Package: geany Version: 2.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 5510 Depends: geany-common (= 2.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo2 (>= 1.8.0), libgcc-s1 (>= 3.0), libgdk-pixbuf-2.0-0 (>= 2.22.0), libglib2.0-0t64 (>= 2.80.0), libgtk-3-0t64 (>= 3.22.4), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.14.0), libstdc++6 (>= 11) Suggests: doc-base Breaks: geany-plugins-common (<< 0.21), libvte-2.91-0, sensible-utils Provides: geany-abi-18688, geany-api-250 Filename: amd64/geany_2.1-1~mx25+1_amd64.deb Size: 2278752 MD5sum: 902579273f463c4b66f84ebad0ce38d8 SHA1: 1eb38cc2bde7cce26c33d7e4680f906a12ab2726 SHA256: f1330d03f1702d6cb230e88c9d2ba08db8a3151d3fbf5ca49c28b590f028a1af Section: devel Priority: optional Homepage: http://www.geany.org Description: fast and lightweight IDE Geany is a small and lightweight integrated development environment. It was developed to provide a small and fast IDE, which has only a few dependencies from other packages. It is using only the GTK3 toolkit and therefore you need only the GTK3 runtime libraries to run Geany. . The basic features of Geany are: - syntax highlighting - code completion - auto completion of constructs like if, for and while, XML and HTML - call tips - folding - many supported filetypes like C, Java, PHP, HTML, Python, Perl, Pascal - symbol lists - embedded terminal emulation Original-Maintainer: Geany Packaging Team Package: geany Version: 2.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 5669 Depends: geany-common (= 2.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo2 (>= 1.8.0), libgcc-s1 (>= 3.0), libgdk-pixbuf-2.0-0 (>= 2.22.0), libglib2.0-0t64 (>= 2.80.0), libgtk-3-0t64 (>= 3.22.4), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.14.0), libstdc++6 (>= 11) Suggests: doc-base Breaks: geany-plugins-common (<< 0.21), libvte-2.91-0, sensible-utils Provides: geany-abi-18688, geany-api-250 Filename: arm64/geany_2.1-1~mx25+1_arm64.deb Size: 2125588 MD5sum: 4ca342fe341619587b449add9bb50b91 SHA1: 1e1c38f333af52f07e9008479b4a55aa2051135d SHA256: 075f41e8a6b858009a50e9b217b0ed4bb95703f4f364d7379e537dfa280747b9 Section: devel Priority: optional Homepage: http://www.geany.org Description: fast and lightweight IDE Geany is a small and lightweight integrated development environment. It was developed to provide a small and fast IDE, which has only a few dependencies from other packages. It is using only the GTK3 toolkit and therefore you need only the GTK3 runtime libraries to run Geany. . The basic features of Geany are: - syntax highlighting - code completion - auto completion of constructs like if, for and while, XML and HTML - call tips - folding - many supported filetypes like C, Java, PHP, HTML, Python, Perl, Pascal - symbol lists - embedded terminal emulation Original-Maintainer: Geany Packaging Team Package: geany Version: 2.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 4018 Depends: geany-common (= 2.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo2 (>= 1.8.0), libgcc-s1 (>= 3.5), libgdk-pixbuf-2.0-0 (>= 2.22.0), libglib2.0-0t64 (>= 2.80.0), libgtk-3-0t64 (>= 3.22.4), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.14.0), libstdc++6 (>= 11) Suggests: doc-base Breaks: geany-plugins-common (<< 0.21), libvte-2.91-0, sensible-utils Provides: geany-abi-t64-18688, geany-api-250 Filename: armhf/geany_2.1-1~mx25+1_armhf.deb Size: 2015520 MD5sum: 2e8261a7295778c81f8b14f977f1cc3d SHA1: 95753c169e29fba3aa9ea2efbd838bd65910b6c4 SHA256: 91d0c5c0f4d55e0287c79ed403f972f65647f79d7a46b22f6ecbffc1400542ad Section: devel Priority: optional Homepage: http://www.geany.org Description: fast and lightweight IDE Geany is a small and lightweight integrated development environment. It was developed to provide a small and fast IDE, which has only a few dependencies from other packages. It is using only the GTK3 toolkit and therefore you need only the GTK3 runtime libraries to run Geany. . The basic features of Geany are: - syntax highlighting - code completion - auto completion of constructs like if, for and while, XML and HTML - call tips - folding - many supported filetypes like C, Java, PHP, HTML, Python, Perl, Pascal - symbol lists - embedded terminal emulation Original-Maintainer: Geany Packaging Team Package: geany Version: 2.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 5680 Depends: geany-common (= 2.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo2 (>= 1.8.0), libgcc-s1 (>= 3.0), libgdk-pixbuf-2.0-0 (>= 2.22.0), libglib2.0-0t64 (>= 2.80.0), libgtk-3-0t64 (>= 3.22.4), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.14.0), libstdc++6 (>= 11) Suggests: doc-base Breaks: geany-plugins-common (<< 0.21), libvte-2.91-0, sensible-utils Provides: geany-abi-18688, geany-api-250 Filename: i386/geany_2.1-1~mx25+1_i386.deb Size: 2383592 MD5sum: b618a748a6d62a9dda4b2cb4da274601 SHA1: 57adcd8d0ef3a11c61803415d8dd3c3efe939cc9 SHA256: f0037f9fd584c24d61287c3980d9353a5624af36ffd8bd36bf98f700e0c8996c Section: devel Priority: optional Homepage: http://www.geany.org Description: fast and lightweight IDE Geany is a small and lightweight integrated development environment. It was developed to provide a small and fast IDE, which has only a few dependencies from other packages. It is using only the GTK3 toolkit and therefore you need only the GTK3 runtime libraries to run Geany. . The basic features of Geany are: - syntax highlighting - code completion - auto completion of constructs like if, for and while, XML and HTML - call tips - folding - many supported filetypes like C, Java, PHP, HTML, Python, Perl, Pascal - symbol lists - embedded terminal emulation Original-Maintainer: Geany Packaging Team Package: geany-common Source: geany Version: 2.1-1~mx25+1 Architecture: all Maintainer: Steven Pusser Installed-Size: 10911 Breaks: geany (<< 0.21-1~) Replaces: geany (<< 0.21-1~) Filename: all/geany-common_2.1-1~mx25+1_all.deb Size: 3136084 MD5sum: 3b0d58c83831c6c4b8e6d24112b8516e SHA1: ff0ce7ac33276350b31966a7347f71e70f29ecb3 SHA256: 566607551f457a49392104416e0a817578ce8bc06b9654e0b7ce0d5a568a8a70 Section: devel Priority: optional Multi-Arch: foreign Homepage: http://www.geany.org Description: fast and lightweight IDE -- common files Geany is a small and lightweight integrated development environment. It was developed to provide a small and fast IDE, which has only a few dependencies from other packages. It is using only the GTK3 toolkit and therefore you need only the GTK3 runtime libraries to run Geany. . The basic features of Geany are: - syntax highlighting - code completion - auto completion of constructs like if, for and while, XML and HTML - call tips - folding - many supported filetypes like C, Java, PHP, HTML, Python, Perl, Pascal - symbol lists - embedded terminal emulation . This package contains arch independent files. Original-Maintainer: Geany Packaging Team Package: gir1.2-vte-2.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 83 Depends: gir1.2-cairo-1.0, gir1.2-gdk-3.0, gir1.2-gtk-3.0, gir1.2-pango-1.0, libvte-2.91-0 (>= 0.82.0) Filename: amd64/gir1.2-vte-2.91_0.82.1-1~mx25+1_amd64.deb Size: 27248 MD5sum: 84e7c71909d17aafd901a9005f616383 SHA1: 6afa7b345956694f62bac58f7fe1f8870cf11760 SHA256: 1ca5cc88d49d2cd1c583c882997c987d2983fb8b5b69a80cb887d65e85de0251 Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 3 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-2.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 83 Depends: gir1.2-cairo-1.0, gir1.2-gdk-3.0, gir1.2-gtk-3.0, gir1.2-pango-1.0, libvte-2.91-0 (>= 0.82.0) Filename: arm64/gir1.2-vte-2.91_0.82.1-1~mx25+1_arm64.deb Size: 27236 MD5sum: cb5e1771d56abedb00c98adcb15f20ab SHA1: 5ba9082bd8cb57b35624f6c962ef03347c3aa559 SHA256: b0012ab7652980288fbb1c2873ed6644e5bb1fc3bbee8e2fba50d41ab7ed3d9e Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 3 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-2.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 83 Depends: gir1.2-cairo-1.0, gir1.2-gdk-3.0, gir1.2-gtk-3.0, gir1.2-pango-1.0, libvte-2.91-0 (>= 0.82.0) Filename: armhf/gir1.2-vte-2.91_0.82.1-1~mx25+1_armhf.deb Size: 27236 MD5sum: 364240763ab2ba357fad1eed7f149994 SHA1: 0b16539d0e41a71aed87204f1d30d691c9fe93c7 SHA256: 5470e88102be785ee16ff6dde71ffaacdd9ebfaec3837ac5bb38fb8580275eb8 Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 3 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-2.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 83 Depends: gir1.2-cairo-1.0, gir1.2-gdk-3.0, gir1.2-gtk-3.0, gir1.2-pango-1.0, libvte-2.91-0 (>= 0.82.0) Filename: i386/gir1.2-vte-2.91_0.82.1-1~mx25+1_i386.deb Size: 27208 MD5sum: 2c6b7cc44b2bee7ae5f50a4c8050d30d SHA1: 0e40bc0287c4cd634886963dd3b2c6ee38fa9661 SHA256: eebd2d5a9e0d8ec03223e8d394ce4e15980bca1d662e04b90d0bc6708219fba6 Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 3 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-3.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 81 Depends: gir1.2-cairo-1.0, gir1.2-gdk-4.0 (>= 4.14), gir1.2-graphene-1.0, gir1.2-gsk-4.0 (>= 4.14), gir1.2-gtk-4.0 (>= 4.14), gir1.2-pango-1.0, libvte-2.91-gtk4-0 (>= 0.82.0) Filename: amd64/gir1.2-vte-3.91_0.82.1-1~mx25+1_amd64.deb Size: 26900 MD5sum: d97eda3f2ab8fd19a85e955561fbfd8a SHA1: a7a820c0f2e65b9b75e25726a6e8694a5e2f0a41 SHA256: 391a9a8b6fc75053c495254f4548718a2a6ecd34794d1ea8b5f567ff330c2c3e Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 4 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-3.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 81 Depends: gir1.2-cairo-1.0, gir1.2-gdk-4.0 (>= 4.14), gir1.2-graphene-1.0, gir1.2-gsk-4.0 (>= 4.14), gir1.2-gtk-4.0 (>= 4.14), gir1.2-pango-1.0, libvte-2.91-gtk4-0 (>= 0.82.0) Filename: arm64/gir1.2-vte-3.91_0.82.1-1~mx25+1_arm64.deb Size: 26936 MD5sum: 04794df907631a627501876ac91c3c30 SHA1: 284af598f333ed79c7ebc98e91efc12bfe1ec53a SHA256: 61e54f99b47444d475b818e8adb56121bf8102e2968ba73fd43cd5ce11535b95 Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 4 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-3.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 81 Depends: gir1.2-cairo-1.0, gir1.2-gdk-4.0 (>= 4.14), gir1.2-graphene-1.0, gir1.2-gsk-4.0 (>= 4.14), gir1.2-gtk-4.0 (>= 4.14), gir1.2-pango-1.0, libvte-2.91-gtk4-0 (>= 0.82.0) Filename: armhf/gir1.2-vte-3.91_0.82.1-1~mx25+1_armhf.deb Size: 26872 MD5sum: f45a7851251c0b94e4cc4885bc3ad178 SHA1: c131588a17f474a8e76c98c892addec985d9d609 SHA256: d6dce108ffb1ec019bded3ddcbe0ff180cfc2b7df3b3307d80d979cc8726f79a Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 4 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: gir1.2-vte-3.91 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 81 Depends: gir1.2-cairo-1.0, gir1.2-gdk-4.0 (>= 4.14), gir1.2-graphene-1.0, gir1.2-gsk-4.0 (>= 4.14), gir1.2-gtk-4.0 (>= 4.14), gir1.2-pango-1.0, libvte-2.91-gtk4-0 (>= 0.82.0) Filename: i386/gir1.2-vte-3.91_0.82.1-1~mx25+1_i386.deb Size: 26880 MD5sum: feb5652d06488e1aaa2fe8692c18356a SHA1: 6cd0b0f0e11282b8cc4e30913f3c9f997e9594b8 SHA256: 5941ed06ce3c8721b4bc7cbead58a8f855076e5daf84e67fbb35b207741b3dcb Section: introspection Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: GObject introspection data for the VTE library (GTK 4 version) This package contains introspection data for VTE, a terminal emulator widget for GTK. . It can be used by interpreters understanding the GIRepository format to write programs using the VTE widget for GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libsimdutf-dev Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 301 Depends: libsimdutf27 (= 7.5.0-2~mx25+1) Filename: amd64/libsimdutf-dev_7.5.0-2~mx25+1_amd64.deb Size: 31216 MD5sum: ef29c6e6b446b35274f1d7f25fa9c796 SHA1: 20784d1178bd7627e69ea9995c2f336c35d0054d SHA256: facc6c4ab64281247400b3ee5aeb9c8211ddea89d993b70b7f05ca3c865e00eb Section: libdevel Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - development files Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the development files. Original-Maintainer: Mo Zhou Package: libsimdutf-dev Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 301 Depends: libsimdutf27 (= 7.5.0-2~mx25+1) Filename: arm64/libsimdutf-dev_7.5.0-2~mx25+1_arm64.deb Size: 31220 MD5sum: 0721e259e61dce27c634a94a3efc48b2 SHA1: 49bc25f0bfa2310bfb4861ce9e14c8ecc99c58db SHA256: a817a917bc6d09e85e556464dc44c0a6d99a2ec22a27da19f91940ede30c98c5 Section: libdevel Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - development files Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the development files. Original-Maintainer: Mo Zhou Package: libsimdutf-dev Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 301 Depends: libsimdutf27 (= 7.5.0-2~mx25+1) Filename: armhf/libsimdutf-dev_7.5.0-2~mx25+1_armhf.deb Size: 31228 MD5sum: 35d51e2603876d15d73495e49b510187 SHA1: 31cc1636601f8121602d7da9099af4c83fb25191 SHA256: f78512d3d9b0b1a05184c443a404a9adc830f7a745a6b002e7d5cebb289a5183 Section: libdevel Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - development files Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the development files. Original-Maintainer: Mo Zhou Package: libsimdutf-dev Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 301 Depends: libsimdutf27 (= 7.5.0-2~mx25+1) Filename: i386/libsimdutf-dev_7.5.0-2~mx25+1_i386.deb Size: 31216 MD5sum: 188398d8d6f104966f5b7321967a0714 SHA1: c53b1792399a5c5491815647f92384d530fe6fbd SHA256: 7b246524d3a1c27d1a6f13b2f3ea8d2d09917e53566bb133e354b4c4149dc319 Section: libdevel Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - development files Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the development files. Original-Maintainer: Mo Zhou Package: libsimdutf-tools Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 2882 Depends: libc6 (>= 2.38), libgcc-s1 (>= 4.2), libsimdutf27 (>= 7.5.0) Filename: amd64/libsimdutf-tools_7.5.0-2~mx25+1_amd64.deb Size: 557688 MD5sum: 5a0b6cdd708ea7a2b2183506da38cd6a SHA1: 96ba6a8ea00d995ed095c5b972f7455e45dfeff1 SHA256: 6d409fd562757b1086222055df90a5712a7f63d1a3753a081fdcac2afb431e2f Section: misc Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - utilities Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships several command line tools. Original-Maintainer: Mo Zhou Package: libsimdutf-tools Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 2928 Depends: libc6 (>= 2.38), libgcc-s1 (>= 4.2), libsimdutf27 (>= 7.5.0) Filename: arm64/libsimdutf-tools_7.5.0-2~mx25+1_arm64.deb Size: 500916 MD5sum: 0889388b21265949e8b48ea8c739cbbf SHA1: e9ba1160e4d94db366bce7f7277cfff5f21cf801 SHA256: 3e554cff64c92fe72dcc833217e3513081cec170f03cce9f1587202140c13d34 Section: misc Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - utilities Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships several command line tools. Original-Maintainer: Mo Zhou Package: libsimdutf-tools Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 1972 Depends: libc6 (>= 2.38), libgcc-s1 (>= 3.5), libsimdutf27 (>= 7.5.0) Filename: armhf/libsimdutf-tools_7.5.0-2~mx25+1_armhf.deb Size: 453708 MD5sum: b8ffb42c2b3105d64911c551f1bb81a3 SHA1: 8725f9d31d37266847d598305c83408c0a5748ff SHA256: 01fb4d2b0432b92d140c2d5b8ecb91080440c6828474e275fa89d462b94fb98a Section: misc Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - utilities Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships several command line tools. Original-Maintainer: Mo Zhou Package: libsimdutf-tools Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 2920 Depends: libc6 (>= 2.38), libgcc-s1 (>= 7), libsimdutf27 (>= 7.5.0) Filename: i386/libsimdutf-tools_7.5.0-2~mx25+1_i386.deb Size: 587256 MD5sum: f03fa8806a12fdfad9da9e9d2f755c89 SHA1: b749c50065a22d38eb12443b002bbd2713578d53 SHA256: bcbb961139015e6bad1d07eec9b388ac62a0066a9f170c6f0a4d9e2f7d99338f Section: misc Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding - utilities Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships several command line tools. Original-Maintainer: Mo Zhou Package: libsimdutf27 Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 560 Depends: libc6 (>= 2.14), libgcc-s1 (>= 3.0), libstdc++6 (>= 13.1) Filename: amd64/libsimdutf27_7.5.0-2~mx25+1_amd64.deb Size: 136300 MD5sum: 5fdbc419e22a7b5f23d0df0d839a3a42 SHA1: bb47cc1f0954cb5c6f2a43e4fd9a120800283ac6 SHA256: 05f98e962e51c1f28386812d385779018949fd8b3db511d718b137d98b89b0a8 Section: libs Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the shared object. Original-Maintainer: Mo Zhou Package: libsimdutf27 Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 276 Depends: libc6 (>= 2.17), libgcc-s1 (>= 3.0), libstdc++6 (>= 13.1) Filename: arm64/libsimdutf27_7.5.0-2~mx25+1_arm64.deb Size: 55188 MD5sum: 19d9b0d7827fe85940f2aaa76a19e103 SHA1: f7849d1858b377958457623b1b351345ccb7d18e SHA256: 3c2e214074cb595b84b39b48627f2b88adb7d4ecc45afd9ab2ade719f350a16e Section: libs Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the shared object. Original-Maintainer: Mo Zhou Package: libsimdutf27 Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 148 Depends: libc6 (>= 2.4), libgcc-s1 (>= 3.5), libstdc++6 (>= 13.1) Filename: armhf/libsimdutf27_7.5.0-2~mx25+1_armhf.deb Size: 32400 MD5sum: 7828befb6d4db0f54acc716c7042366f SHA1: ffc3fbe6c2d891e93a0cbcaa235e3dfa5273ed00 SHA256: 2fc120ce0cc30ec83e52bc678c7f48c70b199d417df049c9ae1690ab00be5d27 Section: libs Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the shared object. Original-Maintainer: Mo Zhou Package: libsimdutf27 Source: simdutf Version: 7.5.0-2~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 156 Depends: libc6 (>= 2.4), libgcc-s1 (>= 3.0), libstdc++6 (>= 13.1) Filename: i386/libsimdutf27_7.5.0-2~mx25+1_i386.deb Size: 39404 MD5sum: 8e6e44aabb28a85169d5d39c990ad544 SHA1: 5c5af15db1274e7aec0927057c516a6e82999757 SHA256: 692db09e4d1df972aacff7a232cdb40c8b3bc54fe2b50cc9078ee1a32e1720a9 Section: libs Priority: optional Homepage: https://github.com/simdutf/simdutf Description: Fast Unicode validation and transcoding Most modern software relies on the Unicode standard. In memory, Unicode strings are represented using either UTF-8 or UTF-16. The UTF-8 format is the de facto standard on the web (JSON, HTML, etc.) and it has been adopted as the default in many popular programming languages (Go, Zig, Rust, Swift, etc.). The UTF-16 format is standard in Java, C# and in many Windows technologies. . Not all sequences of bytes are valid Unicode strings. It is unsafe to use Unicode strings in UTF-8 and UTF-16LE without first validating them. Furthermore, we often need to convert strings from one encoding to another, by a process called transcoding. For security purposes, such transcoding should be validating: it should refuse to transcode incorrect strings. . This library provide fast Unicode functions such as . * ASCII, UTF-8, UTF-16LE/BE and UTF-32 validation, with and without error identification, * Latin1 to UTF-8 transcoding, * Latin1 to UTF-16LE/BE transcoding * Latin1 to UTF-32 transcoding * UTF-8 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-8 to UTF-32 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to Latin1 transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to Latin1 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-8 transcoding, with or without validation, with and without error identification, * UTF-32 to UTF-16LE/BE transcoding, with or without validation, with and without error identification, * UTF-16LE/BE to UTF-32 transcoding, with or without validation, with and without error identification, * From an UTF-8 string, compute the size of the Latin1 equivalent string, * From an UTF-8 string, compute the size of the UTF-16 equivalent string, * From an UTF-8 string, compute the size of the UTF-32 equivalent string (equivalent to UTF-8 character counting), * From an UTF-16LE/BE string, compute the size of the Latin1 equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-8 equivalent string, * From an UTF-32 string, compute the size of the UTF-8 or UTF-16LE equivalent string, * From an UTF-16LE/BE string, compute the size of the UTF-32 equivalent string (equivalent to UTF-16 character counting), * UTF-8 and UTF-16LE/BE character counting, * UTF-16 endianness change (UTF16-LE/BE to UTF-16-BE/LE), * WHATWG forgiving-base64 (with or without URL encoding) to binary, * Binary to base64 (with or without URL encoding). . The functions are accelerated using SIMD instructions (e.g., ARM NEON, SSE, AVX, AVX-512, RISC-V Vector Extension, LoongSon, POWER, etc.). When your strings contain hundreds of characters, we can often transcode them at speeds exceeding a billion characters per second. You should expect high speeds not only with English strings (ASCII) but also Chinese, Japanese, Arabic, and so forth. We handle the full character range (including, for example, emojis). . The library compiles down to a small library of a few hundred kilobytes. Our functions are exception-free and non allocating. We have extensive tests and extensive benchmarks. . This package ships the shared object. Original-Maintainer: Mo Zhou Package: libvte-2.91-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 1059 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 3.0), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgtk-3-0t64 (>= 3.21.5), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: amd64/libvte-2.91-0_0.82.1-1~mx25+1_amd64.deb Size: 369860 MD5sum: 907ce2e77b38370dc4f612be17c5a8dc SHA1: 2f5ab0af1655512d20f5b4bd596d4f4b6207cefa SHA256: d0c4bc847542203ca037acaf8a4dd924ff2b2a15dc4e33f11ad09e16efedb6d0 Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 1019 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 4.5), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgtk-3-0t64 (>= 3.21.5), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: arm64/libvte-2.91-0_0.82.1-1~mx25+1_arm64.deb Size: 329540 MD5sum: 2e69ce72970cb336749b6b41943f463a SHA1: 78c02b69efd6911abb85db6adcda5ae8c00f48f8 SHA256: 4d58d5d24a1e9ce47118a7ea6dcb56f3108a9126cb0d9e5e7f2129caaa81b7fb Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 698 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.38), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 3.5), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgtk-3-0t64 (>= 3.21.5), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: armhf/libvte-2.91-0_0.82.1-1~mx25+1_armhf.deb Size: 311300 MD5sum: 207f4a35deea604b296d0bd4795be3ea SHA1: 67142ba63c9a3a294b7d7a763227a6cdcc932e12 SHA256: 047903d55959b000cd5e673e4f7ff91a6809acdae90e405705ab0d2c27fbe1e9 Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 1110 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libatk1.0-0t64 (>= 1.12.4), libc6 (>= 2.34), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 4.2), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgtk-3-0t64 (>= 3.21.5), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: i386/libvte-2.91-0_0.82.1-1~mx25+1_i386.deb Size: 396316 MD5sum: e10f1e29bfcb74cf576e428aff7a1c1e SHA1: f3852afd137e09182208800263e927e5e4f04f4e SHA256: 5de5240c32163dcd79e0a41b9541529a4ab871485c36bb452f5e3ddafacf7df9 Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-common Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 508 Depends: libc6 (>= 2.34) Filename: amd64/libvte-2.91-common_0.82.1-1~mx25+1_amd64.deb Size: 63928 MD5sum: fd1f38c8da661c63ddf9004514dde46b SHA1: 57cabe8989116609deb8ab24ca94296196fb4610 SHA256: fdad4a9f7f79d4f060e3c007bac13c23958cc7691a18743af4f3c72925cc9ad9 Section: libs Priority: optional Multi-Arch: foreign Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - common files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains internationalization files for the VTE library and common files for the GTK 3 version. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-common Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 560 Depends: libc6 (>= 2.34) Filename: arm64/libvte-2.91-common_0.82.1-1~mx25+1_arm64.deb Size: 64048 MD5sum: f4a2455f8f5a6230bd1a6f2397cde282 SHA1: c317f8d96ee84319ee08cdd4ea2dd974a7df2997 SHA256: 1d36890cdb8c60e61dc3b46340f8a3df912cc89797a61fcfbce84e614119d956 Section: libs Priority: optional Multi-Arch: foreign Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - common files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains internationalization files for the VTE library and common files for the GTK 3 version. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-common Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 560 Depends: libc6 (>= 2.34), libgcc-s1 (>= 3.5) Filename: armhf/libvte-2.91-common_0.82.1-1~mx25+1_armhf.deb Size: 63932 MD5sum: 841445a25aad9efe2ed2061d261f7dbf SHA1: 5340de12c7cd839c02ffcd2568f536ce62544081 SHA256: d1218169eff5d2ed383d721dec6ccd84347236e0c78a451d944378b230498de2 Section: libs Priority: optional Multi-Arch: foreign Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - common files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains internationalization files for the VTE library and common files for the GTK 3 version. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-common Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 508 Depends: libc6 (>= 2.34) Filename: i386/libvte-2.91-common_0.82.1-1~mx25+1_i386.deb Size: 63944 MD5sum: 7df67aa3b4b1c9b9fef0d8a0c088a063 SHA1: f6ace79974f9a469f8a95ed46681364533f30c62 SHA256: 059e5c3767d6104ecb82321605a73aec0a58781e6ec2329ad9952f9ccea7786c Section: libs Priority: optional Multi-Arch: foreign Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - common files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains internationalization files for the VTE library and common files for the GTK 3 version. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 654 Depends: gir1.2-vte-2.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-3-dev, libpango1.0-dev, libpcre2-dev, libvte-2.91-0 (= 0.82.1-1~mx25+1), libvte-2.91-common, zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-3.0-dev, gir1.2-gtk-3.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Conflicts: libvte-2.90-dev Provides: gir1.2-vte-2.91-dev (= 0.82.1-1~mx25+1) Filename: amd64/libvte-2.91-dev_0.82.1-1~mx25+1_amd64.deb Size: 67668 MD5sum: f3ac22e5c9700ba693901050fbabc58d SHA1: 84225db06acef7819eb4f980884b53d35c4026f0 SHA256: 4e47097cd81d41cd06e676ec8b458bb14c9cf84908ac03282b2b8b90425aa6ed Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 654 Depends: gir1.2-vte-2.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-3-dev, libpango1.0-dev, libpcre2-dev, libvte-2.91-0 (= 0.82.1-1~mx25+1), libvte-2.91-common, zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-3.0-dev, gir1.2-gtk-3.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Conflicts: libvte-2.90-dev Provides: gir1.2-vte-2.91-dev (= 0.82.1-1~mx25+1) Filename: arm64/libvte-2.91-dev_0.82.1-1~mx25+1_arm64.deb Size: 67664 MD5sum: 7fe1aab0fe7b1e0aa39d39604e88efdb SHA1: 7b25621ea58ffcf732e64b8f3a271bee3bbf39ca SHA256: 3c9cb85f04c9bfb41d6fda83c2fa94294e762c5ea0328b9e4bb453fbce8f7403 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 654 Depends: gir1.2-vte-2.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-3-dev, libpango1.0-dev, libpcre2-dev, libvte-2.91-0 (= 0.82.1-1~mx25+1), libvte-2.91-common, zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-3.0-dev, gir1.2-gtk-3.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Conflicts: libvte-2.90-dev Provides: gir1.2-vte-2.91-dev (= 0.82.1-1~mx25+1) Filename: armhf/libvte-2.91-dev_0.82.1-1~mx25+1_armhf.deb Size: 67656 MD5sum: 3015fafdde8797104809bded45849635 SHA1: cd41637a2e84a9c2f7e3753642bf55b6b8b76e2f SHA256: c57d4bc3d48b2cc3a9d4e4173b31b70281902c739eef44f102e176c1d1abda74 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 654 Depends: gir1.2-vte-2.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-3-dev, libpango1.0-dev, libpcre2-dev, libvte-2.91-0 (= 0.82.1-1~mx25+1), libvte-2.91-common, zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-3.0-dev, gir1.2-gtk-3.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Conflicts: libvte-2.90-dev Provides: gir1.2-vte-2.91-dev (= 0.82.1-1~mx25+1) Filename: i386/libvte-2.91-dev_0.82.1-1~mx25+1_i386.deb Size: 67656 MD5sum: fdbd604670d2f22a0f242f770bb8faf7 SHA1: fa567a1ed7aee830a8275bcd91c94ee3407670e6 SHA256: e39b0c0319266758b84eb09e3b10db9984016b9a5eec9aea9f22b11b1c6eab71 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-doc Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: all Maintainer: Steven Pusser Installed-Size: 5906 Filename: all/libvte-2.91-doc_0.82.1-1~mx25+1_all.deb Size: 141700 MD5sum: 6ed528a38e7bf6bbc419c7c58889b468 SHA1: 2a94df255332a0af854afb70994f6e9cfb7169c2 SHA256: ec277ebf1d1dfc220e2bb3004663ec0c396bb673cd0f9333abb9a1604a1ec001 Section: doc Priority: optional Multi-Arch: foreign Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 3 - documentation The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains documentation files for the VTE library for GTK 3. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 1069 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libc6 (>= 2.38), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 3.0), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgraphene-1.0-0 (>= 1.5.4), libgtk-4-1 (>= 4.14.1), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: amd64/libvte-2.91-gtk4-0_0.82.1-1~mx25+1_amd64.deb Size: 372904 MD5sum: dc7615f490e1d336ed18fc65dff9c722 SHA1: 0a1111a0a713c7fb1883f4123fca8485936eac14 SHA256: ce349f2cf9e45a7cc052604ccee40e61d19df9b4b1dcf236bc331609cc1665a2 Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 1017 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libc6 (>= 2.38), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 4.5), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgraphene-1.0-0 (>= 1.5.4), libgtk-4-1 (>= 4.14.1), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: arm64/libvte-2.91-gtk4-0_0.82.1-1~mx25+1_arm64.deb Size: 330752 MD5sum: 03f73749751a62976d3646af0db59cb0 SHA1: 419a6325be64895468f0462aaa34975b2a86afae SHA256: ff3c42f4df40f9891d21664f0afda6a1c844d3c3b634690e7017c27b9327924e Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 696 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libc6 (>= 2.38), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 3.5), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgraphene-1.0-0 (>= 1.5.4), libgtk-4-1 (>= 4.14.1), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: armhf/libvte-2.91-gtk4-0_0.82.1-1~mx25+1_armhf.deb Size: 313448 MD5sum: 6f860c146bf0110d551e4c682b1c7fd8 SHA1: 874e59b56450e3a54a9fd340d1aed4e78942b61c SHA256: f4b7fd84a0a46959c2e9afb5d66982e4b5ff60e9bdfb25bf198d84396a9a55df Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-0 Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 1112 Depends: libvte-2.91-common (= 0.82.1-1~mx25+1), libc6 (>= 2.34), libcairo-gobject2 (>= 1.10.0), libcairo2 (>= 1.14.0), libfribidi0 (>= 1.0.0), libgcc-s1 (>= 4.2), libglib2.0-0t64 (>= 2.78.0), libgnutls30t64 (>= 3.7.2), libgraphene-1.0-0 (>= 1.5.4), libgtk-4-1 (>= 4.14.1), libicu76 (>= 76.1-1~), liblz4-1 (>= 0.0~r130), libpango-1.0-0 (>= 1.44.3), libpangocairo-1.0-0 (>= 1.18.0), libpcre2-8-0 (>= 10.32), libsimdutf27 (>= 7.5.0), libstdc++6 (>= 14), libsystemd0 (>= 220) Filename: i386/libvte-2.91-gtk4-0_0.82.1-1~mx25+1_i386.deb Size: 399684 MD5sum: 0eef32a6c42657000c98b4c248af3a11 SHA1: e107361fc7fef0cd48f819ed7d6252b2dfd1ac64 SHA256: 0de467f37636c646427315ebbe87f13e2a9155e4e5d2c11e0cbc2675ab57205f Section: libs Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - runtime files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains the runtime library, needed by programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: amd64 Maintainer: Steven Pusser Installed-Size: 631 Depends: gir1.2-vte-3.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-4-dev (>= 4.14), libpango1.0-dev, libpcre2-dev, libvte-2.91-common, libvte-2.91-gtk4-0 (= 0.82.1-1~mx25+1), zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-4.0-dev, gir1.2-graphene-1.0-dev, gir1.2-gsk-4.0-dev, gir1.2-gtk-4.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Provides: gir1.2-vte-3.91-dev (= 0.82.1-1~mx25+1) Filename: amd64/libvte-2.91-gtk4-dev_0.82.1-1~mx25+1_amd64.deb Size: 66484 MD5sum: d5b84794e17d89b756cab6b1f97c48f9 SHA1: c6d531851c1d477bfca2dfdea1e07ecae27e1cab SHA256: 22ac9274c10a9d782c5a034e3bc6fa25cdf0b734d4a8ea9df868fcbd133a2fef Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: arm64 Maintainer: Steven Pusser Installed-Size: 631 Depends: gir1.2-vte-3.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-4-dev (>= 4.14), libpango1.0-dev, libpcre2-dev, libvte-2.91-common, libvte-2.91-gtk4-0 (= 0.82.1-1~mx25+1), zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-4.0-dev, gir1.2-graphene-1.0-dev, gir1.2-gsk-4.0-dev, gir1.2-gtk-4.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Provides: gir1.2-vte-3.91-dev (= 0.82.1-1~mx25+1) Filename: arm64/libvte-2.91-gtk4-dev_0.82.1-1~mx25+1_arm64.deb Size: 66484 MD5sum: b293e535ec425155d0346fb3aea7ab95 SHA1: dcefbb4bbdbe08ddb64b0c89490acac2a031fede SHA256: 56a0c13e352f2c7e8dda5949395a97acd96368f0a2bb1a4e837cac7ecd6bc1e6 Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: armhf Maintainer: Steven Pusser Installed-Size: 631 Depends: gir1.2-vte-3.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-4-dev (>= 4.14), libpango1.0-dev, libpcre2-dev, libvte-2.91-common, libvte-2.91-gtk4-0 (= 0.82.1-1~mx25+1), zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-4.0-dev, gir1.2-graphene-1.0-dev, gir1.2-gsk-4.0-dev, gir1.2-gtk-4.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Provides: gir1.2-vte-3.91-dev (= 0.82.1-1~mx25+1) Filename: armhf/libvte-2.91-gtk4-dev_0.82.1-1~mx25+1_armhf.deb Size: 66508 MD5sum: 2da56edee60ac10ef6a05929d3ae1b94 SHA1: 3a9efb9dfff98ff6de8198d06265d1dbd789f0a2 SHA256: a3739cf549aa08a1729e7e230f8d08a25423b5eb000c58e501c1745e0eb1ff6a Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-dev Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: i386 Maintainer: Steven Pusser Installed-Size: 631 Depends: gir1.2-vte-3.91 (= 0.82.1-1~mx25+1), libglib2.0-dev (>= 2.72.0), libgnutls28-dev, libgtk-4-dev (>= 4.14), libpango1.0-dev, libpcre2-dev, libvte-2.91-common, libvte-2.91-gtk4-0 (= 0.82.1-1~mx25+1), zlib1g-dev, gir1.2-cairo-1.0-dev, gir1.2-gdk-4.0-dev, gir1.2-graphene-1.0-dev, gir1.2-gsk-4.0-dev, gir1.2-gtk-4.0-dev, gir1.2-pango-1.0-dev Recommends: libvte-2.91-doc Provides: gir1.2-vte-3.91-dev (= 0.82.1-1~mx25+1) Filename: i386/libvte-2.91-gtk4-dev_0.82.1-1~mx25+1_i386.deb Size: 66476 MD5sum: 842931c655c6e5d3deedf3b09ff20b9e SHA1: 316bb3dc93957b460e8f7dbe534a78ee0d0cb2fe SHA256: 83921229a3fe0cc47eb0c53112807c3c1fe8fb71e51990c265f1445097cbbefd Section: libdevel Priority: optional Multi-Arch: same Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - development files The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains development files for the VTE library and its Python bindings. It is needed to develop and build programs using the VTE widget with GTK 4. Original-Maintainer: Debian GNOME Maintainers Package: libvte-2.91-gtk4-doc Source: vte2.91 Version: 0.82.1-1~mx25+1 Architecture: all Maintainer: Steven Pusser Installed-Size: 5506 Filename: all/libvte-2.91-gtk4-doc_0.82.1-1~mx25+1_all.deb Size: 135000 MD5sum: 7ef9962de9152357a775f4d458e9b565 SHA1: 6e29c76eef2c12307d89e7b79cbf926e0fb835b1 SHA256: 808af5f252f012b38deee393d0083e31750a11ee089ded8e617e343429091287 Section: doc Priority: optional Multi-Arch: foreign Homepage: https://wiki.gnome.org/Apps/Terminal/VTE Description: Terminal emulator widget for GTK 4 - documentation The VTE library provides a terminal emulator widget VteTerminal for applications using the GTK toolkit. It also provides the VtePTY object containing functions for starting a new process on a new pseudo-terminal and for manipulating pseudo-terminals. . This package contains documentation files for the VTE library for GTK 4. Original-Maintainer: Debian GNOME Maintainers