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#include <sollya.h>
int callback(sollya_msg_t msg, void *data) {
(void)data; /* Avoiding "unused parameter" warning */
int message = sollya_lib_get_msg_id(msg);
switch(message) {
case SOLLYA_MSG_MAX_RELIES_ON_FP_RESULT_FAITHFUL_BUT_UNDECIDED:
sollya_lib_printf("The following test is not certified (probably because the max is reached by two equal values).\n");
break;
case SOLLYA_MSG_MAX_RELIES_ON_FP_RESULT_THAT_IS_NOT_FAITHFUL:
sollya_lib_printf("The test will rely on pure FP evaluation (probably because 0 is the maximum but it is hard to prove it).\n");
break;
case SOLLYA_MSG_MAX_RELIES_ON_FP_RESULT_FAITHFUL_BUT_NOT_REAL:
sollya_lib_printf("Warning: the following test involves a NaN\n");
break;
case SOLLYA_MSG_EXPR_NOT_CORRECTLY_TYPED:
sollya_lib_printf("The following expression is not correctly typed.\n");
break;
default:
sollya_lib_printf("Unexpected warning %d\n", message);
}
return 0;
}
int main(void) {
sollya_obj_t a[4];
sollya_obj_t b,c;
int i;
sollya_lib_init();
sollya_lib_install_msg_callback(callback, NULL);
/* Tests a simple maximum */
a[0] = sollya_lib_constant_from_int(4);
a[1] = sollya_lib_constant_from_int(5);
a[2] = sollya_lib_constant_from_int(1);
a[3] = sollya_lib_constant_from_int(3);
b = sollya_lib_max(a[0], a[1], a[2], a[3], NULL);
sollya_lib_printf("max(4,5,1,3) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 4);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
for(i=0;i<4;i++) sollya_lib_clear_obj(a[i]);
/* Tests a tricky case where the maximum is impossible to detect */
a[0] = sollya_lib_parse_string("17 + log2(13)/log2(9)");
a[1] = sollya_lib_parse_string("17 + log(13)/log(9)");
b = sollya_lib_max(a[0], a[1], NULL);
sollya_lib_printf("max of 17 + log2(13)/log2(9) and 17 + log(13)/log(9) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 2);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
/* Tests a tricky case when the maximum is possible to detect, but at some point of the algorithm
it was impossible to detect it for sure */
a[0] = sollya_lib_parse_string("17 + log2(13)/log2(9)");
a[1] = sollya_lib_parse_string("17 + log(13)/log(9)");
a[2] = SOLLYA_CONST(100);
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max of 17 + log2(13)/log2(9), 17 + log(13)/log(9), 100 returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
/* The same but in reversed order */
a[0] = SOLLYA_CONST(100);
a[1] = sollya_lib_parse_string("17 + log2(13)/log2(9)");
a[2] = sollya_lib_parse_string("17 + log(13)/log(9)");
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max of 100, 17 + log2(13)/log2(9) and 17 + log(13)/log(9) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
/* Tests another tricky case where the maximum is impossible to detect */
a[0] = sollya_lib_parse_string("sin(pi/3) - sqrt(3)/2");
a[1] = sollya_lib_parse_string("0");
b = sollya_lib_max(a[0], a[1], NULL);
sollya_lib_printf("max of sin(pi/3)-sqrt(3)/2 and 0 returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 2);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
/* Tests another tricky case where the maximum is possible to detect, but the list contains elements that are hard to evaluate */
a[0] = SOLLYA_CONST(0);
a[1] = sollya_lib_parse_string("sin(pi/3) - sqrt(3)/2");
a[2] = sollya_lib_parse_string("1");
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max of 0, sin(pi/3)-sqrt(3)/2 and 1 returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
/* The same, but in reversed order */
a[0] = sollya_lib_parse_string("1");
a[1] = sollya_lib_parse_string("sin(pi/3) - sqrt(3)/2");
a[2] = SOLLYA_CONST(0);
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max of 1 and sin(pi/3)-sqrt(3)/2 and 0 returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
/* Tests what happens when a NaN is in the list */
a[0] = sollya_lib_constant_from_int(2);
a[1] = sollya_lib_parse_string("NaN");
a[2] = sollya_lib_constant_from_int(1);
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max(2,NaN,1) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
a[0] = sollya_lib_constant_from_int(2);
a[1] = SOLLYA_LOG(SOLLYA_CONST(-17));
a[2] = sollya_lib_constant_from_int(1);
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max(2,log(-17),1) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
a[0] = sollya_lib_parse_string("NaN");
a[1] = sollya_lib_constant_from_int(1);
a[2] = sollya_lib_constant_from_int(2);
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max(NaN,1,2) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
a[0] = SOLLYA_LOG(SOLLYA_CONST(-17));
a[1] = sollya_lib_constant_from_int(1);
a[2] = sollya_lib_constant_from_int(2);
b = sollya_lib_max(a[0], a[1], a[2], NULL);
sollya_lib_printf("max(log(-17),1,2) returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
sollya_lib_clear_obj(a[1]);
sollya_lib_clear_obj(a[2]);
/* Tests maximum of only one element */
a[0] = sollya_lib_constant_from_int(17);
b = sollya_lib_max(a[0], NULL);
sollya_lib_printf("max of 17 returns %b\n\n", b);
sollya_lib_clear_obj(b);
c = sollya_lib_list(a, 1);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max(%b) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
sollya_lib_clear_obj(a[0]);
/* Tests maximum of an empty list */
c = sollya_lib_list(NULL, 0);
b = sollya_lib_max(c, NULL);
sollya_lib_printf("max of an empty list returns %b\n\n", b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
/* Tests what happens if a list is given, followed by a constant */
a[0] = sollya_lib_constant_from_int(4);
a[1] = sollya_lib_constant_from_int(1);
a[2] = sollya_lib_constant_from_int(3);
a[3] = sollya_lib_constant_from_int(5);
c = sollya_lib_list(a, 3);
b = sollya_lib_max(c, a[3], NULL);
sollya_lib_printf("max(%b, 5) returns %b\n\n", c, b);
sollya_lib_clear_obj(b);
sollya_lib_clear_obj(c);
for(i=0;i<4;i++) sollya_lib_clear_obj(a[i]);
sollya_lib_close();
return 0;
}
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