+HELP: char
+{ $description "This C type represents a one-byte signed integer type. Input values will be converted to " { $link math:integer } "s and truncated to eight bits; output values will be returned as " { $link math:fixnum } "s." } ;
+HELP: uchar
+{ $description "This C type represents a one-byte unsigned integer type. Input values will be converted to " { $link math:integer } "s and truncated to eight bits; output values will be returned as " { $link math:fixnum } "s." } ;
+HELP: short
+{ $description "This C type represents a two-byte signed integer type. Input values will be converted to " { $link math:integer } "s and truncated to sixteen bits; output values will be returned as " { $link math:fixnum } "s." } ;
+HELP: ushort
+{ $description "This C type represents a two-byte unsigned integer type. Input values will be converted to " { $link math:integer } "s and truncated to sixteen bits; output values will be returned as " { $link math:fixnum } "s." } ;
+HELP: int
+{ $description "This C type represents a four-byte signed integer type. Input values will be converted to " { $link math:integer } "s and truncated to 32 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: uint
+{ $description "This C type represents a four-byte unsigned integer type. Input values will be converted to " { $link math:integer } "s and truncated to 32 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: long
+{ $description "This C type represents a four- or eight-byte signed integer type. On Windows and on 32-bit Unix platforms, it will be four bytes. On 64-bit Unix platforms, it will be eight bytes. Input values will be converted to " { $link math:integer } "s and truncated to 32 or 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: intptr_t
+{ $description "This C type represents a signed integer type large enough to hold any pointer value; that is, on 32-bit platforms, it will be four bytes, and on 64-bit platforms, it will be eight bytes. Input values will be converted to " { $link math:integer } "s and truncated to 32 or 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: ulong
+{ $description "This C type represents a four- or eight-byte unsigned integer type. On Windows and on 32-bit Unix platforms, it will be four bytes. On 64-bit Unix platforms, it will be eight bytes. Input values will be converted to " { $link math:integer } "s and truncated to 32 or 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: uintptr_t
+{ $description "This C type represents an unsigned integer type large enough to hold any pointer value; that is, on 32-bit platforms, it will be four bytes, and on 64-bit platforms, it will be eight bytes. Input values will be converted to " { $link math:integer } "s and truncated to 32 or 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: ptrdiff_t
+{ $description "This C type represents a signed integer type large enough to hold the distance between two pointer values; that is, on 32-bit platforms, it will be four bytes, and on 64-bit platforms, it will be eight bytes. Input values will be converted to " { $link math:integer } "s and truncated to 32 or 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: size_t
+{ $description "This C type represents unsigned size values of the size expected by the platform's standard C library (usually four bytes on a 32-bit platform, and eight on a 64-bit platform). Input values will be converted to " { $link math:integer } "s and truncated to the appropriate size; output values will be returned as " { $link math:integer } "s." } ;
+HELP: longlong
+{ $description "This C type represents an eight-byte signed integer type. Input values will be converted to " { $link math:integer } "s and truncated to 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: ulonglong
+{ $description "This C type represents an eight-byte unsigned integer type. Input values will be converted to " { $link math:integer } "s and truncated to 64 bits; output values will be returned as " { $link math:integer } "s." } ;
+HELP: void
+{ $description "This symbol is not a valid C type, but it can be used as the return type for a " { $link POSTPONE: FUNCTION: } " or " { $link POSTPONE: CALLBACK: } " definition or for an " { $link alien-invoke } " or " { $link alien-callback } " call." } ;
+HELP: void*
+{ $description "This C type represents a generic pointer to C memory. See " { $link pointer } " for information on pointer C types." } ;
+HELP: c-string
+{ $description "This C type represents a pointer to a C string. See " { $link "c-strings" } " for details about using strings with the FFI." } ;
+HELP: float
+{ $description "This C type represents a single-precision IEEE 754 floating-point type. Input values will be converted to Factor " { $link math:float } "s and demoted to single-precision; output values will be returned as Factor " { $link math:float } "s." } ;
+HELP: double
+{ $description "This C type represents a double-precision IEEE 754 floating-point type. Input values will be converted to Factor " { $link math:float } "s; output values will be returned as Factor " { $link math:float } "s." } ;
+
+HELP: pointer:
+{ $syntax "pointer: c-type" }
+{ $description "Constructs a " { $link pointer } " C type." } ;
+
+HELP: pointer
+{ $class-description "Represents a pointer C type. The " { $snippet "to" } " slot contains the C type being pointed to. Both " { $link byte-array } " and " { $link alien } " values can be provided as pointer function inputs, but see " { $link "byte-arrays-gc" } " for notes about passing byte arrays into C functions. Objects with methods on " { $link >c-ptr } ", such as structs and specialized arrays, may also be used as pointer inputs."
+$nl
+"Pointer output values are represented in Factor as " { $link alien } "s. If the pointed-to type is a struct, the alien will automatically be wrapped in a struct object if it is not null."
+$nl
+"In " { $link POSTPONE: TYPEDEF: } ", " { $link POSTPONE: FUNCTION: } ", " { $link POSTPONE: CALLBACK: } ", and " { $link POSTPONE: STRUCT: } " definitions, pointer types can be created by suffixing " { $snippet "*" } " to a C type name. Outside of FFI definitions, a pointer C type can be created using the " { $link POSTPONE: pointer: } " syntax word:"
+{ $unchecked-example "FUNCTION: int* foo ( char* bar )" }
+{ $unchecked-example ": foo ( bar -- int* )
+ pointer: int f \"foo\" { pointer: char } f alien-invoke ;" } } ;