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https://github.com/janet-lang/janet
synced 2024-12-01 04:19:55 +00:00
define (mod x 0)
as x
See: Knuth, Donald E., _The Art of Computer Programming: Volume 1: Fundamental Algorithms_, pp. 15 ([link](https://books.google.com/books?id=x9AsAwAAQBAJ&pg=PA15))
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@ -1173,11 +1173,12 @@ JanetTable *janet_core_env(JanetTable *replacements) {
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"the reciprocal of x. Otherwise return the first value of xs repeatedly divided by the remaining "
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"values."));
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templatize_varop(env, JANET_FUN_MODULO, "mod", 0, 1, JOP_MODULO,
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JDOC("(mod dividend divisor)\n\n"
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"Returns the modulo of dividend / divisor."));
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JDOC("(mod & xs)\n\n"
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"Returns the result of applying the modulo operator on the first value of xs with each remaining value. "
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"`(mod x 0)` is defined to be `x`."));
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templatize_varop(env, JANET_FUN_REMAINDER, "%", 0, 1, JOP_REMAINDER,
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JDOC("(% dividend divisor)\n\n"
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"Returns the remainder of dividend / divisor."));
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JDOC("(% & xs)\n\n"
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"Returns the remainder of dividing the first value of xs by each remaining value."));
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templatize_varop(env, JANET_FUN_BAND, "band", -1, -1, JOP_BAND,
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JDOC("(band & xs)\n\n"
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"Returns the bit-wise and of all values in xs. Each x in xs must be an integer."));
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@ -431,7 +431,7 @@ static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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} \
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#define OPMETHODINVERT(T, type, name, oper) \
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static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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static Janet cfun_it_##type##_##name##i(int32_t argc, Janet *argv) { \
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janet_fixarity(argc, 2); \
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T *box = janet_abstract(&janet_##type##_type, sizeof(T)); \
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*box = janet_unwrap_##type(argv[1]); \
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@ -440,6 +440,11 @@ static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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return janet_wrap_abstract(box); \
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} \
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#define DIVZERO(name) DIVZERO_##name
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#define DIVZERO_div janet_panic("division by zero")
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#define DIVZERO_rem janet_panic("division by zero")
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#define DIVZERO_mod return janet_wrap_abstract(box)
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#define DIVMETHOD(T, type, name, oper) \
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static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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janet_arity(argc, 2, -1); \
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@ -447,19 +452,19 @@ static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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*box = janet_unwrap_##type(argv[0]); \
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for (int32_t i = 1; i < argc; i++) { \
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T value = janet_unwrap_##type(argv[i]); \
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if (value == 0) janet_panic("division by zero"); \
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if (value == 0) DIVZERO(name); \
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*box oper##= value; \
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} \
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return janet_wrap_abstract(box); \
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} \
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#define DIVMETHODINVERT(T, type, name, oper) \
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static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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static Janet cfun_it_##type##_##name##i(int32_t argc, Janet *argv) { \
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janet_fixarity(argc, 2); \
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T *box = janet_abstract(&janet_##type##_type, sizeof(T)); \
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*box = janet_unwrap_##type(argv[1]); \
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T value = janet_unwrap_##type(argv[0]); \
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if (value == 0) janet_panic("division by zero"); \
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if (value == 0) DIVZERO(name); \
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*box oper##= value; \
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return janet_wrap_abstract(box); \
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} \
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@ -471,7 +476,7 @@ static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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*box = janet_unwrap_##type(argv[0]); \
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for (int32_t i = 1; i < argc; i++) { \
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T value = janet_unwrap_##type(argv[i]); \
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if (value == 0) janet_panic("division by zero"); \
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if (value == 0) DIVZERO(name); \
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if ((value == -1) && (*box == INT64_MIN)) janet_panic("INT64_MIN divided by -1"); \
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*box oper##= value; \
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} \
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@ -479,12 +484,12 @@ static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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} \
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#define DIVMETHODINVERT_SIGNED(T, type, name, oper) \
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static Janet cfun_it_##type##_##name(int32_t argc, Janet *argv) { \
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static Janet cfun_it_##type##_##name##i(int32_t argc, Janet *argv) { \
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janet_fixarity(argc, 2); \
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T *box = janet_abstract(&janet_##type##_type, sizeof(T)); \
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*box = janet_unwrap_##type(argv[1]); \
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T value = janet_unwrap_##type(argv[0]); \
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if (value == 0) janet_panic("division by zero"); \
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if (value == 0) DIVZERO(name); \
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if ((value == -1) && (*box == INT64_MIN)) janet_panic("INT64_MIN divided by -1"); \
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*box oper##= value; \
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return janet_wrap_abstract(box); \
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@ -517,11 +522,12 @@ static Janet cfun_it_s64_mod(int32_t argc, Janet *argv) {
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int64_t *box = janet_abstract(&janet_s64_type, sizeof(int64_t));
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int64_t op1 = janet_unwrap_s64(argv[0]);
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int64_t op2 = janet_unwrap_s64(argv[1]);
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if (op2 == 0) janet_panic("division by zero");
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int64_t x = op1 % op2;
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*box = (op1 > 0)
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? ((op2 > 0) ? x : (0 == x ? x : x + op2))
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: ((op2 > 0) ? (0 == x ? x : x + op2) : x);
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if (op2 == 0) {
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*box = op1;
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} else {
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int64_t x = op1 % op2;
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*box = (((op1 ^ op2) < 0) && (x != 0)) ? x + op2 : x;
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}
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return janet_wrap_abstract(box);
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}
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@ -530,22 +536,23 @@ static Janet cfun_it_s64_modi(int32_t argc, Janet *argv) {
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int64_t *box = janet_abstract(&janet_s64_type, sizeof(int64_t));
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int64_t op2 = janet_unwrap_s64(argv[0]);
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int64_t op1 = janet_unwrap_s64(argv[1]);
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if (op2 == 0) janet_panic("division by zero");
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int64_t x = op1 % op2;
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*box = (op1 > 0)
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? ((op2 > 0) ? x : (0 == x ? x : x + op2))
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: ((op2 > 0) ? (0 == x ? x : x + op2) : x);
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if (op2 == 0) {
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*box = op1;
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} else {
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int64_t x = op1 % op2;
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*box = (((op1 ^ op2) < 0) && (x != 0)) ? x + op2 : x;
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}
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return janet_wrap_abstract(box);
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}
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OPMETHOD(int64_t, s64, add, +)
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OPMETHOD(int64_t, s64, sub, -)
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OPMETHODINVERT(int64_t, s64, subi, -)
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OPMETHODINVERT(int64_t, s64, sub, -)
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OPMETHOD(int64_t, s64, mul, *)
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DIVMETHOD_SIGNED(int64_t, s64, div, /)
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DIVMETHOD_SIGNED(int64_t, s64, rem, %)
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DIVMETHODINVERT_SIGNED(int64_t, s64, divi, /)
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DIVMETHODINVERT_SIGNED(int64_t, s64, remi, %)
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DIVMETHODINVERT_SIGNED(int64_t, s64, div, /)
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DIVMETHODINVERT_SIGNED(int64_t, s64, rem, %)
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OPMETHOD(int64_t, s64, and, &)
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OPMETHOD(int64_t, s64, or, |)
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OPMETHOD(int64_t, s64, xor, ^)
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@ -553,12 +560,14 @@ OPMETHOD(int64_t, s64, lshift, <<)
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OPMETHOD(int64_t, s64, rshift, >>)
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OPMETHOD(uint64_t, u64, add, +)
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OPMETHOD(uint64_t, u64, sub, -)
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OPMETHODINVERT(uint64_t, u64, subi, -)
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OPMETHODINVERT(uint64_t, u64, sub, -)
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OPMETHOD(uint64_t, u64, mul, *)
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DIVMETHOD(uint64_t, u64, div, /)
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DIVMETHOD(uint64_t, u64, rem, %)
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DIVMETHOD(uint64_t, u64, mod, %)
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DIVMETHODINVERT(uint64_t, u64, divi, /)
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DIVMETHODINVERT(uint64_t, u64, modi, %)
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DIVMETHODINVERT(uint64_t, u64, div, /)
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DIVMETHODINVERT(uint64_t, u64, rem, %)
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DIVMETHODINVERT(uint64_t, u64, mod, %)
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OPMETHOD(uint64_t, u64, and, &)
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OPMETHOD(uint64_t, u64, or, |)
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OPMETHOD(uint64_t, u64, xor, ^)
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@ -610,8 +619,8 @@ static JanetMethod it_u64_methods[] = {
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{"rdiv", cfun_it_u64_divi},
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{"mod", cfun_it_u64_mod},
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{"rmod", cfun_it_u64_modi},
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{"%", cfun_it_u64_mod},
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{"r%", cfun_it_u64_modi},
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{"%", cfun_it_u64_rem},
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{"r%", cfun_it_u64_remi},
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{"&", cfun_it_u64_and},
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{"r&", cfun_it_u64_and},
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{"|", cfun_it_u64_or},
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@ -709,8 +709,12 @@ static JanetSignal run_vm(JanetFiber *fiber, Janet in) {
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if (janet_checktype(op1, JANET_NUMBER) && janet_checktype(op2, JANET_NUMBER)) {
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double x1 = janet_unwrap_number(op1);
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double x2 = janet_unwrap_number(op2);
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double intres = x2 * floor(x1 / x2);
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stack[A] = janet_wrap_number(x1 - intres);
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if (x2 == 0) {
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stack[A] = janet_wrap_number(x1);
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} else {
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double intres = x2 * floor(x1 / x2);
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stack[A] = janet_wrap_number(x1 - intres);
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}
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vm_pcnext();
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} else {
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vm_commit();
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