#include "Layout.h"
#include "TextClass.h"
#include "Lexer.h"
-#include "support/debug.h"
+#include "Font.h"
+#include "support/debug.h"
#include "support/lstrings.h"
#include <ostream>
-using std::endl;
-using std::string;
+using namespace std;
+using namespace lyx::support;
namespace lyx {
-using support::subst;
-using support::trim;
-
-
/// Special value of toclevel for layouts that to not belong in a TOC
const int Layout::NOT_IN_TOC = -1000;
LT_ALIGNPOSSIBLE,
LT_MARGIN,
LT_BOTTOMSEP,
+ LT_CATEGORY,
LT_COMMANDDEPTH,
LT_COPYSTYLE,
LT_DEPENDSON,
LT_PARSKIP,
//LT_PLAIN,
LT_PREAMBLE,
+ LT_REQUIRES,
LT_RIGHTMARGIN,
LT_SPACING,
LT_TOPSEP,
bool Layout::read(Lexer & lexrc, TextClass const & tclass)
{
// This table is sorted alphabetically [asierra 30March96]
- keyword_item layoutTags[] = {
+ LexerKeyword layoutTags[] = {
{ "align", LT_ALIGN },
{ "alignpossible", LT_ALIGNPOSSIBLE },
{ "bottomsep", LT_BOTTOMSEP },
+ { "category", LT_CATEGORY },
{ "commanddepth", LT_COMMANDDEPTH },
{ "copystyle", LT_COPYSTYLE },
{ "dependson", LT_DEPENDSON },
{ "parskip", LT_PARSKIP },
{ "passthru", LT_PASS_THRU },
{ "preamble", LT_PREAMBLE },
+ { "requires", LT_REQUIRES },
{ "rightmargin", LT_RIGHTMARGIN },
{ "spacing", LT_SPACING },
{ "textfont", LT_TEXTFONT },
bool error = false;
bool finished = false;
- lexrc.pushTable(layoutTags, LT_INTITLE);
+ lexrc.pushTable(layoutTags);
// parse style section
while (!finished && lexrc.isOK() && !error) {
int le = lexrc.lex();
finished = true;
break;
+ case LT_CATEGORY:
+ if (lexrc.next())
+ category_ = lexrc.getDocString();
+ break;
+
case LT_COPYSTYLE: // initialize with a known style
if (lexrc.next()) {
docstring const style = subst(lexrc.getDocString(),
if (tclass.hasLayout(style)) {
docstring const tmpname = name_;
- this->operator=(*tclass[style]);
+ this->operator=(tclass[style]);
name_ = tmpname;
} else {
lyxerr << "Cannot copy unknown style `"
<< to_utf8(style) << "'\n"
<< "All layouts so far:"
<< endl;
- TextClass::const_iterator it =
- tclass.begin();
- TextClass::const_iterator end =
- tclass.end();
- for (; it != end; ++it) {
- lyxerr << to_utf8((*it)->name())
- << endl;
- }
+ DocumentClass::const_iterator lit = tclass.begin();
+ DocumentClass::const_iterator len = tclass.end();
+ for (; lit != len; ++lit)
+ lyxerr << to_utf8(lit->name()) << endl;
//lexrc.printError("Cannot copy known "
// "style `$$Token'");
if (tclass.hasLayout(style)) {
docstring const tmpname = name_;
- this->operator=(*tclass[style]);
+ this->operator=(tclass[style]);
name_ = tmpname;
if (obsoleted_by().empty())
obsoleted_by_ = style;
case LT_SPACING: // setspace.sty
readSpacing(lexrc);
break;
+
+ case LT_REQUIRES:
+ lexrc.eatLine();
+ vector<string> const req =
+ getVectorFromString(lexrc.getString());
+ requires_.insert(req.begin(), req.end());
+ break;
+
}
}
lexrc.popTable();
- return error;
+ return !error;
}
-enum AlignTags {
+enum {
AT_BLOCK = 1,
AT_LEFT,
AT_RIGHT,
AT_LAYOUT
};
-
void Layout::readAlign(Lexer & lexrc)
{
- keyword_item alignTags[] = {
+ LexerKeyword alignTags[] = {
{ "block", AT_BLOCK },
{ "center", AT_CENTER },
{ "layout", AT_LAYOUT },
{ "right", AT_RIGHT }
};
- PushPopHelper pph(lexrc, alignTags, AT_LAYOUT);
+ PushPopHelper pph(lexrc, alignTags);
int le = lexrc.lex();
switch (le) {
case Lexer::LEX_UNDEF:
return;
default: break;
};
- switch (static_cast<AlignTags>(le)) {
+ switch (le) {
case AT_BLOCK:
align = LYX_ALIGN_BLOCK;
break;
void Layout::readAlignPossible(Lexer & lexrc)
{
- keyword_item alignTags[] = {
+ LexerKeyword alignTags[] = {
{ "block", AT_BLOCK },
{ "center", AT_CENTER },
{ "layout", AT_LAYOUT },
{ "right", AT_RIGHT }
};
- lexrc.pushTable(alignTags, AT_LAYOUT);
+ lexrc.pushTable(alignTags);
alignpossible = LYX_ALIGN_NONE | LYX_ALIGN_LAYOUT;
- int lineno = lexrc.getLineNo();
+ int lineno = lexrc.lineNumber();
do {
int le = lexrc.lex();
switch (le) {
continue;
default: break;
};
- switch (static_cast<AlignTags>(le)) {
+ switch (le) {
case AT_BLOCK:
alignpossible |= LYX_ALIGN_BLOCK;
break;
alignpossible |= LYX_ALIGN_LAYOUT;
break;
}
- } while (lineno == lexrc.getLineNo());
+ } while (lineno == lexrc.lineNumber());
lexrc.popTable();
}
-enum LabelTypeTags {
- LA_NO_LABEL = 1,
- LA_MANUAL,
- LA_TOP_ENVIRONMENT,
- LA_CENTERED_TOP_ENVIRONMENT,
- LA_STATIC,
- LA_SENSITIVE,
- LA_COUNTER,
- LA_ENUMERATE,
- LA_ITEMIZE,
- LA_BIBLIO
-};
-
-
void Layout::readLabelType(Lexer & lexrc)
{
- keyword_item labelTypeTags[] = {
- { "bibliography", LA_BIBLIO },
- { "centered_top_environment", LA_CENTERED_TOP_ENVIRONMENT },
- { "counter", LA_COUNTER },
- { "enumerate", LA_ENUMERATE },
- { "itemize", LA_ITEMIZE },
- { "manual", LA_MANUAL },
- { "no_label", LA_NO_LABEL },
- { "sensitive", LA_SENSITIVE },
- { "static", LA_STATIC },
- { "top_environment", LA_TOP_ENVIRONMENT }
+ enum {
+ LA_NO_LABEL = 1,
+ LA_MANUAL,
+ LA_TOP_ENVIRONMENT,
+ LA_CENTERED_TOP_ENVIRONMENT,
+ LA_STATIC,
+ LA_SENSITIVE,
+ LA_COUNTER,
+ LA_ENUMERATE,
+ LA_ITEMIZE,
+ LA_BIBLIO
+ };
+
+
+ LexerKeyword labelTypeTags[] = {
+ { "bibliography", LA_BIBLIO },
+ { "centered_top_environment", LA_CENTERED_TOP_ENVIRONMENT },
+ { "counter", LA_COUNTER },
+ { "enumerate", LA_ENUMERATE },
+ { "itemize", LA_ITEMIZE },
+ { "manual", LA_MANUAL },
+ { "no_label", LA_NO_LABEL },
+ { "sensitive", LA_SENSITIVE },
+ { "static", LA_STATIC },
+ { "top_environment", LA_TOP_ENVIRONMENT }
};
- PushPopHelper pph(lexrc, labelTypeTags, LA_BIBLIO);
+ PushPopHelper pph(lexrc, labelTypeTags);
int le = lexrc.lex();
switch (le) {
case Lexer::LEX_UNDEF:
return;
default: break;
}
- switch (static_cast<LabelTypeTags>(le)) {
+ switch (le) {
case LA_NO_LABEL:
labeltype = LABEL_NO_LABEL;
break;
}
-static keyword_item endlabelTypeTags[] =
-{
- { "box", END_LABEL_BOX },
- { "filled_box", END_LABEL_FILLED_BOX },
- { "no_label", END_LABEL_NO_LABEL },
- { "static", END_LABEL_STATIC }
-};
-
-
void Layout::readEndLabelType(Lexer & lexrc)
{
- PushPopHelper pph(lexrc, endlabelTypeTags,
- END_LABEL_ENUM_LAST-END_LABEL_ENUM_FIRST+1);
+ static LexerKeyword endlabelTypeTags[] = {
+ { "box", END_LABEL_BOX },
+ { "filled_box", END_LABEL_FILLED_BOX },
+ { "no_label", END_LABEL_NO_LABEL },
+ { "static", END_LABEL_STATIC }
+ };
+
+ PushPopHelper pph(lexrc, endlabelTypeTags);
int le = lexrc.lex();
switch (le) {
case Lexer::LEX_UNDEF:
void Layout::readMargin(Lexer & lexrc)
{
- keyword_item marginTags[] = {
+ LexerKeyword marginTags[] = {
{ "dynamic", MARGIN_DYNAMIC },
{ "first_dynamic", MARGIN_FIRST_DYNAMIC },
{ "manual", MARGIN_MANUAL },
{ "static", MARGIN_STATIC }
};
- PushPopHelper pph(lexrc, marginTags, MARGIN_RIGHT_ADDRESS_BOX);
+ PushPopHelper pph(lexrc, marginTags);
int le = lexrc.lex();
switch (le) {
void Layout::readLatexType(Lexer & lexrc)
{
- keyword_item latexTypeTags[] = {
+ LexerKeyword latexTypeTags[] = {
{ "bib_environment", LATEX_BIB_ENVIRONMENT },
{ "command", LATEX_COMMAND },
{ "environment", LATEX_ENVIRONMENT },
{ "paragraph", LATEX_PARAGRAPH }
};
- PushPopHelper pph(lexrc, latexTypeTags, LATEX_LIST_ENVIRONMENT);
+ PushPopHelper pph(lexrc, latexTypeTags);
int le = lexrc.lex();
switch (le) {
case Lexer::LEX_UNDEF:
}
-enum SpacingTags {
- ST_SPACING_SINGLE = 1,
- ST_SPACING_ONEHALF,
- ST_SPACING_DOUBLE,
- ST_OTHER
-};
-
-
void Layout::readSpacing(Lexer & lexrc)
{
- keyword_item spacingTags[] = {
+ enum {
+ ST_SPACING_SINGLE = 1,
+ ST_SPACING_ONEHALF,
+ ST_SPACING_DOUBLE,
+ ST_OTHER
+ };
+
+ LexerKeyword spacingTags[] = {
{"double", ST_SPACING_DOUBLE },
{"onehalf", ST_SPACING_ONEHALF },
{"other", ST_OTHER },
{"single", ST_SPACING_SINGLE }
};
- PushPopHelper pph(lexrc, spacingTags, ST_OTHER);
+ PushPopHelper pph(lexrc, spacingTags);
int le = lexrc.lex();
switch (le) {
case Lexer::LEX_UNDEF:
return;
default: break;
}
- switch (static_cast<SpacingTags>(le)) {
+ switch (le) {
case ST_SPACING_SINGLE:
spacing.set(Spacing::Single);
break;
}
+bool Layout::operator==(Layout const & rhs) const
+{
+ // This is enough for the applications we actually make,
+ // at least at the moment. But we could check more.
+ return name() == rhs.name()
+ && latexname() == rhs.latexname()
+ && latextype == rhs.latextype;
+}
+
+
Layout * Layout::forCaption()
{
Layout * lay = new Layout();