diff --git a/intc.h b/intc.h index 0a0ad98..29dca84 100644 --- a/intc.h +++ b/intc.h @@ -100,14 +100,14 @@ if (value == 64) value *= 1'000'000'000'000; intc_u256_string string = intc_u256_readable_int_str(value); - printf("%.*s\n", string.size, string.str); // 64,000,000,000,000 + printf("%.*s\n", string.size, string.data); // 64,000,000,000,000 #else intc_u256 value = INTC_U64_TO_U256(32); value = intc_u256_add_u64(value, 32); if (intc_u256_eq_u64(value, 64)) value = intc_u256_mul(value, INTC_U64_TO_U256(1'000'000'000'000)); intc_u256_string string = intc_u256_readable_int_str(value); - printf("%.*s\n", string.size, string.str); // 64,000,000,000,000 + printf("%.*s\n", string.size, string.data); // 64,000,000,000,000 #endif return 0; } @@ -197,7 +197,7 @@ struct intc_u128_divmod_result struct intc_u128_string { // NOTE: Max value 340,282,366,920,938,463,463,374,607,431,768,211,455 - char str[256 + 1]; + char data[256 + 1]; int size; }; @@ -230,8 +230,8 @@ INTC_BEGIN_EXTERN_C // ----------------------------------------------------------------------------- // Reminder: If INTC_API_PREFIX is not defined, example API looks like: intc_u128_init_cstring(...) // Construct a 128 unsigned integer from a string. This function supports -// hexadecimal strings with and without the 0x prefix and integer numbers, i.e. -// "0xafc8a" or "afc8a" or "0xAFC8A" or "xafc8a" or "720010" etc +// hexadecimal strings with and without the 0x prefix i.e. "0xafc8a" or "afc8a" +// or "0xAFC8A" or "xafc8a" . INTC_API bool INTC_API_PREFIX(128_init_cstring)(const char *string, int size, struct intc_u128 *dest); // Interpret the 128 bit integer as a lower bit-type by using the lo bits of the @@ -425,7 +425,7 @@ struct intc_u256_divmod_result struct intc_u256_string { // NOTE: Max value 115,792,089,237,316,195,423,570,985,008,687,907,853,269,984,665,640,564,039,457,584,007,913,129,639,935 - char str[512 + 1]; + char data[512 + 1]; int size; }; @@ -462,8 +462,8 @@ INTC_BEGIN_EXTERN_C // ----------------------------------------------------------------------------- // Reminder: If INTC_API_PREFIX is not defined, example API looks like: intc_u256_init_cstring(...) // Construct a 128 unsigned integer from a string. This function supports -// hexadecimal strings with and without the 0x prefix and integer numbers, i.e. -// "0xafc8a" or "afc8a" or "0xAFC8A" or "xafc8a" or "720010" etc +// hexadecimal strings with and without the 0x prefix i.e. "0xafc8a" or "afc8a" +// or "0xAFC8A" or "xafc8a". INTC_API bool INTC_API_PREFIX(256_init_cstring)(char const *string, int size, struct intc_u256 *dest); // TODO(dqn): We should support all the bases that the printing functions work @@ -684,7 +684,7 @@ INTC_API bool INTC_API_PREFIX(128_init_cstring)(char const *string, int size, st if (bits4 == 0xFF) return false; - intc_u64 *word = (bits_written >= (int)(sizeof(dest->lo) * 8)) ? &dest->lo : &dest->hi; + intc_u64 *word = (bits_written >= (int)(sizeof(dest->lo) * 8)) ? &dest->hi : &dest->lo; *word = (*word << 4) | bits4; } @@ -1060,7 +1060,7 @@ INTC_API struct intc_u128_string INTC_API_PREFIX(128_str)(struct intc_u128 in, u if (INTC_API_PREFIX(128_eq)(in, INTC_U128_ZERO)) { - val.str[val.size++] = '0'; + val.data[val.size++] = '0'; } else { @@ -1072,25 +1072,25 @@ INTC_API struct intc_u128_string INTC_API_PREFIX(128_str)(struct intc_u128 in, u do { div_result = INTC_API_PREFIX(128_divmod)(div_result.quot, INTC_U64_TO_U128(base)); - val.str[val.size++] = "0123456789abcdefghijklmnopqrstuvwxyz"[div_result.rem.lo]; + val.data[val.size++] = "0123456789abcdefghijklmnopqrstuvwxyz"[div_result.rem.lo]; if (separate_every_n_chars > 0 && INTC_API_PREFIX(128_as_bool)(div_result.quot)) { insert_count++; if (insert_count % separate_every_n_chars == 0) - val.str[val.size++] = separate_ch; + val.data[val.size++] = separate_ch; } } while (INTC_API_PREFIX(128_as_bool)(div_result.quot)); } - INTC_ASSERT(val.size < (int)sizeof(val.str) - 1); + INTC_ASSERT(val.size < (int)sizeof(val.data) - 1); struct intc_u128_string result; result.size = 0; for (int i = val.size - 1; i >= 0; i--) - result.str[result.size++] = val.str[i]; - result.str[result.size] = 0; + result.data[result.size++] = val.data[i]; + result.data[result.size] = 0; return result; } @@ -1821,7 +1821,7 @@ INTC_API struct intc_u256_string INTC_API_PREFIX(256_str)(struct intc_u256 in, u if (INTC_API_PREFIX(256_eq)(in, INTC_U256_ZERO)) { - val.str[val.size++] = '0'; + val.data[val.size++] = '0'; } else { @@ -1832,25 +1832,25 @@ INTC_API struct intc_u256_string INTC_API_PREFIX(256_str)(struct intc_u256 in, u do { div_result = INTC_API_PREFIX(256_divmod)(div_result.quot, INTC_U64_TO_U256(base)); - val.str[val.size++] = "0123456789abcdefghijklmnopqrstuvwxyz"[INTC_API_PREFIX(128_as_u32)(div_result.rem.lo)]; + val.data[val.size++] = "0123456789abcdefghijklmnopqrstuvwxyz"[INTC_API_PREFIX(128_as_u32)(div_result.rem.lo)]; if (separate_every_n_chars > 0 && INTC_API_PREFIX(256_as_bool)(div_result.quot)) { insert_count++; if (insert_count % separate_every_n_chars == 0) - val.str[val.size++] = separate_ch; + val.data[val.size++] = separate_ch; } } while (INTC_API_PREFIX(256_as_bool)(div_result.quot)); } - INTC_ASSERT(val.size <= (int)(sizeof(val.str) - 1)); + INTC_ASSERT(val.size <= (int)(sizeof(val.data) - 1)); struct intc_u256_string result; result.size = 0; for (int i = val.size - 1; i >= 0; i--) - result.str[result.size++] = val.str[i]; - result.str[result.size] = 0; + result.data[result.size++] = val.data[i]; + result.data[result.size] = 0; return result; }