jq_test.c - third_party/github.com/stedolan/jq - Git at Google

 #include <assert.h>
 #include <stdio.h>
 #include <string.h>
 #include <stdlib.h>
 #include "jv.h"
 #include "execute.h"

 static void jv_test();
 static void run_jq_tests();

 int main() {
   jv_test();
   run_jq_tests();
 }


 static int skipline(const char* buf) {
   int p = 0;
   while (buf[p] == ' ' || buf[p] == '\t') p++;
   if (buf[p] == '#' || buf[p] == '\n' || buf[p] == 0) return 1;
   return 0;
 }

 static void run_jq_tests() {
   FILE* testdata = fopen("testdata","r");
   char buf[4096];
   int tests = 0, passed = 0;

   while (1) {
     if (!fgets(buf, sizeof(buf), testdata)) break;
     if (skipline(buf)) continue;
     printf("Testing %s\n", buf);
     int pass = 1;
     struct bytecode* bc = jq_compile(buf);
     assert(bc);
     printf("Disassembly:\n");
     dump_disassembly(2, bc);
     printf("\n");
     fgets(buf, sizeof(buf), testdata);
     jv input = jv_parse(buf);
     assert(jv_is_valid(input));
     jq_init(bc, input);

     while (fgets(buf, sizeof(buf), testdata)) {
       if (skipline(buf)) break;
       jv expected = jv_parse(buf);
       assert(jv_is_valid(expected));
       jv actual = jq_next();
       if (!jv_is_valid(actual)) {
         jv_free(actual);
         printf("Insufficient results\n");
         pass = 0;
         break;
       } else if (!jv_equal(jv_copy(expected), jv_copy(actual))) {
         printf("Expected ");
         jv_dump(jv_copy(expected), 0);
         printf(", but got ");
         jv_dump(jv_copy(actual), 0);
         printf("\n");
         pass = 0;
       }
       jv as_string = jv_dump_string(jv_copy(expected), rand());
       jv reparsed = jv_parse_sized(jv_string_value(as_string), jv_string_length(jv_copy(as_string)));
       assert(jv_equal(jv_copy(expected), jv_copy(reparsed)));
       jv_free(as_string);
       jv_free(reparsed);
       jv_free(expected);
       jv_free(actual);
     }
     if (pass) {
       jv extra = jq_next();
       if (jv_is_valid(extra)) {
         printf("Superfluous result: ");
         jv_dump(extra, 0);
         printf("\n");
         pass = 0;
       } else {
         jv_free(extra);
       }
     }
     jq_teardown();
     bytecode_free(bc);
     tests++;
     passed+=pass;
   }
   fclose(testdata);
   printf("%d of %d tests passed\n", passed,tests);
   if (passed != tests) exit(1);
 }


 static void jv_test() {
   /// Arrays and numbers
   {
     jv a = jv_array();
     assert(jv_get_kind(a) == JV_KIND_ARRAY);
     assert(jv_array_length(jv_copy(a)) == 0);
     assert(jv_array_length(jv_copy(a)) == 0);

     a = jv_array_append(a, jv_number(42));
     assert(jv_array_length(jv_copy(a)) == 1);
     assert(jv_number_value(jv_array_get(jv_copy(a), 0)) == 42);

     jv a2 = jv_array_append(jv_array(), jv_number(42));
     assert(jv_equal(jv_copy(a), jv_copy(a)));
     assert(jv_equal(jv_copy(a2), jv_copy(a2)));
     assert(jv_equal(jv_copy(a), jv_copy(a2)));
     assert(jv_equal(jv_copy(a2), jv_copy(a)));
     jv_free(a2);

     a2 = jv_array_append(jv_array(), jv_number(19));
     assert(!jv_equal(jv_copy(a), jv_copy(a2)));
     assert(!jv_equal(jv_copy(a2), jv_copy(a)));
     jv_free(a2);


     assert(a.val.complex.ptr->count == 1);
     a = jv_array_append(a, jv_copy(a));
     assert(a.val.complex.ptr->count == 1);

     assert(jv_array_length(jv_copy(a)) == 2);
     assert(jv_number_value(jv_array_get(jv_copy(a), 0)) == 42);

     for (int i=0; i<10; i++) {
       jv subarray = jv_array_get(jv_copy(a), 1);
       assert(jv_get_kind(subarray) == JV_KIND_ARRAY);
       assert(jv_array_length(jv_copy(subarray)) == 1);
       assert(jv_number_value(jv_array_get(jv_copy(subarray), 0)) == 42);
       jv_free(subarray);
     }


     jv subarray = jv_array_get(jv_copy(a), 1);
     assert(jv_get_kind(subarray) == JV_KIND_ARRAY);
     assert(jv_array_length(jv_copy(subarray)) == 1);
     assert(jv_number_value(jv_array_get(jv_copy(subarray), 0)) == 42);

     jv sub2 = jv_copy(subarray);
     sub2 = jv_array_append(sub2, jv_number(19));

     assert(jv_get_kind(sub2) == JV_KIND_ARRAY);
     assert(jv_array_length(jv_copy(sub2)) == 2);
     assert(jv_number_value(jv_array_get(jv_copy(sub2), 0)) == 42);
     assert(jv_number_value(jv_array_get(jv_copy(sub2), 1)) == 19);

     assert(jv_get_kind(subarray) == JV_KIND_ARRAY);
     assert(jv_array_length(jv_copy(subarray)) == 1);
     assert(jv_number_value(jv_array_get(jv_copy(subarray), 0)) == 42);

     jv_free(subarray);

     void* before = sub2.val.complex.ptr;
     sub2 = jv_array_append(sub2, jv_number(200));
     void* after = sub2.val.complex.ptr;
     assert(before == after);
     jv_free(sub2);

     jv a3 = jv_array_append(jv_copy(a), jv_number(19));
     assert(jv_array_length(jv_copy(a3)) == 3);
     assert(jv_number_value(jv_array_get(jv_copy(a3), 0)) == 42);
     assert(jv_array_length(jv_array_get(jv_copy(a3), 1)) == 1);
     assert(jv_number_value(jv_array_get(jv_copy(a3), 2)) == 19);
     jv_free(a3);


     assert(jv_array_length(jv_copy(a)) == 2);
     assert(jv_number_value(jv_array_get(jv_copy(a), 0)) == 42);
     assert(jv_array_length(jv_array_get(jv_copy(a), 1)) == 1);


     jv_dump(jv_copy(a), 0); printf("\n");
     jv_free(a);
   }


   /// Strings
   {
     assert(jv_equal(jv_string("foo"), jv_string_sized("foo", 3)));
     char nasty[] = "foo\0";
     jv shortstr = jv_string(nasty), longstr = jv_string_sized(nasty, sizeof(nasty));
     assert(jv_string_length(shortstr) == (int)strlen(nasty));
     assert(jv_string_length(longstr) == (int)sizeof(nasty));


     char a1s[] = "hello", a2s[] = "hello", bs[] = "goodbye";
     jv a1 = jv_string(a1s), a2 = jv_string(a2s), b = jv_string(bs);
     assert(jv_equal(jv_copy(a1), jv_copy(a2)));
     assert(jv_equal(jv_copy(a2), jv_copy(a1)));
     assert(!jv_equal(jv_copy(a1), jv_copy(b)));

     assert(jv_string_hash(jv_copy(a1)) == jv_string_hash(jv_copy(a1)));
     assert(jv_string_hash(jv_copy(a1)) == jv_string_hash(jv_copy(a2)));
     assert(jv_string_hash(jv_copy(b)) != jv_string_hash(jv_copy(a1)));
     jv_free(a1);
     jv_free(a2);
     jv_free(b);

     assert(jv_equal(jv_string("hello42!"), jv_string_fmt("hello%d%s", 42, "!")));
     char big[20000];
     for (int i=0; i<(int)sizeof(big); i++) big[i] = 'a';
     big[sizeof(big)-1] = 0;
     jv str = jv_string_fmt("%s", big);
     assert(jv_string_length(jv_copy(str)) == sizeof(big) - 1);
     assert(!strcmp(big, jv_string_value(str)));
     jv_free(str);
   }

   /// Objects
   {
     jv o1 = jv_object();
     o1 = jv_object_set(o1, jv_string("foo"), jv_number(42));
     o1 = jv_object_set(o1, jv_string("bar"), jv_number(24));
     assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("foo"))) == 42);
     assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("bar"))) == 24);

     jv o2 = jv_object_set(jv_copy(o1), jv_string("foo"), jv_number(420));
     o2 = jv_object_set(o2, jv_string("bar"), jv_number(240));
     assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("foo"))) == 42);
     assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("bar"))) == 24);
     assert(jv_number_value(jv_object_get(jv_copy(o2), jv_string("foo"))) == 420);
     jv_free(o1);
     assert(jv_number_value(jv_object_get(jv_copy(o2), jv_string("bar"))) == 240);

     jv_dump(jv_copy(o2), 0); printf("\n");

     jv_free(o2);
   }
 }
	#include <assert.h>
	#include <stdio.h>
	#include <string.h>
	#include <stdlib.h>
	#include "jv.h"
	#include "execute.h"

	static void jv_test();
	static void run_jq_tests();

	int main() {
	jv_test();
	run_jq_tests();
	}




	static int skipline(const char* buf) {
	int p = 0;
	while (buf[p] == ' ' \|\| buf[p] == '\t') p++;
	if (buf[p] == '#' \|\| buf[p] == '\n' \|\| buf[p] == 0) return 1;
	return 0;
	}

	static void run_jq_tests() {
	FILE* testdata = fopen("testdata","r");
	char buf[4096];
	int tests = 0, passed = 0;

	while (1) {
	if (!fgets(buf, sizeof(buf), testdata)) break;
	if (skipline(buf)) continue;
	printf("Testing %s\n", buf);
	int pass = 1;
	struct bytecode* bc = jq_compile(buf);
	assert(bc);
	printf("Disassembly:\n");
	dump_disassembly(2, bc);
	printf("\n");
	fgets(buf, sizeof(buf), testdata);
	jv input = jv_parse(buf);
	assert(jv_is_valid(input));
	jq_init(bc, input);

	while (fgets(buf, sizeof(buf), testdata)) {
	if (skipline(buf)) break;
	jv expected = jv_parse(buf);
	assert(jv_is_valid(expected));
	jv actual = jq_next();
	if (!jv_is_valid(actual)) {
	jv_free(actual);
	printf("Insufficient results\n");
	pass = 0;
	break;
	} else if (!jv_equal(jv_copy(expected), jv_copy(actual))) {
	printf("Expected ");
	jv_dump(jv_copy(expected), 0);
	printf(", but got ");
	jv_dump(jv_copy(actual), 0);
	printf("\n");
	pass = 0;
	}
	jv as_string = jv_dump_string(jv_copy(expected), rand());
	jv reparsed = jv_parse_sized(jv_string_value(as_string), jv_string_length(jv_copy(as_string)));
	assert(jv_equal(jv_copy(expected), jv_copy(reparsed)));
	jv_free(as_string);
	jv_free(reparsed);
	jv_free(expected);
	jv_free(actual);
	}
	if (pass) {
	jv extra = jq_next();
	if (jv_is_valid(extra)) {
	printf("Superfluous result: ");
	jv_dump(extra, 0);
	printf("\n");
	pass = 0;
	} else {
	jv_free(extra);
	}
	}
	jq_teardown();
	bytecode_free(bc);
	tests++;
	passed+=pass;
	}
	fclose(testdata);
	printf("%d of %d tests passed\n", passed,tests);
	if (passed != tests) exit(1);
	}


	static void jv_test() {
	/// Arrays and numbers
	{
	jv a = jv_array();
	assert(jv_get_kind(a) == JV_KIND_ARRAY);
	assert(jv_array_length(jv_copy(a)) == 0);
	assert(jv_array_length(jv_copy(a)) == 0);

	a = jv_array_append(a, jv_number(42));
	assert(jv_array_length(jv_copy(a)) == 1);
	assert(jv_number_value(jv_array_get(jv_copy(a), 0)) == 42);

	jv a2 = jv_array_append(jv_array(), jv_number(42));
	assert(jv_equal(jv_copy(a), jv_copy(a)));
	assert(jv_equal(jv_copy(a2), jv_copy(a2)));
	assert(jv_equal(jv_copy(a), jv_copy(a2)));
	assert(jv_equal(jv_copy(a2), jv_copy(a)));
	jv_free(a2);

	a2 = jv_array_append(jv_array(), jv_number(19));
	assert(!jv_equal(jv_copy(a), jv_copy(a2)));
	assert(!jv_equal(jv_copy(a2), jv_copy(a)));
	jv_free(a2);


	assert(a.val.complex.ptr->count == 1);
	a = jv_array_append(a, jv_copy(a));
	assert(a.val.complex.ptr->count == 1);

	assert(jv_array_length(jv_copy(a)) == 2);
	assert(jv_number_value(jv_array_get(jv_copy(a), 0)) == 42);

	for (int i=0; i<10; i++) {
	jv subarray = jv_array_get(jv_copy(a), 1);
	assert(jv_get_kind(subarray) == JV_KIND_ARRAY);
	assert(jv_array_length(jv_copy(subarray)) == 1);
	assert(jv_number_value(jv_array_get(jv_copy(subarray), 0)) == 42);
	jv_free(subarray);
	}


	jv subarray = jv_array_get(jv_copy(a), 1);
	assert(jv_get_kind(subarray) == JV_KIND_ARRAY);
	assert(jv_array_length(jv_copy(subarray)) == 1);
	assert(jv_number_value(jv_array_get(jv_copy(subarray), 0)) == 42);

	jv sub2 = jv_copy(subarray);
	sub2 = jv_array_append(sub2, jv_number(19));

	assert(jv_get_kind(sub2) == JV_KIND_ARRAY);
	assert(jv_array_length(jv_copy(sub2)) == 2);
	assert(jv_number_value(jv_array_get(jv_copy(sub2), 0)) == 42);
	assert(jv_number_value(jv_array_get(jv_copy(sub2), 1)) == 19);

	assert(jv_get_kind(subarray) == JV_KIND_ARRAY);
	assert(jv_array_length(jv_copy(subarray)) == 1);
	assert(jv_number_value(jv_array_get(jv_copy(subarray), 0)) == 42);

	jv_free(subarray);

	void* before = sub2.val.complex.ptr;
	sub2 = jv_array_append(sub2, jv_number(200));
	void* after = sub2.val.complex.ptr;
	assert(before == after);
	jv_free(sub2);

	jv a3 = jv_array_append(jv_copy(a), jv_number(19));
	assert(jv_array_length(jv_copy(a3)) == 3);
	assert(jv_number_value(jv_array_get(jv_copy(a3), 0)) == 42);
	assert(jv_array_length(jv_array_get(jv_copy(a3), 1)) == 1);
	assert(jv_number_value(jv_array_get(jv_copy(a3), 2)) == 19);
	jv_free(a3);


	assert(jv_array_length(jv_copy(a)) == 2);
	assert(jv_number_value(jv_array_get(jv_copy(a), 0)) == 42);
	assert(jv_array_length(jv_array_get(jv_copy(a), 1)) == 1);


	jv_dump(jv_copy(a), 0); printf("\n");
	jv_free(a);
	}


	/// Strings
	{
	assert(jv_equal(jv_string("foo"), jv_string_sized("foo", 3)));
	char nasty[] = "foo\0";
	jv shortstr = jv_string(nasty), longstr = jv_string_sized(nasty, sizeof(nasty));
	assert(jv_string_length(shortstr) == (int)strlen(nasty));
	assert(jv_string_length(longstr) == (int)sizeof(nasty));


	char a1s[] = "hello", a2s[] = "hello", bs[] = "goodbye";
	jv a1 = jv_string(a1s), a2 = jv_string(a2s), b = jv_string(bs);
	assert(jv_equal(jv_copy(a1), jv_copy(a2)));
	assert(jv_equal(jv_copy(a2), jv_copy(a1)));
	assert(!jv_equal(jv_copy(a1), jv_copy(b)));

	assert(jv_string_hash(jv_copy(a1)) == jv_string_hash(jv_copy(a1)));
	assert(jv_string_hash(jv_copy(a1)) == jv_string_hash(jv_copy(a2)));
	assert(jv_string_hash(jv_copy(b)) != jv_string_hash(jv_copy(a1)));
	jv_free(a1);
	jv_free(a2);
	jv_free(b);

	assert(jv_equal(jv_string("hello42!"), jv_string_fmt("hello%d%s", 42, "!")));
	char big[20000];
	for (int i=0; i<(int)sizeof(big); i++) big[i] = 'a';
	big[sizeof(big)-1] = 0;
	jv str = jv_string_fmt("%s", big);
	assert(jv_string_length(jv_copy(str)) == sizeof(big) - 1);
	assert(!strcmp(big, jv_string_value(str)));
	jv_free(str);
	}

	/// Objects
	{
	jv o1 = jv_object();
	o1 = jv_object_set(o1, jv_string("foo"), jv_number(42));
	o1 = jv_object_set(o1, jv_string("bar"), jv_number(24));
	assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("foo"))) == 42);
	assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("bar"))) == 24);

	jv o2 = jv_object_set(jv_copy(o1), jv_string("foo"), jv_number(420));
	o2 = jv_object_set(o2, jv_string("bar"), jv_number(240));
	assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("foo"))) == 42);
	assert(jv_number_value(jv_object_get(jv_copy(o1), jv_string("bar"))) == 24);
	assert(jv_number_value(jv_object_get(jv_copy(o2), jv_string("foo"))) == 420);
	jv_free(o1);
	assert(jv_number_value(jv_object_get(jv_copy(o2), jv_string("bar"))) == 240);

	jv_dump(jv_copy(o2), 0); printf("\n");

	jv_free(o2);
	}
	}