/* * testext.c - tests for the extension API. */ /* * Copyright (C) 2012, 2013, 2014, 2015 * the Free Software Foundation, Inc. * * This file is part of GAWK, the GNU implementation of the * AWK Programming Language. * * GAWK is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or * (at your option) any later version. * * GAWK is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include #include "gawkapi.h" static const gawk_api_t *api; /* for convenience macros to work */ static awk_ext_id_t ext_id; static const char *ext_version = "testext extension: version 1.0"; int plugin_is_GPL_compatible; static void fill_in_array(awk_value_t *value); #ifdef __MINGW32__ unsigned int getuid (void) { /* See pc/getid.c. */ return 0; } #endif /* valrep2str --- turn a value into a string */ static const char * valrep2str(const awk_value_t *value) { static char buf[BUFSIZ]; int size = BUFSIZ - 3; switch (value->val_type) { case AWK_UNDEFINED: strcpy(buf, ""); break; case AWK_ARRAY: strcpy(buf, ""); break; case AWK_SCALAR: strcpy(buf, ""); break; case AWK_VALUE_COOKIE: strcpy(buf, ""); break; case AWK_REGEX: case AWK_STRNUM: case AWK_STRING: if (value->str_value.len < size) size = value->str_value.len; sprintf(buf, "\"%.*s\"", size, value->str_value.str); break; case AWK_NUMBER: sprintf(buf, "%g", value->num_value); break; } return buf; } /* * The awk code for these tests is embedded in this file and then extracted * dynamically to create the script that is run together with this extension. * Extraction requires the format for awk code where test code is enclosed * in a BEGIN block, with the BEGIN and close brace on lines by themselves * and at the front of the lines. */ /* @load "testext" BEGIN { n = split("blacky rusty sophie raincloud lucky", pets) printf("pets has %d elements\n", length(pets)) ret = dump_array_and_delete("pets", "3") printf("dump_array_and_delete(pets) returned %d\n", ret) if ("3" in pets) printf("dump_array_and_delete() did NOT remove index \"3\"!\n") else printf("dump_array_and_delete() did remove index \"3\"!\n") print "" } */ static awk_value_t * dump_array_and_delete(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t value, value2, value3; awk_flat_array_t *flat_array; size_t count; char *name; int i; assert(result != NULL); make_number(0.0, result); if (nargs != 2) { printf("dump_array_and_delete: nargs not right (%d should be 2)\n", nargs); goto out; } /* get argument named array as flat array and print it */ if (get_argument(0, AWK_STRING, & value)) { name = value.str_value.str; if (sym_lookup(name, AWK_ARRAY, & value2)) printf("dump_array_and_delete: sym_lookup of %s passed\n", name); else { printf("dump_array_and_delete: sym_lookup of %s failed\n", name); goto out; } } else { printf("dump_array_and_delete: get_argument(0) failed\n"); goto out; } if (! get_element_count(value2.array_cookie, & count)) { printf("dump_array_and_delete: get_element_count failed\n"); goto out; } printf("dump_array_and_delete: incoming size is %lu\n", (unsigned long) count); if (! flatten_array(value2.array_cookie, & flat_array)) { printf("dump_array_and_delete: could not flatten array\n"); goto out; } if (flat_array->count != count) { printf("dump_array_and_delete: flat_array->count (%lu) != count (%lu)\n", (unsigned long) flat_array->count, (unsigned long) count); goto out; } if (! get_argument(1, AWK_STRING, & value3)) { printf("dump_array_and_delete: get_argument(1) failed\n"); goto out; } for (i = 0; i < flat_array->count; i++) { printf("\t%s[\"%.*s\"] = %s\n", name, (int) flat_array->elements[i].index.str_value.len, flat_array->elements[i].index.str_value.str, valrep2str(& flat_array->elements[i].value)); if (strcmp(value3.str_value.str, flat_array->elements[i].index.str_value.str) == 0) { flat_array->elements[i].flags |= AWK_ELEMENT_DELETE; printf("dump_array_and_delete: marking element \"%s\" for deletion\n", flat_array->elements[i].index.str_value.str); } } if (! release_flattened_array(value2.array_cookie, flat_array)) { printf("dump_array_and_delete: could not release flattened array\n"); goto out; } make_number(1.0, result); out: return result; } /* BEGIN { ENVIRON["testext"]++ try_modify_environ() if ("testext" in ENVIRON) print "try_del_environ() could not delete element - pass" else print "try_del_environ() deleted element! - fail" if ("testext2" in ENVIRON) print "try_del_environ() added an element - fail" else print "try_del_environ() could not add an element - pass" } */ static awk_value_t * try_modify_environ(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t value, index, newvalue; awk_flat_array_t *flat_array; awk_array_t environ_array; size_t count; int i; assert(result != NULL); make_number(0.0, result); if (nargs != 0) { printf("try_modify_environ: nargs not right (%d should be 0)\n", nargs); goto out; } /* get ENVIRON array */ if (sym_lookup("ENVIRON", AWK_ARRAY, & value)) printf("try_modify_environ: sym_lookup of ENVIRON passed\n"); else { printf("try_modify_environ: sym_lookup of ENVIRON failed\n"); goto out; } environ_array = value.array_cookie; if (! get_element_count(environ_array, & count)) { printf("try_modify_environ: get_element_count failed\n"); goto out; } /* setting an array element should fail */ (void) make_const_string("testext2", 8, & index); (void) make_const_string("a value", 7, & value); if (set_array_element(environ_array, & index, & newvalue)) { printf("try_modify_environ: set_array_element of ENVIRON passed\n"); } else { printf("try_modify_environ: set_array_element of ENVIRON failed\n"); gawk_free(index.str_value.str); gawk_free(value.str_value.str); } if (! flatten_array(environ_array, & flat_array)) { printf("try_modify_environ: could not flatten array\n"); goto out; } if (flat_array->count != count) { printf("try_modify_environ: flat_array->count (%lu) != count (%lu)\n", (unsigned long) flat_array->count, (unsigned long) count); goto out; } for (i = 0; i < flat_array->count; i++) { /* don't print */ /* printf("\t%s[\"%.*s\"] = %s\n", name, (int) flat_array->elements[i].index.str_value.len, flat_array->elements[i].index.str_value.str, valrep2str(& flat_array->elements[i].value)); */ if (strcmp("testext", flat_array->elements[i].index.str_value.str) == 0) { flat_array->elements[i].flags |= AWK_ELEMENT_DELETE; printf("try_modify_environ: marking element \"%s\" for deletion\n", flat_array->elements[i].index.str_value.str); } } if (! release_flattened_array(environ_array, flat_array)) { printf("try_modify_environ: could not release flattened array\n"); goto out; } make_number(1.0, result); out: return result; } /* BEGIN { testvar = "One Adam Twelve" ret = var_test("testvar") printf("var_test() returned %d, test_var = %s\n", ret, testvar) print "" } */ static awk_value_t * var_test(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t value, value2; awk_value_t *valp; assert(result != NULL); make_number(0.0, result); if (nargs != 1) { printf("var_test: nargs not right (%d should be 1)\n", nargs); goto out; } /* look up PROCINFO - should succeed fail */ if (sym_lookup("PROCINFO", AWK_ARRAY, & value)) printf("var_test: sym_lookup of PROCINFO passed - got a value!\n"); else printf("var_test: sym_lookup of PROCINFO failed - did not get a value\n"); /* look up a reserved variable - should pass */ if (sym_lookup("ARGC", AWK_NUMBER, & value)) printf("var_test: sym_lookup of ARGC passed - got a value!\n"); else printf("var_test: sym_lookup of ARGC failed - did not get a value\n"); /* now try to set it - should fail */ value.num_value++; if (sym_update("ARGC", & value)) printf("var_test: sym_update of ARGC passed and should not have!\n"); else printf("var_test: sym_update of ARGC failed - correctly\n"); /* look up variable whose name is passed in, should pass */ if (get_argument(0, AWK_STRING, & value)) { if (sym_lookup(value.str_value.str, AWK_STRING, & value2)) { /* change the value, should be reflected in awk script */ valp = make_number(42.0, & value2); if (sym_update(value.str_value.str, valp)) { printf("var_test: sym_update(\"%s\") succeeded\n", value.str_value.str); } else { printf("var_test: sym_update(\"%s\") failed\n", value.str_value.str); goto out; } } else { printf("var_test: sym_lookup(\"%s\") failed\n", value.str_value.str); goto out; } } else { printf("var_test: get_argument() failed\n"); goto out; } make_number(1.0, result); out: return result; } /* BEGIN { ERRNO = "" ret = test_errno() printf("test_errno() returned %d, ERRNO = %s\n", ret, ERRNO) print "" } */ static awk_value_t * test_errno(int nargs, awk_value_t *result, struct awk_ext_func *unused) { assert(result != NULL); make_number(0.0, result); if (nargs != 0) { printf("test_errno: nargs not right (%d should be 0)\n", nargs); goto out; } update_ERRNO_int(ECHILD); make_number(1.0, result); out: return result; } /* * 3/2015: This test is no longer strictly necessary, * since PROCINFO is no longer a deferred variable. * But we leave it in for safety, anyway. */ /* BEGIN { print "test_deferred returns", test_deferred() print "" } */ static awk_value_t * test_deferred(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t arr; awk_value_t index, value; const struct nval { const char *name; double val; } seed[] = { { "fubar", 9.0, }, { "rumpus", -5.0, }, }; struct nval sysval[] = { { "uid", getuid(), }, { "api_major", GAWK_API_MAJOR_VERSION, }, }; size_t i; assert(result != NULL); make_number(0.0, result); if (nargs != 0) { printf("test_deferred: nargs not right (%d should be 0)\n", nargs); goto out; } if (! sym_lookup("PROCINFO", AWK_ARRAY, & arr)) { printf("test_deferred: %d: sym_lookup failed\n", __LINE__); goto out; } for (i = 0; i < sizeof(seed)/sizeof(seed[0]); i++) { make_const_string(seed[i].name, strlen(seed[i].name), & index); make_number(seed[i].val, & value); if (! set_array_element(arr.array_cookie, & index, & value)) { printf("test_deferred: %d: set_array_element(%s) failed\n", __LINE__, seed[i].name); goto out; } } /* test that it still contains the values we loaded */ for (i = 0; i < sizeof(seed)/sizeof(seed[0]); i++) { make_const_string(seed[i].name, strlen(seed[i].name), & index); make_null_string(& value); if (! get_array_element(arr.array_cookie, &index, AWK_NUMBER, & value)) { printf("test_deferred: %d: get_array_element(%s) failed\n", __LINE__, seed[i].name); goto out; } printf("%s = %g\n", seed[i].name, value.num_value); } /* check a few automatically-supplied values */ for (i = 0; i < sizeof(sysval)/sizeof(sysval[0]); i++) { make_const_string(sysval[i].name, strlen(sysval[i].name), & index); make_null_string(& value); if (! get_array_element(arr.array_cookie, &index, AWK_NUMBER, & value)) { printf("test_deferred: %d: get_array_element(%s) failed\n", __LINE__, sysval[i].name); goto out; } printf("%s matches %d\n", sysval[i].name, (value.num_value == sysval[i].val)); } make_number(1.0, result); out: return result; } /* BEGIN { for (i = 1; i <= 10; i++) test_array[i] = i + 2 printf("length of test_array is %d, should be 10\n", length(test_array)) ret = test_array_size(test_array); printf("test_array_size() returned %d, length is now %d\n", ret, length(test_array)) print "" } */ static awk_value_t * test_array_size(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t value; size_t count = 0; assert(result != NULL); make_number(0.0, result); if (nargs != 1) { printf("test_array_size: nargs not right (%d should be 1)\n", nargs); goto out; } /* get element count and print it; should match length(array) from awk script */ if (! get_argument(0, AWK_ARRAY, & value)) { printf("test_array_size: get_argument failed\n"); goto out; } if (! get_element_count(value.array_cookie, & count)) { printf("test_array_size: get_element_count failed\n"); goto out; } printf("test_array_size: incoming size is %lu\n", (unsigned long) count); /* clear array - length(array) should then go to zero in script */ if (! clear_array(value.array_cookie)) { printf("test_array_size: clear_array failed\n"); goto out; } make_number(1.0, result); out: return result; } /* BEGIN { n = split("one two three four five six", test_array2) ret = test_array_elem(test_array2, "3") printf("test_array_elem() returned %d, test_array2[3] = %g\n", ret, test_array2[3]) if ("5" in test_array2) printf("error: test_array_elem() did not remove element \"5\"\n") else printf("test_array_elem() did remove element \"5\"\n") if ("7" in test_array2) printf("test_array_elem() added element \"7\" --> %s\n", test_array2[7]) else printf("test_array_elem() did not add element \"7\"\n") if ("subarray" in test_array2) { if (isarray(test_array2["subarray"])) { for (i in test_array2["subarray"]) printf("test_array2[\"subarray\"][\"%s\"] = %s\n", i, test_array2["subarray"][i]) } else printf("test_array_elem() added element \"subarray\" as scalar\n") } else printf("test_array_elem() did not add element \"subarray\"\n") print "" } */ static awk_value_t * test_array_elem(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t array, index, index2, value; make_number(0.0, result); /* default return until full success */ assert(result != NULL); if (nargs != 2) { printf("test_array_elem: nargs not right (%d should be 2)\n", nargs); goto out; } /* look up an array element and print the value */ if (! get_argument(0, AWK_ARRAY, & array)) { printf("test_array_elem: get_argument 0 (array) failed\n"); goto out; } if (! get_argument(1, AWK_STRING, & index)) { printf("test_array_elem: get_argument 1 (index) failed\n"); goto out; } (void) make_const_string(index.str_value.str, index.str_value.len, & index2); if (! get_array_element(array.array_cookie, & index2, AWK_UNDEFINED, & value)) { printf("test_array_elem: get_array_element failed\n"); goto out; } printf("test_array_elem: a[\"%.*s\"] = %s\n", (int) index.str_value.len, index.str_value.str, valrep2str(& value)); /* change the element - "3" */ (void) make_number(42.0, & value); (void) make_const_string(index.str_value.str, index.str_value.len, & index2); if (! set_array_element(array.array_cookie, & index2, & value)) { printf("test_array_elem: set_array_element failed\n"); goto out; } /* delete another element - "5" */ (void) make_const_string("5", 1, & index); if (! del_array_element(array.array_cookie, & index)) { printf("test_array_elem: del_array_element failed\n"); goto out; } /* add a new element - "7" */ (void) make_const_string("7", 1, & index); (void) make_const_string("seven", 5, & value); if (! set_array_element(array.array_cookie, & index, & value)) { printf("test_array_elem: set_array_element failed\n"); goto out; } /* add a subarray */ (void) make_const_string("subarray", 8, & index); fill_in_array(& value); if (! set_array_element(array.array_cookie, & index, & value)) { printf("test_array_elem: set_array_element (subarray) failed\n"); goto out; } /* change and deletion should be reflected in awk script */ make_number(1.0, result); out: return result; } /* BEGIN { ret = test_array_param(a_new_array) printf("test_array_param() returned %d\n", ret) printf("isarray(a_new_array) = %d\n", isarray(a_new_array)) if (isarray(a_new_array)) for (i in a_new_array) printf("a_new_array[\"%s\"] = %s\n", i, a_new_array[i]) a_scalar = 42 ret = test_array_param(a_scalar) printf("test_array_param() returned %d\n", ret) printf("isarray(a_scalar) = %d\n", isarray(a_scalar)) print "" } */ static awk_value_t * test_array_param(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t new_array; awk_value_t arg0; (void) nargs; /* silence warnings */ make_number(0.0, result); if (! get_argument(0, AWK_UNDEFINED, & arg0)) { printf("test_array_param: could not get argument\n"); goto out; } if (arg0.val_type != AWK_UNDEFINED) { printf("test_array_param: argument is not undefined (%d)\n", arg0.val_type); goto out; } fill_in_array(& new_array); if (! set_argument(0, new_array.array_cookie)) { printf("test_array_param: could not change type of argument\n"); goto out; } make_number(1.0, result); out: return result; /* for now */ } /* BEGIN { printf("Initial value of LINT is %d\n", LINT) ret = print_do_lint(); printf("print_do_lint() returned %d\n", ret) LINT = ! LINT printf("Changed value of LINT is %d\n", LINT) ret = print_do_lint(); printf("print_do_lint() returned %d\n", ret) print "" } */ static awk_value_t * print_do_lint(int nargs, awk_value_t *result, struct awk_ext_func *unused) { assert(result != NULL); make_number(0.0, result); if (nargs != 0) { printf("print_do_lint: nargs not right (%d should be 0)\n", nargs); goto out; } printf("print_do_lint: lint = %d\n", do_lint); make_number(1.0, result); out: return result; } /* BEGIN { n = split("1 3 5 7 9 11", nums) m = split("the quick brown fox jumps over the lazy dog", strings) for (i in nums) { ret = test_scalar(nums[i] + 0) printf("test_scalar(%d) returned %d, the_scalar is %d\n", nums[i], ret, the_scalar) } for (i in strings) { ret = test_scalar(strings[i]) printf("test_scalar(%s) returned %d, the_scalar is %s\n", strings[i], ret, the_scalar) } } */ /* test_scalar --- test scalar cookie */ static awk_value_t * test_scalar(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t new_value, new_value2; awk_value_t the_scalar; (void) nargs; /* silence warnings */ make_number(0.0, result); if (! sym_lookup("the_scalar", AWK_SCALAR, & the_scalar)) { printf("test_scalar: could not get scalar cookie\n"); goto out; } if (! get_argument(0, AWK_UNDEFINED, & new_value)) { printf("test_scalar: could not get argument\n"); goto out; } else if (new_value.val_type != AWK_STRING && new_value.val_type != AWK_NUMBER) { printf("test_scalar: argument is not a scalar\n"); goto out; } if (new_value.val_type == AWK_STRING) { make_const_string(new_value.str_value.str, new_value.str_value.len, & new_value2); } else { new_value2 = new_value; } if (! sym_update_scalar(the_scalar.scalar_cookie, & new_value2)) { printf("test_scalar: could not update new_value2!\n"); goto out; } make_number(1.0, result); out: return result; } /* BEGIN { test_scalar_reserved() } */ /* test_scalar_reserved --- test scalar cookie on special variable */ static awk_value_t * test_scalar_reserved(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t new_value; awk_value_t the_scalar; (void) nargs; /* silence warnings */ make_number(0.0, result); /* look up a reserved variable - should pass */ if (sym_lookup("ARGC", AWK_SCALAR, & the_scalar)) { printf("test_scalar_reserved: sym_lookup of ARGC passed - got a value!\n"); } else { printf("test_scalar_reserved: sym_lookup of ARGC failed - did not get a value\n"); goto out; } /* updating it should fail */ make_number(42.0, & new_value); if (! sym_update_scalar(the_scalar.scalar_cookie, & new_value)) { printf("test_scalar_reserved: could not update new_value2 for ARGC - pass\n"); } else { printf("test_scalar_reserved: was able to update new_value2 for ARGC - fail\n"); goto out; } make_number(1.0, result); out: return result; } /* BEGIN { print "line 1" > "testexttmp.txt" print "line 2" > "testexttmp.txt" print "line 3" > "testexttmp.txt" close("testexttmp.txt") ARGV[1] = "testexttmp.txt" ARGC = 2 getline getline getline # now NR should be 3 # system("rm testexttmp.txt") ret = test_indirect_vars() # should get correct value of NR printf("test_indirect_var() return %d\n", ret) delete ARGV[1] print "" } */ /* test_indirect_vars --- test that access to NR, NF, get correct vales */ static awk_value_t * test_indirect_vars(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t value; char *name = "NR"; (void) nargs; /* silence warnings */ assert(result != NULL); make_number(0.0, result); /* system("rm testexttmp.txt") */ (void) unlink("testexttmp.txt"); if (sym_lookup(name, AWK_NUMBER, & value)) printf("test_indirect_var: sym_lookup of %s passed\n", name); else { printf("test_indirect_var: sym_lookup of %s failed\n", name); goto out; } printf("test_indirect_var: value of NR is %g\n", value.num_value); make_number(1.0, result); out: return result; } /* BEGIN { outfile = "testexttmp.txt" alias = ".test.alias" print "line 1" > outfile print "line 2" > outfile print "line 3" > outfile close(outfile) ret = test_get_file(outfile, alias) printf "test_get_file returned %d\n", ret nr = 0 while ((getline < alias) > 0) printf "File [%s] nr [%s]: %s\n", alias, ++nr, $0 close(alias) # system("rm " outfile) print "" } */ /* test_get_file --- test that we can create a file */ static awk_value_t * test_get_file(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t filename, alias; int fd; const awk_input_buf_t *ibuf; const awk_output_buf_t *obuf; if (nargs != 2) { printf("%s: nargs not right (%d should be 2)\n", "test_get_file", nargs); return make_number(-1.0, result); } if (! get_argument(0, AWK_STRING, & filename)) { printf("%s: cannot get first arg\n", "test_get_file"); return make_number(-1.0, result); } if (! get_argument(1, AWK_STRING, & alias)) { printf("%s: cannot get second arg\n", "test_get_file"); return make_number(-1.0, result); } if ((fd = open(filename.str_value.str, O_RDONLY)) < 0) { printf("%s: open(%s) failed\n", "test_get_file", filename.str_value.str); return make_number(-1.0, result); } if (! get_file(alias.str_value.str, strlen(alias.str_value.str), "<", fd, &ibuf, &obuf)) { printf("%s: get_file(%s) failed\n", "test_get_file", alias.str_value.str); return make_number(-1.0, result); } if (! ibuf || ibuf->fd != fd) { printf("%s: get_file(%s) returned fd %d instead of %d\n", "test_get_file", alias.str_value.str, ibuf ? ibuf->fd : -1, fd); return make_number(-1.0, result); } return make_number(0.0, result); } /* do_get_file --- provide access to get_file API */ static awk_value_t * do_get_file(int nargs, awk_value_t *result, struct awk_ext_func *unused) { awk_value_t filename, filetype, fd, res; const awk_input_buf_t *ibuf; const awk_output_buf_t *obuf; if (nargs != 4) { printf("%s: nargs not right (%d should be 4)\n", "get_file", nargs); return make_number(-1.0, result); } if (! get_argument(0, AWK_STRING, & filename)) { printf("%s: cannot get first arg\n", "get_file"); return make_number(-1.0, result); } if (! get_argument(1, AWK_STRING, & filetype)) { printf("%s: cannot get second arg\n", "get_file"); return make_number(-1.0, result); } if (! get_argument(2, AWK_NUMBER, & fd)) { printf("%s: cannot get third arg\n", "get_file"); return make_number(-1.0, result); } if (! get_argument(3, AWK_ARRAY, & res)) { printf("%s: cannot get fourth arg\n", "get_file"); return make_number(-1.0, result); } clear_array(res.array_cookie); if (! get_file(filename.str_value.str, strlen(filename.str_value.str), filetype.str_value.str, fd.num_value, &ibuf, &obuf)) { printf("%s: get_file(%s, %s, %d) failed\n", "get_file", filename.str_value.str, filetype.str_value.str, (int)(fd.num_value)); return make_number(0.0, result); } if (ibuf) { awk_value_t idx, val; set_array_element(res.array_cookie, make_const_string("input", 5, & idx), make_number(ibuf->fd, & val)); if (ibuf->name) set_array_element(res.array_cookie, make_const_string("input_name", 10, & idx), make_const_string(ibuf->name, strlen(ibuf->name), & val)); } if (obuf) { awk_value_t idx, val; set_array_element(res.array_cookie, make_const_string("output", 6, & idx), make_number(obuf->fp ? fileno(obuf->fp) : -1, & val)); if (obuf->name) set_array_element(res.array_cookie, make_const_string("output_name", 11, & idx), make_const_string(obuf->name, strlen(obuf->name), & val)); } return make_number(1.0, result); } /* fill_in_array --- fill in a new array */ static void fill_in_array(awk_value_t *new_array) { awk_array_t a_cookie; awk_value_t index, value; a_cookie = create_array(); (void) make_const_string("hello", 5, & index); (void) make_const_string("world", 5, & value); if (! set_array_element(a_cookie, & index, & value)) { printf("fill_in_array:%d: set_array_element failed\n", __LINE__); return; } (void) make_const_string("answer", 6, & index); (void) make_number(42.0, & value); if (! set_array_element(a_cookie, & index, & value)) { printf("fill_in_array:%d: set_array_element failed\n", __LINE__); return; } new_array->val_type = AWK_ARRAY; new_array->array_cookie = a_cookie; } /* create_new_array --- create a named array */ static void create_new_array() { awk_value_t value; fill_in_array(& value); if (! sym_update("new_array", & value)) printf("create_new_array: sym_update(\"new_array\") failed!\n"); } /* at_exit0 --- first at_exit program, runs last */ static void at_exit0(void *data, int exit_status) { printf("at_exit0 called (should be third):"); if (data) printf(" data = %p,", data); else printf(" data = NULL,"); printf(" exit_status = %d\n", exit_status); } /* at_exit1 --- second at_exit program, runs second */ static int data_for_1 = 0xDeadBeef; static void at_exit1(void *data, int exit_status) { int *data_p = (int *) data; printf("at_exit1 called (should be second):"); if (data) { if (data == & data_for_1) printf(" (data is & data_for_1),"); else printf(" (data is NOT & data_for_1),"); printf(" data value = %#x,", *data_p); } else printf(" data = NULL,"); printf(" exit_status = %d\n", exit_status); } /* at_exit2 --- third at_exit program, runs first */ static void at_exit2(void *data, int exit_status) { printf("at_exit2 called (should be first):"); if (data) printf(" data = %p,", data); else printf(" data = NULL,"); printf(" exit_status = %d\n", exit_status); } static awk_ext_func_t func_table[] = { { "dump_array_and_delete", dump_array_and_delete, 2, 2, awk_false, NULL }, { "try_modify_environ", try_modify_environ, 0, 0, awk_false, NULL }, { "var_test", var_test, 1, 1, awk_false, NULL }, { "test_deferred", test_deferred, 0, 0, awk_false, NULL }, { "test_errno", test_errno, 0, 0, awk_false, NULL }, { "test_array_size", test_array_size, 1, 1, awk_false, NULL }, { "test_array_elem", test_array_elem, 2, 2, awk_false, NULL }, { "test_array_param", test_array_param, 1, 1, awk_false, NULL }, { "print_do_lint", print_do_lint, 0, 0, awk_false, NULL }, { "test_scalar", test_scalar, 1, 1, awk_false, NULL }, { "test_scalar_reserved", test_scalar_reserved, 0, 0, awk_false, NULL }, { "test_indirect_vars", test_indirect_vars, 0, 0, awk_false, NULL }, { "test_get_file", test_get_file, 2, 2, awk_false, NULL }, { "get_file", do_get_file, 4, 4, awk_false, NULL }, }; /* init_testext --- additional initialization function */ static awk_bool_t init_testext(void) { awk_value_t value; static const char message[] = "hello, world"; /* of course */ static const char message2[] = "i am a scalar"; /* This is used by the getfile test */ if (sym_lookup("TESTEXT_QUIET", AWK_NUMBER, & value)) return awk_true; /* add at_exit functions */ awk_atexit(at_exit0, NULL); awk_atexit(at_exit1, & data_for_1); awk_atexit(at_exit2, NULL); /* BEGIN { printf("answer_num = %g\n", answer_num); printf("message_string = %s\n", message_string); for (i in new_array) printf("new_array[\"%s\"] = \"%s\"\n", i, new_array[i]) print "" } */ /* install some variables */ if (! sym_update("answer_num", make_number(42, & value))) printf("testext: sym_update(\"answer_num\") failed!\n"); if (! sym_update("message_string", make_const_string(message, strlen(message), & value))) printf("testext: sym_update(\"answer_num\") failed!\n"); if (! sym_update("the_scalar", make_const_string(message2, strlen(message2), & value))) printf("testext: sym_update(\"the_scalar\") failed!\n"); create_new_array(); return awk_true; } static awk_bool_t (*init_func)(void) = init_testext; dl_load_func(func_table, testext, "")