Introduction
It is usually not good to have copy/paste code in our Java application but sometimes it is unavoidable. For example the project License3j provides a method isXXX in the Feature class for each XXX type it supports. In that case, we can do no better than write
01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 | public boolean isBinary() { return type == Type.BINARY; } public boolean isString() { return type == Type.STRING; } public boolean isByte() { return type == Type.BYTE; } public boolean isShort() { return type == Type.SHORT; }and so on |
for each and every feature type the application supports. And there are some types there: Binary, String, Byte, Short, Int, Long, Float, Double, BigInteger, BigDecimal, Date, UUID. It is not only a boring task to type all the very similar methods, but it is also error-prone. A very few humans are good at doing such a repetitive task. To avoid that we can use the Java::Geci framework and as the simplest solution we can use the generator Iterate.
POM dependency
To use the generator we have to add the dependency
1 2 3 4 5 6 | <dependency> <groupId>com.javax0.geci</groupId> <artifactId>javageci-core</artifactId> <scope>test</scope> <version>1.4.0</version></dependency> |
The library is executed only during when the tests run, therefore the use of it does not imply any extra dependency. Whoever wants to use the library License3j does not need to use Java::Geci. This is only a development tool used in test scope.
Unit Test running it
The dependency will not run by itself. After all the dependency is not a program. It is a bunch of class files packaged into a JAR to be available on the classpath. We have to execute the generator and it has to be done through the framework creating a unit test:
01 02 03 04 05 06 07 08 09 10 11 12 | @Test @DisplayName("run Iterate on the sources") void runIterate() throws IOException { Geci geci = new Geci(); Assertions.assertFalse( geci.register(Iterate.builder() .define(ctx -> ctx.segment().param("TYPE", ctx.segment().getParam("Type").orElse("").toUpperCase())) .build()) .generate() , geci.failed() ); } |
It creates a Geci object, instantiates the generator using a builder and then invokes generate() on the configured framework Geci object. The define() call seems a bit cryptic as for now. We will shed light on that later.
Source Code Preparation
The final step before executing the build is to define a template and the values to insert into the template. Instead of writing all the methods all we have to do is to write a template and an editor fold segment:
1 2 3 4 5 6 7 8 9 | /* TEMPLATE LOOP Type=Binary|String|Byte|Short|Int|Long|Float|Double|BigInteger|BigDecimal|Date|UUID public boolean is{{Type}}() { return type == Type.{{TYPE}}; } */ //<editor-fold id="iterate"> //</editor-fold> |
When we execute the generator through the framework it will evaluate the template for each value of the placeholder Type and it will replace each {{Type}} with the actual value. The resulting code will be inserted into the editor-fold segment with the id “iterate”.
Looking at the template you can see that there is a placeholder {{TYPE}}, which is not defined in the list. This is where the unite test define() comes into the picture. It defines a consumer that consumes a context and using that context it reads the actual value of Type, creates the uppercased version of the value and assigns it to the segment parameter named TYPE.
Generally, that is it. There are other functionalities using the generator, like defining multiple values per iteration assigned to different placeholders, escaping or skipping lines and so on. About those here is an excerpt from the documentation that you can read up-to-date and full az https://github.com/verhas/javageci/blob/master/ITERATE.adoc
Documentation Excerpt
In the Java source files where you want to use the generator you have to annotate the class with the annotation @Geci("iterate").
You can also use the @Iterate annotation instead, which is defined in thejavageci-core-annotations module. This will instruct the Geci framework that you want to use the iterate generator in the given class.
TEMPLATE
A template starts after a line that is /\*TEMPLATE or TEMPLATE.
There can be spaces before and after and between the /* and the wordTEMPLATE but there should not be anything else on the line.
When the generator sees such a line it starts to collect the following lines as the content of the template.
The end of the template is signaled by a line that has */ on it and nothing else (except spaces).
The content of the template can contain parameters between {{ and }}
characters similarly as it is used by the mustache template program.
(The generator is not using mustache, template handling is simpler.)
LOOP
While collecting the lines of the template some of the lines are recognized as parameter definitions for the template. These lines do not get into the trunk of the template. (Command names on these lines are always capital.)
As you could see in the introduction the line
1 | LOOP type=int|long|short |
is not part of the template text. It instructs the generator to iterate through the types and set the parameter {{type}} in the text to int first, long the second and short the last. That way you can iterate over multiple values of a single parameter.
A more complex template may need more than one parameter. In that case, you can list them in the LOOP line as
1 | LOOP type,var=int,aInt|long,aLong|short,aShort |
This will tell the generator to set the parameter {{type}} the same way as before for the three iterations but the same time also set the parameter {{var}} to aInt in the first loop, to aLong in the second loop and aShort in the last loop.
If the list of the values is too long it is possible split the list into multiple LOOP lines. In this case, however, the variables have to be repeated in the second, third and so on LOOP lines.
Their order may be different, but if there is a variable undefined in some of the LOOP lines then the placeholder referring to it will be be resolved and remains in the {{placeholder}} form.
The above example can also be written
1 2 3 | LOOP type,var=int,aInt LOOP var,type=aLong,long LOOP type,var=short,aShort |
and it will result into the same values as the above LOOP repeated here:
1 | LOOP type,var=int,aInt|long,aLong|short,aShort |
Default editor-fold
The templates are processed from the start of the file towards the end and the code generated is also prepared in this order.
The content of the generated code will be inserted into the editor-fold segment that follows the template directly. Although this way the id of theeditor-fold segment is not really interesting you must specify a unique id for each segment. This is a restriction of the the Java::Geci framework.
Advanced Use
EDITOR-FOLD-ID
It may happen that you have multiple templates looping over different values and you want the result to go into the same editor-fold
segment. It is possible using the EDITOR_FOLD_ID.
In the following example
01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 | package javax0.geci.iterate.sutclasses;public class IterateOverMultipleValues { /* TEMPLATE {{type}} get_{{type}}Value(){ {{type}} {{variable}} = 0; return {{variable}}; } LOOP type,variable=int,i|long,l|short,s EDITOR-FOLD-ID getters */ // // nothing gets here // // int get_intValue(){ int i = 0; return i; } long get_longValue(){ long l = 0; return l; } short get_shortValue(){ short s = 0; return s; } //} |
the generated code gets into the editor-fold that has the id namegetters even though this is not the one that follows the template definition.
Use this feature to send the generated code into a single segment from multiple iterating templates. Usually, it is a good practice to keep the template and the segment together.
ESCAPE and SKIP
The end of the template is signaled by a line that is */. This is essentially the end of a comment. What happens if you want to include a comment, like a JavaDoc into the template. You can write the */ characters at the end of the comment lines that still have some characters in it. This solution is not elegant and it essentially is a workaround.
To have a line that is exactly a comment closing or just any line that would be interpreted by the template processing, like a LOOP line you should have a line containing nothing else but an ESCAPE on the previous line. This will tell the template processing to include the next line into the template text and continue the normal processing on the line after.
Similarly, you can have a line SKIP to ignore the following line altogether.
Using these two commands you can include anything into a template.
An example shows how you can include a JavaDoc comment into the template:
01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 | package javax0.geci.iterate.sutclasses;public class SkippedLines { /* TEMPLATE /** * A simple zero getter serving as a test example * @return zero in the type {{type}} ESCAPE */ // SKIP /* {{type}} get_{{type}}Value(){ {{type}} {{variable}} = 0; return {{variable}}; } LOOP type,variable=int,i|long,l|short,s EDITOR-FOLD-ID getters */ // /** * A simple zero getter serving as a test example * @return zero in the type int */ int get_intValue(){ int i = 0; return i; } /** * A simple zero getter serving as a test example * @return zero in the type long */ long get_longValue(){ long l = 0; return l; } /** * A simple zero getter serving as a test example * @return zero in the type short */ short get_shortValue(){ short s = 0; return s; } //} |
The template starts with the comment and a comment can actually contain any other comment starting. Java comments are not nested. The end of the template is, however the line that contains the */ string. We want this line to be part of the template thus we precede it with the lineESCAPE so it will not be interpreted as the end of the template. On the other hand, for Java, this ends the comment. To continue the template we have to get “back” into comment mode since we do not want the Java compiler to process the template as code. (Last but not least because the template using placeholders is probably not a syntactically correct Java code fragment.) We need a new /* line, which we do not want to get into the template.
This line is, therefore, preceded with a line containing // SKIP. (Skip lines can have optional // before the command.)
The result you can see in the generated code. All methods have the proper JavaDoc documentation.
SEP1 and SEP2
Looping over the values you have to separate the names of the placeholders with , and | the list of the values. For example, the sample above contains
1 | LOOP type,variable=int,i|long,l|short,s |
two placeholder names type and variable and three values for each.
Placeholders do not need to contain special characters and it is the best if they are standard identifiers. The values, however, may contain a comma or a vertical bar. In that case, you can redefine the string (not only a single character) that the template LOOP command can use instead of the single character strings , and |.
For example the line
1 | SEP1 / |
says that the names and the values should be separated by / instead of only one and
1 | SEP2 & |
the list of the values should be separated by one character &
string. The SEP1 and SEP2 will have effect only if they precede theLOOP command and they are effective only for the template they are used in. Following the above commands, the LOOP example would look like
1 | LOOP type/variable=int/i&long/l&short/s |
That way there is nothing to prevent us to add another value list
1 | LOOP type/variable=int/i&long/l&short/s&byte,int/z |
which eventually will result in a syntax error with the example template, but demonstrates the point redefining the name and the value list separators.
Configuration
The generator is implemented the configuration tools supported by the Geci framework and all the parameters are configurable. You can redefine the regular expressions that match the template start, end, skip and so on lines in the unit test where the generator object is created, in the annotation of the class or in the editor-fold parameters.
Takeaway
The iterate generator is an extremely easy to use generator to create code that is repetitive. This is also the major danger: you should be strong enough to find a better solution and use it only when it is the best solution.
Published on Java Code Geeks with permission by Peter Verhas, partner at our JCG program. See the original article here: Repeated code Opinions expressed by Java Code Geeks contributors are their own. |
