From: Kevin Day Date: Thu, 7 Oct 2021 02:53:18 +0000 (-0500) Subject: Cleanup: The fl_conversion re-used functions should be within private files. X-Git-Tag: 0.5.6~20 X-Git-Url: https://git.kevux.org/?a=commitdiff_plain;h=bc594762634fbd9f3f5f7f022de10b5b524c04df;p=fll Cleanup: The fl_conversion re-used functions should be within private files. The practice is to maintain functional isolated even within a projects own sources. The private sources are the method intended to re-use the functions within the same file. Update some comments. --- diff --git a/build/level_1/settings b/build/level_1/settings index e19cbc1..66e8161 100644 --- a/build/level_1/settings +++ b/build/level_1/settings @@ -22,7 +22,7 @@ build_language c build_libraries -lc -lcap build_libraries-level -lfll_0 build_libraries-level_threadless -lfll_0 -build_sources_library console.c control_group.c conversion.c directory.c private-directory.c environment.c private-fss.c fss_basic.c fss_basic_list.c fss_embedded_list.c fss_extended.c fss_extended_list.c iki.c print.c private-print.c signal.c status.c string.c private-string.c utf.c private-utf.c utf_file.c private-utf_file.c +build_sources_library console.c control_group.c conversion.c private-conversion.c directory.c private-directory.c environment.c private-fss.c fss_basic.c fss_basic_list.c fss_embedded_list.c fss_extended.c fss_extended_list.c iki.c print.c private-print.c signal.c status.c string.c private-string.c utf.c private-utf.c utf_file.c private-utf_file.c build_sources_library-level build_sources_program build_sources_headers console.h control_group.h conversion.h directory.h environment.h execute.h execute-common.h fss.h fss_basic.h fss_basic_list.h fss_embedded_list.h fss_extended.h fss_extended_list.h fss_status.h iki.h print.h signal.h signal-common.h status.h string.h utf.h utf_file.h diff --git a/build/monolithic/settings b/build/monolithic/settings index afb0876..4a04104 100644 --- a/build/monolithic/settings +++ b/build/monolithic/settings @@ -22,7 +22,7 @@ build_language c build_libraries -lc -lcap build_libraries-monolithic build_libraries-monolithic_threadless -build_sources_library level_0/account.c level_0/private-account.c level_0/capability.c level_0/color.c level_0/color-common.c level_0/console.c level_0/console-common.c level_0/control_group.c level_0/control_group-common.c level_0/conversion.c level_0/conversion-common.c level_0/private-conversion.c level_0/directory.c level_0/private-directory.c level_0/environment.c level_0/private-environment.c level_0/file.c level_0/file-common.c level_0/private-file.c level_0/fss.c level_0/private-fss.c level_0/fss-common.c level_0/fss_named.c level_0/fss_nest.c level_0/fss_set.c level_0/iki.c level_0/iki-common.c level_0/private-iki.c level_0/limit.c level_0/memory.c level_0/memory_structure.c level_0/private-memory.c level_0/path.c level_0/path-common.c level_0/private-path.c level_0/pipe.c level_0/print.c level_0/print-common.c level_0/private-print.c level_0/serialize.c level_0/serialize-common.c level_0/private-serialize.c level_0/signal.c level_0/socket.c level_0/string.c level_0/string-common.c level_0/private-string.c level_0/string_dynamic.c level_0/string_map.c level_0/string_quantity.c level_0/string_range.c level_0/string_triple.c level_0/type_array.c level_0/private-type_array.c level_0/utf.c level_0/utf-common.c level_0/private-utf.c level_0/utf_dynamic.c level_0/utf_map.c level_0/utf_triple.c level_1/console.c level_1/control_group.c level_1/conversion.c level_1/directory.c level_1/private-directory.c level_1/environment.c level_1/private-fss.c level_1/fss_basic.c level_1/fss_basic_list.c level_1/fss_embedded_list.c level_1/fss_extended.c level_1/fss_extended_list.c level_1/iki.c level_1/print.c level_1/private-print.c level_1/signal.c level_1/status.c level_1/string.c level_1/private-string.c level_1/utf.c level_1/private-utf.c level_1/utf_file.c level_1/private-utf_file.c level_2/control_group.c level_2/error.c level_2/error-common.c level_2/private-error.c level_2/execute.c level_2/private-execute.c level_2/file.c level_2/private-file.c level_2/fss.c level_2/private-fss.c level_2/fss_basic.c level_2/fss_basic_list.c level_2/fss_embedded_list.c level_2/fss_extended.c level_2/fss_extended_list.c level_2/fss_status.c level_2/iki.c level_2/private-iki.c level_2/path.c level_2/print.c level_2/program.c level_2/status.c +build_sources_library level_0/account.c level_0/private-account.c level_0/capability.c level_0/color.c level_0/color-common.c level_0/console.c level_0/console-common.c level_0/control_group.c level_0/control_group-common.c level_0/conversion.c level_0/conversion-common.c level_0/private-conversion.c level_0/directory.c level_0/private-directory.c level_0/environment.c level_0/private-environment.c level_0/file.c level_0/file-common.c level_0/private-file.c level_0/fss.c level_0/private-fss.c level_0/fss-common.c level_0/fss_named.c level_0/fss_nest.c level_0/fss_set.c level_0/iki.c level_0/iki-common.c level_0/private-iki.c level_0/limit.c level_0/memory.c level_0/memory_structure.c level_0/private-memory.c level_0/path.c level_0/path-common.c level_0/private-path.c level_0/pipe.c level_0/print.c level_0/print-common.c level_0/private-print.c level_0/serialize.c level_0/serialize-common.c level_0/private-serialize.c level_0/signal.c level_0/socket.c level_0/string.c level_0/string-common.c level_0/private-string.c level_0/string_dynamic.c level_0/string_map.c level_0/string_quantity.c level_0/string_range.c level_0/string_triple.c level_0/type_array.c level_0/private-type_array.c level_0/utf.c level_0/utf-common.c level_0/private-utf.c level_0/utf_dynamic.c level_0/utf_map.c level_0/utf_triple.c level_1/console.c level_1/control_group.c level_1/conversion.c level_1/private-conversion.c level_1/directory.c level_1/private-directory.c level_1/environment.c level_1/private-fss.c level_1/fss_basic.c level_1/fss_basic_list.c level_1/fss_embedded_list.c level_1/fss_extended.c level_1/fss_extended_list.c level_1/iki.c level_1/print.c level_1/private-print.c level_1/signal.c level_1/status.c level_1/string.c level_1/private-string.c level_1/utf.c level_1/private-utf.c level_1/utf_file.c level_1/private-utf_file.c level_2/control_group.c level_2/error.c level_2/error-common.c level_2/private-error.c level_2/execute.c level_2/private-execute.c level_2/file.c level_2/private-file.c level_2/fss.c level_2/private-fss.c level_2/fss_basic.c level_2/fss_basic_list.c level_2/fss_embedded_list.c level_2/fss_extended.c level_2/fss_extended_list.c level_2/fss_status.c level_2/iki.c level_2/private-iki.c level_2/path.c level_2/print.c level_2/program.c level_2/status.c build_sources_library-monolithic level_0/thread.c level_0/private-thread.c build_sources_program build_sources_headers level_0/account.h level_0/account-common.h level_0/capability.h level_0/capability-common.h level_0/color.h level_0/color-common.h level_0/console.h level_0/console-common.h level_0/control_group.h level_0/control_group-common.h level_0/conversion.h level_0/conversion-common.h level_0/directory.h level_0/directory_type.h level_0/directory-common.h level_0/environment.h level_0/environment-common.h level_0/execute.h level_0/execute-common.h level_0/file.h level_0/file-common.h level_0/fss.h level_0/fss-common.h level_0/fss_comment.h level_0/fss_delimit.h level_0/fss_named.h level_0/fss_nest.h level_0/fss_quote.h level_0/fss_set.h level_0/iki.h level_0/iki-common.h level_0/limit.h level_0/limit-common.h level_0/memory.h level_0/memory_structure.h level_0/memory-common.h level_0/path.h level_0/path-common.h level_0/pipe.h level_0/print.h level_0/print-common.h level_0/serialize.h level_0/serialize-common.h level_0/signal.h level_0/signal-common.h level_0/socket.h level_0/socket-common.h level_0/status.h level_0/string.h level_0/string-common.h level_0/string_dynamic.h level_0/string_map.h level_0/string_quantity.h level_0/string_range.h level_0/string_triple.h level_0/type.h level_0/type_array.h level_0/type_array-common.h level_0/utf.h level_0/utf-common.h level_0/utf_dynamic.h level_0/utf_map.h level_0/utf_triple.h level_1/console.h level_1/control_group.h level_1/conversion.h level_1/directory.h level_1/environment.h level_1/execute.h level_1/execute-common.h level_1/fss.h level_1/fss_basic.h level_1/fss_basic_list.h level_1/fss_embedded_list.h level_1/fss_extended.h level_1/fss_extended_list.h level_1/fss_status.h level_1/iki.h level_1/print.h level_1/signal.h level_1/signal-common.h level_1/status.h level_1/string.h level_1/utf.h level_1/utf_file.h level_2/control_group.h level_2/error.h level_2/error-common.h level_2/execute.h level_2/file.h level_2/fss.h level_2/fss_basic.h level_2/fss_basic_list.h level_2/fss_embedded_list.h level_2/fss_extended.h level_2/fss_extended_list.h level_2/fss_status.h level_2/iki.h level_2/path.h level_2/print.h level_2/program.h level_2/status.h diff --git a/level_0/f_conversion/c/private-conversion.h b/level_0/f_conversion/c/private-conversion.h index 437496d..3a5eee3 100644 --- a/level_0/f_conversion/c/private-conversion.h +++ b/level_0/f_conversion/c/private-conversion.h @@ -5,7 +5,8 @@ * API Version: 0.5 * Licenses: lgplv2.1 * - * Provide means to convert one data type to another, such as a string to an integer. + * These are provided for internal reduction in redundant code. + * These should not be exposed/used outside of this project. */ #ifndef _PRIVATE_F_conversion_h #define _PRIVATE_F_conversion_h diff --git a/level_1/fl_conversion/c/conversion.c b/level_1/fl_conversion/c/conversion.c index e7366f8..2533c94 100644 --- a/level_1/fl_conversion/c/conversion.c +++ b/level_1/fl_conversion/c/conversion.c @@ -1,4 +1,5 @@ #include "conversion.h" +#include "private-conversion.h" #ifdef __cplusplus extern "C" { @@ -12,59 +13,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_binary(string[i], &digit) == F_none) { - if (digits) { - ++digits; - - if (negative) { - if (digits > f_conversion_digits_binary_signed) { - return F_status_set_error(F_number_underflow); - } - - converted <<= 1; - converted -= digit; - } - else { - if (digits > f_conversion_digits_binary_signed) { - return F_status_set_error(F_number_overflow); - } - - converted <<= 1; - converted += digit; - } - } - else if (digit) { - digits = 1; - - if (negative) { - converted = (f_number_unsigned_t) (0 - digit); - } - else { - converted = (f_number_unsigned_t) digit; - } - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_binary_signed(string, range, negative, number); } #endif // _di_fl_conversion_string_to_binary_signed_ @@ -76,43 +25,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_binary(string[i], &digit) == F_none) { - if (digits) { - ++digits; - - if (digits > f_conversion_digits_binary_unsigned) { - return F_status_set_error(F_number_overflow); - } - - converted <<= 1; - converted += digit; - } - else if (digit) { - digits = 1; - converted = (f_number_unsigned_t) digit; - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_binary_unsigned(string, range, number); } #endif // _di_fl_conversion_string_to_binary_unsigned_ @@ -124,64 +37,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_decimal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (negative) { - if (digits > f_conversion_digits_decimal_signed) { - if ((converted * 10) - digit < f_number_t_size_negative || (converted * 10) - digit > converted) { - return F_status_set_error(F_number_underflow); - } - } - - converted *= 10; - converted -= digit; - } - else { - if (digits > f_conversion_digits_decimal_signed) { - if ((converted * 10) + digit > f_number_t_size_positive || (converted * 10) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted *= 10; - converted += digit; - } - } - else if (digit) { - digits = 1; - - if (negative) { - converted = (f_number_unsigned_t) (0 - digit); - } - else { - converted = (f_number_unsigned_t) digit; - } - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_decimal_signed(string, range, negative, number); } #endif // _di_fl_conversion_string_to_decimal_signed_ @@ -193,46 +49,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_decimal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (digits > f_conversion_digits_decimal_unsigned) { - if ((converted * 10) + digit > f_number_t_size_unsigned || (converted * 10) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted *= 10; - converted += digit; - } - else if (digit) { - digits = 1; - converted = (f_number_unsigned_t) digit; - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_decimal_unsigned(string, range, number); } #endif // _di_fl_conversion_string_to_decimal_unsigned_ @@ -244,64 +61,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_duodecimal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (negative) { - if (digits > f_conversion_digits_duodecimal_signed) { - if ((converted * 12) - digit < f_number_t_size_negative || (converted * 12) - digit > converted) { - return F_status_set_error(F_number_underflow); - } - } - - converted *= 12; - converted -= digit; - } - else { - if (digits > f_conversion_digits_duodecimal_signed) { - if ((converted * 12) + digit > f_number_t_size_positive || (converted * 12) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted *= 12; - converted += digit; - } - } - else if (digit) { - digits = 1; - - if (negative) { - converted = (f_number_unsigned_t) (0 - digit); - } - else { - converted = (f_number_unsigned_t) digit; - } - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_duodecimal_signed(string, range, negative, number); } #endif // _di_fl_conversion_string_to_duodecimal_signed_ @@ -313,46 +73,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_duodecimal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (digits > f_conversion_digits_duodecimal_unsigned) { - if ((converted * 12) + digit > f_number_t_size_unsigned || (converted * 12) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted *= 12; - converted += digit; - } - else if (digit) { - digits = 1; - converted = (f_number_unsigned_t) digit; - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_duodecimal_unsigned(string, range, number); } #endif // _di_fl_conversion_string_to_duodecimal_unsigned_ @@ -364,64 +85,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_hexidecimal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (negative) { - if (digits > f_conversion_digits_hexidecimal_signed) { - if ((converted << 4) - digit < f_number_t_size_negative || (converted << 4) - digit > converted) { - return F_status_set_error(F_number_underflow); - } - } - - converted <<= 4; - converted -= digit; - } - else { - if (digits > f_conversion_digits_hexidecimal_signed) { - if ((converted << 4) + digit > f_number_t_size_positive || (converted << 4) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted <<= 4; - converted += digit; - } - } - else if (digit) { - digits = 1; - - if (negative) { - converted = (f_number_unsigned_t) (0 - digit); - } - else { - converted = (f_number_unsigned_t) digit; - } - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_hexidecimal_signed(string, range, negative, number); } #endif // _di_fl_conversion_string_to_hexidecimal_signed_ @@ -433,46 +97,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_hexidecimal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (digits > f_conversion_digits_hexidecimal_unsigned) { - if ((converted << 4) + digit > f_number_t_size_unsigned || (converted << 4) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted <<= 4; - converted += digit; - } - else if (digit) { - digits = 1; - converted = (f_number_unsigned_t) digit; - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_hexidecimal_unsigned(string, range, number); } #endif // _di_fl_conversion_string_to_hexidecimal_unsigned_ @@ -484,64 +109,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_octal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (negative) { - if (digits > f_conversion_digits_octal_signed) { - if ((converted << 3) - digit < f_number_t_size_negative || (converted << 3) - digit > converted) { - return F_status_set_error(F_number_underflow); - } - } - - converted <<= 3; - converted -= digit; - } - else { - if (digits > f_conversion_digits_octal_signed) { - if ((converted << 3) + digit > f_number_t_size_positive || (converted << 3) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted <<= 3; - converted += digit; - } - } - else if (digit) { - digits = 1; - - if (negative) { - converted = (f_number_unsigned_t) (0 - digit); - } - else { - converted = (f_number_unsigned_t) digit; - } - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_octal_signed(string, range, negative, number); } #endif // _di_fl_conversion_string_to_octal_signed_ @@ -553,46 +121,7 @@ extern "C" { if (!number) return F_status_set_error(F_parameter); #endif // _di_level_1_parameter_checking_ - if (!string[0]) { - return F_data_not; - } - - uint8_t digits = 0; - uint8_t digit = 0; - f_number_unsigned_t converted = 0; - - for (f_array_length_t i = range.start; i <= range.stop; ++i) { - - if (string[i] == 0x2e) { - return F_status_set_error(F_number_decimal); - } - - if (f_conversion_character_to_octal(string[i], &digit) == F_none) { - - if (digits) { - ++digits; - - if (digits > f_conversion_digits_octal_unsigned) { - if ((converted << 3) + digit > f_number_t_size_unsigned || (converted << 3) + digit < converted) { - return F_status_set_error(F_number_overflow); - } - } - - converted <<= 3; - converted += digit; - } - else if (digit) { - digits = 1; - converted = (f_number_unsigned_t) digit; - } - } - else if (string[i]) { - return F_status_set_error(F_number); - } - } // for - - *number = converted; - return F_none; + return private_fl_conversion_string_to_octal_unsigned(string, range, number); } #endif // _di_fl_conversion_string_to_octal_unsigned_ @@ -739,22 +268,22 @@ extern "C" { } if (mode == 10) { - return fl_conversion_string_to_decimal_signed(string, location_offset, vector == -1, number); + return private_fl_conversion_string_to_decimal_signed(string, location_offset, vector == -1, number); } if (mode == 16) { - return fl_conversion_string_to_hexidecimal_signed(string, location_offset, vector == -1, number); + return private_fl_conversion_string_to_hexidecimal_signed(string, location_offset, vector == -1, number); } if (mode == 12) { - return fl_conversion_string_to_duodecimal_signed(string, location_offset, vector == -1, number); + return private_fl_conversion_string_to_duodecimal_signed(string, location_offset, vector == -1, number); } if (mode == 8) { - return fl_conversion_string_to_octal_signed(string, location_offset, vector == -1, number); + return private_fl_conversion_string_to_octal_signed(string, location_offset, vector == -1, number); } - return fl_conversion_string_to_binary_signed(string, location_offset, vector == -1, number); + return private_fl_conversion_string_to_binary_signed(string, location_offset, vector == -1, number); } #endif // _di_fl_conversion_string_to_number_signed_ @@ -889,19 +418,19 @@ extern "C" { } if (mode == 10) { - status = fl_conversion_string_to_decimal_unsigned(string, location_offset, number); + status = private_fl_conversion_string_to_decimal_unsigned(string, location_offset, number); } else if (mode == 16) { - status = fl_conversion_string_to_hexidecimal_unsigned(string, location_offset, number); + status = private_fl_conversion_string_to_hexidecimal_unsigned(string, location_offset, number); } else if (mode == 12) { - status = fl_conversion_string_to_duodecimal_unsigned(string, location_offset, number); + status = private_fl_conversion_string_to_duodecimal_unsigned(string, location_offset, number); } else if (mode == 8) { - status = fl_conversion_string_to_octal_unsigned(string, location_offset, number); + status = private_fl_conversion_string_to_octal_unsigned(string, location_offset, number); } else { - status = fl_conversion_string_to_binary_unsigned(string, location_offset, number); + status = private_fl_conversion_string_to_binary_unsigned(string, location_offset, number); } // +/- signs are not allowed. diff --git a/level_1/fl_conversion/c/private-conversion.c b/level_1/fl_conversion/c/private-conversion.c new file mode 100644 index 0000000..0736800 --- /dev/null +++ b/level_1/fl_conversion/c/private-conversion.c @@ -0,0 +1,552 @@ +#include "conversion.h" +#include "private-conversion.h" + +#ifdef __cplusplus +extern "C" { +#endif + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_number_unsigned_) + f_status_t private_fl_conversion_string_to_binary_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_binary(string[i], &digit) == F_none) { + if (digits) { + ++digits; + + if (negative) { + if (digits > f_conversion_digits_binary_signed) { + return F_status_set_error(F_number_underflow); + } + + converted <<= 1; + converted -= digit; + } + else { + if (digits > f_conversion_digits_binary_signed) { + return F_status_set_error(F_number_overflow); + } + + converted <<= 1; + converted += digit; + } + } + else if (digit) { + digits = 1; + + if (negative) { + converted = (f_number_unsigned_t) (0 - digit); + } + else { + converted = (f_number_unsigned_t) digit; + } + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_binary_signed_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_binary_unsigned_) + f_status_t private_fl_conversion_string_to_binary_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_binary(string[i], &digit) == F_none) { + if (digits) { + ++digits; + + if (digits > f_conversion_digits_binary_unsigned) { + return F_status_set_error(F_number_overflow); + } + + converted <<= 1; + converted += digit; + } + else if (digit) { + digits = 1; + converted = (f_number_unsigned_t) digit; + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_binary_unsigned_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_decimal_signed_) + f_status_t private_fl_conversion_string_to_decimal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_decimal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (negative) { + if (digits > f_conversion_digits_decimal_signed) { + if ((converted * 10) - digit < f_number_t_size_negative || (converted * 10) - digit > converted) { + return F_status_set_error(F_number_underflow); + } + } + + converted *= 10; + converted -= digit; + } + else { + if (digits > f_conversion_digits_decimal_signed) { + if ((converted * 10) + digit > f_number_t_size_positive || (converted * 10) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted *= 10; + converted += digit; + } + } + else if (digit) { + digits = 1; + + if (negative) { + converted = (f_number_unsigned_t) (0 - digit); + } + else { + converted = (f_number_unsigned_t) digit; + } + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_decimal_signed_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_decimal_unsigned_) + f_status_t private_fl_conversion_string_to_decimal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_decimal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (digits > f_conversion_digits_decimal_unsigned) { + if ((converted * 10) + digit > f_number_t_size_unsigned || (converted * 10) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted *= 10; + converted += digit; + } + else if (digit) { + digits = 1; + converted = (f_number_unsigned_t) digit; + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_decimal_unsigned_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_duodecimal_signed_) + f_status_t private_fl_conversion_string_to_duodecimal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_duodecimal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (negative) { + if (digits > f_conversion_digits_duodecimal_signed) { + if ((converted * 12) - digit < f_number_t_size_negative || (converted * 12) - digit > converted) { + return F_status_set_error(F_number_underflow); + } + } + + converted *= 12; + converted -= digit; + } + else { + if (digits > f_conversion_digits_duodecimal_signed) { + if ((converted * 12) + digit > f_number_t_size_positive || (converted * 12) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted *= 12; + converted += digit; + } + } + else if (digit) { + digits = 1; + + if (negative) { + converted = (f_number_unsigned_t) (0 - digit); + } + else { + converted = (f_number_unsigned_t) digit; + } + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_duodecimal_signed_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_duodecimal_unsigned_) + f_status_t private_fl_conversion_string_to_duodecimal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_duodecimal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (digits > f_conversion_digits_duodecimal_unsigned) { + if ((converted * 12) + digit > f_number_t_size_unsigned || (converted * 12) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted *= 12; + converted += digit; + } + else if (digit) { + digits = 1; + converted = (f_number_unsigned_t) digit; + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_duodecimal_unsigned_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_hexidecimal_signed_) + f_status_t private_fl_conversion_string_to_hexidecimal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_hexidecimal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (negative) { + if (digits > f_conversion_digits_hexidecimal_signed) { + if ((converted << 4) - digit < f_number_t_size_negative || (converted << 4) - digit > converted) { + return F_status_set_error(F_number_underflow); + } + } + + converted <<= 4; + converted -= digit; + } + else { + if (digits > f_conversion_digits_hexidecimal_signed) { + if ((converted << 4) + digit > f_number_t_size_positive || (converted << 4) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted <<= 4; + converted += digit; + } + } + else if (digit) { + digits = 1; + + if (negative) { + converted = (f_number_unsigned_t) (0 - digit); + } + else { + converted = (f_number_unsigned_t) digit; + } + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_hexidecimal_signed_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_hexidecimal_unsigned_) + f_status_t private_fl_conversion_string_to_hexidecimal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_hexidecimal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (digits > f_conversion_digits_hexidecimal_unsigned) { + if ((converted << 4) + digit > f_number_t_size_unsigned || (converted << 4) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted <<= 4; + converted += digit; + } + else if (digit) { + digits = 1; + converted = (f_number_unsigned_t) digit; + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_hexidecimal_unsigned_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_octal_signed_) + f_status_t private_fl_conversion_string_to_octal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_octal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (negative) { + if (digits > f_conversion_digits_octal_signed) { + if ((converted << 3) - digit < f_number_t_size_negative || (converted << 3) - digit > converted) { + return F_status_set_error(F_number_underflow); + } + } + + converted <<= 3; + converted -= digit; + } + else { + if (digits > f_conversion_digits_octal_signed) { + if ((converted << 3) + digit > f_number_t_size_positive || (converted << 3) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted <<= 3; + converted += digit; + } + } + else if (digit) { + digits = 1; + + if (negative) { + converted = (f_number_unsigned_t) (0 - digit); + } + else { + converted = (f_number_unsigned_t) digit; + } + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_octal_signed_) + +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_octal_unsigned_) + f_status_t private_fl_conversion_string_to_octal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number) { + + if (!string[0]) { + return F_data_not; + } + + uint8_t digits = 0; + uint8_t digit = 0; + f_number_unsigned_t converted = 0; + + for (f_array_length_t i = range.start; i <= range.stop; ++i) { + + if (string[i] == 0x2e) { + return F_status_set_error(F_number_decimal); + } + + if (f_conversion_character_to_octal(string[i], &digit) == F_none) { + + if (digits) { + ++digits; + + if (digits > f_conversion_digits_octal_unsigned) { + if ((converted << 3) + digit > f_number_t_size_unsigned || (converted << 3) + digit < converted) { + return F_status_set_error(F_number_overflow); + } + } + + converted <<= 3; + converted += digit; + } + else if (digit) { + digits = 1; + converted = (f_number_unsigned_t) digit; + } + } + else if (string[i]) { + return F_status_set_error(F_number); + } + } // for + + *number = converted; + return F_none; + } +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !defined(_di_fl_conversion_string_to_octal_unsigned_) + +#ifdef __cplusplus +} // extern "C" +#endif diff --git a/level_1/fl_conversion/c/private-conversion.h b/level_1/fl_conversion/c/private-conversion.h new file mode 100644 index 0000000..84a46d7 --- /dev/null +++ b/level_1/fl_conversion/c/private-conversion.h @@ -0,0 +1,296 @@ +/** + * FLL - Level 1 + * + * Project: Conversion + * API Version: 0.5 + * Licenses: lgplv2.1 + * + * These are provided for internal reduction in redundant code. + * These should not be exposed/used outside of this project. + */ +#ifndef _PRIVATE_FL_conversion_h +#define _PRIVATE_FL_conversion_h + +#ifdef __cplusplus +extern "C" { +#endif + +/** + * Private implementation of fl_conversion_string_to_binary_signed(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param location + * The start/stop range to convert. + * @param negative + * Set to 0 to treat string as a positive number, 1 for as a negative number. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the binary string was converted to an signed long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-binary values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_number_underflow (with error bit) on integer underflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_binary_signed_) + extern f_status_t private_fl_conversion_string_to_binary_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_binary_signed_) + +/** + * Private implementation of fl_conversion_string_to_binary_unsigned(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the binary string was converted to an unsigned long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-binary values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_binary_unsigned_) + extern f_status_t private_fl_conversion_string_to_binary_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_binary_unsigned_) + +/** + * Private implementation of fl_conversion_string_to_decimal_signed(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param negative + * Set to 0 to treat string as a positive number, 1 for as a negative number. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the decimal string was converted to an signed long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-decimal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_number_underflow (with error bit) on integer underflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_decimal_signed_) + extern f_status_t private_fl_conversion_string_to_decimal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_decimal_signed_) + +/** + * Private implementation of fl_conversion_string_to_decimal_unsigned(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the decimal string was converted to an unsigned long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-decimal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_decimal_unsigned_) + extern f_status_t private_fl_conversion_string_to_decimal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_decimal_unsigned_) + +/** + * Private implementation of fl_conversion_string_to_duodecimal_signed(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param negative + * Set to 0 to treat string as a positive number, 1 for as a negative number. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the duodecimal string was converted to an signed long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-duodecimal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_number_underflow (with error bit) on integer underflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_duodecimal_signed_) + extern f_status_t private_fl_conversion_string_to_duodecimal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_duodecimal_signed_) + +/** + * Private implementation of fl_conversion_string_to_duodecimal_unsigned(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the duodecimal string was converted to an unsigned long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-duodecimal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_duodecimal_unsigned_) + extern f_status_t private_fl_conversion_string_to_duodecimal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_duodecimal_unsigned_) + +/** + * Private implementation of fl_conversion_string_to_hexidecimal_signed(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param negative + * Set to 0 to treat string as a positive number, 1 for as a negative number. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the hexidecimal string was converted to an signed long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-hexidecimal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_number_underflow (with error bit) on integer underflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_hexidecimal_signed_) + extern f_status_t private_fl_conversion_string_to_hexidecimal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_hexidecimal_signed_) + +/** + * Private implementation of fl_conversion_string_to_hexidecimal_unsigned(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the hexidecimal string was converted to an unsigned long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-hexidecimal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_hexidecimal_unsigned_) + extern f_status_t private_fl_conversion_string_to_hexidecimal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_hexidecimal_unsigned_) + +/** + * Private implementation of fl_conversion_string_to_octal_signed(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param negative + * Set to 0 to treat string as a positive number, 1 for as a negative number. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the octal string was converted to an signed long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-octal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_octal_signed_) + extern f_status_t private_fl_conversion_string_to_octal_signed(const f_string_t string, const f_string_range_t range, const bool negative, f_number_signed_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_octal_signed_) + +/** + * Private implementation of fl_conversion_string_to_octal_unsigned(). + * + * Intended to be shared to each of the different implementation variations. + * + * @param string + * The string to convert. + * @param range + * The start/stop range to convert. + * @param number + * This will store the value of the converted string. + * This value is only changed on success. + * + * @return + * F_none if the octal string was converted to an unsigned long. + * F_data_not if string starts with a null (length is 0). + * + * F_number (with error bit) if no conversion was made due to non-octal values being found. + * F_number_decimal (with error bit) if number has a decimal digit. + * F_number_overflow (with error bit) on integer overflow. + * F_parameter (with error bit) if a parameter is invalid. + */ +#if !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_octal_unsigned_) + extern f_status_t private_fl_conversion_string_to_octal_unsigned(const f_string_t string, const f_string_range_t range, f_number_unsigned_t *number); +#endif // !defined(_di_fl_conversion_string_to_binary_signed_) || !defined(_di_fl_conversion_string_to_number_signed_) || !(_di_fl_conversion_string_to_octal_unsigned_) + +#ifdef __cplusplus +} // extern "C" +#endif + +#endif // _PRIVATE_FL_conversion_h diff --git a/level_1/fl_conversion/data/build/settings b/level_1/fl_conversion/data/build/settings index 2ff9279..604204a 100644 --- a/level_1/fl_conversion/data/build/settings +++ b/level_1/fl_conversion/data/build/settings @@ -21,7 +21,7 @@ build_indexer ar build_language c build_libraries -lc build_libraries-individual -lf_conversion -lf_memory -lf_string -lf_utf -build_sources_library conversion.c +build_sources_library conversion.c private-conversion.c build_sources_program build_sources_headers conversion.h build_sources_script