Spring Framework
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buildscript {
repositories {
maven { url 'http://repo.springsource.org/plugins-release' }
}
dependencies {
classpath 'org.springframework.build.gradle:docbook-reference-plugin:0.1.5'
}
}
configure(allprojects) {
apply plugin: 'java'
apply plugin: 'eclipse'
apply plugin: 'idea'
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
group = 'org.springframework'
sourceCompatibility=1.5
targetCompatibility=1.5
ext.aspectjVersion = '1.6.12'
[compileJava, compileTestJava]*.options*.compilerArgs = ['-Xlint:none']
sourceSets.test.resources.srcDirs = ['src/test/resources', 'src/test/java']
test.systemProperty("java.awt.headless", "true")
repositories {
maven { url "http://repo.springsource.org/libs-release" }
maven { url "http://repo.springsource.org/ebr-maven-external" }
}
dependencies {
testCompile "junit:junit:4.10"
testCompile "org.easymock:easymock:2.5.1"
testCompile "org.hamcrest:hamcrest-all:1.1"
}
// servlet-api (2.5) and tomcat-servlet-api (3.0) classpath entries should not be
// exported to dependent projects in Eclipse to avoid false compilation errors due
// to changing APIs across these versions
eclipse.classpath.file.whenMerged { classpath ->
classpath.entries.findAll { entry -> entry.path.contains('servlet-api') }*.exported = false
}
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
configure(subprojects) { subproject ->
apply from: "${rootProject.projectDir}/publish-maven.gradle"
jar {
manifest.attributes['Implementation-Title'] = subproject.name
manifest.attributes['Implementation-Version'] = subproject.version
from("${rootProject.projectDir}/src/dist") {
include "license.txt"
include "notice.txt"
into "META-INF"
expand(copyright: new Date().format('yyyy'), version: project.version)
}
}
javadoc {
options.memberLevel = org.gradle.external.javadoc.JavadocMemberLevel.PROTECTED
options.author = true
options.header = project.name
//options.overview = "${projectDir}/src/main/java/overview.html"
}
task sourcesJar(type: Jar, dependsOn:classes) {
classifier = 'sources'
from sourceSets.main.allJava
}
task javadocJar(type: Jar) {
classifier = 'javadoc'
from javadoc
}
artifacts {
archives sourcesJar
archives javadocJar
}
}
project("spring-asm") {
description = 'Spring ASM'
ext.asmVersion = '2.2.3'
configurations {
asm
jarjar
}
dependencies {
asm "asm:asm:${asmVersion}@jar", "asm:asm-commons:${asmVersion}@jar"
jarjar 'com.googlecode.jarjar:jarjar:1.1'
}
task repackageAsm(type: Jar) { jar ->
jar.baseName = "asm-repack"
jar.version = asmVersion
doLast() {
project.ant {
taskdef name: "jarjar", classname: "com.tonicsystems.jarjar.JarJarTask",
classpath: configurations.jarjar.asPath
jarjar(destfile: archivePath, index: "true", filesetmanifest: "merge") {
configurations.asm.each { jarfile ->
zipfileset(src: jarfile)
}
rule(pattern: 'org.objectweb.asm.**', result: 'org.springframework.asm.@1')
}
}
}
}
jar {
dependsOn repackageAsm
from(zipTree(repackageAsm.archivePath)) {
exclude 'META-INF/INDEX.LIST'
}
}
}
project('spring-core') {
description = 'Spring Core'
dependencies {
// depend on spring-asm project in order to have it show up as a
// <dependency> in the generated pom
compile project(":spring-asm")
// depend directly on the spring-asm jar to avoid errors in Eclipse/STS
compile files(project(":spring-asm").jar.archivePath) {
builtBy project(":spring-asm").jar
}
compile "commons-logging:commons-logging:1.1.1"
compile("org.aspectj:aspectjweaver:${aspectjVersion}", optional)
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("net.sf.jopt-simple:jopt-simple:3.0") { dep ->
optional dep
exclude group: 'org.apache.ant', module: 'ant'
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("log4j:log4j:1.2.15") { dep ->
optional dep
exclude group: 'javax.mail', module: 'mail'
exclude group: 'javax.jms', module: 'jms'
exclude group: 'com.sun.jdmk', module: 'jmxtools'
exclude group: 'com.sun.jmx', module: 'jmxri'
}
testCompile "xmlunit:xmlunit:1.2"
testCompile "org.codehaus.woodstox:wstx-asl:3.2.7"
}
}
project('spring-beans') {
description = 'Spring Beans'
dependencies {
compile project(":spring-core")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("javax.el:el-api:1.0", provided)
compile("javax.inject:javax.inject:1", provided)
compile("cglib:cglib-nodep:2.2", optional)
}
}
project('spring-aop') {
description = 'Spring AOP'
dependencies {
compile project(":spring-beans")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("com.jamonapi:jamon:2.4", optional)
compile("aopalliance:aopalliance:1.0", optional)
compile("commons-pool:commons-pool:1.5.3", optional)
}
}
project('spring-expression') {
description = 'Spring Expression Language (SpEL)'
dependencies {
compile project(":spring-core")
}
}
project('spring-instrument') {
description = 'Spring Instrument'
dependencies {
compile project(":spring-core")
}
}
project('spring-instrument-tomcat') {
description = 'Spring Instrument Tomcat'
dependencies {
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.apache.tomcat:catalina:6.0.16", provided)
}
}
project('spring-context') {
description = 'Spring Context'
dependencies {
compile project(":spring-aop")
compile project(":spring-expression")
compile project(":spring-instrument")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("backport-util-concurrent:backport-util-concurrent:3.0", optional)
compile("javax.annotation:jsr250-api:1.0", optional)
compile("javax.ejb:ejb-api:3.0", optional)
compile("javax.inject:javax.inject:1", optional)
compile("org.apache.geronimo.specs:geronimo-jms_1.1_spec:1.1", optional)
compile("org.apache.geronimo.specs:geronimo-jta_1.1_spec:1.1", optional)
compile("javax.persistence:persistence-api:1.0", optional)
compile("javax.validation:validation-api:1.0.0.GA", optional)
compile("javax.xml.ws:jaxws-api:2.1-1") { dep ->
optional dep
exclude group: 'javax.jws', module: 'jsr181'
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.beanshell:bsh:2.0b4", optional)
compile("org.codehaus.groovy:groovy-all:1.6.3", optional)
compile("org.jruby:jruby:1.4.0", optional)
compile("org.hibernate:hibernate-validator:4.2.0.Final") { dep ->
optional dep
exclude group: 'org.slf4j', module: 'slf4j-api'
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("joda-time:joda-time:1.6", optional)
compile("net.sf.ehcache:ehcache-core:2.0.0", optional)
compile("org.slf4j:slf4j-api:1.6.1", optional)
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.codehaus.jsr166-mirror:jsr166:1.7.0", provided)
testCompile "commons-dbcp:commons-dbcp:1.2.2"
testCompile("javax.xml:jaxrpc-api:1.1")
testCompile("javax.inject:com.springsource.org.atinject.tck:1.0.0")
}
test {
jvmArgs = ['-disableassertions:org.aspectj.weaver.UnresolvedType'] // SPR-7989
}
}
project('spring-tx') {
description = 'Spring Transaction'
dependencies {
compile project(":spring-context")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("com.ibm.websphere:uow:6.0.2.17", provided)
compile("javax.resource:connector-api:1.5", optional)
compile "aopalliance:aopalliance:1.0" // NOT optional, as opposed to in :spring-aop
testCompile "org.easymock:easymockclassextension:2.3"
}
}
project('spring-oxm') {
description = 'Spring Object/XML Marshalling'
apply from: 'oxm.gradle'
dependencies {
compile project(":spring-context")
compile "commons-lang:commons-lang:2.5"
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("com.thoughtworks.xstream:xstream:1.3.1", optional)
compile("com.sun.xml.bind:jaxb-impl:2.1.7", optional)
compile("org.jibx:jibx-run:1.1.5", optional)
compile("org.apache.xmlbeans:xmlbeans:2.4.0", optional)
compile("org.codehaus.castor:castor-xml:1.3.2", optional)
testCompile "org.codehaus.jettison:jettison:1.0.1"
testCompile "xmlunit:xmlunit:1.2"
testCompile "xmlpull:xmlpull:1.1.3.4a"
testCompile(files(genCastor.classesDir).builtBy(genCastor))
testCompile(files(genJaxb.classesDir).builtBy(genJaxb))
testCompile(files(genXmlbeans.classesDir).builtBy(genXmlbeans))
}
}
project('spring-jms') {
description = 'Spring JMS'
dependencies {
compile project(":spring-oxm")
compile project(":spring-tx")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.codehaus.jackson:jackson-mapper-asl:1.4.2", optional)
}
}
project('spring-jdbc') {
description = 'Spring JDBC'
dependencies {
compile project(":spring-tx")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("c3p0:c3p0:0.9.1.2", optional)
compile("hsqldb:hsqldb:1.8.0.7", optional)
compile("com.h2database:h2:1.0.71", optional)
compile("org.apache.derby:derby:10.5.3.0_1", optional)
compile("org.apache.derby:derbyclient:10.5.3.0_1", optional)
}
}
project('spring-context-support') {
description = 'Spring Context Support'
dependencies {
compile project(":spring-jdbc")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.codehaus.fabric3.api:commonj:1.1.0", optional)
compile("opensymphony:quartz:1.6.2", optional)
compile("javax.mail:mail:1.4", optional)
compile("velocity:velocity:1.5", optional)
compile("commons-collections:commons-collections:3.2", optional)
compile("org.freemarker:freemarker:2.3.15", optional)
compile("jasperreports:jasperreports:2.0.5") { dep ->
optional dep
transitive = false
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("commons-digester:commons-digester:1.8.1", optional)
compile("commons-beanutils:commons-beanutils:1.8.0", optional)
compile("com.lowagie:itext:2.0.8", optional)
testCompile "hsqldb:hsqldb:1.8.0.10"
testCompile("org.apache.poi:poi:3.0.2-FINAL") {
exclude group: 'log4j', module: 'log4j'
}
}
// pick up **/*.types files in src/main
sourceSets.main.resources.srcDirs += 'src/main/java'
}
project('spring-web') {
description = 'Spring Web'
dependencies {
compile project(":spring-oxm")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("com.caucho:hessian:3.2.1", optional)
compile("rome:rome:1.0", optional)
compile("javax.el:el-api:1.0", optional)
compile("javax.faces:jsf-api:1.2_08", optional)
compile("javax.portlet:portlet-api:2.0", provided)
compile("org.apache.tomcat:tomcat-servlet-api:7.0.8", provided) // servlet-api 3.0
compile("javax.servlet.jsp:jsp-api:2.1", provided)
compile("javax.xml.soap:saaj-api:1.3", provided)
compile("axis:axis:1.4", optional)
compile("commons-fileupload:commons-fileupload:1.2", optional)
runtime("commons-io:commons-io:1.3", optional)
compile("commons-httpclient:commons-httpclient:3.1", optional)
compile("org.apache.httpcomponents:httpclient:4.1.1", optional)
compile("org.codehaus.jackson:jackson-mapper-asl:1.4.2", optional)
compile("com.fasterxml.jackson.core:jackson-databind:2.0.1", optional)
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("taglibs:standard:1.1.2", optional)
compile("org.mortbay.jetty:jetty:6.1.9") { dep ->
optional dep
exclude group: 'org.mortbay.jetty', module: 'servlet-api-2.5'
}
testCompile "xmlunit:xmlunit:1.2"
}
// pick up ContextLoader.properties in src/main
sourceSets.main.resources.srcDirs += 'src/main/java'
}
project('spring-orm') {
description = 'Spring Object/Relational Mapping'
dependencies {
// compiling against both hibernate 3 and 4 here in order to support
// our respective orm.hibernate3 and orm.hibernate4 packages
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.hibernate:com.springsource.org.hibernate:3.3.1.GA", optional)
compile("org.hibernate:hibernate-core:4.1.0.Final", optional)
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.hibernate:hibernate-cglib-repack:2.1_3", optional)
compile("org.hibernate:hibernate-annotations:3.4.0.GA", optional)
compile("org.hibernate:hibernate-entitymanager:4.1.0.Final", optional)
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.apache.openjpa:openjpa:1.1.0", optional)
compile("org.eclipse.persistence:org.eclipse.persistence.core:1.0.1", optional)
compile("org.eclipse.persistence:org.eclipse.persistence.jpa:1.0.1", optional)
compile("toplink.essentials:toplink-essentials:2.0-41b", optional)
compile("javax.jdo:jdo-api:3.0", optional)
compile("org.apache.ibatis:ibatis-sqlmap:2.3.4.726", optional)
testCompile "javax.servlet:servlet-api:2.5"
testCompile "org.slf4j:slf4j-jcl:1.5.3"
testCompile "commons-dbcp:commons-dbcp:1.2.2"
testCompile "org.eclipse.persistence:org.eclipse.persistence.asm:1.0.1"
testCompile "org.eclipse.persistence:org.eclipse.persistence.antlr:1.0.1"
compile(project(":spring-web")) {
exclude group: 'javax.persistence', module: 'persistence-api'
}
compile project(":spring-jdbc")
}
}
project('spring-webmvc') {
description = 'Spring Web MVC'
dependencies {
compile project(":spring-web")
compile project(":spring-orm")
compile project(":spring-context-support")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.apache.tiles:tiles-api:2.1.2", optional)
compile("org.apache.tiles:tiles-core:2.1.2", optional)
compile("org.apache.tiles:tiles-jsp:2.1.2", optional)
compile("org.apache.tiles:tiles-servlet:2.1.2", optional)
compile("velocity-tools:velocity-tools-view:1.4", optional)
compile("net.sourceforge.jexcelapi:jxl:2.6.3") { dep ->
optional dep
exclude group: 'log4j', module: 'log4j'
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("org.apache.poi:poi:3.0.2-FINAL") { dep ->
optional dep
exclude group: 'log4j', module: 'log4j'
}
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("javax.servlet:jstl:1.1.2", provided)
compile("org.apache.tomcat:tomcat-servlet-api:7.0.8", provided) // servlet-api 3.0
testCompile("org.slf4j:slf4j-log4j12:1.6.1") {
exclude group: 'log4j', module: 'log4j'
}
testCompile "rhino:js:1.7R1"
testCompile "xmlunit:xmlunit:1.2"
testCompile("dom4j:dom4j:1.6.1") {
exclude group: 'xml-apis', module: 'xml-apis'
}
testCompile("jaxen:jaxen:1.1.1") {
exclude group: 'xml-apis', module: 'xml-apis'
exclude group: 'xom', module: 'xom'
exclude group: 'xerces', module: 'xercesImpl'
}
}
// pick up DispatcherServlet.properties in src/main
sourceSets.main.resources.srcDirs += 'src/main/java'
}
project('spring-webmvc-portlet') {
description = 'Spring Web Portlet'
dependencies {
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("javax.servlet:servlet-api:2.5", provided)
compile project(":spring-webmvc")
}
// pick up DispatcherPortlet.properties in src/main
sourceSets.main.resources.srcDirs += 'src/main/java'
}
project('spring-test') {
description = 'Spring TestContext Framework'
dependencies {
compile project(":spring-webmvc-portlet")
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("javax.activation:activation:1.0", provided)
compile("org.testng:testng:5.10:jdk15", optional)
compile("junit:junit:4.10", optional)
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("javax.servlet:servlet-api:2.5", provided)
testCompile "org.slf4j:slf4j-jcl:1.5.3"
}
}
project('spring-struts') {
description = 'Spring Struts'
dependencies {
compile project(":spring-webmvc")
compile "struts:struts:1.2.9"
compile "commons-beanutils:commons-beanutils:1.7.0"
Generate Maven Central-compatible poms Understanding Gradle pom generation ------------------------------------------- All spring-* subprojects have had Gradle's 'maven' plugin applied to them. This means that one can run `gradle install`, and POMs will be generated according to the metadata in the build.gradle file. The 'customizePom' routine added by this commit hooks into this generation process in order to add elements to the pom required for entry into Maven Central via oss.sonatype.org[1]. This pom generation happens on-the-fly during `gradle install` and the generated poms exist only in your local .m2 cache. Therefore, you will not see the poms on the source tree after this command. Handling optional and provided dependencies ------------------------------------------- Note particularly the handling of 'optional' and 'provided' dependencies. Gradle does not have a first class notion for these concepts, nor are they significant to the actual Gradle build process, but they are important when publishing POMs for consumption via Maven Central and other Maven-compatible repositories. <optional>true</optional> indicates that a dependency need not be downloaded when resolving artifacts. e.g. spring-context has an compile-time dependency on cglib, but when a Spring user resolves spring-context from Maven Central, cglib should *not* automatically be downloaded at the same time. This is because the core functionality within spring-context can operate just fine without cglib on the classpath; it is only if the user chooses explicitly to use certain functionality, e.g. @Configuration classes, which do require cglib, that the user must declare an explicit dependency in their own build script on cglib. Marking these kinds of dependencies as 'optional' provides a kind of built in 'documentation' about which version of cglib the user should declare if in fact he wishes to. Spring has a great many compile-time dependencies, but in fact very few mandatory runtime dependencies. Therefore, *most* of Spring's dependencies are optional. <scope>provided</scope> is similar to 'optional', in that dependencies so marked should not be automatically downloaded during dependency resolution, but indicates rather that they are expected to have been provided by the user application runtime environment. For example, the Servlet API is in fact a required runtime dependency for spring-webmvc, but it is expected that it will be available via the user's servlet container classpath. Again, it serves here as a kind of 'documentation' that spring-webmvc does in fact expect the servlet api to be available, and furthermore which (minimum) version. This commit adds two closures named 'optional' and 'provided' as well as two arrays (optionalDeps, providedDeps) for tracking which dependencies are optional or provided. An optional dependency is declared as follows: compile("group:artifact:version", optional) Here, the optional closure accepts the dependency argument implicitly, and appends it to the 'optionalDeps' array. Then, during pom generation (again, the customizePom routine), these arrays are interrogated, and pom <dependency> elements are updated with <optional>true</optional> or <scope>provided</scope> as appropriate. Thanks to the Spock framework for inspiration on this approach[2]. [1] http://bit.ly/wauOqP (Sonatype's central sync requirements) [2] https://github.com/spockframework/spock/blob/groovy-1.7/gradle/publishMaven.gradle#L63
13 years ago
compile("javax.servlet:servlet-api:2.5", provided)
testCompile project(":spring-test")
}
}
project('spring-aspects') {
description = 'Spring Aspects'
apply from: 'aspects.gradle'
dependencies {
compile project(":spring-orm")
aspects project(":spring-orm")
ajc "org.aspectj:aspectjtools:${aspectjVersion}"
compile "org.aspectj:aspectjrt:${aspectjVersion}"
testCompile project(":spring-test")
}
eclipse.project {
natures += 'org.eclipse.ajdt.ui.ajnature'
buildCommands = [new org.gradle.plugins.ide.eclipse.model.
BuildCommand('org.eclipse.ajdt.core.ajbuilder')]
}
}
configure(rootProject) {
description = 'Spring Framework'
apply plugin: 'docbook-reference'
reference {
sourceDir = file('src/reference/docbook')
}
// don't publish the default jar for the root project
configurations.archives.artifacts.clear()
dependencies { // for integration tests
testCompile project(":spring-test")
testCompile project(":spring-webmvc-portlet")
testCompile "org.hibernate:hibernate-core:4.1.0.Final"
testCompile "javax.servlet:servlet-api:2.5"
}
task api(type: Javadoc) {
group = 'Documentation'
description = 'Generates aggregated Javadoc API documentation.'
title = "${rootProject.description} ${version} API"
options.memberLevel = org.gradle.external.javadoc.JavadocMemberLevel.PROTECTED
options.author = true
options.header = rootProject.description
options.overview = 'src/api/overview.html'
options.links(
'http://docs.jboss.org/jbossas/javadoc/4.0.5/connector'
)
source subprojects.collect { project ->
project.sourceSets.main.allJava
}
destinationDir = new File(buildDir, "api")
classpath = files(subprojects.collect { project ->
project.sourceSets.main.compileClasspath
})
maxMemory = '1024m'
}
task docsZip(type: Zip) {
group = 'Distribution'
classifier = 'docs'
description = "Builds -${classifier} archive containing api and reference " +
"for deployment at static.springframework.org/spring-framework/docs."
from('src/dist') {
include 'changelog.txt'
}
from (api) {
into 'api'
}
from (reference) {
into 'reference'
}
}
task schemaZip(type: Zip) {
group = 'Distribution'
classifier = 'schema'
description = "Builds -${classifier} archive containing all " +
"XSDs for deployment at static.springframework.org/schema."
subprojects.each { subproject ->
def Properties schemas = new Properties();
subproject.sourceSets.main.resources.find {
it.path.endsWith('META-INF/spring.schemas')
}?.withInputStream { schemas.load(it) }
for (def key : schemas.keySet()) {
def shortName = key.replaceAll(/http.*schema.(.*).spring-.*/, '$1')
assert shortName != key
File xsdFile = subproject.sourceSets.main.resources.find {
it.path.endsWith(schemas.get(key))
}
assert xsdFile != null
into (shortName) {
from xsdFile.path
}
}
}
}
task distZip(type: Zip, dependsOn: [docsZip, schemaZip]) {
group = 'Distribution'
classifier = 'dist'
description = "Builds -${classifier} archive, containing all jars and docs, " +
"suitable for community download page."
def baseDir = "${project.name}-${project.version}";
from('src/dist') {
include 'readme.txt'
include 'license.txt'
include 'notice.txt'
into "${baseDir}"
expand(copyright: new Date().format('yyyy'), version: project.version)
}
from(zipTree(docsZip.archivePath)) {
into "${baseDir}/docs"
}
from(zipTree(schemaZip.archivePath)) {
into "${baseDir}/schema"
}
subprojects.each { subproject ->
into ("${baseDir}/libs") {
from subproject.jar
if (subproject.tasks.findByPath('sourcesJar')) {
from subproject.sourcesJar
}
if (subproject.tasks.findByPath('javadocJar')) {
from subproject.javadocJar
}
}
}
}
artifacts {
archives docsZip
archives schemaZip
archives distZip
}
task wrapper(type: Wrapper) {
description = 'Generates gradlew[.bat] scripts'
gradleVersion = '1.0-rc-1'
}
}