/**
Representing a full project, with a root Package and several dependencies.
Copyright: © 2012-2013 Matthias Dondorff, 2012-2016 Sönke Ludwig
License: Subject to the terms of the MIT license, as written in the included LICENSE.txt file.
Authors: Matthias Dondorff, Sönke Ludwig
*/
module dub.project;
import dub.compilers.compiler;
import dub.dependency;
import dub.description;
import dub.internal.utils;
import dub.internal.vibecompat.core.file;
import dub.internal.vibecompat.core.log;
import dub.internal.vibecompat.data.json;
import dub.internal.vibecompat.inet.url;
import dub.package_;
import dub.packagemanager;
import dub.generators.generator;
import std.algorithm;
import std.array;
import std.conv : to;
import std.datetime;
import std.exception : enforce;
import std.string;
import std.encoding : sanitize;
/**
Represents a full project, a root package with its dependencies and package
selection.
All dependencies must be available locally so that the package dependency
graph can be built. Use `Project.reinit` if necessary for reloading
dependencies after more packages are available.
*/
class Project {
private {
PackageManager m_packageManager;
Json m_packageSettings;
Package m_rootPackage;
Package[] m_dependencies;
Package[][Package] m_dependees;
SelectedVersions m_selections;
bool m_hasAllDependencies;
string[string] m_overriddenConfigs;
}
/** Loads a project.
Params:
package_manager = Package manager instance to use for loading
dependencies
project_path = Path of the root package to load
pack = An existing `Package` instance to use as the root package
*/
this(PackageManager package_manager, NativePath project_path)
{
Package pack;
auto packageFile = Package.findPackageFile(project_path);
if (packageFile.empty) {
logWarn("There was no package description found for the application in '%s'.", project_path.toNativeString());
pack = new Package(PackageRecipe.init, project_path);
} else {
pack = package_manager.getOrLoadPackage(project_path, packageFile);
}
this(package_manager, pack);
}
/// ditto
this(PackageManager package_manager, Package pack)
{
m_packageManager = package_manager;
m_rootPackage = pack;
m_packageSettings = Json.emptyObject;
try m_packageSettings = jsonFromFile(m_rootPackage.path ~ ".dub/dub.json", true);
catch(Exception t) logDiagnostic("Failed to read .dub/dub.json: %s", t.msg);
auto selverfile = m_rootPackage.path ~ SelectedVersions.defaultFile;
if (existsFile(selverfile)) {
try m_selections = new SelectedVersions(selverfile);
catch(Exception e) {
logWarn("Failed to load %s: %s", SelectedVersions.defaultFile, e.msg);
logDiagnostic("Full error: %s", e.toString().sanitize);
m_selections = new SelectedVersions;
}
} else m_selections = new SelectedVersions;
reinit();
}
/** List of all resolved dependencies.
This includes all direct and indirect dependencies of all configurations
combined. Optional dependencies that were not chosen are not included.
*/
@property const(Package[]) dependencies() const { return m_dependencies; }
/// The root package of the project.
@property inout(Package) rootPackage() inout { return m_rootPackage; }
/// The versions to use for all dependencies. Call reinit() after changing these.
@property inout(SelectedVersions) selections() inout { return m_selections; }
/// Package manager instance used by the project.
@property inout(PackageManager) packageManager() inout { return m_packageManager; }
/** Determines if all dependencies necessary to build have been collected.
If this function returns `false`, it may be necessary to add more entries
to `selections`, or to use `Dub.upgrade` to automatically select all
missing dependencies.
*/
bool hasAllDependencies() const { return m_hasAllDependencies; }
/** Allows iteration of the dependency tree in topological order
*/
int delegate(int delegate(ref Package)) getTopologicalPackageList(bool children_first = false, Package root_package = null, string[string] configs = null)
{
// ugly way to avoid code duplication since inout isn't compatible with foreach type inference
return cast(int delegate(int delegate(ref Package)))(cast(const)this).getTopologicalPackageList(children_first, root_package, configs);
}
/// ditto
int delegate(int delegate(ref const Package)) getTopologicalPackageList(bool children_first = false, in Package root_package = null, string[string] configs = null)
const {
const(Package) rootpack = root_package ? root_package : m_rootPackage;
int iterator(int delegate(ref const Package) del)
{
int ret = 0;
bool[const(Package)] visited;
void perform_rec(in Package p){
if( p in visited ) return;
visited[p] = true;
if( !children_first ){
ret = del(p);
if( ret ) return;
}
auto cfg = configs.get(p.name, null);
PackageDependency[] deps;
if (!cfg.length) deps = p.getAllDependencies();
else {
auto depmap = p.getDependencies(cfg);
deps = depmap.byKey.map!(k => PackageDependency(k, depmap[k])).array;
}
deps.sort!((a, b) => a.name < b.name);
foreach (d; deps) {
auto dependency = getDependency(d.name, true);
assert(dependency || d.spec.optional,
format("Non-optional dependency %s of %s not found in dependency tree!?.", d.name, p.name));
if(dependency) perform_rec(dependency);
if( ret ) return;
}
if( children_first ){
ret = del(p);
if( ret ) return;
}
}
perform_rec(rootpack);
return ret;
}
return &iterator;
}
/** Retrieves a particular dependency by name.
Params:
name = (Qualified) package name of the dependency
is_optional = If set to true, will return `null` for unsatisfiable
dependencies instead of throwing an exception.
*/
inout(Package) getDependency(string name, bool is_optional)
inout {
foreach(dp; m_dependencies)
if( dp.name == name )
return dp;
if (!is_optional) throw new Exception("Unknown dependency: "~name);
else return null;
}
/** Returns the name of the default build configuration for the specified
target platform.
Params:
platform = The target build platform
allow_non_library_configs = If set to true, will use the first
possible configuration instead of the first "executable"
configuration.
*/
string getDefaultConfiguration(BuildPlatform platform, bool allow_non_library_configs = true)
const {
auto cfgs = getPackageConfigs(platform, null, allow_non_library_configs);
return cfgs[m_rootPackage.name];
}
/** Overrides the configuration chosen for a particular package in the
dependency graph.
Setting a certain configuration here is equivalent to removing all
but one configuration from the package.
Params:
package_ = The package for which to force selecting a certain
dependency
config = Name of the configuration to force
*/
void overrideConfiguration(string package_, string config)
{
auto p = getDependency(package_, true);
enforce(p !is null,
format("Package '%s', marked for configuration override, is not present in dependency graph.", package_));
enforce(p.configurations.canFind(config),
format("Package '%s' does not have a configuration named '%s'.", package_, config));
m_overriddenConfigs[package_] = config;
}
/** Performs basic validation of various aspects of the package.
This will emit warnings to `stderr` if any discouraged names or
dependency patterns are found.
*/
void validate()
{
// some basic package lint
m_rootPackage.warnOnSpecialCompilerFlags();
string nameSuggestion() {
string ret;
ret ~= `Please modify the "name" field in %s accordingly.`.format(m_rootPackage.recipePath.toNativeString());
if (!m_rootPackage.recipe.buildSettings.targetName.length) {
if (m_rootPackage.recipePath.head.toString().endsWith(".sdl")) {
ret ~= ` You can then add 'targetName "%s"' to keep the current executable name.`.format(m_rootPackage.name);
} else {
ret ~= ` You can then add '"targetName": "%s"' to keep the current executable name.`.format(m_rootPackage.name);
}
}
return ret;
}
if (m_rootPackage.name != m_rootPackage.name.toLower()) {
logWarn(`WARNING: DUB package names should always be lower case. %s`, nameSuggestion());
} else if (!m_rootPackage.recipe.name.all!(ch => ch >= 'a' && ch <= 'z' || ch >= '0' && ch <= '9' || ch == '-' || ch == '_')) {
logWarn(`WARNING: DUB package names may only contain alphanumeric characters, `
~ `as well as '-' and '_'. %s`, nameSuggestion());
}
enforce(!m_rootPackage.name.canFind(' '), "Aborting due to the package name containing spaces.");
foreach (d; m_rootPackage.getAllDependencies())
if (d.spec.isExactVersion && d.spec.version_.isBranch) {
logWarn("WARNING: A deprecated branch based version specification is used "
~ "for the dependency %s. Please use numbered versions instead. Also "
~ "note that you can still use the %s file to override a certain "
~ "dependency to use a branch instead.",
d.name, SelectedVersions.defaultFile);
}
// search for orphan sub configurations
void warnSubConfig(string pack, string config) {
logWarn("The sub configuration directive \"%s\" -> \"%s\" "
~ "references a package that is not specified as a dependency "
~ "and will have no effect.", pack, config);
}
void checkSubConfig(string pack, string config) {
auto p = getDependency(pack, true);
if (p && !p.configurations.canFind(config)) {
logWarn("The sub configuration directive \"%s\" -> \"%s\" "
~ "references a configuration that does not exist.",
pack, config);
}
}
auto globalbs = m_rootPackage.getBuildSettings();
foreach (p, c; globalbs.subConfigurations) {
if (p !in globalbs.dependencies) warnSubConfig(p, c);
else checkSubConfig(p, c);
}
foreach (c; m_rootPackage.configurations) {
auto bs = m_rootPackage.getBuildSettings(c);
foreach (p, c; bs.subConfigurations) {
if (p !in bs.dependencies && p !in globalbs.dependencies)
warnSubConfig(p, c);
else checkSubConfig(p, c);
}
}
// check for version specification mismatches
bool[Package] visited;
void validateDependenciesRec(Package pack) {
// perform basic package linting
pack.simpleLint();
foreach (d; pack.getAllDependencies()) {
auto basename = getBasePackageName(d.name);
if (m_selections.hasSelectedVersion(basename)) {
auto selver = m_selections.getSelectedVersion(basename);
if (d.spec.merge(selver) == Dependency.invalid) {
logWarn("Selected package %s %s does not match the dependency specification %s in package %s. Need to \"dub upgrade\"?",
basename, selver, d.spec, pack.name);
}
}
auto deppack = getDependency(d.name, true);
if (deppack in visited) continue;
visited[deppack] = true;
if (deppack) validateDependenciesRec(deppack);
}
}
validateDependenciesRec(m_rootPackage);
}
/// Reloads dependencies.
void reinit()
{
m_dependencies = null;
m_hasAllDependencies = true;
m_packageManager.refresh(false);
void collectDependenciesRec(Package pack, int depth = 0)
{
auto indent = replicate(" ", depth);
logDebug("%sCollecting dependencies for %s", indent, pack.name);
indent ~= " ";
foreach (dep; pack.getAllDependencies()) {
Dependency vspec = dep.spec;
Package p;
auto basename = getBasePackageName(dep.name);
auto subname = getSubPackageName(dep.name);
// non-optional and optional-default dependencies (if no selections file exists)
// need to be satisfied
bool is_desired = !vspec.optional || m_selections.hasSelectedVersion(basename) || (vspec.default_ && m_selections.bare);
if (dep.name == m_rootPackage.basePackage.name) {
vspec = Dependency(m_rootPackage.version_);
p = m_rootPackage.basePackage;
} else if (basename == m_rootPackage.basePackage.name) {
vspec = Dependency(m_rootPackage.version_);
try p = m_packageManager.getSubPackage(m_rootPackage.basePackage, subname, false);
catch (Exception e) {
logDiagnostic("%sError getting sub package %s: %s", indent, dep.name, e.msg);
if (is_desired) m_hasAllDependencies = false;
continue;
}
} else if (m_selections.hasSelectedVersion(basename)) {
vspec = m_selections.getSelectedVersion(basename);
if (vspec.path.empty) p = m_packageManager.getBestPackage(dep.name, vspec);
else {
auto path = vspec.path;
if (!path.absolute) path = m_rootPackage.path ~ path;
p = m_packageManager.getOrLoadPackage(path, NativePath.init, true);
if (subname.length) p = m_packageManager.getSubPackage(p, subname, true);
}
} else if (m_dependencies.canFind!(d => getBasePackageName(d.name) == basename)) {
auto idx = m_dependencies.countUntil!(d => getBasePackageName(d.name) == basename);
auto bp = m_dependencies[idx].basePackage;
vspec = Dependency(bp.path);
if (subname.length) p = m_packageManager.getSubPackage(bp, subname, false);
else p = bp;
} else {
logDiagnostic("%sVersion selection for dependency %s (%s) of %s is missing.",
indent, basename, dep.name, pack.name);
}
if (!p && !vspec.path.empty) {
NativePath path = vspec.path;
if (!path.absolute) path = pack.path ~ path;
logDiagnostic("%sAdding local %s in %s", indent, dep.name, path);
p = m_packageManager.getOrLoadPackage(path, NativePath.init, true);
if (p.parentPackage !is null) {
logWarn("%sSub package %s must be referenced using the path to it's parent package.", indent, dep.name);
p = p.parentPackage;
}
if (subname.length) p = m_packageManager.getSubPackage(p, subname, false);
enforce(p.name == dep.name,
format("Path based dependency %s is referenced with a wrong name: %s vs. %s",
path.toNativeString(), dep.name, p.name));
}
if (!p) {
logDiagnostic("%sMissing dependency %s %s of %s", indent, dep.name, vspec, pack.name);
if (is_desired) m_hasAllDependencies = false;
continue;
}
if (!m_dependencies.canFind(p)) {
logDiagnostic("%sFound dependency %s %s", indent, dep.name, vspec.toString());
m_dependencies ~= p;
if (basename == m_rootPackage.basePackage.name)
p.warnOnSpecialCompilerFlags();
collectDependenciesRec(p, depth+1);
}
m_dependees[p] ~= pack;
//enforce(p !is null, "Failed to resolve dependency "~dep.name~" "~vspec.toString());
}
}
collectDependenciesRec(m_rootPackage);
}
/// Returns the name of the root package.
@property string name() const { return m_rootPackage ? m_rootPackage.name : "app"; }
/// Returns the names of all configurations of the root package.
@property string[] configurations() const { return m_rootPackage.configurations; }
/// Returns a map with the configuration for all packages in the dependency tree.
string[string] getPackageConfigs(in BuildPlatform platform, string config, bool allow_non_library = true)
const {
struct Vertex { string pack, config; }
struct Edge { size_t from, to; }
Vertex[] configs;
Edge[] edges;
string[][string] parents;
parents[m_rootPackage.name] = null;
foreach (p; getTopologicalPackageList())
foreach (d; p.getAllDependencies())
parents[d.name] ~= p.name;
size_t createConfig(string pack, string config) {
foreach (i, v; configs)
if (v.pack == pack && v.config == config)
return i;
assert(pack !in m_overriddenConfigs || config == m_overriddenConfigs[pack]);
logDebug("Add config %s %s", pack, config);
configs ~= Vertex(pack, config);
return configs.length-1;
}
bool haveConfig(string pack, string config) {
return configs.any!(c => c.pack == pack && c.config == config);
}
size_t createEdge(size_t from, size_t to) {
auto idx = edges.countUntil(Edge(from, to));
if (idx >= 0) return idx;
logDebug("Including %s %s -> %s %s", configs[from].pack, configs[from].config, configs[to].pack, configs[to].config);
edges ~= Edge(from, to);
return edges.length-1;
}
void removeConfig(size_t i) {
logDebug("Eliminating config %s for %s", configs[i].config, configs[i].pack);
auto had_dep_to_pack = new bool[configs.length];
auto still_has_dep_to_pack = new bool[configs.length];
edges = edges.filter!((e) {
if (e.to == i) {
had_dep_to_pack[e.from] = true;
return false;
} else if (configs[e.to].pack == configs[i].pack) {
still_has_dep_to_pack[e.from] = true;
}
if (e.from == i) return false;
return true;
}).array;
configs[i] = Vertex.init; // mark config as removed
// also remove any configs that cannot be satisfied anymore
foreach (j; 0 .. configs.length)
if (j != i && had_dep_to_pack[j] && !still_has_dep_to_pack[j])
removeConfig(j);
}
bool isReachable(string pack, string conf) {
if (pack == configs[0].pack && configs[0].config == conf) return true;
foreach (e; edges)
if (configs[e.to].pack == pack && configs[e.to].config == conf)
return true;
return false;
//return (pack == configs[0].pack && conf == configs[0].config) || edges.canFind!(e => configs[e.to].pack == pack && configs[e.to].config == config);
}
bool isReachableByAllParentPacks(size_t cidx) {
bool[string] r;
foreach (p; parents[configs[cidx].pack]) r[p] = false;
foreach (e; edges) {
if (e.to != cidx) continue;
if (auto pp = configs[e.from].pack in r) *pp = true;
}
foreach (bool v; r) if (!v) return false;
return true;
}
string[] allconfigs_path;
void determineDependencyConfigs(in Package p, string c)
{
string[][string] depconfigs;
foreach (d; p.getAllDependencies()) {
auto dp = getDependency(d.name, true);
if (!dp) continue;
string[] cfgs;
if (auto pc = dp.name in m_overriddenConfigs) cfgs = [*pc];
else {
auto subconf = p.getSubConfiguration(c, dp, platform);
if (!subconf.empty) cfgs = [subconf];
else cfgs = dp.getPlatformConfigurations(platform);
}
cfgs = cfgs.filter!(c => haveConfig(d.name, c)).array;
// if no valid configuration was found for a dependency, don't include the
// current configuration
if (!cfgs.length) {
logDebug("Skip %s %s (missing configuration for %s)", p.name, c, dp.name);
return;
}
depconfigs[d.name] = cfgs;
}
// add this configuration to the graph
size_t cidx = createConfig(p.name, c);
foreach (d; p.getAllDependencies())
foreach (sc; depconfigs.get(d.name, null))
createEdge(cidx, createConfig(d.name, sc));
}
// create a graph of all possible package configurations (package, config) -> (subpackage, subconfig)
void determineAllConfigs(in Package p)
{
auto idx = allconfigs_path.countUntil(p.name);
enforce(idx < 0, format("Detected dependency cycle: %s", (allconfigs_path[idx .. $] ~ p.name).join("->")));
allconfigs_path ~= p.name;
scope (exit) allconfigs_path.length--;
// first, add all dependency configurations
foreach (d; p.getAllDependencies) {
auto dp = getDependency(d.name, true);
if (!dp) continue;
determineAllConfigs(dp);
}
// for each configuration, determine the configurations usable for the dependencies
if (auto pc = p.name in m_overriddenConfigs)
determineDependencyConfigs(p, *pc);
else
foreach (c; p.getPlatformConfigurations(platform, p is m_rootPackage && allow_non_library))
determineDependencyConfigs(p, c);
}
if (config.length) createConfig(m_rootPackage.name, config);
determineAllConfigs(m_rootPackage);
// successively remove configurations until only one configuration per package is left
bool changed;
do {
// remove all configs that are not reachable by all parent packages
changed = false;
foreach (i, ref c; configs) {
if (c == Vertex.init) continue; // ignore deleted configurations
if (!isReachableByAllParentPacks(i)) {
logDebug("%s %s NOT REACHABLE by all of (%s):", c.pack, c.config, parents[c.pack]);
removeConfig(i);
changed = true;
}
}
// when all edges are cleaned up, pick one package and remove all but one config
if (!changed) {
foreach (p; getTopologicalPackageList()) {
size_t cnt = 0;
foreach (i, ref c; configs)
if (c.pack == p.name && ++cnt > 1) {
logDebug("NON-PRIMARY: %s %s", c.pack, c.config);
removeConfig(i);
}
if (cnt > 1) {
changed = true;
break;
}
}
}
} while (changed);
// print out the resulting tree
foreach (e; edges) logDebug(" %s %s -> %s %s", configs[e.from].pack, configs[e.from].config, configs[e.to].pack, configs[e.to].config);
// return the resulting configuration set as an AA
string[string] ret;
foreach (c; configs) {
if (c == Vertex.init) continue; // ignore deleted configurations
assert(ret.get(c.pack, c.config) == c.config, format("Conflicting configurations for %s found: %s vs. %s", c.pack, c.config, ret[c.pack]));
logDebug("Using configuration '%s' for %s", c.config, c.pack);
ret[c.pack] = c.config;
}
// check for conflicts (packages missing in the final configuration graph)
void checkPacksRec(in Package pack) {
auto pc = pack.name in ret;
enforce(pc !is null, "Could not resolve configuration for package "~pack.name);
foreach (p, dep; pack.getDependencies(*pc)) {
auto deppack = getDependency(p, dep.optional);
if (deppack) checkPacksRec(deppack);
}
}
checkPacksRec(m_rootPackage);
return ret;
}
/**
* Fills `dst` with values from this project.
*
* `dst` gets initialized according to the given platform and config.
*
* Params:
* dst = The BuildSettings struct to fill with data.
* platform = The platform to retrieve the values for.
* config = Values of the given configuration will be retrieved.
* root_package = If non null, use it instead of the project's real root package.
* shallow = If true, collects only build settings for the main package (including inherited settings) and doesn't stop on target type none and sourceLibrary.
*/
void addBuildSettings(ref BuildSettings dst, in BuildPlatform platform, string config, in Package root_package = null, bool shallow = false)
const {
import dub.internal.utils : stripDlangSpecialChars;
auto configs = getPackageConfigs(platform, config);
foreach (pkg; this.getTopologicalPackageList(false, root_package, configs)) {
auto pkg_path = pkg.path.toNativeString();
dst.addVersions(["Have_" ~ stripDlangSpecialChars(pkg.name)]);
assert(pkg.name in configs, "Missing configuration for "~pkg.name);
logDebug("Gathering build settings for %s (%s)", pkg.name, configs[pkg.name]);
auto psettings = pkg.getBuildSettings(platform, configs[pkg.name]);
if (psettings.targetType != TargetType.none) {
if (shallow && pkg !is m_rootPackage)
psettings.sourceFiles = null;
processVars(dst, this, pkg, psettings);
if (psettings.importPaths.empty)
logWarn(`Package %s (configuration "%s") defines no import paths, use {"importPaths": [...]} or the default package directory structure to fix this.`, pkg.name, configs[pkg.name]);
if (psettings.mainSourceFile.empty && pkg is m_rootPackage && psettings.targetType == TargetType.executable)
logWarn(`Executable configuration "%s" of package %s defines no main source file, this may cause certain build modes to fail. Add an explicit "mainSourceFile" to the package description to fix this.`, configs[pkg.name], pkg.name);
}
if (pkg is m_rootPackage) {
if (!shallow) {
enforce(psettings.targetType != TargetType.none, "Main package has target type \"none\" - stopping build.");
enforce(psettings.targetType != TargetType.sourceLibrary, "Main package has target type \"sourceLibrary\" which generates no target - stopping build.");
}
dst.targetType = psettings.targetType;
dst.targetPath = psettings.targetPath;
dst.targetName = psettings.targetName;
if (!psettings.workingDirectory.empty)
dst.workingDirectory = processVars(psettings.workingDirectory, this, pkg, true);
if (psettings.mainSourceFile.length)
dst.mainSourceFile = processVars(psettings.mainSourceFile, this, pkg, true);
}
}
// always add all version identifiers of all packages
foreach (pkg; this.getTopologicalPackageList(false, null, configs)) {
auto psettings = pkg.getBuildSettings(platform, configs[pkg.name]);
dst.addVersions(psettings.versions);
}
}
/** Fills `dst` with build settings specific to the given build type.
Params:
dst = The `BuildSettings` instance to add the build settings to
platform = Target build platform
build_type = Name of the build type
for_root_package = Selects if the build settings are for the root
package or for one of the dependencies. Unittest flags will
only be added to the root package.
*/
void addBuildTypeSettings(ref BuildSettings dst, in BuildPlatform platform, string build_type, bool for_root_package = true)
{
bool usedefflags = !(dst.requirements & BuildRequirement.noDefaultFlags);
if (usedefflags) {
BuildSettings btsettings;
m_rootPackage.addBuildTypeSettings(btsettings, platform, build_type);
if (!for_root_package) {
// don't propagate unittest switch to dependencies, as dependent
// unit tests aren't run anyway and the additional code may
// cause linking to fail on Windows (issue #640)
btsettings.removeOptions(BuildOption.unittests);
}
processVars(dst, this, m_rootPackage, btsettings);
}
}
/// Outputs a build description of the project, including its dependencies.
ProjectDescription describe(GeneratorSettings settings)
{
import dub.generators.targetdescription;
// store basic build parameters
ProjectDescription ret;
ret.rootPackage = m_rootPackage.name;
ret.configuration = settings.config;
ret.buildType = settings.buildType;
ret.compiler = settings.platform.compiler;
ret.architecture = settings.platform.architecture;
ret.platform = settings.platform.platform;
// collect high level information about projects (useful for IDE display)
auto configs = getPackageConfigs(settings.platform, settings.config);
ret.packages ~= m_rootPackage.describe(settings.platform, settings.config);
foreach (dep; m_dependencies)
ret.packages ~= dep.describe(settings.platform, configs[dep.name]);
foreach (p; getTopologicalPackageList(false, null, configs))
ret.packages[ret.packages.countUntil!(pp => pp.name == p.name)].active = true;
if (settings.buildType.length) {
// collect build target information (useful for build tools)
auto gen = new TargetDescriptionGenerator(this);
try {
gen.generate(settings);
ret.targets = gen.targetDescriptions;
ret.targetLookup = gen.targetDescriptionLookup;
} catch (Exception e) {
logDiagnostic("Skipping targets description: %s", e.msg);
logDebug("Full error: %s", e.toString().sanitize);
}
}
return ret;
}
private string[] listBuildSetting(string attributeName)(BuildPlatform platform,
string config, ProjectDescription projectDescription, Compiler compiler, bool disableEscaping)
{
return listBuildSetting!attributeName(platform, getPackageConfigs(platform, config),
projectDescription, compiler, disableEscaping);
}
private string[] listBuildSetting(string attributeName)(BuildPlatform platform,
string[string] configs, ProjectDescription projectDescription, Compiler compiler, bool disableEscaping)
{
if (compiler)
return formatBuildSettingCompiler!attributeName(platform, configs, projectDescription, compiler, disableEscaping);
else
return formatBuildSettingPlain!attributeName(platform, configs, projectDescription);
}
// Output a build setting formatted for a compiler
private string[] formatBuildSettingCompiler(string attributeName)(BuildPlatform platform,
string[string] configs, ProjectDescription projectDescription, Compiler compiler, bool disableEscaping)
{
import std.process : escapeShellFileName;
import std.path : dirSeparator;
assert(compiler);
auto targetDescription = projectDescription.lookupTarget(projectDescription.rootPackage);
auto buildSettings = targetDescription.buildSettings;
string[] values;
switch (attributeName)
{
case "dflags":
case "linkerFiles":
case "mainSourceFile":
case "importFiles":
values = formatBuildSettingPlain!attributeName(platform, configs, projectDescription);
break;
case "lflags":
case "sourceFiles":
case "versions":
case "debugVersions":
case "importPaths":
case "stringImportPaths":
case "options":
auto bs = buildSettings.dup;
bs.dflags = null;
// Ensure trailing slash on directory paths
auto ensureTrailingSlash = (string path) => path.endsWith(dirSeparator) ? path : path ~ dirSeparator;
static if (attributeName == "importPaths")
bs.importPaths = bs.importPaths.map!(ensureTrailingSlash).array();
else static if (attributeName == "stringImportPaths")
bs.stringImportPaths = bs.stringImportPaths.map!(ensureTrailingSlash).array();
compiler.prepareBuildSettings(bs, BuildSetting.all & ~to!BuildSetting(attributeName));
values = bs.dflags;
break;
case "libs":
auto bs = buildSettings.dup;
bs.dflags = null;
bs.lflags = null;
bs.sourceFiles = null;
bs.targetType = TargetType.none; // Force Compiler to NOT omit dependency libs when package is a library.
compiler.prepareBuildSettings(bs, BuildSetting.all & ~to!BuildSetting(attributeName));
if (bs.lflags)
values = compiler.lflagsToDFlags( bs.lflags );
else if (bs.sourceFiles)
values = compiler.lflagsToDFlags( bs.sourceFiles );
else
values = bs.dflags;
break;
default: assert(0);
}
// Escape filenames and paths
if(!disableEscaping)
{
switch (attributeName)
{
case "mainSourceFile":
case "linkerFiles":
case "copyFiles":
case "importFiles":
case "stringImportFiles":
case "sourceFiles":
case "importPaths":
case "stringImportPaths":
return values.map!(escapeShellFileName).array();
default:
return values;
}
}
return values;
}
// Output a build setting without formatting for any particular compiler
private string[] formatBuildSettingPlain(string attributeName)(BuildPlatform platform, string[string] configs, ProjectDescription projectDescription)
{
import std.path : buildNormalizedPath, dirSeparator;
import std.range : only;
string[] list;
enforce(attributeName == "targetType" || projectDescription.lookupRootPackage().targetType != TargetType.none,
"Target type is 'none'. Cannot list build settings.");
static if (attributeName == "targetType")
if (projectDescription.rootPackage !in projectDescription.targetLookup)
return ["none"];
auto targetDescription = projectDescription.lookupTarget(projectDescription.rootPackage);
auto buildSettings = targetDescription.buildSettings;
// Return any BuildSetting member attributeName as a range of strings. Don't attempt to fixup values.
// allowEmptyString: When the value is a string (as opposed to string[]),
// is empty string an actual permitted value instead of
// a missing value?
auto getRawBuildSetting(Package pack, bool allowEmptyString) {
auto value = __traits(getMember, buildSettings, attributeName);
static if( is(typeof(value) == string[]) )
return value;
else static if( is(typeof(value) == string) )
{
auto ret = only(value);
// only() has a different return type from only(value), so we
// have to empty the range rather than just returning only().
if(value.empty && !allowEmptyString) {
ret.popFront();
assert(ret.empty);
}
return ret;
}
else static if( is(typeof(value) == enum) )
return only(value);
else static if( is(typeof(value) == BuildRequirements) )
return only(cast(BuildRequirement) cast(int) value.values);
else static if( is(typeof(value) == BuildOptions) )
return only(cast(BuildOption) cast(int) value.values);
else
static assert(false, "Type of BuildSettings."~attributeName~" is unsupported.");
}
// Adjust BuildSetting member attributeName as needed.
// Returns a range of strings.
auto getFixedBuildSetting(Package pack) {
// Is relative path(s) to a directory?
enum isRelativeDirectory =
attributeName == "importPaths" || attributeName == "stringImportPaths" ||
attributeName == "targetPath" || attributeName == "workingDirectory";
// Is relative path(s) to a file?
enum isRelativeFile =
attributeName == "sourceFiles" || attributeName == "linkerFiles" ||
attributeName == "importFiles" || attributeName == "stringImportFiles" ||
attributeName == "copyFiles" || attributeName == "mainSourceFile";
// For these, empty string means "main project directory", not "missing value"
enum allowEmptyString =
attributeName == "targetPath" || attributeName == "workingDirectory";
enum isEnumBitfield =
attributeName == "requirements" || attributeName == "options";
enum isEnum = attributeName == "targetType";
auto values = getRawBuildSetting(pack, allowEmptyString);
string fixRelativePath(string importPath) { return buildNormalizedPath(pack.path.toString(), importPath); }
static string ensureTrailingSlash(string path) { return path.endsWith(dirSeparator) ? path : path ~ dirSeparator; }
static if(isRelativeDirectory) {
// Return full paths for the paths, making sure a
// directory separator is on the end of each path.
return values.map!(fixRelativePath).map!(ensureTrailingSlash);
}
else static if(isRelativeFile) {
// Return full paths.
return values.map!(fixRelativePath);
}
else static if(isEnumBitfield)
return bitFieldNames(values.front);
else static if (isEnum)
return [values.front.to!string];
else
return values;
}
foreach(value; getFixedBuildSetting(m_rootPackage)) {
list ~= value;
}
return list;
}
// The "compiler" arg is for choosing which compiler the output should be formatted for,
// or null to imply "list" format.
private string[] listBuildSetting(BuildPlatform platform, string[string] configs,
ProjectDescription projectDescription, string requestedData, Compiler compiler, bool disableEscaping)
{
// Certain data cannot be formatter for a compiler
if (compiler)
{
switch (requestedData)
{
case "target-type":
case "target-path":
case "target-name":
case "working-directory":
case "string-import-files":
case "copy-files":
case "pre-generate-commands":
case "post-generate-commands":
case "pre-build-commands":
case "post-build-commands":
enforce(false, "--data="~requestedData~" can only be used with --data-list or --data-0.");
break;
case "requirements":
enforce(false, "--data=requirements can only be used with --data-list or --data-0. Use --data=options instead.");
break;
default: break;
}
}
import std.typetuple : TypeTuple;
auto args = TypeTuple!(platform, configs, projectDescription, compiler, disableEscaping);
switch (requestedData)
{
case "target-type": return listBuildSetting!"targetType"(args);
case "target-path": return listBuildSetting!"targetPath"(args);
case "target-name": return listBuildSetting!"targetName"(args);
case "working-directory": return listBuildSetting!"workingDirectory"(args);
case "main-source-file": return listBuildSetting!"mainSourceFile"(args);
case "dflags": return listBuildSetting!"dflags"(args);
case "lflags": return listBuildSetting!"lflags"(args);
case "libs": return listBuildSetting!"libs"(args);
case "linker-files": return listBuildSetting!"linkerFiles"(args);
case "source-files": return listBuildSetting!"sourceFiles"(args);
case "copy-files": return listBuildSetting!"copyFiles"(args);
case "versions": return listBuildSetting!"versions"(args);
case "debug-versions": return listBuildSetting!"debugVersions"(args);
case "import-paths": return listBuildSetting!"importPaths"(args);
case "string-import-paths": return listBuildSetting!"stringImportPaths"(args);
case "import-files": return listBuildSetting!"importFiles"(args);
case "string-import-files": return listBuildSetting!"stringImportFiles"(args);
case "pre-generate-commands": return listBuildSetting!"preGenerateCommands"(args);
case "post-generate-commands": return listBuildSetting!"postGenerateCommands"(args);
case "pre-build-commands": return listBuildSetting!"preBuildCommands"(args);
case "post-build-commands": return listBuildSetting!"postBuildCommands"(args);
case "requirements": return listBuildSetting!"requirements"(args);
case "options": return listBuildSetting!"options"(args);
default:
enforce(false, "--data="~requestedData~
" is not a valid option. See 'dub describe --help' for accepted --data= values.");
}
assert(0);
}
/// Outputs requested data for the project, optionally including its dependencies.
string[] listBuildSettings(GeneratorSettings settings, string[] requestedData, ListBuildSettingsFormat list_type)
{
import dub.compilers.utils : isLinkerFile;
auto projectDescription = describe(settings);
auto configs = getPackageConfigs(settings.platform, settings.config);
PackageDescription packageDescription;
foreach (pack; projectDescription.packages) {
if (pack.name == projectDescription.rootPackage)
packageDescription = pack;
}
if (projectDescription.rootPackage in projectDescription.targetLookup) {
// Copy linker files from sourceFiles to linkerFiles
auto target = projectDescription.lookupTarget(projectDescription.rootPackage);
foreach (file; target.buildSettings.sourceFiles.filter!(isLinkerFile))
target.buildSettings.addLinkerFiles(file);
// Remove linker files from sourceFiles
target.buildSettings.sourceFiles =
target.buildSettings.sourceFiles
.filter!(a => !isLinkerFile(a))
.array();
projectDescription.lookupTarget(projectDescription.rootPackage) = target;
}
Compiler compiler;
bool no_escape;
final switch (list_type) with (ListBuildSettingsFormat) {
case list: break;
case listNul: no_escape = true; break;
case commandLine: compiler = settings.compiler; break;
case commandLineNul: compiler = settings.compiler; no_escape = true; break;
}
auto result = requestedData
.map!(dataName => listBuildSetting(settings.platform, configs, projectDescription, dataName, compiler, no_escape));
final switch (list_type) with (ListBuildSettingsFormat) {
case list: return result.map!(l => l.join("\n")).array();
case listNul: return result.map!(l => l.join("\0")).array;
case commandLine: return result.map!(l => l.join(" ")).array;
case commandLineNul: return result.map!(l => l.join("\0")).array;
}
}
/** Saves the currently selected dependency versions to disk.
The selections will be written to a file named
`SelectedVersions.defaultFile` ("dub.selections.json") within the
directory of the root package. Any existing file will get overwritten.
*/
void saveSelections()
{
assert(m_selections !is null, "Cannot save selections for non-disk based project (has no selections).");
if (m_selections.hasSelectedVersion(m_rootPackage.basePackage.name))
m_selections.deselectVersion(m_rootPackage.basePackage.name);
auto path = m_rootPackage.path ~ SelectedVersions.defaultFile;
if (m_selections.dirty || !existsFile(path))
m_selections.save(path);
}
/** Checks if the cached upgrade information is still considered up to date.
The cache will be considered out of date after 24 hours after the last
online check.
*/
bool isUpgradeCacheUpToDate()
{
try {
auto datestr = m_packageSettings["dub"].opt!(Json[string]).get("lastUpgrade", Json("")).get!string;
if (!datestr.length) return false;
auto date = SysTime.fromISOExtString(datestr);
if ((Clock.currTime() - date) > 1.days) return false;
return true;
} catch (Exception t) {
logDebug("Failed to get the last upgrade time: %s", t.msg);
return false;
}
}
/** Returns the currently cached upgrade information.
The returned dictionary maps from dependency package name to the latest
available version that matches the dependency specifications.
*/
Dependency[string] getUpgradeCache()
{
try {
Dependency[string] ret;
foreach (string p, d; m_packageSettings["dub"].opt!(Json[string]).get("cachedUpgrades", Json.emptyObject))
ret[p] = SelectedVersions.dependencyFromJson(d);
return ret;
} catch (Exception t) {
logDebug("Failed to get cached upgrades: %s", t.msg);
return null;
}
}
/** Sets a new set of versions for the upgrade cache.
*/
void setUpgradeCache(Dependency[string] versions)
{
logDebug("markUpToDate");
Json create(ref Json json, string object) {
if (json[object].type == Json.Type.undefined) json[object] = Json.emptyObject;
return json[object];
}
create(m_packageSettings, "dub");
m_packageSettings["dub"]["lastUpgrade"] = Clock.currTime().toISOExtString();
create(m_packageSettings["dub"], "cachedUpgrades");
foreach (p, d; versions)
m_packageSettings["dub"]["cachedUpgrades"][p] = SelectedVersions.dependencyToJson(d);
writeDubJson();
}
private void writeDubJson() {
import std.file : exists, mkdir;
// don't bother to write an empty file
if( m_packageSettings.length == 0 ) return;
try {
logDebug("writeDubJson");
auto dubpath = m_rootPackage.path~".dub";
if( !exists(dubpath.toNativeString()) ) mkdir(dubpath.toNativeString());
auto dstFile = openFile((dubpath~"dub.json").toString(), FileMode.createTrunc);
scope(exit) dstFile.close();
dstFile.writePrettyJsonString(m_packageSettings);
} catch( Exception e ){
logWarn("Could not write .dub/dub.json.");
}
}
}
/// Determines the output format used for `Project.listBuildSettings`.
enum ListBuildSettingsFormat {
list, /// Newline separated list entries
listNul, /// NUL character separated list entries (unescaped)
commandLine, /// Formatted for compiler command line (one data list per line)
commandLineNul, /// NUL character separated list entries (unescaped, data lists separated by two NUL characters)
}
/// Indicates where a package has been or should be placed to.
enum PlacementLocation {
/// Packages retrieved with 'local' will be placed in the current folder
/// using the package name as destination.
local,
/// Packages with 'userWide' will be placed in a folder accessible by
/// all of the applications from the current user.
user,
/// Packages retrieved with 'systemWide' will be placed in a shared folder,
/// which can be accessed by all users of the system.
system
}
void processVars(ref BuildSettings dst, in Project project, in Package pack,
BuildSettings settings, bool include_target_settings = false)
{
dst.addDFlags(processVars(project, pack, settings.dflags));
dst.addLFlags(processVars(project, pack, settings.lflags));
dst.addLibs(processVars(project, pack, settings.libs));
dst.addSourceFiles(processVars(project, pack, settings.sourceFiles, true));
dst.addImportFiles(processVars(project, pack, settings.importFiles, true));
dst.addStringImportFiles(processVars(project, pack, settings.stringImportFiles, true));
dst.addCopyFiles(processVars(project, pack, settings.copyFiles, true));
dst.addVersions(processVars(project, pack, settings.versions));
dst.addDebugVersions(processVars(project, pack, settings.debugVersions));
dst.addImportPaths(processVars(project, pack, settings.importPaths, true));
dst.addStringImportPaths(processVars(project, pack, settings.stringImportPaths, true));
dst.addPreGenerateCommands(processVars(project, pack, settings.preGenerateCommands));
dst.addPostGenerateCommands(processVars(project, pack, settings.postGenerateCommands));
dst.addPreBuildCommands(processVars(project, pack, settings.preBuildCommands));
dst.addPostBuildCommands(processVars(project, pack, settings.postBuildCommands));
dst.addRequirements(settings.requirements);
dst.addOptions(settings.options);
if (include_target_settings) {
dst.targetType = settings.targetType;
dst.targetPath = processVars(settings.targetPath, project, pack, true);
dst.targetName = settings.targetName;
if (!settings.workingDirectory.empty)
dst.workingDirectory = processVars(settings.workingDirectory, project, pack, true);
if (settings.mainSourceFile.length)
dst.mainSourceFile = processVars(settings.mainSourceFile, project, pack, true);
}
}
private string[] processVars(in Project project, in Package pack, string[] vars, bool are_paths = false)
{
auto ret = appender!(string[])();
processVars(ret, project, pack, vars, are_paths);
return ret.data;
}
private void processVars(ref Appender!(string[]) dst, in Project project, in Package pack, string[] vars, bool are_paths = false)
{
foreach (var; vars) dst.put(processVars(var, project, pack, are_paths));
}
private string processVars(string var, in Project project, in Package pack, bool is_path)
{
auto idx = std.string.indexOf(var, '$');
if (idx >= 0) {
auto vres = appender!string();
while (idx >= 0) {
if (idx+1 >= var.length) break;
if (var[idx+1] == '$') {
vres.put(var[0 .. idx+1]);
var = var[idx+2 .. $];
} else {
vres.put(var[0 .. idx]);
var = var[idx+1 .. $];
size_t idx2 = 0;
while( idx2 < var.length && isIdentChar(var[idx2]) ) idx2++;
auto varname = var[0 .. idx2];
var = var[idx2 .. $];
vres.put(getVariable(varname, project, pack));
}
idx = std.string.indexOf(var, '$');
}
vres.put(var);
var = vres.data;
}
if (is_path) {
auto p = NativePath(var);
if (!p.absolute) {
return (pack.path ~ p).toNativeString();
} else return p.toNativeString();
} else return var;
}
private string getVariable(string name, in Project project, in Package pack)
{
import std.process : environment;
if (name == "PACKAGE_DIR") return pack.path.toNativeString();
if (name == "ROOT_PACKAGE_DIR") return project.rootPackage.path.toNativeString();
if (name.endsWith("_PACKAGE_DIR")) {
auto pname = name[0 .. $-12];
foreach (prj; project.getTopologicalPackageList())
if (prj.name.toUpper().replace("-", "_") == pname)
return prj.path.toNativeString();
}
auto envvar = environment.get(name);
if (envvar !is null) return envvar;
throw new Exception("Invalid variable: "~name);
}
/** Holds and stores a set of version selections for package dependencies.
This is the runtime representation of the information contained in
"dub.selections.json" within a package's directory.
*/
final class SelectedVersions {
private struct Selected {
Dependency dep;
//Dependency[string] packages;
}
private {
enum FileVersion = 1;
Selected[string] m_selections;
bool m_dirty = false; // has changes since last save
bool m_bare = true;
}
/// Default file name to use for storing selections.
enum defaultFile = "dub.selections.json";
/// Constructs a new empty version selection.
this() {}
/** Constructs a new version selection from JSON data.
The structure of the JSON document must match the contents of the
"dub.selections.json" file.
*/
this(Json data)
{
deserialize(data);
m_dirty = false;
}
/** Constructs a new version selections from an existing JSON file.
*/
this(NativePath path)
{
auto json = jsonFromFile(path);
deserialize(json);
m_dirty = false;
m_bare = false;
}
/// Returns a list of names for all packages that have a version selection.
@property string[] selectedPackages() const { return m_selections.keys; }
/// Determines if any changes have been made after loading the selections from a file.
@property bool dirty() const { return m_dirty; }
/// Determine if this set of selections is still empty (but not `clear`ed).
@property bool bare() const { return m_bare && !m_dirty; }
/// Removes all selections.
void clear()
{
m_selections = null;
m_dirty = true;
}
/// Duplicates the set of selected versions from another instance.
void set(SelectedVersions versions)
{
m_selections = versions.m_selections.dup;
m_dirty = true;
}
/// Selects a certain version for a specific package.
void selectVersion(string package_id, Version version_)
{
if (auto ps = package_id in m_selections) {
if (ps.dep == Dependency(version_))
return;
}
m_selections[package_id] = Selected(Dependency(version_)/*, issuer*/);
m_dirty = true;
}
/// Selects a certain path for a specific package.
void selectVersion(string package_id, NativePath path)
{
if (auto ps = package_id in m_selections) {
if (ps.dep == Dependency(path))
return;
}
m_selections[package_id] = Selected(Dependency(path));
m_dirty = true;
}
/// Removes the selection for a particular package.
void deselectVersion(string package_id)
{
m_selections.remove(package_id);
m_dirty = true;
}
/// Determines if a particular package has a selection set.
bool hasSelectedVersion(string packageId)
const {
return (packageId in m_selections) !is null;
}
/** Returns the selection for a particular package.
Note that the returned `Dependency` can either have the
`Dependency.path` property set to a non-empty value, in which case this
is a path based selection, or its `Dependency.version_` property is
valid and it is a version selection.
*/
Dependency getSelectedVersion(string packageId)
const {
enforce(hasSelectedVersion(packageId));
return m_selections[packageId].dep;
}
/** Stores the selections to disk.
The target file will be written in JSON format. Usually, `defaultFile`
should be used as the file name and the directory should be the root
directory of the project's root package.
*/
void save(NativePath path)
{
Json json = serialize();
auto file = openFile(path, FileMode.createTrunc);
scope(exit) file.close();
assert(json.type == Json.Type.object);
assert(json.length == 2);
assert(json["versions"].type != Json.Type.undefined);
file.write("{\n\t\"fileVersion\": ");
file.writeJsonString(json["fileVersion"]);
file.write(",\n\t\"versions\": {");
auto vers = json["versions"].get!(Json[string]);
bool first = true;
foreach (k; vers.byKey.array.sort()) {
if (!first) file.write(",");
else first = false;
file.write("\n\t\t");
file.writeJsonString(Json(k));
file.write(": ");
file.writeJsonString(vers[k]);
}
file.write("\n\t}\n}\n");
m_dirty = false;
m_bare = false;
}
static Json dependencyToJson(Dependency d)
{
if (d.path.empty) return Json(d.version_.toString());
else return serializeToJson(["path": d.path.toString()]);
}
static Dependency dependencyFromJson(Json j)
{
if (j.type == Json.Type.string)
return Dependency(Version(j.get!string));
else if (j.type == Json.Type.object)
return Dependency(NativePath(j["path"].get!string));
else throw new Exception(format("Unexpected type for dependency: %s", j.type));
}
Json serialize()
const {
Json json = serializeToJson(m_selections);
Json serialized = Json.emptyObject;
serialized["fileVersion"] = FileVersion;
serialized["versions"] = Json.emptyObject;
foreach (p, v; m_selections)
serialized["versions"][p] = dependencyToJson(v.dep);
return serialized;
}
private void deserialize(Json json)
{
enforce(cast(int)json["fileVersion"] == FileVersion, "Mismatched dub.select.json version: " ~ to!string(cast(int)json["fileVersion"]) ~ "vs. " ~to!string(FileVersion));
clear();
scope(failure) clear();
foreach (string p, v; json["versions"])
m_selections[p] = Selected(dependencyFromJson(v));
}
}
