-- -- vstudio.lua -- Define the Visual Studio 200x actions. -- Copyright (c) Jason Perkins and the Premake project -- local p = premake p.modules.vstudio = p.modules.vstudio or {} p.modules.vstudio._VERSION = p._VERSION -- for backwards compatibility. p.vstudio = p.modules.vstudio local vstudio = p.vstudio local project = p.project local config = p.config -- -- Mapping tables from Premake systems and architectures to Visual Studio -- identifiers. Broken out as tables so new values can be pushed in by -- add-ons. -- vstudio.vs200x_architectures = { win32 = "x86", x86 = "x86", x86_64 = "x64", ARM = "ARM", ARM64 = "ARM64", } vstudio.vs2010_architectures = { win32 = "x86", } local function architecture(system, arch) local result if _ACTION >= "vs2010" then result = vstudio.vs2010_architectures[arch] or vstudio.vs2010_architectures[system] end return result or vstudio.vs200x_architectures[arch] or vstudio.vs200x_architectures[system] end -- -- Mapping from ISO locales to MS culture identifiers. -- http://msdn.microsoft.com/en-us/library/system.globalization.cultureinfo%28v=vs.85%29.ASPX -- vstudio._cultures = { ["af"] = 0x0036, ["af-ZA"] = 0x0436, ["sq"] = 0x001C, ["sq-AL"] = 0x041C, ["ar"] = 0x0001, ["ar-DZ"] = 0x1401, ["ar-BH"] = 0x3C01, ["ar-EG"] = 0x0C01, ["ar-IQ"] = 0x0801, ["ar-JO"] = 0x2C01, ["ar-KW"] = 0x3401, ["ar-LB"] = 0x3001, ["ar-LY"] = 0x1001, ["ar-MA"] = 0x1801, ["ar-OM"] = 0x2001, ["ar-QA"] = 0x4001, ["ar-SA"] = 0x0401, ["ar-SY"] = 0x2801, ["ar-TN"] = 0x1C01, ["ar-AE"] = 0x3801, ["ar-YE"] = 0x2401, ["hy"] = 0x002B, ["hy-AM"] = 0x042B, ["az"] = 0x002C, ["az-Cyrl-AZ"] = 0x082C, ["az-Latn-AZ"] = 0x042C, ["eu"] = 0x002D, ["eu-ES"] = 0x042D, ["be"] = 0x0023, ["be-BY"] = 0x0423, ["bg"] = 0x0002, ["bg-BG"] = 0x0402, ["ca"] = 0x0003, ["ca-ES"] = 0x0403, ["zh-HK"] = 0x0C04, ["zh-MO"] = 0x1404, ["zh-CN"] = 0x0804, ["zh-Hans"] = 0x0004, ["zh-SG"] = 0x1004, ["zh-TW"] = 0x0404, ["zh-Hant"] = 0x7C04, ["hr"] = 0x001A, ["hr-HR"] = 0x041A, ["cs"] = 0x0005, ["cs-CZ"] = 0x0405, ["da"] = 0x0006, ["da-DK"] = 0x0406, ["dv"] = 0x0065, ["dv-MV"] = 0x0465, ["nl"] = 0x0013, ["nl-BE"] = 0x0813, ["nl-NL"] = 0x0413, ["en"] = 0x0009, ["en-AU"] = 0x0C09, ["en-BZ"] = 0x2809, ["en-CA"] = 0x1009, ["en-029"] = 0x2409, ["en-IE"] = 0x1809, ["en-JM"] = 0x2009, ["en-NZ"] = 0x1409, ["en-PH"] = 0x3409, ["en-ZA"] = 0x1C09, ["en-TT"] = 0x2C09, ["en-GB"] = 0x0809, ["en-US"] = 0x0409, ["en-ZW"] = 0x3009, ["et"] = 0x0025, ["et-EE"] = 0x0425, ["fo"] = 0x0038, ["fo-FO"] = 0x0438, ["fa"] = 0x0029, ["fa-IR"] = 0x0429, ["fi"] = 0x000B, ["fi-FI"] = 0x040B, ["fr"] = 0x000C, ["fr-BE"] = 0x080C, ["fr-CA"] = 0x0C0C, ["fr-FR"] = 0x040C, ["fr-LU"] = 0x140C, ["fr-MC"] = 0x180C, ["fr-CH"] = 0x100C, ["gl"] = 0x0056, ["gl-ES"] = 0x0456, ["ka"] = 0x0037, ["ka-GE"] = 0x0437, ["de"] = 0x0007, ["de-AT"] = 0x0C07, ["de-DE"] = 0x0407, ["de-LI"] = 0x1407, ["de-LU"] = 0x1007, ["de-CH"] = 0x0807, ["el"] = 0x0008, ["el-GR"] = 0x0408, ["gu"] = 0x0047, ["gu-IN"] = 0x0447, ["he"] = 0x000D, ["he-IL"] = 0x040D, ["hi"] = 0x0039, ["hi-IN"] = 0x0439, ["hu"] = 0x000E, ["hu-HU"] = 0x040E, ["is"] = 0x000F, ["is-IS"] = 0x040F, ["id"] = 0x0021, ["id-ID"] = 0x0421, ["it"] = 0x0010, ["it-IT"] = 0x0410, ["it-CH"] = 0x0810, ["ja"] = 0x0011, ["ja-JP"] = 0x0411, ["kn"] = 0x004B, ["kn-IN"] = 0x044B, ["kk"] = 0x003F, ["kk-KZ"] = 0x043F, ["kok"] = 0x0057, ["kok-IN"] = 0x0457, ["ko"] = 0x0012, ["ko-KR"] = 0x0412, ["ky"] = 0x0040, ["ky-KG"] = 0x0440, ["lv"] = 0x0026, ["lv-LV"] = 0x0426, ["lt"] = 0x0027, ["lt-LT"] = 0x0427, ["mk"] = 0x002F, ["mk-MK"] = 0x042F, ["ms"] = 0x003E, ["ms-BN"] = 0x083E, ["ms-MY"] = 0x043E, ["mr"] = 0x004E, ["mr-IN"] = 0x044E, ["mn"] = 0x0050, ["mn-MN"] = 0x0450, ["no"] = 0x0014, ["nb-NO"] = 0x0414, ["nn-NO"] = 0x0814, ["pl"] = 0x0015, ["pl-PL"] = 0x0415, ["pt"] = 0x0016, ["pt-BR"] = 0x0416, ["pt-PT"] = 0x0816, ["pa"] = 0x0046, ["pa-IN"] = 0x0446, ["ro"] = 0x0018, ["ro-RO"] = 0x0418, ["ru"] = 0x0019, ["ru-RU"] = 0x0419, ["sa"] = 0x004F, ["sa-IN"] = 0x044F, ["sr-Cyrl-CS"] = 0x0C1A, ["sr-Latn-CS"] = 0x081A, ["sk"] = 0x001B, ["sk-SK"] = 0x041B, ["sl"] = 0x0024, ["sl-SI"] = 0x0424, ["es"] = 0x000A, ["es-AR"] = 0x2C0A, ["es-BO"] = 0x400A, ["es-CL"] = 0x340A, ["es-CO"] = 0x240A, ["es-CR"] = 0x140A, ["es-DO"] = 0x1C0A, ["es-EC"] = 0x300A, ["es-SV"] = 0x440A, ["es-GT"] = 0x100A, ["es-HN"] = 0x480A, ["es-MX"] = 0x080A, ["es-NI"] = 0x4C0A, ["es-PA"] = 0x180A, ["es-PY"] = 0x3C0A, ["es-PE"] = 0x280A, ["es-PR"] = 0x500A, ["es-ES"] = 0x0C0A, ["es-ES_tradnl"]= 0x040A, ["es-UY"] = 0x380A, ["es-VE"] = 0x200A, ["sw"] = 0x0041, ["sw-KE"] = 0x0441, ["sv"] = 0x001D, ["sv-FI"] = 0x081D, ["sv-SE"] = 0x041D, ["syr"] = 0x005A, ["syr-SY"] = 0x045A, ["ta"] = 0x0049, ["ta-IN"] = 0x0449, ["tt"] = 0x0044, ["tt-RU"] = 0x0444, ["te"] = 0x004A, ["te-IN"] = 0x044A, ["th"] = 0x001E, ["th-TH"] = 0x041E, ["tr"] = 0x001F, ["tr-TR"] = 0x041F, ["uk"] = 0x0022, ["uk-UA"] = 0x0422, ["ur"] = 0x0020, ["ur-PK"] = 0x0420, ["uz"] = 0x0043, ["uz-Cyrl-UZ"] = 0x0843, ["uz-Latn-UZ"] = 0x0443, ["vi"] = 0x002A, ["vi-VN"] = 0x042A, } -- -- Translate the system and architecture settings from a configuration -- into a corresponding Visual Studio identifier. If no settings are -- found in the configuration, a default value is returned, based on -- the project settings. -- -- @param cfg -- The configuration to translate. -- @param win32 -- If true, enables the "Win32" symbol. If false, uses "x86" instead. -- @return -- A Visual Studio architecture identifier. -- function vstudio.archFromConfig(cfg, win32) local isnative = project.isnative(cfg.project) local arch = architecture(cfg.system, cfg.architecture) if not arch then arch = iif(isnative, "x86", "Any CPU") end if win32 and isnative and arch == "x86" then arch = "Win32" end return arch end -- -- Attempt to translate a platform identifier into a corresponding -- Visual Studio architecture identifier. -- -- @param platform -- The platform identifier to translate. -- @return -- A Visual Studio architecture identifier, or nil if no mapping -- could be made. -- function vstudio.archFromPlatform(platform) local system = p.api.checkValue(p.fields.system, platform) local arch = p.api.checkValue(p.fields.architecture, platform) return architecture(system, arch or platform:lower()) end --- -- Given an ISO locale identifier, return an MS culture code. --- function vstudio.cultureForLocale(locale) if locale then local culture = vstudio._cultures[locale] if not culture then p.warnOnce("Locale" .. locale, 'Unsupported locale "%s"', locale) end return culture end end --- -- Assemble the list of links just the way Visual Studio likes them. -- -- @param cfg -- The active configuration. -- @param explicit -- True to explicitly include sibling project libraries; if false Visual -- Studio's default implicit linking will be used. -- @return -- The list of linked libraries, ready to be used in Visual Studio's -- AdditionalDependencies element. --- function vstudio.getLinks(cfg, explicit) return p.tools.msc.getlinks(cfg, not explicit) end -- -- Return true if the configuration kind is one of "Makefile" or "None". The -- latter is generated like a Makefile project and excluded from the solution. -- function vstudio.isMakefile(cfg) return (cfg.kind == p.MAKEFILE or cfg.kind == p.NONE) end -- -- If a dependency of a project configuration is excluded from that particular -- build configuration or platform, Visual Studio will still try to link it. -- This function detects that case, so that the individual actions can work -- around it by switching to external linking. -- -- @param cfg -- The configuration to test. -- @return -- True if the configuration excludes one or more dependencies. -- function vstudio.needsExplicitLink(cfg) if not cfg._needsExplicitLink then local ex = cfg.flags.NoImplicitLink if not ex then local prjdeps = project.getdependencies(cfg.project, "linkOnly") local cfgdeps = config.getlinks(cfg, "dependencies", "object") ex = #prjdeps ~= #cfgdeps end cfg._needsExplicitLink = ex end return cfg._needsExplicitLink end --- -- Prepare a path value for output in a Visual Studio project or solution. -- Converts path separators to backslashes, and makes relative to the project. -- -- @param cfg -- The project or configuration which contains the path. -- @param value -- The path to be prepared. -- @return -- The prepared path. --- function vstudio.path(cfg, value) cfg = cfg.project or cfg local dirs = path.translate(project.getrelative(cfg, value)) if type(dirs) == 'table' then dirs = table.filterempty(dirs) end return dirs end -- -- Returns the Visual Studio project configuration identifier corresponding -- to the given Premake configuration. -- -- @param cfg -- The configuration to query. -- @param arch -- An optional architecture identifier, to override the configuration. -- @return -- A project configuration identifier of the form -- |. -- function vstudio.projectConfig(cfg, arch) local platform = vstudio.projectPlatform(cfg) local architecture = arch or vstudio.archFromConfig(cfg, true) return platform .. "|" .. architecture end --- -- Generates a Visual Studio project element for the current action. --- function vstudio.projectElement() p.push('') end -- -- Returns the full, absolute path to the Visual Studio project file -- corresponding to a particular project object. -- -- @param prj -- The project object. -- @return -- The absolute path to the corresponding Visual Studio project file. -- function vstudio.projectfile(prj) local extension if project.iscsharp(prj) then extension = ".csproj" elseif project.isfsharp(prj) then extension = ".fsproj" elseif project.isc(prj) or project.iscpp(prj) then if prj.kind == p.SHAREDITEMS then extension = ".vcxitems" else extension = iif(_ACTION > "vs2008", ".vcxproj", ".vcproj") end end return p.filename(prj, extension) end -- -- Returns a project configuration name corresponding to the given -- Premake configuration. This is just the solution build configuration -- and platform identifiers concatenated. -- function vstudio.projectPlatform(cfg) local platform = cfg.platform if platform then local pltarch = vstudio.archFromPlatform(cfg.platform) or platform local cfgarch = vstudio.archFromConfig(cfg) if pltarch == cfgarch then platform = nil end end if platform then return cfg.buildcfg .. " " .. platform else return cfg.buildcfg end end -- -- Determine the appropriate Visual Studio platform identifier for a -- solution-level configuration. -- -- @param cfg -- The configuration to be identified. -- @return -- A corresponding Visual Studio platform identifier. -- function vstudio.solutionPlatform(cfg) local platform = cfg.platform -- if a platform is specified use it, translating to the corresponding -- Visual Studio identifier if appropriate local platarch if platform then platform = vstudio.archFromPlatform(platform) or platform -- Value for 32-bit arch is different depending on whether this solution -- contains C++ or C# projects or both if platform ~= "x86" then return platform end end -- scan the contained projects to identify the platform local hasnative = false local hasnet = false local slnarch for prj in p.workspace.eachproject(cfg.workspace) do hasnative = hasnative or project.isnative(prj) hasnet = hasnet or project.isdotnet(prj) -- get a VS architecture identifier for this project local prjcfg = project.getconfig(prj, cfg.buildcfg, cfg.platform) if prjcfg then local prjarch = vstudio.archFromConfig(prjcfg) if not slnarch then slnarch = prjarch elseif slnarch ~= prjarch then slnarch = "Mixed Platforms" end end end if platform then return iif(hasnet, "x86", "Win32") elseif slnarch then return iif(slnarch == "x86" and not hasnet, "Win32", slnarch) elseif hasnet and hasnative then return "Mixed Platforms" elseif hasnet then return "Any CPU" else return "Win32" end end -- -- Attempt to determine an appropriate Visual Studio architecture identifier -- for a solution configuration. -- -- @param cfg -- The configuration to query. -- @return -- A best guess at the corresponding Visual Studio architecture identifier. -- function vstudio.solutionarch(cfg) local hasnative = false local hasdotnet = false -- if the configuration has a platform identifier, use that as default local arch = cfg.platform -- if the platform identifier matches a known system or architecture, -- for prj in p.workspace.eachproject(cfg.workspace) do hasnative = hasnative or project.isnative(prj) hasnet = hasnet or project.isdotnet(prj) if hasnative and hasdotnet then return "Mixed Platforms" end if not arch then local prjcfg = project.getconfig(prj, cfg.buildcfg, cfg.platform) if prjcfg then if prjcfg.architecture then arch = vstudio.archFromConfig(prjcfg) end end end end -- use a default if no other architecture was specified arch = arch or iif(hasnative, "Win32", "Any CPU") return arch end -- -- Returns the Visual Studio solution configuration identifier corresponding -- to the given Premake configuration. -- -- @param cfg -- The configuration to query. -- @return -- A solution configuration identifier of the format BuildCfg|Platform, -- corresponding to the Premake values of the same names. If no platform -- was specified by the script, the architecture is used instead. -- function vstudio.solutionconfig(cfg) local platform = cfg.platform -- if no platform name was specified, use the architecture instead; -- since architectures are defined in the projects and not at the -- solution level, need to poke around to figure this out if not platform then platform = vstudio.solutionarch(cfg) end return string.format("%s|%s", cfg.buildcfg, platform) end -- -- Returns the Visual Studio tool ID for a given project type. -- function vstudio.tool(prj) if project.iscsharp(prj) then return "FAE04EC0-301F-11D3-BF4B-00C04F79EFBC" elseif project.isfsharp(prj) then return "F2A71F9B-5D33-465A-A702-920D77279786" elseif project.isc(prj) or project.iscpp(prj) then return "8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942" end end -- -- Load all required code, and return the module. -- include("vs200x_vcproj.lua") include("vs200x_vcproj_user.lua") include("vs2005_solution.lua") include("vs2005_dotnetbase.lua") include("vs2005_csproj.lua") include("vs2005_csproj_user.lua") include("vs2005_fsproj.lua") include("vs2005_fsproj_user.lua") include("vs2010_nuget.lua") include("vs2010_vcxproj.lua") include("vs2010_vcxproj_user.lua") include("vs2010_vcxproj_filters.lua") include("vs2010_rules_props.lua") include("vs2010_rules_targets.lua") include("vs2010_rules_xml.lua") include("vs2013_vcxitems.lua") return p.modules.vstudio