.TH LIBJ2_J2I_ADD_J2I 3 LIBJ2 .SH NAME libj2_j2i_add_j2i \- Calculate sum .SH SYNOPSIS .nf #include void \fBlibj2_j2i_add_j2i\fP(struct libj2_j2i *\fIa\fP, const struct libj2_j2i *\fIb\fP); void \fBlibj2_j2i_add_j2i_to_j2i\fP(const struct libj2_j2i *\fIa\fP, const struct libj2_j2i *\fIb\fP, struct libj2_j2i *\fIr\fP); void \fBlibj2_j2i_add_ji\fP(struct libj2_j2i *\fIa\fP, intmax_t \fIb\fP); void \fBlibj2_j2i_add_ji_to_j2i\fP(const struct libj2_j2i *\fIa\fP, intmax_t \fIb\fP, struct libj2_j2i *\fIr\fP); void \fBlibj2_ji_add_j2i_to_j2i\fP(intmax_t \fIa\fP, const struct libj2_j2i *\fIb\fP, struct libj2_j2i *\fIr\fP); void \fBlibj2_ji_add_ji_to_j2i\fP(intmax_t \fIa\fP, intmax_t \fIb\fP, struct libj2_j2i *\fIr\fP); int \fBlibj2_j2i_add_j2i_overflow\fP(struct libj2_j2i *\fIa\fP, const struct libj2_j2i *\fIb\fP); int \fBlibj2_j2i_add_j2i_to_j2i_overflow\fP(const struct libj2_j2i *\fIa\fP, const struct libj2_j2i *\fIb\fP, struct libj2_j2i *\fIr\fP); int \fBlibj2_j2i_add_ji_overflow\fP(struct libj2_j2i *\fIa\fP, intmax_t \fIb\fP); int \fBlibj2_j2i_add_ji_to_j2i_overflow\fP(const struct libj2_j2i *\fIa\fP, intmax_t \fIb\fP, struct libj2_j2i *\fIr\fP); int \fBlibj2_ji_add_j2i_to_j2i_overflow\fP(intmax_t \fIa\fP, const struct libj2_j2i *\fIb\fP, struct libj2_j2i *\fIr\fP); int \fBlibj2_j2i_add_j2i_overflow_p\fP(const struct libj2_j2i *\fIa\fP, const struct libj2_j2i *\fIb\fP); int \fBlibj2_j2i_add_ji_overflow_p\fP(const struct libj2_j2i *\fIa\fP, intmax_t \fIb\fP); int \fBlibj2_ji_add_j2i_overflow_p\fP(intmax_t \fIa\fP, const struct libj2_j2i *\fIb\fP); void \fBlibj2_j2u_add_j2u\fP(struct libj2_j2u *\fIa\fP, const struct libj2_j2u *\fIb\fP); void \fBlibj2_j2u_add_j2u_to_j2u\fP(const struct libj2_j2u *\fIa\fP, const struct libj2_j2u *\fIb\fP, struct libj2_j2u *\fIr\fP); void \fBlibj2_j2u_add_ju\fP(struct libj2_j2u *\fIa\fP, uintmax_t \fIb\fP); void \fBlibj2_j2u_add_ju_to_j2u\fP(const struct libj2_j2u *\fIa\fP, uintmax_t \fIb\fP, struct libj2_j2u *\fIr\fP); void \fBlibj2_ju_add_j2u_to_j2u\fP(uintmax_t \fIa\fP, const struct libj2_j2u *\fIb\fP, struct libj2_j2u *\fIr\fP); void \fBlibj2_ju_add_ju_to_j2u\fP(uintmax_t \fIa\fP, uintmax_t \fIb\fP, struct libj2_j2u *\fIr\fP); int \fBlibj2_j2u_add_j2u_overflow\fP(struct libj2_j2u *\fIa\fP, const struct libj2_j2u *\fIb\fP); int \fBlibj2_j2u_add_j2u_to_j2u_overflow\fP(const struct libj2_j2u *\fIa\fP, const struct libj2_j2u *\fIb\fP, struct libj2_j2u *\fIr\fP); int \fBlibj2_j2u_add_ju_overflow\fP(struct libj2_j2u *\fIa\fP, uintmax_t \fIb\fP); int \fBlibj2_j2u_add_ju_to_j2u_overflow\fP(const struct libj2_j2u *\fIa\fP, uintmax_t \fIb\fP, struct libj2_j2u *\fIr\fP); int \fBlibj2_ju_add_j2u_to_j2u_overflow\fP(uintmax_t \fIa\fP, const struct libj2_j2u *\fIb\fP, struct libj2_j2u *\fIr\fP); int \fBlibj2_j2u_add_j2u_overflow_p\fP(const struct libj2_j2u *\fIa\fP, const struct libj2_j2u *\fIb\fP); int \fBlibj2_j2u_add_ju_overflow_p\fP(const struct libj2_j2u *\fIa\fP, uintmax_t \fIb\fP); int \fBlibj2_ju_add_j2u_overflow_p\fP(uintmax_t \fIa\fP, const struct libj2_j2u *\fIb\fP); .fi .PP Link with .IR -lj2 . .SH DESCRIPTION The above listed functions calculate the sum of the values of .I a and .IR b . The functions with the parameter .I r store the result in .IR r , the other functions store the result in .IR a , except the functions .BR libj2_j2i_add_j2i_overflow_p (), .BR libj2_j2i_add_ji_overflow_p (), .BR libj2_ji_add_j2i_overflow_p (), .BR libj2_j2u_add_j2u_overflow_p (), .BR libj2_j2u_add_ju_overflow_p (), and .BR libj2_ju_add_j2u_overflow_p () only predict overflow, and do not calculate the sum, and therefore does store it anywhere. .PP The value-returning functions (that is, those with word .B overflow in their name), detect arithmetic overflow. .PP The result is truncated to the least significant bits, as many as can be stored, in case of overflow; that is, modular arithmetics is used. .PP The arguments are assumed to be .RI non- NULL . .SH RETURN VALUE For functions with a return value, the functions return +1 if the result is positive but too large to be represented, -1 if the result is negative (not only possible with functions where the result is a .IR "struct libj2_j2i" ) but too large, and 0 otherwise. .SH ERRORS The above listed functions cannot fail. .SH HISTORY The .BR libj2_j2u_add_j2u (3), .BR libj2_j2u_add_j2u_to_j2u (3), .BR libj2_j2u_add_ju (3), .BR libj2_j2u_add_ju_to_j2u (3), .BR libj2_ju_add_j2u_to_j2u (3), .BR libj2_ju_add_ju_to_j2u (3), .BR libj2_j2u_add_j2u_overflow (3), .BR libj2_j2u_add_j2u_to_j2u_overflow (3), .BR libj2_j2u_add_ju_overflow (3), .BR libj2_j2u_add_ju_to_j2u_overflow (3), .BR libj2_ju_add_j2u_to_j2u_overflow (3), .BR libj2_j2u_add_j2u_overflow_p (3), .BR libj2_j2u_add_ju_overflow_p (3), and .BR libj2_ju_add_j2u_overflow_p (3) functions were added in version 1.0 of .BR libj2 . .PP The .BR libj2_j2i_add_j2i (3), .BR libj2_j2i_add_j2i_to_j2i (3), .BR libj2_j2i_add_ji (3), .BR libj2_j2i_add_ji_to_j2i (3), .BR libj2_ji_add_j2i_to_j2i (3), .BR libj2_ji_add_ji_to_j2i (3), .BR libj2_j2i_add_j2i_overflow (3), .BR libj2_j2i_add_j2i_to_j2i_overflow (3), .BR libj2_j2i_add_ji_overflow (3), .BR libj2_j2i_add_ji_to_j2i_overflow (3), .BR libj2_ji_add_j2i_to_j2i_overflow (3), .BR libj2_j2i_add_j2i_overflow_p (3), .BR libj2_j2i_add_ji_overflow_p (3), and .BR libj2_ji_add_j2i_overflow_p (3) functions were added in version 1.1 of .BR libj2 . .SH SEE ALSO .BR libj2 (7), .BR libj2_j2i_sub_j2i (3), .BR libj2_j2u_sub_j2u (3)