From 3c5800f575beea11231bf8d1ea798df0a5f10a96 Mon Sep 17 00:00:00 2001 From: "Dustin L. Howett" Date: Fri, 19 Jul 2024 11:29:37 -0700 Subject: [PATCH] Move our big OSS dependencies to vcpkg (#15855) This pull request removes the following vendored open source, in favor of getting it from vcpkg: - CLI11 2.4 - jsoncpp 1.9 - fmt 7.1.3 - gsl 3.1 (not vendored, but submoduled--arguably worse!) Now that Visual Studio 2022 includes a built-in workload for vcpkg, the onboarding process is much smoother. Terminal should only require the vcpkg workload. I've added some build rules that detect vcpkg via VS and via the user's environment before falling back to a location in the source tree. The CI pipeline will fall back to installing and bootstrapping vcpkg in dep/vcpkg if necessary. Some OSS has not been (and will not be) migrated: - wyhash: ours is included directly in til/hash - pcg_random: we have a stripped down copy compared to vcpkg - stb_rect: vcpkg only ships *all of STB*; ours is a stripped down copy - chromium numerics: vcpkg does not ship Chromium, especially not this tiny fraction of Chromium - dynamic_bitset and libpopcnt: removing in #17510 - interval_tree: no vcpkg equivalent To support the needs of the inbox Windows build, I've split up our vcpkg manifest into dependencies for all projects and dependencies just for Terminal. To support this, we now offer a `terminal` feature. The vcpkg rules in `common.build.pre.props` are set up to turn it on, whereas the build rules we eventually write for the OS will not be. Most of the work is concentrated in `common.build.pre.props`. --- .github/actions/spelling/expect/expect.txt | 2 + .gitmodules | 3 - OpenConsole.sln | 29 - Scratch.sln | 27 - .../templates-v2/job-build-project.yml | 2 + .../templates-v2/steps-install-vcpkg.yml | 16 + dep/CLI11/CLI11.hpp | 10966 ---------------- dep/CLI11/README.md | 4 - dep/CLI11/cgmanifest.json | 15 - dep/gsl | 1 - dep/jsoncpp/README.md | 16 - dep/jsoncpp/cgmanifest.json | 15 - dep/jsoncpp/json/json-forwards.h | 446 - dep/jsoncpp/json/json.h | 2346 ---- dep/jsoncpp/jsoncpp.cpp | 5330 -------- oss/fmt/LICENSE.rst | 27 - oss/fmt/MAINTAINER_README.md | 17 - oss/fmt/cgmanifest.json | 15 - oss/fmt/include/fmt/chrono.h | 1118 -- oss/fmt/include/fmt/color.h | 603 - oss/fmt/include/fmt/compile.h | 701 - oss/fmt/include/fmt/core.h | 2122 --- oss/fmt/include/fmt/format-inl.h | 2801 ---- oss/fmt/include/fmt/format.h | 3960 ------ oss/fmt/include/fmt/locale.h | 64 - oss/fmt/include/fmt/os.h | 480 - oss/fmt/include/fmt/ostream.h | 177 - oss/fmt/include/fmt/posix.h | 2 - oss/fmt/include/fmt/printf.h | 751 -- oss/fmt/include/fmt/ranges.h | 396 - oss/fmt/src/format.cc | 99 - oss/fmt/src/os.cc | 322 - .../TerminalApp.LocalTests.vcxproj | 2 +- .../TestHostApp/TestHostApp.vcxproj | 6 +- src/cascadia/LocalTests_TerminalApp/pch.h | 4 +- .../dll/Microsoft.Terminal.Remoting.vcxproj | 3 - .../TerminalApp/dll/TerminalApp.vcxproj | 3 - src/cascadia/TerminalApp/pch.h | 2 +- .../TerminalSettingsModel/JsonUtils.h | 2 +- ...crosoft.Terminal.Settings.ModelLib.vcxproj | 7 +- ...Terminal.Settings.ModelLib.vcxproj.filters | 3 - .../Microsoft.Terminal.Settings.Model.vcxproj | 3 - src/cascadia/TerminalSettingsModel/pch.h | 2 +- .../Remoting.UnitTests.vcxproj | 2 +- .../SettingsModel.UnitTests.vcxproj | 7 +- src/cascadia/UnitTests_SettingsModel/pch.h | 2 +- .../ut_app/TerminalApp.UnitTests.vcxproj | 7 +- src/cascadia/ut_app/precomp.h | 2 +- src/common.build.post.props | 3 + src/common.build.pre.props | 39 +- src/dep/fmt/fmt.vcxproj | 38 - src/dep/fmt/sources | 20 - src/renderer/atlas/atlas.vcxproj | 2 +- src/til/ut_til/til.unit.tests.vcxproj | 6 - src/tools/scratch/Scratch.vcxproj | 7 - src/types/lib/types.vcxproj | 8 +- vcpkg.json | 35 + 57 files changed, 105 insertions(+), 32983 deletions(-) delete mode 100644 .gitmodules create mode 100644 build/pipelines/templates-v2/steps-install-vcpkg.yml delete mode 100644 dep/CLI11/CLI11.hpp delete mode 100644 dep/CLI11/README.md delete mode 100644 dep/CLI11/cgmanifest.json delete mode 160000 dep/gsl delete mode 100644 dep/jsoncpp/README.md delete mode 100644 dep/jsoncpp/cgmanifest.json delete mode 100644 dep/jsoncpp/json/json-forwards.h delete mode 100644 dep/jsoncpp/json/json.h delete mode 100644 dep/jsoncpp/jsoncpp.cpp delete mode 100644 oss/fmt/LICENSE.rst delete mode 100644 oss/fmt/MAINTAINER_README.md delete mode 100644 oss/fmt/cgmanifest.json delete mode 100644 oss/fmt/include/fmt/chrono.h delete mode 100644 oss/fmt/include/fmt/color.h delete mode 100644 oss/fmt/include/fmt/compile.h delete mode 100644 oss/fmt/include/fmt/core.h delete mode 100644 oss/fmt/include/fmt/format-inl.h delete mode 100644 oss/fmt/include/fmt/format.h delete mode 100644 oss/fmt/include/fmt/locale.h delete mode 100644 oss/fmt/include/fmt/os.h delete mode 100644 oss/fmt/include/fmt/ostream.h delete mode 100644 oss/fmt/include/fmt/posix.h delete mode 100644 oss/fmt/include/fmt/printf.h delete mode 100644 oss/fmt/include/fmt/ranges.h delete mode 100644 oss/fmt/src/format.cc delete mode 100644 oss/fmt/src/os.cc delete mode 100644 src/dep/fmt/fmt.vcxproj delete mode 100644 src/dep/fmt/sources create mode 100644 vcpkg.json diff --git a/.github/actions/spelling/expect/expect.txt b/.github/actions/spelling/expect/expect.txt index bc19bfc8d4..63c7d273c6 100644 --- a/.github/actions/spelling/expect/expect.txt +++ b/.github/actions/spelling/expect/expect.txt @@ -53,6 +53,7 @@ appium appletname applicationmodel APPLMODAL +Applocal appmodel APPWINDOW APPXMANIFESTVERSION @@ -143,6 +144,7 @@ bufferout buffersize buflen buildtransitive +buildsystems burriter BValue bytebuffer diff --git a/.gitmodules b/.gitmodules deleted file mode 100644 index 94c5e25962..0000000000 --- a/.gitmodules +++ /dev/null @@ -1,3 +0,0 @@ -[submodule "dep/gsl"] - path = dep/gsl - url = https://github.com/microsoft/gsl diff --git a/OpenConsole.sln b/OpenConsole.sln index 411f5ca0ed..a6b0afa945 100644 --- a/OpenConsole.sln +++ b/OpenConsole.sln @@ -323,8 +323,6 @@ Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "TerminalAzBridge", "src\cas {CA5CAD1A-C46D-4588-B1C0-40F31AE9100B} = {CA5CAD1A-C46D-4588-B1C0-40F31AE9100B} EndProjectSection EndProject -Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "fmt", "src\dep\fmt\fmt.vcxproj", "{6BAE5851-50D5-4934-8D5E-30361A8A40F3}" -EndProject Project("{9A19103F-16F7-4668-BE54-9A1E7A4F7556}") = "WpfTerminalTestNetCore", "src\cascadia\WpfTerminalTestNetCore\WpfTerminalTestNetCore.csproj", "{1588FD7C-241E-4E7D-9113-43735F3E6BAD}" ProjectSection(ProjectDependencies) = postProject {CA5CAD1A-F542-4635-A069-7CAEFB930070} = {CA5CAD1A-F542-4635-A069-7CAEFB930070} @@ -1801,32 +1799,6 @@ Global {067F0A06-FCB7-472C-96E9-B03B54E8E18D}.Release|x64.Build.0 = Release|x64 {067F0A06-FCB7-472C-96E9-B03B54E8E18D}.Release|x86.ActiveCfg = Release|Win32 {067F0A06-FCB7-472C-96E9-B03B54E8E18D}.Release|x86.Build.0 = Release|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|Any CPU.ActiveCfg = AuditMode|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|ARM64.ActiveCfg = AuditMode|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|ARM64.Build.0 = AuditMode|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x64.ActiveCfg = AuditMode|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x64.Build.0 = AuditMode|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x86.ActiveCfg = AuditMode|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x86.Build.0 = AuditMode|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|Any CPU.ActiveCfg = Debug|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|ARM64.ActiveCfg = Debug|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|ARM64.Build.0 = Debug|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x64.ActiveCfg = Debug|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x64.Build.0 = Debug|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x86.ActiveCfg = Debug|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x86.Build.0 = Debug|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|Any CPU.ActiveCfg = Fuzzing|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|ARM64.ActiveCfg = Fuzzing|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x64.ActiveCfg = Fuzzing|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x64.Build.0 = Fuzzing|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x86.ActiveCfg = Fuzzing|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|Any CPU.ActiveCfg = Release|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|ARM64.ActiveCfg = Release|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|ARM64.Build.0 = Release|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x64.ActiveCfg = Release|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x64.Build.0 = Release|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x86.ActiveCfg = Release|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x86.Build.0 = Release|Win32 {1588FD7C-241E-4E7D-9113-43735F3E6BAD}.AuditMode|Any CPU.ActiveCfg = Debug|Any CPU {1588FD7C-241E-4E7D-9113-43735F3E6BAD}.AuditMode|ARM64.ActiveCfg = Debug|Any CPU {1588FD7C-241E-4E7D-9113-43735F3E6BAD}.AuditMode|x64.ActiveCfg = Debug|Any CPU @@ -2509,7 +2481,6 @@ Global {D3EF7B96-CD5E-47C9-B9A9-136259563033} = {04170EEF-983A-4195-BFEF-2321E5E38A1E} {024052DE-83FB-4653-AEA4-90790D29D5BD} = {E8F24881-5E37-4362-B191-A3BA0ED7F4EB} {067F0A06-FCB7-472C-96E9-B03B54E8E18D} = {61901E80-E97D-4D61-A9BB-E8F2FDA8B40C} - {6BAE5851-50D5-4934-8D5E-30361A8A40F3} = {81C352DB-1818-45B7-A284-18E259F1CC87} {1588FD7C-241E-4E7D-9113-43735F3E6BAD} = {4DAF0299-495E-4CD1-A982-9BAC16A45932} {506FD703-BAA7-4F6E-9361-64F550EC8FCA} = {61901E80-E97D-4D61-A9BB-E8F2FDA8B40C} {416FD703-BAA7-4F6E-9361-64F550EC8FCA} = {61901E80-E97D-4D61-A9BB-E8F2FDA8B40C} diff --git a/Scratch.sln b/Scratch.sln index d14a85a64f..0015f5d832 100644 --- a/Scratch.sln +++ b/Scratch.sln @@ -29,8 +29,6 @@ Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "Common Props", "Common Prop src\wap-common.build.pre.props = src\wap-common.build.pre.props EndProjectSection EndProject -Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "fmt", "src\dep\fmt\fmt.vcxproj", "{6BAE5851-50D5-4934-8D5E-30361A8A40F3}" -EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "Types", "src\types\lib\types.vcxproj", "{18D09A24-8240-42D6-8CB6-236EEE820263}" EndProject Project("{2150E333-8FDC-42A3-9474-1A3956D46DE8}") = "dependencies", "dependencies", "{75AC9360-76FD-4ABC-AFEC-EF342BD2B3E9}" @@ -159,30 +157,6 @@ Global {B4427499-9FDE-4208-B456-5BC580637633}.Release|x64.Build.0 = Release|x64 {B4427499-9FDE-4208-B456-5BC580637633}.Release|x86.ActiveCfg = Release|Win32 {B4427499-9FDE-4208-B456-5BC580637633}.Release|x86.Build.0 = Release|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|ARM64.ActiveCfg = AuditMode|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|ARM64.Build.0 = AuditMode|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x64.ActiveCfg = AuditMode|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x64.Build.0 = AuditMode|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x86.ActiveCfg = AuditMode|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.AuditMode|x86.Build.0 = AuditMode|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|ARM64.ActiveCfg = Debug|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|ARM64.Build.0 = Debug|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x64.ActiveCfg = Debug|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x64.Build.0 = Debug|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x86.ActiveCfg = Debug|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Debug|x86.Build.0 = Debug|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|ARM64.ActiveCfg = Fuzzing|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|ARM64.Build.0 = Fuzzing|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x64.ActiveCfg = Fuzzing|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x64.Build.0 = Fuzzing|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x86.ActiveCfg = Fuzzing|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Fuzzing|x86.Build.0 = Fuzzing|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|ARM64.ActiveCfg = Release|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|ARM64.Build.0 = Release|ARM64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x64.ActiveCfg = Release|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x64.Build.0 = Release|x64 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x86.ActiveCfg = Release|Win32 - {6BAE5851-50D5-4934-8D5E-30361A8A40F3}.Release|x86.Build.0 = Release|Win32 {18D09A24-8240-42D6-8CB6-236EEE820263}.AuditMode|ARM64.ActiveCfg = AuditMode|ARM64 {18D09A24-8240-42D6-8CB6-236EEE820263}.AuditMode|ARM64.Build.0 = AuditMode|ARM64 {18D09A24-8240-42D6-8CB6-236EEE820263}.AuditMode|x64.ActiveCfg = AuditMode|x64 @@ -212,7 +186,6 @@ Global HideSolutionNode = FALSE EndGlobalSection GlobalSection(NestedProjects) = preSolution - {6BAE5851-50D5-4934-8D5E-30361A8A40F3} = {75AC9360-76FD-4ABC-AFEC-EF342BD2B3E9} {18D09A24-8240-42D6-8CB6-236EEE820263} = {75AC9360-76FD-4ABC-AFEC-EF342BD2B3E9} EndGlobalSection GlobalSection(ExtensibilityGlobals) = postSolution diff --git a/build/pipelines/templates-v2/job-build-project.yml b/build/pipelines/templates-v2/job-build-project.yml index ac350da72f..fd3302e888 100644 --- a/build/pipelines/templates-v2/job-build-project.yml +++ b/build/pipelines/templates-v2/job-build-project.yml @@ -161,6 +161,8 @@ jobs: - template: .\steps-restore-nuget.yml + - template: .\steps-install-vcpkg.yml + - pwsh: |- .\build\scripts\Set-LatestVCToolsVersion.ps1 displayName: Work around DD-1541167 (VCToolsVersion) diff --git a/build/pipelines/templates-v2/steps-install-vcpkg.yml b/build/pipelines/templates-v2/steps-install-vcpkg.yml new file mode 100644 index 0000000000..ec7c3f3c9a --- /dev/null +++ b/build/pipelines/templates-v2/steps-install-vcpkg.yml @@ -0,0 +1,16 @@ +steps: + - pwsh: |- + $VsInstallRoot = & 'C:\Program Files (x86)\Microsoft Visual Studio\Installer\vswhere.exe' -requires Microsoft.VisualStudio.Component.Vcpkg -property installationPath + If ([String]::IsNullOrEmpty($VsInstallRoot)) { + Remove-Item -Recurse -Force dep/vcpkg -ErrorAction:Ignore + git clone https://github.com/microsoft/vcpkg dep/vcpkg + cd dep/vcpkg + & ./bootstrap-vcpkg.bat + $VcpkgRoot = $PWD + Write-Host "Using vcpkg from local checkout ($VcpkgRoot)" + } Else { + $VcpkgRoot = Join-Path $VsInstallRoot "VC\vcpkg" + Write-Host "Using vcpkg from Visual Studio installation ($VcpkgRoot)" + } + echo "##vso[task.setvariable variable=VCPKG_ROOT]$VcpkgRoot" + displayName: Detect VS vcpkg or bootstrap locally diff --git a/dep/CLI11/CLI11.hpp b/dep/CLI11/CLI11.hpp deleted file mode 100644 index d06f17604b..0000000000 --- a/dep/CLI11/CLI11.hpp +++ /dev/null @@ -1,10966 +0,0 @@ -// CLI11: Version 2.4.1 -// Originally designed by Henry Schreiner -// https://github.com/CLIUtils/CLI11 -// -// This is a standalone header file generated by MakeSingleHeader.py in CLI11/scripts -// from: v2.4.1 -// -// CLI11 2.4.1 Copyright (c) 2017-2024 University of Cincinnati, developed by Henry -// Schreiner under NSF AWARD 1414736. All rights reserved. -// -// Redistribution and use in source and binary forms of CLI11, with or without -// modification, are permitted provided that the following conditions are met: -// -// 1. Redistributions of source code must retain the above copyright notice, this -// list of conditions and the following disclaimer. -// 2. Redistributions in binary form must reproduce the above copyright notice, -// this list of conditions and the following disclaimer in the documentation -// and/or other materials provided with the distribution. -// 3. Neither the name of the copyright holder nor the names of its contributors -// may be used to endorse or promote products derived from this software without -// specific prior written permission. -// -// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND -// ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED -// WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE -// DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR -// ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES -// (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; -// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON -// ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS -// SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - -#pragma once - -// Standard combined includes: -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include -#include - - -#define CLI11_VERSION_MAJOR 2 -#define CLI11_VERSION_MINOR 4 -#define CLI11_VERSION_PATCH 1 -#define CLI11_VERSION "2.4.1" - - - - -// The following version macro is very similar to the one in pybind11 -#if !(defined(_MSC_VER) && __cplusplus == 199711L) && !defined(__INTEL_COMPILER) -#if __cplusplus >= 201402L -#define CLI11_CPP14 -#if __cplusplus >= 201703L -#define CLI11_CPP17 -#if __cplusplus > 201703L -#define CLI11_CPP20 -#endif -#endif -#endif -#elif defined(_MSC_VER) && __cplusplus == 199711L -// MSVC sets _MSVC_LANG rather than __cplusplus (supposedly until the standard is fully implemented) -// Unless you use the /Zc:__cplusplus flag on Visual Studio 2017 15.7 Preview 3 or newer -#if _MSVC_LANG >= 201402L -#define CLI11_CPP14 -#if _MSVC_LANG > 201402L && _MSC_VER >= 1910 -#define CLI11_CPP17 -#if _MSVC_LANG > 201703L && _MSC_VER >= 1910 -#define CLI11_CPP20 -#endif -#endif -#endif -#endif - -#if defined(CLI11_CPP14) -#define CLI11_DEPRECATED(reason) [[deprecated(reason)]] -#elif defined(_MSC_VER) -#define CLI11_DEPRECATED(reason) __declspec(deprecated(reason)) -#else -#define CLI11_DEPRECATED(reason) __attribute__((deprecated(reason))) -#endif - -// GCC < 10 doesn't ignore this in unevaluated contexts -#if !defined(CLI11_CPP17) || \ - (defined(__GNUC__) && !defined(__llvm__) && !defined(__INTEL_COMPILER) && __GNUC__ < 10 && __GNUC__ > 4) -#define CLI11_NODISCARD -#else -#define CLI11_NODISCARD [[nodiscard]] -#endif - -/** detection of rtti */ -#ifndef CLI11_USE_STATIC_RTTI -#if(defined(_HAS_STATIC_RTTI) && _HAS_STATIC_RTTI) -#define CLI11_USE_STATIC_RTTI 1 -#elif defined(__cpp_rtti) -#if(defined(_CPPRTTI) && _CPPRTTI == 0) -#define CLI11_USE_STATIC_RTTI 1 -#else -#define CLI11_USE_STATIC_RTTI 0 -#endif -#elif(defined(__GCC_RTTI) && __GXX_RTTI) -#define CLI11_USE_STATIC_RTTI 0 -#else -#define CLI11_USE_STATIC_RTTI 1 -#endif -#endif - -/** availability */ -#if defined CLI11_CPP17 && defined __has_include && !defined CLI11_HAS_FILESYSTEM -#if __has_include() -// Filesystem cannot be used if targeting macOS < 10.15 -#if defined __MAC_OS_X_VERSION_MIN_REQUIRED && __MAC_OS_X_VERSION_MIN_REQUIRED < 101500 -#define CLI11_HAS_FILESYSTEM 0 -#elif defined(__wasi__) -// As of wasi-sdk-14, filesystem is not implemented -#define CLI11_HAS_FILESYSTEM 0 -#else -#include -#if defined __cpp_lib_filesystem && __cpp_lib_filesystem >= 201703 -#if defined _GLIBCXX_RELEASE && _GLIBCXX_RELEASE >= 9 -#define CLI11_HAS_FILESYSTEM 1 -#elif defined(__GLIBCXX__) -// if we are using gcc and Version <9 default to no filesystem -#define CLI11_HAS_FILESYSTEM 0 -#else -#define CLI11_HAS_FILESYSTEM 1 -#endif -#else -#define CLI11_HAS_FILESYSTEM 0 -#endif -#endif -#endif -#endif - -/** availability */ -#if defined(__GNUC__) && !defined(__llvm__) && !defined(__INTEL_COMPILER) && __GNUC__ < 5 -#define CLI11_HAS_CODECVT 0 -#else -#define CLI11_HAS_CODECVT 1 -#include -#endif - -/** disable deprecations */ -#if defined(__GNUC__) // GCC or clang -#define CLI11_DIAGNOSTIC_PUSH _Pragma("GCC diagnostic push") -#define CLI11_DIAGNOSTIC_POP _Pragma("GCC diagnostic pop") - -#define CLI11_DIAGNOSTIC_IGNORE_DEPRECATED _Pragma("GCC diagnostic ignored \"-Wdeprecated-declarations\"") - -#elif defined(_MSC_VER) -#define CLI11_DIAGNOSTIC_PUSH __pragma(warning(push)) -#define CLI11_DIAGNOSTIC_POP __pragma(warning(pop)) - -#define CLI11_DIAGNOSTIC_IGNORE_DEPRECATED __pragma(warning(disable : 4996)) - -#else -#define CLI11_DIAGNOSTIC_PUSH -#define CLI11_DIAGNOSTIC_POP - -#define CLI11_DIAGNOSTIC_IGNORE_DEPRECATED - -#endif - -/** Inline macro **/ -#ifdef CLI11_COMPILE -#define CLI11_INLINE -#else -#define CLI11_INLINE inline -#endif - - - -#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0 -#include // NOLINT(build/include) -#else -#include -#include -#endif - - - - -#ifdef CLI11_CPP17 -#include -#endif // CLI11_CPP17 - -#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0 -#include -#include // NOLINT(build/include) -#endif // CLI11_HAS_FILESYSTEM - - - -#if defined(_WIN32) -#if !(defined(_AMD64_) || defined(_X86_) || defined(_ARM_)) -#if defined(__amd64__) || defined(__amd64) || defined(__x86_64__) || defined(__x86_64) || defined(_M_X64) || \ - defined(_M_AMD64) -#define _AMD64_ -#elif defined(i386) || defined(__i386) || defined(__i386__) || defined(__i386__) || defined(_M_IX86) -#define _X86_ -#elif defined(__arm__) || defined(_M_ARM) || defined(_M_ARMT) -#define _ARM_ -#elif defined(__aarch64__) || defined(_M_ARM64) -#define _ARM64_ -#elif defined(_M_ARM64EC) -#define _ARM64EC_ -#endif -#endif - -// first -#ifndef NOMINMAX -// if NOMINMAX is already defined we don't want to mess with that either way -#define NOMINMAX -#include -#undef NOMINMAX -#else -#include -#endif - -// second -#include -// third -#include -#include -#endif - - -namespace CLI { - - -/// Convert a wide string to a narrow string. -CLI11_INLINE std::string narrow(const std::wstring &str); -CLI11_INLINE std::string narrow(const wchar_t *str); -CLI11_INLINE std::string narrow(const wchar_t *str, std::size_t size); - -/// Convert a narrow string to a wide string. -CLI11_INLINE std::wstring widen(const std::string &str); -CLI11_INLINE std::wstring widen(const char *str); -CLI11_INLINE std::wstring widen(const char *str, std::size_t size); - -#ifdef CLI11_CPP17 -CLI11_INLINE std::string narrow(std::wstring_view str); -CLI11_INLINE std::wstring widen(std::string_view str); -#endif // CLI11_CPP17 - -#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0 -/// Convert a char-string to a native path correctly. -CLI11_INLINE std::filesystem::path to_path(std::string_view str); -#endif // CLI11_HAS_FILESYSTEM - - - - -namespace detail { - -#if !CLI11_HAS_CODECVT -/// Attempt to set one of the acceptable unicode locales for conversion -CLI11_INLINE void set_unicode_locale() { - static const std::array unicode_locales{{"C.UTF-8", "en_US.UTF-8", ".UTF-8"}}; - - for(const auto &locale_name : unicode_locales) { - if(std::setlocale(LC_ALL, locale_name) != nullptr) { - return; - } - } - throw std::runtime_error("CLI::narrow: could not set locale to C.UTF-8"); -} - -template struct scope_guard_t { - F closure; - - explicit scope_guard_t(F closure_) : closure(closure_) {} - ~scope_guard_t() { closure(); } -}; - -template CLI11_NODISCARD CLI11_INLINE scope_guard_t scope_guard(F &&closure) { - return scope_guard_t{std::forward(closure)}; -} - -#endif // !CLI11_HAS_CODECVT - -CLI11_DIAGNOSTIC_PUSH -CLI11_DIAGNOSTIC_IGNORE_DEPRECATED - -CLI11_INLINE std::string narrow_impl(const wchar_t *str, std::size_t str_size) { -#if CLI11_HAS_CODECVT -#ifdef _WIN32 - return std::wstring_convert>().to_bytes(str, str + str_size); - -#else - return std::wstring_convert>().to_bytes(str, str + str_size); - -#endif // _WIN32 -#else // CLI11_HAS_CODECVT - (void)str_size; - std::mbstate_t state = std::mbstate_t(); - const wchar_t *it = str; - - std::string old_locale = std::setlocale(LC_ALL, nullptr); - auto sg = scope_guard([&] { std::setlocale(LC_ALL, old_locale.c_str()); }); - set_unicode_locale(); - - std::size_t new_size = std::wcsrtombs(nullptr, &it, 0, &state); - if(new_size == static_cast(-1)) { - throw std::runtime_error("CLI::narrow: conversion error in std::wcsrtombs at offset " + - std::to_string(it - str)); - } - std::string result(new_size, '\0'); - std::wcsrtombs(const_cast(result.data()), &str, new_size, &state); - - return result; - -#endif // CLI11_HAS_CODECVT -} - -CLI11_INLINE std::wstring widen_impl(const char *str, std::size_t str_size) { -#if CLI11_HAS_CODECVT -#ifdef _WIN32 - return std::wstring_convert>().from_bytes(str, str + str_size); - -#else - return std::wstring_convert>().from_bytes(str, str + str_size); - -#endif // _WIN32 -#else // CLI11_HAS_CODECVT - (void)str_size; - std::mbstate_t state = std::mbstate_t(); - const char *it = str; - - std::string old_locale = std::setlocale(LC_ALL, nullptr); - auto sg = scope_guard([&] { std::setlocale(LC_ALL, old_locale.c_str()); }); - set_unicode_locale(); - - std::size_t new_size = std::mbsrtowcs(nullptr, &it, 0, &state); - if(new_size == static_cast(-1)) { - throw std::runtime_error("CLI::widen: conversion error in std::mbsrtowcs at offset " + - std::to_string(it - str)); - } - std::wstring result(new_size, L'\0'); - std::mbsrtowcs(const_cast(result.data()), &str, new_size, &state); - - return result; - -#endif // CLI11_HAS_CODECVT -} - -CLI11_DIAGNOSTIC_POP - -} // namespace detail - -CLI11_INLINE std::string narrow(const wchar_t *str, std::size_t str_size) { return detail::narrow_impl(str, str_size); } -CLI11_INLINE std::string narrow(const std::wstring &str) { return detail::narrow_impl(str.data(), str.size()); } -// Flawfinder: ignore -CLI11_INLINE std::string narrow(const wchar_t *str) { return detail::narrow_impl(str, std::wcslen(str)); } - -CLI11_INLINE std::wstring widen(const char *str, std::size_t str_size) { return detail::widen_impl(str, str_size); } -CLI11_INLINE std::wstring widen(const std::string &str) { return detail::widen_impl(str.data(), str.size()); } -// Flawfinder: ignore -CLI11_INLINE std::wstring widen(const char *str) { return detail::widen_impl(str, std::strlen(str)); } - -#ifdef CLI11_CPP17 -CLI11_INLINE std::string narrow(std::wstring_view str) { return detail::narrow_impl(str.data(), str.size()); } -CLI11_INLINE std::wstring widen(std::string_view str) { return detail::widen_impl(str.data(), str.size()); } -#endif // CLI11_CPP17 - -#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0 -CLI11_INLINE std::filesystem::path to_path(std::string_view str) { - return std::filesystem::path{ -#ifdef _WIN32 - widen(str) -#else - str -#endif // _WIN32 - }; -} -#endif // CLI11_HAS_FILESYSTEM - - - - -namespace detail { -#ifdef _WIN32 -/// Decode and return UTF-8 argv from GetCommandLineW. -CLI11_INLINE std::vector compute_win32_argv(); -#endif -} // namespace detail - - - -namespace detail { - -#ifdef _WIN32 -CLI11_INLINE std::vector compute_win32_argv() { - std::vector result; - int argc = 0; - - auto deleter = [](wchar_t **ptr) { LocalFree(ptr); }; - // NOLINTBEGIN(*-avoid-c-arrays) - auto wargv = std::unique_ptr(CommandLineToArgvW(GetCommandLineW(), &argc), deleter); - // NOLINTEND(*-avoid-c-arrays) - - if(wargv == nullptr) { - throw std::runtime_error("CommandLineToArgvW failed with code " + std::to_string(GetLastError())); - } - - result.reserve(static_cast(argc)); - for(size_t i = 0; i < static_cast(argc); ++i) { - result.push_back(narrow(wargv[i])); - } - - return result; -} -#endif - -} // namespace detail - - - - -/// Include the items in this namespace to get free conversion of enums to/from streams. -/// (This is available inside CLI as well, so CLI11 will use this without a using statement). -namespace enums { - -/// output streaming for enumerations -template ::value>::type> -std::ostream &operator<<(std::ostream &in, const T &item) { - // make sure this is out of the detail namespace otherwise it won't be found when needed - return in << static_cast::type>(item); -} - -} // namespace enums - -/// Export to CLI namespace -using enums::operator<<; - -namespace detail { -/// a constant defining an expected max vector size defined to be a big number that could be multiplied by 4 and not -/// produce overflow for some expected uses -constexpr int expected_max_vector_size{1 << 29}; -// Based on http://stackoverflow.com/questions/236129/split-a-string-in-c -/// Split a string by a delim -CLI11_INLINE std::vector split(const std::string &s, char delim); - -/// Simple function to join a string -template std::string join(const T &v, std::string delim = ",") { - std::ostringstream s; - auto beg = std::begin(v); - auto end = std::end(v); - if(beg != end) - s << *beg++; - while(beg != end) { - s << delim << *beg++; - } - return s.str(); -} - -/// Simple function to join a string from processed elements -template ::value>::type> -std::string join(const T &v, Callable func, std::string delim = ",") { - std::ostringstream s; - auto beg = std::begin(v); - auto end = std::end(v); - auto loc = s.tellp(); - while(beg != end) { - auto nloc = s.tellp(); - if(nloc > loc) { - s << delim; - loc = nloc; - } - s << func(*beg++); - } - return s.str(); -} - -/// Join a string in reverse order -template std::string rjoin(const T &v, std::string delim = ",") { - std::ostringstream s; - for(std::size_t start = 0; start < v.size(); start++) { - if(start > 0) - s << delim; - s << v[v.size() - start - 1]; - } - return s.str(); -} - -// Based roughly on http://stackoverflow.com/questions/25829143/c-trim-whitespace-from-a-string - -/// Trim whitespace from left of string -CLI11_INLINE std::string <rim(std::string &str); - -/// Trim anything from left of string -CLI11_INLINE std::string <rim(std::string &str, const std::string &filter); - -/// Trim whitespace from right of string -CLI11_INLINE std::string &rtrim(std::string &str); - -/// Trim anything from right of string -CLI11_INLINE std::string &rtrim(std::string &str, const std::string &filter); - -/// Trim whitespace from string -inline std::string &trim(std::string &str) { return ltrim(rtrim(str)); } - -/// Trim anything from string -inline std::string &trim(std::string &str, const std::string filter) { return ltrim(rtrim(str, filter), filter); } - -/// Make a copy of the string and then trim it -inline std::string trim_copy(const std::string &str) { - std::string s = str; - return trim(s); -} - -/// remove quotes at the front and back of a string either '"' or '\'' -CLI11_INLINE std::string &remove_quotes(std::string &str); - -/// remove quotes from all elements of a string vector and process escaped components -CLI11_INLINE void remove_quotes(std::vector &args); - -/// Add a leader to the beginning of all new lines (nothing is added -/// at the start of the first line). `"; "` would be for ini files -/// -/// Can't use Regex, or this would be a subs. -CLI11_INLINE std::string fix_newlines(const std::string &leader, std::string input); - -/// Make a copy of the string and then trim it, any filter string can be used (any char in string is filtered) -inline std::string trim_copy(const std::string &str, const std::string &filter) { - std::string s = str; - return trim(s, filter); -} -/// Print a two part "help" string -CLI11_INLINE std::ostream & -format_help(std::ostream &out, std::string name, const std::string &description, std::size_t wid); - -/// Print subcommand aliases -CLI11_INLINE std::ostream &format_aliases(std::ostream &out, const std::vector &aliases, std::size_t wid); - -/// Verify the first character of an option -/// - is a trigger character, ! has special meaning and new lines would just be annoying to deal with -template bool valid_first_char(T c) { - return ((c != '-') && (static_cast(c) > 33)); // space and '!' not allowed -} - -/// Verify following characters of an option -template bool valid_later_char(T c) { - // = and : are value separators, { has special meaning for option defaults, - // and control codes other than tab would just be annoying to deal with in many places allowing space here has too - // much potential for inadvertent entry errors and bugs - return ((c != '=') && (c != ':') && (c != '{') && ((static_cast(c) > 32) || c == '\t')); -} - -/// Verify an option/subcommand name -CLI11_INLINE bool valid_name_string(const std::string &str); - -/// Verify an app name -inline bool valid_alias_name_string(const std::string &str) { - static const std::string badChars(std::string("\n") + '\0'); - return (str.find_first_of(badChars) == std::string::npos); -} - -/// check if a string is a container segment separator (empty or "%%") -inline bool is_separator(const std::string &str) { - static const std::string sep("%%"); - return (str.empty() || str == sep); -} - -/// Verify that str consists of letters only -inline bool isalpha(const std::string &str) { - return std::all_of(str.begin(), str.end(), [](char c) { return std::isalpha(c, std::locale()); }); -} - -/// Return a lower case version of a string -inline std::string to_lower(std::string str) { - std::transform(std::begin(str), std::end(str), std::begin(str), [](const std::string::value_type &x) { - return std::tolower(x, std::locale()); - }); - return str; -} - -/// remove underscores from a string -inline std::string remove_underscore(std::string str) { - str.erase(std::remove(std::begin(str), std::end(str), '_'), std::end(str)); - return str; -} - -/// Find and replace a substring with another substring -CLI11_INLINE std::string find_and_replace(std::string str, std::string from, std::string to); - -/// check if the flag definitions has possible false flags -inline bool has_default_flag_values(const std::string &flags) { - return (flags.find_first_of("{!") != std::string::npos); -} - -CLI11_INLINE void remove_default_flag_values(std::string &flags); - -/// Check if a string is a member of a list of strings and optionally ignore case or ignore underscores -CLI11_INLINE std::ptrdiff_t find_member(std::string name, - const std::vector names, - bool ignore_case = false, - bool ignore_underscore = false); - -/// Find a trigger string and call a modify callable function that takes the current string and starting position of the -/// trigger and returns the position in the string to search for the next trigger string -template inline std::string find_and_modify(std::string str, std::string trigger, Callable modify) { - std::size_t start_pos = 0; - while((start_pos = str.find(trigger, start_pos)) != std::string::npos) { - start_pos = modify(str, start_pos); - } - return str; -} - -/// close a sequence of characters indicated by a closure character. Brackets allows sub sequences -/// recognized bracket sequences include "'`[(<{ other closure characters are assumed to be literal strings -CLI11_INLINE std::size_t close_sequence(const std::string &str, std::size_t start, char closure_char); - -/// Split a string '"one two" "three"' into 'one two', 'three' -/// Quote characters can be ` ' or " or bracket characters [{(< with matching to the matching bracket -CLI11_INLINE std::vector split_up(std::string str, char delimiter = '\0'); - -/// get the value of an environmental variable or empty string if empty -CLI11_INLINE std::string get_environment_value(const std::string &env_name); - -/// This function detects an equal or colon followed by an escaped quote after an argument -/// then modifies the string to replace the equality with a space. This is needed -/// to allow the split up function to work properly and is intended to be used with the find_and_modify function -/// the return value is the offset+1 which is required by the find_and_modify function. -CLI11_INLINE std::size_t escape_detect(std::string &str, std::size_t offset); - -/// @brief detect if a string has escapable characters -/// @param str the string to do the detection on -/// @return true if the string has escapable characters -CLI11_INLINE bool has_escapable_character(const std::string &str); - -/// @brief escape all escapable characters -/// @param str the string to escape -/// @return a string with the escapble characters escaped with '\' -CLI11_INLINE std::string add_escaped_characters(const std::string &str); - -/// @brief replace the escaped characters with their equivalent -CLI11_INLINE std::string remove_escaped_characters(const std::string &str); - -/// generate a string with all non printable characters escaped to hex codes -CLI11_INLINE std::string binary_escape_string(const std::string &string_to_escape); - -CLI11_INLINE bool is_binary_escaped_string(const std::string &escaped_string); - -/// extract an escaped binary_string -CLI11_INLINE std::string extract_binary_string(const std::string &escaped_string); - -/// process a quoted string, remove the quotes and if appropriate handle escaped characters -CLI11_INLINE bool process_quoted_string(std::string &str, char string_char = '\"', char literal_char = '\''); - -} // namespace detail - - - - -namespace detail { -CLI11_INLINE std::vector split(const std::string &s, char delim) { - std::vector elems; - // Check to see if empty string, give consistent result - if(s.empty()) { - elems.emplace_back(); - } else { - std::stringstream ss; - ss.str(s); - std::string item; - while(std::getline(ss, item, delim)) { - elems.push_back(item); - } - } - return elems; -} - -CLI11_INLINE std::string <rim(std::string &str) { - auto it = std::find_if(str.begin(), str.end(), [](char ch) { return !std::isspace(ch, std::locale()); }); - str.erase(str.begin(), it); - return str; -} - -CLI11_INLINE std::string <rim(std::string &str, const std::string &filter) { - auto it = std::find_if(str.begin(), str.end(), [&filter](char ch) { return filter.find(ch) == std::string::npos; }); - str.erase(str.begin(), it); - return str; -} - -CLI11_INLINE std::string &rtrim(std::string &str) { - auto it = std::find_if(str.rbegin(), str.rend(), [](char ch) { return !std::isspace(ch, std::locale()); }); - str.erase(it.base(), str.end()); - return str; -} - -CLI11_INLINE std::string &rtrim(std::string &str, const std::string &filter) { - auto it = - std::find_if(str.rbegin(), str.rend(), [&filter](char ch) { return filter.find(ch) == std::string::npos; }); - str.erase(it.base(), str.end()); - return str; -} - -CLI11_INLINE std::string &remove_quotes(std::string &str) { - if(str.length() > 1 && (str.front() == '"' || str.front() == '\'' || str.front() == '`')) { - if(str.front() == str.back()) { - str.pop_back(); - str.erase(str.begin(), str.begin() + 1); - } - } - return str; -} - -CLI11_INLINE std::string &remove_outer(std::string &str, char key) { - if(str.length() > 1 && (str.front() == key)) { - if(str.front() == str.back()) { - str.pop_back(); - str.erase(str.begin(), str.begin() + 1); - } - } - return str; -} - -CLI11_INLINE std::string fix_newlines(const std::string &leader, std::string input) { - std::string::size_type n = 0; - while(n != std::string::npos && n < input.size()) { - n = input.find('\n', n); - if(n != std::string::npos) { - input = input.substr(0, n + 1) + leader + input.substr(n + 1); - n += leader.size(); - } - } - return input; -} - -CLI11_INLINE std::ostream & -format_help(std::ostream &out, std::string name, const std::string &description, std::size_t wid) { - name = " " + name; - out << std::setw(static_cast(wid)) << std::left << name; - if(!description.empty()) { - if(name.length() >= wid) - out << "\n" << std::setw(static_cast(wid)) << ""; - for(const char c : description) { - out.put(c); - if(c == '\n') { - out << std::setw(static_cast(wid)) << ""; - } - } - } - out << "\n"; - return out; -} - -CLI11_INLINE std::ostream &format_aliases(std::ostream &out, const std::vector &aliases, std::size_t wid) { - if(!aliases.empty()) { - out << std::setw(static_cast(wid)) << " aliases: "; - bool front = true; - for(const auto &alias : aliases) { - if(!front) { - out << ", "; - } else { - front = false; - } - out << detail::fix_newlines(" ", alias); - } - out << "\n"; - } - return out; -} - -CLI11_INLINE bool valid_name_string(const std::string &str) { - if(str.empty() || !valid_first_char(str[0])) { - return false; - } - auto e = str.end(); - for(auto c = str.begin() + 1; c != e; ++c) - if(!valid_later_char(*c)) - return false; - return true; -} - -CLI11_INLINE std::string find_and_replace(std::string str, std::string from, std::string to) { - - std::size_t start_pos = 0; - - while((start_pos = str.find(from, start_pos)) != std::string::npos) { - str.replace(start_pos, from.length(), to); - start_pos += to.length(); - } - - return str; -} - -CLI11_INLINE void remove_default_flag_values(std::string &flags) { - auto loc = flags.find_first_of('{', 2); - while(loc != std::string::npos) { - auto finish = flags.find_first_of("},", loc + 1); - if((finish != std::string::npos) && (flags[finish] == '}')) { - flags.erase(flags.begin() + static_cast(loc), - flags.begin() + static_cast(finish) + 1); - } - loc = flags.find_first_of('{', loc + 1); - } - flags.erase(std::remove(flags.begin(), flags.end(), '!'), flags.end()); -} - -CLI11_INLINE std::ptrdiff_t -find_member(std::string name, const std::vector names, bool ignore_case, bool ignore_underscore) { - auto it = std::end(names); - if(ignore_case) { - if(ignore_underscore) { - name = detail::to_lower(detail::remove_underscore(name)); - it = std::find_if(std::begin(names), std::end(names), [&name](std::string local_name) { - return detail::to_lower(detail::remove_underscore(local_name)) == name; - }); - } else { - name = detail::to_lower(name); - it = std::find_if(std::begin(names), std::end(names), [&name](std::string local_name) { - return detail::to_lower(local_name) == name; - }); - } - - } else if(ignore_underscore) { - name = detail::remove_underscore(name); - it = std::find_if(std::begin(names), std::end(names), [&name](std::string local_name) { - return detail::remove_underscore(local_name) == name; - }); - } else { - it = std::find(std::begin(names), std::end(names), name); - } - - return (it != std::end(names)) ? (it - std::begin(names)) : (-1); -} - -static const std::string escapedChars("\b\t\n\f\r\"\\"); -static const std::string escapedCharsCode("btnfr\"\\"); -static const std::string bracketChars{"\"'`[(<{"}; -static const std::string matchBracketChars("\"'`])>}"); - -CLI11_INLINE bool has_escapable_character(const std::string &str) { - return (str.find_first_of(escapedChars) != std::string::npos); -} - -CLI11_INLINE std::string add_escaped_characters(const std::string &str) { - std::string out; - out.reserve(str.size() + 4); - for(char s : str) { - auto sloc = escapedChars.find_first_of(s); - if(sloc != std::string::npos) { - out.push_back('\\'); - out.push_back(escapedCharsCode[sloc]); - } else { - out.push_back(s); - } - } - return out; -} - -CLI11_INLINE std::uint32_t hexConvert(char hc) { - int hcode{0}; - if(hc >= '0' && hc <= '9') { - hcode = (hc - '0'); - } else if(hc >= 'A' && hc <= 'F') { - hcode = (hc - 'A' + 10); - } else if(hc >= 'a' && hc <= 'f') { - hcode = (hc - 'a' + 10); - } else { - hcode = -1; - } - return static_cast(hcode); -} - -CLI11_INLINE char make_char(std::uint32_t code) { return static_cast(static_cast(code)); } - -CLI11_INLINE void append_codepoint(std::string &str, std::uint32_t code) { - if(code < 0x80) { // ascii code equivalent - str.push_back(static_cast(code)); - } else if(code < 0x800) { // \u0080 to \u07FF - // 110yyyyx 10xxxxxx; 0x3f == 0b0011'1111 - str.push_back(make_char(0xC0 | code >> 6)); - str.push_back(make_char(0x80 | (code & 0x3F))); - } else if(code < 0x10000) { // U+0800...U+FFFF - if(0xD800 <= code && code <= 0xDFFF) { - throw std::invalid_argument("[0xD800, 0xDFFF] are not valid UTF-8."); - } - // 1110yyyy 10yxxxxx 10xxxxxx - str.push_back(make_char(0xE0 | code >> 12)); - str.push_back(make_char(0x80 | (code >> 6 & 0x3F))); - str.push_back(make_char(0x80 | (code & 0x3F))); - } else if(code < 0x110000) { // U+010000 ... U+10FFFF - // 11110yyy 10yyxxxx 10xxxxxx 10xxxxxx - str.push_back(make_char(0xF0 | code >> 18)); - str.push_back(make_char(0x80 | (code >> 12 & 0x3F))); - str.push_back(make_char(0x80 | (code >> 6 & 0x3F))); - str.push_back(make_char(0x80 | (code & 0x3F))); - } -} - -CLI11_INLINE std::string remove_escaped_characters(const std::string &str) { - - std::string out; - out.reserve(str.size()); - for(auto loc = str.begin(); loc < str.end(); ++loc) { - if(*loc == '\\') { - if(str.end() - loc < 2) { - throw std::invalid_argument("invalid escape sequence " + str); - } - auto ecloc = escapedCharsCode.find_first_of(*(loc + 1)); - if(ecloc != std::string::npos) { - out.push_back(escapedChars[ecloc]); - ++loc; - } else if(*(loc + 1) == 'u') { - // must have 4 hex characters - if(str.end() - loc < 6) { - throw std::invalid_argument("unicode sequence must have 4 hex codes " + str); - } - std::uint32_t code{0}; - std::uint32_t mplier{16 * 16 * 16}; - for(int ii = 2; ii < 6; ++ii) { - std::uint32_t res = hexConvert(*(loc + ii)); - if(res > 0x0F) { - throw std::invalid_argument("unicode sequence must have 4 hex codes " + str); - } - code += res * mplier; - mplier = mplier / 16; - } - append_codepoint(out, code); - loc += 5; - } else if(*(loc + 1) == 'U') { - // must have 8 hex characters - if(str.end() - loc < 10) { - throw std::invalid_argument("unicode sequence must have 8 hex codes " + str); - } - std::uint32_t code{0}; - std::uint32_t mplier{16 * 16 * 16 * 16 * 16 * 16 * 16}; - for(int ii = 2; ii < 10; ++ii) { - std::uint32_t res = hexConvert(*(loc + ii)); - if(res > 0x0F) { - throw std::invalid_argument("unicode sequence must have 8 hex codes " + str); - } - code += res * mplier; - mplier = mplier / 16; - } - append_codepoint(out, code); - loc += 9; - } else if(*(loc + 1) == '0') { - out.push_back('\0'); - ++loc; - } else { - throw std::invalid_argument(std::string("unrecognized escape sequence \\") + *(loc + 1) + " in " + str); - } - } else { - out.push_back(*loc); - } - } - return out; -} - -CLI11_INLINE std::size_t close_string_quote(const std::string &str, std::size_t start, char closure_char) { - std::size_t loc{0}; - for(loc = start + 1; loc < str.size(); ++loc) { - if(str[loc] == closure_char) { - break; - } - if(str[loc] == '\\') { - // skip the next character for escaped sequences - ++loc; - } - } - return loc; -} - -CLI11_INLINE std::size_t close_literal_quote(const std::string &str, std::size_t start, char closure_char) { - auto loc = str.find_first_of(closure_char, start + 1); - return (loc != std::string::npos ? loc : str.size()); -} - -CLI11_INLINE std::size_t close_sequence(const std::string &str, std::size_t start, char closure_char) { - - auto bracket_loc = matchBracketChars.find(closure_char); - switch(bracket_loc) { - case 0: - return close_string_quote(str, start, closure_char); - case 1: - case 2: - case std::string::npos: - return close_literal_quote(str, start, closure_char); - default: - break; - } - - std::string closures(1, closure_char); - auto loc = start + 1; - - while(loc < str.size()) { - if(str[loc] == closures.back()) { - closures.pop_back(); - if(closures.empty()) { - return loc; - } - } - bracket_loc = bracketChars.find(str[loc]); - if(bracket_loc != std::string::npos) { - switch(bracket_loc) { - case 0: - loc = close_string_quote(str, loc, str[loc]); - break; - case 1: - case 2: - loc = close_literal_quote(str, loc, str[loc]); - break; - default: - closures.push_back(matchBracketChars[bracket_loc]); - break; - } - } - ++loc; - } - if(loc > str.size()) { - loc = str.size(); - } - return loc; -} - -CLI11_INLINE std::vector split_up(std::string str, char delimiter) { - - auto find_ws = [delimiter](char ch) { - return (delimiter == '\0') ? std::isspace(ch, std::locale()) : (ch == delimiter); - }; - trim(str); - - std::vector output; - while(!str.empty()) { - if(bracketChars.find_first_of(str[0]) != std::string::npos) { - auto bracketLoc = bracketChars.find_first_of(str[0]); - auto end = close_sequence(str, 0, matchBracketChars[bracketLoc]); - if(end >= str.size()) { - output.push_back(std::move(str)); - str.clear(); - } else { - output.push_back(str.substr(0, end + 1)); - if(end + 2 < str.size()) { - str = str.substr(end + 2); - } else { - str.clear(); - } - } - - } else { - auto it = std::find_if(std::begin(str), std::end(str), find_ws); - if(it != std::end(str)) { - std::string value = std::string(str.begin(), it); - output.push_back(value); - str = std::string(it + 1, str.end()); - } else { - output.push_back(str); - str.clear(); - } - } - trim(str); - } - return output; -} - -CLI11_INLINE std::size_t escape_detect(std::string &str, std::size_t offset) { - auto next = str[offset + 1]; - if((next == '\"') || (next == '\'') || (next == '`')) { - auto astart = str.find_last_of("-/ \"\'`", offset - 1); - if(astart != std::string::npos) { - if(str[astart] == ((str[offset] == '=') ? '-' : '/')) - str[offset] = ' '; // interpret this as a space so the split_up works properly - } - } - return offset + 1; -} - -CLI11_INLINE std::string binary_escape_string(const std::string &string_to_escape) { - // s is our escaped output string - std::string escaped_string{}; - // loop through all characters - for(char c : string_to_escape) { - // check if a given character is printable - // the cast is necessary to avoid undefined behaviour - if(isprint(static_cast(c)) == 0) { - std::stringstream stream; - // if the character is not printable - // we'll convert it to a hex string using a stringstream - // note that since char is signed we have to cast it to unsigned first - stream << std::hex << static_cast(static_cast(c)); - std::string code = stream.str(); - escaped_string += std::string("\\x") + (code.size() < 2 ? "0" : "") + code; - - } else { - escaped_string.push_back(c); - } - } - if(escaped_string != string_to_escape) { - auto sqLoc = escaped_string.find('\''); - while(sqLoc != std::string::npos) { - escaped_string.replace(sqLoc, sqLoc + 1, "\\x27"); - sqLoc = escaped_string.find('\''); - } - escaped_string.insert(0, "'B\"("); - escaped_string.push_back(')'); - escaped_string.push_back('"'); - escaped_string.push_back('\''); - } - return escaped_string; -} - -CLI11_INLINE bool is_binary_escaped_string(const std::string &escaped_string) { - size_t ssize = escaped_string.size(); - if(escaped_string.compare(0, 3, "B\"(") == 0 && escaped_string.compare(ssize - 2, 2, ")\"") == 0) { - return true; - } - return (escaped_string.compare(0, 4, "'B\"(") == 0 && escaped_string.compare(ssize - 3, 3, ")\"'") == 0); -} - -CLI11_INLINE std::string extract_binary_string(const std::string &escaped_string) { - std::size_t start{0}; - std::size_t tail{0}; - size_t ssize = escaped_string.size(); - if(escaped_string.compare(0, 3, "B\"(") == 0 && escaped_string.compare(ssize - 2, 2, ")\"") == 0) { - start = 3; - tail = 2; - } else if(escaped_string.compare(0, 4, "'B\"(") == 0 && escaped_string.compare(ssize - 3, 3, ")\"'") == 0) { - start = 4; - tail = 3; - } - - if(start == 0) { - return escaped_string; - } - std::string outstring; - - outstring.reserve(ssize - start - tail); - std::size_t loc = start; - while(loc < ssize - tail) { - // ssize-2 to skip )" at the end - if(escaped_string[loc] == '\\' && (escaped_string[loc + 1] == 'x' || escaped_string[loc + 1] == 'X')) { - auto c1 = escaped_string[loc + 2]; - auto c2 = escaped_string[loc + 3]; - - std::uint32_t res1 = hexConvert(c1); - std::uint32_t res2 = hexConvert(c2); - if(res1 <= 0x0F && res2 <= 0x0F) { - loc += 4; - outstring.push_back(static_cast(res1 * 16 + res2)); - continue; - } - } - outstring.push_back(escaped_string[loc]); - ++loc; - } - return outstring; -} - -CLI11_INLINE void remove_quotes(std::vector &args) { - for(auto &arg : args) { - if(arg.front() == '\"' && arg.back() == '\"') { - remove_quotes(arg); - // only remove escaped for string arguments not literal strings - arg = remove_escaped_characters(arg); - } else { - remove_quotes(arg); - } - } -} - -CLI11_INLINE bool process_quoted_string(std::string &str, char string_char, char literal_char) { - if(str.size() <= 1) { - return false; - } - if(detail::is_binary_escaped_string(str)) { - str = detail::extract_binary_string(str); - return true; - } - if(str.front() == string_char && str.back() == string_char) { - detail::remove_outer(str, string_char); - if(str.find_first_of('\\') != std::string::npos) { - str = detail::remove_escaped_characters(str); - } - return true; - } - if((str.front() == literal_char || str.front() == '`') && str.back() == str.front()) { - detail::remove_outer(str, str.front()); - return true; - } - return false; -} - -std::string get_environment_value(const std::string &env_name) { - char *buffer = nullptr; - std::string ename_string; - -#ifdef _MSC_VER - // Windows version - std::size_t sz = 0; - if(_dupenv_s(&buffer, &sz, env_name.c_str()) == 0 && buffer != nullptr) { - ename_string = std::string(buffer); - free(buffer); - } -#else - // This also works on Windows, but gives a warning - buffer = std::getenv(env_name.c_str()); - if(buffer != nullptr) { - ename_string = std::string(buffer); - } -#endif - return ename_string; -} - -} // namespace detail - - - -// Use one of these on all error classes. -// These are temporary and are undef'd at the end of this file. -#define CLI11_ERROR_DEF(parent, name) \ - protected: \ - name(std::string ename, std::string msg, int exit_code) : parent(std::move(ename), std::move(msg), exit_code) {} \ - name(std::string ename, std::string msg, ExitCodes exit_code) \ - : parent(std::move(ename), std::move(msg), exit_code) {} \ - \ - public: \ - name(std::string msg, ExitCodes exit_code) : parent(#name, std::move(msg), exit_code) {} \ - name(std::string msg, int exit_code) : parent(#name, std::move(msg), exit_code) {} - -// This is added after the one above if a class is used directly and builds its own message -#define CLI11_ERROR_SIMPLE(name) \ - explicit name(std::string msg) : name(#name, msg, ExitCodes::name) {} - -/// These codes are part of every error in CLI. They can be obtained from e using e.exit_code or as a quick shortcut, -/// int values from e.get_error_code(). -enum class ExitCodes { - Success = 0, - IncorrectConstruction = 100, - BadNameString, - OptionAlreadyAdded, - FileError, - ConversionError, - ValidationError, - RequiredError, - RequiresError, - ExcludesError, - ExtrasError, - ConfigError, - InvalidError, - HorribleError, - OptionNotFound, - ArgumentMismatch, - BaseClass = 127 -}; - -// Error definitions - -/// @defgroup error_group Errors -/// @brief Errors thrown by CLI11 -/// -/// These are the errors that can be thrown. Some of them, like CLI::Success, are not really errors. -/// @{ - -/// All errors derive from this one -class Error : public std::runtime_error { - int actual_exit_code; - std::string error_name{"Error"}; - - public: - CLI11_NODISCARD int get_exit_code() const { return actual_exit_code; } - - CLI11_NODISCARD std::string get_name() const { return error_name; } - - Error(std::string name, std::string msg, int exit_code = static_cast(ExitCodes::BaseClass)) - : runtime_error(msg), actual_exit_code(exit_code), error_name(std::move(name)) {} - - Error(std::string name, std::string msg, ExitCodes exit_code) : Error(name, msg, static_cast(exit_code)) {} -}; - -// Note: Using Error::Error constructors does not work on GCC 4.7 - -/// Construction errors (not in parsing) -class ConstructionError : public Error { - CLI11_ERROR_DEF(Error, ConstructionError) -}; - -/// Thrown when an option is set to conflicting values (non-vector and multi args, for example) -class IncorrectConstruction : public ConstructionError { - CLI11_ERROR_DEF(ConstructionError, IncorrectConstruction) - CLI11_ERROR_SIMPLE(IncorrectConstruction) - static IncorrectConstruction PositionalFlag(std::string name) { - return IncorrectConstruction(name + ": Flags cannot be positional"); - } - static IncorrectConstruction Set0Opt(std::string name) { - return IncorrectConstruction(name + ": Cannot set 0 expected, use a flag instead"); - } - static IncorrectConstruction SetFlag(std::string name) { - return IncorrectConstruction(name + ": Cannot set an expected number for flags"); - } - static IncorrectConstruction ChangeNotVector(std::string name) { - return IncorrectConstruction(name + ": You can only change the expected arguments for vectors"); - } - static IncorrectConstruction AfterMultiOpt(std::string name) { - return IncorrectConstruction( - name + ": You can't change expected arguments after you've changed the multi option policy!"); - } - static IncorrectConstruction MissingOption(std::string name) { - return IncorrectConstruction("Option " + name + " is not defined"); - } - static IncorrectConstruction MultiOptionPolicy(std::string name) { - return IncorrectConstruction(name + ": multi_option_policy only works for flags and exact value options"); - } -}; - -/// Thrown on construction of a bad name -class BadNameString : public ConstructionError { - CLI11_ERROR_DEF(ConstructionError, BadNameString) - CLI11_ERROR_SIMPLE(BadNameString) - static BadNameString OneCharName(std::string name) { return BadNameString("Invalid one char name: " + name); } - static BadNameString MissingDash(std::string name) { - return BadNameString("Long names strings require 2 dashes " + name); - } - static BadNameString BadLongName(std::string name) { return BadNameString("Bad long name: " + name); } - static BadNameString BadPositionalName(std::string name) { - return BadNameString("Invalid positional Name: " + name); - } - static BadNameString DashesOnly(std::string name) { - return BadNameString("Must have a name, not just dashes: " + name); - } - static BadNameString MultiPositionalNames(std::string name) { - return BadNameString("Only one positional name allowed, remove: " + name); - } -}; - -/// Thrown when an option already exists -class OptionAlreadyAdded : public ConstructionError { - CLI11_ERROR_DEF(ConstructionError, OptionAlreadyAdded) - explicit OptionAlreadyAdded(std::string name) - : OptionAlreadyAdded(name + " is already added", ExitCodes::OptionAlreadyAdded) {} - static OptionAlreadyAdded Requires(std::string name, std::string other) { - return {name + " requires " + other, ExitCodes::OptionAlreadyAdded}; - } - static OptionAlreadyAdded Excludes(std::string name, std::string other) { - return {name + " excludes " + other, ExitCodes::OptionAlreadyAdded}; - } -}; - -// Parsing errors - -/// Anything that can error in Parse -class ParseError : public Error { - CLI11_ERROR_DEF(Error, ParseError) -}; - -// Not really "errors" - -/// This is a successful completion on parsing, supposed to exit -class Success : public ParseError { - CLI11_ERROR_DEF(ParseError, Success) - Success() : Success("Successfully completed, should be caught and quit", ExitCodes::Success) {} -}; - -/// -h or --help on command line -class CallForHelp : public Success { - CLI11_ERROR_DEF(Success, CallForHelp) - CallForHelp() : CallForHelp("This should be caught in your main function, see examples", ExitCodes::Success) {} -}; - -/// Usually something like --help-all on command line -class CallForAllHelp : public Success { - CLI11_ERROR_DEF(Success, CallForAllHelp) - CallForAllHelp() - : CallForAllHelp("This should be caught in your main function, see examples", ExitCodes::Success) {} -}; - -/// -v or --version on command line -class CallForVersion : public Success { - CLI11_ERROR_DEF(Success, CallForVersion) - CallForVersion() - : CallForVersion("This should be caught in your main function, see examples", ExitCodes::Success) {} -}; - -/// Does not output a diagnostic in CLI11_PARSE, but allows main() to return with a specific error code. -class RuntimeError : public ParseError { - CLI11_ERROR_DEF(ParseError, RuntimeError) - explicit RuntimeError(int exit_code = 1) : RuntimeError("Runtime error", exit_code) {} -}; - -/// Thrown when parsing an INI file and it is missing -class FileError : public ParseError { - CLI11_ERROR_DEF(ParseError, FileError) - CLI11_ERROR_SIMPLE(FileError) - static FileError Missing(std::string name) { return FileError(name + " was not readable (missing?)"); } -}; - -/// Thrown when conversion call back fails, such as when an int fails to coerce to a string -class ConversionError : public ParseError { - CLI11_ERROR_DEF(ParseError, ConversionError) - CLI11_ERROR_SIMPLE(ConversionError) - ConversionError(std::string member, std::string name) - : ConversionError("The value " + member + " is not an allowed value for " + name) {} - ConversionError(std::string name, std::vector results) - : ConversionError("Could not convert: " + name + " = " + detail::join(results)) {} - static ConversionError TooManyInputsFlag(std::string name) { - return ConversionError(name + ": too many inputs for a flag"); - } - static ConversionError TrueFalse(std::string name) { - return ConversionError(name + ": Should be true/false or a number"); - } -}; - -/// Thrown when validation of results fails -class ValidationError : public ParseError { - CLI11_ERROR_DEF(ParseError, ValidationError) - CLI11_ERROR_SIMPLE(ValidationError) - explicit ValidationError(std::string name, std::string msg) : ValidationError(name + ": " + msg) {} -}; - -/// Thrown when a required option is missing -class RequiredError : public ParseError { - CLI11_ERROR_DEF(ParseError, RequiredError) - explicit RequiredError(std::string name) : RequiredError(name + " is required", ExitCodes::RequiredError) {} - static RequiredError Subcommand(std::size_t min_subcom) { - if(min_subcom == 1) { - return RequiredError("A subcommand"); - } - return {"Requires at least " + std::to_string(min_subcom) + " subcommands", ExitCodes::RequiredError}; - } - static RequiredError - Option(std::size_t min_option, std::size_t max_option, std::size_t used, const std::string &option_list) { - if((min_option == 1) && (max_option == 1) && (used == 0)) - return RequiredError("Exactly 1 option from [" + option_list + "]"); - if((min_option == 1) && (max_option == 1) && (used > 1)) { - return {"Exactly 1 option from [" + option_list + "] is required and " + std::to_string(used) + - " were given", - ExitCodes::RequiredError}; - } - if((min_option == 1) && (used == 0)) - return RequiredError("At least 1 option from [" + option_list + "]"); - if(used < min_option) { - return {"Requires at least " + std::to_string(min_option) + " options used and only " + - std::to_string(used) + "were given from [" + option_list + "]", - ExitCodes::RequiredError}; - } - if(max_option == 1) - return {"Requires at most 1 options be given from [" + option_list + "]", ExitCodes::RequiredError}; - - return {"Requires at most " + std::to_string(max_option) + " options be used and " + std::to_string(used) + - "were given from [" + option_list + "]", - ExitCodes::RequiredError}; - } -}; - -/// Thrown when the wrong number of arguments has been received -class ArgumentMismatch : public ParseError { - CLI11_ERROR_DEF(ParseError, ArgumentMismatch) - CLI11_ERROR_SIMPLE(ArgumentMismatch) - ArgumentMismatch(std::string name, int expected, std::size_t received) - : ArgumentMismatch(expected > 0 ? ("Expected exactly " + std::to_string(expected) + " arguments to " + name + - ", got " + std::to_string(received)) - : ("Expected at least " + std::to_string(-expected) + " arguments to " + name + - ", got " + std::to_string(received)), - ExitCodes::ArgumentMismatch) {} - - static ArgumentMismatch AtLeast(std::string name, int num, std::size_t received) { - return ArgumentMismatch(name + ": At least " + std::to_string(num) + " required but received " + - std::to_string(received)); - } - static ArgumentMismatch AtMost(std::string name, int num, std::size_t received) { - return ArgumentMismatch(name + ": At Most " + std::to_string(num) + " required but received " + - std::to_string(received)); - } - static ArgumentMismatch TypedAtLeast(std::string name, int num, std::string type) { - return ArgumentMismatch(name + ": " + std::to_string(num) + " required " + type + " missing"); - } - static ArgumentMismatch FlagOverride(std::string name) { - return ArgumentMismatch(name + " was given a disallowed flag override"); - } - static ArgumentMismatch PartialType(std::string name, int num, std::string type) { - return ArgumentMismatch(name + ": " + type + " only partially specified: " + std::to_string(num) + - " required for each element"); - } -}; - -/// Thrown when a requires option is missing -class RequiresError : public ParseError { - CLI11_ERROR_DEF(ParseError, RequiresError) - RequiresError(std::string curname, std::string subname) - : RequiresError(curname + " requires " + subname, ExitCodes::RequiresError) {} -}; - -/// Thrown when an excludes option is present -class ExcludesError : public ParseError { - CLI11_ERROR_DEF(ParseError, ExcludesError) - ExcludesError(std::string curname, std::string subname) - : ExcludesError(curname + " excludes " + subname, ExitCodes::ExcludesError) {} -}; - -/// Thrown when too many positionals or options are found -class ExtrasError : public ParseError { - CLI11_ERROR_DEF(ParseError, ExtrasError) - explicit ExtrasError(std::vector args) - : ExtrasError((args.size() > 1 ? "The following arguments were not expected: " - : "The following argument was not expected: ") + - detail::rjoin(args, " "), - ExitCodes::ExtrasError) {} - ExtrasError(const std::string &name, std::vector args) - : ExtrasError(name, - (args.size() > 1 ? "The following arguments were not expected: " - : "The following argument was not expected: ") + - detail::rjoin(args, " "), - ExitCodes::ExtrasError) {} -}; - -/// Thrown when extra values are found in an INI file -class ConfigError : public ParseError { - CLI11_ERROR_DEF(ParseError, ConfigError) - CLI11_ERROR_SIMPLE(ConfigError) - static ConfigError Extras(std::string item) { return ConfigError("INI was not able to parse " + item); } - static ConfigError NotConfigurable(std::string item) { - return ConfigError(item + ": This option is not allowed in a configuration file"); - } -}; - -/// Thrown when validation fails before parsing -class InvalidError : public ParseError { - CLI11_ERROR_DEF(ParseError, InvalidError) - explicit InvalidError(std::string name) - : InvalidError(name + ": Too many positional arguments with unlimited expected args", ExitCodes::InvalidError) { - } -}; - -/// This is just a safety check to verify selection and parsing match - you should not ever see it -/// Strings are directly added to this error, but again, it should never be seen. -class HorribleError : public ParseError { - CLI11_ERROR_DEF(ParseError, HorribleError) - CLI11_ERROR_SIMPLE(HorribleError) -}; - -// After parsing - -/// Thrown when counting a non-existent option -class OptionNotFound : public Error { - CLI11_ERROR_DEF(Error, OptionNotFound) - explicit OptionNotFound(std::string name) : OptionNotFound(name + " not found", ExitCodes::OptionNotFound) {} -}; - -#undef CLI11_ERROR_DEF -#undef CLI11_ERROR_SIMPLE - -/// @} - - - - -// Type tools - -// Utilities for type enabling -namespace detail { -// Based generally on https://rmf.io/cxx11/almost-static-if -/// Simple empty scoped class -enum class enabler {}; - -/// An instance to use in EnableIf -constexpr enabler dummy = {}; -} // namespace detail - -/// A copy of enable_if_t from C++14, compatible with C++11. -/// -/// We could check to see if C++14 is being used, but it does not hurt to redefine this -/// (even Google does this: https://github.com/google/skia/blob/main/include/private/SkTLogic.h) -/// It is not in the std namespace anyway, so no harm done. -template using enable_if_t = typename std::enable_if::type; - -/// A copy of std::void_t from C++17 (helper for C++11 and C++14) -template struct make_void { - using type = void; -}; - -/// A copy of std::void_t from C++17 - same reasoning as enable_if_t, it does not hurt to redefine -template using void_t = typename make_void::type; - -/// A copy of std::conditional_t from C++14 - same reasoning as enable_if_t, it does not hurt to redefine -template using conditional_t = typename std::conditional::type; - -/// Check to see if something is bool (fail check by default) -template struct is_bool : std::false_type {}; - -/// Check to see if something is bool (true if actually a bool) -template <> struct is_bool : std::true_type {}; - -/// Check to see if something is a shared pointer -template struct is_shared_ptr : std::false_type {}; - -/// Check to see if something is a shared pointer (True if really a shared pointer) -template struct is_shared_ptr> : std::true_type {}; - -/// Check to see if something is a shared pointer (True if really a shared pointer) -template struct is_shared_ptr> : std::true_type {}; - -/// Check to see if something is copyable pointer -template struct is_copyable_ptr { - static bool const value = is_shared_ptr::value || std::is_pointer::value; -}; - -/// This can be specialized to override the type deduction for IsMember. -template struct IsMemberType { - using type = T; -}; - -/// The main custom type needed here is const char * should be a string. -template <> struct IsMemberType { - using type = std::string; -}; - -namespace detail { - -// These are utilities for IsMember and other transforming objects - -/// Handy helper to access the element_type generically. This is not part of is_copyable_ptr because it requires that -/// pointer_traits be valid. - -/// not a pointer -template struct element_type { - using type = T; -}; - -template struct element_type::value>::type> { - using type = typename std::pointer_traits::element_type; -}; - -/// Combination of the element type and value type - remove pointer (including smart pointers) and get the value_type of -/// the container -template struct element_value_type { - using type = typename element_type::type::value_type; -}; - -/// Adaptor for set-like structure: This just wraps a normal container in a few utilities that do almost nothing. -template struct pair_adaptor : std::false_type { - using value_type = typename T::value_type; - using first_type = typename std::remove_const::type; - using second_type = typename std::remove_const::type; - - /// Get the first value (really just the underlying value) - template static auto first(Q &&pair_value) -> decltype(std::forward(pair_value)) { - return std::forward(pair_value); - } - /// Get the second value (really just the underlying value) - template static auto second(Q &&pair_value) -> decltype(std::forward(pair_value)) { - return std::forward(pair_value); - } -}; - -/// Adaptor for map-like structure (true version, must have key_type and mapped_type). -/// This wraps a mapped container in a few utilities access it in a general way. -template -struct pair_adaptor< - T, - conditional_t, void>> - : std::true_type { - using value_type = typename T::value_type; - using first_type = typename std::remove_const::type; - using second_type = typename std::remove_const::type; - - /// Get the first value (really just the underlying value) - template static auto first(Q &&pair_value) -> decltype(std::get<0>(std::forward(pair_value))) { - return std::get<0>(std::forward(pair_value)); - } - /// Get the second value (really just the underlying value) - template static auto second(Q &&pair_value) -> decltype(std::get<1>(std::forward(pair_value))) { - return std::get<1>(std::forward(pair_value)); - } -}; - -// Warning is suppressed due to "bug" in gcc<5.0 and gcc 7.0 with c++17 enabled that generates a Wnarrowing warning -// in the unevaluated context even if the function that was using this wasn't used. The standard says narrowing in -// brace initialization shouldn't be allowed but for backwards compatibility gcc allows it in some contexts. It is a -// little fuzzy what happens in template constructs and I think that was something GCC took a little while to work out. -// But regardless some versions of gcc generate a warning when they shouldn't from the following code so that should be -// suppressed -#ifdef __GNUC__ -#pragma GCC diagnostic push -#pragma GCC diagnostic ignored "-Wnarrowing" -#endif -// check for constructibility from a specific type and copy assignable used in the parse detection -template class is_direct_constructible { - template - static auto test(int, std::true_type) -> decltype( -// NVCC warns about narrowing conversions here -#ifdef __CUDACC__ -#ifdef __NVCC_DIAG_PRAGMA_SUPPORT__ -#pragma nv_diag_suppress 2361 -#else -#pragma diag_suppress 2361 -#endif -#endif - TT{std::declval()} -#ifdef __CUDACC__ -#ifdef __NVCC_DIAG_PRAGMA_SUPPORT__ -#pragma nv_diag_default 2361 -#else -#pragma diag_default 2361 -#endif -#endif - , - std::is_move_assignable()); - - template static auto test(int, std::false_type) -> std::false_type; - - template static auto test(...) -> std::false_type; - - public: - static constexpr bool value = decltype(test(0, typename std::is_constructible::type()))::value; -}; -#ifdef __GNUC__ -#pragma GCC diagnostic pop -#endif - -// Check for output streamability -// Based on https://stackoverflow.com/questions/22758291/how-can-i-detect-if-a-type-can-be-streamed-to-an-stdostream - -template class is_ostreamable { - template - static auto test(int) -> decltype(std::declval() << std::declval(), std::true_type()); - - template static auto test(...) -> std::false_type; - - public: - static constexpr bool value = decltype(test(0))::value; -}; - -/// Check for input streamability -template class is_istreamable { - template - static auto test(int) -> decltype(std::declval() >> std::declval(), std::true_type()); - - template static auto test(...) -> std::false_type; - - public: - static constexpr bool value = decltype(test(0))::value; -}; - -/// Check for complex -template class is_complex { - template - static auto test(int) -> decltype(std::declval().real(), std::declval().imag(), std::true_type()); - - template static auto test(...) -> std::false_type; - - public: - static constexpr bool value = decltype(test(0))::value; -}; - -/// Templated operation to get a value from a stream -template ::value, detail::enabler> = detail::dummy> -bool from_stream(const std::string &istring, T &obj) { - std::istringstream is; - is.str(istring); - is >> obj; - return !is.fail() && !is.rdbuf()->in_avail(); -} - -template ::value, detail::enabler> = detail::dummy> -bool from_stream(const std::string & /*istring*/, T & /*obj*/) { - return false; -} - -// check to see if an object is a mutable container (fail by default) -template struct is_mutable_container : std::false_type {}; - -/// type trait to test if a type is a mutable container meaning it has a value_type, it has an iterator, a clear, and -/// end methods and an insert function. And for our purposes we exclude std::string and types that can be constructed -/// from a std::string -template -struct is_mutable_container< - T, - conditional_t().end()), - decltype(std::declval().clear()), - decltype(std::declval().insert(std::declval().end())>(), - std::declval()))>, - void>> : public conditional_t::value || - std::is_constructible::value, - std::false_type, - std::true_type> {}; - -// check to see if an object is a mutable container (fail by default) -template struct is_readable_container : std::false_type {}; - -/// type trait to test if a type is a container meaning it has a value_type, it has an iterator, a clear, and an end -/// methods and an insert function. And for our purposes we exclude std::string and types that can be constructed from -/// a std::string -template -struct is_readable_container< - T, - conditional_t().end()), decltype(std::declval().begin())>, void>> - : public std::true_type {}; - -// check to see if an object is a wrapper (fail by default) -template struct is_wrapper : std::false_type {}; - -// check if an object is a wrapper (it has a value_type defined) -template -struct is_wrapper, void>> : public std::true_type {}; - -// Check for tuple like types, as in classes with a tuple_size type trait -template class is_tuple_like { - template - // static auto test(int) - // -> decltype(std::conditional<(std::tuple_size::value > 0), std::true_type, std::false_type>::type()); - static auto test(int) -> decltype(std::tuple_size::type>::value, std::true_type{}); - template static auto test(...) -> std::false_type; - - public: - static constexpr bool value = decltype(test(0))::value; -}; - -/// Convert an object to a string (directly forward if this can become a string) -template ::value, detail::enabler> = detail::dummy> -auto to_string(T &&value) -> decltype(std::forward(value)) { - return std::forward(value); -} - -/// Construct a string from the object -template ::value && !std::is_convertible::value, - detail::enabler> = detail::dummy> -std::string to_string(const T &value) { - return std::string(value); // NOLINT(google-readability-casting) -} - -/// Convert an object to a string (streaming must be supported for that type) -template ::value && !std::is_constructible::value && - is_ostreamable::value, - detail::enabler> = detail::dummy> -std::string to_string(T &&value) { - std::stringstream stream; - stream << value; - return stream.str(); -} - -/// If conversion is not supported, return an empty string (streaming is not supported for that type) -template ::value && !is_ostreamable::value && - !is_readable_container::type>::value, - detail::enabler> = detail::dummy> -std::string to_string(T &&) { - return {}; -} - -/// convert a readable container to a string -template ::value && !is_ostreamable::value && - is_readable_container::value, - detail::enabler> = detail::dummy> -std::string to_string(T &&variable) { - auto cval = variable.begin(); - auto end = variable.end(); - if(cval == end) { - return {"{}"}; - } - std::vector defaults; - while(cval != end) { - defaults.emplace_back(CLI::detail::to_string(*cval)); - ++cval; - } - return {"[" + detail::join(defaults) + "]"}; -} - -/// special template overload -template ::value, detail::enabler> = detail::dummy> -auto checked_to_string(T &&value) -> decltype(to_string(std::forward(value))) { - return to_string(std::forward(value)); -} - -/// special template overload -template ::value, detail::enabler> = detail::dummy> -std::string checked_to_string(T &&) { - return std::string{}; -} -/// get a string as a convertible value for arithmetic types -template ::value, detail::enabler> = detail::dummy> -std::string value_string(const T &value) { - return std::to_string(value); -} -/// get a string as a convertible value for enumerations -template ::value, detail::enabler> = detail::dummy> -std::string value_string(const T &value) { - return std::to_string(static_cast::type>(value)); -} -/// for other types just use the regular to_string function -template ::value && !std::is_arithmetic::value, detail::enabler> = detail::dummy> -auto value_string(const T &value) -> decltype(to_string(value)) { - return to_string(value); -} - -/// template to get the underlying value type if it exists or use a default -template struct wrapped_type { - using type = def; -}; - -/// Type size for regular object types that do not look like a tuple -template struct wrapped_type::value>::type> { - using type = typename T::value_type; -}; - -/// This will only trigger for actual void type -template struct type_count_base { - static const int value{0}; -}; - -/// Type size for regular object types that do not look like a tuple -template -struct type_count_base::value && !is_mutable_container::value && - !std::is_void::value>::type> { - static constexpr int value{1}; -}; - -/// the base tuple size -template -struct type_count_base::value && !is_mutable_container::value>::type> { - static constexpr int value{std::tuple_size::value}; -}; - -/// Type count base for containers is the type_count_base of the individual element -template struct type_count_base::value>::type> { - static constexpr int value{type_count_base::value}; -}; - -/// Set of overloads to get the type size of an object - -/// forward declare the subtype_count structure -template struct subtype_count; - -/// forward declare the subtype_count_min structure -template struct subtype_count_min; - -/// This will only trigger for actual void type -template struct type_count { - static const int value{0}; -}; - -/// Type size for regular object types that do not look like a tuple -template -struct type_count::value && !is_tuple_like::value && !is_complex::value && - !std::is_void::value>::type> { - static constexpr int value{1}; -}; - -/// Type size for complex since it sometimes looks like a wrapper -template struct type_count::value>::type> { - static constexpr int value{2}; -}; - -/// Type size of types that are wrappers,except complex and tuples(which can also be wrappers sometimes) -template struct type_count::value>::type> { - static constexpr int value{subtype_count::value}; -}; - -/// Type size of types that are wrappers,except containers complex and tuples(which can also be wrappers sometimes) -template -struct type_count::value && !is_complex::value && !is_tuple_like::value && - !is_mutable_container::value>::type> { - static constexpr int value{type_count::value}; -}; - -/// 0 if the index > tuple size -template -constexpr typename std::enable_if::value, int>::type tuple_type_size() { - return 0; -} - -/// Recursively generate the tuple type name -template - constexpr typename std::enable_if < I::value, int>::type tuple_type_size() { - return subtype_count::type>::value + tuple_type_size(); -} - -/// Get the type size of the sum of type sizes for all the individual tuple types -template struct type_count::value>::type> { - static constexpr int value{tuple_type_size()}; -}; - -/// definition of subtype count -template struct subtype_count { - static constexpr int value{is_mutable_container::value ? expected_max_vector_size : type_count::value}; -}; - -/// This will only trigger for actual void type -template struct type_count_min { - static const int value{0}; -}; - -/// Type size for regular object types that do not look like a tuple -template -struct type_count_min< - T, - typename std::enable_if::value && !is_tuple_like::value && !is_wrapper::value && - !is_complex::value && !std::is_void::value>::type> { - static constexpr int value{type_count::value}; -}; - -/// Type size for complex since it sometimes looks like a wrapper -template struct type_count_min::value>::type> { - static constexpr int value{1}; -}; - -/// Type size min of types that are wrappers,except complex and tuples(which can also be wrappers sometimes) -template -struct type_count_min< - T, - typename std::enable_if::value && !is_complex::value && !is_tuple_like::value>::type> { - static constexpr int value{subtype_count_min::value}; -}; - -/// 0 if the index > tuple size -template -constexpr typename std::enable_if::value, int>::type tuple_type_size_min() { - return 0; -} - -/// Recursively generate the tuple type name -template - constexpr typename std::enable_if < I::value, int>::type tuple_type_size_min() { - return subtype_count_min::type>::value + tuple_type_size_min(); -} - -/// Get the type size of the sum of type sizes for all the individual tuple types -template struct type_count_min::value>::type> { - static constexpr int value{tuple_type_size_min()}; -}; - -/// definition of subtype count -template struct subtype_count_min { - static constexpr int value{is_mutable_container::value - ? ((type_count::value < expected_max_vector_size) ? type_count::value : 0) - : type_count_min::value}; -}; - -/// This will only trigger for actual void type -template struct expected_count { - static const int value{0}; -}; - -/// For most types the number of expected items is 1 -template -struct expected_count::value && !is_wrapper::value && - !std::is_void::value>::type> { - static constexpr int value{1}; -}; -/// number of expected items in a vector -template struct expected_count::value>::type> { - static constexpr int value{expected_max_vector_size}; -}; - -/// number of expected items in a vector -template -struct expected_count::value && is_wrapper::value>::type> { - static constexpr int value{expected_count::value}; -}; - -// Enumeration of the different supported categorizations of objects -enum class object_category : int { - char_value = 1, - integral_value = 2, - unsigned_integral = 4, - enumeration = 6, - boolean_value = 8, - floating_point = 10, - number_constructible = 12, - double_constructible = 14, - integer_constructible = 16, - // string like types - string_assignable = 23, - string_constructible = 24, - wstring_assignable = 25, - wstring_constructible = 26, - other = 45, - // special wrapper or container types - wrapper_value = 50, - complex_number = 60, - tuple_value = 70, - container_value = 80, - -}; - -/// Set of overloads to classify an object according to type - -/// some type that is not otherwise recognized -template struct classify_object { - static constexpr object_category value{object_category::other}; -}; - -/// Signed integers -template -struct classify_object< - T, - typename std::enable_if::value && !std::is_same::value && std::is_signed::value && - !is_bool::value && !std::is_enum::value>::type> { - static constexpr object_category value{object_category::integral_value}; -}; - -/// Unsigned integers -template -struct classify_object::value && std::is_unsigned::value && - !std::is_same::value && !is_bool::value>::type> { - static constexpr object_category value{object_category::unsigned_integral}; -}; - -/// single character values -template -struct classify_object::value && !std::is_enum::value>::type> { - static constexpr object_category value{object_category::char_value}; -}; - -/// Boolean values -template struct classify_object::value>::type> { - static constexpr object_category value{object_category::boolean_value}; -}; - -/// Floats -template struct classify_object::value>::type> { - static constexpr object_category value{object_category::floating_point}; -}; -#if defined _MSC_VER -// in MSVC wstring should take precedence if available this isn't as useful on other compilers due to the broader use of -// utf-8 encoding -#define WIDE_STRING_CHECK \ - !std::is_assignable::value && !std::is_constructible::value -#define STRING_CHECK true -#else -#define WIDE_STRING_CHECK true -#define STRING_CHECK !std::is_assignable::value && !std::is_constructible::value -#endif - -/// String and similar direct assignment -template -struct classify_object< - T, - typename std::enable_if::value && !std::is_integral::value && WIDE_STRING_CHECK && - std::is_assignable::value>::type> { - static constexpr object_category value{object_category::string_assignable}; -}; - -/// String and similar constructible and copy assignment -template -struct classify_object< - T, - typename std::enable_if::value && !std::is_integral::value && - !std::is_assignable::value && (type_count::value == 1) && - WIDE_STRING_CHECK && std::is_constructible::value>::type> { - static constexpr object_category value{object_category::string_constructible}; -}; - -/// Wide strings -template -struct classify_object::value && !std::is_integral::value && - STRING_CHECK && std::is_assignable::value>::type> { - static constexpr object_category value{object_category::wstring_assignable}; -}; - -template -struct classify_object< - T, - typename std::enable_if::value && !std::is_integral::value && - !std::is_assignable::value && (type_count::value == 1) && - STRING_CHECK && std::is_constructible::value>::type> { - static constexpr object_category value{object_category::wstring_constructible}; -}; - -/// Enumerations -template struct classify_object::value>::type> { - static constexpr object_category value{object_category::enumeration}; -}; - -template struct classify_object::value>::type> { - static constexpr object_category value{object_category::complex_number}; -}; - -/// Handy helper to contain a bunch of checks that rule out many common types (integers, string like, floating point, -/// vectors, and enumerations -template struct uncommon_type { - using type = typename std::conditional< - !std::is_floating_point::value && !std::is_integral::value && - !std::is_assignable::value && !std::is_constructible::value && - !std::is_assignable::value && !std::is_constructible::value && - !is_complex::value && !is_mutable_container::value && !std::is_enum::value, - std::true_type, - std::false_type>::type; - static constexpr bool value = type::value; -}; - -/// wrapper type -template -struct classify_object::value && is_wrapper::value && - !is_tuple_like::value && uncommon_type::value)>::type> { - static constexpr object_category value{object_category::wrapper_value}; -}; - -/// Assignable from double or int -template -struct classify_object::value && type_count::value == 1 && - !is_wrapper::value && is_direct_constructible::value && - is_direct_constructible::value>::type> { - static constexpr object_category value{object_category::number_constructible}; -}; - -/// Assignable from int -template -struct classify_object::value && type_count::value == 1 && - !is_wrapper::value && !is_direct_constructible::value && - is_direct_constructible::value>::type> { - static constexpr object_category value{object_category::integer_constructible}; -}; - -/// Assignable from double -template -struct classify_object::value && type_count::value == 1 && - !is_wrapper::value && is_direct_constructible::value && - !is_direct_constructible::value>::type> { - static constexpr object_category value{object_category::double_constructible}; -}; - -/// Tuple type -template -struct classify_object< - T, - typename std::enable_if::value && - ((type_count::value >= 2 && !is_wrapper::value) || - (uncommon_type::value && !is_direct_constructible::value && - !is_direct_constructible::value) || - (uncommon_type::value && type_count::value >= 2))>::type> { - static constexpr object_category value{object_category::tuple_value}; - // the condition on this class requires it be like a tuple, but on some compilers (like Xcode) tuples can be - // constructed from just the first element so tuples of can be constructed from a string, which - // could lead to issues so there are two variants of the condition, the first isolates things with a type size >=2 - // mainly to get tuples on Xcode with the exception of wrappers, the second is the main one and just separating out - // those cases that are caught by other object classifications -}; - -/// container type -template struct classify_object::value>::type> { - static constexpr object_category value{object_category::container_value}; -}; - -// Type name print - -/// Was going to be based on -/// http://stackoverflow.com/questions/1055452/c-get-name-of-type-in-template -/// But this is cleaner and works better in this case - -template ::value == object_category::char_value, detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "CHAR"; -} - -template ::value == object_category::integral_value || - classify_object::value == object_category::integer_constructible, - detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "INT"; -} - -template ::value == object_category::unsigned_integral, detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "UINT"; -} - -template ::value == object_category::floating_point || - classify_object::value == object_category::number_constructible || - classify_object::value == object_category::double_constructible, - detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "FLOAT"; -} - -/// Print name for enumeration types -template ::value == object_category::enumeration, detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "ENUM"; -} - -/// Print name for enumeration types -template ::value == object_category::boolean_value, detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "BOOLEAN"; -} - -/// Print name for enumeration types -template ::value == object_category::complex_number, detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "COMPLEX"; -} - -/// Print for all other types -template ::value >= object_category::string_assignable && - classify_object::value <= object_category::other, - detail::enabler> = detail::dummy> -constexpr const char *type_name() { - return "TEXT"; -} -/// typename for tuple value -template ::value == object_category::tuple_value && type_count_base::value >= 2, - detail::enabler> = detail::dummy> -std::string type_name(); // forward declaration - -/// Generate type name for a wrapper or container value -template ::value == object_category::container_value || - classify_object::value == object_category::wrapper_value, - detail::enabler> = detail::dummy> -std::string type_name(); // forward declaration - -/// Print name for single element tuple types -template ::value == object_category::tuple_value && type_count_base::value == 1, - detail::enabler> = detail::dummy> -inline std::string type_name() { - return type_name::type>::type>(); -} - -/// Empty string if the index > tuple size -template -inline typename std::enable_if::value, std::string>::type tuple_name() { - return std::string{}; -} - -/// Recursively generate the tuple type name -template -inline typename std::enable_if<(I < type_count_base::value), std::string>::type tuple_name() { - auto str = std::string{type_name::type>::type>()} + ',' + - tuple_name(); - if(str.back() == ',') - str.pop_back(); - return str; -} - -/// Print type name for tuples with 2 or more elements -template ::value == object_category::tuple_value && type_count_base::value >= 2, - detail::enabler>> -inline std::string type_name() { - auto tname = std::string(1, '[') + tuple_name(); - tname.push_back(']'); - return tname; -} - -/// get the type name for a type that has a value_type member -template ::value == object_category::container_value || - classify_object::value == object_category::wrapper_value, - detail::enabler>> -inline std::string type_name() { - return type_name(); -} - -// Lexical cast - -/// Convert to an unsigned integral -template ::value, detail::enabler> = detail::dummy> -bool integral_conversion(const std::string &input, T &output) noexcept { - if(input.empty() || input.front() == '-') { - return false; - } - char *val{nullptr}; - errno = 0; - std::uint64_t output_ll = std::strtoull(input.c_str(), &val, 0); - if(errno == ERANGE) { - return false; - } - output = static_cast(output_ll); - if(val == (input.c_str() + input.size()) && static_cast(output) == output_ll) { - return true; - } - val = nullptr; - std::int64_t output_sll = std::strtoll(input.c_str(), &val, 0); - if(val == (input.c_str() + input.size())) { - output = (output_sll < 0) ? static_cast(0) : static_cast(output_sll); - return (static_cast(output) == output_sll); - } - // remove separators - if(input.find_first_of("_'") != std::string::npos) { - std::string nstring = input; - nstring.erase(std::remove(nstring.begin(), nstring.end(), '_'), nstring.end()); - nstring.erase(std::remove(nstring.begin(), nstring.end(), '\''), nstring.end()); - return integral_conversion(nstring, output); - } - if(input.compare(0, 2, "0o") == 0) { - val = nullptr; - errno = 0; - output_ll = std::strtoull(input.c_str() + 2, &val, 8); - if(errno == ERANGE) { - return false; - } - output = static_cast(output_ll); - return (val == (input.c_str() + input.size()) && static_cast(output) == output_ll); - } - if(input.compare(0, 2, "0b") == 0) { - val = nullptr; - errno = 0; - output_ll = std::strtoull(input.c_str() + 2, &val, 2); - if(errno == ERANGE) { - return false; - } - output = static_cast(output_ll); - return (val == (input.c_str() + input.size()) && static_cast(output) == output_ll); - } - return false; -} - -/// Convert to a signed integral -template ::value, detail::enabler> = detail::dummy> -bool integral_conversion(const std::string &input, T &output) noexcept { - if(input.empty()) { - return false; - } - char *val = nullptr; - errno = 0; - std::int64_t output_ll = std::strtoll(input.c_str(), &val, 0); - if(errno == ERANGE) { - return false; - } - output = static_cast(output_ll); - if(val == (input.c_str() + input.size()) && static_cast(output) == output_ll) { - return true; - } - if(input == "true") { - // this is to deal with a few oddities with flags and wrapper int types - output = static_cast(1); - return true; - } - // remove separators - if(input.find_first_of("_'") != std::string::npos) { - std::string nstring = input; - nstring.erase(std::remove(nstring.begin(), nstring.end(), '_'), nstring.end()); - nstring.erase(std::remove(nstring.begin(), nstring.end(), '\''), nstring.end()); - return integral_conversion(nstring, output); - } - if(input.compare(0, 2, "0o") == 0) { - val = nullptr; - errno = 0; - output_ll = std::strtoll(input.c_str() + 2, &val, 8); - if(errno == ERANGE) { - return false; - } - output = static_cast(output_ll); - return (val == (input.c_str() + input.size()) && static_cast(output) == output_ll); - } - if(input.compare(0, 2, "0b") == 0) { - val = nullptr; - errno = 0; - output_ll = std::strtoll(input.c_str() + 2, &val, 2); - if(errno == ERANGE) { - return false; - } - output = static_cast(output_ll); - return (val == (input.c_str() + input.size()) && static_cast(output) == output_ll); - } - return false; -} - -/// Convert a flag into an integer value typically binary flags sets errno to nonzero if conversion failed -inline std::int64_t to_flag_value(std::string val) noexcept { - static const std::string trueString("true"); - static const std::string falseString("false"); - if(val == trueString) { - return 1; - } - if(val == falseString) { - return -1; - } - val = detail::to_lower(val); - std::int64_t ret = 0; - if(val.size() == 1) { - if(val[0] >= '1' && val[0] <= '9') { - return (static_cast(val[0]) - '0'); - } - switch(val[0]) { - case '0': - case 'f': - case 'n': - case '-': - ret = -1; - break; - case 't': - case 'y': - case '+': - ret = 1; - break; - default: - errno = EINVAL; - return -1; - } - return ret; - } - if(val == trueString || val == "on" || val == "yes" || val == "enable") { - ret = 1; - } else if(val == falseString || val == "off" || val == "no" || val == "disable") { - ret = -1; - } else { - char *loc_ptr{nullptr}; - ret = std::strtoll(val.c_str(), &loc_ptr, 0); - if(loc_ptr != (val.c_str() + val.size()) && errno == 0) { - errno = EINVAL; - } - } - return ret; -} - -/// Integer conversion -template ::value == object_category::integral_value || - classify_object::value == object_category::unsigned_integral, - detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - return integral_conversion(input, output); -} - -/// char values -template ::value == object_category::char_value, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - if(input.size() == 1) { - output = static_cast(input[0]); - return true; - } - return integral_conversion(input, output); -} - -/// Boolean values -template ::value == object_category::boolean_value, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - errno = 0; - auto out = to_flag_value(input); - if(errno == 0) { - output = (out > 0); - } else if(errno == ERANGE) { - output = (input[0] != '-'); - } else { - return false; - } - return true; -} - -/// Floats -template ::value == object_category::floating_point, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - if(input.empty()) { - return false; - } - char *val = nullptr; - auto output_ld = std::strtold(input.c_str(), &val); - output = static_cast(output_ld); - if(val == (input.c_str() + input.size())) { - return true; - } - // remove separators - if(input.find_first_of("_'") != std::string::npos) { - std::string nstring = input; - nstring.erase(std::remove(nstring.begin(), nstring.end(), '_'), nstring.end()); - nstring.erase(std::remove(nstring.begin(), nstring.end(), '\''), nstring.end()); - return lexical_cast(nstring, output); - } - return false; -} - -/// complex -template ::value == object_category::complex_number, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - using XC = typename wrapped_type::type; - XC x{0.0}, y{0.0}; - auto str1 = input; - bool worked = false; - auto nloc = str1.find_last_of("+-"); - if(nloc != std::string::npos && nloc > 0) { - worked = lexical_cast(str1.substr(0, nloc), x); - str1 = str1.substr(nloc); - if(str1.back() == 'i' || str1.back() == 'j') - str1.pop_back(); - worked = worked && lexical_cast(str1, y); - } else { - if(str1.back() == 'i' || str1.back() == 'j') { - str1.pop_back(); - worked = lexical_cast(str1, y); - x = XC{0}; - } else { - worked = lexical_cast(str1, x); - y = XC{0}; - } - } - if(worked) { - output = T{x, y}; - return worked; - } - return from_stream(input, output); -} - -/// String and similar direct assignment -template ::value == object_category::string_assignable, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - output = input; - return true; -} - -/// String and similar constructible and copy assignment -template < - typename T, - enable_if_t::value == object_category::string_constructible, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - output = T(input); - return true; -} - -/// Wide strings -template < - typename T, - enable_if_t::value == object_category::wstring_assignable, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - output = widen(input); - return true; -} - -template < - typename T, - enable_if_t::value == object_category::wstring_constructible, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - output = T{widen(input)}; - return true; -} - -/// Enumerations -template ::value == object_category::enumeration, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - typename std::underlying_type::type val; - if(!integral_conversion(input, val)) { - return false; - } - output = static_cast(val); - return true; -} - -/// wrapper types -template ::value == object_category::wrapper_value && - std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - typename T::value_type val; - if(lexical_cast(input, val)) { - output = val; - return true; - } - return from_stream(input, output); -} - -template ::value == object_category::wrapper_value && - !std::is_assignable::value && std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - typename T::value_type val; - if(lexical_cast(input, val)) { - output = T{val}; - return true; - } - return from_stream(input, output); -} - -/// Assignable from double or int -template < - typename T, - enable_if_t::value == object_category::number_constructible, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - int val = 0; - if(integral_conversion(input, val)) { - output = T(val); - return true; - } - - double dval = 0.0; - if(lexical_cast(input, dval)) { - output = T{dval}; - return true; - } - - return from_stream(input, output); -} - -/// Assignable from int -template < - typename T, - enable_if_t::value == object_category::integer_constructible, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - int val = 0; - if(integral_conversion(input, val)) { - output = T(val); - return true; - } - return from_stream(input, output); -} - -/// Assignable from double -template < - typename T, - enable_if_t::value == object_category::double_constructible, detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - double val = 0.0; - if(lexical_cast(input, val)) { - output = T{val}; - return true; - } - return from_stream(input, output); -} - -/// Non-string convertible from an int -template ::value == object_category::other && std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - int val = 0; - if(integral_conversion(input, val)) { -#ifdef _MSC_VER -#pragma warning(push) -#pragma warning(disable : 4800) -#endif - // with Atomic this could produce a warning due to the conversion but if atomic gets here it is an old style - // so will most likely still work - output = val; -#ifdef _MSC_VER -#pragma warning(pop) -#endif - return true; - } - // LCOV_EXCL_START - // This version of cast is only used for odd cases in an older compilers the fail over - // from_stream is tested elsewhere an not relevant for coverage here - return from_stream(input, output); - // LCOV_EXCL_STOP -} - -/// Non-string parsable by a stream -template ::value == object_category::other && !std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_cast(const std::string &input, T &output) { - static_assert(is_istreamable::value, - "option object type must have a lexical cast overload or streaming input operator(>>) defined, if it " - "is convertible from another type use the add_option(...) with XC being the known type"); - return from_stream(input, output); -} - -/// Assign a value through lexical cast operations -/// Strings can be empty so we need to do a little different -template ::value && - (classify_object::value == object_category::string_assignable || - classify_object::value == object_category::string_constructible || - classify_object::value == object_category::wstring_assignable || - classify_object::value == object_category::wstring_constructible), - detail::enabler> = detail::dummy> -bool lexical_assign(const std::string &input, AssignTo &output) { - return lexical_cast(input, output); -} - -/// Assign a value through lexical cast operations -template ::value && std::is_assignable::value && - classify_object::value != object_category::string_assignable && - classify_object::value != object_category::string_constructible && - classify_object::value != object_category::wstring_assignable && - classify_object::value != object_category::wstring_constructible, - detail::enabler> = detail::dummy> -bool lexical_assign(const std::string &input, AssignTo &output) { - if(input.empty()) { - output = AssignTo{}; - return true; - } - - return lexical_cast(input, output); -} - -/// Assign a value through lexical cast operations -template ::value && !std::is_assignable::value && - classify_object::value == object_category::wrapper_value, - detail::enabler> = detail::dummy> -bool lexical_assign(const std::string &input, AssignTo &output) { - if(input.empty()) { - typename AssignTo::value_type emptyVal{}; - output = emptyVal; - return true; - } - return lexical_cast(input, output); -} - -/// Assign a value through lexical cast operations for int compatible values -/// mainly for atomic operations on some compilers -template ::value && !std::is_assignable::value && - classify_object::value != object_category::wrapper_value && - std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_assign(const std::string &input, AssignTo &output) { - if(input.empty()) { - output = 0; - return true; - } - int val{0}; - if(lexical_cast(input, val)) { -#if defined(__clang__) -/* on some older clang compilers */ -#pragma clang diagnostic push -#pragma clang diagnostic ignored "-Wsign-conversion" -#endif - output = val; -#if defined(__clang__) -#pragma clang diagnostic pop -#endif - return true; - } - return false; -} - -/// Assign a value converted from a string in lexical cast to the output value directly -template ::value && std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_assign(const std::string &input, AssignTo &output) { - ConvertTo val{}; - bool parse_result = (!input.empty()) ? lexical_cast(input, val) : true; - if(parse_result) { - output = val; - } - return parse_result; -} - -/// Assign a value from a lexical cast through constructing a value and move assigning it -template < - typename AssignTo, - typename ConvertTo, - enable_if_t::value && !std::is_assignable::value && - std::is_move_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_assign(const std::string &input, AssignTo &output) { - ConvertTo val{}; - bool parse_result = input.empty() ? true : lexical_cast(input, val); - if(parse_result) { - output = AssignTo(val); // use () form of constructor to allow some implicit conversions - } - return parse_result; -} - -/// primary lexical conversion operation, 1 string to 1 type of some kind -template ::value <= object_category::other && - classify_object::value <= object_category::wrapper_value, - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - return lexical_assign(strings[0], output); -} - -/// Lexical conversion if there is only one element but the conversion type is for two, then call a two element -/// constructor -template ::value <= 2) && expected_count::value == 1 && - is_tuple_like::value && type_count_base::value == 2, - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - // the remove const is to handle pair types coming from a container - using FirstType = typename std::remove_const::type>::type; - using SecondType = typename std::tuple_element<1, ConvertTo>::type; - FirstType v1; - SecondType v2; - bool retval = lexical_assign(strings[0], v1); - retval = retval && lexical_assign((strings.size() > 1) ? strings[1] : std::string{}, v2); - if(retval) { - output = AssignTo{v1, v2}; - } - return retval; -} - -/// Lexical conversion of a container types of single elements -template ::value && is_mutable_container::value && - type_count::value == 1, - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - output.erase(output.begin(), output.end()); - if(strings.empty()) { - return true; - } - if(strings.size() == 1 && strings[0] == "{}") { - return true; - } - bool skip_remaining = false; - if(strings.size() == 2 && strings[0] == "{}" && is_separator(strings[1])) { - skip_remaining = true; - } - for(const auto &elem : strings) { - typename AssignTo::value_type out; - bool retval = lexical_assign(elem, out); - if(!retval) { - return false; - } - output.insert(output.end(), std::move(out)); - if(skip_remaining) { - break; - } - } - return (!output.empty()); -} - -/// Lexical conversion for complex types -template ::value, detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - - if(strings.size() >= 2 && !strings[1].empty()) { - using XC2 = typename wrapped_type::type; - XC2 x{0.0}, y{0.0}; - auto str1 = strings[1]; - if(str1.back() == 'i' || str1.back() == 'j') { - str1.pop_back(); - } - auto worked = lexical_cast(strings[0], x) && lexical_cast(str1, y); - if(worked) { - output = ConvertTo{x, y}; - } - return worked; - } - return lexical_assign(strings[0], output); -} - -/// Conversion to a vector type using a particular single type as the conversion type -template ::value && (expected_count::value == 1) && - (type_count::value == 1), - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - bool retval = true; - output.clear(); - output.reserve(strings.size()); - for(const auto &elem : strings) { - - output.emplace_back(); - retval = retval && lexical_assign(elem, output.back()); - } - return (!output.empty()) && retval; -} - -// forward declaration - -/// Lexical conversion of a container types with conversion type of two elements -template ::value && is_mutable_container::value && - type_count_base::value == 2, - detail::enabler> = detail::dummy> -bool lexical_conversion(std::vector strings, AssignTo &output); - -/// Lexical conversion of a vector types with type_size >2 forward declaration -template ::value && is_mutable_container::value && - type_count_base::value != 2 && - ((type_count::value > 2) || - (type_count::value > type_count_base::value)), - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output); - -/// Conversion for tuples -template ::value && is_tuple_like::value && - (type_count_base::value != type_count::value || - type_count::value > 2), - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output); // forward declaration - -/// Conversion for operations where the assigned type is some class but the conversion is a mutable container or large -/// tuple -template ::value && !is_mutable_container::value && - classify_object::value != object_category::wrapper_value && - (is_mutable_container::value || type_count::value > 2), - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - - if(strings.size() > 1 || (!strings.empty() && !(strings.front().empty()))) { - ConvertTo val; - auto retval = lexical_conversion(strings, val); - output = AssignTo{val}; - return retval; - } - output = AssignTo{}; - return true; -} - -/// function template for converting tuples if the static Index is greater than the tuple size -template -inline typename std::enable_if<(I >= type_count_base::value), bool>::type -tuple_conversion(const std::vector &, AssignTo &) { - return true; -} - -/// Conversion of a tuple element where the type size ==1 and not a mutable container -template -inline typename std::enable_if::value && type_count::value == 1, bool>::type -tuple_type_conversion(std::vector &strings, AssignTo &output) { - auto retval = lexical_assign(strings[0], output); - strings.erase(strings.begin()); - return retval; -} - -/// Conversion of a tuple element where the type size !=1 but the size is fixed and not a mutable container -template -inline typename std::enable_if::value && (type_count::value > 1) && - type_count::value == type_count_min::value, - bool>::type -tuple_type_conversion(std::vector &strings, AssignTo &output) { - auto retval = lexical_conversion(strings, output); - strings.erase(strings.begin(), strings.begin() + type_count::value); - return retval; -} - -/// Conversion of a tuple element where the type is a mutable container or a type with different min and max type sizes -template -inline typename std::enable_if::value || - type_count::value != type_count_min::value, - bool>::type -tuple_type_conversion(std::vector &strings, AssignTo &output) { - - std::size_t index{subtype_count_min::value}; - const std::size_t mx_count{subtype_count::value}; - const std::size_t mx{(std::min)(mx_count, strings.size() - 1)}; - - while(index < mx) { - if(is_separator(strings[index])) { - break; - } - ++index; - } - bool retval = lexical_conversion( - std::vector(strings.begin(), strings.begin() + static_cast(index)), output); - if(strings.size() > index) { - strings.erase(strings.begin(), strings.begin() + static_cast(index) + 1); - } else { - strings.clear(); - } - return retval; -} - -/// Tuple conversion operation -template -inline typename std::enable_if<(I < type_count_base::value), bool>::type -tuple_conversion(std::vector strings, AssignTo &output) { - bool retval = true; - using ConvertToElement = typename std:: - conditional::value, typename std::tuple_element::type, ConvertTo>::type; - if(!strings.empty()) { - retval = retval && tuple_type_conversion::type, ConvertToElement>( - strings, std::get(output)); - } - retval = retval && tuple_conversion(std::move(strings), output); - return retval; -} - -/// Lexical conversion of a container types with tuple elements of size 2 -template ::value && is_mutable_container::value && - type_count_base::value == 2, - detail::enabler>> -bool lexical_conversion(std::vector strings, AssignTo &output) { - output.clear(); - while(!strings.empty()) { - - typename std::remove_const::type>::type v1; - typename std::tuple_element<1, typename ConvertTo::value_type>::type v2; - bool retval = tuple_type_conversion(strings, v1); - if(!strings.empty()) { - retval = retval && tuple_type_conversion(strings, v2); - } - if(retval) { - output.insert(output.end(), typename AssignTo::value_type{v1, v2}); - } else { - return false; - } - } - return (!output.empty()); -} - -/// lexical conversion of tuples with type count>2 or tuples of types of some element with a type size>=2 -template ::value && is_tuple_like::value && - (type_count_base::value != type_count::value || - type_count::value > 2), - detail::enabler>> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - static_assert( - !is_tuple_like::value || type_count_base::value == type_count_base::value, - "if the conversion type is defined as a tuple it must be the same size as the type you are converting to"); - return tuple_conversion(strings, output); -} - -/// Lexical conversion of a vector types for everything but tuples of two elements and types of size 1 -template ::value && is_mutable_container::value && - type_count_base::value != 2 && - ((type_count::value > 2) || - (type_count::value > type_count_base::value)), - detail::enabler>> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - bool retval = true; - output.clear(); - std::vector temp; - std::size_t ii{0}; - std::size_t icount{0}; - std::size_t xcm{type_count::value}; - auto ii_max = strings.size(); - while(ii < ii_max) { - temp.push_back(strings[ii]); - ++ii; - ++icount; - if(icount == xcm || is_separator(temp.back()) || ii == ii_max) { - if(static_cast(xcm) > type_count_min::value && is_separator(temp.back())) { - temp.pop_back(); - } - typename AssignTo::value_type temp_out; - retval = retval && - lexical_conversion(temp, temp_out); - temp.clear(); - if(!retval) { - return false; - } - output.insert(output.end(), std::move(temp_out)); - icount = 0; - } - } - return retval; -} - -/// conversion for wrapper types -template ::value == object_category::wrapper_value && - std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - if(strings.empty() || strings.front().empty()) { - output = ConvertTo{}; - return true; - } - typename ConvertTo::value_type val; - if(lexical_conversion(strings, val)) { - output = ConvertTo{val}; - return true; - } - return false; -} - -/// conversion for wrapper types -template ::value == object_category::wrapper_value && - !std::is_assignable::value, - detail::enabler> = detail::dummy> -bool lexical_conversion(const std::vector &strings, AssignTo &output) { - using ConvertType = typename ConvertTo::value_type; - if(strings.empty() || strings.front().empty()) { - output = ConvertType{}; - return true; - } - ConvertType val; - if(lexical_conversion(strings, val)) { - output = val; - return true; - } - return false; -} - -/// Sum a vector of strings -inline std::string sum_string_vector(const std::vector &values) { - double val{0.0}; - bool fail{false}; - std::string output; - for(const auto &arg : values) { - double tv{0.0}; - auto comp = lexical_cast(arg, tv); - if(!comp) { - errno = 0; - auto fv = detail::to_flag_value(arg); - fail = (errno != 0); - if(fail) { - break; - } - tv = static_cast(fv); - } - val += tv; - } - if(fail) { - for(const auto &arg : values) { - output.append(arg); - } - } else { - std::ostringstream out; - out.precision(16); - out << val; - output = out.str(); - } - return output; -} - -} // namespace detail - - - -namespace detail { - -// Returns false if not a short option. Otherwise, sets opt name and rest and returns true -CLI11_INLINE bool split_short(const std::string ¤t, std::string &name, std::string &rest); - -// Returns false if not a long option. Otherwise, sets opt name and other side of = and returns true -CLI11_INLINE bool split_long(const std::string ¤t, std::string &name, std::string &value); - -// Returns false if not a windows style option. Otherwise, sets opt name and value and returns true -CLI11_INLINE bool split_windows_style(const std::string ¤t, std::string &name, std::string &value); - -// Splits a string into multiple long and short names -CLI11_INLINE std::vector split_names(std::string current); - -/// extract default flag values either {def} or starting with a ! -CLI11_INLINE std::vector> get_default_flag_values(const std::string &str); - -/// Get a vector of short names, one of long names, and a single name -CLI11_INLINE std::tuple, std::vector, std::string> -get_names(const std::vector &input); - -} // namespace detail - - - -namespace detail { - -CLI11_INLINE bool split_short(const std::string ¤t, std::string &name, std::string &rest) { - if(current.size() > 1 && current[0] == '-' && valid_first_char(current[1])) { - name = current.substr(1, 1); - rest = current.substr(2); - return true; - } - return false; -} - -CLI11_INLINE bool split_long(const std::string ¤t, std::string &name, std::string &value) { - if(current.size() > 2 && current.compare(0, 2, "--") == 0 && valid_first_char(current[2])) { - auto loc = current.find_first_of('='); - if(loc != std::string::npos) { - name = current.substr(2, loc - 2); - value = current.substr(loc + 1); - } else { - name = current.substr(2); - value = ""; - } - return true; - } - return false; -} - -CLI11_INLINE bool split_windows_style(const std::string ¤t, std::string &name, std::string &value) { - if(current.size() > 1 && current[0] == '/' && valid_first_char(current[1])) { - auto loc = current.find_first_of(':'); - if(loc != std::string::npos) { - name = current.substr(1, loc - 1); - value = current.substr(loc + 1); - } else { - name = current.substr(1); - value = ""; - } - return true; - } - return false; -} - -CLI11_INLINE std::vector split_names(std::string current) { - std::vector output; - std::size_t val = 0; - while((val = current.find(',')) != std::string::npos) { - output.push_back(trim_copy(current.substr(0, val))); - current = current.substr(val + 1); - } - output.push_back(trim_copy(current)); - return output; -} - -CLI11_INLINE std::vector> get_default_flag_values(const std::string &str) { - std::vector flags = split_names(str); - flags.erase(std::remove_if(flags.begin(), - flags.end(), - [](const std::string &name) { - return ((name.empty()) || (!(((name.find_first_of('{') != std::string::npos) && - (name.back() == '}')) || - (name[0] == '!')))); - }), - flags.end()); - std::vector> output; - output.reserve(flags.size()); - for(auto &flag : flags) { - auto def_start = flag.find_first_of('{'); - std::string defval = "false"; - if((def_start != std::string::npos) && (flag.back() == '}')) { - defval = flag.substr(def_start + 1); - defval.pop_back(); - flag.erase(def_start, std::string::npos); // NOLINT(readability-suspicious-call-argument) - } - flag.erase(0, flag.find_first_not_of("-!")); - output.emplace_back(flag, defval); - } - return output; -} - -CLI11_INLINE std::tuple, std::vector, std::string> -get_names(const std::vector &input) { - - std::vector short_names; - std::vector long_names; - std::string pos_name; - for(std::string name : input) { - if(name.length() == 0) { - continue; - } - if(name.length() > 1 && name[0] == '-' && name[1] != '-') { - if(name.length() == 2 && valid_first_char(name[1])) - short_names.emplace_back(1, name[1]); - else if(name.length() > 2) - throw BadNameString::MissingDash(name); - else - throw BadNameString::OneCharName(name); - } else if(name.length() > 2 && name.substr(0, 2) == "--") { - name = name.substr(2); - if(valid_name_string(name)) - long_names.push_back(name); - else - throw BadNameString::BadLongName(name); - } else if(name == "-" || name == "--") { - throw BadNameString::DashesOnly(name); - } else { - if(!pos_name.empty()) - throw BadNameString::MultiPositionalNames(name); - if(valid_name_string(name)) { - pos_name = name; - } else { - throw BadNameString::BadPositionalName(name); - } - } - } - return std::make_tuple(short_names, long_names, pos_name); -} - -} // namespace detail - - - -class App; - -/// Holds values to load into Options -struct ConfigItem { - /// This is the list of parents - std::vector parents{}; - - /// This is the name - std::string name{}; - /// Listing of inputs - std::vector inputs{}; - - /// The list of parents and name joined by "." - CLI11_NODISCARD std::string fullname() const { - std::vector tmp = parents; - tmp.emplace_back(name); - return detail::join(tmp, "."); - } -}; - -/// This class provides a converter for configuration files. -class Config { - protected: - std::vector items{}; - - public: - /// Convert an app into a configuration - virtual std::string to_config(const App *, bool, bool, std::string) const = 0; - - /// Convert a configuration into an app - virtual std::vector from_config(std::istream &) const = 0; - - /// Get a flag value - CLI11_NODISCARD virtual std::string to_flag(const ConfigItem &item) const { - if(item.inputs.size() == 1) { - return item.inputs.at(0); - } - if(item.inputs.empty()) { - return "{}"; - } - throw ConversionError::TooManyInputsFlag(item.fullname()); // LCOV_EXCL_LINE - } - - /// Parse a config file, throw an error (ParseError:ConfigParseError or FileError) on failure - CLI11_NODISCARD std::vector from_file(const std::string &name) const { - std::ifstream input{name}; - if(!input.good()) - throw FileError::Missing(name); - - return from_config(input); - } - - /// Virtual destructor - virtual ~Config() = default; -}; - -/// This converter works with INI/TOML files; to write INI files use ConfigINI -class ConfigBase : public Config { - protected: - /// the character used for comments - char commentChar = '#'; - /// the character used to start an array '\0' is a default to not use - char arrayStart = '['; - /// the character used to end an array '\0' is a default to not use - char arrayEnd = ']'; - /// the character used to separate elements in an array - char arraySeparator = ','; - /// the character used separate the name from the value - char valueDelimiter = '='; - /// the character to use around strings - char stringQuote = '"'; - /// the character to use around single characters and literal strings - char literalQuote = '\''; - /// the maximum number of layers to allow - uint8_t maximumLayers{255}; - /// the separator used to separator parent layers - char parentSeparatorChar{'.'}; - /// Specify the configuration index to use for arrayed sections - int16_t configIndex{-1}; - /// Specify the configuration section that should be used - std::string configSection{}; - - public: - std::string - to_config(const App * /*app*/, bool default_also, bool write_description, std::string prefix) const override; - - std::vector from_config(std::istream &input) const override; - /// Specify the configuration for comment characters - ConfigBase *comment(char cchar) { - commentChar = cchar; - return this; - } - /// Specify the start and end characters for an array - ConfigBase *arrayBounds(char aStart, char aEnd) { - arrayStart = aStart; - arrayEnd = aEnd; - return this; - } - /// Specify the delimiter character for an array - ConfigBase *arrayDelimiter(char aSep) { - arraySeparator = aSep; - return this; - } - /// Specify the delimiter between a name and value - ConfigBase *valueSeparator(char vSep) { - valueDelimiter = vSep; - return this; - } - /// Specify the quote characters used around strings and literal strings - ConfigBase *quoteCharacter(char qString, char literalChar) { - stringQuote = qString; - literalQuote = literalChar; - return this; - } - /// Specify the maximum number of parents - ConfigBase *maxLayers(uint8_t layers) { - maximumLayers = layers; - return this; - } - /// Specify the separator to use for parent layers - ConfigBase *parentSeparator(char sep) { - parentSeparatorChar = sep; - return this; - } - /// get a reference to the configuration section - std::string §ionRef() { return configSection; } - /// get the section - CLI11_NODISCARD const std::string §ion() const { return configSection; } - /// specify a particular section of the configuration file to use - ConfigBase *section(const std::string §ionName) { - configSection = sectionName; - return this; - } - - /// get a reference to the configuration index - int16_t &indexRef() { return configIndex; } - /// get the section index - CLI11_NODISCARD int16_t index() const { return configIndex; } - /// specify a particular index in the section to use (-1) for all sections to use - ConfigBase *index(int16_t sectionIndex) { - configIndex = sectionIndex; - return this; - } -}; - -/// the default Config is the TOML file format -using ConfigTOML = ConfigBase; - -/// ConfigINI generates a "standard" INI compliant output -class ConfigINI : public ConfigTOML { - - public: - ConfigINI() { - commentChar = ';'; - arrayStart = '\0'; - arrayEnd = '\0'; - arraySeparator = ' '; - valueDelimiter = '='; - } -}; - - - -class Option; - -/// @defgroup validator_group Validators - -/// @brief Some validators that are provided -/// -/// These are simple `std::string(const std::string&)` validators that are useful. They return -/// a string if the validation fails. A custom struct is provided, as well, with the same user -/// semantics, but with the ability to provide a new type name. -/// @{ - -/// -class Validator { - protected: - /// This is the description function, if empty the description_ will be used - std::function desc_function_{[]() { return std::string{}; }}; - - /// This is the base function that is to be called. - /// Returns a string error message if validation fails. - std::function func_{[](std::string &) { return std::string{}; }}; - /// The name for search purposes of the Validator - std::string name_{}; - /// A Validator will only apply to an indexed value (-1 is all elements) - int application_index_ = -1; - /// Enable for Validator to allow it to be disabled if need be - bool active_{true}; - /// specify that a validator should not modify the input - bool non_modifying_{false}; - - Validator(std::string validator_desc, std::function func) - : desc_function_([validator_desc]() { return validator_desc; }), func_(std::move(func)) {} - - public: - Validator() = default; - /// Construct a Validator with just the description string - explicit Validator(std::string validator_desc) : desc_function_([validator_desc]() { return validator_desc; }) {} - /// Construct Validator from basic information - Validator(std::function op, std::string validator_desc, std::string validator_name = "") - : desc_function_([validator_desc]() { return validator_desc; }), func_(std::move(op)), - name_(std::move(validator_name)) {} - /// Set the Validator operation function - Validator &operation(std::function op) { - func_ = std::move(op); - return *this; - } - /// This is the required operator for a Validator - provided to help - /// users (CLI11 uses the member `func` directly) - std::string operator()(std::string &str) const; - - /// This is the required operator for a Validator - provided to help - /// users (CLI11 uses the member `func` directly) - std::string operator()(const std::string &str) const { - std::string value = str; - return (active_) ? func_(value) : std::string{}; - } - - /// Specify the type string - Validator &description(std::string validator_desc) { - desc_function_ = [validator_desc]() { return validator_desc; }; - return *this; - } - /// Specify the type string - CLI11_NODISCARD Validator description(std::string validator_desc) const; - - /// Generate type description information for the Validator - CLI11_NODISCARD std::string get_description() const { - if(active_) { - return desc_function_(); - } - return std::string{}; - } - /// Specify the type string - Validator &name(std::string validator_name) { - name_ = std::move(validator_name); - return *this; - } - /// Specify the type string - CLI11_NODISCARD Validator name(std::string validator_name) const { - Validator newval(*this); - newval.name_ = std::move(validator_name); - return newval; - } - /// Get the name of the Validator - CLI11_NODISCARD const std::string &get_name() const { return name_; } - /// Specify whether the Validator is active or not - Validator &active(bool active_val = true) { - active_ = active_val; - return *this; - } - /// Specify whether the Validator is active or not - CLI11_NODISCARD Validator active(bool active_val = true) const { - Validator newval(*this); - newval.active_ = active_val; - return newval; - } - - /// Specify whether the Validator can be modifying or not - Validator &non_modifying(bool no_modify = true) { - non_modifying_ = no_modify; - return *this; - } - /// Specify the application index of a validator - Validator &application_index(int app_index) { - application_index_ = app_index; - return *this; - } - /// Specify the application index of a validator - CLI11_NODISCARD Validator application_index(int app_index) const { - Validator newval(*this); - newval.application_index_ = app_index; - return newval; - } - /// Get the current value of the application index - CLI11_NODISCARD int get_application_index() const { return application_index_; } - /// Get a boolean if the validator is active - CLI11_NODISCARD bool get_active() const { return active_; } - - /// Get a boolean if the validator is allowed to modify the input returns true if it can modify the input - CLI11_NODISCARD bool get_modifying() const { return !non_modifying_; } - - /// Combining validators is a new validator. Type comes from left validator if function, otherwise only set if the - /// same. - Validator operator&(const Validator &other) const; - - /// Combining validators is a new validator. Type comes from left validator if function, otherwise only set if the - /// same. - Validator operator|(const Validator &other) const; - - /// Create a validator that fails when a given validator succeeds - Validator operator!() const; - - private: - void _merge_description(const Validator &val1, const Validator &val2, const std::string &merger); -}; - -/// Class wrapping some of the accessors of Validator -class CustomValidator : public Validator { - public: -}; -// The implementation of the built in validators is using the Validator class; -// the user is only expected to use the const (static) versions (since there's no setup). -// Therefore, this is in detail. -namespace detail { - -/// CLI enumeration of different file types -enum class path_type { nonexistent, file, directory }; - -/// get the type of the path from a file name -CLI11_INLINE path_type check_path(const char *file) noexcept; - -/// Check for an existing file (returns error message if check fails) -class ExistingFileValidator : public Validator { - public: - ExistingFileValidator(); -}; - -/// Check for an existing directory (returns error message if check fails) -class ExistingDirectoryValidator : public Validator { - public: - ExistingDirectoryValidator(); -}; - -/// Check for an existing path -class ExistingPathValidator : public Validator { - public: - ExistingPathValidator(); -}; - -/// Check for an non-existing path -class NonexistentPathValidator : public Validator { - public: - NonexistentPathValidator(); -}; - -/// Validate the given string is a legal ipv4 address -class IPV4Validator : public Validator { - public: - IPV4Validator(); -}; - -class EscapedStringTransformer : public Validator { - public: - EscapedStringTransformer(); -}; - -} // namespace detail - -// Static is not needed here, because global const implies static. - -/// Check for existing file (returns error message if check fails) -const detail::ExistingFileValidator ExistingFile; - -/// Check for an existing directory (returns error message if check fails) -const detail::ExistingDirectoryValidator ExistingDirectory; - -/// Check for an existing path -const detail::ExistingPathValidator ExistingPath; - -/// Check for an non-existing path -const detail::NonexistentPathValidator NonexistentPath; - -/// Check for an IP4 address -const detail::IPV4Validator ValidIPV4; - -/// convert escaped characters into their associated values -const detail::EscapedStringTransformer EscapedString; - -/// Validate the input as a particular type -template class TypeValidator : public Validator { - public: - explicit TypeValidator(const std::string &validator_name) - : Validator(validator_name, [](std::string &input_string) { - using CLI::detail::lexical_cast; - auto val = DesiredType(); - if(!lexical_cast(input_string, val)) { - return std::string("Failed parsing ") + input_string + " as a " + detail::type_name(); - } - return std::string(); - }) {} - TypeValidator() : TypeValidator(detail::type_name()) {} -}; - -/// Check for a number -const TypeValidator Number("NUMBER"); - -/// Modify a path if the file is a particular default location, can be used as Check or transform -/// with the error return optionally disabled -class FileOnDefaultPath : public Validator { - public: - explicit FileOnDefaultPath(std::string default_path, bool enableErrorReturn = true); -}; - -/// Produce a range (factory). Min and max are inclusive. -class Range : public Validator { - public: - /// This produces a range with min and max inclusive. - /// - /// Note that the constructor is templated, but the struct is not, so C++17 is not - /// needed to provide nice syntax for Range(a,b). - template - Range(T min_val, T max_val, const std::string &validator_name = std::string{}) : Validator(validator_name) { - if(validator_name.empty()) { - std::stringstream out; - out << detail::type_name() << " in [" << min_val << " - " << max_val << "]"; - description(out.str()); - } - - func_ = [min_val, max_val](std::string &input) { - using CLI::detail::lexical_cast; - T val; - bool converted = lexical_cast(input, val); - if((!converted) || (val < min_val || val > max_val)) { - std::stringstream out; - out << "Value " << input << " not in range ["; - out << min_val << " - " << max_val << "]"; - return out.str(); - } - return std::string{}; - }; - } - - /// Range of one value is 0 to value - template - explicit Range(T max_val, const std::string &validator_name = std::string{}) - : Range(static_cast(0), max_val, validator_name) {} -}; - -/// Check for a non negative number -const Range NonNegativeNumber((std::numeric_limits::max)(), "NONNEGATIVE"); - -/// Check for a positive valued number (val>0.0), ::min here is the smallest positive number -const Range PositiveNumber((std::numeric_limits::min)(), (std::numeric_limits::max)(), "POSITIVE"); - -/// Produce a bounded range (factory). Min and max are inclusive. -class Bound : public Validator { - public: - /// This bounds a value with min and max inclusive. - /// - /// Note that the constructor is templated, but the struct is not, so C++17 is not - /// needed to provide nice syntax for Range(a,b). - template Bound(T min_val, T max_val) { - std::stringstream out; - out << detail::type_name() << " bounded to [" << min_val << " - " << max_val << "]"; - description(out.str()); - - func_ = [min_val, max_val](std::string &input) { - using CLI::detail::lexical_cast; - T val; - bool converted = lexical_cast(input, val); - if(!converted) { - return std::string("Value ") + input + " could not be converted"; - } - if(val < min_val) - input = detail::to_string(min_val); - else if(val > max_val) - input = detail::to_string(max_val); - - return std::string{}; - }; - } - - /// Range of one value is 0 to value - template explicit Bound(T max_val) : Bound(static_cast(0), max_val) {} -}; - -namespace detail { -template ::type>::value, detail::enabler> = detail::dummy> -auto smart_deref(T value) -> decltype(*value) { - return *value; -} - -template < - typename T, - enable_if_t::type>::value, detail::enabler> = detail::dummy> -typename std::remove_reference::type &smart_deref(T &value) { - return value; -} -/// Generate a string representation of a set -template std::string generate_set(const T &set) { - using element_t = typename detail::element_type::type; - using iteration_type_t = typename detail::pair_adaptor::value_type; // the type of the object pair - std::string out(1, '{'); - out.append(detail::join( - detail::smart_deref(set), - [](const iteration_type_t &v) { return detail::pair_adaptor::first(v); }, - ",")); - out.push_back('}'); - return out; -} - -/// Generate a string representation of a map -template std::string generate_map(const T &map, bool key_only = false) { - using element_t = typename detail::element_type::type; - using iteration_type_t = typename detail::pair_adaptor::value_type; // the type of the object pair - std::string out(1, '{'); - out.append(detail::join( - detail::smart_deref(map), - [key_only](const iteration_type_t &v) { - std::string res{detail::to_string(detail::pair_adaptor::first(v))}; - - if(!key_only) { - res.append("->"); - res += detail::to_string(detail::pair_adaptor::second(v)); - } - return res; - }, - ",")); - out.push_back('}'); - return out; -} - -template struct has_find { - template - static auto test(int) -> decltype(std::declval().find(std::declval()), std::true_type()); - template static auto test(...) -> decltype(std::false_type()); - - static const auto value = decltype(test(0))::value; - using type = std::integral_constant; -}; - -/// A search function -template ::value, detail::enabler> = detail::dummy> -auto search(const T &set, const V &val) -> std::pair { - using element_t = typename detail::element_type::type; - auto &setref = detail::smart_deref(set); - auto it = std::find_if(std::begin(setref), std::end(setref), [&val](decltype(*std::begin(setref)) v) { - return (detail::pair_adaptor::first(v) == val); - }); - return {(it != std::end(setref)), it}; -} - -/// A search function that uses the built in find function -template ::value, detail::enabler> = detail::dummy> -auto search(const T &set, const V &val) -> std::pair { - auto &setref = detail::smart_deref(set); - auto it = setref.find(val); - return {(it != std::end(setref)), it}; -} - -/// A search function with a filter function -template -auto search(const T &set, const V &val, const std::function &filter_function) - -> std::pair { - using element_t = typename detail::element_type::type; - // do the potentially faster first search - auto res = search(set, val); - if((res.first) || (!(filter_function))) { - return res; - } - // if we haven't found it do the longer linear search with all the element translations - auto &setref = detail::smart_deref(set); - auto it = std::find_if(std::begin(setref), std::end(setref), [&](decltype(*std::begin(setref)) v) { - V a{detail::pair_adaptor::first(v)}; - a = filter_function(a); - return (a == val); - }); - return {(it != std::end(setref)), it}; -} - -// the following suggestion was made by Nikita Ofitserov(@himikof) -// done in templates to prevent compiler warnings on negation of unsigned numbers - -/// Do a check for overflow on signed numbers -template -inline typename std::enable_if::value, T>::type overflowCheck(const T &a, const T &b) { - if((a > 0) == (b > 0)) { - return ((std::numeric_limits::max)() / (std::abs)(a) < (std::abs)(b)); - } - return ((std::numeric_limits::min)() / (std::abs)(a) > -(std::abs)(b)); -} -/// Do a check for overflow on unsigned numbers -template -inline typename std::enable_if::value, T>::type overflowCheck(const T &a, const T &b) { - return ((std::numeric_limits::max)() / a < b); -} - -/// Performs a *= b; if it doesn't cause integer overflow. Returns false otherwise. -template typename std::enable_if::value, bool>::type checked_multiply(T &a, T b) { - if(a == 0 || b == 0 || a == 1 || b == 1) { - a *= b; - return true; - } - if(a == (std::numeric_limits::min)() || b == (std::numeric_limits::min)()) { - return false; - } - if(overflowCheck(a, b)) { - return false; - } - a *= b; - return true; -} - -/// Performs a *= b; if it doesn't equal infinity. Returns false otherwise. -template -typename std::enable_if::value, bool>::type checked_multiply(T &a, T b) { - T c = a * b; - if(std::isinf(c) && !std::isinf(a) && !std::isinf(b)) { - return false; - } - a = c; - return true; -} - -} // namespace detail -/// Verify items are in a set -class IsMember : public Validator { - public: - using filter_fn_t = std::function; - - /// This allows in-place construction using an initializer list - template - IsMember(std::initializer_list values, Args &&...args) - : IsMember(std::vector(values), std::forward(args)...) {} - - /// This checks to see if an item is in a set (empty function) - template explicit IsMember(T &&set) : IsMember(std::forward(set), nullptr) {} - - /// This checks to see if an item is in a set: pointer or copy version. You can pass in a function that will filter - /// both sides of the comparison before computing the comparison. - template explicit IsMember(T set, F filter_function) { - - // Get the type of the contained item - requires a container have ::value_type - // if the type does not have first_type and second_type, these are both value_type - using element_t = typename detail::element_type::type; // Removes (smart) pointers if needed - using item_t = typename detail::pair_adaptor::first_type; // Is value_type if not a map - - using local_item_t = typename IsMemberType::type; // This will convert bad types to good ones - // (const char * to std::string) - - // Make a local copy of the filter function, using a std::function if not one already - std::function filter_fn = filter_function; - - // This is the type name for help, it will take the current version of the set contents - desc_function_ = [set]() { return detail::generate_set(detail::smart_deref(set)); }; - - // This is the function that validates - // It stores a copy of the set pointer-like, so shared_ptr will stay alive - func_ = [set, filter_fn](std::string &input) { - using CLI::detail::lexical_cast; - local_item_t b; - if(!lexical_cast(input, b)) { - throw ValidationError(input); // name is added later - } - if(filter_fn) { - b = filter_fn(b); - } - auto res = detail::search(set, b, filter_fn); - if(res.first) { - // Make sure the version in the input string is identical to the one in the set - if(filter_fn) { - input = detail::value_string(detail::pair_adaptor::first(*(res.second))); - } - - // Return empty error string (success) - return std::string{}; - } - - // If you reach this point, the result was not found - return input + " not in " + detail::generate_set(detail::smart_deref(set)); - }; - } - - /// You can pass in as many filter functions as you like, they nest (string only currently) - template - IsMember(T &&set, filter_fn_t filter_fn_1, filter_fn_t filter_fn_2, Args &&...other) - : IsMember( - std::forward(set), - [filter_fn_1, filter_fn_2](std::string a) { return filter_fn_2(filter_fn_1(a)); }, - other...) {} -}; - -/// definition of the default transformation object -template using TransformPairs = std::vector>; - -/// Translate named items to other or a value set -class Transformer : public Validator { - public: - using filter_fn_t = std::function; - - /// This allows in-place construction - template - Transformer(std::initializer_list> values, Args &&...args) - : Transformer(TransformPairs(values), std::forward(args)...) {} - - /// direct map of std::string to std::string - template explicit Transformer(T &&mapping) : Transformer(std::forward(mapping), nullptr) {} - - /// This checks to see if an item is in a set: pointer or copy version. You can pass in a function that will filter - /// both sides of the comparison before computing the comparison. - template explicit Transformer(T mapping, F filter_function) { - - static_assert(detail::pair_adaptor::type>::value, - "mapping must produce value pairs"); - // Get the type of the contained item - requires a container have ::value_type - // if the type does not have first_type and second_type, these are both value_type - using element_t = typename detail::element_type::type; // Removes (smart) pointers if needed - using item_t = typename detail::pair_adaptor::first_type; // Is value_type if not a map - using local_item_t = typename IsMemberType::type; // Will convert bad types to good ones - // (const char * to std::string) - - // Make a local copy of the filter function, using a std::function if not one already - std::function filter_fn = filter_function; - - // This is the type name for help, it will take the current version of the set contents - desc_function_ = [mapping]() { return detail::generate_map(detail::smart_deref(mapping)); }; - - func_ = [mapping, filter_fn](std::string &input) { - using CLI::detail::lexical_cast; - local_item_t b; - if(!lexical_cast(input, b)) { - return std::string(); - // there is no possible way we can match anything in the mapping if we can't convert so just return - } - if(filter_fn) { - b = filter_fn(b); - } - auto res = detail::search(mapping, b, filter_fn); - if(res.first) { - input = detail::value_string(detail::pair_adaptor::second(*res.second)); - } - return std::string{}; - }; - } - - /// You can pass in as many filter functions as you like, they nest - template - Transformer(T &&mapping, filter_fn_t filter_fn_1, filter_fn_t filter_fn_2, Args &&...other) - : Transformer( - std::forward(mapping), - [filter_fn_1, filter_fn_2](std::string a) { return filter_fn_2(filter_fn_1(a)); }, - other...) {} -}; - -/// translate named items to other or a value set -class CheckedTransformer : public Validator { - public: - using filter_fn_t = std::function; - - /// This allows in-place construction - template - CheckedTransformer(std::initializer_list> values, Args &&...args) - : CheckedTransformer(TransformPairs(values), std::forward(args)...) {} - - /// direct map of std::string to std::string - template explicit CheckedTransformer(T mapping) : CheckedTransformer(std::move(mapping), nullptr) {} - - /// This checks to see if an item is in a set: pointer or copy version. You can pass in a function that will filter - /// both sides of the comparison before computing the comparison. - template explicit CheckedTransformer(T mapping, F filter_function) { - - static_assert(detail::pair_adaptor::type>::value, - "mapping must produce value pairs"); - // Get the type of the contained item - requires a container have ::value_type - // if the type does not have first_type and second_type, these are both value_type - using element_t = typename detail::element_type::type; // Removes (smart) pointers if needed - using item_t = typename detail::pair_adaptor::first_type; // Is value_type if not a map - using local_item_t = typename IsMemberType::type; // Will convert bad types to good ones - // (const char * to std::string) - using iteration_type_t = typename detail::pair_adaptor::value_type; // the type of the object pair - - // Make a local copy of the filter function, using a std::function if not one already - std::function filter_fn = filter_function; - - auto tfunc = [mapping]() { - std::string out("value in "); - out += detail::generate_map(detail::smart_deref(mapping)) + " OR {"; - out += detail::join( - detail::smart_deref(mapping), - [](const iteration_type_t &v) { return detail::to_string(detail::pair_adaptor::second(v)); }, - ","); - out.push_back('}'); - return out; - }; - - desc_function_ = tfunc; - - func_ = [mapping, tfunc, filter_fn](std::string &input) { - using CLI::detail::lexical_cast; - local_item_t b; - bool converted = lexical_cast(input, b); - if(converted) { - if(filter_fn) { - b = filter_fn(b); - } - auto res = detail::search(mapping, b, filter_fn); - if(res.first) { - input = detail::value_string(detail::pair_adaptor::second(*res.second)); - return std::string{}; - } - } - for(const auto &v : detail::smart_deref(mapping)) { - auto output_string = detail::value_string(detail::pair_adaptor::second(v)); - if(output_string == input) { - return std::string(); - } - } - - return "Check " + input + " " + tfunc() + " FAILED"; - }; - } - - /// You can pass in as many filter functions as you like, they nest - template - CheckedTransformer(T &&mapping, filter_fn_t filter_fn_1, filter_fn_t filter_fn_2, Args &&...other) - : CheckedTransformer( - std::forward(mapping), - [filter_fn_1, filter_fn_2](std::string a) { return filter_fn_2(filter_fn_1(a)); }, - other...) {} -}; - -/// Helper function to allow ignore_case to be passed to IsMember or Transform -inline std::string ignore_case(std::string item) { return detail::to_lower(item); } - -/// Helper function to allow ignore_underscore to be passed to IsMember or Transform -inline std::string ignore_underscore(std::string item) { return detail::remove_underscore(item); } - -/// Helper function to allow checks to ignore spaces to be passed to IsMember or Transform -inline std::string ignore_space(std::string item) { - item.erase(std::remove(std::begin(item), std::end(item), ' '), std::end(item)); - item.erase(std::remove(std::begin(item), std::end(item), '\t'), std::end(item)); - return item; -} - -/// Multiply a number by a factor using given mapping. -/// Can be used to write transforms for SIZE or DURATION inputs. -/// -/// Example: -/// With mapping = `{"b"->1, "kb"->1024, "mb"->1024*1024}` -/// one can recognize inputs like "100", "12kb", "100 MB", -/// that will be automatically transformed to 100, 14448, 104857600. -/// -/// Output number type matches the type in the provided mapping. -/// Therefore, if it is required to interpret real inputs like "0.42 s", -/// the mapping should be of a type or . -class AsNumberWithUnit : public Validator { - public: - /// Adjust AsNumberWithUnit behavior. - /// CASE_SENSITIVE/CASE_INSENSITIVE controls how units are matched. - /// UNIT_OPTIONAL/UNIT_REQUIRED throws ValidationError - /// if UNIT_REQUIRED is set and unit literal is not found. - enum Options { - CASE_SENSITIVE = 0, - CASE_INSENSITIVE = 1, - UNIT_OPTIONAL = 0, - UNIT_REQUIRED = 2, - DEFAULT = CASE_INSENSITIVE | UNIT_OPTIONAL - }; - - template - explicit AsNumberWithUnit(std::map mapping, - Options opts = DEFAULT, - const std::string &unit_name = "UNIT") { - description(generate_description(unit_name, opts)); - validate_mapping(mapping, opts); - - // transform function - func_ = [mapping, opts](std::string &input) -> std::string { - Number num{}; - - detail::rtrim(input); - if(input.empty()) { - throw ValidationError("Input is empty"); - } - - // Find split position between number and prefix - auto unit_begin = input.end(); - while(unit_begin > input.begin() && std::isalpha(*(unit_begin - 1), std::locale())) { - --unit_begin; - } - - std::string unit{unit_begin, input.end()}; - input.resize(static_cast(std::distance(input.begin(), unit_begin))); - detail::trim(input); - - if(opts & UNIT_REQUIRED && unit.empty()) { - throw ValidationError("Missing mandatory unit"); - } - if(opts & CASE_INSENSITIVE) { - unit = detail::to_lower(unit); - } - if(unit.empty()) { - using CLI::detail::lexical_cast; - if(!lexical_cast(input, num)) { - throw ValidationError(std::string("Value ") + input + " could not be converted to " + - detail::type_name()); - } - // No need to modify input if no unit passed - return {}; - } - - // find corresponding factor - auto it = mapping.find(unit); - if(it == mapping.end()) { - throw ValidationError(unit + - " unit not recognized. " - "Allowed values: " + - detail::generate_map(mapping, true)); - } - - if(!input.empty()) { - using CLI::detail::lexical_cast; - bool converted = lexical_cast(input, num); - if(!converted) { - throw ValidationError(std::string("Value ") + input + " could not be converted to " + - detail::type_name()); - } - // perform safe multiplication - bool ok = detail::checked_multiply(num, it->second); - if(!ok) { - throw ValidationError(detail::to_string(num) + " multiplied by " + unit + - " factor would cause number overflow. Use smaller value."); - } - } else { - num = static_cast(it->second); - } - - input = detail::to_string(num); - - return {}; - }; - } - - private: - /// Check that mapping contains valid units. - /// Update mapping for CASE_INSENSITIVE mode. - template static void validate_mapping(std::map &mapping, Options opts) { - for(auto &kv : mapping) { - if(kv.first.empty()) { - throw ValidationError("Unit must not be empty."); - } - if(!detail::isalpha(kv.first)) { - throw ValidationError("Unit must contain only letters."); - } - } - - // make all units lowercase if CASE_INSENSITIVE - if(opts & CASE_INSENSITIVE) { - std::map lower_mapping; - for(auto &kv : mapping) { - auto s = detail::to_lower(kv.first); - if(lower_mapping.count(s)) { - throw ValidationError(std::string("Several matching lowercase unit representations are found: ") + - s); - } - lower_mapping[detail::to_lower(kv.first)] = kv.second; - } - mapping = std::move(lower_mapping); - } - } - - /// Generate description like this: NUMBER [UNIT] - template static std::string generate_description(const std::string &name, Options opts) { - std::stringstream out; - out << detail::type_name() << ' '; - if(opts & UNIT_REQUIRED) { - out << name; - } else { - out << '[' << name << ']'; - } - return out.str(); - } -}; - -inline AsNumberWithUnit::Options operator|(const AsNumberWithUnit::Options &a, const AsNumberWithUnit::Options &b) { - return static_cast(static_cast(a) | static_cast(b)); -} - -/// Converts a human-readable size string (with unit literal) to uin64_t size. -/// Example: -/// "100" => 100 -/// "1 b" => 100 -/// "10Kb" => 10240 // you can configure this to be interpreted as kilobyte (*1000) or kibibyte (*1024) -/// "10 KB" => 10240 -/// "10 kb" => 10240 -/// "10 kib" => 10240 // *i, *ib are always interpreted as *bibyte (*1024) -/// "10kb" => 10240 -/// "2 MB" => 2097152 -/// "2 EiB" => 2^61 // Units up to exibyte are supported -class AsSizeValue : public AsNumberWithUnit { - public: - using result_t = std::uint64_t; - - /// If kb_is_1000 is true, - /// interpret 'kb', 'k' as 1000 and 'kib', 'ki' as 1024 - /// (same applies to higher order units as well). - /// Otherwise, interpret all literals as factors of 1024. - /// The first option is formally correct, but - /// the second interpretation is more wide-spread - /// (see https://en.wikipedia.org/wiki/Binary_prefix). - explicit AsSizeValue(bool kb_is_1000); - - private: - /// Get mapping - static std::map init_mapping(bool kb_is_1000); - - /// Cache calculated mapping - static std::map get_mapping(bool kb_is_1000); -}; - -namespace detail { -/// Split a string into a program name and command line arguments -/// the string is assumed to contain a file name followed by other arguments -/// the return value contains is a pair with the first argument containing the program name and the second -/// everything else. -CLI11_INLINE std::pair split_program_name(std::string commandline); - -} // namespace detail -/// @} - - - - -CLI11_INLINE std::string Validator::operator()(std::string &str) const { - std::string retstring; - if(active_) { - if(non_modifying_) { - std::string value = str; - retstring = func_(value); - } else { - retstring = func_(str); - } - } - return retstring; -} - -CLI11_NODISCARD CLI11_INLINE Validator Validator::description(std::string validator_desc) const { - Validator newval(*this); - newval.desc_function_ = [validator_desc]() { return validator_desc; }; - return newval; -} - -CLI11_INLINE Validator Validator::operator&(const Validator &other) const { - Validator newval; - - newval._merge_description(*this, other, " AND "); - - // Give references (will make a copy in lambda function) - const std::function &f1 = func_; - const std::function &f2 = other.func_; - - newval.func_ = [f1, f2](std::string &input) { - std::string s1 = f1(input); - std::string s2 = f2(input); - if(!s1.empty() && !s2.empty()) - return std::string("(") + s1 + ") AND (" + s2 + ")"; - return s1 + s2; - }; - - newval.active_ = active_ && other.active_; - newval.application_index_ = application_index_; - return newval; -} - -CLI11_INLINE Validator Validator::operator|(const Validator &other) const { - Validator newval; - - newval._merge_description(*this, other, " OR "); - - // Give references (will make a copy in lambda function) - const std::function &f1 = func_; - const std::function &f2 = other.func_; - - newval.func_ = [f1, f2](std::string &input) { - std::string s1 = f1(input); - std::string s2 = f2(input); - if(s1.empty() || s2.empty()) - return std::string(); - - return std::string("(") + s1 + ") OR (" + s2 + ")"; - }; - newval.active_ = active_ && other.active_; - newval.application_index_ = application_index_; - return newval; -} - -CLI11_INLINE Validator Validator::operator!() const { - Validator newval; - const std::function &dfunc1 = desc_function_; - newval.desc_function_ = [dfunc1]() { - auto str = dfunc1(); - return (!str.empty()) ? std::string("NOT ") + str : std::string{}; - }; - // Give references (will make a copy in lambda function) - const std::function &f1 = func_; - - newval.func_ = [f1, dfunc1](std::string &test) -> std::string { - std::string s1 = f1(test); - if(s1.empty()) { - return std::string("check ") + dfunc1() + " succeeded improperly"; - } - return std::string{}; - }; - newval.active_ = active_; - newval.application_index_ = application_index_; - return newval; -} - -CLI11_INLINE void -Validator::_merge_description(const Validator &val1, const Validator &val2, const std::string &merger) { - - const std::function &dfunc1 = val1.desc_function_; - const std::function &dfunc2 = val2.desc_function_; - - desc_function_ = [=]() { - std::string f1 = dfunc1(); - std::string f2 = dfunc2(); - if((f1.empty()) || (f2.empty())) { - return f1 + f2; - } - return std::string(1, '(') + f1 + ')' + merger + '(' + f2 + ')'; - }; -} - -namespace detail { - -#if defined CLI11_HAS_FILESYSTEM && CLI11_HAS_FILESYSTEM > 0 -CLI11_INLINE path_type check_path(const char *file) noexcept { - std::error_code ec; - auto stat = std::filesystem::status(to_path(file), ec); - if(ec) { - return path_type::nonexistent; - } - switch(stat.type()) { - case std::filesystem::file_type::none: // LCOV_EXCL_LINE - case std::filesystem::file_type::not_found: - return path_type::nonexistent; // LCOV_EXCL_LINE - case std::filesystem::file_type::directory: - return path_type::directory; - case std::filesystem::file_type::symlink: - case std::filesystem::file_type::block: - case std::filesystem::file_type::character: - case std::filesystem::file_type::fifo: - case std::filesystem::file_type::socket: - case std::filesystem::file_type::regular: - case std::filesystem::file_type::unknown: - default: - return path_type::file; - } -} -#else -CLI11_INLINE path_type check_path(const char *file) noexcept { -#if defined(_MSC_VER) - struct __stat64 buffer; - if(_stat64(file, &buffer) == 0) { - return ((buffer.st_mode & S_IFDIR) != 0) ? path_type::directory : path_type::file; - } -#else - struct stat buffer; - if(stat(file, &buffer) == 0) { - return ((buffer.st_mode & S_IFDIR) != 0) ? path_type::directory : path_type::file; - } -#endif - return path_type::nonexistent; -} -#endif - -CLI11_INLINE ExistingFileValidator::ExistingFileValidator() : Validator("FILE") { - func_ = [](std::string &filename) { - auto path_result = check_path(filename.c_str()); - if(path_result == path_type::nonexistent) { - return "File does not exist: " + filename; - } - if(path_result == path_type::directory) { - return "File is actually a directory: " + filename; - } - return std::string(); - }; -} - -CLI11_INLINE ExistingDirectoryValidator::ExistingDirectoryValidator() : Validator("DIR") { - func_ = [](std::string &filename) { - auto path_result = check_path(filename.c_str()); - if(path_result == path_type::nonexistent) { - return "Directory does not exist: " + filename; - } - if(path_result == path_type::file) { - return "Directory is actually a file: " + filename; - } - return std::string(); - }; -} - -CLI11_INLINE ExistingPathValidator::ExistingPathValidator() : Validator("PATH(existing)") { - func_ = [](std::string &filename) { - auto path_result = check_path(filename.c_str()); - if(path_result == path_type::nonexistent) { - return "Path does not exist: " + filename; - } - return std::string(); - }; -} - -CLI11_INLINE NonexistentPathValidator::NonexistentPathValidator() : Validator("PATH(non-existing)") { - func_ = [](std::string &filename) { - auto path_result = check_path(filename.c_str()); - if(path_result != path_type::nonexistent) { - return "Path already exists: " + filename; - } - return std::string(); - }; -} - -CLI11_INLINE IPV4Validator::IPV4Validator() : Validator("IPV4") { - func_ = [](std::string &ip_addr) { - auto result = CLI::detail::split(ip_addr, '.'); - if(result.size() != 4) { - return std::string("Invalid IPV4 address must have four parts (") + ip_addr + ')'; - } - int num = 0; - for(const auto &var : result) { - using CLI::detail::lexical_cast; - bool retval = lexical_cast(var, num); - if(!retval) { - return std::string("Failed parsing number (") + var + ')'; - } - if(num < 0 || num > 255) { - return std::string("Each IP number must be between 0 and 255 ") + var; - } - } - return std::string{}; - }; -} - -CLI11_INLINE EscapedStringTransformer::EscapedStringTransformer() { - func_ = [](std::string &str) { - try { - if(str.size() > 1 && (str.front() == '\"' || str.front() == '\'' || str.front() == '`') && - str.front() == str.back()) { - process_quoted_string(str); - } else if(str.find_first_of('\\') != std::string::npos) { - if(detail::is_binary_escaped_string(str)) { - str = detail::extract_binary_string(str); - } else { - str = remove_escaped_characters(str); - } - } - return std::string{}; - } catch(const std::invalid_argument &ia) { - return std::string(ia.what()); - } - }; -} -} // namespace detail - -CLI11_INLINE FileOnDefaultPath::FileOnDefaultPath(std::string default_path, bool enableErrorReturn) - : Validator("FILE") { - func_ = [default_path, enableErrorReturn](std::string &filename) { - auto path_result = detail::check_path(filename.c_str()); - if(path_result == detail::path_type::nonexistent) { - std::string test_file_path = default_path; - if(default_path.back() != '/' && default_path.back() != '\\') { - // Add folder separator - test_file_path += '/'; - } - test_file_path.append(filename); - path_result = detail::check_path(test_file_path.c_str()); - if(path_result == detail::path_type::file) { - filename = test_file_path; - } else { - if(enableErrorReturn) { - return "File does not exist: " + filename; - } - } - } - return std::string{}; - }; -} - -CLI11_INLINE AsSizeValue::AsSizeValue(bool kb_is_1000) : AsNumberWithUnit(get_mapping(kb_is_1000)) { - if(kb_is_1000) { - description("SIZE [b, kb(=1000b), kib(=1024b), ...]"); - } else { - description("SIZE [b, kb(=1024b), ...]"); - } -} - -CLI11_INLINE std::map AsSizeValue::init_mapping(bool kb_is_1000) { - std::map m; - result_t k_factor = kb_is_1000 ? 1000 : 1024; - result_t ki_factor = 1024; - result_t k = 1; - result_t ki = 1; - m["b"] = 1; - for(std::string p : {"k", "m", "g", "t", "p", "e"}) { - k *= k_factor; - ki *= ki_factor; - m[p] = k; - m[p + "b"] = k; - m[p + "i"] = ki; - m[p + "ib"] = ki; - } - return m; -} - -CLI11_INLINE std::map AsSizeValue::get_mapping(bool kb_is_1000) { - if(kb_is_1000) { - static auto m = init_mapping(true); - return m; - } - static auto m = init_mapping(false); - return m; -} - -namespace detail { - -CLI11_INLINE std::pair split_program_name(std::string commandline) { - // try to determine the programName - std::pair vals; - trim(commandline); - auto esp = commandline.find_first_of(' ', 1); - while(detail::check_path(commandline.substr(0, esp).c_str()) != path_type::file) { - esp = commandline.find_first_of(' ', esp + 1); - if(esp == std::string::npos) { - // if we have reached the end and haven't found a valid file just assume the first argument is the - // program name - if(commandline[0] == '"' || commandline[0] == '\'' || commandline[0] == '`') { - bool embeddedQuote = false; - auto keyChar = commandline[0]; - auto end = commandline.find_first_of(keyChar, 1); - while((end != std::string::npos) && (commandline[end - 1] == '\\')) { // deal with escaped quotes - end = commandline.find_first_of(keyChar, end + 1); - embeddedQuote = true; - } - if(end != std::string::npos) { - vals.first = commandline.substr(1, end - 1); - esp = end + 1; - if(embeddedQuote) { - vals.first = find_and_replace(vals.first, std::string("\\") + keyChar, std::string(1, keyChar)); - } - } else { - esp = commandline.find_first_of(' ', 1); - } - } else { - esp = commandline.find_first_of(' ', 1); - } - - break; - } - } - if(vals.first.empty()) { - vals.first = commandline.substr(0, esp); - rtrim(vals.first); - } - - // strip the program name - vals.second = (esp < commandline.length() - 1) ? commandline.substr(esp + 1) : std::string{}; - ltrim(vals.second); - return vals; -} - -} // namespace detail -/// @} - - - - -class Option; -class App; - -/// This enum signifies the type of help requested -/// -/// This is passed in by App; all user classes must accept this as -/// the second argument. - -enum class AppFormatMode { - Normal, ///< The normal, detailed help - All, ///< A fully expanded help - Sub, ///< Used when printed as part of expanded subcommand -}; - -/// This is the minimum requirements to run a formatter. -/// -/// A user can subclass this is if they do not care at all -/// about the structure in CLI::Formatter. -class FormatterBase { - protected: - /// @name Options - ///@{ - - /// The width of the first column - std::size_t column_width_{30}; - - /// @brief The required help printout labels (user changeable) - /// Values are Needs, Excludes, etc. - std::map labels_{}; - - ///@} - /// @name Basic - ///@{ - - public: - FormatterBase() = default; - FormatterBase(const FormatterBase &) = default; - FormatterBase(FormatterBase &&) = default; - FormatterBase &operator=(const FormatterBase &) = default; - FormatterBase &operator=(FormatterBase &&) = default; - - /// Adding a destructor in this form to work around bug in GCC 4.7 - virtual ~FormatterBase() noexcept {} // NOLINT(modernize-use-equals-default) - - /// This is the key method that puts together help - virtual std::string make_help(const App *, std::string, AppFormatMode) const = 0; - - ///@} - /// @name Setters - ///@{ - - /// Set the "REQUIRED" label - void label(std::string key, std::string val) { labels_[key] = val; } - - /// Set the column width - void column_width(std::size_t val) { column_width_ = val; } - - ///@} - /// @name Getters - ///@{ - - /// Get the current value of a name (REQUIRED, etc.) - CLI11_NODISCARD std::string get_label(std::string key) const { - if(labels_.find(key) == labels_.end()) - return key; - return labels_.at(key); - } - - /// Get the current column width - CLI11_NODISCARD std::size_t get_column_width() const { return column_width_; } - - ///@} -}; - -/// This is a specialty override for lambda functions -class FormatterLambda final : public FormatterBase { - using funct_t = std::function; - - /// The lambda to hold and run - funct_t lambda_; - - public: - /// Create a FormatterLambda with a lambda function - explicit FormatterLambda(funct_t funct) : lambda_(std::move(funct)) {} - - /// Adding a destructor (mostly to make GCC 4.7 happy) - ~FormatterLambda() noexcept override {} // NOLINT(modernize-use-equals-default) - - /// This will simply call the lambda function - std::string make_help(const App *app, std::string name, AppFormatMode mode) const override { - return lambda_(app, name, mode); - } -}; - -/// This is the default Formatter for CLI11. It pretty prints help output, and is broken into quite a few -/// overridable methods, to be highly customizable with minimal effort. -class Formatter : public FormatterBase { - public: - Formatter() = default; - Formatter(const Formatter &) = default; - Formatter(Formatter &&) = default; - Formatter &operator=(const Formatter &) = default; - Formatter &operator=(Formatter &&) = default; - - /// @name Overridables - ///@{ - - /// This prints out a group of options with title - /// - CLI11_NODISCARD virtual std::string - make_group(std::string group, bool is_positional, std::vector opts) const; - - /// This prints out just the positionals "group" - virtual std::string make_positionals(const App *app) const; - - /// This prints out all the groups of options - std::string make_groups(const App *app, AppFormatMode mode) const; - - /// This prints out all the subcommands - virtual std::string make_subcommands(const App *app, AppFormatMode mode) const; - - /// This prints out a subcommand - virtual std::string make_subcommand(const App *sub) const; - - /// This prints out a subcommand in help-all - virtual std::string make_expanded(const App *sub) const; - - /// This prints out all the groups of options - virtual std::string make_footer(const App *app) const; - - /// This displays the description line - virtual std::string make_description(const App *app) const; - - /// This displays the usage line - virtual std::string make_usage(const App *app, std::string name) const; - - /// This puts everything together - std::string make_help(const App * /*app*/, std::string, AppFormatMode) const override; - - ///@} - /// @name Options - ///@{ - - /// This prints out an option help line, either positional or optional form - virtual std::string make_option(const Option *opt, bool is_positional) const { - std::stringstream out; - detail::format_help( - out, make_option_name(opt, is_positional) + make_option_opts(opt), make_option_desc(opt), column_width_); - return out.str(); - } - - /// @brief This is the name part of an option, Default: left column - virtual std::string make_option_name(const Option *, bool) const; - - /// @brief This is the options part of the name, Default: combined into left column - virtual std::string make_option_opts(const Option *) const; - - /// @brief This is the description. Default: Right column, on new line if left column too large - virtual std::string make_option_desc(const Option *) const; - - /// @brief This is used to print the name on the USAGE line - virtual std::string make_option_usage(const Option *opt) const; - - ///@} -}; - - - - -using results_t = std::vector; -/// callback function definition -using callback_t = std::function; - -class Option; -class App; - -using Option_p = std::unique_ptr