/** Returns a string representation of this entry. */ @Override public String toString() { return Classes.getShortClassName(this) + "[key=" + key + ", value=" + value + ']'; } }
/** * Returns a string representation of this grid geometry. The returned string is implementation * dependent. It is usually provided for debugging purposes. */ @Override public String toString() { return Classes.getShortClassName(this) + '[' + gridRange + ", " + gridToCRS + ']'; }
/** * Returns the name for the {@linkplain #getTransformation transformation} to be created by this * builder. */ public String getName() { return Classes.getShortClassName(this) + " fit"; }
/** * Returns a string representation of this grid geometry. The returned string is implementation * dependent. It is usually provided for debugging purposes. */ @Override public String toString() { return Classes.getShortClassName(this) + '[' + gridRange + ", " + gridToCRS + ']'; }
/** Returns a string representation of this style. */ public String toString() { return Classes.getShortClassName(this) + '[' + fill + ']'; } }
/** Returns a string representation of this style. */ public String toString() { return Classes.getShortClassName(this) + "[\"" + label + "\"]"; }
/** Returns a string representation of this style. */ public String toString() { return Classes.getShortClassName(this) + '[' + shape + ']'; }
/** Returns a string representation for debugging purpose. */ @Override public String toString() { final StringBuilder buffer = new StringBuilder(Classes.getShortClassName(this)) .append('[') .append(Classes.getShortClassName(format)); if (logger != null) { buffer.append(", logger=").append(logger); } return buffer.append(']').toString(); } }
/** Returns a string representation of this range specifier. */ @Override public String toString() { final StringBuilder buffer = new StringBuilder(Classes.getShortClassName(this)); buffer.append('['); if (range != null) { buffer.append(range); } else if (transform != null) { buffer.append(transform); } return buffer.append(']').toString(); } }
/** Returns a string representation of this polynom. */ @Override public String toString() { final StringBuilder buffer = new StringBuilder(Classes.getShortClassName(this)); buffer.append('['); for (int i = 0; i < c.length; i++) { if (i != 0) { buffer.append(", "); } buffer.append(c[i]); } buffer.append(']'); return buffer.toString(); } }
/** * Returns a string representation of this operation. The returned string is implementation * dependent. It is usually provided for debugging purposes only. */ @Override public String toString() { return Classes.getShortClassName(this) + '[' + getName() + ']'; } }
/** Returns a string representation of this object. */ @Override public String toString() { return Classes.getShortClassName(this) + '[' + toPattern() + ']'; } }
/** Returns a string representation of the specified grid coordinates. */ static String toString(final GridCoordinates coordinates) { final StringBuilder buffer = new StringBuilder(Classes.getShortClassName(coordinates)); final int dimension = coordinates.getDimension(); for (int i = 0; i < dimension; i++) { buffer.append(i == 0 ? '[' : ',').append(coordinates.getCoordinateValue(i)); } return buffer.append(']').toString(); }
/** Formats the specified position. */ static String toString(final DirectPosition position) { final StringBuilder buffer = new StringBuilder(Classes.getShortClassName(position)).append('['); final int dimension = position.getDimension(); for (int i = 0; i < dimension; i++) { if (i != 0) { buffer.append(", "); } buffer.append(position.getOrdinate(i)); } return buffer.append(']').toString(); }
/** * Returns a string representation of this grid coverage. This is mostly for debugging purpose * and may change in any future version. */ @Override public String toString() { final StringBuilder buffer = new StringBuilder(super.toString()); final String lineSeparator = System.getProperty("line.separator", "\n"); buffer.append("\u2514 Image=").append(Classes.getShortClassName(image)).append('['); if (image instanceof OperationNode) { buffer.append('"').append(((OperationNode) image).getOperationName()).append('"'); } buffer.append(']'); return buffer.append(lineSeparator).toString(); } }
/** Returns a string représentation of the specified grid envelope. */ static String toString(final GridEnvelope envelope) { final int dimension = envelope.getDimension(); final StringBuilder buffer = new StringBuilder(Classes.getShortClassName(envelope)); buffer.append('['); for (int i = 0; i < dimension; i++) { if (i != 0) { buffer.append(", "); } buffer.append(envelope.getLow(i)).append("..").append(envelope.getHigh(i)); } return buffer.append(']').toString(); } }
/** Returns a string representation of this color model. */ @Override public String toString() { return Classes.getShortClassName(this) + '[' + getMinValue(band) + ", " + getMaxValue(band) + ']'; } }
/** Formats a name for the specified factory. */ private static String format(final Factory factory) { String name = Classes.getShortClassName(factory); if (factory instanceof AuthorityFactory) { name = name + "[\"" + ((AuthorityFactory) factory).getAuthority().getTitle() + "\"]"; } return name; }
/** Returns a name for the specified math transform. */ private static final String getName(final MathTransform transform) { if (transform instanceof AbstractMathTransform) { ParameterValueGroup params = ((AbstractMathTransform) transform).getParameterValues(); if (params != null) { String name = params.getDescriptor().getName().getCode(); if (name != null && (name = name.trim()).length() != 0) { return name; } } } return Classes.getShortClassName(transform); }
/** Returns a string representation of the specified object, for debugging purpose only. */ final String toString(final Class owner) { final AuthorityFactory factory = getAuthorityFactory(); return Classes.getShortName(owner) + '[' + Classes.getShortName(getType()) + " in " + Classes.getShortClassName(factory) + "(\"" + factory.getAuthority().getTitle() + "\")]"; }