#pragma once #include #include #include #include #include #include #include #include #include #include #include "builtins/array.h" #include "builtins/bool.h" #include "builtins/color.h" #include "builtins/datatypes.h" #include "builtins/functions.h" #include "builtins/integers.h" #include "builtins/memory.h" #include "builtins/nums.h" #include "builtins/pointer.h" #include "builtins/string.h" #include "builtins/table.h" #include "builtins/types.h" #define Void_t void CORD as_cord(void *x, bool use_color, const char *fmt, ...); #define StrF(...) ({ CORD $c; CORD_sprintf(&$c, __VA_ARGS__); $c; }) #define $var(var, val) __typeof(val) var = val #define $cord(x) _Generic(x, bool: x ? "yes" : "no", \ int8_t: StrF("%d", x), \ int16_t: StrF("%d", x), \ int32_t: StrF("%d", x), int64_t: StrF("%ld", x), \ double: StrF("%g", x), float: StrF("%g", x), \ CORD: x, \ array_t: as_cord($stack(x), false, "[ ]"), \ default: "???") #define $heap(x) (__typeof(x)*)memcpy(GC_MALLOC(sizeof(x)), (__typeof(x)[1]){x}, sizeof(x)) #define $stack(x) (__typeof(x)*)((__typeof(x)[1]){x}) #define not(x) _Generic(x, bool: (bool)!(x), default: ~(x)) #define and(x, y) _Generic(x, bool: (bool)((x) && (y)), default: ((x) & (y))) #define or(x, y) _Generic(x, bool: (bool)((x) || (y)), default: ((x) | (y))) #define xor(x, y) _Generic(x, bool: (bool)((x) ^ (y)), default: ((x) ^ (y))) #define mod(x, n) ((x) % (n)) #define mod1(x, n) (((x) % (n)) + (__typeof(x))1) #define $cmp(x, y) (_Generic(x, CORD: CORD_cmp(x, y), char*: strcmp(x, y), const char*: strcmp(x, y), default: (x > 0) - (y > 0))) #define $lt(x, y) (bool)(_Generic(x, int8_t: x < y, int16_t: x < y, int32_t: x < y, int64_t: x < y, float: x < y, double: x < y, bool: x < y, \ default: $cmp(x, y) < 0)) #define $le(x, y) (bool)(_Generic(x, int8_t: x <= y, int16_t: x <= y, int32_t: x <= y, int64_t: x <= y, float: x <= y, double: x <= y, bool: x <= y, \ default: $cmp(x, y) <= 0)) #define $ge(x, y) (bool)(_Generic(x, int8_t: x >= y, int16_t: x >= y, int32_t: x >= y, int64_t: x >= y, float: x >= y, double: x >= y, bool: x >= y, \ default: $cmp(x, y) >= 0)) #define $gt(x, y) (bool)(_Generic(x, int8_t: x > y, int16_t: x > y, int32_t: x > y, int64_t: x > y, float: x > y, double: x > y, bool: x > y, \ default: $cmp(x, y) > 0)) #define $eq(x, y) (bool)(_Generic(x, int8_t: x == y, int16_t: x == y, int32_t: x == y, int64_t: x == y, float: x == y, double: x == y, bool: x == y, \ default: $cmp(x, y) == 0)) #define $ne(x, y) (bool)(_Generic(x, int8_t: x != y, int16_t: x != y, int32_t: x != y, int64_t: x != y, float: x != y, double: x != y, bool: x != y, \ default: $cmp(x, y) != 0)) #define min(x, y) ({ $var($min_lhs, x); $var($min_rhs, y); $le($min_lhs, $min_rhs) ? $min_lhs : $min_rhs; }) #define max(x, y) ({ $var($min_lhs, x); $var($min_rhs, y); $ge($min_lhs, $min_rhs) ? $min_lhs : $min_rhs; }) #define say(str) puts(CORD_to_const_char_star($cord(str))) #define $test(src, expr, expected) do { \ CORD $result = $cord(expr); \ CORD $output = CORD_catn(5, USE_COLOR ? "\x1b[33;1m>>\x1b[0m " : ">> ", src, USE_COLOR ? "\n\x1b[0;2m=\x1b[m " : "\n= ", $result, "\x1b[m"); \ puts(CORD_to_const_char_star($output)); \ if (expected && CORD_cmp($result, expected)) { \ fprintf(stderr, USE_COLOR ? "\x1b[31;1;7mTEST FAILURE!\x1b[27m\nI expected:\n\t\x1b[0;1m%s\x1b[1;31m\nbut got:\n\t%s\x1b[m\n" : "TEST FAILURE!\nI expected:\n\t%s\nbut got:\n\t%s\n", CORD_to_const_char_star(expected), CORD_to_const_char_star($result)); \ raise(SIGABRT); \ } \ } while (0) // vim: ts=4 sw=0 et cino=L2,l1,(0,W4,m1,\:0