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#define PK_IMPL_STN
#include "../pkstn.h"
#include <cstring>
#include <iostream>
#include <stdio.h>
#include <stdlib.h>
#include <type_traits>
const char *STRNUM_NIL = "";
const char *STRNUM_ZED = "0";
const char *STRNUM_ONE = "1";
const char *STRNUM_ONE_MINUS = "-1";
const char *STRNUM_UNDERFLOW = "-99999999999999999999999999999999";
const char *STRNUM_OVERFLOW = "99999999999999999999999999999999";
const char *STRNUM_FLOAT_NIL = "";
const char *STRNUM_FLOAT_ZED = "0.0";
const char *STRNUM_FLOAT_ONE = "15.0";
const char *STRNUM_FLOAT_ONE_MINUS = "-15.0";
const char *STRNUM_UNDERFLOW_FLOAT = "-1.0e9999";
const char *STRNUM_OVERFLOW_FLOAT = "1.0e9999";
const char *STRNUM_INCONVERTIBLE = "junk";
#define VAL_SCALAR_ZED 0
#define VAL_SCALAR_ONE 1
#define VAL_SCALAR_ONE_MINUS -1
#define VAL_FLOATING_ZED 0.0
#define VAL_FLOATING_ONE 0x1.ep+3
#define VAL_FLOATING_ONE_MINUS -0x1.ep+3
enum STRNUM_TESTS : uint32_t {
TEST_SCALAR_NIL = 0x00000001,
TEST_SCALAR_ZED = 0x00000002,
TEST_SCALAR_ONE = 0x00000004,
TEST_SCALAR_ONE_MINUS = 0x00000008,
TEST_SCALAR_UNDERFLOW = 0x00000010,
TEST_SCALAR_OVERFLOW = 0x00000020,
TEST_FLOATING_NIL = 0x00000100,
TEST_FLOATING_ZED = 0x00000200,
TEST_FLOATING_ONE = 0x00000400,
TEST_FLOATING_ONE_MINUS = 0x00000800,
TEST_FLOATING_UNDERFLOW = 0x00001000,
TEST_FLOATING_OVERFLOW = 0x00002000,
TEST_INCONVERTIBLE = 0x00010000,
TEST_BOOL = 0x000100F7,
TEST_SCALAR = 0x000100FF,
TEST_FLOATS = 0x0001FF00,
TEST_ALL = 0xFFFFFFFF,
};
template <typename T, enum STRNUM_TESTS t>
void test() {
char *s;
enum PK_STN_RES res = {};
T i = {1};
if constexpr (t & TEST_SCALAR_NIL) {
res = pk_stn(&i, STRNUM_NIL, &s);
std::cout << "pkstn: TEST_SCALAR_NIL res: " << i << "\n";
if (s != STRNUM_NIL) exit(1);
if (res != PK_STN_RES_INCONVERTIBLE) exit(1);
}
if constexpr (t & TEST_FLOATING_NIL) {
res = pk_stn(&i, STRNUM_FLOAT_NIL, &s);
std::cout << "pkstn: TEST_FLOATING_NIL res: " << i << "\n";
if (s != STRNUM_FLOAT_NIL) exit(1);
if (res != PK_STN_RES_INCONVERTIBLE) exit(1);
}
if constexpr (t & TEST_SCALAR_ZED) {
res = pk_stn(&i, STRNUM_ZED, &s);
std::cout << "pkstn: TEST_SCALAR_ZED res: " << i << "\n";
if (s != STRNUM_ZED + strlen(STRNUM_ZED)) exit(1);
if (res != PK_STN_RES_SUCCESS) exit(1);
if (T(VAL_SCALAR_ZED) != i) exit(1);
}
if constexpr (t & TEST_FLOATING_ZED) {
res = pk_stn(&i, STRNUM_FLOAT_ZED, &s);
std::cout << "pkstn: TEST_FLOATING_ZED res: " << i << "\n";
if (s != STRNUM_FLOAT_ZED + strlen(STRNUM_FLOAT_ZED)) exit(1);
if (res != PK_STN_RES_SUCCESS) exit(1);
if (T(VAL_FLOATING_ZED) != i) exit(1);
}
if constexpr (t & TEST_SCALAR_ONE) {
res = pk_stn(&i, STRNUM_ONE, &s);
std::cout << "pkstn: TEST_SCALAR_ONE res: " << i << "\n";
if (s != STRNUM_ONE + strlen(STRNUM_ONE)) exit(1);
if (res != PK_STN_RES_SUCCESS) exit(1);
if (T(VAL_SCALAR_ONE) != i) exit(1);
}
if constexpr (t & TEST_FLOATING_ONE) {
res = pk_stn(&i, STRNUM_FLOAT_ONE, &s);
std::cout << "pkstn: TEST_FLOATING_ONE res: " << i << "\n";
if (s != STRNUM_FLOAT_ONE + strlen(STRNUM_FLOAT_ONE)) exit(1);
if (res != PK_STN_RES_SUCCESS) exit(1);
if (T(VAL_FLOATING_ONE) != i) exit(1);
}
if constexpr (t & TEST_SCALAR_ONE_MINUS) {
res = pk_stn(&i, STRNUM_ONE_MINUS, &s);
std::cout << "pkstn: TEST_SCALAR_ONE_MINUS res: " << i << "\n";
if (s != STRNUM_ONE_MINUS + strlen(STRNUM_ONE_MINUS)) exit(1);
if (res != PK_STN_RES_SUCCESS) exit(1);
if (T(VAL_SCALAR_ONE_MINUS) != i) exit(1);
}
if constexpr (t & TEST_FLOATING_ONE_MINUS) {
res = pk_stn(&i, STRNUM_FLOAT_ONE_MINUS, &s);
std::cout << "pkstn: TEST_FLOATING_ONE_MINUS res: " << i << "\n";
if (s != STRNUM_FLOAT_ONE_MINUS + strlen(STRNUM_FLOAT_ONE_MINUS)) exit(1);
if (res != PK_STN_RES_SUCCESS) exit(1);
if (T(VAL_FLOATING_ONE_MINUS) != i) exit(1);
}
if constexpr (t & TEST_SCALAR_UNDERFLOW) {
res = pk_stn(&i, STRNUM_UNDERFLOW, &s);
std::cout << "pkstn: TEST_SCALAR_UNDERFLOW res: " << i << "\n";
if (s != STRNUM_UNDERFLOW + strlen(STRNUM_UNDERFLOW)) exit(1);
if constexpr(std::is_unsigned_v<T> == true) {
if (res != PK_STN_RES_OVERFLOW) exit(1);
} else {
if (res != PK_STN_RES_UNDERFLOW) exit(1);
}
}
if constexpr (t & TEST_FLOATING_UNDERFLOW) {
res = pk_stn(&i, STRNUM_UNDERFLOW_FLOAT, &s);
std::cout << "pkstn: TEST_FLOATING_UNDERFLOW res: " << i << "\n";
if (s != STRNUM_UNDERFLOW_FLOAT + strlen(STRNUM_UNDERFLOW_FLOAT)) exit(1);
if (res != PK_STN_RES_UNDERFLOW) exit(1);
}
if constexpr (t & TEST_SCALAR_OVERFLOW) {
res = pk_stn(&i, STRNUM_OVERFLOW, &s);
std::cout << "pkstn: TEST_SCALAR_OVERFLOW res: " << i << "\n";
if (s != STRNUM_OVERFLOW + strlen(STRNUM_OVERFLOW)) exit(1);
if (res != PK_STN_RES_OVERFLOW) exit(1);
}
if constexpr (t & TEST_FLOATING_OVERFLOW) {
res = pk_stn(&i, STRNUM_OVERFLOW_FLOAT, &s);
std::cout << "pkstn: TEST_FLOATING_OVERFLOW res: " << i << "\n";
if (s != STRNUM_OVERFLOW_FLOAT + strlen(STRNUM_OVERFLOW_FLOAT)) exit(1);
if (res != PK_STN_RES_OVERFLOW) exit(1);
}
if constexpr (t & TEST_INCONVERTIBLE) {
res = pk_stn(&i, STRNUM_INCONVERTIBLE, &s);
std::cout << "pkstn: TEST_INCONVERTIBLE res: " << i << "\n";
if (s != STRNUM_INCONVERTIBLE) exit(1);
if (res != PK_STN_RES_INCONVERTIBLE) exit(1);
}
};
int main(int argc, char *argv[])
{
(void)argc;
(void)argv;
fprintf(stdout, "\n");
// stn_int64_t
{
fprintf(stdout, "\npkstn: starting int64_t\n");
test<int64_t, TEST_SCALAR>();
}
// stn_uint64_t
{
fprintf(stdout, "\npkstn: starting uint64_t\n");
test<uint64_t, TEST_SCALAR>(); }
// stn_int32_t
{
fprintf(stdout, "\npkstn: starting int32_t\n");
test<int32_t, TEST_SCALAR>();
}
// stn_uint32_t
{
fprintf(stdout, "\npkstn: starting uint32_t\n");
test<uint32_t, TEST_SCALAR>();
}
// stn_int16_t
{
fprintf(stdout, "\npkstn: starting int16_t\n");
test<int16_t, TEST_SCALAR>();
}
// stn_uint16_t
{
fprintf(stdout, "\npkstn: starting uint16_t\n");
test<uint16_t, TEST_SCALAR>();
}
// stn_int8_t
{
fprintf(stdout, "\npkstn: starting int8_t\n");
test<int8_t, TEST_SCALAR>();
}
// stn_uint8_t
{
fprintf(stdout, "\npkstn: starting uint8_t\n");
test<uint8_t, TEST_SCALAR>();
}
// bool
{
fprintf(stdout, "\npkstn: starting bool\n");
test<bool, TEST_BOOL>();
}
// stn_float
{
fprintf(stdout, "\npkstn: starting float\n");
test<float, TEST_FLOATS>();
}
// stn_double
{
fprintf(stdout, "\npkstn: starting double\n");
test<double, TEST_FLOATS>();
}
return 0;
}
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