/*
* Copyright (c) 2005, 2016, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
package build.tools.projectcreator;
import java.util.Enumeration;
import java.util.Hashtable;
import java.util.Vector;
class BuildConfig {
@SuppressWarnings("rawtypes")
Hashtable vars;
Vector<String> basicNames, basicPaths;
String[] context;
static CompilerInterface ci;
static CompilerInterface getCI() {
if (ci == null) {
String comp = (String)getField(null, "CompilerVersion");
try {
ci = (CompilerInterface)Class.forName("build.tools.projectcreator.CompilerInterface" + comp).newInstance();
} catch (Exception cnfe) {
System.err.println("Cannot find support for compiler " + comp);
throw new RuntimeException(cnfe.toString());
}
}
return ci;
}
@SuppressWarnings("rawtypes")
protected void initNames(String flavour, String build, String outDll) {
if (vars == null) vars = new Hashtable();
String flavourBuild = flavour + "_" + build;
String platformName = getFieldString(null, "PlatformName");
System.out.println();
System.out.println(flavourBuild);
put("Name", getCI().makeCfgName(flavourBuild, platformName));
put("Flavour", flavour);
put("Build", build);
put("PlatformName", platformName);
// ones mentioned above were needed to expand format
String buildBase = expandFormat(getFieldString(null, "BuildBase"));
String sourceBase = getFieldString(null, "SourceBase");
String buildSpace = getFieldString(null, "BuildSpace");
String outDir = buildBase;
String jdkTargetRoot = getFieldString(null, "JdkTargetRoot");
String makeBinary = getFieldString(null, "MakeBinary");
String makeOutput = expandFormat(getFieldString(null, "MakeOutput"));
put("Id", flavourBuild);
put("OutputDir", outDir);
put("SourceBase", sourceBase);
put("BuildBase", buildBase);
put("BuildSpace", buildSpace);
put("OutputDll", outDir + Util.sep + outDll);
put("JdkTargetRoot", jdkTargetRoot);
put("MakeBinary", makeBinary);
put("MakeOutput", makeOutput);
context = new String [] {flavourBuild, flavour, build, null};
}
protected void init(Vector<String> includes, Vector<String> defines) {
initDefaultDefines(defines);
initDefaultCompilerFlags(includes);
initDefaultLinkerFlags();
//handleDB();
}
protected void initDefaultCompilerFlags(Vector<String> includes) {
Vector compilerFlags = new Vector();
compilerFlags.addAll(getCI().getBaseCompilerFlags(getV("Define"),
includes,
get("OutputDir")));
put("CompilerFlags", compilerFlags);
}
protected void initDefaultLinkerFlags() {
Vector linkerFlags = new Vector();
linkerFlags.addAll(getCI().getBaseLinkerFlags( get("OutputDir"), get("OutputDll"), get("PlatformName")));
put("LinkerFlags", linkerFlags);
}
public boolean matchesIgnoredPath(String path) {
Vector<String> rv = new Vector<String>();
collectRelevantVectors(rv, "IgnorePath");
for (String pathPart : rv) {
if (path.contains(pathPart)) {
return true;
}
}
return false;
}
public boolean matchesHidePath(String path) {
Vector<String> rv = new Vector<String>();
collectRelevantVectors(rv, "HidePath");
for (String pathPart : rv) {
if (path.contains(Util.normalize(pathPart))) {
return true;
}
}
return false;
}
public Vector<String> matchesAdditionalGeneratedPath(String fullPath) {
Vector<String> rv = new Vector<String>();
Hashtable<String, String> v = (Hashtable<String, String>)BuildConfig.getField(this.toString(), "AdditionalGeneratedFile");
if (v != null) {
for (Enumeration<String> e=v.keys(); e.hasMoreElements(); ) {
String key = e.nextElement();
String val = v.get(key);
if (fullPath.endsWith(expandFormat(key))) {
rv.add(expandFormat(val));
}
}
}
return rv;
}
// Returns true if the specified path refers to a relative alternate
// source file. RelativeAltSrcInclude is usually "src\closed".
public static boolean matchesRelativeAltSrcInclude(String path) {
String relativeAltSrcInclude =
getFieldString(null, "RelativeAltSrcInclude");
Vector<String> v = getFieldVector(null, "AltRelativeInclude");
if (v != null) {
for (String pathPart : v) {
if (path.contains(relativeAltSrcInclude + Util.sep + pathPart)) {
return true;
}
}
}
return false;
}
// Returns the relative alternate source file for the specified path.
// Null is returned if the specified path does not have a matching
// alternate source file.
public static String getMatchingRelativeAltSrcFile(String path) {
Vector<String> v = getFieldVector(null, "RelativeAltSrcFileList");
if (v == null) {
return null;
}
for (String pathPart : v) {
if (path.endsWith(pathPart)) {
String relativeAltSrcInclude =
getFieldString(null, "RelativeAltSrcInclude");
return relativeAltSrcInclude + Util.sep + pathPart;
}
}
return null;
}
// Returns true if the specified path has a matching alternate
// source file.
public static boolean matchesRelativeAltSrcFile(String path) {
return getMatchingRelativeAltSrcFile(path) != null;
}
// Track the specified alternate source file. The source file is
// tracked without the leading .*<sep><RelativeAltSrcFileList><sep>
// part to make matching regular source files easier.
public static void trackRelativeAltSrcFile(String path) {
String pattern = getFieldString(null, "RelativeAltSrcInclude") +
Util.sep;
int altSrcInd = path.indexOf(pattern);
if (altSrcInd == -1) {
// not an AltSrc path
return;
}
altSrcInd += pattern.length();
if (altSrcInd >= path.length()) {
// not a valid AltSrc path
return;
}
String altSrcFile = path.substring(altSrcInd);
Vector v = getFieldVector(null, "RelativeAltSrcFileList");
if (v == null || !v.contains(altSrcFile)) {
addFieldVector(null, "RelativeAltSrcFileList", altSrcFile);
}
}
void addTo(Hashtable ht, String key, String value) {
ht.put(expandFormat(key), expandFormat(value));
}
void initDefaultDefines(Vector defines) {
Vector sysDefines = new Vector();
sysDefines.add("WIN32");
sysDefines.add("_WINDOWS");
sysDefines.add("HOTSPOT_BUILD_USER=\\\""+System.getProperty("user.name")+"\\\"");
sysDefines.add("HOTSPOT_BUILD_TARGET=\\\""+get("Build")+"\\\"");
sysDefines.add("INCLUDE_TRACE=1");
sysDefines.add("_JNI_IMPLEMENTATION_");
if (vars.get("PlatformName").equals("Win32")) {
sysDefines.add("HOTSPOT_LIB_ARCH=\\\"i386\\\"");
} else {
sysDefines.add("HOTSPOT_LIB_ARCH=\\\"amd64\\\"");
}
sysDefines.add("DEBUG_LEVEL=\\\"" + get("Build")+"\\\"");
sysDefines.addAll(defines);
put("Define", sysDefines);
}
String get(String key) {
return (String)vars.get(key);
}
Vector getV(String key) {
return (Vector)vars.get(key);
}
Object getO(String key) {
return vars.get(key);
}
Hashtable getH(String key) {
return (Hashtable)vars.get(key);
}
Object getFieldInContext(String field) {
for (int i=0; i<context.length; i++) {
Object rv = getField(context[i], field);
if (rv != null) {
return rv;
}
}
return null;
}
Object lookupHashFieldInContext(String field, String key) {
for (int i=0; i<context.length; i++) {
Hashtable ht = (Hashtable)getField(context[i], field);
if (ht != null) {
Object rv = ht.get(key);
if (rv != null) {
return rv;
}
}
}
return null;
}
void put(String key, String value) {
vars.put(key, value);
}
void put(String key, Vector vvalue) {
vars.put(key, vvalue);
}
void add(String key, Vector vvalue) {
getV(key).addAll(vvalue);
}
String flavour() {
return get("Flavour");
}
String build() {
return get("Build");
}
Object getSpecificField(String field) {
return getField(get("Id"), field);
}
void putSpecificField(String field, Object value) {
putField(get("Id"), field, value);
}
void collectRelevantVectors(Vector rv, String field) {
for (String ctx : context) {
Vector<String> v = getFieldVector(ctx, field);
if (v != null) {
for (String val : v) {
rv.add(expandFormat(val).replace('/', '\\'));
}
}
}
}
void collectRelevantHashes(Hashtable rv, String field) {
for (String ctx : context) {
Hashtable v = (Hashtable)getField(ctx, field);
if (v != null) {
for (Enumeration e=v.keys(); e.hasMoreElements(); ) {
String key = (String)e.nextElement();
String val = (String)v.get(key);
addTo(rv, key, val);
}
}
}
}
Vector getDefines() {
Vector rv = new Vector();
collectRelevantVectors(rv, "Define");
return rv;
}
Vector getIncludes() {
Vector rv = new Vector();
collectRelevantVectors(rv, "AbsoluteInclude");
rv.addAll(getSourceIncludes());
return rv;
}
private Vector getSourceIncludes() {
Vector<String> rv = new Vector<String>();
String sourceBase = getFieldString(null, "SourceBase");
// add relative alternate source include values:
String relativeAltSrcInclude =
getFieldString(null, "RelativeAltSrcInclude");
Vector<String> asri = new Vector<String>();
collectRelevantVectors(asri, "AltRelativeInclude");
for (String f : asri) {
rv.add(sourceBase + Util.sep + relativeAltSrcInclude +
Util.sep + f);
}
Vector<String> ri = new Vector<String>();
collectRelevantVectors(ri, "RelativeInclude");
for (String f : ri) {
rv.add(sourceBase + Util.sep + f);
}
return rv;
}
static Hashtable cfgData = new Hashtable();
static Hashtable globalData = new Hashtable();
static boolean appliesToTieredBuild(String cfg) {
return (cfg != null &&
cfg.startsWith("server"));
}
// Filters out the IgnoreFile and IgnorePaths since they are
// handled specially for tiered builds.
static boolean appliesToTieredBuild(String cfg, String key) {
return (appliesToTieredBuild(cfg))&& (key != null && !key.startsWith("Ignore"));
}
static String getTieredBuildCfg(String cfg) {
assert appliesToTieredBuild(cfg) : "illegal configuration " + cfg;
return "server";
}
static Object getField(String cfg, String field) {
if (cfg == null) {
return globalData.get(field);
}
Hashtable ht = (Hashtable)cfgData.get(cfg);
return ht == null ? null : ht.get(field);
}
static String getFieldString(String cfg, String field) {
return (String)getField(cfg, field);
}
static Vector getFieldVector(String cfg, String field) {
return (Vector)getField(cfg, field);
}
static void putField(String cfg, String field, Object value) {
putFieldImpl(cfg, field, value);
if (appliesToTieredBuild(cfg, field)) {
putFieldImpl(getTieredBuildCfg(cfg), field, value);
}
}
private static void putFieldImpl(String cfg, String field, Object value) {
if (cfg == null) {
globalData.put(field, value);
return;
}
Hashtable ht = (Hashtable)cfgData.get(cfg);
if (ht == null) {
ht = new Hashtable();
cfgData.put(cfg, ht);
}
ht.put(field, value);
}
static Object getFieldHash(String cfg, String field, String name) {
Hashtable ht = (Hashtable)getField(cfg, field);
return ht == null ? null : ht.get(name);
}
static void putFieldHash(String cfg, String field, String name, Object val) {
putFieldHashImpl(cfg, field, name, val);
if (appliesToTieredBuild(cfg, field)) {
putFieldHashImpl(getTieredBuildCfg(cfg), field, name, val);
}
}
private static void putFieldHashImpl(String cfg, String field, String name, Object val) {
Hashtable ht = (Hashtable)getField(cfg, field);
if (ht == null) {
ht = new Hashtable();
putFieldImpl(cfg, field, ht);
}
ht.put(name, val);
}
static void addFieldVector(String cfg, String field, String element) {
addFieldVectorImpl(cfg, field, element);
if (appliesToTieredBuild(cfg, field)) {
addFieldVectorImpl(getTieredBuildCfg(cfg), field, element);
}
}
private static void addFieldVectorImpl(String cfg, String field, String element) {
Vector v = (Vector)getField(cfg, field);
if (v == null) {
v = new Vector();
putFieldImpl(cfg, field, v);
}
v.add(element);
}
String expandFormat(String format) {
if (format == null) {
return null;
}
if (format.indexOf('%') == -1) {
return format;
}
StringBuffer sb = new StringBuffer();
int len = format.length();
for (int i=0; i<len; i++) {
char ch = format.charAt(i);
if (ch == '%') {
char ch1 = format.charAt(i+1);
switch (ch1) {
case '%':
sb.append(ch1);
break;
case 'b':
sb.append(build());
break;
case 'f':
sb.append(flavour());
break;
default:
sb.append(ch);
sb.append(ch1);
}
i++;
} else {
sb.append(ch);
}
}
return sb.toString();
}
}
abstract class GenericDebugConfig extends BuildConfig {
abstract String getOptFlag();
protected void init(Vector includes, Vector defines) {
defines.add("_DEBUG");
defines.add("ASSERT");
super.init(includes, defines);
getV("CompilerFlags").addAll(getCI().getDebugCompilerFlags(getOptFlag(), get("PlatformName")));
getV("LinkerFlags").addAll(getCI().getDebugLinkerFlags());
}
}
abstract class GenericDebugNonKernelConfig extends GenericDebugConfig {
protected void init(Vector includes, Vector defines) {
super.init(includes, defines);
if (get("PlatformName").equals("Win32")) {
getCI().getAdditionalNonKernelLinkerFlags(getV("LinkerFlags"));
}
}
}
class C1DebugConfig extends GenericDebugNonKernelConfig {
String getOptFlag() {
return getCI().getNoOptFlag();
}
C1DebugConfig() {
initNames("client", "debug", "jvm.dll");
init(getIncludes(), getDefines());
}
}
class C1FastDebugConfig extends GenericDebugNonKernelConfig {
String getOptFlag() {
return getCI().getOptFlag();
}
C1FastDebugConfig() {
initNames("client", "fastdebug", "jvm.dll");
init(getIncludes(), getDefines());
}
}
class TieredDebugConfig extends GenericDebugNonKernelConfig {
String getOptFlag() {
return getCI().getNoOptFlag();
}
TieredDebugConfig() {
initNames("server", "debug", "jvm.dll");
init(getIncludes(), getDefines());
}
}
class TieredFastDebugConfig extends GenericDebugNonKernelConfig {
String getOptFlag() {
return getCI().getOptFlag();
}
TieredFastDebugConfig() {
initNames("server", "fastdebug", "jvm.dll");
init(getIncludes(), getDefines());
}
}
abstract class ProductConfig extends BuildConfig {
protected void init(Vector includes, Vector defines) {
defines.add("NDEBUG");
defines.add("PRODUCT");
super.init(includes, defines);
getV("CompilerFlags").addAll(getCI().getProductCompilerFlags());
getV("LinkerFlags").addAll(getCI().getProductLinkerFlags());
}
}
class C1ProductConfig extends ProductConfig {
C1ProductConfig() {
initNames("client", "product", "jvm.dll");
init(getIncludes(), getDefines());
}
}
class TieredProductConfig extends ProductConfig {
TieredProductConfig() {
initNames("server", "product", "jvm.dll");
init(getIncludes(), getDefines());
}
}
abstract class CompilerInterface {
abstract Vector getBaseCompilerFlags(Vector defines, Vector includes, String outDir);
abstract Vector getBaseLinkerFlags(String outDir, String outDll, String platformName);
abstract Vector getDebugCompilerFlags(String opt, String platformName);
abstract Vector getDebugLinkerFlags();
abstract void getAdditionalNonKernelLinkerFlags(Vector rv);
abstract Vector getProductCompilerFlags();
abstract Vector getProductLinkerFlags();
abstract String getOptFlag();
abstract String getNoOptFlag();
abstract String makeCfgName(String flavourBuild, String platformName);
void addAttr(Vector receiver, String attr, String value) {
receiver.add(attr); receiver.add(value);
}
void extAttr(Vector receiver, String attr, String value) {
int attr_pos=receiver.indexOf(attr) ;
if ( attr_pos == -1) {
// If attr IS NOT present in the Vector - add it
receiver.add(attr); receiver.add(value);
} else {
// If attr IS present in the Vector - append value to it
receiver.set(attr_pos+1,receiver.get(attr_pos+1)+value);
}
}
}