/* upcean.c - Handles UPC, EAN and ISBN libzint - the open source barcode library Copyright (C) 2008 Robin Stuart This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #define SODIUM "0123456789+" #define EAN2 102 #define EAN5 105 #include #include #include #include "common.h" /* UPC and EAN tables checked against EN 797:1996 */ static char *UPCParity0[10] = {"BBBAAA", "BBABAA", "BBAABA", "BBAAAB", "BABBAA", "BAABBA", "BAAABB", "BABABA", "BABAAB", "BAABAB"}; /* Number set for UPC-E symbol (EN Table 4) */ static char *UPCParity1[10] = {"AAABBB", "AABABB", "AABBAB", "AABBBA", "ABAABB", "ABBAAB", "ABBBAA", "ABABAB", "ABABBA", "ABBABA"}; /* Not covered by BS EN 797:1995 */ static char *EAN2Parity[4] = {"AA", "AB", "BA", "BB"}; /* Number sets for 2-digit add-on (EN Table 6) */ static char *EAN5Parity[10] = {"BBAAA", "BABAA", "BAABA", "BAAAB", "ABBAA", "AABBA", "AAABB", "ABABA", "ABAAB", "AABAB"}; /* Number set for 5-digit add-on (EN Table 7) */ static char *EAN13Parity[10] = {"AAAAA", "ABABB", "ABBAB", "ABBBA", "BAABB", "BBAAB", "BBBAA", "BABAB", "BABBA", "BBABA"}; /* Left hand of the EAN-13 symbol (EN Table 3) */ static char *EANsetA[10] = {"3211", "2221", "2122", "1411", "1132", "1231", "1114", "1312", "1213", "3112"}; /* Representation set A and C (EN Table 1) */ static char *EANsetB[10] = {"1123", "1222", "2212", "1141", "2311", "1321", "4111", "2131", "3121", "2113"}; /* Representation set B (EN Table 1) */ char upc_check(char source[]) { /* Calculate the correct check digit for a UPC barcode */ unsigned int i, count, check_digit; count = 0; for (i = 0; i < strlen(source); i++) { count += ctoi(source[i]); if (!(i & 1)) { count += 2 * (ctoi(source[i])); } } check_digit = 10 - (count%10); if (check_digit == 10) { check_digit = 0; } return itoc(check_digit); } void upca_draw(char source[], char dest[]) { /* UPC A is usually used for 12 digit numbers, but this function takes a source of any length */ unsigned int i, half_way; half_way = strlen(source) / 2; /* start character */ concat (dest, "111"); for(i = 0; i <= strlen(source); i++) { if (i == half_way) { /* middle character - separates manufacturer no. from product no. */ /* also inverts right hand characters */ concat(dest, "11111"); } lookup(NEON, EANsetA, source[i], dest); } /* stop character */ concat (dest, "111"); } void upca(struct zint_symbol *symbol, unsigned char source[], char dest[]) { /* Make a UPC A barcode when we haven't been given the check digit */ int length; char gtin[15]; strcpy(gtin, (char*)source); length = strlen(gtin); gtin[length] = upc_check(gtin); gtin[length + 1] = '\0'; upca_draw(gtin, dest); ustrcpy(symbol->text, (unsigned char*)gtin); } void upce(struct zint_symbol *symbol, unsigned char source[], char dest[]) { /* UPC E is a zero-compressed version of UPC A */ int i, num_system; char emode, equivalent[12], check_digit, parity[8], temp[8]; char hrt[9]; /* Two number systems can be used - system 0 and system 1 */ if(ustrlen(source) == 7) { switch(source[0]) { case '0': num_system = 0; break; case '1': num_system = 1; break; default: num_system = 0; source[0] = '0'; break; } strcpy(temp, (char*)source); strcpy(hrt, (char*)source); for(i = 1; i <= 7; i++) { source[i - 1] = temp[i]; } } else { num_system = 0; hrt[0] = '0'; hrt[1] = '\0'; concat(hrt, (char*)source); } /* Expand the zero-compressed UPCE code to make a UPCA equivalent (EN Table 5) */ emode = source[5]; for(i = 0; i < 11; i++) { equivalent[i] = '0'; } if(num_system == 1) { equivalent[0] = temp[0]; } equivalent[1] = source[0]; equivalent[2] = source[1]; equivalent[11] = '\0'; switch(emode) { case '0': case '1': case '2': equivalent[3] = emode; equivalent[8] = source[2]; equivalent[9] = source[3]; equivalent[10] = source[4]; break; case '3': equivalent[3] = source[2]; equivalent[9] = source[3]; equivalent[10] = source[4]; if(((source[2] == '0') || (source[2] == '1')) || (source[2] == '2')) { /* Note 1 - "X3 shall not be equal to 0, 1 or 2" */ strcpy(symbol->errtxt, "Invalid UPC-E data"); } break; case '4': equivalent[3] = source[2]; equivalent[4] = source[3]; equivalent[10] = source[4]; if(source[3] == '0') { /* Note 2 - "X4 shall not be equal to 0" */ strcpy(symbol->errtxt, "Invalid UPC-E data"); } break; case '5': case '6': case '7': case '8': case '9': equivalent[3] = source[2]; equivalent[4] = source[3]; equivalent[5] = source[4]; equivalent[10] = emode; if(source[4] == '0') { /* Note 3 - "X5 shall not be equal to 0" */ strcpy(symbol->errtxt, "Invalid UPC-E data"); } break; } /* Get the check digit from the expanded UPCA code */ check_digit = upc_check(equivalent); /* Use the number system and check digit information to choose a parity scheme */ if(num_system == 1) { strcpy(parity, UPCParity1[ctoi(check_digit)]); } else { strcpy(parity, UPCParity0[ctoi(check_digit)]); } /* Take all this information and make the barcode pattern */ /* start character */ concat (dest, "111"); for(i = 0; i <= ustrlen(source); i++) { switch(parity[i]) { case 'A': lookup(NEON, EANsetA, source[i], dest); break; case 'B': lookup(NEON, EANsetB, source[i], dest); break; } } /* stop character */ concat (dest, "111111"); hrt[7] = check_digit; hrt[8] = '\0'; ustrcpy(symbol->text, (unsigned char*)hrt); } void add_on(unsigned char source[], char dest[], int mode) { /* EAN-2 and EAN-5 add-on codes */ char parity[6]; int i, code_type; /* If an add-on then append with space */ if (mode != 0) { concat(dest, "9"); } /* Start character */ concat (dest, "112"); /* Determine EAN2 or EAN5 add-on */ if(ustrlen(source) == 2) { code_type = EAN2; } else { code_type = EAN5; } /* Calculate parity for EAN2 */ if(code_type == EAN2) { int code_value, parity_bit; code_value = (10 * ctoi(source[0])) + ctoi(source[1]); parity_bit = code_value%4; strcpy(parity, EAN2Parity[parity_bit]); } if(code_type == EAN5) { int values[6], parity_sum, parity_bit; for(i = 0; i < 6; i++) { values[i] = ctoi(source[i]); } parity_sum = (3 * (values[0] + values[2] + values[4])); parity_sum += (9 * (values[1] + values[3])); parity_bit = parity_sum%10; strcpy(parity, EAN5Parity[parity_bit]); } for(i = 0; i < ustrlen(source); i++) { switch(parity[i]) { case 'A': lookup(NEON, EANsetA, source[i], dest); break; case 'B': lookup(NEON, EANsetB, source[i], dest); break; } /* Glyph separator */ if(i != (ustrlen(source) - 1)) { concat (dest, "11"); } } } /* ************************ EAN-13 ****************** */ char ean_check(char source[]) { /* Calculate the correct check digit for a EAN-13 barcode */ int i; unsigned int h, count, check_digit; count = 0; h = strlen(source); for (i = h - 1; i >= 0; i--) { count += ctoi(source[i]); if (i & 1) { count += 2 * ctoi(source[i]); } } check_digit = 10 - (count%10); if (check_digit == 10) { check_digit = 0; } return itoc(check_digit); } void ean13(struct zint_symbol *symbol, unsigned char source[], char dest[]) { unsigned int length, i, half_way; char parity[6]; char gtin[15]; strcpy(parity, ""); strcpy(gtin, (char*)source); /* Add the appropriate check digit */ length = strlen(gtin); gtin[length] = ean_check(gtin); gtin[length + 1] = '\0'; /* Get parity for first half of the symbol */ lookup(SODIUM, EAN13Parity, gtin[0], parity); /* Now get on with the cipher */ half_way = 7; /* start character */ concat (dest, "111"); length = strlen(gtin); for(i = 1; i <= length; i++) { if (i == half_way) { /* middle character - separates manufacturer no. from product no. */ /* also inverses right hand characters */ concat (dest, "11111"); } if(((i > 1) && (i < 7)) && (parity[i - 2] == 'B')) { lookup(NEON, EANsetB, gtin[i], dest); } else { lookup(NEON, EANsetA, gtin[i], dest); } } /* stop character */ concat (dest, "111"); ustrcpy(symbol->text, (unsigned char*)gtin); } void ean8(struct zint_symbol *symbol, unsigned char source[], char dest[]) { /* Make an EAN-8 barcode when we haven't been given the check digit */ /* EAN-8 is basically the same as UPC-A but with fewer digits */ int length; char gtin[10]; strcpy(gtin, (char*)source); length = strlen(gtin); gtin[length] = upc_check(gtin); gtin[length + 1] = '\0'; upca_draw(gtin, dest); ustrcpy(symbol->text, (unsigned char*)gtin); } char isbn13_check(unsigned char source[]) /* For ISBN(13) only */ { unsigned int i, weight, sum, check, h; sum = 0; weight = 1; h = ustrlen(source) - 1; for(i = 0; i < h; i++) { sum += ctoi(source[i]) * weight; if(weight == 1) weight = 3; else weight = 1; } check = sum % 10; check = 10 - check; return itoc(check); } char isbn_check(unsigned char source[]) /* For ISBN(10) and SBN only */ { unsigned int i, weight, sum, check, h; char check_char; sum = 0; weight = 1; h = ustrlen(source) - 1; for(i = 0; i < h; i++) { sum += ctoi(source[i]) * weight; weight++; } check = sum % 11; check_char = itoc(check); if(check == 10) { check_char = 'X'; } return check_char; } int isbn(struct zint_symbol *symbol, unsigned char source[], const unsigned int src_len, char dest[]) /* Make an EAN-13 barcode from an SBN or ISBN */ { int i, error_number; char check_digit; to_upper(source); error_number = is_sane("0123456789X", source, src_len); if(error_number == ERROR_INVALID_DATA1) { strcpy(symbol->errtxt, "Invalid characters in input"); return error_number; } /* Input must be 9, 10 or 13 characters */ if(((src_len < 9) || (src_len > 13)) || ((src_len > 10) && (src_len < 13))) { strcpy(symbol->errtxt, "Input wrong length"); return ERROR_TOO_LONG; } if(src_len == 13) /* Using 13 character ISBN */ { if(!(((source[0] == '9') && (source[1] == '7')) && ((source[2] == '8') || (source[2] == '9')))) { strcpy(symbol->errtxt, "Invalid ISBN"); return ERROR_INVALID_DATA1; } check_digit = isbn13_check(source); if (source[src_len - 1] != check_digit) { strcpy(symbol->errtxt, "Incorrect ISBN check"); return ERROR_INVALID_CHECK; } source[12] = '\0'; ean13(symbol, source, dest); } if(src_len == 10) /* Using 10 digit ISBN */ { check_digit = isbn_check(source); if(check_digit != source[src_len - 1]) { strcpy(symbol->errtxt, "Incorrect ISBN check"); return ERROR_INVALID_CHECK; } for(i = 13; i > 0; i--) { source[i] = source[i - 3]; } source[0] = '9'; source[1] = '7'; source[2] = '8'; source[12] = '\0'; ean13(symbol, source, dest); } if(src_len == 9) /* Using 9 digit SBN */ { /* Add leading zero */ for(i = 10; i > 0; i--) { source[i] = source[i - 1]; } source[0] = '0'; /* Verify check digit */ check_digit = isbn_check(source); if(check_digit != source[ustrlen(source) - 1]) { strcpy(symbol->errtxt, "Incorrect SBN check"); return ERROR_INVALID_CHECK; } /* Convert to EAN-13 number */ for(i = 13; i > 0; i--) { source[i] = source[i - 3]; } source[0] = '9'; source[1] = '7'; source[2] = '8'; source[12] = '\0'; ean13(symbol, source, dest); } return 0; } void ean_leading_zeroes(struct zint_symbol *symbol, unsigned char source[], unsigned char local_source[]) { /* Add leading zeroes to EAN and UPC strings */ unsigned char first_part[20], second_part[20], zfirst_part[20], zsecond_part[20]; int with_addon = 0; int first_len = 0, second_len = 0, zfirst_len = 0, zsecond_len = 0, i, h; h = ustrlen(source); for(i = 0; i < h; i++) { if(source[i] == '+') { with_addon = 1; } else { if(with_addon == 0) { first_len++; } else { second_len++; } } } ustrcpy(first_part, (unsigned char *)""); ustrcpy(second_part, (unsigned char *)""); ustrcpy(zfirst_part, (unsigned char *)""); ustrcpy(zsecond_part, (unsigned char *)""); /* Split input into two strings */ for(i = 0; i < first_len; i++) { first_part[i] = source[i]; first_part[i + 1] = '\0'; } for(i = 0; i < second_len; i++) { second_part[i] = source[i + first_len + 1]; second_part[i + 1] = '\0'; } /* Calculate target lengths */ if(second_len <= 5) { zsecond_len = 5; } if(second_len <= 2) { zsecond_len = 2; } if(second_len == 0) { zsecond_len = 0; } switch(symbol->symbology) { case BARCODE_EANX: case BARCODE_EANX_CC: if(first_len <= 12) { zfirst_len = 12; } if(first_len <= 7) { zfirst_len = 7; } if(second_len == 0) { if(first_len <= 5) { zfirst_len = 5; } if(first_len <= 2) { zfirst_len = 2; } } break; case BARCODE_UPCA: case BARCODE_UPCA_CC: zfirst_len = 11; break; case BARCODE_UPCE: case BARCODE_UPCE_CC: if(first_len == 7) { zfirst_len = 7; } if(first_len <= 6) { zfirst_len = 6; } break; case BARCODE_ISBNX: if(first_len <= 9) { zfirst_len = 9; } break; } /* Add leading zeroes */ for(i = 0; i < (zfirst_len - first_len); i++) { uconcat(zfirst_part, (unsigned char *)"0"); } uconcat(zfirst_part, first_part); for(i = 0; i < (zsecond_len - second_len); i++) { uconcat(zsecond_part, (unsigned char *)"0"); } uconcat(zsecond_part, second_part); /* Copy adjusted data back to local_source */ uconcat(local_source, zfirst_part); if(zsecond_len != 0) { uconcat(local_source, (unsigned char *)"+"); uconcat(local_source, zsecond_part); } } int eanx(struct zint_symbol *symbol, unsigned char source[], int src_len) { /* splits string to parts before and after '+' parts */ unsigned char first_part[20] = { 0 }, second_part[20] = { 0 }, dest[1000] = { 0 }; unsigned char local_source[20] = { 0 }; int latch, reader, writer, with_addon; int error_number, i; with_addon = FALSE; latch = FALSE; writer = 0; if(src_len > 19) { strcpy(symbol->errtxt, "Input too long"); return ERROR_TOO_LONG; } if(symbol->symbology != BARCODE_ISBNX) { /* ISBN has it's own checking routine */ error_number = is_sane("0123456789+", source, src_len); if(error_number == ERROR_INVALID_DATA1) { strcpy(symbol->errtxt, "Invalid characters in data"); return error_number; } } else { error_number = is_sane("0123456789Xx", source, src_len); if(error_number == ERROR_INVALID_DATA1) { strcpy(symbol->errtxt, "Invalid characters in input"); return error_number; } } /* Add leading zeroes */ ustrcpy(local_source, (unsigned char *)""); if(symbol->symbology == BARCODE_ISBNX) { to_upper(local_source); } ean_leading_zeroes(symbol, source, local_source); for(reader = 0; reader <= ustrlen(local_source); reader++) { if(source[reader] == '+') { with_addon = TRUE; } } reader = 0; if(with_addon) { do { if(local_source[reader] == '+') { first_part[writer] = '\0'; latch = TRUE; reader++; writer = 0; } if(latch) { second_part[writer] = local_source[reader]; reader++; writer++; } else { first_part[writer] = local_source[reader]; reader++; writer++; } } while (reader <= ustrlen(local_source)); } else { strcpy((char*)first_part, (char*)local_source); } switch(symbol->symbology) { case BARCODE_EANX: switch(ustrlen(first_part)) { case 2: add_on(first_part, (char*)dest, 0); ustrcpy(symbol->text, first_part); break; case 5: add_on(first_part, (char*)dest, 0); ustrcpy(symbol->text, first_part); break; case 7: ean8(symbol, first_part, (char*)dest); break; case 12: ean13(symbol, first_part, (char*)dest); break; default: strcpy(symbol->errtxt, "Invalid length input"); return ERROR_TOO_LONG; break; } break; case BARCODE_EANX_CC: switch(ustrlen(first_part)) { /* Adds vertical separator bars according to ISO/IEC 24723 section 11.4 */ case 7: set_module(symbol, symbol->rows, 1); set_module(symbol, symbol->rows, 67); set_module(symbol, symbol->rows + 1, 0); set_module(symbol, symbol->rows + 1, 68); set_module(symbol, symbol->rows + 2, 1); set_module(symbol, symbol->rows + 1, 67); symbol->row_height[symbol->rows] = 2; symbol->row_height[symbol->rows + 1] = 2; symbol->row_height[symbol->rows + 2] = 2; symbol->rows += 3; ean8(symbol, first_part, (char*)dest); break; case 12:set_module(symbol, symbol->rows, 1); set_module(symbol, symbol->rows, 95); set_module(symbol, symbol->rows + 1, 0); set_module(symbol, symbol->rows + 1, 96); set_module(symbol, symbol->rows + 2, 1); set_module(symbol, symbol->rows + 2, 95); symbol->row_height[symbol->rows] = 2; symbol->row_height[symbol->rows + 1] = 2; symbol->row_height[symbol->rows + 2] = 2; symbol->rows += 3; ean13(symbol, first_part, (char*)dest); break; default: strcpy(symbol->errtxt, "Invalid length EAN input"); return ERROR_TOO_LONG; break; } break; case BARCODE_UPCA: if(ustrlen(first_part) == 11) { upca(symbol, first_part, (char*)dest); } else { strcpy(symbol->errtxt, "Input wrong length"); return ERROR_TOO_LONG; } break; case BARCODE_UPCA_CC: if(ustrlen(first_part) == 11) { set_module(symbol, symbol->rows, 1); set_module(symbol, symbol->rows, 95); set_module(symbol, symbol->rows + 1, 0); set_module(symbol, symbol->rows + 1, 96); set_module(symbol, symbol->rows + 2, 1); set_module(symbol, symbol->rows + 2, 95); symbol->row_height[symbol->rows] = 2; symbol->row_height[symbol->rows + 1] = 2; symbol->row_height[symbol->rows + 2] = 2; symbol->rows += 3; upca(symbol, first_part, (char*)dest); } else { strcpy(symbol->errtxt, "UPCA input wrong length"); return ERROR_TOO_LONG; } break; case BARCODE_UPCE: if((ustrlen(first_part) >= 6) && (ustrlen(first_part) <= 7)) { upce(symbol, first_part, (char*)dest); } else { strcpy(symbol->errtxt, "Input wrong length"); return ERROR_TOO_LONG; } break; case BARCODE_UPCE_CC: if((ustrlen(first_part) >= 6) && (ustrlen(first_part) <= 7)) { set_module(symbol, symbol->rows, 1); set_module(symbol, symbol->rows, 51); set_module(symbol, symbol->rows + 1, 0); set_module(symbol, symbol->rows + 1, 52); set_module(symbol, symbol->rows + 2, 1); set_module(symbol, symbol->rows + 2, 51); symbol->row_height[symbol->rows] = 2; symbol->row_height[symbol->rows + 1] = 2; symbol->row_height[symbol->rows + 2] = 2; symbol->rows += 3; upce(symbol, first_part, (char*)dest); } else { strcpy(symbol->errtxt, "UPCE input wrong length"); return ERROR_TOO_LONG; } break; case BARCODE_ISBNX: error_number = isbn(symbol, first_part, ustrlen(first_part), (char*)dest); if(error_number > 4) { return error_number; } break; } switch(ustrlen(second_part)) { case 0: break; case 2: add_on(second_part, (char*)dest, 1); uconcat(symbol->text, (unsigned char*)"+"); uconcat(symbol->text, second_part); break; case 5: add_on(second_part, (char*)dest, 1); uconcat(symbol->text, (unsigned char*)"+"); uconcat(symbol->text, second_part); break; default: strcpy(symbol->errtxt, "Invalid length input"); return ERROR_TOO_LONG; break; } expand(symbol, (char*)dest); switch(symbol->symbology) { case BARCODE_EANX_CC: case BARCODE_UPCA_CC: case BARCODE_UPCE_CC: /* shift the symbol to the right one space to allow for separator bars */ for(i = (symbol->width + 1); i >= 1; i--) { if(module_is_set(symbol, symbol->rows - 1, i - 1)) { set_module(symbol, symbol->rows - 1, i); } else { unset_module(symbol, symbol->rows - 1, i); } } unset_module(symbol, symbol->rows - 1, 0); symbol->width += 2; break; } if((symbol->errtxt[0] == 'w') && (error_number == 0)) { error_number = 1; /* flag UPC-E warnings */ } return error_number; }