void AddInstrumentations(XElement manifest, IList <TypeDefinition> subclasses, int targetSdkVersion)
{
var assemblyAttrs =
Assemblies.SelectMany(path => InstrumentationAttribute.FromCustomAttributeProvider(Resolver.GetAssembly(path)));
// Add instrumentation to the manifest
foreach (var ia in assemblyAttrs)
{
if (ia.TargetPackage == null)
{
ia.SetTargetPackage(PackageName);
}
if (!manifest.Descendants("instrumentation").Any(x => (string)x.Attribute(attName) == ia.Name))
{
manifest.Add(ia.ToElement(PackageName));
}
}
foreach (var type in subclasses)
{
if (type.IsSubclassOf("Android.App.Instrumentation"))
{
var xe = InstrumentationFromTypeDefinition(type, JavaNativeTypeManager.ToJniName(type).Replace('/', '.'), targetSdkVersion);
if (xe != null)
{
manifest.Add(xe);
}
}
}
}
static string GetJavaTypeName(TypeReference r)
{
TypeDefinition d = r.Resolve();
string jniName = JavaNativeTypeManager.ToJniName(d);
if (jniName == null)
{
Diagnostic.Error(4201, Localization.Resources.JavaCallableWrappers_XA4201, r.FullName);
}
return(jniName.Replace('/', '.').Replace('$', '.'));
}
static string GetJavaTypeName(TypeReference r)
{
TypeDefinition d = r.Resolve();
string jniName = JavaNativeTypeManager.ToJniName(d);
if (jniName == null)
{
Diagnostic.Error(4201, "Unable to determine JNI name for type {0}.", r.FullName);
}
return(jniName.Replace('/', '.').Replace('$', '.'));
}
static string ToNameAttribute(ApplicationAttribute self)
{
var type = self.provider as TypeDefinition;
if (string.IsNullOrEmpty(self.Name) && type != null)
{
return(JavaNativeTypeManager.ToJniName(type).Replace('/', '.'));
}
return(self.Name);
}
static bool BindSameType(TypeDefinition a, TypeDefinition b)
{
if (a == null || b == null)
{
return(false);
}
if (!a.ImplementsInterface("Android.Runtime.IJavaObject") || !b.ImplementsInterface("Android.Runtime.IJavaObject"))
{
return(false);
}
return(JavaNativeTypeManager.ToJniName(a) == JavaNativeTypeManager.ToJniName(b));
}
protected override IEnumerable <string> GetSimpleReferences(Type type)
{
string?j = JNIEnv.TypemapManagedToJava(type);
if (j != null)
{
yield return(j);
}
if (JNIEnv.IsRunningOnDesktop)
{
yield return(JavaNativeTypeManager.ToJniName(type));
}
}
protected override IEnumerable <string> GetSimpleReferences(Type type)
{
var j = JNIEnv.monodroid_typemap_managed_to_java(type.FullName + ", " + type.Assembly.GetName().Name);
if (j != IntPtr.Zero)
{
yield return(Marshal.PtrToStringAnsi(j));
}
if (JNIEnv.IsRunningOnDesktop)
{
yield return(JavaNativeTypeManager.ToJniName(type));
}
}
protected override string?GetSimpleReference(Type type)
{
string?j = JNIEnv.TypemapManagedToJava(type);
if (j != null)
{
return(j);
}
if (JNIEnv.IsRunningOnDesktop)
{
return(JavaNativeTypeManager.ToJniName(type));
}
return(null);
}
void AddNestedTypes(TypeDefinition type)
{
foreach (TypeDefinition nt in type.NestedTypes)
{
if (!nt.IsSubclassOf("Java.Lang.Object"))
{
continue;
}
if (!JavaNativeTypeManager.IsNonStaticInnerClass(nt))
{
continue;
}
children.Add(new JavaCallableWrapperGenerator(nt, JavaNativeTypeManager.ToJniName(type), log));
if (nt.HasNestedTypes)
{
AddNestedTypes(nt);
}
}
HasExport |= children.Any(t => t.HasExport);
}
public static void RegisterType(string java_class, Type t)
{
string jniFromType = JavaNativeTypeManager.ToJniName(t);
lock (jniToManaged) {
Type lookup;
if (!jniToManaged.TryGetValue(java_class, out lookup))
{
jniToManaged.Add(java_class, t);
if (jniFromType != java_class)
{
managedToJni.Add(t, java_class);
}
}
else if (!JNIEnv.IsRunningOnDesktop || t != typeof(Java.Interop.TypeManager))
{
// skip the registration and output a warning
Logger.Log(LogLevel.Warn, "monodroid", string.Format("Type Registration Skipped for {0} to {1} ", java_class, t.ToString()));
}
}
}
public IList <string> Merge(List <TypeDefinition> subclasses, string applicationClass, bool embed, string bundledWearApplicationName, IEnumerable <string> mergedManifestDocuments)
{
string applicationName = ApplicationName;
var manifest = doc.Root;
if (manifest == null || manifest.Name != "manifest")
{
throw new Exception("Root element must be 'manifest'");
}
var manifest_package = (string)manifest.Attribute("package");
if (!string.IsNullOrWhiteSpace(manifest_package))
{
PackageName = manifest_package;
}
manifest.SetAttributeValue(XNamespace.Xmlns + "android", "http://schemas.android.com/apk/res/android");
if (manifest.Attribute(androidNs + "versionCode") == null)
{
manifest.SetAttributeValue(androidNs + "versionCode", "1");
}
if (manifest.Attribute(androidNs + "versionName") == null)
{
manifest.SetAttributeValue(androidNs + "versionName", "1.0");
}
app = CreateApplicationElement(manifest, applicationClass, subclasses);
if (app.Attribute(androidNs + "label") == null && applicationName != null)
{
app.SetAttributeValue(androidNs + "label", applicationName);
}
var existingTypes = new HashSet <string> (
app.Descendants().Select(a => (string)a.Attribute(attName)).Where(v => v != null));
if (!string.IsNullOrEmpty(bundledWearApplicationName))
{
if (!app.Elements("meta-data").Any(e => e.Attributes(androidNs + "name").Any(a => a.Value == bundledWearApplicationName)))
{
app.Add(new XElement("meta-data", new XAttribute(androidNs + "name", "com.google.android.wearable.beta.app"), new XAttribute(androidNs + "resource", "@xml/wearable_app_desc")));
}
}
// If no <uses-sdk> is specified, add it with both minSdkVersion and
// targetSdkVersion set to TargetFrameworkVersion
if (!manifest.Elements("uses-sdk").Any())
{
manifest.AddFirst(
new XElement("uses-sdk",
new XAttribute(androidNs + "minSdkVersion", SdkVersionName),
new XAttribute(androidNs + "targetSdkVersion", SdkVersionName)));
}
// If no minSdkVersion is specified, set it to TargetFrameworkVersion
var uses = manifest.Element("uses-sdk");
if (uses.Attribute(androidNs + "minSdkVersion") == null)
{
int minSdkVersion;
if (!int.TryParse(SdkVersionName, out minSdkVersion))
{
minSdkVersion = XABuildConfig.NDKMinimumApiAvailable;
}
minSdkVersion = Math.Min(minSdkVersion, XABuildConfig.NDKMinimumApiAvailable);
uses.SetAttributeValue(androidNs + "minSdkVersion", minSdkVersion.ToString());
}
string targetSdkVersion;
var tsv = uses.Attribute(androidNs + "targetSdkVersion");
if (tsv != null)
{
targetSdkVersion = tsv.Value;
}
else
{
targetSdkVersion = SdkVersionName;
uses.AddBeforeSelf(new XComment("suppress UsesMinSdkAttributes"));
}
int?tryTargetSdkVersion = MonoAndroidHelper.SupportedVersions.GetApiLevelFromId(targetSdkVersion);
if (!tryTargetSdkVersion.HasValue)
{
throw new InvalidOperationException(string.Format("The targetSdkVersion ({0}) is not a valid API level", targetSdkVersion));
}
int targetSdkVersionValue = tryTargetSdkVersion.Value;
foreach (var t in subclasses)
{
if (t.IsAbstract)
{
continue;
}
if (PackageName == null)
{
PackageName = t.Namespace;
}
var name = JavaNativeTypeManager.ToJniName(t).Replace('/', '.');
var compatName = JavaNativeTypeManager.ToCompatJniName(t).Replace('/', '.');
if (((string)app.Attribute(attName)) == compatName)
{
app.SetAttributeValue(attName, name);
}
Func <TypeDefinition, string, int, XElement> generator = GetGenerator(t);
if (generator == null)
{
continue;
}
try {
// activity not present: create a launcher for it IFF it has attribute
if (!existingTypes.Contains(name) && !existingTypes.Contains(compatName))
{
XElement fromCode = generator(t, name, targetSdkVersionValue);
if (fromCode == null)
{
continue;
}
IEnumerable <MethodDefinition> constructors = t.Methods.Where(m => m.IsConstructor).Cast <MethodDefinition> ();
if (!constructors.Any(c => !c.HasParameters && c.IsPublic))
{
string message = $"The type '{t.FullName}' must provide a public default constructor";
SequencePoint sourceLocation = FindSource(constructors);
if (sourceLocation != null && sourceLocation.Document?.Url != null)
{
log.LogError(
subcategory: String.Empty,
errorCode: "XA4213",
helpKeyword: String.Empty,
file: sourceLocation.Document.Url,
lineNumber: sourceLocation.StartLine,
columnNumber: sourceLocation.StartColumn,
endLineNumber: sourceLocation.EndLine,
endColumnNumber: sourceLocation.EndColumn,
message: message);
}
else
{
log.LogCodedError("XA4213", message);
}
continue;
}
app.Add(fromCode);
}
foreach (var d in app.Descendants().Where(a => ((string)a.Attribute(attName)) == compatName))
{
d.SetAttributeValue(attName, name);
}
} catch (InvalidActivityNameException ex) {
log.LogErrorFromException(ex);
}
}
var icon = app.Attribute(androidNs + "icon");
if (icon == null)
{
var activity = app.Element("activity");
if (activity != null)
{
var activityIcon = activity.Attribute(androidNs + "icon");
if (activityIcon != null)
{
app.Add(new XAttribute(androidNs + "icon", activityIcon.Value));
}
}
}
PackageName = AndroidAppManifest.CanonicalizePackageName(PackageName);
if (!PackageName.Contains('.'))
{
throw new InvalidOperationException("/manifest/@package attribute MUST contain a period ('.').");
}
manifest.SetAttributeValue("package", PackageName);
if (MultiDex)
{
app.Add(CreateMonoRuntimeProvider("mono.android.MultiDexLoader", null, initOrder: --AppInitOrder));
}
var providerNames = AddMonoRuntimeProviders(app);
if (Debug && !embed && InstantRunEnabled)
{
if (int.TryParse(SdkVersion, out int apiLevel) && apiLevel >= 19)
{
app.Add(CreateMonoRuntimeProvider("mono.android.ResourcePatcher", null, initOrder: --AppInitOrder));
}
}
if (Debug)
{
app.Add(new XComment("suppress ExportedReceiver"));
app.Add(new XElement("receiver",
new XAttribute(androidNs + "name", "mono.android.Seppuku"),
new XElement("intent-filter",
new XElement("action",
new XAttribute(androidNs + "name", "mono.android.intent.action.SEPPUKU")),
new XElement("category",
new XAttribute(androidNs + "name", "mono.android.intent.category.SEPPUKU." + PackageName)))));
if (app.Attribute(androidNs + "debuggable") == null)
{
app.Add(new XAttribute(androidNs + "debuggable", "true"));
}
}
if (Debug || NeedsInternet)
{
AddInternetPermissionForDebugger();
}
if (!embed)
{
AddFastDeployPermissions();
}
// If the manifest has android:installLocation, but we are targeting
// API 7 or lower, remove it for the user and show a warning
if (manifest.Attribute(androidNs + "installLocation") != null)
{
if (targetSdkVersionValue < 8)
{
manifest.Attribute(androidNs + "installLocation").Remove();
Console.Error.WriteLine("monodroid: warning 1 : installLocation cannot be specified for Android versions less than 2.2. Attribute installLocation ignored.");
}
}
AddInstrumentations(manifest, subclasses, targetSdkVersionValue);
AddPermissions(app);
AddPermissionGroups(app);
AddPermissionTrees(app);
AddUsesPermissions(app);
AddUsesFeatures(app);
AddSupportsGLTextures(app);
ReorderActivityAliases(app);
ReorderElements(app);
if (mergedManifestDocuments != null)
{
foreach (var mergedManifest in mergedManifestDocuments)
{
try {
MergeLibraryManifest(mergedManifest);
} catch (Exception ex) {
log.LogCodedWarning("XA4302", "Unhandled exception merging `AndroidManifest.xml`: {0}", ex);
}
}
}
return(providerNames);
SequencePoint FindSource(IEnumerable <MethodDefinition> methods)
{
if (methods == null)
{
return(null);
}
SequencePoint ret = null;
foreach (MethodDefinition method in methods.Where(m => m != null && m.HasBody && m.DebugInformation != null))
{
foreach (Instruction ins in method.Body.Instructions)
{
SequencePoint seq = method.DebugInformation.GetSequencePoint(ins);
if (seq == null)
{
continue;
}
if (ret == null || seq.StartLine < ret.StartLine)
{
ret = seq;
}
break;
}
}
return(ret);
}
}
JavaCallableWrapperGenerator(TypeDefinition type, string outerType, Action <string, object[]> log, IMetadataResolver resolver)
{
this.type = type;
this.log = log;
this.cache = resolver ?? new TypeDefinitionCache();
if (type.IsEnum || type.IsInterface || type.IsValueType)
{
Diagnostic.Error(4200, LookupSource(type), Localization.Resources.JavaCallableWrappers_XA4200, type.FullName);
}
string jniName = JavaNativeTypeManager.ToJniName(type);
if (jniName == null)
{
Diagnostic.Error(4201, LookupSource(type), Localization.Resources.JavaCallableWrappers_XA4201, type.FullName);
}
if (!string.IsNullOrEmpty(outerType))
{
string p;
jniName = jniName.Substring(outerType.Length + 1);
ExtractJavaNames(outerType, out p, out outerType);
}
ExtractJavaNames(jniName, out package, out name);
if (string.IsNullOrEmpty(package) &&
(type.IsSubclassOf("Android.App.Activity", cache) ||
type.IsSubclassOf("Android.App.Application", cache) ||
type.IsSubclassOf("Android.App.Service", cache) ||
type.IsSubclassOf("Android.Content.BroadcastReceiver", cache) ||
type.IsSubclassOf("Android.Content.ContentProvider", cache)))
{
Diagnostic.Error(4203, LookupSource(type), Localization.Resources.JavaCallableWrappers_XA4203, jniName);
}
foreach (MethodDefinition minfo in type.Methods.Where(m => !m.IsConstructor))
{
var baseRegisteredMethod = GetBaseRegisteredMethod(minfo);
if (baseRegisteredMethod != null)
{
AddMethod(baseRegisteredMethod, minfo);
}
else if (GetExportFieldAttributes(minfo).Any())
{
AddMethod(null, minfo);
HasExport = true;
}
else if (GetExportAttributes(minfo).Any())
{
AddMethod(null, minfo);
HasExport = true;
}
}
foreach (MethodDefinition imethod in type.Interfaces.Select(ifaceInfo => ifaceInfo.InterfaceType)
.Select(r => {
var d = r.Resolve();
if (d == null)
{
Diagnostic.Error(4204,
LookupSource(type),
Localization.Resources.JavaCallableWrappers_XA4204,
r.FullName);
}
return(d);
})
.Where(d => GetRegisterAttributes(d).Any())
.SelectMany(d => d.Methods)
.Where(m => !m.IsStatic))
{
AddMethod(imethod, imethod);
}
var ctorTypes = new List <TypeDefinition> ()
{
type,
};
foreach (var bt in type.GetBaseTypes(cache))
{
ctorTypes.Add(bt);
RegisterAttribute rattr = GetRegisterAttributes(bt).FirstOrDefault();
if (rattr != null && rattr.DoNotGenerateAcw)
{
break;
}
}
ctorTypes.Reverse();
var curCtors = new List <MethodDefinition> ();
foreach (MethodDefinition minfo in type.Methods.Where(m => m.IsConstructor))
{
if (GetExportAttributes(minfo).Any())
{
if (minfo.IsStatic)
{
// Diagnostic.Warning (log, "ExportAttribute does not work on static constructor");
}
else
{
AddConstructor(minfo, ctorTypes [0], outerType, null, curCtors, false, true);
HasExport = true;
}
}
}
AddConstructors(ctorTypes [0], outerType, null, curCtors, true);
for (int i = 1; i < ctorTypes.Count; ++i)
{
var baseCtors = curCtors;
curCtors = new List <MethodDefinition> ();
AddConstructors(ctorTypes [i], outerType, baseCtors, curCtors, false);
}
}
void Run(DirectoryAssemblyResolver res)
{
PackageNamingPolicy pnp;
JavaNativeTypeManager.PackageNamingPolicy = Enum.TryParse(PackageNamingPolicy, out pnp) ? pnp : PackageNamingPolicyEnum.LowercaseHash;
foreach (var dir in FrameworkDirectories)
{
if (Directory.Exists(dir.ItemSpec))
{
res.SearchDirectories.Add(dir.ItemSpec);
}
}
var selectedWhitelistAssemblies = new List <string> ();
// Put every assembly we'll need in the resolver
foreach (var assembly in ResolvedAssemblies)
{
var assemblyFullPath = Path.GetFullPath(assembly.ItemSpec);
res.Load(assemblyFullPath);
if (MonoAndroidHelper.FrameworkAttributeLookupTargets.Any(a => Path.GetFileName(assembly.ItemSpec) == a))
{
selectedWhitelistAssemblies.Add(assemblyFullPath);
}
}
// However we only want to look for JLO types in user code
var assemblies = ResolvedUserAssemblies.Select(p => p.ItemSpec).ToList();
var fxAdditions = MonoAndroidHelper.GetFrameworkAssembliesToTreatAsUserAssemblies(ResolvedAssemblies)
.Where(a => assemblies.All(x => Path.GetFileName(x) != Path.GetFileName(a)));
assemblies = assemblies.Concat(fxAdditions).ToList();
// Step 1 - Find all the JLO types
var scanner = new JavaTypeScanner(this.CreateTaskLogger())
{
ErrorOnCustomJavaObject = ErrorOnCustomJavaObject,
};
var all_java_types = scanner.GetJavaTypes(assemblies, res);
WriteTypeMappings(all_java_types);
var java_types = all_java_types
.Where(t => !JavaTypeScanner.ShouldSkipJavaCallableWrapperGeneration(t))
.ToArray();
// Step 2 - Generate Java stub code
var success = Generator.CreateJavaSources(
Log,
java_types,
Path.Combine(OutputDirectory, "src"),
ApplicationJavaClass,
UseSharedRuntime,
int.Parse(AndroidSdkPlatform) <= 10,
ResolvedAssemblies.Any(assembly => Path.GetFileName(assembly.ItemSpec) == "Mono.Android.Export.dll"));
if (!success)
{
return;
}
// We need to save a map of .NET type -> ACW type for resource file fixups
var managed = new Dictionary <string, TypeDefinition> (java_types.Length, StringComparer.Ordinal);
var java = new Dictionary <string, TypeDefinition> (java_types.Length, StringComparer.Ordinal);
// Allocate a MemoryStream with a reasonable guess at its capacity
using (var stream = new MemoryStream(java_types.Length * 32))
using (var acw_map = new StreamWriter(stream)) {
foreach (var type in java_types)
{
string managedKey = type.FullName.Replace('/', '.');
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
acw_map.Write(type.GetPartialAssemblyQualifiedName());
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
TypeDefinition conflict;
if (managed.TryGetValue(managedKey, out conflict))
{
Log.LogWarning(
"Duplicate managed type found! Mappings between managed types and Java types must be unique. " +
"First Type: '{0}'; Second Type: '{1}'.",
conflict.GetAssemblyQualifiedName(),
type.GetAssemblyQualifiedName());
Log.LogWarning(
"References to the type '{0}' will refer to '{1}'.",
managedKey, conflict.GetAssemblyQualifiedName());
continue;
}
if (java.TryGetValue(javaKey, out conflict))
{
Log.LogError(
"Duplicate Java type found! Mappings between managed types and Java types must be unique. " +
"First Type: '{0}'; Second Type: '{1}'",
conflict.GetAssemblyQualifiedName(),
type.GetAssemblyQualifiedName());
success = false;
continue;
}
managed.Add(managedKey, type);
java.Add(javaKey, type);
acw_map.Write(managedKey);
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
acw_map.Write(JavaNativeTypeManager.ToCompatJniName(type).Replace('/', '.'));
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
}
acw_map.Flush();
MonoAndroidHelper.CopyIfStreamChanged(stream, AcwMapFile);
}
// Step 3 - Merge [Activity] and friends into AndroidManifest.xml
var manifest = new ManifestDocument(ManifestTemplate, this.Log);
manifest.PackageName = PackageName;
manifest.ApplicationName = ApplicationName ?? PackageName;
manifest.Placeholders = ManifestPlaceholders;
manifest.Assemblies.AddRange(assemblies);
manifest.Resolver = res;
manifest.SdkDir = AndroidSdkDir;
manifest.SdkVersion = AndroidSdkPlatform;
manifest.Debug = Debug;
manifest.MultiDex = MultiDex;
manifest.NeedsInternet = NeedsInternet;
manifest.InstantRunEnabled = InstantRunEnabled;
var additionalProviders = manifest.Merge(all_java_types, selectedWhitelistAssemblies, ApplicationJavaClass, EmbedAssemblies, BundledWearApplicationName, MergedManifestDocuments);
using (var stream = new MemoryStream()) {
manifest.Save(stream);
// Only write the new manifest if it actually changed
MonoAndroidHelper.CopyIfStreamChanged(stream, MergedAndroidManifestOutput);
}
// Create the CacheFile if needed
if (!string.IsNullOrEmpty(CacheFile))
{
bool extractNativeLibraries = manifest.ExtractNativeLibraries();
if (!extractNativeLibraries)
{
//We need to write the value to a file, if _GenerateJavaStubs is skipped on incremental builds
var document = new XDocument(
new XDeclaration("1.0", "UTF-8", null),
new XElement("Properties", new XElement(nameof(ReadJavaStubsCache.EmbeddedDSOsEnabled), "True"))
);
document.SaveIfChanged(CacheFile);
}
else
{
//Delete the file otherwise, since we only need to specify when EmbeddedDSOsEnabled=True
File.Delete(CacheFile);
}
}
// Create additional runtime provider java sources.
string providerTemplateFile = UseSharedRuntime ? "MonoRuntimeProvider.Shared.java" : "MonoRuntimeProvider.Bundled.java";
string providerTemplate = GetResource <JavaCallableWrapperGenerator> (providerTemplateFile);
foreach (var provider in additionalProviders)
{
var contents = providerTemplate.Replace("MonoRuntimeProvider", provider);
var real_provider = Path.Combine(OutputDirectory, "src", "mono", provider + ".java");
MonoAndroidHelper.CopyIfStringChanged(contents, real_provider);
}
// Create additional application java sources.
StringWriter regCallsWriter = new StringWriter();
regCallsWriter.WriteLine("\t\t// Application and Instrumentation ACWs must be registered first.");
foreach (var type in java_types)
{
if (JavaNativeTypeManager.IsApplication(type) || JavaNativeTypeManager.IsInstrumentation(type))
{
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
regCallsWriter.WriteLine("\t\tmono.android.Runtime.register (\"{0}\", {1}.class, {1}.__md_methods);",
type.GetAssemblyQualifiedName(), javaKey);
}
}
regCallsWriter.Close();
var real_app_dir = Path.Combine(OutputDirectory, "src", "mono", "android", "app");
string applicationTemplateFile = "ApplicationRegistration.java";
SaveResource(applicationTemplateFile, applicationTemplateFile, real_app_dir,
template => template.Replace("// REGISTER_APPLICATION_AND_INSTRUMENTATION_CLASSES_HERE", regCallsWriter.ToString()));
// Create NotifyTimeZoneChanges java sources.
string notifyTimeZoneChangesFile = "NotifyTimeZoneChanges.java";
SaveResource(notifyTimeZoneChangesFile, notifyTimeZoneChangesFile, real_app_dir, template => template);
}
void Run(DirectoryAssemblyResolver res)
{
PackageNamingPolicy pnp;
JavaNativeTypeManager.PackageNamingPolicy = Enum.TryParse(PackageNamingPolicy, out pnp) ? pnp : PackageNamingPolicyEnum.LowercaseHash;
var temp = Path.Combine(Path.GetTempPath(), Path.GetRandomFileName());
Directory.CreateDirectory(temp);
foreach (var dir in FrameworkDirectories)
{
if (Directory.Exists(dir.ItemSpec))
{
res.SearchDirectories.Add(dir.ItemSpec);
}
}
var selectedWhitelistAssemblies = new List <string> ();
// Put every assembly we'll need in the resolver
foreach (var assembly in ResolvedAssemblies)
{
res.Load(Path.GetFullPath(assembly.ItemSpec));
if (MonoAndroidHelper.FrameworkAttributeLookupTargets.Any(a => Path.GetFileName(assembly.ItemSpec) == a))
{
selectedWhitelistAssemblies.Add(Path.GetFullPath(assembly.ItemSpec));
}
}
// However we only want to look for JLO types in user code
var assemblies = ResolvedUserAssemblies.Select(p => p.ItemSpec).ToList();
var fxAdditions = MonoAndroidHelper.GetFrameworkAssembliesToTreatAsUserAssemblies(ResolvedAssemblies)
.Where(a => assemblies.All(x => Path.GetFileName(x) != Path.GetFileName(a)));
assemblies = assemblies.Concat(fxAdditions).ToList();
// Step 1 - Find all the JLO types
var scanner = new JavaTypeScanner(this.CreateTaskLogger())
{
ErrorOnCustomJavaObject = ErrorOnCustomJavaObject,
};
var all_java_types = scanner.GetJavaTypes(assemblies, res);
WriteTypeMappings(all_java_types);
var java_types = all_java_types.Where(t => !JavaTypeScanner.ShouldSkipJavaCallableWrapperGeneration(t));
// Step 2 - Generate Java stub code
var keep_going = Generator.CreateJavaSources(
Log,
java_types,
temp,
ApplicationJavaClass,
UseSharedRuntime,
int.Parse(AndroidSdkPlatform) <= 10,
ResolvedAssemblies.Any(assembly => Path.GetFileName(assembly.ItemSpec) == "Mono.Android.Export.dll"));
var temp_map_file = Path.Combine(temp, "acw-map.temp");
// We need to save a map of .NET type -> ACW type for resource file fixups
var managed = new Dictionary <string, TypeDefinition> ();
var java = new Dictionary <string, TypeDefinition> ();
var acw_map = new StreamWriter(temp_map_file);
foreach (var type in java_types)
{
string managedKey = type.FullName.Replace('/', '.');
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
acw_map.WriteLine("{0};{1}", type.GetPartialAssemblyQualifiedName(), javaKey);
TypeDefinition conflict;
if (managed.TryGetValue(managedKey, out conflict))
{
Log.LogWarning(
"Duplicate managed type found! Mappings between managed types and Java types must be unique. " +
"First Type: '{0}'; Second Type: '{1}'.",
conflict.GetAssemblyQualifiedName(),
type.GetAssemblyQualifiedName());
Log.LogWarning(
"References to the type '{0}' will refer to '{1}'.",
managedKey, conflict.GetAssemblyQualifiedName());
continue;
}
if (java.TryGetValue(javaKey, out conflict))
{
Log.LogError(
"Duplicate Java type found! Mappings between managed types and Java types must be unique. " +
"First Type: '{0}'; Second Type: '{1}'",
conflict.GetAssemblyQualifiedName(),
type.GetAssemblyQualifiedName());
keep_going = false;
continue;
}
managed.Add(managedKey, type);
java.Add(javaKey, type);
acw_map.WriteLine("{0};{1}", managedKey, javaKey);
acw_map.WriteLine("{0};{1}", JavaNativeTypeManager.ToCompatJniName(type).Replace('/', '.'), javaKey);
}
acw_map.Close();
//The previous steps found an error, so we must abort and not generate any further output
//We must do so subsequent unchanged builds fail too.
if (!keep_going)
{
File.Delete(temp_map_file);
return;
}
MonoAndroidHelper.CopyIfChanged(temp_map_file, AcwMapFile);
try { File.Delete(temp_map_file); } catch (Exception) { }
// Only overwrite files if the contents actually changed
foreach (var file in Directory.GetFiles(temp, "*", SearchOption.AllDirectories))
{
var dest = Path.GetFullPath(Path.Combine(OutputDirectory, "src", file.Substring(temp.Length + 1)));
MonoAndroidHelper.CopyIfChanged(file, dest);
}
// Step 3 - Merge [Activity] and friends into AndroidManifest.xml
var manifest = new ManifestDocument(ManifestTemplate, this.Log);
manifest.PackageName = PackageName;
manifest.ApplicationName = ApplicationName ?? PackageName;
manifest.Placeholders = ManifestPlaceholders;
manifest.Assemblies.AddRange(assemblies);
manifest.Resolver = res;
manifest.SdkDir = AndroidSdkDir;
manifest.SdkVersion = AndroidSdkPlatform;
manifest.Debug = Debug;
manifest.NeedsInternet = NeedsInternet;
var additionalProviders = manifest.Merge(all_java_types, selectedWhitelistAssemblies, ApplicationJavaClass, EmbedAssemblies, BundledWearApplicationName, MergedManifestDocuments);
var temp_manifest = Path.Combine(temp, "AndroidManifest.xml");
var real_manifest = Path.GetFullPath(MergedAndroidManifestOutput);
manifest.Save(temp_manifest);
// Only write the new manifest if it actually changed
MonoAndroidHelper.CopyIfChanged(temp_manifest, real_manifest);
// Create additional runtime provider java sources.
string providerTemplateFile = UseSharedRuntime ? "MonoRuntimeProvider.Shared.java" : "MonoRuntimeProvider.Bundled.java";
string providerTemplate = new StreamReader(typeof(JavaCallableWrapperGenerator).Assembly.GetManifestResourceStream(providerTemplateFile)).ReadToEnd();
foreach (var provider in additionalProviders)
{
var temp_provider = Path.Combine(temp, provider + ".java");
File.WriteAllText(temp_provider, providerTemplate.Replace("MonoRuntimeProvider", provider));
var real_provider_dir = Path.GetFullPath(Path.Combine(OutputDirectory, "src", "mono"));
Directory.CreateDirectory(real_provider_dir);
var real_provider = Path.Combine(real_provider_dir, provider + ".java");
MonoAndroidHelper.CopyIfChanged(temp_provider, real_provider);
}
// Create additional application java sources.
Action <string, string, string, Func <string, string> > save = (resource, filename, destDir, applyTemplate) => {
string temp_file = Path.Combine(temp, filename);
string template = applyTemplate(new StreamReader(typeof(GenerateJavaStubs).Assembly.GetManifestResourceStream(resource)).ReadToEnd());
File.WriteAllText(temp_file, template);
Directory.CreateDirectory(destDir);
var real_file = Path.Combine(destDir, filename);
MonoAndroidHelper.CopyIfChanged(temp_file, real_file);
};
StringWriter regCallsWriter = new StringWriter();
regCallsWriter.WriteLine("\t\t// Application and Instrumentation ACWs must be registered first.");
foreach (var type in java_types)
{
if (JavaNativeTypeManager.IsApplication(type) || JavaNativeTypeManager.IsInstrumentation(type))
{
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
regCallsWriter.WriteLine("\t\tmono.android.Runtime.register (\"{0}\", {1}.class, {1}.__md_methods);",
type.GetAssemblyQualifiedName(), javaKey);
}
}
regCallsWriter.Close();
var real_app_dir = Path.GetFullPath(Path.Combine(OutputDirectory, "src", "mono", "android", "app"));
string applicationTemplateFile = "ApplicationRegistration.java";
save(applicationTemplateFile, applicationTemplateFile, real_app_dir,
template => template.Replace("// REGISTER_APPLICATION_AND_INSTRUMENTATION_CLASSES_HERE", regCallsWriter.ToString()));
// Create NotifyTimeZoneChanges java sources.
string notifyTimeZoneChangesFile = "NotifyTimeZoneChanges.java";
save(notifyTimeZoneChangesFile, notifyTimeZoneChangesFile, real_app_dir, template => template);
// Delete our temp directory
try { Directory.Delete(temp, true); } catch (Exception) { }
}
void Run(DirectoryAssemblyResolver res)
{
PackageNamingPolicy pnp;
JavaNativeTypeManager.PackageNamingPolicy = Enum.TryParse(PackageNamingPolicy, out pnp) ? pnp : PackageNamingPolicyEnum.LowercaseHash;
foreach (var dir in FrameworkDirectories)
{
if (Directory.Exists(dir.ItemSpec))
{
res.SearchDirectories.Add(dir.ItemSpec);
}
}
// Put every assembly we'll need in the resolver
foreach (var assembly in ResolvedAssemblies)
{
if (bool.TryParse(assembly.GetMetadata(AndroidSkipJavaStubGeneration), out bool value) && value)
{
Log.LogDebugMessage($"Skipping Java Stub Generation for {assembly.ItemSpec}");
continue;
}
res.Load(assembly.ItemSpec);
}
// However we only want to look for JLO types in user code
List <string> assemblies = new List <string> ();
foreach (var asm in ResolvedUserAssemblies)
{
if (bool.TryParse(asm.GetMetadata(AndroidSkipJavaStubGeneration), out bool value) && value)
{
Log.LogDebugMessage($"Skipping Java Stub Generation for {asm.ItemSpec}");
continue;
}
if (!assemblies.All(x => Path.GetFileName(x) != Path.GetFileName(asm.ItemSpec)))
{
continue;
}
Log.LogDebugMessage($"Adding {asm.ItemSpec} to assemblies.");
assemblies.Add(asm.ItemSpec);
}
foreach (var asm in MonoAndroidHelper.GetFrameworkAssembliesToTreatAsUserAssemblies(ResolvedAssemblies))
{
if (bool.TryParse(asm.GetMetadata(AndroidSkipJavaStubGeneration), out bool value) && value)
{
Log.LogDebugMessage($"Skipping Java Stub Generation for {asm.ItemSpec}");
continue;
}
if (!assemblies.All(x => Path.GetFileName(x) != Path.GetFileName(asm.ItemSpec)))
{
continue;
}
Log.LogDebugMessage($"Adding {asm.ItemSpec} to assemblies.");
assemblies.Add(asm.ItemSpec);
}
// Step 1 - Find all the JLO types
var scanner = new JavaTypeScanner(this.CreateTaskLogger())
{
ErrorOnCustomJavaObject = ErrorOnCustomJavaObject,
};
var all_java_types = scanner.GetJavaTypes(assemblies, res);
WriteTypeMappings(all_java_types);
var java_types = all_java_types
.Where(t => !JavaTypeScanner.ShouldSkipJavaCallableWrapperGeneration(t))
.ToArray();
// Step 2 - Generate Java stub code
var success = Generator.CreateJavaSources(
Log,
java_types,
Path.Combine(OutputDirectory, "src"),
ApplicationJavaClass,
AndroidSdkPlatform,
UseSharedRuntime,
int.Parse(AndroidSdkPlatform) <= 10,
ResolvedAssemblies.Any(assembly => Path.GetFileName(assembly.ItemSpec) == "Mono.Android.Export.dll"));
if (!success)
{
return;
}
// We need to save a map of .NET type -> ACW type for resource file fixups
var managed = new Dictionary <string, TypeDefinition> (java_types.Length, StringComparer.Ordinal);
var java = new Dictionary <string, TypeDefinition> (java_types.Length, StringComparer.Ordinal);
var managedConflicts = new Dictionary <string, List <string> > (0, StringComparer.Ordinal);
var javaConflicts = new Dictionary <string, List <string> > (0, StringComparer.Ordinal);
// Allocate a MemoryStream with a reasonable guess at its capacity
using (var stream = new MemoryStream(java_types.Length * 32))
using (var acw_map = new StreamWriter(stream)) {
foreach (var type in java_types)
{
string managedKey = type.FullName.Replace('/', '.');
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
acw_map.Write(type.GetPartialAssemblyQualifiedName());
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
TypeDefinition conflict;
bool hasConflict = false;
if (managed.TryGetValue(managedKey, out conflict))
{
if (!managedConflicts.TryGetValue(managedKey, out var list))
{
managedConflicts.Add(managedKey, list = new List <string> {
conflict.GetPartialAssemblyName()
});
}
list.Add(type.GetPartialAssemblyName());
hasConflict = true;
}
if (java.TryGetValue(javaKey, out conflict))
{
if (!javaConflicts.TryGetValue(javaKey, out var list))
{
javaConflicts.Add(javaKey, list = new List <string> {
conflict.GetAssemblyQualifiedName()
});
}
list.Add(type.GetAssemblyQualifiedName());
success = false;
hasConflict = true;
}
if (!hasConflict)
{
managed.Add(managedKey, type);
java.Add(javaKey, type);
acw_map.Write(managedKey);
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
acw_map.Write(JavaNativeTypeManager.ToCompatJniName(type).Replace('/', '.'));
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
}
}
acw_map.Flush();
MonoAndroidHelper.CopyIfStreamChanged(stream, AcwMapFile);
}
foreach (var kvp in managedConflicts)
{
Log.LogCodedWarning(
"XA4214",
"The managed type `{0}` exists in multiple assemblies: {1}. " +
"Please refactor the managed type names in these assemblies so that they are not identical.",
kvp.Key,
string.Join(", ", kvp.Value));
Log.LogCodedWarning("XA4214", "References to the type `{0}` will refer to `{0}, {1}`.", kvp.Key, kvp.Value [0]);
}
foreach (var kvp in javaConflicts)
{
Log.LogCodedError(
"XA4215",
"The Java type `{0}` is generated by more than one managed type. " +
"Please change the [Register] attribute so that the same Java type is not emitted.",
kvp.Key);
foreach (var typeName in kvp.Value)
{
Log.LogCodedError("XA4215", " `{0}` generated by: {1}", kvp.Key, typeName);
}
}
// Step 3 - Merge [Activity] and friends into AndroidManifest.xml
var manifest = new ManifestDocument(ManifestTemplate, this.Log);
manifest.PackageName = PackageName;
manifest.ApplicationName = ApplicationName ?? PackageName;
manifest.Placeholders = ManifestPlaceholders;
manifest.Assemblies.AddRange(assemblies);
manifest.Resolver = res;
manifest.SdkDir = AndroidSdkDir;
manifest.SdkVersion = AndroidSdkPlatform;
manifest.Debug = Debug;
manifest.MultiDex = MultiDex;
manifest.NeedsInternet = NeedsInternet;
manifest.InstantRunEnabled = InstantRunEnabled;
var additionalProviders = manifest.Merge(all_java_types, ApplicationJavaClass, EmbedAssemblies, BundledWearApplicationName, MergedManifestDocuments);
using (var stream = new MemoryStream()) {
manifest.Save(stream);
// Only write the new manifest if it actually changed
MonoAndroidHelper.CopyIfStreamChanged(stream, MergedAndroidManifestOutput);
}
// Create additional runtime provider java sources.
string providerTemplateFile = UseSharedRuntime ? "MonoRuntimeProvider.Shared.java" : "MonoRuntimeProvider.Bundled.java";
string providerTemplate = GetResource(providerTemplateFile);
foreach (var provider in additionalProviders)
{
var contents = providerTemplate.Replace("MonoRuntimeProvider", provider);
var real_provider = Path.Combine(OutputDirectory, "src", "mono", provider + ".java");
MonoAndroidHelper.CopyIfStringChanged(contents, real_provider);
}
// Create additional application java sources.
StringWriter regCallsWriter = new StringWriter();
regCallsWriter.WriteLine("\t\t// Application and Instrumentation ACWs must be registered first.");
foreach (var type in java_types)
{
if (JavaNativeTypeManager.IsApplication(type) || JavaNativeTypeManager.IsInstrumentation(type))
{
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
regCallsWriter.WriteLine("\t\tmono.android.Runtime.register (\"{0}\", {1}.class, {1}.__md_methods);",
type.GetAssemblyQualifiedName(), javaKey);
}
}
regCallsWriter.Close();
var real_app_dir = Path.Combine(OutputDirectory, "src", "mono", "android", "app");
string applicationTemplateFile = "ApplicationRegistration.java";
SaveResource(applicationTemplateFile, applicationTemplateFile, real_app_dir,
template => template.Replace("// REGISTER_APPLICATION_AND_INSTRUMENTATION_CLASSES_HERE", regCallsWriter.ToString()));
}
void Run(DirectoryAssemblyResolver res)
{
PackageNamingPolicy pnp;
JavaNativeTypeManager.PackageNamingPolicy = Enum.TryParse(PackageNamingPolicy, out pnp) ? pnp : PackageNamingPolicyEnum.LowercaseCrc64;
foreach (var dir in FrameworkDirectories)
{
if (Directory.Exists(dir.ItemSpec))
{
res.SearchDirectories.Add(dir.ItemSpec);
}
}
// Put every assembly we'll need in the resolver
bool hasExportReference = false;
bool haveMonoAndroid = false;
var allTypemapAssemblies = new HashSet <string> (StringComparer.OrdinalIgnoreCase);
var userAssemblies = new Dictionary <string, string> (StringComparer.OrdinalIgnoreCase);
foreach (var assembly in ResolvedAssemblies)
{
bool value;
if (bool.TryParse(assembly.GetMetadata(AndroidSkipJavaStubGeneration), out value) && value)
{
Log.LogDebugMessage($"Skipping Java Stub Generation for {assembly.ItemSpec}");
continue;
}
bool addAssembly = false;
string fileName = Path.GetFileName(assembly.ItemSpec);
if (!hasExportReference && String.Compare("Mono.Android.Export.dll", fileName, StringComparison.OrdinalIgnoreCase) == 0)
{
hasExportReference = true;
addAssembly = true;
}
else if (!haveMonoAndroid && String.Compare("Mono.Android.dll", fileName, StringComparison.OrdinalIgnoreCase) == 0)
{
haveMonoAndroid = true;
addAssembly = true;
}
else if (MonoAndroidHelper.FrameworkAssembliesToTreatAsUserAssemblies.Contains(fileName))
{
if (!bool.TryParse(assembly.GetMetadata(AndroidSkipJavaStubGeneration), out value) || !value)
{
string name = Path.GetFileNameWithoutExtension(fileName);
if (!userAssemblies.ContainsKey(name))
{
userAssemblies.Add(name, assembly.ItemSpec);
}
addAssembly = true;
}
}
if (addAssembly)
{
allTypemapAssemblies.Add(assembly.ItemSpec);
}
res.Load(assembly.ItemSpec);
}
// However we only want to look for JLO types in user code for Java stub code generation
foreach (var asm in ResolvedUserAssemblies)
{
if (bool.TryParse(asm.GetMetadata(AndroidSkipJavaStubGeneration), out bool value) && value)
{
Log.LogDebugMessage($"Skipping Java Stub Generation for {asm.ItemSpec}");
continue;
}
allTypemapAssemblies.Add(asm.ItemSpec);
userAssemblies.Add(Path.GetFileNameWithoutExtension(asm.ItemSpec), asm.ItemSpec);
}
// Step 1 - Find all the JLO types
var cache = new TypeDefinitionCache();
var scanner = new JavaTypeScanner(this.CreateTaskLogger(), cache)
{
ErrorOnCustomJavaObject = ErrorOnCustomJavaObject,
};
List <TypeDefinition> allJavaTypes = scanner.GetJavaTypes(allTypemapAssemblies, res);
// Step 2 - Generate type maps
// Type mappings need to use all the assemblies, always.
WriteTypeMappings(allJavaTypes, cache);
var javaTypes = new List <TypeDefinition> ();
foreach (TypeDefinition td in allJavaTypes)
{
if (!userAssemblies.ContainsKey(td.Module.Assembly.Name.Name) || JavaTypeScanner.ShouldSkipJavaCallableWrapperGeneration(td, cache))
{
continue;
}
javaTypes.Add(td);
}
// Step 3 - Generate Java stub code
var success = CreateJavaSources(javaTypes, cache);
if (!success)
{
return;
}
// We need to save a map of .NET type -> ACW type for resource file fixups
var managed = new Dictionary <string, TypeDefinition> (javaTypes.Count, StringComparer.Ordinal);
var java = new Dictionary <string, TypeDefinition> (javaTypes.Count, StringComparer.Ordinal);
var managedConflicts = new Dictionary <string, List <string> > (0, StringComparer.Ordinal);
var javaConflicts = new Dictionary <string, List <string> > (0, StringComparer.Ordinal);
using (var acw_map = MemoryStreamPool.Shared.CreateStreamWriter()) {
foreach (TypeDefinition type in javaTypes)
{
string managedKey = type.FullName.Replace('/', '.');
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
acw_map.Write(type.GetPartialAssemblyQualifiedName(cache));
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
TypeDefinition conflict;
bool hasConflict = false;
if (managed.TryGetValue(managedKey, out conflict))
{
if (!managedConflicts.TryGetValue(managedKey, out var list))
{
managedConflicts.Add(managedKey, list = new List <string> {
conflict.GetPartialAssemblyName(cache)
});
}
list.Add(type.GetPartialAssemblyName(cache));
hasConflict = true;
}
if (java.TryGetValue(javaKey, out conflict))
{
if (!javaConflicts.TryGetValue(javaKey, out var list))
{
javaConflicts.Add(javaKey, list = new List <string> {
conflict.GetAssemblyQualifiedName(cache)
});
}
list.Add(type.GetAssemblyQualifiedName(cache));
success = false;
hasConflict = true;
}
if (!hasConflict)
{
managed.Add(managedKey, type);
java.Add(javaKey, type);
acw_map.Write(managedKey);
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
acw_map.Write(JavaNativeTypeManager.ToCompatJniName(type, cache).Replace('/', '.'));
acw_map.Write(';');
acw_map.Write(javaKey);
acw_map.WriteLine();
}
}
acw_map.Flush();
MonoAndroidHelper.CopyIfStreamChanged(acw_map.BaseStream, AcwMapFile);
}
foreach (var kvp in managedConflicts)
{
Log.LogCodedWarning("XA4214", Properties.Resources.XA4214, kvp.Key, string.Join(", ", kvp.Value));
Log.LogCodedWarning("XA4214", Properties.Resources.XA4214_Result, kvp.Key, kvp.Value [0]);
}
foreach (var kvp in javaConflicts)
{
Log.LogCodedError("XA4215", Properties.Resources.XA4215, kvp.Key);
foreach (var typeName in kvp.Value)
{
Log.LogCodedError("XA4215", Properties.Resources.XA4215_Details, kvp.Key, typeName);
}
}
// Step 3 - Merge [Activity] and friends into AndroidManifest.xml
var manifest = new ManifestDocument(ManifestTemplate);
manifest.PackageName = PackageName;
manifest.ApplicationName = ApplicationName ?? PackageName;
manifest.Placeholders = ManifestPlaceholders;
manifest.Assemblies.AddRange(userAssemblies.Values);
manifest.Resolver = res;
manifest.SdkDir = AndroidSdkDir;
manifest.SdkVersion = AndroidSdkPlatform;
manifest.Debug = Debug;
manifest.MultiDex = MultiDex;
manifest.NeedsInternet = NeedsInternet;
manifest.InstantRunEnabled = InstantRunEnabled;
if (!String.IsNullOrWhiteSpace(CheckedBuild))
{
// We don't validate CheckedBuild value here, this will be done in BuildApk. We just know that if it's
// on then we need android:debuggable=true and android:extractNativeLibs=true
manifest.ForceDebuggable = true;
manifest.ForceExtractNativeLibs = true;
}
var additionalProviders = manifest.Merge(Log, cache, allJavaTypes, ApplicationJavaClass, EmbedAssemblies, BundledWearApplicationName, MergedManifestDocuments);
// Only write the new manifest if it actually changed
if (manifest.SaveIfChanged(Log, MergedAndroidManifestOutput))
{
Log.LogDebugMessage($"Saving: {MergedAndroidManifestOutput}");
}
// Create additional runtime provider java sources.
string providerTemplateFile = "MonoRuntimeProvider.Bundled.java";
string providerTemplate = GetResource(providerTemplateFile);
foreach (var provider in additionalProviders)
{
var contents = providerTemplate.Replace("MonoRuntimeProvider", provider);
var real_provider = Path.Combine(OutputDirectory, "src", "mono", provider + ".java");
MonoAndroidHelper.CopyIfStringChanged(contents, real_provider);
}
// Create additional application java sources.
StringWriter regCallsWriter = new StringWriter();
regCallsWriter.WriteLine("\t\t// Application and Instrumentation ACWs must be registered first.");
foreach (var type in javaTypes)
{
if (JavaNativeTypeManager.IsApplication(type, cache) || JavaNativeTypeManager.IsInstrumentation(type, cache))
{
string javaKey = JavaNativeTypeManager.ToJniName(type).Replace('/', '.');
regCallsWriter.WriteLine("\t\tmono.android.Runtime.register (\"{0}\", {1}.class, {1}.__md_methods);",
type.GetAssemblyQualifiedName(cache), javaKey);
}
}
regCallsWriter.Close();
var real_app_dir = Path.Combine(OutputDirectory, "src", "mono", "android", "app");
string applicationTemplateFile = "ApplicationRegistration.java";
SaveResource(applicationTemplateFile, applicationTemplateFile, real_app_dir,
template => template.Replace("// REGISTER_APPLICATION_AND_INSTRUMENTATION_CLASSES_HERE", regCallsWriter.ToString()));
}
public static string ToString(TypeDefinition typeDef)
{
return(JavaNativeTypeManager.ToJniName(typeDef).Replace('/', '.'));
}
JavaCallableWrapperGenerator(TypeDefinition type, string outerType, Action <string, object[]> log)
{
this.type = type;
this.log = log;
if (type.IsEnum || type.IsInterface || type.IsValueType)
{
Diagnostic.Error(4200, LookupSource(type), "Can only generate Java wrappers for 'class' types, not type '{0}'.", type.FullName);
}
string jniName = JavaNativeTypeManager.ToJniName(type);
if (jniName == null)
{
Diagnostic.Error(4201, LookupSource(type), "Unable to determine Java name for type {0}", type.FullName);
}
if (!string.IsNullOrEmpty(outerType))
{
string p;
jniName = jniName.Substring(outerType.Length + 1);
ExtractJavaNames(outerType, out p, out outerType);
}
ExtractJavaNames(jniName, out package, out name);
if (string.IsNullOrEmpty(package) &&
(type.IsSubclassOf("Android.App.Activity") ||
type.IsSubclassOf("Android.App.Application") ||
type.IsSubclassOf("Android.App.Service") ||
type.IsSubclassOf("Android.Content.BroadcastReceiver") ||
type.IsSubclassOf("Android.Content.ContentProvider")))
{
Diagnostic.Error(4203, LookupSource(type), "The Name property must be a fully qualified 'package.TypeName' value, and no package was found for '{0}'.", jniName);
}
foreach (MethodDefinition minfo in type.Methods.Where(m => !m.IsConstructor))
{
var baseMethods = GetBaseMethods(minfo);
var baseRegiteredMethod = baseMethods.FirstOrDefault(m => GetRegisterAttributes(m).Any());
if (baseRegiteredMethod != null)
{
AddMethod(baseRegiteredMethod, minfo);
}
else if (GetExportFieldAttributes(minfo).Any())
{
AddMethod(null, minfo);
HasExport = true;
}
else if (GetExportAttributes(minfo).Any())
{
AddMethod(null, minfo);
HasExport = true;
}
}
foreach (MethodDefinition imethod in type.Interfaces.Select(ifaceInfo => ifaceInfo.InterfaceType)
.Select(r => {
var d = r.Resolve();
if (d == null)
{
Diagnostic.Error(4204,
LookupSource(type),
"Unable to resolve interface type '{0}'. Are you missing an assembly reference?",
r.FullName);
}
return(d);
})
.Where(d => GetRegisterAttributes(d).Any())
.SelectMany(d => d.Methods))
{
AddMethod(imethod, imethod);
}
var ctorTypes = new List <TypeDefinition> ()
{
type,
};
foreach (var bt in type.GetBaseTypes())
{
ctorTypes.Add(bt);
RegisterAttribute rattr = GetRegisterAttributes(bt).FirstOrDefault();
if (rattr != null && rattr.DoNotGenerateAcw)
{
break;
}
}
ctorTypes.Reverse();
var curCtors = new List <MethodDefinition> ();
foreach (MethodDefinition minfo in type.Methods.Where(m => m.IsConstructor))
{
if (GetExportAttributes(minfo).Any())
{
if (minfo.IsStatic)
{
// Diagnostic.Warning (log, "ExportAttribute does not work on static constructor");
}
else
{
AddConstructor(minfo, ctorTypes [0], outerType, null, curCtors, false, true);
HasExport = true;
}
}
}
AddConstructors(ctorTypes [0], outerType, null, curCtors, true);
for (int i = 1; i < ctorTypes.Count; ++i)
{
var baseCtors = curCtors;
curCtors = new List <MethodDefinition> ();
AddConstructors(ctorTypes [i], outerType, baseCtors, curCtors, false);
}
}