// read_integer(). // This file contains a slimmed down version of read_rational(). // It does not pull in all the rational number code. // General includes. #include "cl_sysdep.h" // Specification. #include "cln/integer_io.h" // Implementation. #include #include "cln/input.h" #include "cln/integer.h" #include "cl_I.h" #include "cln/abort.h" namespace cln { // Step forward over all digits, to the end of string or to the next non-digit. static const char * skip_digits (const char * ptr, const char * string_limit, unsigned int base) { for ( ; ptr != string_limit; ptr++) { var char ch = *ptr; if ((ch >= '0') && (ch <= '9')) if (ch < '0' + (int)base) continue; else break; else { if (base <= 10) break; if (((ch >= 'A') && (ch < 'A'-10+(int)base)) || ((ch >= 'a') && (ch < 'a'-10+(int)base)) ) continue; else break; } } return ptr; } #define at_end_of_parse(ptr) \ if (end_of_parse) \ { *end_of_parse = (ptr); } \ else \ { if ((ptr) != string_limit) { read_number_junk((ptr),string,string_limit); } } const cl_I read_integer (const cl_read_flags& flags, const char * string, const char * string_limit, const char * * end_of_parse) { ASSERT((flags.syntax & ~(syntax_integer|syntax_maybe_bad)) == 0); // If no string_limit is given, it defaults to the end of the string. if (!string_limit) string_limit = string + ::strlen(string); if (flags.syntax & syntax_integer) { // Check for integer syntax. var unsigned int rational_base = flags.rational_base; var const char * ptr = string; if (flags.lsyntax & lsyntax_commonlisp) { if (ptr == string_limit) goto not_integer_syntax; if (*ptr == '#') { // Check for #b, #o, #x, #nR syntax. ptr++; if (ptr == string_limit) goto not_integer_syntax; switch (*ptr) { case 'b': case 'B': rational_base = 2; break; case 'o': case 'O': rational_base = 8; break; case 'x': case 'X': rational_base = 16; break; default: var const char * base_end_ptr = skip_digits(ptr,string_limit,10); if (base_end_ptr == ptr) goto not_integer_syntax; if (base_end_ptr == string_limit) goto not_integer_syntax; if (!((*base_end_ptr == 'r') || (*base_end_ptr == 'R'))) goto not_integer_syntax; var cl_I base = read_integer(10,0,ptr,0,base_end_ptr-ptr); if (!((base >= 2) && (base <= 36))) { fprint(std::cerr, "Base must be an integer in the range from 2 to 36, not "); fprint(std::cerr, base); fprint(std::cerr, "\n"); cl_abort(); } rational_base = FN_to_UL(base); ptr = base_end_ptr; break; } ptr++; } } var const char * ptr_after_prefix = ptr; var cl_signean sign = 0; if (ptr == string_limit) goto not_integer_syntax; switch (*ptr) { case '-': sign = ~sign; case '+': ptr++; default: break; } var const char * ptr_after_sign = ptr; // Check for integer syntax: {'+'|'-'|} {digit}+ {'.'|} // Allow final dot only in Common Lisp syntax if there was no # prefix. if ((flags.lsyntax & lsyntax_commonlisp) && (ptr_after_prefix == string)) { ptr = skip_digits(ptr_after_sign,string_limit,10); if (ptr != ptr_after_sign) if (ptr != string_limit) if (*ptr == '.') { ptr++; if ((ptr == string_limit) || !(((*ptr >= '0') && (*ptr <= '9')) || ((*ptr >= 'A') && (*ptr <= 'Z') && (*ptr != 'I')) || ((*ptr >= 'a') && (*ptr <= 'z') && (*ptr != 'i')) || (*ptr == '.') || (*ptr == '_') || (*ptr == '/'))) { at_end_of_parse(ptr); return read_integer(10,sign,ptr_after_sign,0,ptr-ptr_after_sign); } } } ptr = skip_digits(ptr_after_sign,string_limit,rational_base); if ((ptr == string_limit) || !(((*ptr >= '0') && (*ptr <= '9')) || ((*ptr >= 'A') && (*ptr <= 'Z') && (*ptr != 'I')) || ((*ptr >= 'a') && (*ptr <= 'z') && (*ptr != 'i')) || (*ptr == '.') || (*ptr == '_') || (*ptr == '/'))) { at_end_of_parse(ptr); return read_integer(rational_base,sign,ptr_after_sign,0,ptr-ptr_after_sign); } } not_integer_syntax: bad_syntax: if (flags.syntax & syntax_maybe_bad) { ASSERT(end_of_parse); *end_of_parse = string; return 0; // dummy return } read_number_bad_syntax(string,string_limit); } } // namespace cln