#define XrmStringToName(string) XrmStringToQuark(string)
#define XrmStringToClass(string) XrmStringToQuark(string)
#define XrmStringToRepresentation(string) XrmStringToQuark(string)
#define XrmStringToName(string) XrmStringToQuark(string)
#define XrmStringToClass(string) XrmStringToQuark(string)
#define XrmStringToRepresentation(string) XrmStringToQuark(string)
#define XrmNameToString(name) XrmQuarkToString(name)
#define XrmClassToString(class) XrmQuarkToString(class)
#define XrmRepresentationToString(type) XrmQuarkToString(type)
#define XrmStringToNameList(str, name) XrmStringToQuarkList((str), (name))
#define XrmStringToClassList(str,class) XrmStringToQuarkList((str), (class))
These functions can be used to convert from string to quark representation. If the string is not in the Host Portable Character Encoding, the conversion is implementation-dependent. The string argument to XrmStringToQuark need not be permanently allocated storage. XrmPermStringToQuark is just like XrmStringToQuark, except that Xlib is permitted to assume the string argument is permanently allocated, and, hence, that it can be used as the value to be returned by XrmQuarkToString.
For any given quark, if XrmStringToQuark returns a non-NULL value, all future calls will return the same value (identical address).
These functions can be used to convert from quark representation to string. The string pointed to by the return value must not be modified or freed. The returned string is byte-for-byte equal to the original string passed to one of the string-to-quark routines. If no string exists for that quark, XrmQuarkToString returns NULL. For any given quark, if XrmQuarkToString returns a non-NULL value, all future calls will return the same value (identical address).
These functions can be used to convert from string to quark representation. If the string is not in the Host Portable Character Encoding, the conversion is implementation-dependent. The string argument to XrmStringToQuark need not be permanently allocated storage. XrmPermStringToQuark is just like XrmStringToQuark, except that Xlib is permitted to assume the string argument is permanently allocated, and, hence, that it can be used as the value to be returned by XrmQuarkToString.
For any given quark, if XrmStringToQuark returns a non-NULL value, all future calls will return the same value (identical address).
The XrmStringToQuarkList function converts the null-terminated string (generally a fully qualified name) to a list of quarks. The caller must allocate sufficient space for the quarks list before calling XrmStringToQuarkList. Note that the string must be in the valid ResourceName format (see section 15.1). If the string is not in the Host Portable Character Encoding, the conversion is implementation-dependent.
A binding list is a list of type XrmBindingList and indicates if components of name or class lists are bound tightly or loosely (that is, if wildcarding of intermediate components is specified).
typedef enum {XrmBindTightly, XrmBindLoosely} XrmBinding, *XrmBindingList;
XrmBindTightly indicates that a period separates the components, and XrmBindLoosely indicates that an asterisk separates the components.
The XrmStringToBindingQuarkList function converts the specified string to a binding list and a quark list. The caller must allocate sufficient space for the quarks list and the binding list before calling XrmStringToBindingQuarkList. If the string is not in the Host Portable Character Encoding the conversion is implementation-dependent. Component names in the list are separated by a period or an asterisk character. If the string does not start with period or asterisk, a period is assumed. For example, ``*a.b*c'' becomes:
quarks | a | b |
bindings | loose | tight |
Xlib - C Language X Interface