/** * \file lengthcommon.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjønnes * \author Matthias Ettrich * \author John Levon * * Full author contact details are available in file CREDITS. */ #include #include "Length.h" #include "support/convert.h" #include "support/gettext.h" #include "support/lassert.h" #include "support/lstrings.h" #include #include using namespace std; using namespace lyx::support; namespace lyx { // I am not sure if "mu" should be possible to select (Lgb) // the latex units char const * const unit_name[] = { "bp", "cc", "cm", "dd", "em", "ex", "in", "mm", "mu", "pc", "pt", "sp", "text%", "col%", "page%", "line%", "theight%", "pheight%", "" }; int const num_units = int(sizeof(unit_name) / sizeof(unit_name[0]) - 1); // the LyX gui units char const * const unit_name_gui[] = { N_("bp"), N_("cc[[unit of measure]]"), N_("cm"), N_("dd"), N_("em"), N_("ex"), N_("in[[unit of measure]]"), N_("mm"), N_("mu[[unit of measure]]"), N_("pc"), N_("pt"), N_("sp"), N_("Text Width %"), N_("Column Width %"), N_("Page Width %"), N_("Line Width %"), N_("Text Height %"), N_("Page Height %"), "" }; Length::UNIT unitFromString(string const & data) { int i = 0; while (i < num_units && data != unit_name[i]) ++i; return static_cast(i); } namespace { /// skip n characters of input inline void lyx_advance(string & data, size_t n) { data.erase(0, n); } /// return true when the input is at the end inline bool isEndOfData(string const & data) { return ltrim(data).empty(); } /** * nextToken - return the next token in the input * @param data input string * @param number_index the current position in the number array * @param unit_index the current position in the unit array * @return a char representing the type of token returned * * The possible return values are : * + stretch indicator for glue length * - shrink indicator for glue length * n a numeric value (stored in number array) * u a unit type (stored in unit array) * E parse error */ char nextToken(string & data, double * number, int & number_index, Length::UNIT * unit, int & unit_index) { data = ltrim(data); if (data.empty()) return '\0'; if (data[0] == '+') { lyx_advance(data, 1); return '+'; } if (prefixIs(data, "plus")) { lyx_advance(data, 4); return '+'; } if (data[0] == '-') { lyx_advance(data, 1); return '-'; } if (prefixIs(data, "minus")) { lyx_advance(data, 5); return '-'; } size_t i = data.find_first_not_of("0123456789."); if (i != 0) { if (number_index > 3) return 'E'; string buffer; // we have found some number if (i == string::npos) { buffer = data; i = data.size() + 1; } else { buffer = data.substr(0, i); } lyx_advance(data, i); if (isStrDbl(buffer)) { number[number_index] = convert(buffer); ++number_index; return 'n'; } return 'E'; } i = data.find_first_not_of("abcdefghijklmnopqrstuvwxyz%"); if (i != 0) { if (unit_index > 3) return 'E'; string buffer; // we have found some alphabetical string if (i == string::npos) { buffer = data; i = data.size() + 1; } else { buffer = data.substr(0, i); } // possibly we have "mmplus" string or similar if (buffer.size() > 5 && (buffer.substr(2, 4) == string("plus") || buffer.substr(2, 5) == string("minus"))) { lyx_advance(data, 2); unit[unit_index] = unitFromString(buffer.substr(0, 2)); } else { lyx_advance(data, i); unit[unit_index] = unitFromString(buffer); } if (unit[unit_index] != Length::UNIT_NONE) { ++unit_index; return 'u'; } return 'E'; // Error } return 'E'; // Error } /// latex representation of a vspace struct LaTeXLength { char const * pattern; int plus_val_index; int minus_val_index; int plus_uni_index; int minus_uni_index; }; /// the possible formats for a vspace string LaTeXLength table[] = { { "nu", 0, 0, 0, 0 }, { "nu+nu", 2, 0, 2, 0 }, { "nu+nu-nu", 2, 3, 2, 3 }, { "nu+-nu", 2, 2, 2, 2 }, { "nu-nu", 0, 2, 0, 2 }, { "nu-nu+nu", 3, 2, 3, 2 }, { "nu-+nu", 2, 2, 2, 2 }, { "n+nu", 2, 0, 1, 0 }, { "n+n-nu", 2, 3, 1, 1 }, { "n+-nu", 2, 2, 1, 1 }, { "n-nu", 0, 2, 0, 1 }, { "n-n+nu", 3, 2, 1, 1 }, { "n-+nu", 2, 2, 1, 1 }, { "", 0, 0, 0, 0 } // sentinel, must be empty }; } // namespace anon const char * stringFromUnit(int unit) { if (unit < 0 || unit > num_units) return 0; return unit_name[unit]; } bool isValidGlueLength(string const & data, GlueLength * result) { // This parser is table-driven. First, it constructs a "pattern" // that describes the sequence of tokens in "data". For example, // "n-nu" means: number, minus sign, number, unit. As we go along, // numbers and units are stored into static arrays. Then, "pattern" // is searched in the "table". If it is found, the associated // table entries tell us which number and unit should go where // in the Length structure. Example: if "data" has the "pattern" // "nu+nu-nu", the associated table entries are "2, 3, 2, 3". // That means, "plus_val" is the second number that was seen // in the input, "minus_val" is the third number, and "plus_uni" // and "minus_uni" are the second and third units, respectively. // ("val" and "uni" are always the first items seen in "data".) // This is the most elegant solution I could find -- a straight- // forward approach leads to very long, tedious code that would be // much harder to understand and maintain. (AS) if (data.empty()) return true; string buffer = ltrim(data); // To make isValidGlueLength recognize negative values as // the first number this little hack is needed: int val_sign = 1; // positive as default switch (buffer[0]) { case '-': lyx_advance(buffer, 1); val_sign = -1; break; case '+': lyx_advance(buffer, 1); break; default: break; } // end of hack // used to return numeric values in parsing vspace double number[4] = { 0, 0, 0, 0 }; // used to return unit types in parsing vspace Length::UNIT unit[4] = {Length::UNIT_NONE, Length::UNIT_NONE, Length::UNIT_NONE, Length::UNIT_NONE}; int number_index = 1; // entries at index 0 are sentinels int unit_index = 1; // entries at index 0 are sentinels // construct "pattern" from "data" size_t const pattern_max_size = 20; string pattern; while (!isEndOfData(buffer)) { if (pattern.size() > pattern_max_size) return false; char const c = nextToken(buffer, number, number_index, unit, unit_index); if (c == 'E') return false; pattern.push_back(c); } // search "pattern" in "table" size_t table_index = 0; while (pattern != table[table_index].pattern) { ++table_index; if (!*table[table_index].pattern) return false; } // Get the values from the appropriate places. If an index // is zero, the corresponding array value is zero or UNIT_NONE, // so we needn't check this. if (result) { result->len_.value (number[1] * val_sign); result->len_.unit (unit[1]); result->plus_.value (number[table[table_index].plus_val_index]); result->plus_.unit (unit [table[table_index].plus_uni_index]); result->minus_.value(number[table[table_index].minus_val_index]); result->minus_.unit (unit [table[table_index].minus_uni_index]); } return true; } bool isValidLength(string const & data, Length * result) { // This is a trimmed down version of isValidGlueLength. // The parser may seem overkill for lengths without // glue, but since we already have it, using it is // easier than writing something from scratch. if (data.empty()) return true; string buffer = data; int pattern_index = 0; char pattern[3]; // To make isValidLength recognize negative values // this little hack is needed: int val_sign = 1; // positive as default switch (buffer[0]) { case '-': lyx_advance(buffer, 1); val_sign = -1; break; case '+': lyx_advance(buffer, 1); // fall through default: // no action break; } // end of hack // used to return numeric values in parsing vspace double number[4] = { 0, 0, 0, 0 }; // used to return unit types in parsing vspace Length::UNIT unit[4] = {Length::UNIT_NONE, Length::UNIT_NONE, Length::UNIT_NONE, Length::UNIT_NONE}; int number_index = 1; // entries at index 0 are sentinels int unit_index = 1; // entries at index 0 are sentinels // construct "pattern" from "data" while (!isEndOfData(buffer)) { if (pattern_index > 2) return false; pattern[pattern_index] = nextToken(buffer, number, number_index, unit, unit_index); if (pattern[pattern_index] == 'E') return false; ++pattern_index; } pattern[pattern_index] = '\0'; // only the most basic pattern is accepted here if (strcmp(pattern, "nu") != 0) return false; // It _was_ a correct length string. // Store away the values we found. if (result) { result->val_ = number[1] * val_sign; result->unit_ = unit[1]; } return true; } } // namespace lyx