mirror of
https://github.com/janet-lang/janet
synced 2024-11-15 21:24:48 +00:00
605848b217
util.c and make public API smaller. Pad strings and symbols with extra 0 byte for better interop with C.
296 lines
9.6 KiB
C
296 lines
9.6 KiB
C
/*
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* Copyright (c) 2017 Calvin Rose
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to
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* deal in the Software without restriction, including without limitation the
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* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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* sell copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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* IN THE SOFTWARE.
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*/
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#include <dst/dst.h>
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#include <math.h>
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/* Convert a number to an integer */
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int dst_int(int32_t argn, Dst *argv, Dst *ret) {
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if (argn != 1) {
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*ret = dst_cstringv("expected 1 argument");
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return 1;
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}
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switch (dst_type(argv[0])) {
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default:
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*ret = dst_cstringv("could not convert to integer");
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return 1;
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case DST_REAL:
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*ret = dst_wrap_integer((int32_t) dst_unwrap_real(argv[0]));
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break;
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case DST_INTEGER:
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*ret = argv[0];
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break;
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}
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return 0;
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}
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/* Convert a number to a real number */
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int dst_real(int32_t argn, Dst *argv, Dst *ret) {
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if (argn != 1) {
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*ret = dst_cstringv("expected 1 argument");
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return 1;
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}
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switch (dst_type(argv[0])) {
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default:
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*ret = dst_cstringv("could not convert to real");
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return 1;
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case DST_REAL:
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*ret = argv[0];
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break;
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case DST_INTEGER:
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*ret = dst_wrap_real((double) dst_unwrap_integer(argv[0]));
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break;
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}
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return 0;
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}
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#define ADD(x, y) ((x) + (y))
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#define SUB(x, y) ((x) - (y))
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#define MUL(x, y) ((x) * (y))
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#define MOD(x, y) ((x) % (y))
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#define DIV(x, y) ((x) / (y))
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#define DST_DEFINE_BINOP(name, op, rop, onerr)\
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Dst dst_op_##name(Dst lhs, Dst rhs) {\
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if (!(dst_checktype(lhs, DST_INTEGER) || dst_checktype(lhs, DST_REAL))) onerr;\
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if (!(dst_checktype(rhs, DST_INTEGER) || dst_checktype(rhs, DST_REAL))) onerr;\
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return dst_checktype(lhs, DST_INTEGER)\
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? (dst_checktype(rhs, DST_INTEGER)\
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? dst_wrap_integer(op(dst_unwrap_integer(lhs), dst_unwrap_integer(rhs)))\
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: dst_wrap_real(rop((double)dst_unwrap_integer(lhs), dst_unwrap_real(rhs))))\
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: (dst_checktype(rhs, DST_INTEGER)\
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? dst_wrap_real(rop(dst_unwrap_real(lhs), (double)dst_unwrap_integer(rhs)))\
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: dst_wrap_real(rop(dst_unwrap_real(lhs), dst_unwrap_real(rhs))));\
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}
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DST_DEFINE_BINOP(add, ADD, ADD, return dst_wrap_nil())
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DST_DEFINE_BINOP(subtract, SUB, SUB, return dst_wrap_nil())
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DST_DEFINE_BINOP(multiply, MUL, MUL, return dst_wrap_nil())
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#define DST_DEFINE_DIVIDER_OP(name, op, rop)\
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Dst dst_op_##name(Dst lhs, Dst rhs) {\
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if (!(dst_checktype(lhs, DST_INTEGER) || dst_checktype(lhs, DST_REAL))) return dst_wrap_nil();\
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if (!(dst_checktype(rhs, DST_INTEGER) || dst_checktype(rhs, DST_REAL))) return dst_wrap_nil();\
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return dst_checktype(lhs, DST_INTEGER)\
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? (dst_checktype(rhs, DST_INTEGER)\
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? (dst_unwrap_integer(rhs) == 0 || ((dst_unwrap_integer(lhs) == INT32_MIN) && (dst_unwrap_integer(rhs) == -1)))\
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? dst_wrap_nil()\
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: dst_wrap_integer(op(dst_unwrap_integer(lhs), dst_unwrap_integer(rhs)))\
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: dst_wrap_real(rop((double)dst_unwrap_integer(lhs), dst_unwrap_real(rhs))))\
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: (dst_checktype(rhs, DST_INTEGER)\
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? dst_wrap_real(rop(dst_unwrap_real(lhs), (double)dst_unwrap_integer(rhs)))\
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: dst_wrap_real(rop(dst_unwrap_real(lhs), dst_unwrap_real(rhs))));\
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}
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DST_DEFINE_DIVIDER_OP(divide, DIV, DIV)
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DST_DEFINE_DIVIDER_OP(modulo, MOD, fmod)
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#define DST_DEFINE_REDUCER(name, fop, start)\
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int dst_##name(int32_t argn, Dst *argv, Dst *ret) {\
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int32_t i;\
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Dst accum = dst_wrap_integer(start);\
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for (i = 0; i < argn; i++) {\
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accum = fop(accum, argv[i]);\
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}\
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if (dst_checktype(accum, DST_NIL)) {\
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*ret = dst_cstringv("expected number");\
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return 1;\
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}\
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*ret = accum;\
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return 0;\
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}
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DST_DEFINE_REDUCER(add, dst_op_add, 0)
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DST_DEFINE_REDUCER(multiply, dst_op_multiply, 1)
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#define DST_DEFINE_DIVIDER(name, unarystart)\
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int dst_##name(int32_t argn, Dst *argv, Dst *ret) {\
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int32_t i;\
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Dst accum;\
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if (argn < 1) {\
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*ret = dst_cstringv("expected at least one argument");\
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return 1;\
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} else if (argn == 1) {\
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accum = dst_wrap_real(unarystart);\
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i = 0;\
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} else {\
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accum = argv[0];\
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i = 1;\
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}\
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for (; i < argn; i++) {\
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accum = dst_op_##name(accum, argv[i]);\
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}\
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if (dst_checktype(accum, DST_NIL)) {\
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*ret = dst_cstringv("expected number or division error");\
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return 1;\
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}\
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*ret = accum;\
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return 0;\
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}
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DST_DEFINE_DIVIDER(divide, 1)
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DST_DEFINE_DIVIDER(modulo, 1)
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DST_DEFINE_DIVIDER(subtract, 0)
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#undef ADD
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#undef SUB
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#undef MUL
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#undef MOD
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#undef DST_DEFINE_BINOP
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int dst_bnot(int32_t argn, Dst *argv, Dst *ret) {
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if (argn != 1) {
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*ret = dst_cstringv("expected 1 argument");
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return 1;
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}
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if (!dst_checktype(argv[0], DST_INTEGER)) {
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*ret = dst_cstringv("expected integer");
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return 1;
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}
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*ret = dst_wrap_integer(~dst_unwrap_integer(argv[0]));
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return 0;
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}
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#define DST_DEFINE_BITOP(name, op, start)\
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int dst_##name(int32_t argn, Dst *argv, Dst *ret) {\
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int32_t i;\
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int32_t accum = start;\
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for (i = 0; i < argn; i++) {\
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Dst arg = argv[i];\
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if (!dst_checktype(arg, DST_INTEGER)) {\
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*ret = dst_cstringv("expected integer");\
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return -1;\
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}\
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accum op dst_unwrap_integer(arg);\
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}\
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*ret = dst_wrap_integer(accum);\
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return 0;\
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}
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DST_DEFINE_BITOP(band, &=, -1)
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DST_DEFINE_BITOP(bor, |=, 0)
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DST_DEFINE_BITOP(bxor, ^=, 0)
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int dst_lshift(int argn, Dst *argv, Dst *ret) {
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if (argn != 2 || !dst_checktype(argv[0], DST_INTEGER) || !dst_checktype(argv[1], DST_INTEGER)) {
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*ret = dst_cstringv("expected 2 integers");
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return 1;
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}
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*ret = dst_wrap_integer(dst_unwrap_integer(argv[0]) >> dst_unwrap_integer(argv[1]));
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return 0;
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}
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int dst_rshift(int argn, Dst *argv, Dst *ret) {
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if (argn != 2 || !dst_checktype(argv[0], DST_INTEGER) || !dst_checktype(argv[1], DST_INTEGER)) {
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*ret = dst_cstringv("expected 2 integers");
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return 1;
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}
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*ret = dst_wrap_integer(dst_unwrap_integer(argv[0]) << dst_unwrap_integer(argv[1]));
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return 0;
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}
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int dst_lshiftu(int argn, Dst *argv, Dst *ret) {
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if (argn != 2 || !dst_checktype(argv[0], DST_INTEGER) || !dst_checktype(argv[1], DST_INTEGER)) {
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*ret = dst_cstringv("expected 2 integers");
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return 1;
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}
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*ret = dst_wrap_integer((int32_t)((uint32_t)dst_unwrap_integer(argv[0]) >> dst_unwrap_integer(argv[1])));
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return 0;
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}
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#define DST_DEFINE_MATHOP(name, fop)\
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int dst_##name(int32_t argn, Dst *argv, Dst *ret) {\
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if (argn != 1) {\
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*ret = dst_cstringv("expected 1 argument");\
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return 1;\
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}\
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if (dst_checktype(argv[0], DST_INTEGER)) {\
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argv[0] = dst_wrap_real(dst_unwrap_integer(argv[0]));\
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}\
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if (!dst_checktype(argv[0], DST_REAL)) {\
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*ret = dst_cstringv("expected number");\
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return 1;\
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}\
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*ret = dst_wrap_real(fop(dst_unwrap_real(argv[0])));\
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return 0;\
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}
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DST_DEFINE_MATHOP(acos, acos)
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DST_DEFINE_MATHOP(asin, asin)
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DST_DEFINE_MATHOP(atan, atan)
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DST_DEFINE_MATHOP(cos, cos)
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DST_DEFINE_MATHOP(cosh, cosh)
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DST_DEFINE_MATHOP(sin, sin)
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DST_DEFINE_MATHOP(sinh, sinh)
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DST_DEFINE_MATHOP(tan, tan)
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DST_DEFINE_MATHOP(tanh, tanh)
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DST_DEFINE_MATHOP(exp, exp)
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DST_DEFINE_MATHOP(log, log)
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DST_DEFINE_MATHOP(log10, log10)
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DST_DEFINE_MATHOP(sqrt, sqrt)
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DST_DEFINE_MATHOP(ceil, ceil)
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DST_DEFINE_MATHOP(fabs, fabs)
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DST_DEFINE_MATHOP(floor, floor)
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#define DST_DEFINE_MATH2OP(name, fop)\
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int dst_##name(int32_t argn, Dst *argv, Dst *ret) {\
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if (argn != 2) {\
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*ret = dst_cstringv("expected 2 arguments");\
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return 1;\
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}\
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if (dst_checktype(argv[0], DST_INTEGER))\
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argv[0] = dst_wrap_real(dst_unwrap_integer(argv[0]));\
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if (dst_checktype(argv[1], DST_INTEGER))\
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argv[1] = dst_wrap_real(dst_unwrap_integer(argv[1]));\
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if (!dst_checktype(argv[0], DST_REAL) || !dst_checktype(argv[1], DST_REAL)) {\
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*ret = dst_cstringv("expected real");\
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return 1;\
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}\
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*ret =\
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dst_wrap_real(fop(dst_unwrap_real(argv[0]), dst_unwrap_real(argv[1])));\
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return 0;\
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}\
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DST_DEFINE_MATH2OP(atan2, atan2)
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DST_DEFINE_MATH2OP(pow, pow)
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DST_DEFINE_MATH2OP(fmod, fmod)
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int dst_modf(int32_t argn, Dst *argv, Dst *ret) {
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double intpart;
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Dst *tup;
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if (argn != 1) {
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*ret = dst_cstringv("expected 1 argument");
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return 1;
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}
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if (dst_checktype(argv[0], DST_INTEGER))
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argv[0] = dst_wrap_real(dst_unwrap_integer(argv[0]));
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if (!dst_checktype(argv[0], DST_REAL)) {
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*ret = dst_cstringv("expected real");
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return 1;
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}
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tup = dst_tuple_begin(2);
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tup[0] = dst_wrap_real(modf(dst_unwrap_real(argv[0]), &intpart));
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tup[1] = dst_wrap_real(intpart);
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*ret = dst_wrap_tuple(dst_tuple_end(tup));
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return 0;
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}
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