/**
Abstract representation of a package description file.
Copyright: © 2012-2014 rejectedsoftware e.K.
License: Subject to the terms of the MIT license, as written in the included LICENSE.txt file.
Authors: Sönke Ludwig, Matthias Dondorff
*/
module dub.recipe.packagerecipe;
import dub.compilers.compiler;
import dub.compilers.utils : warnOnSpecialCompilerFlags;
import dub.dependency;
import dub.internal.logging;
import dub.internal.vibecompat.core.file;
import dub.internal.vibecompat.inet.path;
import std.algorithm : findSplit, sort;
import std.array : join, split;
import std.exception : enforce;
import std.file;
import std.range;
import std.process : environment;
/**
Returns the individual parts of a qualified package name.
Sub qualified package names are lists of package names separated by ":". For
example, "packa:packb:packc" references a package named "packc" that is a
sub package of "packb", which in turn is a sub package of "packa".
*/
string[] getSubPackagePath(string package_name) @safe pure
{
return package_name.split(":");
}
/**
Returns the name of the top level package for a given (sub) package name.
In case of a top level package, the qualified name is returned unmodified.
*/
string getBasePackageName(string package_name) @safe pure
{
return package_name.findSplit(":")[0];
}
/**
Returns the qualified sub package part of the given package name.
This is the part of the package name excluding the base package
name. See also $(D getBasePackageName).
*/
string getSubPackageName(string package_name) @safe pure
{
return package_name.findSplit(":")[2];
}
@safe unittest
{
assert(getSubPackagePath("packa:packb:packc") == ["packa", "packb", "packc"]);
assert(getSubPackagePath("pack") == ["pack"]);
assert(getBasePackageName("packa:packb:packc") == "packa");
assert(getBasePackageName("pack") == "pack");
assert(getSubPackageName("packa:packb:packc") == "packb:packc");
assert(getSubPackageName("pack") == "");
}
/**
Represents the contents of a package recipe file (dub.json/dub.sdl) in an abstract way.
This structure is used to reason about package descriptions in isolation.
For higher level package handling, see the $(D Package) class.
*/
struct PackageRecipe {
string name;
string version_;
string description;
string homepage;
string[] authors;
string copyright;
string license;
string[] ddoxFilterArgs;
string ddoxTool;
BuildSettingsTemplate buildSettings;
ConfigurationInfo[] configurations;
BuildSettingsTemplate[string] buildTypes;
ToolchainRequirements toolchainRequirements;
SubPackage[] subPackages;
inout(ConfigurationInfo) getConfiguration(string name)
inout {
foreach (c; configurations)
if (c.name == name)
return c;
throw new Exception("Unknown configuration: "~name);
}
/** Clones the package recipe recursively.
*/
PackageRecipe clone() const { return .clone(this); }
}
struct SubPackage
{
string path;
PackageRecipe recipe;
}
/// Describes minimal toolchain requirements
struct ToolchainRequirements
{
import std.typecons : Tuple, tuple;
/// DUB version requirement
Dependency dub = Dependency.any;
/// D front-end version requirement
Dependency frontend = Dependency.any;
/// DMD version requirement
Dependency dmd = Dependency.any;
/// LDC version requirement
Dependency ldc = Dependency.any;
/// GDC version requirement
Dependency gdc = Dependency.any;
/** Get the list of supported compilers.
Returns:
An array of couples of compiler name and compiler requirement
*/
@property Tuple!(string, Dependency)[] supportedCompilers() const
{
Tuple!(string, Dependency)[] res;
if (dmd != Dependency.invalid) res ~= Tuple!(string, Dependency)("dmd", dmd);
if (ldc != Dependency.invalid) res ~= Tuple!(string, Dependency)("ldc", ldc);
if (gdc != Dependency.invalid) res ~= Tuple!(string, Dependency)("gdc", gdc);
return res;
}
bool empty()
const {
import std.algorithm.searching : all;
return only(dub, frontend, dmd, ldc, gdc)
.all!(r => r == Dependency.any);
}
}
/// Bundles information about a build configuration.
struct ConfigurationInfo {
string name;
string[] platforms;
BuildSettingsTemplate buildSettings;
this(string name, BuildSettingsTemplate build_settings)
{
enforce(!name.empty, "Configuration name is empty.");
this.name = name;
this.buildSettings = build_settings;
}
bool matchesPlatform(in BuildPlatform platform)
const {
if( platforms.empty ) return true;
foreach(p; platforms)
if (platform.matchesSpecification(p))
return true;
return false;
}
}
/// This keeps general information about how to build a package.
/// It contains functions to create a specific BuildSetting, targeted at
/// a certain BuildPlatform.
struct BuildSettingsTemplate {
Dependency[string] dependencies;
BuildSettingsTemplate[string] dependencyBuildSettings;
string systemDependencies;
TargetType targetType = TargetType.autodetect;
string targetPath;
string targetName;
string workingDirectory;
string mainSourceFile;
string[string] subConfigurations;
string[][string] dflags;
string[][string] lflags;
string[][string] libs;
string[][string] sourceFiles;
string[][string] sourcePaths;
string[][string] excludedSourceFiles;
string[][string] injectSourceFiles;
string[][string] copyFiles;
string[][string] extraDependencyFiles;
string[][string] versions;
string[][string] debugVersions;
string[][string] versionFilters;
string[][string] debugVersionFilters;
string[][string] importPaths;
string[][string] stringImportPaths;
string[][string] preGenerateCommands;
string[][string] postGenerateCommands;
string[][string] preBuildCommands;
string[][string] postBuildCommands;
string[][string] preRunCommands;
string[][string] postRunCommands;
string[string][string] environments;
string[string][string] buildEnvironments;
string[string][string] runEnvironments;
string[string][string] preGenerateEnvironments;
string[string][string] postGenerateEnvironments;
string[string][string] preBuildEnvironments;
string[string][string] postBuildEnvironments;
string[string][string] preRunEnvironments;
string[string][string] postRunEnvironments;
Flags!BuildRequirement[string] buildRequirements;
Flags!BuildOption[string] buildOptions;
BuildSettingsTemplate dup() const {
return clone(this);
}
/// Constructs a BuildSettings object from this template.
void getPlatformSettings(ref BuildSettings dst, in BuildPlatform platform, NativePath base_path)
const {
dst.targetType = this.targetType;
if (!this.targetPath.empty) dst.targetPath = this.targetPath;
if (!this.targetName.empty) dst.targetName = this.targetName;
if (!this.workingDirectory.empty) dst.workingDirectory = this.workingDirectory;
if (!this.mainSourceFile.empty) {
auto p = NativePath(this.mainSourceFile);
p.normalize();
dst.mainSourceFile = p.toNativeString();
dst.addSourceFiles(dst.mainSourceFile);
}
string[] collectFiles(in string[][string] paths_map, string pattern)
{
auto files = appender!(string[]);
import dub.project : buildSettingsVars;
import std.typecons : Nullable;
static Nullable!(string[string]) envVarCache;
if (envVarCache.isNull) envVarCache = environment.toAA();
foreach (suffix, paths; paths_map) {
if (!platform.matchesSpecification(suffix))
continue;
foreach (spath; paths) {
enforce(!spath.empty, "Paths must not be empty strings.");
auto path = NativePath(spath);
if (!path.absolute) path = base_path ~ path;
if (!existsFile(path) || !isDir(path.toNativeString())) {
import std.algorithm : any, find;
const hasVar = chain(buildSettingsVars, envVarCache.get.byKey).any!((string var) {
return spath.find("$"~var).length > 0 || spath.find("${"~var~"}").length > 0;
});
if (!hasVar)
logWarn("Invalid source/import path: %s", path.toNativeString());
continue;
}
auto pstr = path.toNativeString();
foreach (d; dirEntries(pstr, pattern, SpanMode.depth)) {
import std.path : baseName, pathSplitter;
import std.algorithm.searching : canFind;
// eliminate any hidden files, or files in hidden directories. But always include
// files that are listed inside hidden directories that are specifically added to
// the project.
if (d.isDir || pathSplitter(d.name[pstr.length .. $])
.canFind!(name => name.length && name[0] == '.'))
continue;
auto src = NativePath(d.name).relativeTo(base_path);
files ~= src.toNativeString();
}
}
}
return files.data;
}
// collect source files
dst.addSourceFiles(collectFiles(sourcePaths, "*.d"));
auto sourceFiles = dst.sourceFiles.sort();
// collect import files and remove sources
import std.algorithm : copy, setDifference;
auto importFiles = collectFiles(importPaths, "*.{d,di}").sort();
immutable nremoved = importFiles.setDifference(sourceFiles).copy(importFiles.release).length;
importFiles = importFiles[0 .. $ - nremoved];
dst.addImportFiles(importFiles.release);
dst.addStringImportFiles(collectFiles(stringImportPaths, "*"));
getPlatformSetting!("dflags", "addDFlags")(dst, platform);
getPlatformSetting!("lflags", "addLFlags")(dst, platform);
getPlatformSetting!("libs", "addLibs")(dst, platform);
getPlatformSetting!("sourceFiles", "addSourceFiles")(dst, platform);
getPlatformSetting!("excludedSourceFiles", "removeSourceFiles")(dst, platform);
getPlatformSetting!("injectSourceFiles", "addInjectSourceFiles")(dst, platform);
getPlatformSetting!("copyFiles", "addCopyFiles")(dst, platform);
getPlatformSetting!("extraDependencyFiles", "addExtraDependencyFiles")(dst, platform);
getPlatformSetting!("versions", "addVersions")(dst, platform);
getPlatformSetting!("debugVersions", "addDebugVersions")(dst, platform);
getPlatformSetting!("versionFilters", "addVersionFilters")(dst, platform);
getPlatformSetting!("debugVersionFilters", "addDebugVersionFilters")(dst, platform);
getPlatformSetting!("importPaths", "addImportPaths")(dst, platform);
getPlatformSetting!("stringImportPaths", "addStringImportPaths")(dst, platform);
getPlatformSetting!("preGenerateCommands", "addPreGenerateCommands")(dst, platform);
getPlatformSetting!("postGenerateCommands", "addPostGenerateCommands")(dst, platform);
getPlatformSetting!("preBuildCommands", "addPreBuildCommands")(dst, platform);
getPlatformSetting!("postBuildCommands", "addPostBuildCommands")(dst, platform);
getPlatformSetting!("preRunCommands", "addPreRunCommands")(dst, platform);
getPlatformSetting!("postRunCommands", "addPostRunCommands")(dst, platform);
getPlatformSetting!("environments", "addEnvironments")(dst, platform);
getPlatformSetting!("buildEnvironments", "addBuildEnvironments")(dst, platform);
getPlatformSetting!("runEnvironments", "addRunEnvironments")(dst, platform);
getPlatformSetting!("preGenerateEnvironments", "addPreGenerateEnvironments")(dst, platform);
getPlatformSetting!("postGenerateEnvironments", "addPostGenerateEnvironments")(dst, platform);
getPlatformSetting!("preBuildEnvironments", "addPreBuildEnvironments")(dst, platform);
getPlatformSetting!("postBuildEnvironments", "addPostBuildEnvironments")(dst, platform);
getPlatformSetting!("preRunEnvironments", "addPreRunEnvironments")(dst, platform);
getPlatformSetting!("postRunEnvironments", "addPostRunEnvironments")(dst, platform);
getPlatformSetting!("buildRequirements", "addRequirements")(dst, platform);
getPlatformSetting!("buildOptions", "addOptions")(dst, platform);
}
void getPlatformSetting(string name, string addname)(ref BuildSettings dst, in BuildPlatform platform)
const {
foreach(suffix, values; __traits(getMember, this, name)){
if( platform.matchesSpecification(suffix) )
__traits(getMember, dst, addname)(values);
}
}
void warnOnSpecialCompilerFlags(string package_name, string config_name)
{
auto nodef = false;
auto noprop = false;
foreach (req; this.buildRequirements) {
if (req & BuildRequirement.noDefaultFlags) nodef = true;
if (req & BuildRequirement.relaxProperties) noprop = true;
}
if (noprop) {
logWarn(`Warning: "buildRequirements": ["relaxProperties"] is deprecated and is now the default behavior. Note that the -property switch will probably be removed in future versions of DMD.`);
logWarn("");
}
if (nodef) {
logWarn("Warning: This package uses the \"noDefaultFlags\" build requirement. Please use only for development purposes and not for released packages.");
logWarn("");
} else {
string[] all_dflags;
Flags!BuildOption all_options;
foreach (flags; this.dflags) all_dflags ~= flags;
foreach (options; this.buildOptions) all_options |= options;
.warnOnSpecialCompilerFlags(all_dflags, all_options, package_name, config_name);
}
}
}
package(dub) void checkPlatform(const scope ref ToolchainRequirements tr, BuildPlatform platform, string package_name)
{
import dub.compilers.utils : dmdLikeVersionToSemverLike;
import std.algorithm.iteration : map;
import std.format : format;
string compilerver;
Dependency compilerspec;
switch (platform.compiler) {
default:
compilerspec = Dependency.any;
compilerver = "0.0.0";
break;
case "dmd":
compilerspec = tr.dmd;
compilerver = platform.compilerVersion.length
? dmdLikeVersionToSemverLike(platform.compilerVersion)
: "0.0.0";
break;
case "ldc":
compilerspec = tr.ldc;
compilerver = platform.compilerVersion;
if (!compilerver.length) compilerver = "0.0.0";
break;
case "gdc":
compilerspec = tr.gdc;
compilerver = platform.compilerVersion;
if (!compilerver.length) compilerver = "0.0.0";
break;
}
enforce(compilerspec != Dependency.invalid,
format(
"Installed %s %s is not supported by %s. Supported compiler(s):\n%s",
platform.compiler, platform.compilerVersion, package_name,
tr.supportedCompilers.map!((cs) {
auto str = " - " ~ cs[0];
if (cs[1] != Dependency.any) str ~= ": " ~ cs[1].toString();
return str;
}).join("\n")
)
);
enforce(compilerspec.matches(compilerver),
format(
"Installed %s-%s does not comply with %s compiler requirement: %s %s\n" ~
"Please consider upgrading your installation.",
platform.compiler, platform.compilerVersion,
package_name, platform.compiler, compilerspec
)
);
enforce(tr.frontend.matches(dmdLikeVersionToSemverLike(platform.frontendVersionString)),
format(
"Installed %s-%s with frontend %s does not comply with %s frontend requirement: %s\n" ~
"Please consider upgrading your installation.",
platform.compiler, platform.compilerVersion,
platform.frontendVersionString, package_name, tr.frontend
)
);
}
package bool addRequirement(ref ToolchainRequirements req, string name, string value)
{
switch (name) {
default: return false;
case "dub": req.dub = parseDependency(value); break;
case "frontend": req.frontend = parseDMDDependency(value); break;
case "ldc": req.ldc = parseDependency(value); break;
case "gdc": req.gdc = parseDependency(value); break;
case "dmd": req.dmd = parseDMDDependency(value); break;
}
return true;
}
private static Dependency parseDependency(string dep)
{
if (dep == "no") return Dependency.invalid;
return Dependency(dep);
}
private static Dependency parseDMDDependency(string dep)
{
import dub.compilers.utils : dmdLikeVersionToSemverLike;
import dub.dependency : Dependency;
import std.algorithm : map, splitter;
import std.array : join;
if (dep == "no") return Dependency.invalid;
return dep
.splitter(' ')
.map!(r => dmdLikeVersionToSemverLike(r))
.join(' ')
.Dependency;
}
private T clone(T)(ref const(T) val)
{
import std.sumtype;
import std.traits : isSomeString, isDynamicArray, isAssociativeArray, isBasicType, ValueType;
static if (is(T == immutable)) return val;
else static if (isBasicType!T) return val;
else static if (isDynamicArray!T) {
alias V = typeof(T.init[0]);
static if (is(V == immutable)) return val;
else {
T ret = new V[val.length];
foreach (i, ref f; val)
ret[i] = clone!V(f);
return ret;
}
} else static if (isAssociativeArray!T) {
alias V = ValueType!T;
T ret;
foreach (k, ref f; val)
ret[k] = clone!V(f);
return ret;
} else static if (is(T == SumType!A, A...)) {
return val.match!((any) => T(clone(any)));
} else static if (is(T == struct)) {
T ret;
foreach (i, M; typeof(T.tupleof))
ret.tupleof[i] = clone!M(val.tupleof[i]);
return ret;
} else static assert(false, "Unsupported type: "~T.stringof);
}
unittest { // issue #1407 - duplicate main source file
{
BuildSettingsTemplate t;
t.mainSourceFile = "./foo.d";
t.sourceFiles[""] = ["foo.d"];
BuildSettings bs;
t.getPlatformSettings(bs, BuildPlatform.init, NativePath("/"));
assert(bs.sourceFiles == ["foo.d"]);
}
version (Windows) {{
BuildSettingsTemplate t;
t.mainSourceFile = "src/foo.d";
t.sourceFiles[""] = ["src\\foo.d"];
BuildSettings bs;
t.getPlatformSettings(bs, BuildPlatform.init, NativePath("/"));
assert(bs.sourceFiles == ["src\\foo.d"]);
}}
}
