#ifndef __sun__ # define _XOPEN_SOURCE # define _XOPEN_SOURCE_EXTENDED 1 #else # define _XPG6 # define __EXTENSIONS__ #endif #include #include #include #ifdef HAVE_ALLOCA_H # include #elif !defined alloca # ifdef __GNUC__ # define alloca __builtin_alloca # elif defined _MSC_VER # include # define alloca _alloca # elif !defined HAVE_ALLOCA # ifdef __cplusplus extern "C" # endif void *alloca (size_t); # endif #endif #include #include #include #include #ifdef HAVE_LIBONIG #include #endif #include #include #ifdef WIN32 #include #endif #include "builtin.h" #include "compile.h" #include "jq_parser.h" #include "bytecode.h" #include "linker.h" #include "locfile.h" #include "jv_unicode.h" #include "jv_alloc.h" #include "jv_dtoa.h" #include "jv_dtoa_tsd.h" #include "jv_private.h" #include "util.h" #define BINOP(name) \ static jv f_ ## name(jq_state *jq, jv input, jv a, jv b) { \ jv_free(input); \ return binop_ ## name(a, b); \ } BINOPS #undef BINOP static jv type_error(jv bad, const char* msg) { char errbuf[15]; const char *badkind = jv_kind_name(jv_get_kind(bad)); jv err = jv_invalid_with_msg(jv_string_fmt("%s (%s) %s", badkind, jv_dump_string_trunc(bad, errbuf, sizeof(errbuf)), msg)); return err; } static jv type_error2(jv bad1, jv bad2, const char* msg) { char errbuf1[15],errbuf2[15]; const char *badkind1 = jv_kind_name(jv_get_kind(bad1)); const char *badkind2 = jv_kind_name(jv_get_kind(bad2)); jv err = jv_invalid_with_msg(jv_string_fmt("%s (%s) and %s (%s) %s", badkind1, jv_dump_string_trunc(bad1, errbuf1, sizeof(errbuf1)), badkind2, jv_dump_string_trunc(bad2, errbuf2, sizeof(errbuf2)), msg)); return err; } static inline jv ret_error(jv bad, jv msg) { jv_free(bad); return jv_invalid_with_msg(msg); } static inline jv ret_error2(jv bad1, jv bad2, jv msg) { jv_free(bad1); jv_free(bad2); return jv_invalid_with_msg(msg); } jv binop_plus(jv a, jv b) { if (jv_get_kind(a) == JV_KIND_NULL) { jv_free(a); return b; } else if (jv_get_kind(b) == JV_KIND_NULL) { jv_free(b); return a; } else if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) { jv r = jv_number(jv_number_value(a) + jv_number_value(b)); jv_free(a); jv_free(b); return r; } else if (jv_get_kind(a) == JV_KIND_STRING && jv_get_kind(b) == JV_KIND_STRING) { return jv_string_concat(a, b); } else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) { return jv_array_concat(a, b); } else if (jv_get_kind(a) == JV_KIND_OBJECT && jv_get_kind(b) == JV_KIND_OBJECT) { return jv_object_merge(a, b); } else { return type_error2(a, b, "cannot be added"); } } #ifdef __APPLE__ // macOS has a bunch of libm deprecation warnings, so let's clean those up #ifdef HAVE_TGAMMA #define HAVE_GAMMA #define gamma tgamma #endif #ifdef HAVE___EXP10 #define HAVE_EXP10 #define exp10 __exp10 #endif #ifdef HAVE_REMAINDER #define HAVE_DREM #define drem remainder #endif // We replace significand with our own, since there's not a rename-replacement #ifdef HAVE_FREXP static double __jq_significand(double x) { int z; return 2*frexp(x, &z); } #define HAVE_SIGNIFICAND #define significand __jq_significand #elif defined(HAVE_SCALBN) && defined(HAVE_ILOGB) static double __jq_significand(double x) { return scalbn(x, -ilogb(x)); } #define HAVE_SIGNIFICAND #define significand __jq_significand #endif #endif // ifdef __APPLE__ #define LIBM_DD(name) \ static jv f_ ## name(jq_state *jq, jv input) { \ if (jv_get_kind(input) != JV_KIND_NUMBER) { \ return type_error(input, "number required"); \ } \ jv ret = jv_number(name(jv_number_value(input))); \ jv_free(input); \ return ret; \ } #define LIBM_DD_NO(name) \ static jv f_ ## name(jq_state *jq, jv input) { \ jv error = jv_string("Error: " #name "/0 not found at build time"); \ return ret_error(input, error); \ } #define LIBM_DDD(name) \ static jv f_ ## name(jq_state *jq, jv input, jv a, jv b) { \ jv_free(input); \ if (jv_get_kind(a) != JV_KIND_NUMBER) { \ jv_free(b); \ return type_error(a, "number required"); \ } \ if (jv_get_kind(b) != JV_KIND_NUMBER) { \ jv_free(a); \ return type_error(b, "number required"); \ } \ jv ret = jv_number(name(jv_number_value(a), jv_number_value(b))); \ jv_free(a); \ jv_free(b); \ return ret; \ } #define LIBM_DDD_NO(name) \ static jv f_ ## name(jq_state *jq, jv input, jv a, jv b) { \ jv_free(b); \ jv error = jv_string("Error: " #name "/2 not found at build time"); \ return ret_error2(input, a, error); \ } #define LIBM_DDDD(name) \ static jv f_ ## name(jq_state *jq, jv input, jv a, jv b, jv c) { \ jv_free(input); \ if (jv_get_kind(a) != JV_KIND_NUMBER) { \ jv_free(b); \ jv_free(c); \ return type_error(a, "number required"); \ } \ if (jv_get_kind(b) != JV_KIND_NUMBER) { \ jv_free(a); \ jv_free(c); \ return type_error(b, "number required"); \ } \ if (jv_get_kind(c) != JV_KIND_NUMBER) { \ jv_free(a); \ jv_free(b); \ return type_error(c, "number required"); \ } \ jv ret = jv_number(name(jv_number_value(a), jv_number_value(b), jv_number_value(c))); \ jv_free(a); \ jv_free(b); \ jv_free(c); \ return ret; \ } #define LIBM_DDDD_NO(name) \ static jv f_ ## name(jq_state *jq, jv input, jv a, jv b, jv c) { \ jv_free(c); \ jv_free(b); \ jv error = jv_string("Error: " #name "/3 not found at build time"); \ return ret_error2(input, a, error); \ } #define LIBM_DA(name, type) \ static jv f_ ## name(jq_state *jq, jv input) { \ if (jv_get_kind(input) != JV_KIND_NUMBER) { \ return type_error(input, "number required"); \ } \ type value; \ double d = name(jv_number_value(input), &value); \ jv ret = JV_ARRAY(jv_number(d), jv_number(value)); \ jv_free(input); \ return ret; \ } #define LIBM_DA_NO(name, type) \ static jv f_ ## name(jq_state *jq, jv input) { \ jv error = jv_string("Error: " #name "/0 not found at build time"); \ return ret_error(input, error); \ } #include "libm.h" #undef LIBM_DDDD_NO #undef LIBM_DDD_NO #undef LIBM_DD_NO #undef LIBM_DA_NO #undef LIBM_DDDD #undef LIBM_DDD #undef LIBM_DD #undef LIBM_DA #ifdef __APPLE__ #undef gamma #undef drem #undef significand #undef exp10 #endif static jv f_negate(jq_state *jq, jv input) { if (jv_get_kind(input) != JV_KIND_NUMBER) { return type_error(input, "cannot be negated"); } jv ret = jv_number(-jv_number_value(input)); jv_free(input); return ret; } static jv f_startswith(jq_state *jq, jv a, jv b) { if (jv_get_kind(a) != JV_KIND_STRING || jv_get_kind(b) != JV_KIND_STRING) return ret_error2(a, b, jv_string("startswith() requires string inputs")); int alen = jv_string_length_bytes(jv_copy(a)); int blen = jv_string_length_bytes(jv_copy(b)); jv ret; if (blen <= alen && memcmp(jv_string_value(a), jv_string_value(b), blen) == 0) ret = jv_true(); else ret = jv_false(); jv_free(a); jv_free(b); return ret; } static jv f_endswith(jq_state *jq, jv a, jv b) { if (jv_get_kind(a) != JV_KIND_STRING || jv_get_kind(b) != JV_KIND_STRING) return ret_error2(a, b, jv_string("endswith() requires string inputs")); const char *astr = jv_string_value(a); const char *bstr = jv_string_value(b); size_t alen = jv_string_length_bytes(jv_copy(a)); size_t blen = jv_string_length_bytes(jv_copy(b)); jv ret; if (alen < blen || memcmp(astr + (alen - blen), bstr, blen) != 0) ret = jv_false(); else ret = jv_true(); jv_free(a); jv_free(b); return ret; } jv binop_minus(jv a, jv b) { if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) { jv r = jv_number(jv_number_value(a) - jv_number_value(b)); jv_free(a); jv_free(b); return r; } else if (jv_get_kind(a) == JV_KIND_ARRAY && jv_get_kind(b) == JV_KIND_ARRAY) { jv out = jv_array(); jv_array_foreach(a, i, x) { int include = 1; jv_array_foreach(b, j, y) { if (jv_equal(jv_copy(x), y)) { include = 0; break; } } if (include) out = jv_array_append(out, jv_copy(x)); jv_free(x); } jv_free(a); jv_free(b); return out; } else { return type_error2(a, b, "cannot be subtracted"); } } jv binop_multiply(jv a, jv b) { jv_kind ak = jv_get_kind(a); jv_kind bk = jv_get_kind(b); if (ak == JV_KIND_NUMBER && bk == JV_KIND_NUMBER) { jv r = jv_number(jv_number_value(a) * jv_number_value(b)); jv_free(a); jv_free(b); return r; } else if ((ak == JV_KIND_STRING && bk == JV_KIND_NUMBER) || (ak == JV_KIND_NUMBER && bk == JV_KIND_STRING)) { jv str = a; jv num = b; if (ak == JV_KIND_NUMBER) { str = b; num = a; } jv res; double d = jv_number_value(num); if (d < 0 || isnan(d)) { res = jv_null(); } else { int n = d; size_t alen = jv_string_length_bytes(jv_copy(str)); res = jv_string_empty(alen * n); for (; n > 0; n--) { res = jv_string_append_buf(res, jv_string_value(str), alen); } } jv_free(str); jv_free(num); return res; } else if (ak == JV_KIND_OBJECT && bk == JV_KIND_OBJECT) { return jv_object_merge_recursive(a, b); } else { return type_error2(a, b, "cannot be multiplied"); } } jv binop_divide(jv a, jv b) { if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) { if (jv_number_value(b) == 0.0) return type_error2(a, b, "cannot be divided because the divisor is zero"); jv r = jv_number(jv_number_value(a) / jv_number_value(b)); jv_free(a); jv_free(b); return r; } else if (jv_get_kind(a) == JV_KIND_STRING && jv_get_kind(b) == JV_KIND_STRING) { return jv_string_split(a, b); } else { return type_error2(a, b, "cannot be divided"); } } #define dtoi(n) ((n) < INTMAX_MIN ? INTMAX_MIN : -(n) < INTMAX_MIN ? INTMAX_MAX : (intmax_t)(n)) jv binop_mod(jv a, jv b) { if (jv_get_kind(a) == JV_KIND_NUMBER && jv_get_kind(b) == JV_KIND_NUMBER) { double na = jv_number_value(a); double nb = jv_number_value(b); if (isnan(na) || isnan(nb)) { jv_free(a); jv_free(b); return jv_number(NAN); } intmax_t bi = dtoi(nb); if (bi == 0) return type_error2(a, b, "cannot be divided (remainder) because the divisor is zero"); // Check if the divisor is -1 to avoid overflow when the dividend is INTMAX_MIN. jv r = jv_number(bi == -1 ? 0 : dtoi(na) % bi); jv_free(a); jv_free(b); return r; } else { return type_error2(a, b, "cannot be divided (remainder)"); } } #undef dtoi jv binop_equal(jv a, jv b) { return jv_bool(jv_equal(a, b)); } jv binop_notequal(jv a, jv b) { return jv_bool(!jv_equal(a, b)); } enum cmp_op { CMP_OP_LESS, CMP_OP_GREATER, CMP_OP_LESSEQ, CMP_OP_GREATEREQ }; static jv order_cmp(jv a, jv b, enum cmp_op op) { int r = jv_cmp(a, b); return jv_bool((op == CMP_OP_LESS && r < 0) || (op == CMP_OP_LESSEQ && r <= 0) || (op == CMP_OP_GREATEREQ && r >= 0) || (op == CMP_OP_GREATER && r > 0)); } jv binop_less(jv a, jv b) { return order_cmp(a, b, CMP_OP_LESS); } jv binop_greater(jv a, jv b) { return order_cmp(a, b, CMP_OP_GREATER); } jv binop_lesseq(jv a, jv b) { return order_cmp(a, b, CMP_OP_LESSEQ); } jv binop_greatereq(jv a, jv b) { return order_cmp(a, b, CMP_OP_GREATEREQ); } static jv f_contains(jq_state *jq, jv a, jv b) { if (jv_get_kind(a) == jv_get_kind(b)) { return jv_bool(jv_contains(a, b)); } else { return type_error2(a, b, "cannot have their containment checked"); } } static jv f_dump(jq_state *jq, jv input) { return jv_dump_string(input, 0); } static jv f_json_parse(jq_state *jq, jv input) { if (jv_get_kind(input) != JV_KIND_STRING) return type_error(input, "only strings can be parsed"); jv res = jv_parse_sized(jv_string_value(input), jv_string_length_bytes(jv_copy(input))); jv_free(input); return res; } static jv f_tonumber(jq_state *jq, jv input) { if (jv_get_kind(input) == JV_KIND_NUMBER) { return input; } if (jv_get_kind(input) == JV_KIND_STRING) { const char* s = jv_string_value(input); #ifdef USE_DECNUM jv number = jv_number_with_literal(s); if (jv_get_kind(number) == JV_KIND_INVALID) { return type_error(input, "cannot be parsed as a number"); } #else char *end = 0; double d = jvp_strtod(tsd_dtoa_context_get(), s, &end); if (end == 0 || *end != 0) { return type_error(input, "cannot be parsed as a number"); } jv number = jv_number(d); #endif jv_free(input); return number; } return type_error(input, "cannot be parsed as a number"); } static jv f_length(jq_state *jq, jv input) { if (jv_get_kind(input) == JV_KIND_ARRAY) { return jv_number(jv_array_length(input)); } else if (jv_get_kind(input) == JV_KIND_OBJECT) { return jv_number(jv_object_length(input)); } else if (jv_get_kind(input) == JV_KIND_STRING) { return jv_number(jv_string_length_codepoints(input)); } else if (jv_get_kind(input) == JV_KIND_NUMBER) { jv r = jv_number(fabs(jv_number_value(input))); jv_free(input); return r; } else if (jv_get_kind(input) == JV_KIND_NULL) { jv_free(input); return jv_number(0); } else { return type_error(input, "has no length"); } } static jv f_tostring(jq_state *jq, jv input) { if (jv_get_kind(input) == JV_KIND_STRING) { return input; } else { return jv_dump_string(input, 0); } } static jv f_utf8bytelength(jq_state *jq, jv input) { if (jv_get_kind(input) != JV_KIND_STRING) return type_error(input, "only strings have UTF-8 byte length"); return jv_number(jv_string_length_bytes(input)); } #define CHARS_ALPHANUM "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789" static const unsigned char BASE64_ENCODE_TABLE[64 + 1] = CHARS_ALPHANUM "+/"; static const unsigned char BASE64_INVALID_ENTRY = 0xFF; static const unsigned char BASE64_DECODE_TABLE[255] = { 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 62, // + 0xFF, 0xFF, 0xFF, 63, // / 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, // 0-9 0xFF, 0xFF, 0xFF, 99, // = 0xFF, 0xFF, 0xFF, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, // A-Z 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, // a-z 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF }; static jv escape_string(jv input, const char* escapings) { assert(jv_get_kind(input) == JV_KIND_STRING); const char* lookup[128] = {0}; const char* p = escapings; lookup[0] = "\\0"; while (*p) { lookup[(int)*p] = p+1; p++; p += strlen(p); p++; } jv ret = jv_string(""); const char* i = jv_string_value(input); const char* end = i + jv_string_length_bytes(jv_copy(input)); const char* cstart; int c = 0; while ((i = jvp_utf8_next((cstart = i), end, &c))) { if (c < 128 && lookup[c]) { ret = jv_string_append_str(ret, lookup[c]); } else { ret = jv_string_append_buf(ret, cstart, i - cstart); } } jv_free(input); return ret; } static jv f_format(jq_state *jq, jv input, jv fmt) { if (jv_get_kind(fmt) != JV_KIND_STRING) { jv_free(input); return type_error(fmt, "is not a valid format"); } const char* fmt_s = jv_string_value(fmt); if (!strcmp(fmt_s, "json")) { jv_free(fmt); return jv_dump_string(input, 0); } else if (!strcmp(fmt_s, "text")) { jv_free(fmt); return f_tostring(jq, input); } else if (!strcmp(fmt_s, "csv") || !strcmp(fmt_s, "tsv")) { const char *quotes, *sep, *escapings; const char *msg; if (!strcmp(fmt_s, "csv")) { msg = "cannot be csv-formatted, only array"; quotes = "\""; sep = ","; escapings = "\"\"\"\0"; } else { msg = "cannot be tsv-formatted, only array"; assert(!strcmp(fmt_s, "tsv")); quotes = ""; sep = "\t"; escapings = "\t\\t\0\r\\r\0\n\\n\0\\\\\\\0"; } jv_free(fmt); if (jv_get_kind(input) != JV_KIND_ARRAY) return type_error(input, msg); jv line = jv_string(""); jv_array_foreach(input, i, x) { if (i) line = jv_string_append_str(line, sep); switch (jv_get_kind(x)) { case JV_KIND_NULL: /* null rendered as empty string */ jv_free(x); break; case JV_KIND_TRUE: case JV_KIND_FALSE: line = jv_string_concat(line, jv_dump_string(x, 0)); break; case JV_KIND_NUMBER: if (jv_number_value(x) != jv_number_value(x)) { /* NaN, render as empty string */ jv_free(x); } else { line = jv_string_concat(line, jv_dump_string(x, 0)); } break; case JV_KIND_STRING: { line = jv_string_append_str(line, quotes); line = jv_string_concat(line, escape_string(x, escapings)); line = jv_string_append_str(line, quotes); break; } default: jv_free(input); jv_free(line); return type_error(x, "is not valid in a csv row"); } } jv_free(input); return line; } else if (!strcmp(fmt_s, "html")) { jv_free(fmt); return escape_string(f_tostring(jq, input), "&&\0<<\0>>\0''\0\""\0"); } else if (!strcmp(fmt_s, "uri")) { jv_free(fmt); input = f_tostring(jq, input); int unreserved[128] = {0}; const char* p = CHARS_ALPHANUM "-_.~"; while (*p) unreserved[(int)*p++] = 1; jv line = jv_string(""); const char* s = jv_string_value(input); for (int i=0; i= 3 ? 3 : len-i; for (int j=0; j<3; j++) { code <<= 8; code |= j < n ? (unsigned)data[i+j] : 0; } char buf[4]; for (int j=0; j<4; j++) { buf[j] = BASE64_ENCODE_TABLE[(code >> (18 - j*6)) & 0x3f]; } if (n < 3) buf[3] = '='; if (n < 2) buf[2] = '='; line = jv_string_append_buf(line, buf, sizeof(buf)); } jv_free(input); return line; } else if (!strcmp(fmt_s, "base64d")) { jv_free(fmt); input = f_tostring(jq, input); const unsigned char* data = (const unsigned char*)jv_string_value(input); int len = jv_string_length_bytes(jv_copy(input)); size_t decoded_len = (3 * (size_t)len) / 4; // 3 usable bytes for every 4 bytes of input char *result = jv_mem_calloc(decoded_len, sizeof(char)); memset(result, 0, decoded_len * sizeof(char)); uint32_t ri = 0; int input_bytes_read=0; uint32_t code = 0; for (int i=0; i> 16) & 0xFF; result[ri++] = (code >> 8) & 0xFF; result[ri++] = code & 0xFF; input_bytes_read = 0; code = 0; } } if (input_bytes_read == 3) { result[ri++] = (code >> 10) & 0xFF; result[ri++] = (code >> 2) & 0xFF; } else if (input_bytes_read == 2) { result[ri++] = (code >> 4) & 0xFF; } else if (input_bytes_read == 1) { free(result); return type_error(input, "trailing base64 byte found"); } jv line = jv_string_sized(result, ri); jv_free(input); free(result); return line; } else { jv_free(input); return jv_invalid_with_msg(jv_string_concat(fmt, jv_string(" is not a valid format"))); } } static jv f_keys(jq_state *jq, jv input) { if (jv_get_kind(input) == JV_KIND_OBJECT || jv_get_kind(input) == JV_KIND_ARRAY) { return jv_keys(input); } else { return type_error(input, "has no keys"); } } static jv f_keys_unsorted(jq_state *jq, jv input) { if (jv_get_kind(input) == JV_KIND_OBJECT || jv_get_kind(input) == JV_KIND_ARRAY) { return jv_keys_unsorted(input); } else { return type_error(input, "has no keys"); } } static jv f_sort(jq_state *jq, jv input){ if (jv_get_kind(input) == JV_KIND_ARRAY) { return jv_sort(input, jv_copy(input)); } else { return type_error(input, "cannot be sorted, as it is not an array"); } } static jv f_sort_by_impl(jq_state *jq, jv input, jv keys) { if (jv_get_kind(input) == JV_KIND_ARRAY && jv_get_kind(keys) == JV_KIND_ARRAY && jv_array_length(jv_copy(input)) == jv_array_length(jv_copy(keys))) { return jv_sort(input, keys); } else { return type_error2(input, keys, "cannot be sorted, as they are not both arrays"); } } static jv f_group_by_impl(jq_state *jq, jv input, jv keys) { if (jv_get_kind(input) == JV_KIND_ARRAY && jv_get_kind(keys) == JV_KIND_ARRAY && jv_array_length(jv_copy(input)) == jv_array_length(jv_copy(keys))) { return jv_group(input, keys); } else { return type_error2(input, keys, "cannot be sorted, as they are not both arrays"); } } #ifdef HAVE_LIBONIG static int f_match_name_iter(const UChar* name, const UChar *name_end, int ngroups, int *groups, regex_t *reg, void *arg) { jv captures = *(jv*)arg; for (int i = 0; i < ngroups; ++i) { jv cap = jv_array_get(jv_copy(captures),groups[i]-1); if (jv_get_kind(cap) == JV_KIND_OBJECT) { cap = jv_object_set(cap, jv_string("name"), jv_string_sized((const char*)name, name_end-name)); captures = jv_array_set(captures,groups[i]-1,cap); } else { jv_free(cap); } } *(jv *)arg = captures; return 0; } static jv f_match(jq_state *jq, jv input, jv regex, jv modifiers, jv testmode) { int test = jv_equal(testmode, jv_true()); jv result; int onigret; int global = 0; regex_t *reg; OnigErrorInfo einfo; OnigRegion* region; if (jv_get_kind(input) != JV_KIND_STRING) { jv_free(regex); jv_free(modifiers); return type_error(input, "cannot be matched, as it is not a string"); } if (jv_get_kind(regex) != JV_KIND_STRING) { jv_free(input); jv_free(modifiers); return type_error(regex, "is not a string"); } OnigOptionType options = ONIG_OPTION_CAPTURE_GROUP; if (jv_get_kind(modifiers) == JV_KIND_STRING) { jv modarray = jv_string_explode(jv_copy(modifiers)); jv_array_foreach(modarray, i, mod) { switch ((int)jv_number_value(mod)) { case 'g': global = 1; break; case 'i': options |= ONIG_OPTION_IGNORECASE; break; case 'x': options |= ONIG_OPTION_EXTEND; break; case 'm': options |= ONIG_OPTION_MULTILINE; break; case 's': options |= ONIG_OPTION_SINGLELINE; break; case 'p': options |= ONIG_OPTION_MULTILINE | ONIG_OPTION_SINGLELINE; break; case 'l': options |= ONIG_OPTION_FIND_LONGEST; break; case 'n': options |= ONIG_OPTION_FIND_NOT_EMPTY; break; default: jv_free(input); jv_free(regex); jv_free(modarray); return jv_invalid_with_msg(jv_string_concat(modifiers, jv_string(" is not a valid modifier string"))); } } jv_free(modarray); } else if (jv_get_kind(modifiers) != JV_KIND_NULL) { // If it isn't a string or null, then it is the wrong type... jv_free(input); jv_free(regex); return type_error(modifiers, "is not a string"); } jv_free(modifiers); onigret = onig_new(®, (const UChar*)jv_string_value(regex), (const UChar*)(jv_string_value(regex) + jv_string_length_bytes(jv_copy(regex))), options, ONIG_ENCODING_UTF8, ONIG_SYNTAX_PERL_NG, &einfo); if (onigret != ONIG_NORMAL) { UChar ebuf[ONIG_MAX_ERROR_MESSAGE_LEN]; onig_error_code_to_str(ebuf, onigret, &einfo); jv_free(input); jv_free(regex); return jv_invalid_with_msg(jv_string_concat(jv_string("Regex failure: "), jv_string((char*)ebuf))); } result = test ? jv_false() : jv_array(); const char *input_string = jv_string_value(input); const UChar* start = (const UChar*)jv_string_value(input); const unsigned long length = jv_string_length_bytes(jv_copy(input)); const UChar* end = start + length; region = onig_region_new(); do { onigret = onig_search(reg, (const UChar*)jv_string_value(input), end, /* string boundaries */ start, end, /* search boundaries */ region, ONIG_OPTION_NONE); if (onigret >= 0) { if (test) { result = jv_true(); break; } // Zero-width match if (region->end[0] == region->beg[0]) { unsigned long idx; const char *fr = (const char*)input_string; for (idx = 0; fr < input_string+region->beg[0]; idx++) { fr += jvp_utf8_decode_length(*fr); } jv match = jv_object_set(jv_object(), jv_string("offset"), jv_number(idx)); match = jv_object_set(match, jv_string("length"), jv_number(0)); match = jv_object_set(match, jv_string("string"), jv_string("")); jv captures = jv_array(); for (int i = 1; i < region->num_regs; ++i) { jv cap = jv_object(); cap = jv_object_set(cap, jv_string("offset"), jv_number(idx)); cap = jv_object_set(cap, jv_string("string"), jv_string("")); cap = jv_object_set(cap, jv_string("length"), jv_number(0)); cap = jv_object_set(cap, jv_string("name"), jv_null()); captures = jv_array_append(captures, cap); } onig_foreach_name(reg, f_match_name_iter, &captures); match = jv_object_set(match, jv_string("captures"), captures); result = jv_array_append(result, match); // ensure '"qux" | match("(?=u)"; "g")' matches just once start = (const UChar*)(input_string+region->end[0]+1); continue; } unsigned long idx; unsigned long len; const char *fr = (const char*)input_string; for (idx = len = 0; fr < input_string+region->end[0]; len++) { if (fr == input_string+region->beg[0]) idx = len, len=0; fr += jvp_utf8_decode_length(*fr); } jv match = jv_object_set(jv_object(), jv_string("offset"), jv_number(idx)); unsigned long blen = region->end[0]-region->beg[0]; match = jv_object_set(match, jv_string("length"), jv_number(len)); match = jv_object_set(match, jv_string("string"), jv_string_sized(input_string+region->beg[0],blen)); jv captures = jv_array(); for (int i = 1; i < region->num_regs; ++i) { // Empty capture. if (region->beg[i] == region->end[i]) { // Didn't match. jv cap; if (region->beg[i] == -1) { cap = jv_object_set(jv_object(), jv_string("offset"), jv_number(-1)); cap = jv_object_set(cap, jv_string("string"), jv_null()); } else { fr = input_string; for (idx = 0; fr < input_string+region->beg[i]; idx++) { fr += jvp_utf8_decode_length(*fr); } cap = jv_object_set(jv_object(), jv_string("offset"), jv_number(idx)); cap = jv_object_set(cap, jv_string("string"), jv_string("")); } cap = jv_object_set(cap, jv_string("length"), jv_number(0)); cap = jv_object_set(cap, jv_string("name"), jv_null()); captures = jv_array_append(captures, cap); continue; } fr = input_string; for (idx = len = 0; fr < input_string+region->end[i]; len++) { if (fr == input_string+region->beg[i]) idx = len, len=0; fr += jvp_utf8_decode_length(*fr); } blen = region->end[i]-region->beg[i]; jv cap = jv_object_set(jv_object(), jv_string("offset"), jv_number(idx)); cap = jv_object_set(cap, jv_string("length"), jv_number(len)); cap = jv_object_set(cap, jv_string("string"), jv_string_sized(input_string+region->beg[i],blen)); cap = jv_object_set(cap, jv_string("name"), jv_null()); captures = jv_array_append(captures,cap); } onig_foreach_name(reg,f_match_name_iter,&captures); match = jv_object_set(match, jv_string("captures"), captures); result = jv_array_append(result, match); start = (const UChar*)(input_string+region->end[0]); onig_region_free(region,0); } else if (onigret == ONIG_MISMATCH) { break; } else { /* Error */ UChar ebuf[ONIG_MAX_ERROR_MESSAGE_LEN]; onig_error_code_to_str(ebuf, onigret, &einfo); jv_free(result); result = jv_invalid_with_msg(jv_string_concat(jv_string("Regex failure: "), jv_string((char*)ebuf))); break; } } while (global && start <= end); onig_region_free(region,1); region = NULL; onig_free(reg); jv_free(input); jv_free(regex); return result; } #else /* !HAVE_LIBONIG */ static jv f_match(jq_state *jq, jv input, jv regex, jv modifiers, jv testmode) { jv_free(input); jv_free(regex); jv_free(modifiers); jv_free(testmode); return jv_invalid_with_msg(jv_string("jq was compiled without ONIGURUMA regex library. match/test/sub and related functions are not available.")); } #endif /* HAVE_LIBONIG */ static jv minmax_by(jv values, jv keys, int is_min) { if (jv_get_kind(values) != JV_KIND_ARRAY) return type_error2(values, keys, "cannot be iterated over"); if (jv_get_kind(keys) != JV_KIND_ARRAY) return type_error2(values, keys, "cannot be iterated over"); if (jv_array_length(jv_copy(values)) != jv_array_length(jv_copy(keys))) return type_error2(values, keys, "have wrong length"); if (jv_array_length(jv_copy(values)) == 0) { jv_free(values); jv_free(keys); return jv_null(); } jv ret = jv_array_get(jv_copy(values), 0); jv retkey = jv_array_get(jv_copy(keys), 0); for (int i=1; i 0x10FFFF || (nv >= 0xD800 && nv <= 0xDFFF)) nv = 0xFFFD; // U+FFFD REPLACEMENT CHARACTER s = jv_string_append_codepoint(s, nv); } jv_free(a); return s; } static jv f_setpath(jq_state *jq, jv a, jv b, jv c) { return jv_setpath(a, b, c); } extern jv _jq_path_append(jq_state *, jv, jv, jv); static jv f_getpath(jq_state *jq, jv a, jv b) { return _jq_path_append(jq, a, b, jv_getpath(jv_copy(a), jv_copy(b))); } static jv f_delpaths(jq_state *jq, jv a, jv b) { return jv_delpaths(a, b); } static jv f_has(jq_state *jq, jv a, jv b) { return jv_has(a, b); } static jv f_modulemeta(jq_state *jq, jv a) { if (jv_get_kind(a) != JV_KIND_STRING) { return ret_error(a, jv_string("modulemeta input module name must be a string")); } return load_module_meta(jq, a); } static jv f_input(jq_state *jq, jv input) { jv_free(input); jq_input_cb cb; void *data; jq_get_input_cb(jq, &cb, &data); if (cb == NULL) return jv_invalid_with_msg(jv_string("break")); jv v = cb(jq, data); if (jv_is_valid(v) || jv_invalid_has_msg(jv_copy(v))) return v; return jv_invalid_with_msg(jv_string("break")); } static jv f_debug(jq_state *jq, jv input) { jq_msg_cb cb; void *data; jq_get_debug_cb(jq, &cb, &data); if (cb != NULL) cb(data, jv_copy(input)); return input; } static jv f_stderr(jq_state *jq, jv input) { jq_msg_cb cb; void *data; jq_get_stderr_cb(jq, &cb, &data); if (cb != NULL) cb(data, jv_copy(input)); return input; } static jv tm2jv(struct tm *tm) { return JV_ARRAY(jv_number(tm->tm_year + 1900), jv_number(tm->tm_mon), jv_number(tm->tm_mday), jv_number(tm->tm_hour), jv_number(tm->tm_min), jv_number(tm->tm_sec), jv_number(tm->tm_wday), jv_number(tm->tm_yday)); } #if defined(WIN32) && !defined(HAVE_SETENV) static int setenv(const char *var, const char *val, int ovr) { BOOL b; char c[2]; if (!ovr) { DWORD d; d = GetEnvironmentVariableA (var, c, 2); if (0 != d && GetLastError () != ERROR_ENVVAR_NOT_FOUND) { return d; } } b = SetEnvironmentVariableA (var, val); if (b) { return 0; } return 1; } #endif /* * mktime() has side-effects and anyways, returns time in the local * timezone, not UTC. We want timegm(), which isn't standard. * * To make things worse, mktime() tells you what the timezone * adjustment is, but you have to #define _BSD_SOURCE to get this * field of struct tm on some systems. * * This is all to blame on POSIX, of course. * * Our wrapper tries to use timegm() if available, or mktime() and * correct for its side-effects if possible. * * Returns (time_t)-2 if mktime()'s side-effects cannot be corrected. */ static time_t my_mktime(struct tm *tm) { #ifdef HAVE_TIMEGM return timegm(tm); #elif HAVE_TM_TM_GMT_OFF time_t t = mktime(tm); if (t == (time_t)-1) return t; return t + tm->tm_gmtoff; #elif HAVE_TM___TM_GMT_OFF time_t t = mktime(tm); if (t == (time_t)-1) return t; return t + tm->__tm_gmtoff; #elif WIN32 return _mkgmtime(tm); #else char *tz; tz = (tz = getenv("TZ")) != NULL ? strdup(tz) : NULL; if (tz != NULL) setenv("TZ", "", 1); time_t t = mktime(tm); if (tz != NULL) setenv("TZ", tz, 1); return t; #endif } /* Compute and set tm_wday */ static void set_tm_wday(struct tm *tm) { /* * https://en.wikipedia.org/wiki/Determination_of_the_day_of_the_week#Gauss.27s_algorithm * https://cs.uwaterloo.ca/~alopez-o/math-faq/node73.html * * Tested with dates from 1900-01-01 through 2100-01-01. This * algorithm produces the wrong day-of-the-week number for dates in * the range 1900-01-01..1900-02-28, and for 2100-01-01..2100-02-28. * Since this is only needed on OS X and *BSD, we might just document * this. */ int century = (1900 + tm->tm_year) / 100; int year = (1900 + tm->tm_year) % 100; if (tm->tm_mon < 2) year--; /* * The month value in the wday computation below is shifted so that * March is 1, April is 2, .., January is 11, and February is 12. */ int mon = tm->tm_mon - 1; if (mon < 1) mon += 12; int wday = (tm->tm_mday + (int)floor((2.6 * mon - 0.2)) + year + (int)floor(year / 4.0) + (int)floor(century / 4.0) - 2 * century) % 7; if (wday < 0) wday += 7; #if 0 /* See commentary above */ assert(wday == tm->tm_wday || tm->tm_wday == 8); #endif tm->tm_wday = wday; } /* * Compute and set tm_yday. * */ static void set_tm_yday(struct tm *tm) { static const int d[] = {0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334}; int mon = tm->tm_mon; int year = 1900 + tm->tm_year; int leap_day = 0; if (tm->tm_mon > 1 && ((year % 4 == 0 && year % 100 != 0) || (year % 400 == 0))) leap_day = 1; /* Bound check index into d[] */ if (mon < 0) mon = -mon; if (mon > 11) mon %= 12; int yday = d[mon] + leap_day + tm->tm_mday - 1; assert(yday == tm->tm_yday || tm->tm_yday == 367); tm->tm_yday = yday; } static jv f_strptime(jq_state *jq, jv a, jv b) { if (jv_get_kind(a) != JV_KIND_STRING || jv_get_kind(b) != JV_KIND_STRING) { return ret_error2(a, b, jv_string("strptime/1 requires string inputs and arguments")); } struct tm tm; memset(&tm, 0, sizeof(tm)); tm.tm_wday = 8; // sentinel tm.tm_yday = 367; // sentinel const char *input = jv_string_value(a); const char *fmt = jv_string_value(b); #ifndef HAVE_STRPTIME if (strcmp(fmt, "%Y-%m-%dT%H:%M:%SZ")) { return ret_error2(a, b, jv_string("strptime/1 only supports ISO 8601 on this platform")); } #endif const char *end = strptime(input, fmt, &tm); if (end == NULL || (*end != '\0' && !isspace(*end))) { return ret_error2(a, b, jv_string_fmt("date \"%s\" does not match format \"%s\"", input, fmt)); } jv_free(b); /* * This is OS X or some *BSD whose strptime() is just not that * helpful! * * We don't know that the format string did involve parsing a * year, or a month (if tm->tm_mon == 0). But with our invalid * day-of-week and day-of-year sentinel checks above, the worst * this can do is produce garbage. */ #ifdef __APPLE__ /* * Apple has made it worse, and different versions of the OS have different * behaviors. Some versions just don't touch the fields, but others do, and * sometimes provide wrong answers, at that! We can't tell at compile-time * which behavior the target system will have, so instead we always use our * functions to set these on OS X, and document that %u and %j are * unsupported on OS X. */ set_tm_wday(&tm); set_tm_yday(&tm); #elif defined(WIN32) || !defined(HAVE_STRPTIME) set_tm_wday(&tm); #else if (tm.tm_wday == 8 && tm.tm_mday != 0 && tm.tm_mon >= 0 && tm.tm_mon <= 11) set_tm_wday(&tm); if (tm.tm_yday == 367 && tm.tm_mday != 0 && tm.tm_mon >= 0 && tm.tm_mon <= 11) set_tm_yday(&tm); #endif jv r = tm2jv(&tm); if (*end != '\0') r = jv_array_append(r, jv_string(end)); jv_free(a); // must come after `*end` because `end` is a pointer into `a`'s string return r; } static int jv2tm(jv a, struct tm *tm) { memset(tm, 0, sizeof(*tm)); static const size_t offsets[] = { offsetof(struct tm, tm_year), offsetof(struct tm, tm_mon), offsetof(struct tm, tm_mday), offsetof(struct tm, tm_hour), offsetof(struct tm, tm_min), offsetof(struct tm, tm_sec), offsetof(struct tm, tm_wday), offsetof(struct tm, tm_yday), }; for (size_t i = 0; i < (sizeof offsets / sizeof *offsets); ++i) { jv n = jv_array_get(jv_copy(a), i); if (!jv_is_valid(n)) break; if (jv_get_kind(n) != JV_KIND_NUMBER || jvp_number_is_nan(n)) { jv_free(a); jv_free(n); return 0; } double d = jv_number_value(n); if (i == 0) /* year */ d -= 1900; *(int *)((void *)tm + offsets[i]) = d < INT_MIN ? INT_MIN : d > INT_MAX ? INT_MAX : (int)d; jv_free(n); } // We use UTC everywhere (gettimeofday, gmtime) and UTC does not do DST. // Setting tm_isdst to 0 is done by the memset. // tm->tm_isdst = 0; // The standard permits the tm structure to contain additional members. We // hope it is okay to initialize them to zero, because the standard does not // provide an alternative. jv_free(a); return 1; } #undef TO_TM_FIELD static jv f_mktime(jq_state *jq, jv a) { if (jv_get_kind(a) != JV_KIND_ARRAY) return ret_error(a, jv_string("mktime requires array inputs")); if (jv_array_length(jv_copy(a)) < 6) return ret_error(a, jv_string("mktime requires parsed datetime inputs")); struct tm tm; if (!jv2tm(a, &tm)) return jv_invalid_with_msg(jv_string("mktime requires parsed datetime inputs")); time_t t = my_mktime(&tm); if (t == (time_t)-1) return jv_invalid_with_msg(jv_string("invalid gmtime representation")); if (t == (time_t)-2) return jv_invalid_with_msg(jv_string("mktime not supported on this platform")); return jv_number(t); } #ifdef HAVE_GMTIME_R static jv f_gmtime(jq_state *jq, jv a) { if (jv_get_kind(a) != JV_KIND_NUMBER) return ret_error(a, jv_string("gmtime() requires numeric inputs")); struct tm tm, *tmp; memset(&tm, 0, sizeof(tm)); double fsecs = jv_number_value(a); time_t secs = fsecs; jv_free(a); tmp = gmtime_r(&secs, &tm); if (tmp == NULL) return jv_invalid_with_msg(jv_string("error converting number of seconds since epoch to datetime")); a = tm2jv(tmp); return jv_array_set(a, 5, jv_number(jv_number_value(jv_array_get(jv_copy(a), 5)) + (fsecs - floor(fsecs)))); } #elif defined HAVE_GMTIME static jv f_gmtime(jq_state *jq, jv a) { if (jv_get_kind(a) != JV_KIND_NUMBER) return ret_error(a, jv_string("gmtime requires numeric inputs")); struct tm tm, *tmp; memset(&tm, 0, sizeof(tm)); double fsecs = jv_number_value(a); time_t secs = fsecs; jv_free(a); tmp = gmtime(&secs); if (tmp == NULL) return jv_invalid_with_msg(jv_string("error converting number of seconds since epoch to datetime")); a = tm2jv(tmp); return jv_array_set(a, 5, jv_number(jv_number_value(jv_array_get(jv_copy(a), 5)) + (fsecs - floor(fsecs)))); } #else static jv f_gmtime(jq_state *jq, jv a) { jv_free(a); return jv_invalid_with_msg(jv_string("gmtime not implemented on this platform")); } #endif #ifdef HAVE_LOCALTIME_R static jv f_localtime(jq_state *jq, jv a) { if (jv_get_kind(a) != JV_KIND_NUMBER) return ret_error(a, jv_string("localtime() requires numeric inputs")); struct tm tm, *tmp; memset(&tm, 0, sizeof(tm)); double fsecs = jv_number_value(a); time_t secs = fsecs; jv_free(a); tmp = localtime_r(&secs, &tm); if (tmp == NULL) return jv_invalid_with_msg(jv_string("error converting number of seconds since epoch to datetime")); a = tm2jv(tmp); return jv_array_set(a, 5, jv_number(jv_number_value(jv_array_get(jv_copy(a), 5)) + (fsecs - floor(fsecs)))); } #elif defined HAVE_GMTIME static jv f_localtime(jq_state *jq, jv a) { if (jv_get_kind(a) != JV_KIND_NUMBER) return ret_error(a, jv_string("localtime requires numeric inputs")); struct tm tm, *tmp; memset(&tm, 0, sizeof(tm)); double fsecs = jv_number_value(a); time_t secs = fsecs; jv_free(a); tmp = localtime(&secs); if (tmp == NULL) return jv_invalid_with_msg(jv_string("error converting number of seconds since epoch to datetime")); a = tm2jv(tmp); return jv_array_set(a, 5, jv_number(jv_number_value(jv_array_get(jv_copy(a), 5)) + (fsecs - floor(fsecs)))); } #else static jv f_localtime(jq_state *jq, jv a) { jv_free(a); return jv_invalid_with_msg(jv_string("localtime not implemented on this platform")); } #endif #ifdef HAVE_STRFTIME static jv f_strftime(jq_state *jq, jv a, jv b) { if (jv_get_kind(a) == JV_KIND_NUMBER) { a = f_gmtime(jq, a); if (!jv_is_valid(a)) { jv_free(b); return a; } } else if (jv_get_kind(a) != JV_KIND_ARRAY) { return ret_error2(a, b, jv_string("strftime/1 requires parsed datetime inputs")); } if (jv_get_kind(b) != JV_KIND_STRING) return ret_error2(a, b, jv_string("strftime/1 requires a string format")); struct tm tm; if (!jv2tm(a, &tm)) return ret_error(b, jv_string("strftime/1 requires parsed datetime inputs")); const char *fmt = jv_string_value(b); size_t alloced = strlen(fmt) + 100; char *buf = alloca(alloced); size_t n = strftime(buf, alloced, fmt, &tm); jv_free(b); /* POSIX doesn't provide errno values for strftime() failures; weird */ if (n == 0 || n > alloced) return jv_invalid_with_msg(jv_string("strftime/1: unknown system failure")); return jv_string(buf); } #else static jv f_strftime(jq_state *jq, jv a, jv b) { jv_free(a); jv_free(b); return jv_invalid_with_msg(jv_string("strftime/1 not implemented on this platform")); } #endif #ifdef HAVE_STRFTIME static jv f_strflocaltime(jq_state *jq, jv a, jv b) { if (jv_get_kind(a) == JV_KIND_NUMBER) { a = f_localtime(jq, a); } else if (jv_get_kind(a) != JV_KIND_ARRAY) { return ret_error2(a, b, jv_string("strflocaltime/1 requires parsed datetime inputs")); } if (jv_get_kind(b) != JV_KIND_STRING) return ret_error2(a, b, jv_string("strflocaltime/1 requires a string format")); struct tm tm; if (!jv2tm(a, &tm)) return ret_error(b, jv_string("strflocaltime/1 requires parsed datetime inputs")); const char *fmt = jv_string_value(b); size_t alloced = strlen(fmt) + 100; char *buf = alloca(alloced); size_t n = strftime(buf, alloced, fmt, &tm); jv_free(b); /* POSIX doesn't provide errno values for strftime() failures; weird */ if (n == 0 || n > alloced) return jv_invalid_with_msg(jv_string("strflocaltime/1: unknown system failure")); return jv_string(buf); } #else static jv f_strflocaltime(jq_state *jq, jv a, jv b) { jv_free(a); jv_free(b); return jv_invalid_with_msg(jv_string("strflocaltime/1 not implemented on this platform")); } #endif #ifdef HAVE_GETTIMEOFDAY static jv f_now(jq_state *jq, jv a) { jv_free(a); struct timeval tv; if (gettimeofday(&tv, NULL) == -1) return jv_number(time(NULL)); return jv_number(tv.tv_sec + tv.tv_usec / 1000000.0); } #else static jv f_now(jq_state *jq, jv a) { jv_free(a); return jv_number(time(NULL)); } #endif static jv f_current_filename(jq_state *jq, jv a) { jv_free(a); jv r = jq_util_input_get_current_filename(jq); if (jv_is_valid(r)) return r; jv_free(r); return jv_null(); } static jv f_current_line(jq_state *jq, jv a) { jv_free(a); return jq_util_input_get_current_line(jq); } #define LIBM_DD(name) \ {f_ ## name, #name, 1}, #define LIBM_DD_NO(name) LIBM_DD(name) #define LIBM_DA(name, type) LIBM_DD(name) #define LIBM_DA_NO(name, type) LIBM_DD(name) #define LIBM_DDD(name) \ {f_ ## name, #name, 3}, #define LIBM_DDD_NO(name) LIBM_DDD(name) #define LIBM_DDDD(name) \ {f_ ## name, #name, 4}, #define LIBM_DDDD_NO(name) LIBM_DDDD(name) static const struct cfunction function_list[] = { #include "libm.h" {f_negate, "_negate", 1}, #define BINOP(name) {f_ ## name, "_" #name, 3}, BINOPS #undef BINOP {f_dump, "tojson", 1}, {f_json_parse, "fromjson", 1}, {f_tonumber, "tonumber", 1}, {f_tostring, "tostring", 1}, {f_keys, "keys", 1}, {f_keys_unsorted, "keys_unsorted", 1}, {f_startswith, "startswith", 2}, {f_endswith, "endswith", 2}, {f_string_split, "split", 2}, {f_string_explode, "explode", 1}, {f_string_implode, "implode", 1}, {f_string_indexes, "_strindices", 2}, {f_string_trim, "trim", 1}, {f_string_ltrim, "ltrim", 1}, {f_string_rtrim, "rtrim", 1}, {f_setpath, "setpath", 3}, // FIXME typechecking {f_getpath, "getpath", 2}, {f_delpaths, "delpaths", 2}, {f_has, "has", 2}, {f_contains, "contains", 2}, {f_length, "length", 1}, {f_utf8bytelength, "utf8bytelength", 1}, {f_type, "type", 1}, {f_isinfinite, "isinfinite", 1}, {f_isnan, "isnan", 1}, {f_isnormal, "isnormal", 1}, {f_infinite, "infinite", 1}, {f_nan, "nan", 1}, {f_sort, "sort", 1}, {f_sort_by_impl, "_sort_by_impl", 2}, {f_group_by_impl, "_group_by_impl", 2}, {f_min, "min", 1}, {f_max, "max", 1}, {f_min_by_impl, "_min_by_impl", 2}, {f_max_by_impl, "_max_by_impl", 2}, {f_error, "error", 1}, {f_format, "format", 2}, {f_env, "env", 1}, {f_halt, "halt", 1}, {f_halt_error, "halt_error", 2}, {f_get_search_list, "get_search_list", 1}, {f_get_prog_origin, "get_prog_origin", 1}, {f_get_jq_origin, "get_jq_origin", 1}, {f_match, "_match_impl", 4}, {f_modulemeta, "modulemeta", 1}, {f_input, "input", 1}, {f_debug, "debug", 1}, {f_stderr, "stderr", 1}, {f_strptime, "strptime", 2}, {f_strftime, "strftime", 2}, {f_strflocaltime, "strflocaltime", 2}, {f_mktime, "mktime", 1}, {f_gmtime, "gmtime", 1}, {f_localtime, "localtime", 1}, {f_now, "now", 1}, {f_current_filename, "input_filename", 1}, {f_current_line, "input_line_number", 1}, }; #undef LIBM_DDDD_NO #undef LIBM_DDD_NO #undef LIBM_DD_NO #undef LIBM_DA_NO #undef LIBM_DDDD #undef LIBM_DDD #undef LIBM_DD #undef LIBM_DA struct bytecoded_builtin { const char* name; block code; }; static block bind_bytecoded_builtins(block b) { block builtins = gen_noop(); { struct bytecoded_builtin builtin_defs[] = { {"empty", gen_op_simple(BACKTRACK)}, {"not", gen_condbranch(gen_const(jv_false()), gen_const(jv_true()))} }; for (unsigned i=0; i", jq_builtins, sizeof(jq_builtins)-1); int nerrors = jq_parse_library(src, &builtins); assert(!nerrors); locfile_free(src); builtins = bind_bytecoded_builtins(builtins); builtins = gen_cbinding(function_list, sizeof(function_list)/sizeof(function_list[0]), builtins); builtins = gen_builtin_list(builtins); *bb = block_bind_referenced(builtins, *bb, OP_IS_CALL_PSEUDO); return nerrors; }