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Diffstat (limited to 'qpid/gentools/src/org/apache/qpid/gentools/CppGenerator.java')
-rw-r--r-- | qpid/gentools/src/org/apache/qpid/gentools/CppGenerator.java | 1716 |
1 files changed, 1716 insertions, 0 deletions
diff --git a/qpid/gentools/src/org/apache/qpid/gentools/CppGenerator.java b/qpid/gentools/src/org/apache/qpid/gentools/CppGenerator.java new file mode 100644 index 0000000000..4f58cba34e --- /dev/null +++ b/qpid/gentools/src/org/apache/qpid/gentools/CppGenerator.java @@ -0,0 +1,1716 @@ +/* + * + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you under the Apache License, Version 2.0 (the + * "License"); you may not use this file except in compliance + * with the License. You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, + * software distributed under the License is distributed on an + * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY + * KIND, either express or implied. See the License for the + * specific language governing permissions and limitations + * under the License. + * + */ +package org.apache.qpid.gentools; + +import java.io.File; +import java.util.ArrayList; +import java.util.Iterator; +import java.util.TreeMap; + +public class CppGenerator extends Generator +{ + protected static final String versionNamespaceStartToken = "${version_namespace_start}"; + protected static final String versionNamespaceEndToken = "${version_namespace_end}"; + + // TODO: Move this to parent class + protected static final int FIELD_NAME = 0; + protected static final int FIELD_CODE_TYPE = 1; + + /** + * A complete list of C++ reserved words. The names of varous XML elements within the AMQP + * specification file are used for C++ identifier names in the generated code. Each proposed + * name is checked against this list and is modified (by adding an '_' to the end of the + * name - see function parseForReservedWords()) if found to be present. + */ + protected static final String[] cppReservedWords = {"and", "and_eq", "asm", "auto", "bitand", + "bitor", "bool", "break", "case", "catch", "char", "class", "compl", "const", "const_cast", + "continue", "default", "delete", "do", "DomainInfo", "double", "dynamic_cast", "else", + "enum", "explicit", "extern", "false", "float", "for", "friend", "goto", "if", "inline", + "int", "long", "mutable", "namespace", "new", "not", "not_eq", "operator", "or", "or_eq", + "private", "protected", "public", "register", "reinterpret_cast", "return", "short", + "signed", "sizeof", "static", "static_cast", "struct", "switch", "template", "this", + "throw", "true", "try", "typedef", "typeid", "typename", "union", "unsigned", "using", + "virtual", "void", "volatile", "wchar_t", "while", "xor", "xor_eq"}; + + /** + * Although not reserved words, the following list of variable names that may cause compile + * problems within a C++ environment because they clash with common #includes. The names of + * varous XML elements within the AMQP specification file are used for C++ identifier names + * in the generated code. Each proposed name is checked against this list and is modified + * (by adding an '_' to the end of the name - see function parseForReservedWords()) if found + * to be present. This list is best added to on an as-needed basis. + */ + protected static final String[] cppCommonDefines = {"string"}; + + // TODO: Move this to the Generator superclass? + protected boolean quietFlag; // Supress warning messages to the console + + private class DomainInfo + { + public String type; + public String size; + public String encodeExpression; + public String decodeExpression; + + public DomainInfo(String domain, String size, String encodeExpression, + String decodeExpression) + { + this.type = domain; + this.size = size; + this.encodeExpression = encodeExpression; + this.decodeExpression = decodeExpression; + } + } + + private static TreeMap<String, DomainInfo> typeMap = new TreeMap<String, DomainInfo>(); + + public CppGenerator() + { + super(); + quietFlag = true; + // Load C++ type and size maps. + // Adjust or add to these lists as new types are added/defined. + // The char '#' will be replaced by the field variable name (any type). + // The char '~' will be replaced by the compacted bit array size (type bit only). + typeMap.put("bit", new DomainInfo( + "bool", // type + "~", // size + "", // encodeExpression + "")); // decodeExpression + typeMap.put("content", new DomainInfo( + "Content", // type + "#.size()", // size + "buffer.putContent(#)", // encodeExpression + "buffer.getContent(#)")); // decodeExpression + typeMap.put("long", new DomainInfo( + "u_int32_t", // type + "4", // size + "buffer.putLong(#)", // encodeExpression + "# = buffer.getLong()")); // decodeExpression + typeMap.put("longlong", new DomainInfo( + "u_int64_t", // type + "8", // size + "buffer.putLongLong(#)", // encodeExpression + "# = buffer.getLongLong()")); // decodeExpression + typeMap.put("longstr", new DomainInfo( + "string", // type + "4 + #.length()", // size + "buffer.putLongString(#)", // encodeExpression + "buffer.getLongString(#)")); // decodeExpression + typeMap.put("octet", new DomainInfo( + "u_int8_t", // type + "1", // size + "buffer.putOctet(#)", // encodeExpression + "# = buffer.getOctet()")); // decodeExpression + typeMap.put("short", new DomainInfo( + "u_int16_t", // type + "2", // size + "buffer.putShort(#)", // encodeExpression + "# = buffer.getShort()")); // decodeExpression + typeMap.put("shortstr", new DomainInfo( + "string", // type + "1 + #.length()", // size + "buffer.putShortString(#)", // encodeExpression + "buffer.getShortString(#)")); // decodeExpression + typeMap.put("table", new DomainInfo( + "FieldTable", // type + "#.size()", // size + "buffer.putFieldTable(#)", // encodeExpression + "buffer.getFieldTable(#)")); // decodeExpression + typeMap.put("timestamp", new DomainInfo( + "u_int64_t", // type + "8", // size + "buffer.putLongLong(#)", // encodeExpression + "buffer.getLongLong(#)")); // decodeExpression + } + + + public boolean isQuietFlag() + { + return quietFlag; + } + + public void setQuietFlag(boolean quietFlag) + { + this.quietFlag = quietFlag; + } + + // === Start of methods for Interface LanguageConverter === + + public String prepareClassName(String className) + { + return camelCaseName(className, true); + } + + public String prepareMethodName(String methodName) + { + return camelCaseName(methodName, false); + } + + public String prepareDomainName(String domainName) + { + return camelCaseName(domainName, false); + } + + + public String getGeneratedType(String domainName, AmqpVersion version) + throws AmqpTypeMappingException + { + String domainType = getDomainType(domainName, version); + if (domainType == null) + { + throw new AmqpTypeMappingException("Domain type \"" + domainName + + "\" not found in C++ typemap."); + } + DomainInfo info = typeMap.get(domainType); + if (info == null) + { + throw new AmqpTypeMappingException("Unknown domain: \"" + domainType + "\""); + } + return info.type; + } + + // === Abstract methods from class Generator - C++-specific implementation === + + @Override + protected String prepareFilename(String filenameTemplate, AmqpClass thisClass, AmqpMethod method, + AmqpField field, AmqpVersion version) + { + StringBuffer sb = new StringBuffer(filenameTemplate); + if (thisClass != null) + { + replaceToken(sb, "${CLASS}", thisClass.getName()); + } + if (method != null) + { + replaceToken(sb, "${METHOD}", method.getName()); + } + if (field != null) + { + replaceToken(sb, "${FIELD}", field.getName()); + } + return sb.toString(); + } + + @Override + protected void processModelTemplate(NamedTemplate template) + { + processTemplate(template, null, null, null, null); + } + + @Override + protected void processClassTemplate(NamedTemplate template, AmqpClass thisClass) + { + processTemplate(template, thisClass, null, null, null); + } + + @Override + protected void processMethodTemplate(NamedTemplate template, AmqpClass thisClass, + AmqpMethod method) + { + StringBuffer sb = new StringBuffer(template.getTemplate()); + String filename = prepareFilename(getTemplateFileName(sb), thisClass, method, null, null); + boolean templateProcessedFlag = false; + + // If method is not version consistent, create a namespace for each version + // i.e. copy the bit between the versionNamespaceStartToken and versionNamespaceEndToken + // once for each namespace. + if (method != null) + { + if (!method.isVersionConsistent(getVersionSet())) + { + int namespaceStartIndex = sb.indexOf(versionNamespaceStartToken); + int namespaceEndIndex = sb.indexOf(versionNamespaceEndToken) + + versionNamespaceEndToken.length(); + if (namespaceStartIndex >= 0 && namespaceEndIndex >= 0 && + namespaceStartIndex <= namespaceEndIndex) + { + String namespaceSpan = sb.substring(namespaceStartIndex, namespaceEndIndex) + CR; + sb.delete(namespaceStartIndex, namespaceEndIndex); + for (AmqpVersion v : method.getVersionSet()) + { + StringBuffer nssb = new StringBuffer(namespaceSpan); + processTemplate(nssb, thisClass, method, null, template.getName(), v); + sb.insert(namespaceStartIndex, nssb); + } + // Process all tokens *not* within the namespace span prior to inserting namespaces + processTemplate(sb, thisClass, method, null, template.getName(), null); + } + templateProcessedFlag = true; + } + } + // Remove any remaining namespace tags + int nsTokenIndex = sb.indexOf(versionNamespaceStartToken); + while (nsTokenIndex > 0) + { + sb.delete(nsTokenIndex, nsTokenIndex + versionNamespaceStartToken.length()); + nsTokenIndex = sb.indexOf(versionNamespaceStartToken); + } + nsTokenIndex = sb.indexOf(versionNamespaceEndToken); + while (nsTokenIndex > 0) + { + sb.delete(nsTokenIndex, nsTokenIndex + versionNamespaceEndToken.length()); + nsTokenIndex = sb.indexOf(versionNamespaceEndToken); + } + + if (!templateProcessedFlag) + { + processTemplate(sb, thisClass, method, null, template.getName(), null); + } + writeTargetFile(sb, new File(getOutputDirectory() + Utils.FILE_SEPARATOR + filename)); + generatedFileCounter++; + } + + @Override + protected void processTemplate(NamedTemplate template, AmqpClass thisClass, AmqpMethod method, + AmqpField field, AmqpVersion version) + { + StringBuffer sb = new StringBuffer(template.getTemplate()); + String filename = prepareFilename(getTemplateFileName(sb), thisClass, method, field, version); + processTemplate(sb, thisClass, method, field, template.getName(), null); + writeTargetFile(sb, new File(getOutputDirectory() + Utils.FILE_SEPARATOR + filename)); + generatedFileCounter++; + } + + protected void processTemplate(StringBuffer sb, AmqpClass thisClass, AmqpMethod method, + AmqpField field, String templateFileName, AmqpVersion version) + { + try + { + processAllLists(sb, thisClass, method, version); + } + catch (AmqpTemplateException e) + { + System.out.println("ERROR: " + templateFileName + ": " + e.getMessage()); + } + try + { + processAllTokens(sb, thisClass, method, field, version); + } + catch (AmqpTemplateException e) + { + System.out.println("ERROR: " + templateFileName + ": " + e.getMessage()); + } + } + + @Override + protected String processToken(String token, AmqpClass thisClass, AmqpMethod method, AmqpField field, + AmqpVersion version) + { + if (token.compareTo("${GENERATOR}") == 0) + { + return GENERATOR_INFO; + } + if (token.compareTo("${CLASS}") == 0 && thisClass != null) + { + return thisClass.getName(); + } + if (token.compareTo("${CLASS_ID_INIT}") == 0 && thisClass != null) + { + if (version == null) + { + return String.valueOf(thisClass.getIndexMap().firstKey()); + } + return getIndex(thisClass.getIndexMap(), version); + } + if (token.compareTo("${METHOD}") == 0 && method != null) + { + return method.getName(); + } + if (token.compareTo("${METHOD_ID_INIT}") == 0 && method != null) + { + if (version == null) + { + return String.valueOf(method.getIndexMap().firstKey()); + } + return getIndex(method.getIndexMap(), version); + } + if (token.compareTo("${FIELD}") == 0 && field != null) + { + return field.getName(); + } + if (token.compareTo(versionNamespaceStartToken) == 0 && version != null) + { + return "namespace " + version.namespace() + CR + "{"; + } + if (token.compareTo(versionNamespaceEndToken) == 0 && version != null) + { + return "} // namespace " + version.namespace(); + } + if (token.compareTo("${mb_constructor_with_initializers}") == 0) + { + return generateConstructor(thisClass, method, version, 4, 4); + } + if (token.compareTo("${mb_server_operation_invoke}") == 0) + { + return generateServerOperationsInvoke(thisClass, method, version, 4, 4); + } + if (token.compareTo("${mb_buffer_param}") == 0) + { + return method.getFieldMap().size() > 0 ? " buffer" : ""; + } + if (token.compareTo("${hv_latest_major}") == 0) + { + return String.valueOf(getVersionSet().last().getMajor()); + } + if (token.compareTo("${hv_latest_minor}") == 0) + { + return String.valueOf(getVersionSet().last().getMinor()); + } + + throw new AmqpTemplateException("Template token " + token + " unknown."); + } + + @Override + protected void processClassList(StringBuffer sb, int listMarkerStartIndex, int listMarkerEndIndex, + AmqpModel model, AmqpVersion version) + { + String codeSnippet; + int lend = sb.indexOf(CR, listMarkerStartIndex) + 1; // Include cr at end of line + String tline = sb.substring(listMarkerEndIndex, lend); // Line excluding line marker, including cr + int tokxStart = tline.indexOf('$'); + String token = tline.substring(tokxStart).trim(); + sb.delete(listMarkerStartIndex, lend); + + // ClientOperations.h + if (token.compareTo("${coh_method_handler_get_method}") == 0) + { + codeSnippet = generateOpsMethodHandlerGetMethods(model, false, 4); + } + else if (token.compareTo("${coh_inner_class}") == 0) + { + codeSnippet = generateOpsInnerClasses(model, false, 4, 4); + } + + // ServerOperations.h + else if (token.compareTo("${soh_method_handler_get_method}") == 0) + { + codeSnippet = generateOpsMethodHandlerGetMethods(model, true, 4); + } + else if (token.compareTo("${soh_inner_class}") == 0) + { + codeSnippet = generateOpsInnerClasses(model, true, 4, 4); + } + + // ClientProxy.h/cpp + else if (token.compareTo("${cph_inner_class_instance}") == 0) + { + codeSnippet = generateProxyInnerClassInstances(model, false, 4); + } + else if (token.compareTo("${cph_inner_class_get_method}") == 0) + { + codeSnippet = generateProxyInnerClassGetMethodDecls(model, false, 4); + } + else if (token.compareTo("${cph_inner_class_defn}") == 0) + { + codeSnippet = generateProxyInnerClassDefinitions(model, false, 4, 4); + } + else if (token.compareTo("${cpc_constructor_initializer}") == 0) + { + codeSnippet = generateProxyConstructorInitializers(model, false, 4); + } + else if (token.compareTo("${cpc_inner_class_get_method}") == 0) + { + codeSnippet = generateProxyInnerClassGetMethodImpls(model, false, 0, 4); + } + else if (token.compareTo("${cpc_inner_class_impl}") == 0) + { + codeSnippet = generateProxyInnerClassImpl(model, false, 0, 4); + } + else if (token.compareTo("${cph_handler_pointer_defn}") == 0) + { + codeSnippet = generateHandlerPointerDefinitions(model, false, 4); + } + else if (token.compareTo("${cph_handler_pointer_get_method}") == 0) + { + codeSnippet = generateHandlerPointerGetMethods(model, false, 4); + } + + // SerrverProxy.h/cpp + else if (token.compareTo("${sph_inner_class_instance}") == 0) + { + codeSnippet = generateProxyInnerClassInstances(model, true, 4); + } + else if (token.compareTo("${sph_inner_class_get_method}") == 0) + { + codeSnippet = generateProxyInnerClassGetMethodDecls(model, true, 4); + } + else if (token.compareTo("${sph_inner_class_defn}") == 0) + { + codeSnippet = generateProxyInnerClassDefinitions(model, true, 4, 4); + } + else if (token.compareTo("${spc_constructor_initializer}") == 0) + { + codeSnippet = generateProxyConstructorInitializers(model, true, 4); + } + else if (token.compareTo("${spc_inner_class_get_method}") == 0) + { + codeSnippet = generateProxyInnerClassGetMethodImpls(model, true, 0, 4); + } + else if (token.compareTo("${spc_inner_class_impl}") == 0) + { + codeSnippet = generateProxyInnerClassImpl(model, true, 0, 4); + } + else if (token.compareTo("${sph_handler_pointer_defn}") == 0) + { + codeSnippet = generateHandlerPointerDefinitions(model, true, 4); + } + else if (token.compareTo("${sph_handler_pointer_get_method}") == 0) + { + codeSnippet = generateHandlerPointerGetMethods(model, true, 4); + } + + // amqp_methods.h/cpp + else if (token.compareTo("${mh_method_body_class_indlude}") == 0) + { + codeSnippet = generateMethodBodyIncludeList(model, 0); + } + else if (token.compareTo("${mh_method_body_class_instance}") == 0) + { + codeSnippet = generateMethodBodyInstances(model, 0); + } + else if (token.compareTo("${mc_create_method_body_map_entry}") == 0) + { + codeSnippet = generateMethodBodyMapEntry(model, 4); + } + + else // Oops! + { + throw new AmqpTemplateException("Template token \"" + token + "\" unknown."); + } + sb.insert(listMarkerStartIndex, codeSnippet); + } + + @Override + protected void processMethodList(StringBuffer sb, int listMarkerStartIndex, int listMarkerEndIndex, + AmqpClass thisClass) + { + String codeSnippet; + int lend = sb.indexOf(CR, listMarkerStartIndex) + 1; // Include cr at end of line + String tline = sb.substring(listMarkerEndIndex, lend); // Line excluding line marker, including cr + int tokxStart = tline.indexOf('$'); + String token = tline.substring(tokxStart).trim(); + sb.delete(listMarkerStartIndex, lend); + + if (token.compareTo("${cpc_method_body_include}") == 0) + { + codeSnippet = generateMethodBodyIncludes(thisClass, 0); + } + else if (token.compareTo("${spc_method_body_include}") == 0) + { + codeSnippet = generateMethodBodyIncludes(thisClass, 0); + } + else if (token.compareTo("${mc_method_body_include}") == 0) + { + codeSnippet = generateMethodBodyIncludes(thisClass, 0); + } + + else // Oops! + { + throw new AmqpTemplateException("Template token " + token + " unknown."); + } + sb.insert(listMarkerStartIndex, codeSnippet); + } + + @Override + protected void processFieldList(StringBuffer sb, int listMarkerStartIndex, int listMarkerEndIndex, + AmqpFieldMap fieldMap, AmqpVersion version) + { + String codeSnippet; + int lend = sb.indexOf(CR, listMarkerStartIndex) + 1; // Include cr at end of line + String tline = sb.substring(listMarkerEndIndex, lend); // Line excluding line marker, including cr + int tokxStart = tline.indexOf('$'); + String token = tline.substring(tokxStart).trim(); + sb.delete(listMarkerStartIndex, lend); + + if (token.compareTo("${mb_field_declaration}") == 0) + { + codeSnippet = generateFieldDeclarations(fieldMap, version, 4); + } + else if (token.compareTo("${mb_field_get_method}") == 0) + { + codeSnippet = generateFieldGetMethods(fieldMap, version, 4); + } + else if (token.compareTo("${mb_field_print}") == 0) + { + codeSnippet = generatePrintMethodContents(fieldMap, version, 8); + } + else if (token.compareTo("${mb_body_size}") == 0) + { + codeSnippet = generateBodySizeMethodContents(fieldMap, version, 8); + } + else if (token.compareTo("${mb_encode}") == 0) + { + codeSnippet = generateEncodeMethodContents(fieldMap, version, 8); + } + else if (token.compareTo("${mb_decode}") == 0) + { + codeSnippet = generateDecodeMethodContents(fieldMap, version, 8); + } + + else // Oops! + { + throw new AmqpTemplateException("Template token " + token + " unknown."); + } + sb.insert(listMarkerStartIndex, codeSnippet); + } + + @Override + protected void processConstantList(StringBuffer sb, int listMarkerStartIndex, int listMarkerEndIndex, + AmqpConstantSet constantSet) + { + String codeSnippet; + int lend = sb.indexOf(CR, listMarkerStartIndex) + 1; // Include cr at end of line + String tline = sb.substring(listMarkerEndIndex, lend); // Line excluding line marker, including cr + int tokxStart = tline.indexOf('$'); + String token = tline.substring(tokxStart).trim(); + sb.delete(listMarkerStartIndex, lend); + + if (token.compareTo("${ch_get_value_method}") == 0) + { + codeSnippet = generateConstantGetMethods(constantSet, 4, 4); + } + + else // Oops! + { + throw new AmqpTemplateException("Template token " + token + " unknown."); + } + sb.insert(listMarkerStartIndex, codeSnippet); + } + + // === Protected and private helper functions unique to C++ implementation === + + // Methods for generation of code snippets for AMQP_Constants.h file + + protected String generateConstantGetMethods(AmqpConstantSet constantSet, + int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + for (AmqpConstant thisConstant : constantSet.getContstants()) + { + if (thisConstant.isVersionConsistent(getVersionSet())) + { + // return a constant + String value = thisConstant.firstKey(); + sb.append(indent + "static const char* " + thisConstant.getName() + "() { return \"" + + thisConstant.firstKey() + "\"; }" + CR); + if (Utils.containsOnlyDigits(value)) + { + sb.append(indent + "static int " + thisConstant.getName() + "AsInt() { return " + + thisConstant.firstKey() + "; }" + CR); + } + if (Utils.containsOnlyDigitsAndDecimal(value)) + { + sb.append(indent + "static double " + thisConstant.getName() + "AsDouble() { return (double)" + + thisConstant.firstKey() + "; }" + CR); + } + sb.append(CR); + } + else + { + // Return version-specific constant + sb.append(generateVersionDependentGet(thisConstant, "const char*", "", "\"", "\"", indentSize, tabSize)); + sb.append(generateVersionDependentGet(thisConstant, "int", "AsInt", "", "", indentSize, tabSize)); + sb.append(generateVersionDependentGet(thisConstant, "double", "AsDouble", "(double)", "", indentSize, tabSize)); + sb.append(CR); + } + } + return sb.toString(); + } + + protected String generateVersionDependentGet(AmqpConstant constant, String methodReturnType, + String methodNameSuffix, String returnPrefix, String returnPostfix, int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + sb.append(indent + methodReturnType + " " + constant.getName() + methodNameSuffix + + "() const" + CR); + sb.append(indent + "{" + CR); + boolean first = true; + for (String thisValue : constant.keySet()) + { + AmqpVersionSet versionSet = constant.get(thisValue); + sb.append(indent + tab + (first ? "" : "else ") + "if (" + generateVersionCheck(versionSet) + + ")" + CR); + sb.append(indent + tab + "{" + CR); + if (methodReturnType.compareTo("int") == 0 && !Utils.containsOnlyDigits(thisValue)) + { + sb.append(generateConstantDeclarationException(constant.getName(), methodReturnType, + indentSize + (2 * tabSize), tabSize)); + } + else if (methodReturnType.compareTo("double") == 0 && !Utils.containsOnlyDigitsAndDecimal(thisValue)) + { + sb.append(generateConstantDeclarationException(constant.getName(), methodReturnType, + indentSize + (2 * tabSize), tabSize)); + } + else + { + sb.append(indent + tab + tab + "return " + returnPrefix + thisValue + returnPostfix + ";" + CR); + } + sb.append(indent + tab + "}" + CR); + first = false; + } + sb.append(indent + tab + "else" + CR); + sb.append(indent + tab + "{" + CR); + sb.append(indent + tab + tab + "std::stringstream ss;" + CR); + sb.append(indent + tab + tab + "ss << \"Constant \\\"" + constant.getName() + + "\\\" is undefined for AMQP version \" <<" + CR); + sb.append(indent + tab + tab + tab + "version.toString() << \".\";" + CR); + sb.append(indent + tab + tab + "throw ProtocolVersionException(ss.str());" + CR); + sb.append(indent + tab + "}" + CR); + sb.append(indent + "}" + CR); + return sb.toString(); + } + + protected String generateConstantDeclarationException(String name, String methodReturnType, + int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + sb.append(indent + "std::stringstream ss;" + CR); + sb.append(indent + "ss << \"Constant \\\"" + name + "\\\" cannot be converted to type " + + methodReturnType + " for AMQP version \" <<" + CR); + sb.append(indent + tab + "version.toString() << \".\";" + CR); + sb.append(indent + "throw ProtocolVersionException(ss.str());" + CR); + return sb.toString(); + } + + // Methods used for generation of code snippets for Server/ClientOperations class generation + + protected String generateOpsMethodHandlerGetMethods(AmqpModel model, boolean serverFlag, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + // Only generate for this class if there is at least one method of the + // required chassis (server/client flag). + boolean chassisFoundFlag = false; + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + boolean clientChassisFlag = method.getClientMethodFlagMap().isSet(); + boolean serverChassisFlag = method.getServerMethodFlagMap().isSet(); + if ((serverFlag && serverChassisFlag) || (!serverFlag && clientChassisFlag)) + { + chassisFoundFlag = true; + } + } + if (chassisFoundFlag) + { + sb.append(indent + "virtual AMQP_" + (serverFlag ? "Server" : "Client") + "Operations::" + + thisClass.getName() + "Handler* get" + thisClass.getName() + "Handler() = 0;" + CR); + } + } + return sb.toString(); + } + + protected String generateOpsInnerClasses(AmqpModel model, boolean serverFlag, int indentSize, int tabSize) + { + + String proxyClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + boolean first = true; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + String handlerClassName = thisClass.getName() + "Handler"; + if (!first) + { + sb.append(CR); + } + sb.append(indent + "// ==================== class " + handlerClassName + + " ====================" + CR); + sb.append(indent + "class " + handlerClassName); + if (thisClass.getVersionSet().size() != getVersionSet().size()) + { + sb.append(" // AMQP Version(s) " + thisClass.getVersionSet() + CR); + } + else + { + sb.append(CR); + } + sb.append(indent + "{" + CR); + sb.append(indent + "private:" + CR); + sb.append(indent + tab + proxyClassName + "* parent;" + CR); + sb.append(CR); + sb.append(indent + tab + "// Constructors and destructors" + CR); + sb.append(CR); + sb.append(indent + "protected:" + CR); + sb.append(indent + tab + handlerClassName + "() {}" + CR); + sb.append(indent + "public:" + CR); + sb.append(indent + tab + handlerClassName + + "(" + proxyClassName + "* _parent) {parent = _parent;}" + CR); + sb.append(indent + tab + "virtual ~" + handlerClassName + "() {}" + CR); + sb.append(CR); + sb.append(indent + tab + "// Protocol methods" + CR); + sb.append(CR); + sb.append(generateInnerClassMethods(thisClass, serverFlag, true, indentSize + tabSize, tabSize)); + sb.append(indent + "}; // class " + handlerClassName + CR); + first = false; + } + return sb.toString(); + } + + protected String generateInnerClassMethods(AmqpClass thisClass, boolean serverFlag, + boolean abstractMethodFlag, int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + (abstractMethodFlag ? "Operations" + : "Proxy"); + boolean first = true; + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + boolean clientChassisFlag = method.getClientMethodFlagMap().isSet(); + boolean serverChassisFlag = method.getServerMethodFlagMap().isSet(); + if ((serverFlag && serverChassisFlag) || (!serverFlag && clientChassisFlag)) + { + String methodName = parseForReservedWords(method.getName(), outerClassName + "." + thisClass.getName()); + AmqpOverloadedParameterMap overloadededParameterMap = + method.getOverloadedParameterLists(thisClass.getVersionSet(), this); + for (AmqpOrdinalFieldMap thisFieldMap : overloadededParameterMap.keySet()) + { + AmqpVersionSet versionSet = overloadededParameterMap.get(thisFieldMap); + if (!first) + { + sb.append(CR); + } + sb.append(indent + "virtual void " + methodName + "( u_int16_t channel"); + sb.append(generateMethodParameterList(thisFieldMap, indentSize + (5 * tabSize), true, true, true)); + sb.append(" )"); + if (abstractMethodFlag) + { + sb.append(" = 0"); + } + sb.append(";"); + if (versionSet.size() != getVersionSet().size()) + { + sb.append(" // AMQP Version(s) " + versionSet); + } + sb.append(CR); + first = false; + } + } + } + return sb.toString(); + } + + // Methods used for generation of code snippets for Server/ClientProxy class generation + + protected String generateHandlerPointerDefinitions(AmqpModel model, boolean serverFlag, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Operations"; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + sb.append(indent + outerClassName + "::" + thisClass.getName() + "Handler* " + + thisClass.getName() + "HandlerPtr;" + CR); + } + return sb.toString(); + } + + protected String generateHandlerPointerGetMethods(AmqpModel model, boolean serverFlag, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Operations"; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + sb.append(indent + "virtual inline " + outerClassName + "::" + thisClass.getName() + "Handler* get" + + thisClass.getName() + "Handler() { return &" + Utils.firstLower(thisClass.getName()) + ";}" + CR); + } + return sb.toString(); + } + + protected String generateProxyInnerClassInstances(AmqpModel model, boolean serverFlag, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + String instanceName = parseForReservedWords(Utils.firstLower(thisClass.getName()), outerClassName); + String className = parseForReservedWords(thisClass.getName(), null); + sb.append(indent + className + " " + instanceName + ";"); + if (thisClass.getVersionSet().size() != getVersionSet().size()) + { + sb.append(" // AMQP Version(s) " + thisClass.getVersionSet() + CR); + } + else + { + sb.append(CR); + } + } + return sb.toString(); + } + + protected String generateProxyInnerClassGetMethodDecls(AmqpModel model, boolean serverFlag, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + String className = parseForReservedWords(thisClass.getName(), outerClassName); + sb.append(indent + className + "& get" + className + "();"); + if (thisClass.getVersionSet().size() != getVersionSet().size()) + { + sb.append(" // AMQP Version(s) " + thisClass.getVersionSet() + CR); + } + else + { + sb.append(CR); + } + } + return sb.toString(); + } + + protected String generateProxyInnerClassDefinitions(AmqpModel model, boolean serverFlag, + int indentSize, int tabSize) + { + String proxyClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + boolean first = true; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + String className = thisClass.getName(); + String superclassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Operations::" + + thisClass.getName() + "Handler"; + if (!first) + { + sb.append(CR); + } + sb.append(indent + "// ==================== class " + className + + " ====================" + CR); + sb.append(indent + "class " + className + " : virtual public " + superclassName); + if (thisClass.getVersionSet().size() != getVersionSet().size()) + { + sb.append(" // AMQP Version(s) " + thisClass.getVersionSet() + CR); + } + else + { + sb.append(CR); + } + sb.append(indent + "{" + CR); + sb.append(indent + "private:" + CR); + sb.append(indent + tab + "OutputHandler* out;" + CR); + sb.append(indent + tab + proxyClassName + "* parent;" + CR); + sb.append(CR); + sb.append(indent + "public:" + CR); + sb.append(indent + tab + "// Constructors and destructors" + CR); + sb.append(CR); + sb.append(indent + tab + className + "(OutputHandler* out, " + proxyClassName + "* _parent) : " + CR); + sb.append(indent + tab + tab + "out(out) {parent = _parent;}" + CR); + sb.append(indent + tab + "virtual ~" + className + "() {}" + CR); + sb.append(CR); + sb.append(indent + tab + "// Protocol methods" + CR); + sb.append(CR); + sb.append(generateInnerClassMethods(thisClass, serverFlag, false, indentSize + tabSize, tabSize)); + sb.append(indent + "}; // class " + className + CR); + first = false; + } + return sb.toString(); + } + + protected String generateProxyConstructorInitializers(AmqpModel model, boolean serverFlag, + int indentSize) + { + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + String superclassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Operations"; + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(indent + superclassName + "(major, minor)," + CR); + sb.append(indent + "version(major, minor)," + CR); + sb.append(indent + "out(out)"); + Iterator<String> cItr = model.getClassMap().keySet().iterator(); + while (cItr.hasNext()) + { + AmqpClass thisClass = model.getClassMap().get(cItr.next()); + String instanceName = parseForReservedWords(Utils.firstLower(thisClass.getName()), outerClassName); + sb.append("," + CR); + sb.append(indent + instanceName + "(out, this)"); + if (!cItr.hasNext()) + { + sb.append(CR); + } + } + return sb.toString(); + } + + protected String generateProxyInnerClassGetMethodImpls(AmqpModel model, boolean serverFlag, + int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + String outerClassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + Iterator<String> cItr = model.getClassMap().keySet().iterator(); + while (cItr.hasNext()) + { + AmqpClass thisClass = model.getClassMap().get(cItr.next()); + String className = thisClass.getName(); + String instanceName = parseForReservedWords(Utils.firstLower(thisClass.getName()), outerClassName); + sb.append(indent + outerClassName + "::" + className + "& " + + outerClassName + "::get" + className + "()" + CR); + sb.append(indent + "{" + CR); + if (thisClass.getVersionSet().size() != getVersionSet().size()) + { + sb.append(indent + tab + "if (!" + generateVersionCheck(thisClass.getVersionSet()) + ")" + CR); + sb.append(indent + tab + tab + "throw new ProtocolVersionException();" + CR); + } + sb.append(indent + tab + "return " + instanceName + ";" + CR); + sb.append(indent + "}" + CR); + if (cItr.hasNext()) + { + sb.append(CR); + } + } + return sb.toString(); + } + + protected String generateProxyInnerClassImpl(AmqpModel model, boolean serverFlag, + int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + boolean firstClassFlag = true; + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + String className = thisClass.getName(); + if (!firstClassFlag) + { + sb.append(CR); + } + sb.append(indent + "// ==================== class " + className + + " ====================" + CR); + sb.append(generateInnerClassMethodImpls(thisClass, serverFlag, indentSize, tabSize)); + firstClassFlag = false; + } + return sb.toString(); + } + + protected String generateInnerClassMethodImpls(AmqpClass thisClass, boolean serverFlag, + int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String outerclassName = "AMQP_" + (serverFlag ? "Server" : "Client") + "Proxy"; + boolean first = true; + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + String methodBodyClassName = thisClass.getName() + Utils.firstUpper(method.getName()) + "Body"; + boolean clientChassisFlag = method.getClientMethodFlagMap().isSet(); + boolean serverChassisFlag = method.getServerMethodFlagMap().isSet(); + boolean versionConsistentFlag = method.isVersionConsistent(getVersionSet()); + if ((serverFlag && serverChassisFlag) || (!serverFlag && clientChassisFlag)) + { + String methodName = parseForReservedWords(method.getName(), outerclassName + "." + thisClass.getName()); + AmqpOverloadedParameterMap overloadededParameterMap = + method.getOverloadedParameterLists(thisClass.getVersionSet(), this); + for (AmqpOrdinalFieldMap thisFieldMap : overloadededParameterMap.keySet()) + { + AmqpVersionSet versionSet = overloadededParameterMap.get(thisFieldMap); + if (!first) + { + sb.append(CR); + } + sb.append(indent + "void " + outerclassName + "::" + thisClass.getName() + "::" + + methodName + "( u_int16_t channel"); + sb.append(generateMethodParameterList(thisFieldMap, indentSize + (5 * tabSize), true, true, true)); + sb.append(" )"); + if (versionSet.size() != getVersionSet().size()) + { + sb.append(" // AMQP Version(s) " + versionSet); + } + sb.append(CR); + sb.append(indent + "{" + CR); + sb.append(generateMethodBodyCallContext(thisFieldMap, outerclassName, methodBodyClassName, + versionConsistentFlag, versionSet, indentSize + tabSize, tabSize)); + sb.append(indent + "}" + CR); + sb.append(CR); + first = false; + } + } + } + return sb.toString(); + } + + protected String generateMethodBodyCallContext(AmqpOrdinalFieldMap fieldMap, String outerclassName, + String methodBodyClassName, boolean versionConsistentFlag, AmqpVersionSet versionSet, + int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + if (versionConsistentFlag) + { + sb.append(generateMethodBodyCall(fieldMap, methodBodyClassName, null, indentSize, tabSize)); + } + else + { + boolean firstOverloadedMethodFlag = true; + for (AmqpVersion thisVersion : versionSet) + { + sb.append(indent); + if (!firstOverloadedMethodFlag) + { + sb.append("else "); + } + sb.append("if (" + generateVersionCheck(thisVersion) + ")" + CR); + sb.append(indent + "{" + CR); + sb.append(generateMethodBodyCall(fieldMap, methodBodyClassName, thisVersion, + indentSize + tabSize, tabSize)); + sb.append(indent + "}" + CR); + firstOverloadedMethodFlag = false; + } + sb.append(indent + "else" + CR); + sb.append(indent + "{" + CR); + sb.append(indent + tab + "std::stringstream ss;" + CR); + sb.append(indent + tab + "ss << \"Call to " + outerclassName + "::" + methodBodyClassName + + "(u_int16_t" + generateMethodParameterList(fieldMap, 0, true, true, false) + ")\"" + CR); + sb.append(indent + tab + tab + "<< \" is invalid for AMQP version \" << version.toString() << \".\";" + CR); + sb.append(indent + tab + "throw new ProtocolVersionException(ss.str());" + CR); + sb.append(indent + "}" + CR); + } + return sb.toString(); + } + + protected String generateMethodBodyCall(AmqpOrdinalFieldMap fieldMap, String methodBodyClassName, + AmqpVersion version, int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + String namespace = version != null ? version.namespace() + "::" : ""; + StringBuffer sb = new StringBuffer(indent + "out->send( new AMQFrame(parent->getProtocolVersion(), channel," + CR); + sb.append(indent + tab + "new " + namespace + methodBodyClassName + "( parent->getProtocolVersion()"); + sb.append(generateMethodParameterList(fieldMap, indentSize + (5 * tabSize), true, false, true)); + sb.append(" )));" + CR); + return sb.toString(); + } + + protected String generateMethodBodyIncludes(AmqpClass thisClass, int indentSize) + { + StringBuffer sb = new StringBuffer(); + if (thisClass != null) + { + sb.append(generateClassMethodBodyInclude(thisClass, indentSize)); + } + else + { + for (String thisClassName : getModel().getClassMap().keySet()) + { + thisClass = getModel().getClassMap().get(thisClassName); + sb.append(generateClassMethodBodyInclude(thisClass, indentSize)); + } + } + return sb.toString(); + } + + protected String generateClassMethodBodyInclude(AmqpClass thisClass, int indentSize) + { + StringBuffer sb = new StringBuffer(); + String indent = Utils.createSpaces(indentSize); + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + sb.append(indent + "#include <" + thisClass.getName() + + Utils.firstUpper(method.getName()) + "Body.h>" + CR); + } + return sb.toString(); + } + + // Methods used for generation of code snippets for MethodBody class generation + + protected String getIndex(AmqpOrdinalVersionMap indexMap, AmqpVersion version) + { + for (Integer thisIndex : indexMap.keySet()) + { + AmqpVersionSet versionSet = indexMap.get(thisIndex); + if (versionSet.contains(version)) + { + return String.valueOf(thisIndex); + } + } + throw new AmqpTemplateException("Unable to find index for version " + version); + } + + protected String generateFieldDeclarations(AmqpFieldMap fieldMap, AmqpVersion version, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + + if (version == null) + { + version = getVersionSet().first(); + } + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, true, this); + for (Integer thisOrdinal : ordinalFieldMap.keySet()) + { + String[] fieldDomainPair = ordinalFieldMap.get(thisOrdinal); + sb.append(indent + fieldDomainPair[FIELD_CODE_TYPE] + " " + fieldDomainPair[FIELD_NAME] + ";" + CR); + } + return sb.toString(); + } + + protected String generateFieldGetMethods(AmqpFieldMap fieldMap, AmqpVersion version, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + + if (version == null) + { + version = getVersionSet().first(); + } + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, true, this); + for (Integer thisOrdinal : ordinalFieldMap.keySet()) + { + String[] fieldDomainPair = ordinalFieldMap.get(thisOrdinal); + sb.append(indent + "inline " + setRef(fieldDomainPair[FIELD_CODE_TYPE]) + " get" + + Utils.firstUpper(fieldDomainPair[FIELD_NAME]) + "() { return " + + fieldDomainPair[FIELD_NAME] + "; }" + CR); + } + return sb.toString(); + } + + protected String generatePrintMethodContents(AmqpFieldMap fieldMap, AmqpVersion version, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + + if (version == null) + { + version = getVersionSet().first(); + } + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, true, this); + boolean firstFlag = true; + for (Integer thisOrdinal : ordinalFieldMap.keySet()) + { + String[] fieldDomainPair = ordinalFieldMap.get(thisOrdinal); + String cast = fieldDomainPair[FIELD_CODE_TYPE].compareTo("u_int8_t") == 0 ? "(int)" : ""; + sb.append(indent + "out << \""); + if (!firstFlag) + { + sb.append("; "); + } + sb.append(fieldDomainPair[FIELD_NAME] + "=\" << " + cast + fieldDomainPair[FIELD_NAME] + ";" + CR); + firstFlag = false; + } + return sb.toString(); + } + + protected String generateBodySizeMethodContents(AmqpFieldMap fieldMap, AmqpVersion version, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + ArrayList<String> bitFieldList = new ArrayList<String>(); + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, false, this); + Iterator<Integer> oItr = ordinalFieldMap.keySet().iterator(); + int ordinal = 0; + while (oItr.hasNext()) + { + ordinal = oItr.next(); + String[] fieldDomainPair = ordinalFieldMap.get(ordinal); + AmqpVersion thisVersion = version == null ? getVersionSet().first() : version; + String domainType = getDomainType(fieldDomainPair[FIELD_CODE_TYPE], thisVersion); + + // Defer bit types by adding them to an array. When the first subsequent non-bit + // type is encountered, then handle the bits. This allows consecutive bits to be + // placed into the same byte(s) - 8 bits to the byte. + if (domainType.compareTo("bit") == 0) + { + bitFieldList.add(fieldDomainPair[FIELD_NAME]); + } + else + { + if (bitFieldList.size() > 0) // Handle accumulated bit types (if any) + { + sb.append(generateBitArrayBodySizeMethodContents(bitFieldList, ordinal, indentSize)); + } + sb.append(indent + "size += " + + typeMap.get(domainType).size.replaceAll("#", fieldDomainPair[FIELD_NAME]) + + "; /* " + fieldDomainPair[FIELD_NAME] + ": " + + domainType + " */" + CR); + } + } + if (bitFieldList.size() > 0) // Handle any remaining accumulated bit types + { + sb.append(generateBitArrayBodySizeMethodContents(bitFieldList, ordinal, indentSize)); + } + return sb.toString(); + } + + protected String generateBitArrayBodySizeMethodContents(ArrayList<String> bitFieldList, + int ordinal, int indentSize) + { + int numBytes = ((bitFieldList.size() - 1) / 8) + 1; + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + String comment = bitFieldList.size() == 1 ? + bitFieldList.get(0) + ": bit" : + "Combinded bits: " + bitFieldList; + sb.append(indent + "size += " + + typeMap.get("bit").size.replaceAll("~", String.valueOf(numBytes)) + + "; /* " + comment + " */" + CR); + bitFieldList.clear(); + return sb.toString(); + } + + protected String generateEncodeMethodContents(AmqpFieldMap fieldMap, AmqpVersion version, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + ArrayList<String> bitFieldList = new ArrayList<String>(); + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, false, this); + Iterator<Integer> oItr = ordinalFieldMap.keySet().iterator(); + int ordinal = 0; + while (oItr.hasNext()) + { + ordinal = oItr.next(); + String[] fieldDomainPair = ordinalFieldMap.get(ordinal); + AmqpVersion thisVersion = version == null ? getVersionSet().first() : version; + String domainType = getDomainType(fieldDomainPair[FIELD_CODE_TYPE], thisVersion); + + // Defer bit types by adding them to an array. When the first subsequent non-bit + // type is encountered, then handle the bits. This allows consecutive bits to be + // placed into the same byte(s) - 8 bits to the byte. + if (domainType.compareTo("bit") == 0) + { + bitFieldList.add(fieldDomainPair[FIELD_NAME]); + } + else + { + if (bitFieldList.size() > 0) // Handle accumulated bit types (if any) + { + sb.append(generateBitEncodeMethodContents(bitFieldList, ordinal, indentSize)); + } + sb.append(indent + + typeMap.get(domainType).encodeExpression.replaceAll("#", fieldDomainPair[FIELD_NAME]) + + "; /* " + fieldDomainPair[FIELD_NAME] + ": " + domainType + " */" + CR); + } + } + if (bitFieldList.size() > 0) // Handle any remaining accumulated bit types + { + sb.append(generateBitEncodeMethodContents(bitFieldList, ordinal, indentSize)); + } + + return sb.toString(); + } + + protected String generateBitEncodeMethodContents(ArrayList<String> bitFieldList, int ordinal, + int indentSize) + { + int numBytes = ((bitFieldList.size() - 1) / 8) + 1; + String indent = Utils.createSpaces(indentSize); + String bitArrayName = "flags_" + ordinal; + StringBuffer sb = new StringBuffer(indent + "u_int8_t " + bitArrayName + + "[" + numBytes + "] = {0};" + + (numBytes != 1 ? " /* All array elements will be initialized to 0 */" : "") + + CR); + for (int i = 0; i < bitFieldList.size(); i++) + { + int bitIndex = i % 8; + int byteIndex = i / 8; + sb.append(indent + bitArrayName + "[" + byteIndex + "] |= " + bitFieldList.get(i) + + " << " + bitIndex + "; /* " + bitFieldList.get(i) + ": bit */" + CR); + } + for (int i = 0; i < numBytes; i++) + { + sb.append(indent + "buffer.putOctet(" + bitArrayName + "[" + i + "]);" + CR); + } + bitFieldList.clear(); + return sb.toString(); + } + + protected String generateDecodeMethodContents(AmqpFieldMap fieldMap, AmqpVersion version, + int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + ArrayList<String> bitFieldList = new ArrayList<String>(); + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, false, this); + Iterator<Integer> oItr = ordinalFieldMap.keySet().iterator(); + int ordinal = 0; + while (oItr.hasNext()) + { + ordinal = oItr.next(); + String[] fieldDomainPair = ordinalFieldMap.get(ordinal); + AmqpVersion thisVersion = version == null ? getVersionSet().first() : version; + String domainType = getDomainType(fieldDomainPair[FIELD_CODE_TYPE], thisVersion); + + // Defer bit types by adding them to an array. When the first subsequent non-bit + // type is encountered, then handle the bits. This allows consecutive bits to be + // placed into the same byte(s) - 8 bits to the byte. + if (domainType.compareTo("bit") == 0) + { + bitFieldList.add(fieldDomainPair[FIELD_NAME]); + } + else + { + if (bitFieldList.size() > 0) // Handle accumulated bit types (if any) + { + sb.append(generateBitDecodeMethodContents(bitFieldList, ordinal, indentSize)); + } + sb.append(indent + + typeMap.get(domainType).decodeExpression.replaceAll("#", fieldDomainPair[FIELD_NAME]) + + "; /* " + fieldDomainPair[FIELD_NAME] + ": " + domainType + " */" + CR); + } + } + if (bitFieldList.size() > 0) // Handle any remaining accumulated bit types + { + sb.append(generateBitDecodeMethodContents(bitFieldList, ordinal, indentSize)); + } + + return sb.toString(); + } + + protected String generateBitDecodeMethodContents(ArrayList<String> bitFieldList, int ordinal, + int indentSize) + { + int numBytes = ((bitFieldList.size() - 1) / 8) + 1; + String indent = Utils.createSpaces(indentSize); + String bitArrayName = "flags_" + ordinal; + StringBuffer sb = new StringBuffer(indent + "u_int8_t " + bitArrayName + + "[" + numBytes + "];" + CR); + for (int i = 0; i < numBytes; i++) + { + sb.append(indent + bitArrayName + "[" + i + "] = buffer.getOctet();" + CR); + } + for (int i = 0; i < bitFieldList.size(); i++) + { + int bitIndex = i % 8; + int byteIndex = i / 8; + sb.append(indent + bitFieldList.get(i) + " = (1 << " + bitIndex + ") & " + + bitArrayName + "[" + byteIndex + "]; /* " + bitFieldList.get(i) + + ": bit */" + CR); + } + bitFieldList.clear(); + return sb.toString(); + } + + protected String generateFieldList(AmqpFieldMap fieldMap, AmqpVersion version, boolean defineFlag, + boolean initializerFlag, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + AmqpOrdinalFieldMap ordinalFieldMap = fieldMap.getMapForVersion(version, true, this); + Iterator<Integer> oItr = ordinalFieldMap.keySet().iterator(); + while (oItr.hasNext()) + { + int ordinal = oItr.next(); + String[] fieldDomainPair = ordinalFieldMap.get(ordinal); + sb.append(indent + (defineFlag ? setRef(fieldDomainPair[FIELD_CODE_TYPE]) + " " : "") + + fieldDomainPair[FIELD_NAME] + (initializerFlag ? "(" + fieldDomainPair[FIELD_NAME] + ")" : "") + + (oItr.hasNext() ? "," : "") + CR); + } + return sb.toString(); + } + + protected String generateMethodParameterList(AmqpOrdinalFieldMap fieldMap, int indentSize, + boolean leadingCommaFlag, boolean fieldTypeFlag, boolean fieldNameFlag) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + boolean first = true; + Iterator<Integer> pItr = fieldMap.keySet().iterator(); + while (pItr.hasNext()) + { + String[] field = fieldMap.get(pItr.next()); + if (first && leadingCommaFlag) + { + sb.append("," + (fieldNameFlag ? CR : " ")); + } + if (!first || leadingCommaFlag) + { + sb.append(indent); + } + sb.append( + (fieldTypeFlag ? setRef(field[FIELD_CODE_TYPE]) : "") + + (fieldNameFlag ? " " + field[FIELD_NAME] : "") + + (pItr.hasNext() ? "," + (fieldNameFlag ? CR : " ") : "")); + first = false; + } + return sb.toString(); + } + + protected String generateConstructor(AmqpClass thisClass, AmqpMethod method, + AmqpVersion version, int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + if (method.getFieldMap().size() > 0) + { + sb.append(indent + thisClass.getName() + Utils.firstUpper(method.getName()) + "Body(ProtocolVersion& version," + CR); + sb.append(generateFieldList(method.getFieldMap(), version, true, false, 8)); + sb.append(indent + tab + ") :" + CR); + sb.append(indent + tab + "AMQMethodBody(version)," + CR); + sb.append(generateFieldList(method.getFieldMap(), version, false, true, 8)); + sb.append(indent + "{ }" + CR); + } + return sb.toString(); + } + + protected String generateServerOperationsInvoke(AmqpClass thisClass, AmqpMethod method, + AmqpVersion version, int indentSize, int tabSize) + { + String indent = Utils.createSpaces(indentSize); + String tab = Utils.createSpaces(tabSize); + StringBuffer sb = new StringBuffer(); + + if (method.getServerMethodFlagMap().size() > 0) // At least one AMQP version defines this method as a server method + { + Iterator<Boolean> bItr = method.getServerMethodFlagMap().keySet().iterator(); + while (bItr.hasNext()) + { + if (bItr.next()) // This is a server operation + { + boolean fieldMapNotEmptyFlag = method.getFieldMap().size() > 0; + sb.append(indent + "inline void invoke(AMQP_ServerOperations& target, u_int16_t channel)" + CR); + sb.append(indent + "{" + CR); + sb.append(indent + tab + "target.get" + thisClass.getName() + "Handler()->" + + parseForReservedWords(Utils.firstLower(method.getName()), + thisClass.getName() + Utils.firstUpper(method.getName()) + "Body.invoke()") + "(channel"); + if (fieldMapNotEmptyFlag) + { + sb.append("," + CR); + sb.append(generateFieldList(method.getFieldMap(), version, false, false, indentSize + 4 * tabSize)); + sb.append(indent + tab + tab + tab + tab); + } + sb.append(");" + CR); + sb.append(indent + "}" + CR); + } + } + } + return sb.toString(); + } + + // Methods for generation of code snippets for amqp_methods.h/cpp files + + protected String generateMethodBodyIncludeList(AmqpModel model, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + sb.append(indent + "#include \"" + thisClass.getName() + Utils.firstUpper(method.getName()) + "Body.h\"" + CR); + } + } + + return sb.toString(); + } + + protected String generateMethodBodyInstances(AmqpModel model, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + sb.append(indent + "const " + thisClass.getName() + Utils.firstUpper(method.getName()) + "Body " + + Utils.firstLower(thisClass.getName()) + "_" + method.getName() + ";" + CR); + } + } + + return sb.toString(); + } + + protected String generateMethodBodyMapEntry(AmqpModel model, int indentSize) + { + String indent = Utils.createSpaces(indentSize); + StringBuffer sb = new StringBuffer(); + + for (AmqpVersion version : getVersionSet()) + { + for (String thisClassName : model.getClassMap().keySet()) + { + AmqpClass thisClass = model.getClassMap().get(thisClassName); + for (String thisMethodName : thisClass.getMethodMap().keySet()) + { + AmqpMethod method = thisClass.getMethodMap().get(thisMethodName); + String namespace = method.isVersionConsistent(getVersionSet()) ? "" : version.namespace() + "::"; + try + { + int classOrdinal = thisClass.getIndexMap().getOrdinal(version); + int methodOrdinal = method.getIndexMap().getOrdinal(version); + String methodModyClassName = namespace + thisClass.getName() + Utils.firstUpper(method.getName()) + "Body"; + sb.append(indent + "insert(std::make_pair(createMapKey(" + classOrdinal + ", " + + methodOrdinal + ", " + version.getMajor() + ", " + version.getMinor() + + "), &createMethodBodyFn<" + methodModyClassName + ">));" + CR); + } + catch (AmqpTypeMappingException e) + { + } // ignore + } + } + } + + return sb.toString(); + } + + // Helper functions + + private String generateVersionCheck(AmqpVersion version) + { + return "version.equals(" + version.getMajor() + ", " + version.getMinor() + ")"; + } + + private String generateVersionCheck(AmqpVersionSet versionSet) + { + StringBuffer sb = new StringBuffer(); + for (AmqpVersion v : versionSet) + { + if (!v.equals(versionSet.first())) + { + sb.append(" || "); + } + if (versionSet.size() > 1) + { + sb.append("("); + } + sb.append("version.equals(" + v.getMajor() + ", " + v.getMinor() + ")"); + if (versionSet.size() > 1) + { + sb.append(")"); + } + } + return sb.toString(); + } + + private String parseForReservedWords(String name, String context) + { + for (String cppReservedWord : cppReservedWords) + { + if (name.compareTo(cppReservedWord) == 0) + { + if (!quietFlag) + { + System.out.println("WARNING: " + (context == null ? "" : context + ": ") + + "Found XML method \"" + name + "\", which is a C++ reserved word. " + + "Changing generated name to \"" + name + "_\"."); + } + return name + "_"; + } + } + + for (String cppCommonDefine : cppCommonDefines) + { + if (name.compareTo(cppCommonDefine) == 0) + { + if (!quietFlag) + { + System.out.println("WARNING: " + (context == null ? "" : context + ": ") + + "Found XML method \"" + name + "\", which may clash with commonly used defines within C++. " + + "Changing generated name to \"" + name + "_\"."); + } + return name + "_"; + } + } + + return name; + } + + private String setRef(String codeType) + { + if (codeType.compareTo("string") == 0 || + codeType.compareTo("FieldTable") == 0) + { + return "const " + codeType + "&"; + } + return codeType; + } + + private String camelCaseName(String name, boolean upperFirstFlag) + { + StringBuffer ccn = new StringBuffer(); + String[] toks = name.split("[-_.\\ ]"); + for (int i = 0; i < toks.length; i++) + { + StringBuffer b = new StringBuffer(toks[i]); + if (upperFirstFlag || i > 0) + { + b.setCharAt(0, Character.toUpperCase(toks[i].charAt(0))); + } + ccn.append(b); + } + return ccn.toString(); + } + + public static Factory<CppGenerator> _factoryInstance = new Factory<CppGenerator>() + { + + public CppGenerator newInstance() + { + return new CppGenerator(); + } + }; + + public static Factory<CppGenerator> getFactory() + { + return _factoryInstance; + } + + void processModelTemplate(NamedTemplate template, AmqpVersion version) + { + //To change body of implemented methods use File | Settings | File Templates. + } + public String getNativeType(String type) + { + throw new UnsupportedOperationException(); + } + + public String getEncodingType(String type) + { + throw new UnsupportedOperationException(); + } + +} |