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Example 1 with CheckConstraintDefinition

use of org.jooq.meta.CheckConstraintDefinition in project jOOQ by jOOQ.

the class JavaGenerator method generateTable.

protected void generateTable(TableDefinition table, JavaWriter out) {
    final SchemaDefinition schema = table.getSchema();
    final UniqueKeyDefinition primaryKey = table.getPrimaryKey();
    final String className = getStrategy().getJavaClassName(table);
    final String tableId = scala ? out.ref(getStrategy().getFullJavaIdentifier(table), 2) : getStrategy().getJavaIdentifier(table);
    final String recordType = out.ref(getStrategy().getFullJavaClassName(table, Mode.RECORD));
    final List<String> interfaces = out.ref(getStrategy().getJavaClassImplements(table, Mode.DEFAULT));
    final String schemaId = out.ref(getStrategy().getFullJavaIdentifier(schema), 2);
    final String tableType = table.isTemporary() ? "temporaryTable" : table.isView() ? "view" : table.isMaterializedView() ? "materializedView" : table.isTableValuedFunction() ? "function" : "table";
    final List<ParameterDefinition> parameters = table.getParameters();
    printPackage(out, table);
    if (scala) {
        out.println("object %s {", className);
        printSingletonInstance(out, table);
        out.println("}");
        out.println();
    }
    generateTableClassJavadoc(table, out);
    printClassAnnotations(out, table, Mode.DEFAULT);
    if (scala) {
        out.println("%sclass %s(", visibility(), className);
        out.println("alias: %s,", Name.class);
        out.println("child: %s[_ <: %s],", Table.class, Record.class);
        out.println("path: %s[_ <: %s, %s],", ForeignKey.class, Record.class, recordType);
        out.println("aliased: %s[%s],", Table.class, recordType);
        out.println("parameters: %s[ %s[_] ]", out.ref("scala.Array"), Field.class);
        out.println(")");
        out.println("extends %s[%s](", TableImpl.class, recordType);
        out.println("alias,");
        out.println("%s,", schemaId);
        out.println("child,");
        out.println("path,");
        out.println("aliased,");
        out.println("parameters,");
        out.println("%s.comment(\"%s\"),", DSL.class, escapeString(comment(table)));
        if ((generateSourcesOnViews() || table.isSynthetic()) && table.isView() && table.getSource() != null)
            out.println("%s.%s(\"%s\")", TableOptions.class, tableType, escapeString(table.getSource()));
        else if (table.isSynthetic() && table.isTableValuedFunction() && table.getSource() != null)
            out.println("%s.%s(\"%s\")", TableOptions.class, tableType, escapeString(table.getSource()));
        else
            out.println("%s.%s", TableOptions.class, tableType);
        out.println(")[[before= with ][separator= with ][%s]] {", interfaces);
    } else if (kotlin) {
        out.println("%sopen class %s(", visibility(), className);
        out.println("alias: %s,", Name.class);
        out.println("child: %s<out %s>?,", Table.class, Record.class);
        out.println("path: %s<out %s, %s>?,", ForeignKey.class, Record.class, recordType);
        out.println("aliased: %s<%s>?,", Table.class, recordType);
        out.println("parameters: Array<%s<*>?>?", Field.class);
        out.println("): %s<%s>(", TableImpl.class, recordType);
        out.println("alias,");
        out.println("%s,", schemaId);
        out.println("child,");
        out.println("path,");
        out.println("aliased,");
        out.println("parameters,");
        out.println("%s.comment(\"%s\"),", DSL.class, escapeString(comment(table)));
        if ((generateSourcesOnViews() || table.isSynthetic()) && table.isView() && table.getSource() != null)
            out.println("%s.%s(\"%s\")", TableOptions.class, tableType, escapeString(table.getSource()));
        else if (table.isSynthetic() && table.isTableValuedFunction() && table.getSource() != null)
            out.println("%s.%s(\"%s\")", TableOptions.class, tableType, escapeString(table.getSource()));
        else
            out.println("%s.%s()", TableOptions.class, tableType);
        out.println(")[[before=, ][%s]] {", interfaces);
        out.println("%scompanion object {", visibility());
        printSingletonInstance(out, table);
        out.println("}");
    } else {
        out.println("%sclass %s extends %s<%s>[[before= implements ][%s]] {", visibility(), className, TableImpl.class, recordType, interfaces);
        out.printSerial();
        printSingletonInstance(out, table);
    }
    printRecordTypeMethod(out, table);
    if (table.isSynthetic()) {
        if (scala) {
            out.println();
            out.println("protected override def isSynthetic(): Boolean = true");
        } else if (kotlin) {
            out.println();
            out.println("protected override fun isSynthetic(): Boolean = true");
        } else {
            out.println();
            out.override();
            out.println("protected boolean isSynthetic() {");
            out.println("return true;");
            out.println("}");
        }
    }
    for (ColumnDefinition column : table.getColumns()) {
        final String columnTypeFull = getJavaType(column.getType(resolver(out)), out);
        final String columnType = out.ref(columnTypeFull);
        final String columnTypeRef = getJavaTypeReference(column.getDatabase(), column.getType(resolver(out)), out);
        final String columnId = out.ref(getStrategy().getJavaIdentifier(column), colRefSegments(column));
        final String columnName = column.getName();
        final List<String> converter = out.ref(list(column.getType(resolver(out)).getConverter()));
        final List<String> binding = out.ref(list(column.getType(resolver(out)).getBinding()));
        final String columnVisibility = visibility();
        if (!printDeprecationIfUnknownType(out, columnTypeFull))
            out.javadoc("The column <code>%s</code>.[[before= ][%s]]", column.getQualifiedOutputName(), list(escapeEntities(comment(column))));
        if (scala) {
            out.println("%sval %s: %s[%s, %s] = createField(%s.name(\"%s\"), %s, \"%s\"" + converterTemplate(converter) + converterTemplate(binding) + ")", columnVisibility, scalaWhitespaceSuffix(columnId), TableField.class, recordType, columnType, DSL.class, columnName, columnTypeRef, escapeString(comment(column)), converter, binding);
        } else if (kotlin) {
            out.println("%sval %s: %s<%s, %s?> = createField(%s.name(\"%s\"), %s, this, \"%s\"" + converterTemplate(converter) + converterTemplate(binding) + ")", columnVisibility, columnId, TableField.class, recordType, columnType, DSL.class, columnName, columnTypeRef, escapeString(comment(column)), converter, binding);
        } else {
            String isStatic = generateInstanceFields() ? "" : "static ";
            String tableRef = generateInstanceFields() ? "this" : out.ref(getStrategy().getJavaIdentifier(table), 2);
            out.println("%s%sfinal %s<%s, %s> %s = createField(%s.name(\"%s\"), %s, %s, \"%s\"" + converterTemplate(converter) + converterTemplate(binding) + ");", columnVisibility, isStatic, TableField.class, recordType, columnType, columnId, DSL.class, columnName, columnTypeRef, tableRef, escapeString(comment(column)), converter, binding);
        }
    }
    // [#2530] Embeddable types
    for (EmbeddableDefinition embeddable : table.getReferencedEmbeddables()) {
        final String columnId = out.ref(getStrategy().getJavaIdentifier(embeddable), colRefSegments(null));
        final String columnType = out.ref(getStrategy().getFullJavaClassName(embeddable, Mode.RECORD));
        final List<String> columnIds = new ArrayList<>();
        for (EmbeddableColumnDefinition column : embeddable.getColumns()) columnIds.add(out.ref(getStrategy().getJavaIdentifier(column.getReferencingColumn()), colRefSegments(column.getReferencingColumn())));
        out.javadoc("The embeddable type <code>%s</code>.[[before= ][%s]]", embeddable.getOutputName(), list(escapeEntities(referencingComment(embeddable))));
        if (scala)
            out.println("%sval %s: %s[%s, %s] = %s.createEmbeddable(%s.name(\"%s\"), classOf[%s], %s, this, [[%s]])", visibility(), scalaWhitespaceSuffix(columnId), TableField.class, recordType, columnType, Internal.class, DSL.class, escapeString(embeddable.getName()), columnType, embeddable.replacesFields(), columnIds);
        else if (kotlin)
            out.println("%sval %s: %s<%s, %s> = %s.createEmbeddable(%s.name(\"%s\"), %s::class.java, %s, this, [[%s]])", visibility(), columnId, TableField.class, recordType, columnType, Internal.class, DSL.class, escapeString(embeddable.getName()), columnType, embeddable.replacesFields(), columnIds);
        else
            out.println("%sfinal %s<%s, %s> %s = %s.createEmbeddable(%s.name(\"%s\"), %s.class, %s, this, [[%s]]);", visibility(), TableField.class, recordType, columnType, columnId, Internal.class, DSL.class, escapeString(embeddable.getName()), columnType, embeddable.replacesFields(), columnIds);
    }
    out.println();
    // "called constructor's definition must precede calling constructor's definition"
    if (scala) {
        if (table.isTableValuedFunction()) {
            out.println("private def this(alias: %s, aliased: %s[%s]) = this(alias, null, null, aliased, %s(", Name.class, Table.class, recordType, out.ref("scala.Array"));
            forEach(parameters, (parameter, separator) -> {
                final String paramTypeRef = getJavaTypeReference(parameter.getDatabase(), parameter.getType(resolver(out)), out);
                final List<String> converter = out.ref(list(parameter.getType(resolver(out)).getConverter()));
                final List<String> binding = out.ref(list(parameter.getType(resolver(out)).getBinding()));
                out.println("%s.value(null, %s" + converterTemplateForTableValuedFunction(converter) + converterTemplateForTableValuedFunction(binding) + ")%s", DSL.class, paramTypeRef, converter, binding, separator);
            });
            out.println("))");
        } else
            out.println("private def this(alias: %s, aliased: %s[%s]) = this(alias, null, null, aliased, null)", Name.class, Table.class, recordType);
    } else if (kotlin) {
        if (table.isTableValuedFunction()) {
            out.println("private constructor(alias: %s, aliased: %s<%s>?): this(alias, null, null, aliased, arrayOf(", Name.class, Table.class, recordType, Field.class, parameters.size());
            forEach(parameters, (parameter, separator) -> {
                final String paramTypeRef = getJavaTypeReference(parameter.getDatabase(), parameter.getType(resolver(out)), out);
                final List<String> converter = out.ref(list(parameter.getType(resolver(out)).getConverter()));
                final List<String> binding = out.ref(list(parameter.getType(resolver(out)).getBinding()));
                out.println("%s.value(null, %s" + converterTemplateForTableValuedFunction(converter) + converterTemplateForTableValuedFunction(binding) + ")%s", DSL.class, paramTypeRef, converter, binding, separator);
            });
            out.println("))");
        } else
            out.println("private constructor(alias: %s, aliased: %s<%s>?): this(alias, null, null, aliased, null)", Name.class, Table.class, recordType);
        out.println("private constructor(alias: %s, aliased: %s<%s>?, parameters: Array<%s<*>?>?): this(alias, null, null, aliased, parameters)", Name.class, Table.class, recordType, Field.class);
    } else {
        out.println("private %s(%s alias, %s<%s> aliased) {", className, Name.class, Table.class, recordType);
        if (table.isTableValuedFunction()) {
            out.println("this(alias, aliased, new %s[] {", Field.class);
            forEach(parameters, (parameter, separator) -> {
                final String paramTypeRef = getJavaTypeReference(parameter.getDatabase(), parameter.getType(resolver(out)), out);
                final List<String> converter = out.ref(list(parameter.getType(resolver(out)).getConverter()));
                final List<String> binding = out.ref(list(parameter.getType(resolver(out)).getBinding()));
                out.println("%s.val(null, %s" + converterTemplateForTableValuedFunction(converter) + converterTemplateForTableValuedFunction(binding) + ")%s", DSL.class, paramTypeRef, converter, binding, separator);
            });
            out.println("});");
        } else
            out.println("this(alias, aliased, null);");
        out.println("}");
        out.println();
        out.println("private %s(%s alias, %s<%s> aliased, %s<?>[] parameters) {", className, Name.class, Table.class, recordType, Field.class);
        if ((generateSourcesOnViews() || table.isSynthetic()) && table.isView() && table.getSource() != null)
            out.println("super(alias, null, aliased, parameters, %s.comment(\"%s\"), %s.%s(\"%s\"));", DSL.class, escapeString(comment(table)), TableOptions.class, tableType, escapeString(table.getSource()));
        else if (table.isSynthetic() && table.isTableValuedFunction() && table.getSource() != null)
            out.println("super(alias, null, aliased, parameters, %s.comment(\"%s\"), %s.%s(\"%s\"));", DSL.class, escapeString(comment(table)), TableOptions.class, tableType, escapeString(table.getSource()));
        else
            out.println("super(alias, null, aliased, parameters, %s.comment(\"%s\"), %s.%s());", DSL.class, escapeString(comment(table)), TableOptions.class, tableType);
        out.println("}");
    }
    if (scala) {
        out.javadoc("Create an aliased <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%sdef this(alias: %s) = this(%s.name(alias), %s)", visibility(), String.class, DSL.class, tableId);
        out.javadoc("Create an aliased <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%sdef this(alias: %s) = this(alias, %s)", visibility(), Name.class, tableId);
    } else if (kotlin) {
        out.javadoc("Create an aliased <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%sconstructor(alias: %s): this(%s.name(alias))", visibility(), String.class, DSL.class);
        out.javadoc("Create an aliased <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%sconstructor(alias: %s): this(alias, null)", visibility(), Name.class, tableId);
    } else // be public, as tables are no longer singletons
    if (generateInstanceFields()) {
        out.javadoc("Create an aliased <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%s%s(%s alias) {", visibility(), className, String.class);
        out.println("this(%s.name(alias), %s);", DSL.class, tableId);
        out.println("}");
        out.javadoc("Create an aliased <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%s%s(%s alias) {", visibility(), className, Name.class);
        out.println("this(alias, %s);", tableId);
        out.println("}");
    }
    if (scala) {
        out.javadoc("Create a <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%sdef this() = this(%s.name(\"%s\"), null)", visibility(), DSL.class, escapeString(table.getOutputName()));
    } else if (kotlin) {
        out.javadoc("Create a <code>%s</code> table reference", table.getQualifiedOutputName());
        out.println("%sconstructor(): this(%s.name(\"%s\"), null)", visibility(), DSL.class, escapeString(table.getOutputName()));
    } else {
        // be public, as tables are no longer singletons
        if (generateInstanceFields()) {
            out.javadoc("Create a <code>%s</code> table reference", table.getQualifiedOutputName());
            out.println("%s%s() {", visibility(), className);
        } else {
            out.javadoc(NO_FURTHER_INSTANCES_ALLOWED);
            out.println("private %s() {", className);
        }
        out.println("this(%s.name(\"%s\"), null);", DSL.class, escapeString(table.getOutputName()));
        out.println("}");
    }
    if (generateImplicitJoinPathsToOne() && generateGlobalKeyReferences() && !table.isTableValuedFunction()) {
        out.println();
        if (scala) {
            out.println("%sdef this(child: %s[_ <: %s], key: %s[_ <: %s, %s]) = this(%s.createPathAlias(child, key), child, key, %s, null)", visibility(), Table.class, Record.class, ForeignKey.class, Record.class, recordType, Internal.class, tableId);
        } else if (kotlin) {
            out.println("%sconstructor(child: %s<out %s>, key: %s<out %s, %s>): this(%s.createPathAlias(child, key), child, key, %s, null)", visibility(), Table.class, Record.class, ForeignKey.class, Record.class, recordType, Internal.class, tableId);
        } else {
            out.println("%s<O extends %s> %s(%s<O> child, %s<O, %s> key) {", visibility(), Record.class, className, Table.class, ForeignKey.class, recordType);
            out.println("super(child, key, %s);", tableId);
            out.println("}");
        }
    }
    if (scala) {
        out.println();
        out.println("%soverride def getSchema: %s = if (aliased()) null else %s", visibilityPublic(), Schema.class, schemaId);
    } else if (kotlin) {
        out.println("%soverride fun getSchema(): %s? = if (aliased()) null else %s", visibilityPublic(), Schema.class, schemaId);
    } else {
        out.overrideInherit();
        printNonnullAnnotation(out);
        out.println("%s%s getSchema() {", visibilityPublic(), Schema.class);
        out.println("return aliased() ? null : %s;", schemaId);
        out.println("}");
    }
    // Add index information
    if (generateIndexes()) {
        List<IndexDefinition> indexes = table.getIndexes();
        if (!indexes.isEmpty()) {
            if (generateGlobalIndexReferences()) {
                final List<String> indexFullIds = kotlin ? out.ref(getStrategy().getFullJavaIdentifiers(indexes)) : out.ref(getStrategy().getFullJavaIdentifiers(indexes), 2);
                if (scala) {
                    out.println();
                    out.println("%soverride def getIndexes: %s[%s] = %s.asList[ %s ]([[%s]])", visibilityPublic(), List.class, Index.class, Arrays.class, Index.class, indexFullIds);
                } else if (kotlin) {
                    out.println("%soverride fun getIndexes(): %s<%s> = listOf([[%s]])", visibilityPublic(), out.ref(KLIST), Index.class, indexFullIds);
                } else {
                    out.overrideInherit();
                    printNonnullAnnotation(out);
                    out.println("%s%s<%s> getIndexes() {", visibilityPublic(), List.class, Index.class);
                    out.println("return %s.asList([[%s]]);", Arrays.class, indexFullIds);
                    out.println("}");
                }
            } else {
                if (scala) {
                    out.println();
                    out.println("%soverride def getIndexes: %s[%s] = %s.asList[%s](", visibilityPublic(), List.class, Index.class, Arrays.class, Index.class);
                    forEach(indexes, "", ", ", (index, separator) -> {
                        printCreateIndex(out, index);
                        out.println("%s", separator);
                    });
                    out.println(")");
                } else if (kotlin) {
                    out.println("%soverride fun getIndexes(): %s<%s> = listOf(", visibilityPublic(), out.ref(KLIST), Index.class);
                    forEach(indexes, "", ", ", (index, separator) -> {
                        printCreateIndex(out, index);
                        out.println("%s", separator);
                    });
                    out.println(")");
                } else {
                    out.overrideInherit();
                    printNonnullAnnotation(out);
                    out.println("%s%s<%s> getIndexes() {", visibilityPublic(), List.class, Index.class);
                    out.println("return %s.asList(", Arrays.class);
                    forEach(indexes, "", ", ", (index, separator) -> {
                        printCreateIndex(out, index);
                        out.println("%s", separator);
                    });
                    out.println(");");
                    out.println("}");
                }
            }
        }
    }
    // Add primary / unique / foreign key information
    if (generateRelations()) {
        IdentityDefinition identity = table.getIdentity();
        // The identity column
        if (identity != null) {
            final String identityTypeFull = getJavaType(identity.getColumn().getType(resolver(out)), out);
            final String identityType = out.ref(identityTypeFull);
            if (scala) {
                out.println();
                printDeprecationIfUnknownType(out, identityTypeFull);
                out.println("%soverride def getIdentity: %s[%s, %s] = super.getIdentity.asInstanceOf[ %s[%s, %s] ]", visibilityPublic(), Identity.class, recordType, identityType, Identity.class, recordType, identityType);
            } else if (kotlin) {
                printDeprecationIfUnknownType(out, identityTypeFull);
                out.println("%soverride fun getIdentity(): %s<%s, %s?> = super.getIdentity() as %s<%s, %s?>", visibilityPublic(), Identity.class, recordType, identityType, Identity.class, recordType, identityType);
            } else {
                if (printDeprecationIfUnknownType(out, identityTypeFull))
                    out.override();
                else
                    out.overrideInherit();
                printNonnullAnnotation(out);
                out.println("%s%s<%s, %s> getIdentity() {", visibilityPublic(), Identity.class, recordType, identityType);
                out.println("return (%s<%s, %s>) super.getIdentity();", Identity.class, recordType, identityType);
                out.println("}");
            }
        }
        // The primary / main unique key
        if (primaryKey != null) {
            final String keyFullId = generateGlobalKeyReferences() ? kotlin ? out.ref(getStrategy().getFullJavaIdentifier(primaryKey)) : out.ref(getStrategy().getFullJavaIdentifier(primaryKey), 2) : null;
            if (scala) {
                out.println();
                out.print("%soverride def getPrimaryKey: %s[%s] = ", visibilityPublic(), UniqueKey.class, recordType);
                if (keyFullId != null)
                    out.print("%s", keyFullId);
                else
                    printCreateUniqueKey(out, primaryKey);
                out.println();
            } else if (kotlin) {
                out.print("%soverride fun getPrimaryKey(): %s<%s> = ", visibilityPublic(), UniqueKey.class, recordType);
                if (keyFullId != null)
                    out.print("%s", keyFullId);
                else
                    printCreateUniqueKey(out, primaryKey);
                out.println();
            } else {
                out.overrideInherit();
                printNonnullAnnotation(out);
                out.println("%s%s<%s> getPrimaryKey() {", visibilityPublic(), UniqueKey.class, recordType);
                out.print("return ");
                if (keyFullId != null)
                    out.print("%s", keyFullId);
                else
                    printCreateUniqueKey(out, primaryKey);
                out.println(";");
                out.println("}");
            }
        }
        // The remaining unique keys
        List<UniqueKeyDefinition> uniqueKeys = table.getUniqueKeys();
        if (uniqueKeys.size() > 0) {
            if (generateGlobalKeyReferences()) {
                final List<String> keyFullIds = kotlin ? out.ref(getStrategy().getFullJavaIdentifiers(uniqueKeys)) : out.ref(getStrategy().getFullJavaIdentifiers(uniqueKeys), 2);
                if (scala) {
                    out.println();
                    out.println("%soverride def getUniqueKeys: %s[ %s[%s] ] = %s.asList[ %s[%s] ]([[%s]])", visibilityPublic(), List.class, UniqueKey.class, recordType, Arrays.class, UniqueKey.class, recordType, keyFullIds);
                } else if (kotlin) {
                    out.println("%soverride fun getUniqueKeys(): %s<%s<%s>> = listOf([[%s]])", visibilityPublic(), out.ref(KLIST), UniqueKey.class, recordType, keyFullIds);
                } else {
                    out.overrideInherit();
                    printNonnullAnnotation(out);
                    out.println("%s%s<%s<%s>> getUniqueKeys() {", visibilityPublic(), List.class, UniqueKey.class, recordType);
                    out.println("return %s.asList([[%s]]);", Arrays.class, keyFullIds);
                    out.println("}");
                }
            } else {
                if (scala) {
                    out.println();
                    out.println("%soverride def getUniqueKeys: %s[ %s[%s] ] = %s.asList[ %s[%s] ](", visibilityPublic(), List.class, UniqueKey.class, recordType, Arrays.class, UniqueKey.class, recordType);
                    forEach(uniqueKeys, "", ", ", (uniqueKey, separator) -> {
                        printCreateUniqueKey(out, uniqueKey);
                        out.println("%s", separator);
                    });
                    out.println(")");
                } else if (kotlin) {
                    out.println("%soverride fun getUniqueKeys(): %s<%s<%s>> = listOf(", visibilityPublic(), out.ref(KLIST), UniqueKey.class, recordType);
                    forEach(uniqueKeys, "", ", ", (uniqueKey, separator) -> {
                        printCreateUniqueKey(out, uniqueKey);
                        out.println("%s", separator);
                    });
                    out.println(")");
                } else {
                    out.overrideInherit();
                    printNonnullAnnotation(out);
                    out.println("%s%s<%s<%s>> getUniqueKeys() {", visibilityPublic(), List.class, UniqueKey.class, recordType);
                    out.println("return %s.asList(", Arrays.class);
                    forEach(uniqueKeys, "", ", ", (uniqueKey, separator) -> {
                        printCreateUniqueKey(out, uniqueKey);
                        out.println("%s", separator);
                    });
                    out.println(");");
                    out.println("}");
                }
            }
        }
        // Foreign keys
        List<ForeignKeyDefinition> foreignKeys = table.getForeignKeys();
        // [#7554] [#8028] Not yet supported with global key references turned off
        if (foreignKeys.size() > 0 && generateGlobalKeyReferences()) {
            final List<String> keyFullIds = kotlin ? out.ref(getStrategy().getFullJavaIdentifiers(foreignKeys)) : out.ref(getStrategy().getFullJavaIdentifiers(foreignKeys), 2);
            if (scala) {
                out.println();
                out.println("%soverride def getReferences: %s[ %s[%s, _] ] = %s.asList[ %s[%s, _] ]([[%s]])", visibilityPublic(), List.class, ForeignKey.class, recordType, Arrays.class, ForeignKey.class, recordType, keyFullIds);
            } else if (kotlin) {
                out.println("%soverride fun getReferences(): %s<%s<%s, *>> = listOf([[%s]])", visibilityPublic(), out.ref(KLIST), ForeignKey.class, recordType, keyFullIds);
            } else {
                out.overrideInherit();
                printNonnullAnnotation(out);
                out.println("%s%s<%s<%s, ?>> getReferences() {", visibilityPublic(), List.class, ForeignKey.class, recordType);
                out.println("return %s.asList([[%s]]);", Arrays.class, keyFullIds);
                out.println("}");
            }
            // Outbound (to-one) implicit join paths
            if (generateImplicitJoinPathsToOne()) {
                if (scala) {
                } else {
                    out.println();
                    // [#8762] Cache these calls for much improved runtime performance!
                    for (ForeignKeyDefinition foreignKey : foreignKeys) {
                        final String referencedTableClassName = out.ref(getStrategy().getFullJavaClassName(foreignKey.getReferencedTable()));
                        final String keyMethodName = out.ref(getStrategy().getJavaMethodName(foreignKey));
                        // [#13008] Prevent conflicts with the below leading underscore
                        final String unquotedKeyMethodName = keyMethodName.replace("`", "");
                        if (kotlin)
                            out.println("private lateinit var _%s: %s", unquotedKeyMethodName, referencedTableClassName);
                        else
                            out.println("private transient %s _%s;", referencedTableClassName, keyMethodName);
                    }
                }
                Map<TableDefinition, Long> pathCounts = foreignKeys.stream().collect(groupingBy(ForeignKeyDefinition::getReferencedTable, counting()));
                for (ForeignKeyDefinition foreignKey : foreignKeys) {
                    final String keyFullId = kotlin ? out.ref(getStrategy().getFullJavaIdentifier(foreignKey)) : out.ref(getStrategy().getFullJavaIdentifier(foreignKey), 2);
                    final String referencedTableClassName = out.ref(getStrategy().getFullJavaClassName(foreignKey.getReferencedTable()));
                    final String keyMethodName = out.ref(getStrategy().getJavaMethodName(foreignKey));
                    final String unquotedKeyMethodName = keyMethodName.replace("`", "");
                    out.javadoc("Get the implicit join path to the <code>" + foreignKey.getReferencedTable().getQualifiedName() + "</code> table" + (pathCounts.get(foreignKey.getReferencedTable()) > 1 ? ", via the <code>" + foreignKey.getInputName() + "</code> key" : "") + ".");
                    if (scala) {
                        out.println("%slazy val %s: %s = { new %s(this, %s) }", visibility(), scalaWhitespaceSuffix(keyMethodName), referencedTableClassName, referencedTableClassName, keyFullId);
                    } else if (kotlin) {
                        out.println("%sfun %s(): %s {", visibility(), keyMethodName, referencedTableClassName);
                        out.println("if (!this::_%s.isInitialized)", unquotedKeyMethodName);
                        out.println("_%s = %s(this, %s)", unquotedKeyMethodName, referencedTableClassName, keyFullId);
                        out.println();
                        out.println("return _%s;", unquotedKeyMethodName);
                        out.println("}");
                    } else {
                        out.println("%s%s %s() {", visibility(), referencedTableClassName, keyMethodName);
                        out.println("if (_%s == null)", keyMethodName);
                        out.println("_%s = new %s(this, %s);", keyMethodName, referencedTableClassName, keyFullId);
                        out.println();
                        out.println("return _%s;", keyMethodName);
                        out.println("}");
                    }
                }
            }
        }
    }
    List<CheckConstraintDefinition> cc = table.getCheckConstraints();
    if (!cc.isEmpty()) {
        if (scala) {
            out.println("%soverride def getChecks: %s[ %s[%s] ] = %s.asList[ %s[%s] ](", visibilityPublic(), List.class, Check.class, recordType, Arrays.class, Check.class, recordType);
        } else if (kotlin) {
            out.println("%soverride fun getChecks(): %s<%s<%s>> = listOf(", visibilityPublic(), out.ref(KLIST), Check.class, recordType);
        } else {
            out.overrideInherit();
            printNonnullAnnotation(out);
            out.println("%s%s<%s<%s>> getChecks() {", visibilityPublic(), List.class, Check.class, recordType);
            out.println("return %s.asList(", Arrays.class);
        }
        forEach(cc, (c, separator) -> {
            out.println("%s.createCheck(this, %s.name(\"%s\"), \"%s\", %s)%s", Internal.class, DSL.class, escapeString(c.getName()), escapeString(c.getCheckClause()), c.enforced(), separator);
        });
        if (scala || kotlin) {
            out.println(")");
        } else {
            out.println(");");
            out.println("}");
        }
    }
    // can still be generated
    versionLoop: for (String pattern : database.getRecordVersionFields()) {
        Pattern p = Pattern.compile(pattern, Pattern.COMMENTS);
        for (ColumnDefinition column : table.getColumns()) {
            if ((p.matcher(column.getName()).matches() || p.matcher(column.getQualifiedName()).matches())) {
                final String columnTypeFull = getJavaType(column.getType(resolver(out)), out);
                final String columnType = out.ref(columnTypeFull);
                final String columnId = getStrategy().getJavaIdentifier(column);
                if (scala) {
                    printDeprecationIfUnknownType(out, columnTypeFull);
                    out.println("%soverride def getRecordVersion: %s[%s, %s] = %s", visibilityPublic(), TableField.class, recordType, columnType, columnId);
                } else if (kotlin) {
                    printDeprecationIfUnknownType(out, columnTypeFull);
                    out.println("%soverride fun getRecordVersion(): %s<%s, %s?> = %s", visibilityPublic(), TableField.class, recordType, columnType, columnId);
                } else {
                    if (printDeprecationIfUnknownType(out, columnTypeFull))
                        out.override();
                    else
                        out.overrideInherit();
                    printNonnullAnnotation(out);
                    out.println("%s%s<%s, %s> getRecordVersion() {", visibilityPublic(), TableField.class, recordType, columnType);
                    out.println("return %s;", columnId);
                    out.println("}");
                }
                // Avoid generating this method twice
                break versionLoop;
            }
        }
    }
    timestampLoop: for (String pattern : database.getRecordTimestampFields()) {
        Pattern p = Pattern.compile(pattern, Pattern.COMMENTS);
        for (ColumnDefinition column : table.getColumns()) {
            if ((p.matcher(column.getName()).matches() || p.matcher(column.getQualifiedName()).matches())) {
                final String columnTypeFull = getJavaType(column.getType(resolver(out)), out);
                final String columnType = out.ref(columnTypeFull);
                final String columnId = getStrategy().getJavaIdentifier(column);
                if (scala) {
                    printDeprecationIfUnknownType(out, columnTypeFull);
                    out.println("%soverride def getRecordTimestamp: %s[%s, %s] = %s", visibilityPublic(), TableField.class, recordType, columnType, columnId);
                } else if (kotlin) {
                    printDeprecationIfUnknownType(out, columnTypeFull);
                    out.println("%soverride fun getRecordTimestamp(): %s<%s, %s?> = %s", visibilityPublic(), TableField.class, recordType, columnType, columnId);
                } else {
                    if (printDeprecationIfUnknownType(out, columnTypeFull))
                        out.override();
                    else
                        out.overrideInherit();
                    printNonnullAnnotation(out);
                    out.println("%s%s<%s, %s> getRecordTimestamp() {", visibilityPublic(), TableField.class, recordType, columnType);
                    out.println("return %s;", columnId);
                    out.println("}");
                }
                // Avoid generating this method twice
                break timestampLoop;
            }
        }
    }
    if (scala) {
        out.print("%soverride def as(alias: %s): %s = ", visibilityPublic(), String.class, className);
        if (table.isTableValuedFunction())
            out.println("new %s(%s.name(alias), null, null, this, parameters)", className, DSL.class);
        else
            out.println("new %s(%s.name(alias), this)", className, DSL.class);
        out.print("%soverride def as(alias: %s): %s = ", visibilityPublic(), Name.class, className);
        if (table.isTableValuedFunction())
            out.println("new %s(alias, null, null, this, parameters)", className);
        else
            out.println("new %s(alias, this)", className);
    } else if (kotlin) {
        out.print("%soverride fun `as`(alias: %s): %s = ", visibilityPublic(), String.class, className);
        if (table.isTableValuedFunction())
            out.println("%s(%s.name(alias), this, parameters)", className, DSL.class);
        else
            out.println("%s(%s.name(alias), this)", className, DSL.class);
        out.print("%soverride fun `as`(alias: %s): %s = ", visibilityPublic(), Name.class, className);
        if (table.isTableValuedFunction())
            out.println("%s(alias, this, parameters)", className);
        else
            out.println("%s(alias, this)", className);
    } else // type-safe table alias
    if (generateInstanceFields()) {
        out.overrideInherit();
        printNonnullAnnotation(out);
        out.println("%s%s as(%s alias) {", visibilityPublic(), className, String.class);
        if (table.isTableValuedFunction())
            out.println("return new %s(%s.name(alias), this, parameters);", className, DSL.class);
        else
            out.println("return new %s(%s.name(alias), this);", className, DSL.class);
        out.println("}");
        out.overrideInherit();
        printNonnullAnnotation(out);
        out.println("%s%s as(%s alias) {", visibilityPublic(), className, Name.class);
        if (table.isTableValuedFunction())
            out.println("return new %s(alias, this, parameters);", className);
        else
            out.println("return new %s(alias, this);", className);
        out.println("}");
    }
    if (scala) {
        out.javadoc("Rename this table");
        out.print("%soverride def rename(name: %s): %s = ", visibilityPublic(), String.class, className);
        if (table.isTableValuedFunction())
            out.println("new %s(%s.name(name), null, null, null, parameters)", className, DSL.class);
        else
            out.println("new %s(%s.name(name), null)", className, DSL.class);
        out.javadoc("Rename this table");
        out.print("%soverride def rename(name: %s): %s = ", visibilityPublic(), Name.class, className);
        if (table.isTableValuedFunction())
            out.println("new %s(name, null, null, null, parameters)", className);
        else
            out.println("new %s(name, null)", className);
    } else if (kotlin) {
        out.javadoc("Rename this table");
        out.print("%soverride fun rename(name: %s): %s = ", visibilityPublic(), String.class, className);
        if (table.isTableValuedFunction())
            out.println("%s(%s.name(name), null, parameters)", className, DSL.class);
        else
            out.println("%s(%s.name(name), null)", className, DSL.class);
        out.javadoc("Rename this table");
        out.print("%soverride fun rename(name: %s): %s = ", visibilityPublic(), Name.class, className);
        if (table.isTableValuedFunction())
            out.println("%s(name, null, parameters)", className);
        else
            out.println("%s(name, null)", className);
    } else // [#2921] With instance fields, tables can be renamed.
    if (generateInstanceFields()) {
        out.javadoc("Rename this table");
        out.override();
        printNonnullAnnotation(out);
        out.println("%s%s rename(%s name) {", visibilityPublic(), className, String.class);
        if (table.isTableValuedFunction())
            out.println("return new %s(%s.name(name), null, parameters);", className, DSL.class);
        else
            out.println("return new %s(%s.name(name), null);", className, DSL.class);
        out.println("}");
        out.javadoc("Rename this table");
        out.override();
        printNonnullAnnotation(out);
        out.println("%s%s rename(%s name) {", visibilityPublic(), className, Name.class);
        if (table.isTableValuedFunction())
            out.println("return new %s(name, null, parameters);", className);
        else
            out.println("return new %s(name, null);", className);
        out.println("}");
    }
    // [#7809] fieldsRow()
    // [#10481] Use the types from replaced embeddables if applicable
    List<Definition> replacingEmbeddablesAndUnreplacedColumns = replacingEmbeddablesAndUnreplacedColumns(table);
    int degree = replacingEmbeddablesAndUnreplacedColumns.size();
    String rowType = refRowType(out, replacingEmbeddablesAndUnreplacedColumns);
    String rowTypeContravariantJava = refRowType(out, replacingEmbeddablesAndUnreplacedColumns, s -> "? super " + s);
    if (generateRecordsImplementingRecordN() && degree > 0 && degree <= Constants.MAX_ROW_DEGREE) {
        final String rowNType = out.ref(Row.class.getName() + degree);
        out.header("Row%s type methods", degree);
        if (scala) {
            out.println("%soverride def fieldsRow: %s[%s] = super.fieldsRow.asInstanceOf[ %s[%s] ]", visibilityPublic(), rowNType, rowType, rowNType, rowType);
        } else if (kotlin) {
            out.println("%soverride fun fieldsRow(): %s<%s> = super.fieldsRow() as %s<%s>", visibilityPublic(), rowNType, rowType, rowNType, rowType);
        } else {
            out.overrideInherit();
            printNonnullAnnotation(out);
            out.println("%s%s<%s> fieldsRow() {", visibilityPublic(), rowNType, rowType);
            out.println("return (%s) super.fieldsRow();", rowNType);
            out.println("}");
        }
    }
    // [#1070] Table-valued functions should generate an additional set of call() methods
    if (table.isTableValuedFunction()) {
        for (boolean parametersAsField : new boolean[] { false, true }) {
            // Don't overload no-args call() methods
            if (parametersAsField && parameters.size() == 0)
                break;
            out.javadoc("Call this table-valued function");
            if (scala) {
                out.print("%sdef call(", visibility()).printlnIf(!parameters.isEmpty());
                printParameterDeclarations(out, parameters, parametersAsField, "  ");
                out.print("): %s = ", className);
                out.print("Option(new %s(%s.name(\"%s\"), null, null, null, %s(", className, DSL.class, escapeString(table.getOutputName()), out.ref("scala.Array")).printlnIf(!parameters.isEmpty());
                forEach(parameters, (parameter, separator) -> {
                    final String paramArgName = getStrategy().getJavaMemberName(parameter);
                    final String paramTypeRef = getJavaTypeReference(parameter.getDatabase(), parameter.getType(resolver(out)), out);
                    final List<String> converter = out.ref(list(parameter.getType(resolver(out)).getConverter()));
                    final List<String> binding = out.ref(list(parameter.getType(resolver(out)).getBinding()));
                    if (parametersAsField)
                        out.println("%s%s", paramArgName, separator);
                    else
                        out.println("%s.value(%s, %s" + converterTemplateForTableValuedFunction(converter) + converterTemplateForTableValuedFunction(binding) + ")%s", DSL.class, paramArgName, paramTypeRef, converter, binding, separator);
                });
                out.println("))).map(r => if (aliased()) r.as(getUnqualifiedName) else r).get");
            } else if (kotlin) {
                out.print("%sfun call(", visibility()).printlnIf(!parameters.isEmpty());
                printParameterDeclarations(out, parameters, parametersAsField, "  ");
                out.print("): %s = %s(%s.name(\"%s\"), null, arrayOf(", className, className, DSL.class, escapeString(table.getOutputName()), Field.class).printlnIf(!parameters.isEmpty());
                forEach(parameters, (parameter, separator) -> {
                    final String paramArgName = getStrategy().getJavaMemberName(parameter);
                    final String paramTypeRef = getJavaTypeReference(parameter.getDatabase(), parameter.getType(resolver(out)), out);
                    final List<String> converter = out.ref(list(parameter.getType(resolver(out)).getConverter()));
                    final List<String> binding = out.ref(list(parameter.getType(resolver(out)).getBinding()));
                    if (parametersAsField)
                        out.println("%s%s", paramArgName, separator);
                    else
                        out.println("%s.value(%s, %s" + converterTemplateForTableValuedFunction(converter) + converterTemplateForTableValuedFunction(binding) + ")%s", DSL.class, paramArgName, paramTypeRef, converter, binding, separator);
                });
                out.println(")).let { if (aliased()) it.`as`(unqualifiedName) else it }");
            } else {
                out.print("%s%s call(", visibility(), className).printlnIf(!parameters.isEmpty());
                printParameterDeclarations(out, parameters, parametersAsField, "  ");
                out.println(") {");
                out.print("%s result = new %s(%s.name(\"%s\"), null, new %s[] {", className, className, DSL.class, escapeString(table.getOutputName()), Field.class).printlnIf(!parameters.isEmpty());
                forEach(parameters, (parameter, separator) -> {
                    final String paramArgName = getStrategy().getJavaMemberName(parameter);
                    final String paramTypeRef = getJavaTypeReference(parameter.getDatabase(), parameter.getType(resolver(out)), out);
                    final List<String> converter = out.ref(list(parameter.getType(resolver(out)).getConverter()));
                    final List<String> binding = out.ref(list(parameter.getType(resolver(out)).getBinding()));
                    if (parametersAsField)
                        out.println("%s%s", paramArgName, separator);
                    else
                        out.println("%s.val(%s, %s" + converterTemplateForTableValuedFunction(converter) + converterTemplateForTableValuedFunction(binding) + ")%s", DSL.class, paramArgName, paramTypeRef, converter, binding, separator);
                });
                out.println("});");
                out.println();
                out.println("return aliased() ? result.as(getUnqualifiedName()) : result;");
                out.println("}");
            }
        }
    }
    if (generateRecordsImplementingRecordN() && degree > 0 && degree <= Constants.MAX_ROW_DEGREE) {
        out.javadoc("Convenience mapping calling {@link #convertFrom(%s)}.", Function.class);
        if (scala) {
            out.println("%sdef mapping[U](from: (" + rowType + ") => U): %s[U] = convertFrom(r => from.apply(" + rangeClosed(1, degree).mapToObj(i -> "r.value" + i + "()").collect(joining(", ")) + "))", visibility(), SelectField.class);
        } else if (kotlin) {
            out.println("%sfun <U> mapping(from: (" + rowType + ") -> U): %s<U> = convertFrom(%s.mapping(from))", visibility(), SelectField.class, Records.class);
        } else {
            out.println("%s<U> %s<U> mapping(%s<" + rowTypeContravariantJava + ", ? extends U> from) {", visibility(), SelectField.class, out.ref("org.jooq.Function" + degree));
            out.println("return convertFrom(%s.mapping(from));", Records.class);
            out.println("}");
        }
        out.javadoc("Convenience mapping calling {@link #convertFrom(%s, %s)}.", Class.class, Function.class);
        if (scala) {
            out.println("%sdef mapping[U](toType: %s[U], from: (" + rowType + ") => U): %s[U] = convertFrom(toType,r => from.apply(" + rangeClosed(1, degree).mapToObj(i -> "r.value" + i + "()").collect(joining(", ")) + "))", visibility(), Class.class, SelectField.class);
        } else if (kotlin) {
            out.println("%sfun <U> mapping(toType: %s<U>, from: (" + rowType + ") -> U): %s<U> = convertFrom(toType, %s.mapping(from))", visibility(), Class.class, SelectField.class, Records.class);
        } else {
            out.println("%s<U> %s<U> mapping(%s<U> toType, %s<" + rowTypeContravariantJava + ", ? extends U> from) {", visibility(), SelectField.class, Class.class, out.ref("org.jooq.Function" + degree));
            out.println("return convertFrom(toType, %s.mapping(from));", Records.class);
            out.println("}");
        }
    }
    generateTableClassFooter(table, out);
    out.println("}");
    closeJavaWriter(out);
}
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EmbeddableColumnDefinition(org.jooq.meta.EmbeddableColumnDefinition) UniqueKeyDefinition(org.jooq.meta.UniqueKeyDefinition) SelectField(org.jooq.SelectField) IdentityDefinition(org.jooq.meta.IdentityDefinition) EmbeddableDefinition(org.jooq.meta.EmbeddableDefinition) AttributeDefinition(org.jooq.meta.AttributeDefinition) ColumnDefinition(org.jooq.meta.ColumnDefinition) RoutineDefinition(org.jooq.meta.RoutineDefinition) IndexColumnDefinition(org.jooq.meta.IndexColumnDefinition) IdentityDefinition(org.jooq.meta.IdentityDefinition) EmbeddableColumnDefinition(org.jooq.meta.EmbeddableColumnDefinition) CheckConstraintDefinition(org.jooq.meta.CheckConstraintDefinition) SequenceDefinition(org.jooq.meta.SequenceDefinition) TableDefinition(org.jooq.meta.TableDefinition) IndexDefinition(org.jooq.meta.IndexDefinition) SchemaDefinition(org.jooq.meta.SchemaDefinition) CatalogDefinition(org.jooq.meta.CatalogDefinition) DataTypeDefinition(org.jooq.meta.DataTypeDefinition) PackageDefinition(org.jooq.meta.PackageDefinition) PostgresRoutineDefinition(org.jooq.meta.postgres.PostgresRoutineDefinition) TypedElementDefinition(org.jooq.meta.TypedElementDefinition) DomainDefinition(org.jooq.meta.DomainDefinition) UniqueKeyDefinition(org.jooq.meta.UniqueKeyDefinition) DefaultDataTypeDefinition(org.jooq.meta.DefaultDataTypeDefinition) Definition(org.jooq.meta.Definition) EmbeddableDefinition(org.jooq.meta.EmbeddableDefinition) ArrayDefinition(org.jooq.meta.ArrayDefinition) UDTDefinition(org.jooq.meta.UDTDefinition) ParameterDefinition(org.jooq.meta.ParameterDefinition) ConstraintDefinition(org.jooq.meta.ConstraintDefinition) AbstractTypedElementDefinition(org.jooq.meta.AbstractTypedElementDefinition) EnumDefinition(org.jooq.meta.EnumDefinition) ForeignKeyDefinition(org.jooq.meta.ForeignKeyDefinition) ForeignKey(org.jooq.ForeignKey) TableField(org.jooq.TableField) ColumnDefinition(org.jooq.meta.ColumnDefinition) IndexColumnDefinition(org.jooq.meta.IndexColumnDefinition) EmbeddableColumnDefinition(org.jooq.meta.EmbeddableColumnDefinition) UniqueKey(org.jooq.UniqueKey) Arrays(java.util.Arrays) ParameterDefinition(org.jooq.meta.ParameterDefinition)

Example 2 with CheckConstraintDefinition

use of org.jooq.meta.CheckConstraintDefinition in project jOOQ by jOOQ.

the class XMLGenerator method generate0.

@Override
public void generate0(Database db) {
    logDatabaseParameters(db);
    log.info("");
    logGenerationRemarks(db);
    log.info("");
    log.info("----------------------------------------------------------");
    TextWriter out = new TextWriter(getStrategy().getFile("information_schema.xml"), targetEncoding);
    log.info("");
    log.info("Generating XML", out.file().getName());
    log.info("==========================================================");
    InformationSchema is = new InformationSchema();
    boolean hasNonDefaultCatalogs = false;
    for (CatalogDefinition c : db.getCatalogs()) {
        if (!StringUtils.isBlank(c.getName())) {
            hasNonDefaultCatalogs = true;
            break;
        }
    }
    for (CatalogDefinition c : db.getCatalogs()) {
        String catalogName = c.getOutputName();
        if (hasNonDefaultCatalogs)
            is.getCatalogs().add(new Catalog().withCatalogName(catalogName).withComment(generateCommentsOnCatalogs() ? c.getComment() : null));
        for (SchemaDefinition s : c.getSchemata()) {
            String schemaName = s.getOutputName();
            Schema schema = new Schema();
            schema.setCatalogName(catalogName);
            schema.setSchemaName(schemaName);
            if (generateCommentsOnSchemas())
                schema.setComment(s.getComment());
            is.getSchemata().add(schema);
            for (TableDefinition t : s.getTables()) {
                String tableName = t.getOutputName();
                Table table = new Table();
                table.setTableCatalog(catalogName);
                table.setTableSchema(schemaName);
                table.setTableName(tableName);
                table.setTableType(t.isView() ? TableType.VIEW : t.isTemporary() ? TableType.GLOBAL_TEMPORARY : TableType.BASE_TABLE);
                if (generateCommentsOnTables())
                    table.setComment(t.getComment());
                is.getTables().add(table);
                if (t.isView()) {
                    View view = new View();
                    view.setTableCatalog(catalogName);
                    view.setTableSchema(schemaName);
                    view.setTableName(tableName);
                    if (generateSourcesOnViews())
                        view.setViewDefinition(t.getSource());
                    is.getViews().add(view);
                }
                for (ColumnDefinition co : t.getColumns()) {
                    String columnName = co.getOutputName();
                    DataTypeDefinition type = co.getType();
                    Column column = new Column();
                    column.setTableCatalog(catalogName);
                    column.setTableSchema(schemaName);
                    column.setTableName(tableName);
                    column.setColumnName(columnName);
                    if (generateCommentsOnColumns())
                        column.setComment(co.getComment());
                    column.setCharacterMaximumLength(type.getLength());
                    column.setColumnDefault(type.getDefaultValue());
                    column.setDataType(type.getType());
                    if (co.isIdentity())
                        column.setIdentityGeneration("YES");
                    column.setIsNullable(type.isNullable());
                    column.setNumericPrecision(type.getPrecision());
                    column.setNumericScale(type.getScale());
                    column.setOrdinalPosition(co.getPosition());
                    column.setReadonly(co.isReadonly());
                    if (type.isComputed()) {
                        column.setIsGenerated(type.isComputed());
                        column.setGenerationExpression(type.getGeneratedAlwaysAs());
                        column.setGenerationOption(type.getGenerationOption() == VIRTUAL ? "VIRTUAL" : type.getGenerationOption() == STORED ? "STORED" : null);
                    }
                    is.getColumns().add(column);
                }
            }
            for (IndexDefinition i : db.getIndexes(s)) {
                String indexName = i.getOutputName();
                TableDefinition table = i.getTable();
                List<IndexColumnDefinition> columns = i.getIndexColumns();
                Index index = new Index();
                index.setIndexCatalog(catalogName);
                index.setIndexSchema(schemaName);
                index.setIndexName(indexName);
                if (generateCommentsOnKeys())
                    index.setComment(i.getComment());
                index.setTableCatalog(table.getCatalog().getOutputName());
                index.setTableSchema(table.getSchema().getOutputName());
                index.setTableName(table.getOutputName());
                index.setIsUnique(i.isUnique());
                is.getIndexes().add(index);
                for (int j = 0; j < columns.size(); j++) {
                    IndexColumnDefinition indexColumn = columns.get(j);
                    ColumnDefinition column = indexColumn.getColumn();
                    IndexColumnUsage ic = new IndexColumnUsage();
                    ic.setIndexCatalog(catalogName);
                    ic.setIndexSchema(schemaName);
                    ic.setIndexName(indexName);
                    ic.setColumnName(column.getOutputName());
                    ic.setOrdinalPosition(j + 1);
                    ic.setIsDescending(indexColumn.getSortOrder() == SortOrder.DESC);
                    ic.setTableCatalog(table.getCatalog().getOutputName());
                    ic.setTableSchema(table.getSchema().getOutputName());
                    ic.setTableName(table.getOutputName());
                    is.getIndexColumnUsages().add(ic);
                }
            }
            for (UniqueKeyDefinition u : db.getKeys(s)) {
                String constraintName = u.getOutputName();
                TableDefinition table = u.getTable();
                List<ColumnDefinition> columns = u.getKeyColumns();
                TableConstraint tc = new TableConstraint();
                tc.setConstraintCatalog(catalogName);
                tc.setConstraintSchema(schemaName);
                tc.setConstraintName(constraintName);
                tc.setConstraintType(u.isPrimaryKey() ? PRIMARY_KEY : UNIQUE);
                if (generateCommentsOnKeys())
                    tc.setComment(u.getComment());
                tc.setTableCatalog(table.getCatalog().getOutputName());
                tc.setTableSchema(table.getSchema().getOutputName());
                tc.setTableName(table.getOutputName());
                tc.setEnforced(u.enforced());
                is.getTableConstraints().add(tc);
                for (int i = 0; i < columns.size(); i++) {
                    ColumnDefinition column = columns.get(i);
                    KeyColumnUsage kc = new KeyColumnUsage();
                    kc.setConstraintCatalog(catalogName);
                    kc.setConstraintSchema(schemaName);
                    kc.setConstraintName(constraintName);
                    kc.setColumnName(column.getOutputName());
                    kc.setOrdinalPosition(i + 1);
                    kc.setTableCatalog(table.getCatalog().getOutputName());
                    kc.setTableSchema(table.getSchema().getOutputName());
                    kc.setTableName(table.getOutputName());
                    is.getKeyColumnUsages().add(kc);
                }
            }
            for (ForeignKeyDefinition f : db.getForeignKeys(s)) {
                String constraintName = f.getOutputName();
                UniqueKeyDefinition referenced = f.getReferencedKey();
                TableDefinition table = f.getKeyTable();
                List<ColumnDefinition> columns = f.getKeyColumns();
                TableConstraint tc = new TableConstraint();
                tc.setConstraintCatalog(catalogName);
                tc.setConstraintSchema(schemaName);
                tc.setConstraintName(constraintName);
                tc.setConstraintType(FOREIGN_KEY);
                if (generateCommentsOnKeys())
                    tc.setComment(f.getComment());
                tc.setTableCatalog(table.getCatalog().getOutputName());
                tc.setTableSchema(table.getSchema().getOutputName());
                tc.setTableName(table.getOutputName());
                tc.setEnforced(f.enforced());
                ReferentialConstraint rc = new ReferentialConstraint();
                rc.setConstraintCatalog(catalogName);
                rc.setConstraintSchema(schemaName);
                rc.setConstraintName(constraintName);
                rc.setUniqueConstraintCatalog(referenced.getCatalog().getOutputName());
                rc.setUniqueConstraintSchema(referenced.getSchema().getOutputName());
                rc.setUniqueConstraintName(referenced.getOutputName());
                is.getTableConstraints().add(tc);
                is.getReferentialConstraints().add(rc);
                for (int i = 0; i < columns.size(); i++) {
                    ColumnDefinition column = columns.get(i);
                    KeyColumnUsage kc = new KeyColumnUsage();
                    kc.setConstraintCatalog(catalogName);
                    kc.setConstraintSchema(schemaName);
                    kc.setConstraintName(constraintName);
                    kc.setColumnName(column.getOutputName());
                    kc.setOrdinalPosition(i + 1);
                    kc.setTableCatalog(table.getCatalog().getOutputName());
                    kc.setTableSchema(table.getSchema().getOutputName());
                    kc.setTableName(table.getOutputName());
                    is.getKeyColumnUsages().add(kc);
                }
            }
            for (CheckConstraintDefinition ch : db.getCheckConstraints(s)) {
                String constraintName = ch.getOutputName();
                TableDefinition table = ch.getTable();
                TableConstraint tc = new TableConstraint();
                tc.setConstraintCatalog(catalogName);
                tc.setConstraintSchema(schemaName);
                tc.setConstraintName(constraintName);
                tc.setConstraintType(CHECK);
                if (generateCommentsOnKeys())
                    tc.setComment(ch.getComment());
                tc.setTableCatalog(table.getCatalog().getOutputName());
                tc.setTableSchema(table.getSchema().getOutputName());
                tc.setTableName(table.getOutputName());
                tc.setEnforced(ch.enforced());
                is.getTableConstraints().add(tc);
                CheckConstraint cc = new CheckConstraint();
                cc.setConstraintCatalog(catalogName);
                cc.setConstraintSchema(schemaName);
                cc.setConstraintName(constraintName);
                cc.setCheckClause(ch.getCheckClause());
                is.getCheckConstraints().add(cc);
            }
            for (SequenceDefinition se : db.getSequences(s)) {
                String sequenceName = se.getOutputName();
                DataTypeDefinition type = se.getType();
                Sequence sequence = new Sequence();
                sequence.setSequenceCatalog(catalogName);
                sequence.setSequenceSchema(schemaName);
                sequence.setSequenceName(sequenceName);
                if (generateCommentsOnSequences())
                    sequence.setComment(se.getComment());
                sequence.setCharacterMaximumLength(type.getLength());
                sequence.setDataType(type.getType());
                sequence.setNumericPrecision(type.getPrecision());
                sequence.setNumericScale(type.getScale());
                sequence.setStartValue(Convert.convert(se.getStartWith(), BigInteger.class));
                sequence.setIncrement(Convert.convert(se.getIncrementBy(), BigInteger.class));
                sequence.setMinimumValue(Convert.convert(se.getMinvalue(), BigInteger.class));
                sequence.setMaximumValue(Convert.convert(se.getMaxvalue(), BigInteger.class));
                sequence.setCycleOption(se.getCycle());
                sequence.setCache(Convert.convert(se.getCache(), BigInteger.class));
                is.getSequences().add(sequence);
            }
            for (PackageDefinition pkg : db.getPackages(s)) for (RoutineDefinition r : pkg.getRoutines()) exportRoutine(is, r, catalogName, schemaName);
            for (RoutineDefinition r : db.getRoutines(s)) exportRoutine(is, r, catalogName, schemaName);
        }
    }
    StringWriter writer = new StringWriter();
    MiniJAXB.marshal(is, writer);
    out.print(writer.toString());
    out.close();
}
Also used : RoutineDefinition(org.jooq.meta.RoutineDefinition) CheckConstraintDefinition(org.jooq.meta.CheckConstraintDefinition) SequenceDefinition(org.jooq.meta.SequenceDefinition) PackageDefinition(org.jooq.meta.PackageDefinition) InformationSchema(org.jooq.util.xml.jaxb.InformationSchema) Schema(org.jooq.util.xml.jaxb.Schema) InformationSchema(org.jooq.util.xml.jaxb.InformationSchema) Index(org.jooq.util.xml.jaxb.Index) DataTypeDefinition(org.jooq.meta.DataTypeDefinition) IndexColumnUsage(org.jooq.util.xml.jaxb.IndexColumnUsage) ForeignKeyDefinition(org.jooq.meta.ForeignKeyDefinition) KeyColumnUsage(org.jooq.util.xml.jaxb.KeyColumnUsage) IndexDefinition(org.jooq.meta.IndexDefinition) StringWriter(java.io.StringWriter) Column(org.jooq.util.xml.jaxb.Column) TableDefinition(org.jooq.meta.TableDefinition) CheckConstraint(org.jooq.util.xml.jaxb.CheckConstraint) SchemaDefinition(org.jooq.meta.SchemaDefinition) Table(org.jooq.util.xml.jaxb.Table) UniqueKeyDefinition(org.jooq.meta.UniqueKeyDefinition) ReferentialConstraint(org.jooq.util.xml.jaxb.ReferentialConstraint) Sequence(org.jooq.util.xml.jaxb.Sequence) View(org.jooq.util.xml.jaxb.View) Catalog(org.jooq.util.xml.jaxb.Catalog) CheckConstraint(org.jooq.util.xml.jaxb.CheckConstraint) ReferentialConstraint(org.jooq.util.xml.jaxb.ReferentialConstraint) TableConstraint(org.jooq.util.xml.jaxb.TableConstraint) ColumnDefinition(org.jooq.meta.ColumnDefinition) IndexColumnDefinition(org.jooq.meta.IndexColumnDefinition) CatalogDefinition(org.jooq.meta.CatalogDefinition) IndexColumnDefinition(org.jooq.meta.IndexColumnDefinition) BigInteger(java.math.BigInteger) TableConstraint(org.jooq.util.xml.jaxb.TableConstraint)

Aggregations

BigInteger (java.math.BigInteger)2 DatatypeConverter (jakarta.xml.bind.DatatypeConverter)1 File (java.io.File)1 IOException (java.io.IOException)1 RandomAccessFile (java.io.RandomAccessFile)1 StringWriter (java.io.StringWriter)1 Modifier (java.lang.reflect.Modifier)1 TypeVariable (java.lang.reflect.TypeVariable)1 Date (java.sql.Date)1 Time (java.sql.Time)1 Timestamp (java.sql.Timestamp)1 ArrayList (java.util.ArrayList)1 Arrays (java.util.Arrays)1 Arrays.asList (java.util.Arrays.asList)1 Calendar (java.util.Calendar)1 Collection (java.util.Collection)1 Collections (java.util.Collections)1 Collections.nCopies (java.util.Collections.nCopies)1 HashMap (java.util.HashMap)1 HashSet (java.util.HashSet)1