/**
GDC compiler support.
Copyright: © 2013-2013 rejectedsoftware e.K.
License: Subject to the terms of the MIT license, as written in the included LICENSE.txt file.
Authors: Sönke Ludwig
*/
module dub.compilers.gdc;
import dub.compilers.compiler;
import dub.compilers.utils;
import dub.internal.utils;
import dub.internal.vibecompat.inet.path;
import dub.internal.logging;
import std.algorithm;
import std.array;
import std.exception;
import std.file;
import std.process;
import std.typecons;
class GDCCompiler : Compiler {
private static immutable s_options = [
tuple(BuildOption.debugMode, ["-fdebug"]),
tuple(BuildOption.releaseMode, ["-frelease"]),
tuple(BuildOption.coverage, ["-fprofile-arcs", "-ftest-coverage"]),
tuple(BuildOption.debugInfo, ["-g"]),
tuple(BuildOption.debugInfoC, ["-g"]),
//tuple(BuildOption.alwaysStackFrame, ["-X"]),
//tuple(BuildOption.stackStomping, ["-X"]),
tuple(BuildOption.inline, ["-finline-functions"]),
tuple(BuildOption.noBoundsCheck, ["-fno-bounds-check"]),
tuple(BuildOption.optimize, ["-O2"]),
tuple(BuildOption.profile, ["-pg"]),
tuple(BuildOption.unittests, ["-funittest"]),
tuple(BuildOption.verbose, ["-v"]),
tuple(BuildOption.ignoreUnknownPragmas, ["-fignore-unknown-pragmas"]),
tuple(BuildOption.syntaxOnly, ["-fsyntax-only"]),
tuple(BuildOption.warnings, ["-Wall"]),
tuple(BuildOption.warningsAsErrors, ["-Werror", "-Wall"]),
tuple(BuildOption.ignoreDeprecations, ["-Wno-deprecated"]),
tuple(BuildOption.deprecationWarnings, ["-Wdeprecated"]),
tuple(BuildOption.deprecationErrors, ["-Werror", "-Wdeprecated"]),
tuple(BuildOption.property, ["-fproperty"]),
//tuple(BuildOption.profileGC, ["-?"]),
tuple(BuildOption.betterC, ["-fno-druntime"]),
tuple(BuildOption._docs, ["-fdoc-dir=docs"]),
tuple(BuildOption._ddox, ["-Xfdocs.json", "-fdoc-file=__dummy.html"]),
];
@property string name() const { return "gdc"; }
string determineVersion(string compiler_binary, string verboseOutput)
{
const result = execute([
compiler_binary,
"-dumpfullversion",
"-dumpversion"
]);
return result.status == 0 ? result.output : null;
}
BuildPlatform determinePlatform(ref BuildSettings settings, string compiler_binary, string arch_override)
{
string[] arch_flags;
switch (arch_override) {
default: throw new UnsupportedArchitectureException(arch_override);
case "": break;
case "arm": arch_flags = ["-marm"]; break;
case "arm_thumb": arch_flags = ["-mthumb"]; break;
case "x86": arch_flags = ["-m32"]; break;
case "x86_64": arch_flags = ["-m64"]; break;
}
settings.addDFlags(arch_flags);
return probePlatform(
compiler_binary,
arch_flags ~ ["-fsyntax-only", "-v"],
arch_override
);
}
void prepareBuildSettings(ref BuildSettings settings, const scope ref BuildPlatform platform, BuildSetting fields = BuildSetting.all) const
{
enforceBuildRequirements(settings);
if (!(fields & BuildSetting.options)) {
foreach (t; s_options)
if (settings.options & t[0])
settings.addDFlags(t[1]);
}
if (!(fields & BuildSetting.versions)) {
settings.addDFlags(settings.versions.map!(s => "-fversion="~s)().array());
settings.versions = null;
}
if (!(fields & BuildSetting.debugVersions)) {
settings.addDFlags(settings.debugVersions.map!(s => "-fdebug="~s)().array());
settings.debugVersions = null;
}
if (!(fields & BuildSetting.importPaths)) {
settings.addDFlags(settings.importPaths.map!(s => "-I"~s)().array());
settings.importPaths = null;
}
if (!(fields & BuildSetting.stringImportPaths)) {
settings.addDFlags(settings.stringImportPaths.map!(s => "-J"~s)().array());
settings.stringImportPaths = null;
}
if (!(fields & BuildSetting.sourceFiles)) {
settings.addDFlags(settings.sourceFiles);
settings.sourceFiles = null;
}
if (!(fields & BuildSetting.libs)) {
resolveLibs(settings, platform);
settings.addDFlags(settings.libs.map!(l => "-l"~l)().array());
}
if (!(fields & BuildSetting.lflags)) {
settings.addDFlags(lflagsToDFlags(settings.lflags));
settings.lflags = null;
}
if (settings.options & BuildOption.pic)
settings.addDFlags("-fPIC");
assert(fields & BuildSetting.dflags);
assert(fields & BuildSetting.copyFiles);
}
void extractBuildOptions(ref BuildSettings settings) const
{
Appender!(string[]) newflags;
next_flag: foreach (f; settings.dflags) {
foreach (t; s_options)
if (t[1].canFind(f)) {
settings.options |= t[0];
continue next_flag;
}
if (f.startsWith("-fversion=")) settings.addVersions(f[10 .. $]);
else if (f.startsWith("-fdebug=")) settings.addDebugVersions(f[8 .. $]);
else newflags ~= f;
}
settings.dflags = newflags.data;
}
string getTargetFileName(in BuildSettings settings, in BuildPlatform platform)
const {
assert(settings.targetName.length > 0, "No target name set.");
final switch (settings.targetType) {
case TargetType.autodetect: assert(false, "Configurations must have a concrete target type.");
case TargetType.none: return null;
case TargetType.sourceLibrary: return null;
case TargetType.executable:
if (platform.isWindows())
return settings.targetName ~ ".exe";
else return settings.targetName.idup;
case TargetType.library:
case TargetType.staticLibrary:
return "lib" ~ settings.targetName ~ ".a";
case TargetType.dynamicLibrary:
if (platform.isWindows())
return settings.targetName ~ ".dll";
else if (platform.platform.canFind("darwin"))
return "lib" ~ settings.targetName ~ ".dylib";
else return "lib" ~ settings.targetName ~ ".so";
case TargetType.object:
if (platform.isWindows())
return settings.targetName ~ ".obj";
else return settings.targetName ~ ".o";
}
}
void setTarget(ref BuildSettings settings, in BuildPlatform platform, string tpath = null) const
{
final switch (settings.targetType) {
case TargetType.autodetect: assert(false, "Invalid target type: autodetect");
case TargetType.none: assert(false, "Invalid target type: none");
case TargetType.sourceLibrary: assert(false, "Invalid target type: sourceLibrary");
case TargetType.executable: break;
case TargetType.library:
case TargetType.staticLibrary:
case TargetType.object:
settings.addDFlags("-c");
break;
case TargetType.dynamicLibrary:
settings.addDFlags("-shared", "-fPIC");
break;
}
if (tpath is null)
tpath = (NativePath(settings.targetPath) ~ getTargetFileName(settings, platform)).toNativeString();
settings.addDFlags("-o", tpath);
}
void invoke(in BuildSettings settings, in BuildPlatform platform, void delegate(int, string) output_callback)
{
auto res_file = getTempFile("dub-build", ".rsp");
std.file.write(res_file.toNativeString(), join(settings.dflags.map!(s => escape(s)), "\n"));
logDiagnostic("%s %s", platform.compilerBinary, join(cast(string[])settings.dflags, " "));
string[string] env;
foreach (aa; [settings.environments, settings.buildEnvironments])
foreach (k, v; aa)
env[k] = v;
invokeTool([platform.compilerBinary, "@"~res_file.toNativeString()], output_callback, env);
}
void invokeLinker(in BuildSettings settings, in BuildPlatform platform, string[] objects, void delegate(int, string) output_callback)
{
import std.string;
string[] args;
// As the user is supposed to call setTarget prior to invoke, -o target is already set.
if (settings.targetType == TargetType.staticLibrary || settings.targetType == TargetType.staticLibrary) {
auto tpath = extractTarget(settings.dflags);
assert(tpath !is null, "setTarget should be called before invoke");
args = [ "ar", "rcs", tpath ] ~ objects;
} else {
args = platform.compilerBinary ~ objects ~ settings.sourceFiles ~ settings.lflags ~ settings.dflags.filter!(f => isLinkageFlag(f)).array;
if (platform.platform.canFind("linux"))
args ~= "-L--no-as-needed"; // avoids linker errors due to libraries being specified in the wrong order
}
logDiagnostic("%s", args.join(" "));
string[string] env;
foreach (aa; [settings.environments, settings.buildEnvironments])
foreach (k, v; aa)
env[k] = v;
invokeTool(args, output_callback, env);
}
string[] lflagsToDFlags(const string[] lflags) const
{
string[] dflags;
foreach( f; lflags )
{
if ( f == "") {
continue;
}
dflags ~= "-Xlinker";
dflags ~= f;
}
return dflags;
}
}
private string extractTarget(const string[] args) { auto i = args.countUntil("-o"); return i >= 0 ? args[i+1] : null; }
private bool isLinkageFlag(string flag) {
switch (flag) {
case "-c":
return false;
default:
return true;
}
}
private string escape(string str)
{
auto ret = appender!string();
foreach (char ch; str) {
switch (ch) {
default: ret.put(ch); break;
case '\\': ret.put(`\\`); break;
case ' ': ret.put(`\ `); break;
}
}
return ret.data;
}
