com.sun.codemodel.JExpr Maven / Gradle / Ivy
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package com.sun.codemodel;
/**
* Factory methods that generate various {@link JExpression}s.
*/
public abstract class JExpr {
/**
* This class is not instanciable.
*/
private JExpr() { }
public static JExpression assign(JAssignmentTarget lhs, JExpression rhs) {
return new JAssignment(lhs, rhs);
}
public static JExpression assignPlus(JAssignmentTarget lhs, JExpression rhs) {
return new JAssignment(lhs, rhs, "+");
}
public static JInvocation _new(JClass c) {
return new JInvocation(c);
}
public static JInvocation _new(JType t) {
return new JInvocation(t);
}
public static JInvocation invoke(String method) {
return new JInvocation((JExpression)null, method);
}
public static JInvocation invoke(JMethod method) {
return new JInvocation((JExpression)null,method);
}
public static JInvocation invoke(JExpression lhs, JMethod method) {
return new JInvocation(lhs, method);
}
public static JInvocation invoke(JExpression lhs, String method) {
return new JInvocation(lhs, method);
}
public static JFieldRef ref(String field) {
return new JFieldRef((JExpression)null, field);
}
public static JFieldRef ref(JExpression lhs, JVar field) {
return new JFieldRef(lhs,field);
}
public static JFieldRef ref(JExpression lhs, String field) {
return new JFieldRef(lhs, field);
}
public static JFieldRef refthis(String field) {
return new JFieldRef(null, field, true);
}
public static JExpression dotclass(final JClass cl) {
return new JExpressionImpl() {
public void generate(JFormatter f) {
JClass c;
if(cl instanceof JNarrowedClass)
c = ((JNarrowedClass)cl).basis;
else
c = cl;
f.g(c).p(".class");
}
};
}
public static JArrayCompRef component(JExpression lhs, JExpression index) {
return new JArrayCompRef(lhs, index);
}
public static JCast cast(JType type, JExpression expr) {
return new JCast(type, expr);
}
public static JArray newArray(JType type) {
return newArray(type,null);
}
/**
* Generates {@code new T[size]}.
*
* @param type
* The type of the array component. 'T' or {@code new T[size]}.
*/
public static JArray newArray(JType type, JExpression size) {
// you cannot create an array whose component type is a generic
return new JArray(type.erasure(), size);
}
/**
* Generates {@code new T[size]}.
*
* @param type
* The type of the array component. 'T' or {@code new T[size]}.
*/
public static JArray newArray(JType type, int size) {
return newArray(type,lit(size));
}
private static final JExpression __this = new JAtom("this");
/**
* Returns a reference to "this", an implicit reference
* to the current object.
*/
public static JExpression _this() { return __this; }
private static final JExpression __super = new JAtom("super");
/**
* Returns a reference to "super", an implicit reference
* to the super class.
*/
public static JExpression _super() { return __super; }
/* -- Literals -- */
private static final JExpression __null = new JAtom("null");
public static JExpression _null() {
return __null;
}
/**
* Boolean constant that represents true
*/
public static final JExpression TRUE = new JAtom("true");
/**
* Boolean constant that represents false
*/
public static final JExpression FALSE = new JAtom("false");
public static JExpression lit(boolean b) {
return b?TRUE:FALSE;
}
public static JExpression lit(int n) {
return new JAtom(Integer.toString(n));
}
public static JExpression lit(long n) {
return new JAtom(Long.toString(n) + "L");
}
public static JExpression lit(float f) {
if (f == Float.NEGATIVE_INFINITY)
{
return new JAtom("java.lang.Float.NEGATIVE_INFINITY");
}
else if (f == Float.POSITIVE_INFINITY)
{
return new JAtom("java.lang.Float.POSITIVE_INFINITY");
}
else if (Float.isNaN(f))
{
return new JAtom("java.lang.Float.NaN");
}
else
{
return new JAtom(Float.toString(f) + "F");
}
}
public static JExpression lit(double d) {
if (d == Double.NEGATIVE_INFINITY)
{
return new JAtom("java.lang.Double.NEGATIVE_INFINITY");
}
else if (d == Double.POSITIVE_INFINITY)
{
return new JAtom("java.lang.Double.POSITIVE_INFINITY");
}
else if (Double.isNaN(d))
{
return new JAtom("java.lang.Double.NaN");
}
else
{
return new JAtom(Double.toString(d) + "D");
}
}
static final String charEscape = "\b\t\n\f\r\"\'\\";
static final String charMacro = "btnfr\"'\\";
/**
* Escapes the given string, then surrounds it by the specified
* quotation mark.
*/
public static String quotify(char quote, String s) {
int n = s.length();
StringBuilder sb = new StringBuilder(n + 2);
sb.append(quote);
for (int i = 0; i < n; i++) {
char c = s.charAt(i);
int j = charEscape.indexOf(c);
if(j>=0) {
if((quote=='"' && c=='\'') || (quote=='\'' && c=='"')) {
sb.append(c);
} else {
sb.append('\\');
sb.append(charMacro.charAt(j));
}
} else {
// technically Unicode escape shouldn't be done here,
// for it's a lexical level handling.
//
// However, various tools are so broken around this area,
// so just to be on the safe side, it's better to do
// the escaping here (regardless of the actual file encoding)
//
// see bug
if( c<0x20 || 0x7E
* This method can be used as a short-cut to create a JExpression.
* For example, instead of _a.gt(_b)
, you can write
* it as: JExpr.direct("a>b")
.
*
*
* Be warned that there is a danger in using this method,
* as it obfuscates the object model.
*/
public static JExpression direct( final String source ) {
return new JExpressionImpl(){
public void generate( JFormatter f ) {
f.p('(').p(source).p(')');
}
};
}
}