Top-level sorting call; wraps using default of unsigned char
-- template <class RandomAccessIter>
-- inline void string_sort(RandomAccessIter first, RandomAccessIter last)
-- {
-- unsigned char unused = '\0';
-- string_sort(first, last, unused);
-- }
--
-- //Allows character-type overloads
-- template <class RandomAccessIter, class compare, class unsignedchar_type>
-- inline void reverse_string_sort(RandomAccessIter first, RandomAccessIter last, compare comp, unsignedchar_type unused)
-- {
-- //Don't sort if it's too small to optimize
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last, comp);
-- else
-- detail::reverse_string_sort(first, last, *first, unused);
-- }
--
-- //Top-level sorting call; wraps using default of unsigned char
-- template <class RandomAccessIter, class compare>
-- inline void reverse_string_sort(RandomAccessIter first, RandomAccessIter last, compare comp)
-- {
-- unsigned char unused = '\0';
-- reverse_string_sort(first, last, comp, unused);
-- }
--
-- template <class RandomAccessIter, class get_char, class get_length>
-- inline void string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length)
-- {
-- //Don't sort if it's too small to optimize
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last);
-- else {
-- //skipping past empties at the beginning, which allows us to get the character type
-- //.empty() is not used so as not to require a user declaration of it
-- while(!length(*first)) {
-- if(++first == last)
-- return;
-- }
-- detail::string_sort(first, last, getchar, length, *first, getchar((*first), 0));
-- }
-- }
--
-- template <class RandomAccessIter, class get_char, class get_length, class compare>
-- inline void string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp)
-- {
-- //Don't sort if it's too small to optimize
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last, comp);
-- else {
-- //skipping past empties at the beginning, which allows us to get the character type
-- //.empty() is not used so as not to require a user declaration of it
-- while(!length(*first)) {
-- if(++first == last)
-- return;
-- }
-- detail::string_sort(first, last, getchar, length, comp, *first, getchar((*first), 0));
-- }
-- }
--
-- template <class RandomAccessIter, class get_char, class get_length, class compare>
-- inline void reverse_string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp)
-- {
-- //Don't sort if it's too small to optimize
-- if(last - first < detail::MIN_SORT_SIZE)
-- std::sort(first, last, comp);
-- else {
-- //skipping past empties at the beginning, which allows us to get the character type
-- //.empty() is not used so as not to require a user declaration of it
-- while(!length(*(--last))) {
-- //Note: if there is just one non-empty, and it's at the beginning, then it's already in sorted order
-- if(first == last)
-- return;
-- }
-- //making last just after the end of the non-empty part of the array
-- ++last;
-- detail::reverse_string_sort(first, last, getchar, length, comp, *first, getchar((*first), 0));
-- }
-- }
--}
--
--#endif
-+//Templated spread_sort library -+ -+// Copyright Steven J. Ross 2001 - 2009. -+// Distributed under the Boost Software License, Version 1.0. -+// (See accompanying file LICENSE_1_0.txt or copy at -+// http://www.boost.org/LICENSE_1_0.txt) -+ -+// See http://www.boost.org/ for updates, documentation, and revision history. -+ -+/* -+Some improvements suggested by: -+Phil Endecott and Frank Gennari -+Cygwin fix provided by: -+Scott McMurray -+*/ -+ -+#ifndef BOOST_SPREAD_SORT_H -+#define BOOST_SPREAD_SORT_H -+#include <algorithm> -+#include <cstring> -+#include <vector> -+#include "webrtc/system_wrappers/source/spreadsortlib/constants.hpp" -+ -+#include <features.h> -+#if defined(__UCLIBC__) -+#undef getchar -+#endif -+ -+ -+namespace boost { -+ namespace detail { -+ //This only works on unsigned data types -+ template <typename T> -+ inline unsigned -+ rough_log_2_size(const T& input) -+ { -+ unsigned result = 0; -+ //The && is necessary on some compilers to avoid infinite loops; it doesn't significantly impair performance -+ while((input >> result) && (result < (8*sizeof(T)))) ++result; -+ return result; -+ } -+ -+ //Gets the maximum size which we'll call spread_sort on to control worst-case performance -+ //Maintains both a minimum size to recurse and a check of distribution size versus count -+ //This is called for a set of bins, instead of bin-by-bin, to avoid performance overhead -+ inline size_t -+ get_max_count(unsigned log_range, size_t count) -+ { -+ unsigned divisor = rough_log_2_size(count); -+ //Making sure the divisor is positive -+ if(divisor > LOG_MEAN_BIN_SIZE) -+ divisor -= LOG_MEAN_BIN_SIZE; -+ else -+ divisor = 1; -+ unsigned relative_width = (LOG_CONST * log_range)/((divisor > MAX_SPLITS) ? MAX_SPLITS : divisor); -+ //Don't try to bitshift more than the size of an element -+ if((8*sizeof(size_t)) <= relative_width) -+ relative_width = (8*sizeof(size_t)) - 1; -+ return (size_t)1 << ((relative_width < (LOG_MEAN_BIN_SIZE + LOG_MIN_SPLIT_COUNT)) ? -+ (LOG_MEAN_BIN_SIZE + LOG_MIN_SPLIT_COUNT) : relative_width); -+ } -+ -+ //Find the minimum and maximum using < -+ template <class RandomAccessIter> -+ inline void -+ find_extremes(RandomAccessIter current, RandomAccessIter last, RandomAccessIter & max, RandomAccessIter & min) -+ { -+ min = max = current; -+ //Start from the second item, as max and min are initialized to the first -+ while(++current < last) { -+ if(*max < *current) -+ max = current; -+ else if(*current < *min) -+ min = current; -+ } -+ } -+ -+ //Uses a user-defined comparison operator to find minimum and maximum -+ template <class RandomAccessIter, class compare> -+ inline void -+ find_extremes(RandomAccessIter current, RandomAccessIter last, RandomAccessIter & max, RandomAccessIter & min, compare comp) -+ { -+ min = max = current; -+ while(++current < last) { -+ if(comp(*max, *current)) -+ max = current; -+ else if(comp(*current, *min)) -+ min = current; -+ } -+ } -+ -+ //Gets a non-negative right bit shift to operate as a logarithmic divisor -+ inline int -+ get_log_divisor(size_t count, unsigned log_range) -+ { -+ int log_divisor; -+ //If we can finish in one iteration without exceeding either (2 to the MAX_SPLITS) or n bins, do so -+ if((log_divisor = log_range - rough_log_2_size(count)) <= 0 && log_range < MAX_SPLITS) -+ log_divisor = 0; -+ else { -+ //otherwise divide the data into an optimized number of pieces -+ log_divisor += LOG_MEAN_BIN_SIZE; -+ if(log_divisor < 0) -+ log_divisor = 0; -+ //Cannot exceed MAX_SPLITS or cache misses slow down bin lookups dramatically -+ if((log_range - log_divisor) > MAX_SPLITS) -+ log_divisor = log_range - MAX_SPLITS; -+ } -+ return log_divisor; -+ } -+ -+ template <class RandomAccessIter> -+ inline RandomAccessIter * -+ size_bins(std::vector<size_t> &bin_sizes, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset, unsigned &cache_end, unsigned bin_count) -+ { -+ //Assure space for the size of each bin, followed by initializing sizes -+ if(bin_count > bin_sizes.size()) -+ bin_sizes.resize(bin_count); -+ for(size_t u = 0; u < bin_count; u++) -+ bin_sizes[u] = 0; -+ //Make sure there is space for the bins -+ cache_end = cache_offset + bin_count; -+ if(cache_end > bin_cache.size()) -+ bin_cache.resize(cache_end); -+ return &(bin_cache[cache_offset]); -+ } -+ -+ //Implementation for recursive integer sorting -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void -+ spread_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes) -+ { -+ //This step is roughly 10% of runtime, but it helps avoid worst-case behavior and improve behavior with real data -+ //If you know the maximum and minimum ahead of time, you can pass those values in and skip this step for the first iteration -+ RandomAccessIter max, min; -+ find_extremes(first, last, max, min); -+ //max and min will be the same (the first item) iff all values are equivalent -+ if(max == min) -+ return; -+ RandomAccessIter * target_bin; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(*max >> 0) - (*min >> 0))); -+ div_type div_min = *min >> log_divisor; -+ div_type div_max = *max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin; this takes roughly 10% of runtime -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[(*(current++) >> log_divisor) - div_min]++; -+ //Assign the bin positions -+ bins[0] = first; -+ for(unsigned u = 0; u < bin_count - 1; u++) -+ bins[u + 1] = bins[u] + bin_sizes[u]; -+ -+ //Swap into place -+ //This dominates runtime, mostly in the swap and bin lookups -+ RandomAccessIter nextbinstart = first; -+ for(unsigned u = 0; u < bin_count - 1; ++u) { -+ RandomAccessIter * local_bin = bins + u; -+ nextbinstart += bin_sizes[u]; -+ //Iterating over each element in this bin -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //Swapping elements in current into place until the correct element has been swapped in -+ for(target_bin = (bins + ((*current >> log_divisor) - div_min)); target_bin != local_bin; -+ target_bin = bins + ((*current >> log_divisor) - div_min)) { -+ //3-way swap; this is about 1% faster than a 2-way swap with integers -+ //The main advantage is less copies are involved per item put in the correct place -+ data_type tmp; -+ RandomAccessIter b = (*target_bin)++; -+ RandomAccessIter * b_bin = bins + ((*b >> log_divisor) - div_min); -+ if (b_bin != local_bin) { -+ RandomAccessIter c = (*b_bin)++; -+ tmp = *c; -+ *c = *b; -+ } -+ else -+ tmp = *b; -+ *b = *current; -+ *current = tmp; -+ } -+ } -+ *local_bin = nextbinstart; -+ } -+ bins[bin_count - 1] = last; -+ -+ //If we've bucketsorted, the array is sorted and we should skip recursion -+ if(!log_divisor) -+ return; -+ -+ //Recursing; log_divisor is the remaining range -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ //don't sort unless there are at least two items to compare -+ if(count < 2) -+ continue; -+ //using std::sort if its worst-case is better -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u]); -+ else -+ spread_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes); -+ } -+ } -+ -+ //Generic bitshift-based 3-way swapping code -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void inner_swap_loop(RandomAccessIter * bins, const RandomAccessIter & nextbinstart, unsigned ii, right_shift &shift -+ , const unsigned log_divisor, const div_type div_min) -+ { -+ RandomAccessIter * local_bin = bins + ii; -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ for(RandomAccessIter * target_bin = (bins + (shift(*current, log_divisor) - div_min)); target_bin != local_bin; -+ target_bin = bins + (shift(*current, log_divisor) - div_min)) { -+ data_type tmp; -+ RandomAccessIter b = (*target_bin)++; -+ RandomAccessIter * b_bin = bins + (shift(*b, log_divisor) - div_min); -+ //Three-way swap; if the item to be swapped doesn't belong in the current bin, swap it to where it belongs -+ if (b_bin != local_bin) { -+ RandomAccessIter c = (*b_bin)++; -+ tmp = *c; -+ *c = *b; -+ } -+ //Note: we could increment current once the swap is done in this case, but that seems to impair performance -+ else -+ tmp = *b; -+ *b = *current; -+ *current = tmp; -+ } -+ } -+ *local_bin = nextbinstart; -+ } -+ -+ //Standard swapping wrapper for ascending values -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void swap_loop(RandomAccessIter * bins, RandomAccessIter & nextbinstart, unsigned ii, right_shift &shift -+ , const std::vector<size_t> &bin_sizes, const unsigned log_divisor, const div_type div_min) -+ { -+ nextbinstart += bin_sizes[ii]; -+ inner_swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, log_divisor, div_min); -+ } -+ -+ //Functor implementation for recursive sorting -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare> -+ inline void -+ spread_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes, right_shift shift, compare comp) -+ { -+ RandomAccessIter max, min; -+ find_extremes(first, last, max, min, comp); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(shift(*max, 0)) - (shift(*min, 0)))); -+ div_type div_min = shift(*min, log_divisor); -+ div_type div_max = shift(*max, log_divisor); -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[shift(*(current++), log_divisor) - div_min]++; -+ bins[0] = first; -+ for(unsigned u = 0; u < bin_count - 1; u++) -+ bins[u + 1] = bins[u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ for(unsigned u = 0; u < bin_count - 1; ++u) -+ swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, u, shift, bin_sizes, log_divisor, div_min); -+ bins[bin_count - 1] = last; -+ -+ //If we've bucketsorted, the array is sorted and we should skip recursion -+ if(!log_divisor) -+ return; -+ -+ //Recursing -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u], comp); -+ else -+ spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift, compare>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift, comp); -+ } -+ } -+ -+ //Functor implementation for recursive sorting with only Shift overridden -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void -+ spread_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes, right_shift shift) -+ { -+ RandomAccessIter max, min; -+ find_extremes(first, last, max, min); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(shift(*max, 0)) - (shift(*min, 0)))); -+ div_type div_min = shift(*min, log_divisor); -+ div_type div_max = shift(*max, log_divisor); -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[shift(*(current++), log_divisor) - div_min]++; -+ bins[0] = first; -+ for(unsigned u = 0; u < bin_count - 1; u++) -+ bins[u + 1] = bins[u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ for(unsigned ii = 0; ii < bin_count - 1; ++ii) -+ swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, bin_sizes, log_divisor, div_min); -+ bins[bin_count - 1] = last; -+ -+ //If we've bucketsorted, the array is sorted and we should skip recursion -+ if(!log_divisor) -+ return; -+ -+ //Recursing -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u]); -+ else -+ spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift); -+ } -+ } -+ -+ //Holds the bin vector and makes the initial recursive call -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void -+ spread_sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ spread_sort_rec<RandomAccessIter, div_type, data_type>(first, last, bin_cache, 0, bin_sizes); -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare> -+ inline void -+ spread_sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift, compare comp) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift, compare>(first, last, bin_cache, 0, bin_sizes, shift, comp); -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void -+ spread_sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(first, last, bin_cache, 0, bin_sizes, shift); -+ } -+ } -+ -+ //Top-level sorting call for integers -+ template <class RandomAccessIter> -+ inline void integer_sort(RandomAccessIter first, RandomAccessIter last) -+ { -+ //Don't sort if it's too small to optimize -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last); -+ else -+ detail::spread_sort(first, last, *first >> 0, *first); -+ } -+ -+ //integer_sort with functors -+ template <class RandomAccessIter, class right_shift, class compare> -+ inline void integer_sort(RandomAccessIter first, RandomAccessIter last, -+ right_shift shift, compare comp) { -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last, comp); -+ else -+ detail::spread_sort(first, last, shift(*first, 0), *first, shift, comp); -+ } -+ -+ //integer_sort with right_shift functor -+ template <class RandomAccessIter, class right_shift> -+ inline void integer_sort(RandomAccessIter first, RandomAccessIter last, -+ right_shift shift) { -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last); -+ else -+ detail::spread_sort(first, last, shift(*first, 0), *first, shift); -+ } -+ -+ //------------------------------------------------------ float_sort source -------------------------------------- -+ //Casts a RandomAccessIter to the specified data type -+ template<class cast_type, class RandomAccessIter> -+ inline cast_type -+ cast_float_iter(const RandomAccessIter & floatiter) -+ { -+ cast_type result; -+ std::memcpy(&result, &(*floatiter), sizeof(cast_type)); -+ return result; -+ } -+ -+ //Casts a data element to the specified datinner_float_a type -+ template<class data_type, class cast_type> -+ inline cast_type -+ mem_cast(const data_type & data) -+ { -+ cast_type result; -+ std::memcpy(&result, &data, sizeof(cast_type)); -+ return result; -+ } -+ -+ namespace detail { -+ template <class RandomAccessIter, class div_type, class right_shift> -+ inline void -+ find_extremes(RandomAccessIter current, RandomAccessIter last, div_type & max, div_type & min, right_shift shift) -+ { -+ min = max = shift(*current, 0); -+ while(++current < last) { -+ div_type value = shift(*current, 0); -+ if(max < value) -+ max = value; -+ else if(value < min) -+ min = value; -+ } -+ } -+ -+ //Specialized swap loops for floating-point casting -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void inner_float_swap_loop(RandomAccessIter * bins, const RandomAccessIter & nextbinstart, unsigned ii -+ , const unsigned log_divisor, const div_type div_min) -+ { -+ RandomAccessIter * local_bin = bins + ii; -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ for(RandomAccessIter * target_bin = (bins + ((cast_float_iter<div_type, RandomAccessIter>(current) >> log_divisor) - div_min)); target_bin != local_bin; -+ target_bin = bins + ((cast_float_iter<div_type, RandomAccessIter>(current) >> log_divisor) - div_min)) { -+ data_type tmp; -+ RandomAccessIter b = (*target_bin)++; -+ RandomAccessIter * b_bin = bins + ((cast_float_iter<div_type, RandomAccessIter>(b) >> log_divisor) - div_min); -+ //Three-way swap; if the item to be swapped doesn't belong in the current bin, swap it to where it belongs -+ if (b_bin != local_bin) { -+ RandomAccessIter c = (*b_bin)++; -+ tmp = *c; -+ *c = *b; -+ } -+ else -+ tmp = *b; -+ *b = *current; -+ *current = tmp; -+ } -+ } -+ *local_bin = nextbinstart; -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void float_swap_loop(RandomAccessIter * bins, RandomAccessIter & nextbinstart, unsigned ii -+ , const std::vector<size_t> &bin_sizes, const unsigned log_divisor, const div_type div_min) -+ { -+ nextbinstart += bin_sizes[ii]; -+ inner_float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, ii, log_divisor, div_min); -+ } -+ -+ template <class RandomAccessIter, class cast_type> -+ inline void -+ find_extremes(RandomAccessIter current, RandomAccessIter last, cast_type & max, cast_type & min) -+ { -+ min = max = cast_float_iter<cast_type, RandomAccessIter>(current); -+ while(++current < last) { -+ cast_type value = cast_float_iter<cast_type, RandomAccessIter>(current); -+ if(max < value) -+ max = value; -+ else if(value < min) -+ min = value; -+ } -+ } -+ -+ //Special-case sorting of positive floats with casting instead of a right_shift -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void -+ positive_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[(cast_float_iter<div_type, RandomAccessIter>(current++) >> log_divisor) - div_min]++; -+ bins[0] = first; -+ for(unsigned u = 0; u < bin_count - 1; u++) -+ bins[u + 1] = bins[u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ for(unsigned u = 0; u < bin_count - 1; ++u) -+ float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, u, bin_sizes, log_divisor, div_min); -+ bins[bin_count - 1] = last; -+ -+ //Return if we've completed bucketsorting -+ if(!log_divisor) -+ return; -+ -+ //Recursing -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(unsigned u = cache_offset; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u]); -+ else -+ positive_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes); -+ } -+ } -+ -+ //Sorting negative_ float_s -+ //Note that bins are iterated in reverse order because max_neg_float = min_neg_int -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void -+ negative_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[(cast_float_iter<div_type, RandomAccessIter>(current++) >> log_divisor) - div_min]++; -+ bins[bin_count - 1] = first; -+ for(int ii = bin_count - 2; ii >= 0; --ii) -+ bins[ii] = bins[ii + 1] + bin_sizes[ii + 1]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ //The last bin will always have the correct elements in it -+ for(int ii = bin_count - 1; ii > 0; --ii) -+ float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, ii, bin_sizes, log_divisor, div_min); -+ //Since we don't process the last bin, we need to update its end position -+ bin_cache[cache_offset] = last; -+ -+ //Return if we've completed bucketsorting -+ if(!log_divisor) -+ return; -+ -+ //Recursing -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(int ii = cache_end - 1; ii >= (int)cache_offset; lastPos = bin_cache[ii], --ii) { -+ size_t count = bin_cache[ii] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[ii]); -+ else -+ negative_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes); -+ } -+ } -+ -+ //Sorting negative_ float_s -+ //Note that bins are iterated in reverse order because max_neg_float = min_neg_int -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void -+ negative_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes, right_shift shift) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min, shift); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[shift(*(current++), log_divisor) - div_min]++; -+ bins[bin_count - 1] = first; -+ for(int ii = bin_count - 2; ii >= 0; --ii) -+ bins[ii] = bins[ii + 1] + bin_sizes[ii + 1]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ //The last bin will always have the correct elements in it -+ for(int ii = bin_count - 1; ii > 0; --ii) -+ swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, bin_sizes, log_divisor, div_min); -+ //Since we don't process the last bin, we need to update its end position -+ bin_cache[cache_offset] = last; -+ -+ //Return if we've completed bucketsorting -+ if(!log_divisor) -+ return; -+ -+ //Recursing -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(int ii = cache_end - 1; ii >= (int)cache_offset; lastPos = bin_cache[ii], --ii) { -+ size_t count = bin_cache[ii] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[ii]); -+ else -+ negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift); -+ } -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare> -+ inline void -+ negative_float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes, right_shift shift, compare comp) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min, shift); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[shift(*(current++), log_divisor) - div_min]++; -+ bins[bin_count - 1] = first; -+ for(int ii = bin_count - 2; ii >= 0; --ii) -+ bins[ii] = bins[ii + 1] + bin_sizes[ii + 1]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ //The last bin will always have the correct elements in it -+ for(int ii = bin_count - 1; ii > 0; --ii) -+ swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, ii, shift, bin_sizes, log_divisor, div_min); -+ //Since we don't process the last bin, we need to update its end position -+ bin_cache[cache_offset] = last; -+ -+ //Return if we've completed bucketsorting -+ if(!log_divisor) -+ return; -+ -+ //Recursing -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(int ii = cache_end - 1; ii >= (int)cache_offset; lastPos = bin_cache[ii], --ii) { -+ size_t count = bin_cache[ii] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[ii], comp); -+ else -+ negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift, compare>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift, comp); -+ } -+ } -+ -+ //Casting special-case for floating-point sorting -+ template <class RandomAccessIter, class div_type, class data_type> -+ inline void -+ float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[(cast_float_iter<div_type, RandomAccessIter>(current++) >> log_divisor) - div_min]++; -+ //The index of the first positive bin -+ div_type first_positive = (div_min < 0) ? -div_min : 0; -+ //Resetting if all bins are negative -+ if(cache_offset + first_positive > cache_end) -+ first_positive = cache_end - cache_offset; -+ //Reversing the order of the negative bins -+ //Note that because of the negative/positive ordering direction flip -+ //We can not depend upon bin order and positions matching up -+ //so bin_sizes must be reused to contain the end of the bin -+ if(first_positive > 0) { -+ bins[first_positive - 1] = first; -+ for(int ii = first_positive - 2; ii >= 0; --ii) { -+ bins[ii] = first + bin_sizes[ii + 1]; -+ bin_sizes[ii] += bin_sizes[ii + 1]; -+ } -+ //Handling positives following negatives -+ if((unsigned)first_positive < bin_count) { -+ bins[first_positive] = first + bin_sizes[0]; -+ bin_sizes[first_positive] += bin_sizes[0]; -+ } -+ } -+ else -+ bins[0] = first; -+ for(unsigned u = first_positive; u < bin_count - 1; u++) { -+ bins[u + 1] = first + bin_sizes[u]; -+ bin_sizes[u + 1] += bin_sizes[u]; -+ } -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ for(unsigned u = 0; u < bin_count; ++u) { -+ nextbinstart = first + bin_sizes[u]; -+ inner_float_swap_loop<RandomAccessIter, div_type, data_type>(bins, nextbinstart, u, log_divisor, div_min); -+ } -+ -+ if(!log_divisor) -+ return; -+ -+ //Handling negative values first -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(int ii = cache_offset + first_positive - 1; ii >= (int)cache_offset ; lastPos = bin_cache[ii--]) { -+ size_t count = bin_cache[ii] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[ii]); -+ //sort negative values using reversed-bin spread_sort -+ else -+ negative_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes); -+ } -+ -+ for(unsigned u = cache_offset + first_positive; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u]); -+ //sort positive values using normal spread_sort -+ else -+ positive_float_sort_rec<RandomAccessIter, div_type, data_type>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes); -+ } -+ } -+ -+ //Functor implementation for recursive sorting -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void -+ float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes, right_shift shift) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min, shift); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[shift(*(current++), log_divisor) - div_min]++; -+ //The index of the first positive bin -+ div_type first_positive = (div_min < 0) ? -div_min : 0; -+ //Resetting if all bins are negative -+ if(cache_offset + first_positive > cache_end) -+ first_positive = cache_end - cache_offset; -+ //Reversing the order of the negative bins -+ //Note that because of the negative/positive ordering direction flip -+ //We can not depend upon bin order and positions matching up -+ //so bin_sizes must be reused to contain the end of the bin -+ if(first_positive > 0) { -+ bins[first_positive - 1] = first; -+ for(int ii = first_positive - 2; ii >= 0; --ii) { -+ bins[ii] = first + bin_sizes[ii + 1]; -+ bin_sizes[ii] += bin_sizes[ii + 1]; -+ } -+ //Handling positives following negatives -+ if((unsigned)first_positive < bin_count) { -+ bins[first_positive] = first + bin_sizes[0]; -+ bin_sizes[first_positive] += bin_sizes[0]; -+ } -+ } -+ else -+ bins[0] = first; -+ for(unsigned u = first_positive; u < bin_count - 1; u++) { -+ bins[u + 1] = first + bin_sizes[u]; -+ bin_sizes[u + 1] += bin_sizes[u]; -+ } -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ for(unsigned u = 0; u < bin_count; ++u) { -+ nextbinstart = first + bin_sizes[u]; -+ inner_swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, u, shift, log_divisor, div_min); -+ } -+ -+ //Return if we've completed bucketsorting -+ if(!log_divisor) -+ return; -+ -+ //Handling negative values first -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(int ii = cache_offset + first_positive - 1; ii >= (int)cache_offset ; lastPos = bin_cache[ii--]) { -+ size_t count = bin_cache[ii] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[ii]); -+ //sort negative values using reversed-bin spread_sort -+ else -+ negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift); -+ } -+ -+ for(unsigned u = cache_offset + first_positive; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u]); -+ //sort positive values using normal spread_sort -+ else -+ spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift); -+ } -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare> -+ inline void -+ float_sort_rec(RandomAccessIter first, RandomAccessIter last, std::vector<RandomAccessIter> &bin_cache, unsigned cache_offset -+ , std::vector<size_t> &bin_sizes, right_shift shift, compare comp) -+ { -+ div_type max, min; -+ find_extremes(first, last, max, min, shift); -+ if(max == min) -+ return; -+ unsigned log_divisor = get_log_divisor(last - first, rough_log_2_size((size_t)(max) - min)); -+ div_type div_min = min >> log_divisor; -+ div_type div_max = max >> log_divisor; -+ unsigned bin_count = div_max - div_min + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, bin_count); -+ -+ //Calculating the size of each bin -+ for (RandomAccessIter current = first; current != last;) -+ bin_sizes[shift(*(current++), log_divisor) - div_min]++; -+ //The index of the first positive bin -+ div_type first_positive = (div_min < 0) ? -div_min : 0; -+ //Resetting if all bins are negative -+ if(cache_offset + first_positive > cache_end) -+ first_positive = cache_end - cache_offset; -+ //Reversing the order of the negative bins -+ //Note that because of the negative/positive ordering direction flip -+ //We can not depend upon bin order and positions matching up -+ //so bin_sizes must be reused to contain the end of the bin -+ if(first_positive > 0) { -+ bins[first_positive - 1] = first; -+ for(int ii = first_positive - 2; ii >= 0; --ii) { -+ bins[ii] = first + bin_sizes[ii + 1]; -+ bin_sizes[ii] += bin_sizes[ii + 1]; -+ } -+ //Handling positives following negatives -+ if((unsigned)first_positive < bin_count) { -+ bins[first_positive] = first + bin_sizes[0]; -+ bin_sizes[first_positive] += bin_sizes[0]; -+ } -+ } -+ else -+ bins[0] = first; -+ for(unsigned u = first_positive; u < bin_count - 1; u++) { -+ bins[u + 1] = first + bin_sizes[u]; -+ bin_sizes[u + 1] += bin_sizes[u]; -+ } -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ for(unsigned u = 0; u < bin_count; ++u) { -+ nextbinstart = first + bin_sizes[u]; -+ inner_swap_loop<RandomAccessIter, div_type, data_type, right_shift>(bins, nextbinstart, u, shift, log_divisor, div_min); -+ } -+ -+ //Return if we've completed bucketsorting -+ if(!log_divisor) -+ return; -+ -+ //Handling negative values first -+ size_t max_count = get_max_count(log_divisor, last - first); -+ RandomAccessIter lastPos = first; -+ for(int ii = cache_offset + first_positive - 1; ii >= (int)cache_offset ; lastPos = bin_cache[ii--]) { -+ size_t count = bin_cache[ii] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[ii]); -+ //sort negative values using reversed-bin spread_sort -+ else -+ negative_float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[ii], bin_cache, cache_end, bin_sizes, shift, comp); -+ } -+ -+ for(unsigned u = cache_offset + first_positive; u < cache_end; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ if(count < 2) -+ continue; -+ if(count < max_count) -+ std::sort(lastPos, bin_cache[u]); -+ //sort positive values using normal spread_sort -+ else -+ spread_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(lastPos, bin_cache[u], bin_cache, cache_end, bin_sizes, shift, comp); -+ } -+ } -+ -+ template <class RandomAccessIter, class cast_type, class data_type> -+ inline void -+ float_Sort(RandomAccessIter first, RandomAccessIter last, cast_type, data_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ float_sort_rec<RandomAccessIter, cast_type, data_type>(first, last, bin_cache, 0, bin_sizes); -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift> -+ inline void -+ float_Sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(first, last, bin_cache, 0, bin_sizes, shift); -+ } -+ -+ template <class RandomAccessIter, class div_type, class data_type, class right_shift, class compare> -+ inline void -+ float_Sort(RandomAccessIter first, RandomAccessIter last, div_type, data_type, right_shift shift, compare comp) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ float_sort_rec<RandomAccessIter, div_type, data_type, right_shift>(first, last, bin_cache, 0, bin_sizes, shift, comp); -+ } -+ } -+ -+ //float_sort with casting -+ //The cast_type must be equal in size to the data type, and must be a signed integer -+ template <class RandomAccessIter, class cast_type> -+ inline void float_sort_cast(RandomAccessIter first, RandomAccessIter last, cast_type cVal) -+ { -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last); -+ else -+ detail::float_Sort(first, last, cVal, *first); -+ } -+ -+ //float_sort with casting to an int -+ //Only use this with IEEE floating-point numbers -+ template <class RandomAccessIter> -+ inline void float_sort_cast_to_int(RandomAccessIter first, RandomAccessIter last) -+ { -+ int cVal = 0; -+ float_sort_cast(first, last, cVal); -+ } -+ -+ //float_sort with functors -+ template <class RandomAccessIter, class right_shift> -+ inline void float_sort(RandomAccessIter first, RandomAccessIter last, right_shift shift) -+ { -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last); -+ else -+ detail::float_Sort(first, last, shift(*first, 0), *first, shift); -+ } -+ -+ template <class RandomAccessIter, class right_shift, class compare> -+ inline void float_sort(RandomAccessIter first, RandomAccessIter last, right_shift shift, compare comp) -+ { -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last, comp); -+ else -+ detail::float_Sort(first, last, shift(*first, 0), *first, shift, comp); -+ } -+ -+ //------------------------------------------------- string_sort source --------------------------------------------- -+ namespace detail { -+ //Offsetting on identical characters. This function works a character at a time for optimal worst-case performance. -+ template<class RandomAccessIter> -+ inline void -+ update_offset(RandomAccessIter first, RandomAccessIter finish, unsigned &char_offset) -+ { -+ unsigned nextOffset = char_offset; -+ bool done = false; -+ while(!done) { -+ RandomAccessIter curr = first; -+ do { -+ //ignore empties, but if the nextOffset would exceed the length or not match, exit; we've found the last matching character -+ if((*curr).size() > char_offset && ((*curr).size() <= (nextOffset + 1) || (*curr)[nextOffset] != (*first)[nextOffset])) { -+ done = true; -+ break; -+ } -+ } while(++curr != finish); -+ if(!done) -+ ++nextOffset; -+ } -+ char_offset = nextOffset; -+ } -+ -+ //Offsetting on identical characters. This function works a character at a time for optimal worst-case performance. -+ template<class RandomAccessIter, class get_char, class get_length> -+ inline void -+ update_offset(RandomAccessIter first, RandomAccessIter finish, unsigned &char_offset, get_char getchar, get_length length) -+ { -+ unsigned nextOffset = char_offset; -+ bool done = false; -+ while(!done) { -+ RandomAccessIter curr = first; -+ do { -+ //ignore empties, but if the nextOffset would exceed the length or not match, exit; we've found the last matching character -+ if(length(*curr) > char_offset && (length(*curr) <= (nextOffset + 1) || getchar((*curr), nextOffset) != getchar((*first), nextOffset))) { -+ done = true; -+ break; -+ } -+ } while(++curr != finish); -+ if(!done) -+ ++nextOffset; -+ } -+ char_offset = nextOffset; -+ } -+ -+ //A comparison functor for strings that assumes they are identical up to char_offset -+ template<class data_type, class unsignedchar_type> -+ struct offset_lessthan { -+ offset_lessthan(unsigned char_offset) : fchar_offset(char_offset){} -+ inline bool operator()(const data_type &x, const data_type &y) const -+ { -+ unsigned minSize = std::min(x.size(), y.size()); -+ for(unsigned u = fchar_offset; u < minSize; ++u) { -+ if(static_cast<unsignedchar_type>(x[u]) < static_cast<unsignedchar_type>(y[u])) -+ return true; -+ else if(static_cast<unsignedchar_type>(y[u]) < static_cast<unsignedchar_type>(x[u])) -+ return false; -+ } -+ return x.size() < y.size(); -+ } -+ unsigned fchar_offset; -+ }; -+ -+ //A comparison functor for strings that assumes they are identical up to char_offset -+ template<class data_type, class unsignedchar_type> -+ struct offset_greaterthan { -+ offset_greaterthan(unsigned char_offset) : fchar_offset(char_offset){} -+ inline bool operator()(const data_type &x, const data_type &y) const -+ { -+ unsigned minSize = std::min(x.size(), y.size()); -+ for(unsigned u = fchar_offset; u < minSize; ++u) { -+ if(static_cast<unsignedchar_type>(x[u]) > static_cast<unsignedchar_type>(y[u])) -+ return true; -+ else if(static_cast<unsignedchar_type>(y[u]) > static_cast<unsignedchar_type>(x[u])) -+ return false; -+ } -+ return x.size() > y.size(); -+ } -+ unsigned fchar_offset; -+ }; -+ -+ //A comparison functor for strings that assumes they are identical up to char_offset -+ template<class data_type, class get_char, class get_length> -+ struct offset_char_lessthan { -+ offset_char_lessthan(unsigned char_offset) : fchar_offset(char_offset){} -+ inline bool operator()(const data_type &x, const data_type &y) const -+ { -+ unsigned minSize = std::min(length(x), length(y)); -+ for(unsigned u = fchar_offset; u < minSize; ++u) { -+ if(getchar(x, u) < getchar(y, u)) -+ return true; -+ else if(getchar(y, u) < getchar(x, u)) -+ return false; -+ } -+ return length(x) < length(y); -+ } -+ unsigned fchar_offset; -+ get_char getchar; -+ get_length length; -+ }; -+ -+ //String sorting recursive implementation -+ template <class RandomAccessIter, class data_type, class unsignedchar_type> -+ inline void -+ string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache -+ , unsigned cache_offset, std::vector<size_t> &bin_sizes) -+ { -+ //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact. -+ //Iterate to the end of the empties. If all empty, return -+ while((*first).size() <= char_offset) { -+ if(++first == last) -+ return; -+ } -+ RandomAccessIter finish = last - 1; -+ //Getting the last non-empty -+ for(;(*finish).size() <= char_offset; --finish) { } -+ ++finish; -+ //Offsetting on identical characters. This section works a character at a time for optimal worst-case performance. -+ update_offset(first, finish, char_offset); -+ -+ const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8)); -+ //Equal worst-case between radix and comparison-based is when bin_count = n*log(n). -+ const unsigned max_size = bin_count; -+ const unsigned membin_count = bin_count + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1; -+ -+ //Calculating the size of each bin; this takes roughly 10% of runtime -+ for (RandomAccessIter current = first; current != last; ++current) { -+ if((*current).size() <= char_offset) { -+ bin_sizes[0]++; -+ } -+ else -+ bin_sizes[static_cast<unsignedchar_type>((*current)[char_offset]) + 1]++; -+ } -+ //Assign the bin positions -+ bin_cache[cache_offset] = first; -+ for(unsigned u = 0; u < membin_count - 1; u++) -+ bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ //handling empty bins -+ RandomAccessIter * local_bin = &(bin_cache[cache_offset]); -+ nextbinstart += bin_sizes[0]; -+ RandomAccessIter * target_bin; -+ //Iterating over each element in the bin of empties -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //empties belong in this bin -+ while((*current).size() > char_offset) { -+ target_bin = bins + static_cast<unsignedchar_type>((*current)[char_offset]); -+ iter_swap(current, (*target_bin)++); -+ } -+ } -+ *local_bin = nextbinstart; -+ //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops -+ unsigned last_bin = bin_count - 1; -+ for(; last_bin && !bin_sizes[last_bin + 1]; --last_bin) { } -+ //This dominates runtime, mostly in the swap and bin lookups -+ for(unsigned u = 0; u < last_bin; ++u) { -+ local_bin = bins + u; -+ nextbinstart += bin_sizes[u + 1]; -+ //Iterating over each element in this bin -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //Swapping elements in current into place until the correct element has been swapped in -+ for(target_bin = bins + static_cast<unsignedchar_type>((*current)[char_offset]); target_bin != local_bin; -+ target_bin = bins + static_cast<unsignedchar_type>((*current)[char_offset])) -+ iter_swap(current, (*target_bin)++); -+ } -+ *local_bin = nextbinstart; -+ } -+ bins[last_bin] = last; -+ //Recursing -+ RandomAccessIter lastPos = bin_cache[cache_offset]; -+ //Skip this loop for empties -+ for(unsigned u = cache_offset + 1; u < cache_offset + last_bin + 2; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ //don't sort unless there are at least two items to compare -+ if(count < 2) -+ continue; -+ //using std::sort if its worst-case is better -+ if(count < max_size) -+ std::sort(lastPos, bin_cache[u], offset_lessthan<data_type, unsignedchar_type>(char_offset + 1)); -+ else -+ string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(lastPos, bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes); -+ } -+ } -+ -+ //Sorts strings in reverse order, with empties at the end -+ template <class RandomAccessIter, class data_type, class unsignedchar_type> -+ inline void -+ reverse_string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache -+ , unsigned cache_offset, std::vector<size_t> &bin_sizes) -+ { -+ //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact. -+ RandomAccessIter curr = first; -+ //Iterate to the end of the empties. If all empty, return -+ while((*curr).size() <= char_offset) { -+ if(++curr == last) -+ return; -+ } -+ //Getting the last non-empty -+ while((*(--last)).size() <= char_offset) { } -+ ++last; -+ //Offsetting on identical characters. This section works a character at a time for optimal worst-case performance. -+ update_offset(curr, last, char_offset); -+ RandomAccessIter * target_bin; -+ -+ const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8)); -+ //Equal worst-case between radix and comparison-based is when bin_count = n*log(n). -+ const unsigned max_size = bin_count; -+ const unsigned membin_count = bin_count + 1; -+ const unsigned max_bin = bin_count - 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count); -+ RandomAccessIter * end_bin = &(bin_cache[cache_offset + max_bin]); -+ -+ //Calculating the size of each bin; this takes roughly 10% of runtime -+ for (RandomAccessIter current = first; current != last; ++current) { -+ if((*current).size() <= char_offset) { -+ bin_sizes[bin_count]++; -+ } -+ else -+ bin_sizes[max_bin - static_cast<unsignedchar_type>((*current)[char_offset])]++; -+ } -+ //Assign the bin positions -+ bin_cache[cache_offset] = first; -+ for(unsigned u = 0; u < membin_count - 1; u++) -+ bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = last; -+ //handling empty bins -+ RandomAccessIter * local_bin = &(bin_cache[cache_offset + bin_count]); -+ RandomAccessIter lastFull = *local_bin; -+ //Iterating over each element in the bin of empties -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //empties belong in this bin -+ while((*current).size() > char_offset) { -+ target_bin = end_bin - static_cast<unsignedchar_type>((*current)[char_offset]); -+ iter_swap(current, (*target_bin)++); -+ } -+ } -+ *local_bin = nextbinstart; -+ nextbinstart = first; -+ //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops -+ unsigned last_bin = max_bin; -+ for(; last_bin && !bin_sizes[last_bin]; --last_bin) { } -+ //This dominates runtime, mostly in the swap and bin lookups -+ for(unsigned u = 0; u < last_bin; ++u) { -+ local_bin = bins + u; -+ nextbinstart += bin_sizes[u]; -+ //Iterating over each element in this bin -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //Swapping elements in current into place until the correct element has been swapped in -+ for(target_bin = end_bin - static_cast<unsignedchar_type>((*current)[char_offset]); target_bin != local_bin; -+ target_bin = end_bin - static_cast<unsignedchar_type>((*current)[char_offset])) -+ iter_swap(current, (*target_bin)++); -+ } -+ *local_bin = nextbinstart; -+ } -+ bins[last_bin] = lastFull; -+ //Recursing -+ RandomAccessIter lastPos = first; -+ //Skip this loop for empties -+ for(unsigned u = cache_offset; u <= cache_offset + last_bin; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ //don't sort unless there are at least two items to compare -+ if(count < 2) -+ continue; -+ //using std::sort if its worst-case is better -+ if(count < max_size) -+ std::sort(lastPos, bin_cache[u], offset_greaterthan<data_type, unsignedchar_type>(char_offset + 1)); -+ else -+ reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(lastPos, bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes); -+ } -+ } -+ -+ //String sorting recursive implementation -+ template <class RandomAccessIter, class data_type, class unsignedchar_type, class get_char, class get_length> -+ inline void -+ string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache -+ , unsigned cache_offset, std::vector<size_t> &bin_sizes, get_char getchar, get_length length) -+ { -+ //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact. -+ //Iterate to the end of the empties. If all empty, return -+ while(length(*first) <= char_offset) { -+ if(++first == last) -+ return; -+ } -+ RandomAccessIter finish = last - 1; -+ //Getting the last non-empty -+ for(;length(*finish) <= char_offset; --finish) { } -+ ++finish; -+ update_offset(first, finish, char_offset, getchar, length); -+ -+ const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8)); -+ //Equal worst-case between radix and comparison-based is when bin_count = n*log(n). -+ const unsigned max_size = bin_count; -+ const unsigned membin_count = bin_count + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1; -+ -+ //Calculating the size of each bin; this takes roughly 10% of runtime -+ for (RandomAccessIter current = first; current != last; ++current) { -+ if(length(*current) <= char_offset) { -+ bin_sizes[0]++; -+ } -+ else -+ bin_sizes[getchar((*current), char_offset) + 1]++; -+ } -+ //Assign the bin positions -+ bin_cache[cache_offset] = first; -+ for(unsigned u = 0; u < membin_count - 1; u++) -+ bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ //handling empty bins -+ RandomAccessIter * local_bin = &(bin_cache[cache_offset]); -+ nextbinstart += bin_sizes[0]; -+ RandomAccessIter * target_bin; -+ //Iterating over each element in the bin of empties -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //empties belong in this bin -+ while(length(*current) > char_offset) { -+ target_bin = bins + getchar((*current), char_offset); -+ iter_swap(current, (*target_bin)++); -+ } -+ } -+ *local_bin = nextbinstart; -+ //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops -+ unsigned last_bin = bin_count - 1; -+ for(; last_bin && !bin_sizes[last_bin + 1]; --last_bin) { } -+ //This dominates runtime, mostly in the swap and bin lookups -+ for(unsigned ii = 0; ii < last_bin; ++ii) { -+ local_bin = bins + ii; -+ nextbinstart += bin_sizes[ii + 1]; -+ //Iterating over each element in this bin -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //Swapping elements in current into place until the correct element has been swapped in -+ for(target_bin = bins + getchar((*current), char_offset); target_bin != local_bin; -+ target_bin = bins + getchar((*current), char_offset)) -+ iter_swap(current, (*target_bin)++); -+ } -+ *local_bin = nextbinstart; -+ } -+ bins[last_bin] = last; -+ -+ //Recursing -+ RandomAccessIter lastPos = bin_cache[cache_offset]; -+ //Skip this loop for empties -+ for(unsigned u = cache_offset + 1; u < cache_offset + last_bin + 2; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ //don't sort unless there are at least two items to compare -+ if(count < 2) -+ continue; -+ //using std::sort if its worst-case is better -+ if(count < max_size) -+ std::sort(lastPos, bin_cache[u], offset_char_lessthan<data_type, get_char, get_length>(char_offset + 1)); -+ else -+ string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length>(lastPos, bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes, getchar, length); -+ } -+ } -+ -+ //String sorting recursive implementation -+ template <class RandomAccessIter, class data_type, class unsignedchar_type, class get_char, class get_length, class compare> -+ inline void -+ string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache -+ , unsigned cache_offset, std::vector<size_t> &bin_sizes, get_char getchar, get_length length, compare comp) -+ { -+ //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact. -+ //Iterate to the end of the empties. If all empty, return -+ while(length(*first) <= char_offset) { -+ if(++first == last) -+ return; -+ } -+ RandomAccessIter finish = last - 1; -+ //Getting the last non-empty -+ for(;length(*finish) <= char_offset; --finish) { } -+ ++finish; -+ update_offset(first, finish, char_offset, getchar, length); -+ -+ const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8)); -+ //Equal worst-case between radix and comparison-based is when bin_count = n*log(n). -+ const unsigned max_size = bin_count; -+ const unsigned membin_count = bin_count + 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count) + 1; -+ -+ //Calculating the size of each bin; this takes roughly 10% of runtime -+ for (RandomAccessIter current = first; current != last; ++current) { -+ if(length(*current) <= char_offset) { -+ bin_sizes[0]++; -+ } -+ else -+ bin_sizes[getchar((*current), char_offset) + 1]++; -+ } -+ //Assign the bin positions -+ bin_cache[cache_offset] = first; -+ for(unsigned u = 0; u < membin_count - 1; u++) -+ bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = first; -+ //handling empty bins -+ RandomAccessIter * local_bin = &(bin_cache[cache_offset]); -+ nextbinstart += bin_sizes[0]; -+ RandomAccessIter * target_bin; -+ //Iterating over each element in the bin of empties -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //empties belong in this bin -+ while(length(*current) > char_offset) { -+ target_bin = bins + getchar((*current), char_offset); -+ iter_swap(current, (*target_bin)++); -+ } -+ } -+ *local_bin = nextbinstart; -+ //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops -+ unsigned last_bin = bin_count - 1; -+ for(; last_bin && !bin_sizes[last_bin + 1]; --last_bin) { } -+ //This dominates runtime, mostly in the swap and bin lookups -+ for(unsigned u = 0; u < last_bin; ++u) { -+ local_bin = bins + u; -+ nextbinstart += bin_sizes[u + 1]; -+ //Iterating over each element in this bin -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //Swapping elements in current into place until the correct element has been swapped in -+ for(target_bin = bins + getchar((*current), char_offset); target_bin != local_bin; -+ target_bin = bins + getchar((*current), char_offset)) -+ iter_swap(current, (*target_bin)++); -+ } -+ *local_bin = nextbinstart; -+ } -+ bins[last_bin] = last; -+ -+ //Recursing -+ RandomAccessIter lastPos = bin_cache[cache_offset]; -+ //Skip this loop for empties -+ for(unsigned u = cache_offset + 1; u < cache_offset + last_bin + 2; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ //don't sort unless there are at least two items to compare -+ if(count < 2) -+ continue; -+ //using std::sort if its worst-case is better -+ if(count < max_size) -+ std::sort(lastPos, bin_cache[u], comp); -+ else -+ string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(lastPos -+ , bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes, getchar, length, comp); -+ } -+ } -+ -+ //Sorts strings in reverse order, with empties at the end -+ template <class RandomAccessIter, class data_type, class unsignedchar_type, class get_char, class get_length, class compare> -+ inline void -+ reverse_string_sort_rec(RandomAccessIter first, RandomAccessIter last, unsigned char_offset, std::vector<RandomAccessIter> &bin_cache -+ , unsigned cache_offset, std::vector<size_t> &bin_sizes, get_char getchar, get_length length, compare comp) -+ { -+ //This section is not strictly necessary, but makes handling of long identical substrings much faster, with a mild average performance impact. -+ RandomAccessIter curr = first; -+ //Iterate to the end of the empties. If all empty, return -+ while(length(*curr) <= char_offset) { -+ if(++curr == last) -+ return; -+ } -+ //Getting the last non-empty -+ while(length(*(--last)) <= char_offset) { } -+ ++last; -+ //Offsetting on identical characters. This section works a character at a time for optimal worst-case performance. -+ update_offset(first, last, char_offset, getchar, length); -+ -+ const unsigned bin_count = (1 << (sizeof(unsignedchar_type)*8)); -+ //Equal worst-case between radix and comparison-based is when bin_count = n*log(n). -+ const unsigned max_size = bin_count; -+ const unsigned membin_count = bin_count + 1; -+ const unsigned max_bin = bin_count - 1; -+ unsigned cache_end; -+ RandomAccessIter * bins = size_bins(bin_sizes, bin_cache, cache_offset, cache_end, membin_count); -+ RandomAccessIter *end_bin = &(bin_cache[cache_offset + max_bin]); -+ -+ //Calculating the size of each bin; this takes roughly 10% of runtime -+ for (RandomAccessIter current = first; current != last; ++current) { -+ if(length(*current) <= char_offset) { -+ bin_sizes[bin_count]++; -+ } -+ else -+ bin_sizes[max_bin - getchar((*current), char_offset)]++; -+ } -+ //Assign the bin positions -+ bin_cache[cache_offset] = first; -+ for(unsigned u = 0; u < membin_count - 1; u++) -+ bin_cache[cache_offset + u + 1] = bin_cache[cache_offset + u] + bin_sizes[u]; -+ -+ //Swap into place -+ RandomAccessIter nextbinstart = last; -+ //handling empty bins -+ RandomAccessIter * local_bin = &(bin_cache[cache_offset + bin_count]); -+ RandomAccessIter lastFull = *local_bin; -+ RandomAccessIter * target_bin; -+ //Iterating over each element in the bin of empties -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //empties belong in this bin -+ while(length(*current) > char_offset) { -+ target_bin = end_bin - getchar((*current), char_offset); -+ iter_swap(current, (*target_bin)++); -+ } -+ } -+ *local_bin = nextbinstart; -+ nextbinstart = first; -+ //iterate backwards to find the last bin with elements in it; this saves iterations in multiple loops -+ unsigned last_bin = max_bin; -+ for(; last_bin && !bin_sizes[last_bin]; --last_bin) { } -+ //This dominates runtime, mostly in the swap and bin lookups -+ for(unsigned u = 0; u < last_bin; ++u) { -+ local_bin = bins + u; -+ nextbinstart += bin_sizes[u]; -+ //Iterating over each element in this bin -+ for(RandomAccessIter current = *local_bin; current < nextbinstart; ++current) { -+ //Swapping elements in current into place until the correct element has been swapped in -+ for(target_bin = end_bin - getchar((*current), char_offset); target_bin != local_bin; -+ target_bin = end_bin - getchar((*current), char_offset)) -+ iter_swap(current, (*target_bin)++); -+ } -+ *local_bin = nextbinstart; -+ } -+ bins[last_bin] = lastFull; -+ //Recursing -+ RandomAccessIter lastPos = first; -+ //Skip this loop for empties -+ for(unsigned u = cache_offset; u <= cache_offset + last_bin; lastPos = bin_cache[u], ++u) { -+ size_t count = bin_cache[u] - lastPos; -+ //don't sort unless there are at least two items to compare -+ if(count < 2) -+ continue; -+ //using std::sort if its worst-case is better -+ if(count < max_size) -+ std::sort(lastPos, bin_cache[u], comp); -+ else -+ reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(lastPos -+ , bin_cache[u], char_offset + 1, bin_cache, cache_end, bin_sizes, getchar, length, comp); -+ } -+ } -+ -+ //Holds the bin vector and makes the initial recursive call -+ template <class RandomAccessIter, class data_type, class unsignedchar_type> -+ inline void -+ string_sort(RandomAccessIter first, RandomAccessIter last, data_type, unsignedchar_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(first, last, 0, bin_cache, 0, bin_sizes); -+ } -+ -+ //Holds the bin vector and makes the initial recursive call -+ template <class RandomAccessIter, class data_type, class unsignedchar_type> -+ inline void -+ reverse_string_sort(RandomAccessIter first, RandomAccessIter last, data_type, unsignedchar_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type>(first, last, 0, bin_cache, 0, bin_sizes); -+ } -+ -+ //Holds the bin vector and makes the initial recursive call -+ template <class RandomAccessIter, class get_char, class get_length, class data_type, class unsignedchar_type> -+ inline void -+ string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, data_type, unsignedchar_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length>(first, last, 0, bin_cache, 0, bin_sizes, getchar, length); -+ } -+ -+ //Holds the bin vector and makes the initial recursive call -+ template <class RandomAccessIter, class get_char, class get_length, class compare, class data_type, class unsignedchar_type> -+ inline void -+ string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp, data_type, unsignedchar_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(first, last, 0, bin_cache, 0, bin_sizes, getchar, length, comp); -+ } -+ -+ //Holds the bin vector and makes the initial recursive call -+ template <class RandomAccessIter, class get_char, class get_length, class compare, class data_type, class unsignedchar_type> -+ inline void -+ reverse_string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp, data_type, unsignedchar_type) -+ { -+ std::vector<size_t> bin_sizes; -+ std::vector<RandomAccessIter> bin_cache; -+ reverse_string_sort_rec<RandomAccessIter, data_type, unsignedchar_type, get_char, get_length, compare>(first, last, 0, bin_cache, 0, bin_sizes, getchar, length, comp); -+ } -+ } -+ -+ //Allows character-type overloads -+ template <class RandomAccessIter, class unsignedchar_type> -+ inline void string_sort(RandomAccessIter first, RandomAccessIter last, unsignedchar_type unused) -+ { -+ //Don't sort if it's too small to optimize -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last); -+ else -+ detail::string_sort(first, last, *first, unused); -+ } -+ -+ //Top-level sorting call; wraps using default of unsigned char -+ template <class RandomAccessIter> -+ inline void string_sort(RandomAccessIter first, RandomAccessIter last) -+ { -+ unsigned char unused = '\0'; -+ string_sort(first, last, unused); -+ } -+ -+ //Allows character-type overloads -+ template <class RandomAccessIter, class compare, class unsignedchar_type> -+ inline void reverse_string_sort(RandomAccessIter first, RandomAccessIter last, compare comp, unsignedchar_type unused) -+ { -+ //Don't sort if it's too small to optimize -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last, comp); -+ else -+ detail::reverse_string_sort(first, last, *first, unused); -+ } -+ -+ //Top-level sorting call; wraps using default of unsigned char -+ template <class RandomAccessIter, class compare> -+ inline void reverse_string_sort(RandomAccessIter first, RandomAccessIter last, compare comp) -+ { -+ unsigned char unused = '\0'; -+ reverse_string_sort(first, last, comp, unused); -+ } -+ -+ template <class RandomAccessIter, class get_char, class get_length> -+ inline void string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length) -+ { -+ //Don't sort if it's too small to optimize -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last); -+ else { -+ //skipping past empties at the beginning, which allows us to get the character type -+ //.empty() is not used so as not to require a user declaration of it -+ while(!length(*first)) { -+ if(++first == last) -+ return; -+ } -+ detail::string_sort(first, last, getchar, length, *first, getchar((*first), 0)); -+ } -+ } -+ -+ template <class RandomAccessIter, class get_char, class get_length, class compare> -+ inline void string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp) -+ { -+ //Don't sort if it's too small to optimize -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last, comp); -+ else { -+ //skipping past empties at the beginning, which allows us to get the character type -+ //.empty() is not used so as not to require a user declaration of it -+ while(!length(*first)) { -+ if(++first == last) -+ return; -+ } -+ detail::string_sort(first, last, getchar, length, comp, *first, getchar((*first), 0)); -+ } -+ } -+ -+ template <class RandomAccessIter, class get_char, class get_length, class compare> -+ inline void reverse_string_sort(RandomAccessIter first, RandomAccessIter last, get_char getchar, get_length length, compare comp) -+ { -+ //Don't sort if it's too small to optimize -+ if(last - first < detail::MIN_SORT_SIZE) -+ std::sort(first, last, comp); -+ else { -+ //skipping past empties at the beginning, which allows us to get the character type -+ //.empty() is not used so as not to require a user declaration of it -+ while(!length(*(--last))) { -+ //Note: if there is just one non-empty, and it's at the beginning, then it's already in sorted order -+ if(first == last) -+ return; -+ } -+ //making last just after the end of the non-empty part of the array -+ ++last; -+ detail::reverse_string_sort(first, last, getchar, length, comp, *first, getchar((*first), 0)); -+ } -+ } -+} -+ -+#endif diff --git a/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_bsd_addr_c b/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_bsd_addr_c deleted file mode 100644 index b64787d88..000000000 --- a/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_bsd_addr_c +++ /dev/null @@ -1,15 +0,0 @@ ---- mozilla-release.orig/netwerk/sctp/src/netinet/sctp_bsd_addr.c 2013-09-11 01:15:20.000000000 +0200 -+++ mozilla-release/netwerk/sctp/src/netinet/sctp_bsd_addr.c 2013-10-23 16:28:38.000000000 +0200 -@@ -49,11 +49,10 @@ __FBSDID("$FreeBSD: head/sys/netinet/sct - #include <netinet/sctp_sysctl.h> - #include <netinet/sctp_indata.h> - #if !defined(__Userspace_os_Windows) -+#include <unistd.h> - #if defined(ANDROID) - #include <unistd.h> - #include <ifaddrs-android-ext.h> --#else --#include <sys/unistd.h> - #endif - #endif - diff --git a/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_os_userspace_h b/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_os_userspace_h deleted file mode 100644 index c3965834f..000000000 --- a/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_os_userspace_h +++ /dev/null @@ -1,22 +0,0 @@ ---- mozilla-release.orig/netwerk/sctp/src/netinet/sctp_os_userspace.h 2013-09-11 01:15:20.000000000 +0200 -+++ mozilla-release/netwerk/sctp/src/netinet/sctp_os_userspace.h 2013-10-23 16:28:38.000000000 +0200 -@@ -381,9 +381,8 @@ struct udphdr { - }; - - #else /* !defined(Userspace_os_Windows) */ --#include <sys/cdefs.h> /* needed? added from old __FreeBSD__ */ - #include <sys/socket.h> --#if defined(__Userspace_os_FreeBSD) || defined(__Userspace_os_OpenBSD) || defined(ANDROID) -+#if defined(__Userspace_os_FreeBSD) || defined(__Userspace_os_OpenBSD) || defined(ANDROID) || 1 - #include <pthread.h> - #endif - typedef pthread_mutex_t userland_mutex_t; -@@ -406,7 +405,7 @@ struct sx {int dummy;}; - /* #include <sys/param.h> in FreeBSD defines MSIZE */ - /* #include <sys/ktr.h> */ - /* #include <sys/systm.h> */ --#if defined(__Userspace_os_Windows) -+#if defined(__Userspace_os_Windows) || 1 - #include <user_queue.h> - #else - #include <sys/queue.h> diff --git a/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_pcb_c b/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_pcb_c deleted file mode 100644 index bee5b1c64..000000000 --- a/package/firefox/patches/patch-netwerk_sctp_src_netinet_sctp_pcb_c +++ /dev/null @@ -1,25 +0,0 @@ ---- mozilla-release.orig/netwerk/sctp/src/netinet/sctp_pcb.c 2013-09-11 01:15:20.000000000 +0200 -+++ mozilla-release/netwerk/sctp/src/netinet/sctp_pcb.c 2013-10-23 16:28:38.000000000 +0200 -@@ -30,6 +30,8 @@ - * THE POSSIBILITY OF SUCH DAMAGE. - */ - -+#define _BSD_SOURCE /* for IPPORT_RESERVED */ -+ - #ifdef __FreeBSD__ - #include <sys/cdefs.h> - __FBSDID("$FreeBSD: head/sys/netinet/sctp_pcb.c 246687 2013-02-11 21:02:49Z tuexen $"); -@@ -69,11 +71,10 @@ __FBSDID("$FreeBSD: head/sys/netinet/sct - #endif - #if defined(__Userspace__) - #if !defined(__Userspace_os_Windows) --#if defined(ANDROID) -+#include <netdb.h> - #include <unistd.h> -+#if defined(ANDROID) - #include <ifaddrs-android-ext.h> --#else --#include <sys/unistd.h> - #endif - #endif - #include <user_socketvar.h> diff --git a/package/firefox/patches/patch-netwerk_sctp_src_user_environment_c b/package/firefox/patches/patch-netwerk_sctp_src_user_environment_c deleted file mode 100644 index a31543c75..000000000 --- a/package/firefox/patches/patch-netwerk_sctp_src_user_environment_c +++ /dev/null @@ -1,14 +0,0 @@ ---- mozilla-release.orig/netwerk/sctp/src/user_environment.c 2013-12-05 17:07:52.000000000 +0100 -+++ mozilla-release/netwerk/sctp/src/user_environment.c 2014-03-16 17:53:08.000000000 +0100 -@@ -35,9 +35,11 @@ - #include <stdint.h> - #if !defined(__Userspace_os_FreeBSD) - #if !defined(ANDROID) -+#if defined(__GLIBC__) - #include <sys/sysctl.h> - #endif - #endif -+#endif - #include <netinet/sctp_os_userspace.h> - #endif - #include <user_environment.h> diff --git a/package/firefox/patches/patch-netwerk_sctp_src_user_queue_h b/package/firefox/patches/patch-netwerk_sctp_src_user_queue_h deleted file mode 100644 index 0a5f30d28..000000000 --- a/package/firefox/patches/patch-netwerk_sctp_src_user_queue_h +++ /dev/null @@ -1,12 +0,0 @@ ---- mozilla-release.orig/netwerk/sctp/src/user_queue.h 2013-09-11 01:15:20.000000000 +0200 -+++ mozilla-release/netwerk/sctp/src/user_queue.h 2013-10-23 16:28:38.000000000 +0200 -@@ -31,9 +31,6 @@ - #ifndef _USER_QUEUE_H_ - #define _USER_QUEUE_H_ - --#if !defined (__Userspace_os_Windows) --#include <sys/cdefs.h> --#endif - /* - * This file defines four types of data structures: singly-linked lists, - * singly-linked tail queues, lists and tail queues. diff --git a/package/firefox/patches/patch-python_mozbuild_mozbuild_backend_recursivemake_py b/package/firefox/patches/patch-python_mozbuild_mozbuild_backend_recursivemake_py index 30f5edd57..3f9aa337d 100644 --- a/package/firefox/patches/patch-python_mozbuild_mozbuild_backend_recursivemake_py +++ b/package/firefox/patches/patch-python_mozbuild_mozbuild_backend_recursivemake_py @@ -1,11 +1,11 @@ ---- mozilla-release.orig/python/mozbuild/mozbuild/backend/recursivemake.py 2013-12-05 17:07:53.000000000 +0100 -+++ mozilla-release/python/mozbuild/mozbuild/backend/recursivemake.py 2014-01-04 17:58:26.000000000 +0100 -@@ -421,7 +421,7 @@ class RecursiveMakeBackend(CommonBackend +--- mozilla-release.orig/python/mozbuild/mozbuild/backend/recursivemake.py 2015-01-09 05:38:28.000000000 +0100 ++++ mozilla-release/python/mozbuild/mozbuild/backend/recursivemake.py 2015-01-29 16:46:28.000000000 +0100 +@@ -940,7 +940,7 @@ INSTALL_TARGETS += %(prefix)s def _handle_idl_manager(self, manager): - build_files = self._purge_manifests['xpidl'] + build_files = self._install_manifests['xpidl'] - for p in ('Makefile', 'backend.mk', '.deps/.mkdir.done', + for p in ('Makefile.in', 'Makefile', 'backend.mk', '.deps/.mkdir.done', 'xpt/.mkdir.done'): - build_files.add(p) + build_files.add_optional_exists(p) diff --git a/package/firefox/patches/patch-tools_profiler_platform-linux_cc b/package/firefox/patches/patch-tools_profiler_platform-linux_cc index a331e87fe..96b97381b 100644 --- a/package/firefox/patches/patch-tools_profiler_platform-linux_cc +++ b/package/firefox/patches/patch-tools_profiler_platform-linux_cc @@ -1,6 +1,6 @@ ---- mozilla-release.orig/tools/profiler/platform-linux.cc 2013-12-05 17:07:58.000000000 +0100 -+++ mozilla-release/tools/profiler/platform-linux.cc 2014-01-02 14:59:20.000000000 +0100 -@@ -58,7 +58,7 @@ +--- mozilla-release.orig/tools/profiler/platform-linux.cc 2015-01-09 05:38:28.000000000 +0100 ++++ mozilla-release/tools/profiler/platform-linux.cc 2015-01-29 16:46:28.000000000 +0100 +@@ -57,7 +57,7 @@ #include <fcntl.h> // open #include <unistd.h> // sysconf #include <semaphore.h> @@ -9,7 +9,7 @@ #include <execinfo.h> // backtrace, backtrace_symbols #endif // def __GLIBC__ #include <strings.h> // index -@@ -84,14 +84,12 @@ +@@ -92,14 +92,12 @@ #define SIGNAL_SAVE_PROFILE SIGUSR2 @@ -23,5 +23,5 @@ } -#endif - #if !defined(ANDROID) - // Keep track of when any of our threads calls fork(), so we can + /* static */ Thread::tid_t + Thread::GetCurrentId() diff --git a/package/firefox/patches/patch-tools_profiler_shared-libraries-linux_cc b/package/firefox/patches/patch-tools_profiler_shared-libraries-linux_cc deleted file mode 100644 index 40b8b594d..000000000 --- a/package/firefox/patches/patch-tools_profiler_shared-libraries-linux_cc +++ /dev/null @@ -1,11 +0,0 @@ ---- mozilla-release.orig/tools/profiler/shared-libraries-linux.cc 2013-12-05 17:07:58.000000000 +0100 -+++ mozilla-release/tools/profiler/shared-libraries-linux.cc 2014-01-02 15:00:00.000000000 +0100 -@@ -14,7 +14,7 @@ - #include "platform.h" - #include "shared-libraries.h" - --#if !defined(__GLIBC__) && ANDROID_VERSION < 18 -+#if 0 - /* a crapy version of getline, because it's not included in old bionics */ - static ssize_t getline(char **lineptr, size_t *n, FILE *stream) - { diff --git a/package/firefox/patches/patch-xpcom_ds_nsMathUtils_h b/package/firefox/patches/patch-xpcom_ds_nsMathUtils_h index b275a14ec..0b3a738bb 100644 --- a/package/firefox/patches/patch-xpcom_ds_nsMathUtils_h +++ b/package/firefox/patches/patch-xpcom_ds_nsMathUtils_h @@ -1,20 +1,20 @@ ---- mozilla-release.orig/xpcom/ds/nsMathUtils.h 2013-09-11 01:15:27.000000000 +0200 -+++ mozilla-release/xpcom/ds/nsMathUtils.h 2013-10-23 16:28:38.000000000 +0200 -@@ -98,12 +98,16 @@ inline NS_HIDDEN_(bool) NS_finite(double +--- mozilla-release.orig/xpcom/ds/nsMathUtils.h 2015-01-09 05:38:29.000000000 +0100 ++++ mozilla-release/xpcom/ds/nsMathUtils.h 2015-01-29 21:37:27.000000000 +0100 +@@ -104,12 +104,16 @@ NS_finite(double aNum) #ifdef WIN32 - // NOTE: '!!' casts an int to bool without spamming MSVC warning C4800. - return !!_finite(d); + // NOTE: '!!' casts an int to bool without spamming MSVC warning C4800. + return !!_finite(aNum); -#elif defined(XP_DARWIN) +#elif defined(XP_DARWIN) || defined(__UCLIBC__) - // Darwin has deprecated |finite| and recommends |isfinite|. The former is - // not present in the iOS SDK. - return std::isfinite(d); + // Darwin has deprecated |finite| and recommends |isfinite|. The former is + // not present in the iOS SDK. + return std::isfinite(aNum); #else -- return finite(d); +- return finite(aNum); +#ifdef _GLIBCXX_CMATH -+ return std::isfinite(d); ++ return std::isfinite(d); +#else -+ return isfinite(d); ++ return isfinite(d); +#endif #endif } diff --git a/package/firefox/patches/patch-xpcom_io_nsLocalFileUnix_cpp b/package/firefox/patches/patch-xpcom_io_nsLocalFileUnix_cpp index 868ad69d4..71899d1a6 100644 --- a/package/firefox/patches/patch-xpcom_io_nsLocalFileUnix_cpp +++ b/package/firefox/patches/patch-xpcom_io_nsLocalFileUnix_cpp @@ -1,16 +1,21 @@ ---- mozilla-release.orig/xpcom/io/nsLocalFileUnix.cpp 2013-12-05 17:08:00.000000000 +0100 -+++ mozilla-release/xpcom/io/nsLocalFileUnix.cpp 2014-01-02 14:53:47.000000000 +0100 -@@ -1234,8 +1234,13 @@ nsLocalFile::GetDiskSpaceAvailable(int64 - && dq.dqb_bhardlimit) - { - int64_t QuotaSpaceAvailable = 0; +--- mozilla-release.orig/xpcom/io/nsLocalFileUnix.cpp 2015-01-09 05:38:29.000000000 +0100 ++++ mozilla-release/xpcom/io/nsLocalFileUnix.cpp 2015-01-30 14:13:49.000000000 +0100 +@@ -1407,10 +1407,18 @@ nsLocalFile::GetDiskSpaceAvailable(int64 + #endif + && dq.dqb_bhardlimit) { + int64_t QuotaSpaceAvailable = 0; +#if defined(__UCLIBC__) -+ if (dq.dqb_bhardlimit > dq.dqb_curblocks) -+ QuotaSpaceAvailable = PRInt64(fs_buf.f_bsize * (dq.dqb_bhardlimit - dq.dqb_curblocks)); ++ if (dq.dqb_bhardlimit > dq.dqb_curblocks) { ++ QuotaSpaceAvailable = ++ int64_t(fs_buf.F_BSIZE * (dq.dqb_bhardlimit - dq.dqb_curblocks)); ++ } +#else - if (dq.dqb_bhardlimit > dq.dqb_curspace) - QuotaSpaceAvailable = int64_t(fs_buf.F_BSIZE * (dq.dqb_bhardlimit - dq.dqb_curspace)); + if (dq.dqb_bhardlimit > dq.dqb_curspace) { + QuotaSpaceAvailable = + int64_t(fs_buf.F_BSIZE * (dq.dqb_bhardlimit - dq.dqb_curspace)); + } +#endif - if(QuotaSpaceAvailable < *aDiskSpaceAvailable) { - *aDiskSpaceAvailable = QuotaSpaceAvailable; - } ++ + if (QuotaSpaceAvailable < *aDiskSpaceAvailable) { + *aDiskSpaceAvailable = QuotaSpaceAvailable; + } diff --git a/package/firefox/patches/patch-xpcom_threads_nsThread_cpp b/package/firefox/patches/patch-xpcom_threads_nsThread_cpp deleted file mode 100644 index 0f40d736a..000000000 --- a/package/firefox/patches/patch-xpcom_threads_nsThread_cpp +++ /dev/null @@ -1,17 +0,0 @@ ---- mozilla-release.orig/xpcom/threads/nsThread.cpp 2013-12-05 17:08:00.000000000 +0100 -+++ mozilla-release/xpcom/threads/nsThread.cpp 2014-01-02 14:53:47.000000000 +0100 -@@ -23,11 +23,13 @@ - _XOPEN_SOURCE && _XOPEN_SOURCE_EXTENDED) && \ - !(_POSIX_C_SOURCE >= 200809L || _XOPEN_SOURCE >= 700) - -+#include <features.h> - #if defined(XP_UNIX) && !defined(ANDROID) && !defined(DEBUG) && HAVE_UALARM \ - && defined(_GNU_SOURCE) --# define MOZ_CANARY - # include <unistd.h> -+#if !defined(__UCLIBC__) - # include <execinfo.h> -+#endif - # include <signal.h> - # include <fcntl.h> - # include "nsXULAppAPI.h" diff --git a/package/nss/Makefile b/package/nss/Makefile index 1ebc13824..305b9d707 100644 --- a/package/nss/Makefile +++ b/package/nss/Makefile @@ -4,12 +4,12 @@ include $(ADK_TOPDIR)/rules.mk PKG_NAME:= nss -PKG_VERSION:= 3.16.1 -PKG_RELEASE:= 2 +PKG_VERSION:= 3.17.4 +PKG_RELEASE:= 1 PKG_MAJ_VERSION:= 3 -PKG_MIN_VERSION:= 16 -PKG_PATCH_VERSION:= 1 -PKG_HASH:= fab750f7d34c09cf34df25da1924a9a8f4c7f1768e2d456f8be767ecbbe84a6e +PKG_MIN_VERSION:= 17 +PKG_PATCH_VERSION:= 4 +PKG_HASH:= 1d98ad1881a4237ec98cbe472fc851480f0b0e954dfe224d047811fb96ff9d79 PKG_DESCR:= network security services library PKG_SECTION:= libs/crypto PKG_BUILDDEP:= nspr zlib sqlite diff --git a/package/nss/patches/patch-nss_coreconf_Linux_mk b/package/nss/patches/patch-nss_coreconf_Linux_mk index 3f08b564b..90b0ab023 100644 --- a/package/nss/patches/patch-nss_coreconf_Linux_mk +++ b/package/nss/patches/patch-nss_coreconf_Linux_mk @@ -1,5 +1,5 @@ ---- nss-3.16.1.orig/nss/coreconf/Linux.mk 2014-05-02 05:27:18.000000000 +0200 -+++ nss-3.16.1/nss/coreconf/Linux.mk 2014-06-19 14:09:55.000000000 +0200 +--- nss-3.17.4.orig/nss/coreconf/Linux.mk 2015-01-22 20:49:26.000000000 +0100 ++++ nss-3.17.4/nss/coreconf/Linux.mk 2015-01-29 15:49:15.000000000 +0100 @@ -16,9 +16,9 @@ ifeq ($(USE_PTHREADS),1) IMPL_STRATEGY = _PTH endif @@ -13,7 +13,7 @@ DEFAULT_COMPILER = gcc -@@ -146,7 +146,7 @@ DSO_LDOPTS = -shared $(ARCHFLAG) +@@ -146,7 +146,7 @@ DSO_LDOPTS = -shared $(ARCHFLAG) -Wl,-- # we don't use -z defs there. ZDEFS_FLAG = -Wl,-z,defs DSO_LDOPTS += $(if $(findstring 2.11.90.0.8,$(shell ld -v)),,$(ZDEFS_FLAG)) diff --git a/package/nss/patches/patch-nss_coreconf_command_mk b/package/nss/patches/patch-nss_coreconf_command_mk index 91c922000..8470fdbc5 100644 --- a/package/nss/patches/patch-nss_coreconf_command_mk +++ b/package/nss/patches/patch-nss_coreconf_command_mk @@ -1,6 +1,6 @@ ---- nss-3.15.2.orig/nss/coreconf/command.mk 2013-09-25 15:57:55.000000000 +0200 -+++ nss-3.15.2/nss/coreconf/command.mk 2013-09-27 19:07:39.000000000 +0200 -@@ -16,7 +16,7 @@ LINK_EXE = $(LINK) $(OS_LFLAGS) $(L +--- nss-3.17.4.orig/nss/coreconf/command.mk 2015-01-22 20:49:26.000000000 +0100 ++++ nss-3.17.4/nss/coreconf/command.mk 2015-01-29 15:49:15.000000000 +0100 +@@ -15,7 +15,7 @@ LINK_DLL = $(LINK) $(OS_DLLFLAGS) $ CFLAGS = $(OPTIMIZER) $(OS_CFLAGS) $(XP_DEFINE) $(DEFINES) $(INCLUDES) \ $(XCFLAGS) PERL = perl diff --git a/package/nss/patches/patch-nss_manifest_mn b/package/nss/patches/patch-nss_manifest_mn index 91fc45073..e0881672c 100644 --- a/package/nss/patches/patch-nss_manifest_mn +++ b/package/nss/patches/patch-nss_manifest_mn @@ -1,8 +1,11 @@ ---- nss-3.15.2.orig/nss/manifest.mn 2013-09-25 15:57:55.000000000 +0200 -+++ nss-3.15.2/nss/manifest.mn 2013-09-30 16:02:15.000000000 +0200 -@@ -10,4 +10,4 @@ IMPORTS = nspr20/v4.8 \ +--- nss-3.17.4.orig/nss/manifest.mn 2015-01-22 20:49:26.000000000 +0100 ++++ nss-3.17.4/nss/manifest.mn 2015-01-29 15:57:46.000000000 +0100 +@@ -10,7 +10,7 @@ IMPORTS = nspr20/v4.8 \ RELEASE = nss -DIRS = coreconf lib cmd +DIRS = coreconf lib cmd config + + ifdef NSS_BUILD_GTESTS + DIRS += external_tests diff --git a/package/python2/Makefile b/package/python2/Makefile index 4c6f5ccd2..ece0ad685 100644 --- a/package/python2/Makefile +++ b/package/python2/Makefile @@ -5,12 +5,12 @@ include ${ADK_TOPDIR}/rules.mk PKG_NAME:= python2 PKG_VERSION:= 2.7.5 -PKG_RELEASE:= 12 +PKG_RELEASE:= 13 PKG_HASH:= 8e1b5fa87b91835afb376a9c0d319d41feca07ffebc0288d97ab08d64f48afbf PKG_DESCR:= python scripting language (Version 2) PKG_SECTION:= dev/lang PKG_BUILDDEP:= libffi python2-host -HOST_BUILDDEP:= libffi-host bzip2-host +HOST_BUILDDEP:= libffi-host bzip2-host openssl-host PKG_DEPENDS:= libpthread libffi PKG_URL:= http://www.python.org/ PKG_SITES:= http://www.python.org/ftp/python/${PKG_VERSION}/ @@ -100,8 +100,8 @@ CONFIGURE_ARGS:= --with-threads \ HOST_CONFIGURE_ENV+= MACOSX_DEPLOYMENT_TARGET=10.9 HOST_CONFIGURE_ARGS+= --with-threads \ + --enable-shared \ --disable-ipv6 \ - --disable-shared \ --disable-toolbox-glue \ --without-cxx-main diff --git a/package/sqlite/Makefile b/package/sqlite/Makefile index 467677bd4..89d227e12 100644 --- a/package/sqlite/Makefile +++ b/package/sqlite/Makefile @@ -4,7 +4,7 @@ include ${ADK_TOPDIR}/rules.mk PKG_NAME:= sqlite -PKG_VERSION:= 3.8.5 +PKG_VERSION:= 3.8.8.1 PKG_RELEASE:= 1 PKG_HASH:= 98c33abe4106e508e73fda648b2657ac9e969fe24695f543dcde68cc71f3091b PKG_DESCR:= embeddable sql database cli @@ -12,12 +12,12 @@ PKG_SECTION:= sys/misc PKG_BUILDDEP:= ncurses readline PKG_DEPENDS:= libsqlite PKG_URL:= http://www.sqlite.org/ -PKG_SITES:= http://www.sqlite.org/2014/ +PKG_SITES:= http://www.sqlite.org/2015/ PKG_LIBNAME:= libsqlite PKG_OPTS:= dev -DISTFILES:= sqlite-autoconf-3080500.tar.gz -WRKDIST= ${WRKDIR}/sqlite-autoconf-3080500 +DISTFILES:= sqlite-autoconf-3080801.tar.gz +WRKDIST= ${WRKDIR}/sqlite-autoconf-3080801 PKG_SUBPKGS:= SQLITE_CLI LIBSQLITE PKGSD_LIBSQLITE:= emeddable sql library |