/**
* Removes the first and last double-quote characters and unescapes special characters that start
* with backslash: newline, carriage return, line feed, tab and backslash. Characters between 127
* and 255 are stored as \xFF Characters between 256 and 65535 are stored as \uFFFF Characters
* above 65536 are stored as \u0010FFFF
*
* @param str Python like double-quoted string
* @return unescaped and unquoted string
*/
public static String unquoteKString(String str) {
StringBuilder sb = new StringBuilder();
if (str.charAt(0) != '"') {
throw new IllegalArgumentException(
"Expected to find double quote at the beginning of string: " + str);
}
if (str.charAt(str.length() - 1) != '"') {
throw new IllegalArgumentException(
"Expected to find double quote at the end of string: " + str);
}
for (int i = 1; i < str.length() - 1; i++) {
if (str.charAt(i) == '\\') {
if (str.charAt(i + 1) == '"') {
sb.append('"');
i++;
} else if (str.charAt(i + 1) == '\\') {
sb.append('\\');
i++;
} else if (str.charAt(i + 1) == 'n') {
sb.append('\n');
i++;
} else if (str.charAt(i + 1) == 'r') {
sb.append('\r');
i++;
} else if (str.charAt(i + 1) == 't') {
sb.append('\t');
i++;
} else if (str.charAt(i + 1) == 'f') {
sb.append('\f');
i++;
} else if (str.charAt(i + 1) == 'x') {
String arg = str.substring(i + 2, i + 4);
sb.append((char) Integer.parseInt(arg, 16));
i += 3;
} else if (str.charAt(i + 1) == 'u') {
String arg = str.substring(i + 2, i + 6);
int codePoint = Integer.parseInt(arg, 16);
StringUtil.throwIfSurrogatePair(codePoint);
sb.append((char) codePoint);
i += 5;
} else if (str.charAt(i + 1) == 'U') {
String arg = str.substring(i + 2, i + 10);
int codePoint = Integer.parseInt(arg, 16);
StringUtil.throwIfSurrogatePair(codePoint);
sb.append(Character.toChars(codePoint));
i += 9;
}
} else {
sb.append(str.charAt(i));
}
}
return sb.toString();
}
public static String escapeShell(String[] args, OS os) {
String[] args1 = new String[args.length];
for (int i = 0; i < args.length; i++) {
args1[i] = StringUtil.escapeShell(args[i], os);
}
return StringUtils.join(args1, ' ');
}
public static String getSortNameFromCons(String str) {
String ret = "";
int idx = str.lastIndexOf("1");
if (idx > 0) {
ret = str.substring(0, idx);
}
return StringUtil.unEscapeSortName(ret);
}
public TermCons(ATermAppl atm, Context context) {
super(atm);
this.cons = atm.getName();
this.sort = StringUtil.getSortNameFromCons(cons);
this.production = context.conses.get(cons);
assert this.production != null;
contents = new ArrayList<Term>();
if (atm.getArity() == 0) {
contents = new ArrayList<Term>();
} else if (atm.getArgument(0) instanceof ATermList) {
ATermList list = (ATermList) atm.getArgument(0);
for (; !list.isEmpty(); list = list.getNext()) {
if (isColon(list.getFirst())) continue;
contents.add((Term) JavaClassesFactory.getTerm(list.getFirst()));
}
contents.add(new ListTerminator(sort, null));
} else {
for (int i = 0; i < atm.getArity(); i++) {
if (isColon(atm.getArgument(i))) continue;
contents.add((Term) JavaClassesFactory.getTerm(atm.getArgument(i)));
}
}
}
public static String cellFragment(String cellName) {
return StringUtil.makeProper(cellName) + cellFragment;
}
public static String cellSort(String cellName) {
return StringUtil.makeProper(cellName) + cellSort;
}
public static StringBuilder getSdfForDefinition(Definition def, Context context) {
StringBuilder sdf = new StringBuilder("module Integration\n\n");
sdf.append("imports Common\n");
sdf.append("imports KTechnique\n");
sdf.append("imports KBuiltinsBasic\n\n");
sdf.append("exports\n\n");
sdf.append("context-free syntax\n");
DefinitionSDFVisitor psdfv = new DefinitionSDFVisitor(true, context);
CollectTerminalsVisitor terminals = new CollectTerminalsVisitor();
psdfv.visitNode(def);
terminals.visitNode(def);
for (Production p1 : psdfv.listProds)
for (Production p2 : psdfv.listProds)
if (p1 != p2) {
Sort srt1 = ((UserList) p1.getItems().get(0)).getSort();
Sort srt2 = ((UserList) p2.getItems().get(0)).getSort();
if (psdfv.subsorts.contains(new Subsort(srt1, srt2)))
psdfv.subsorts.add(new Subsort(p1.getSort(), p2.getSort()));
}
sdf.append(psdfv.sdf);
sdf.append("%% subsorts 1\n");
sdf.append("context-free priorities\n{\n");
// 1
// print Sort -> K > A -> B > K -> Sort
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" " + StringUtil.escapeSort(s) + " -> K");
// sdf.append(" {cons(\"K12" + StringUtil.escapeSort(s) + "\")}");
sdf.append("\n");
}
}
sdf.append("} .> {\n");
for (Subsort subs : psdfv.subsorts) {
Sort s1 = subs.getSmallSort();
Sort s2 = subs.getBigSort();
if (!s1.isBaseSort() && !s2.isBaseSort()) {
sdf.append(" " + StringUtil.escapeSort(s1) + " -> " + StringUtil.escapeSort(s2));
// sdf.append(" {cons(\"" + StringUtil.escapeSort(s2) + "12" + StringUtil.escapeSort(s1) +
// "\")}");
sdf.append("\n");
}
}
sdf.append("} .> {\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" K -> " + StringUtil.escapeSort(s));
// sdf.append(" {cons(\"" + StringUtil.escapeSort(s) + "12K\")}");
sdf.append("\n");
}
}
sdf.append("}\n\n");
sdf.append("%% subsorts 1a\n");
sdf.append("context-free priorities\n{\n");
// 1
// print Sort -> K > A -> B > K -> Sort
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" " + StringUtil.escapeSort(s) + " -> K");
// sdf.append(" {cons(\"K12" + StringUtil.escapeSort(s) + "\")}");
sdf.append("\n");
}
}
sdf.append("} .> {\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" K -> " + StringUtil.escapeSort(s));
// sdf.append(" {cons(\"" + StringUtil.escapeSort(s) + "12K\")}");
sdf.append("\n");
}
}
sdf.append("}\n\n");
sdf.append("%% subsorts 2\n");
// print K -> Sort > Sort -> K
sdf.append("context-free priorities\n{\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" K -> " + StringUtil.escapeSort(s));
// sdf.append(" {cons(\"" + StringUtil.escapeSort(s) + "12K\")}");
sdf.append("\n");
}
}
sdf.append("} .> {\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" " + StringUtil.escapeSort(s) + " -> K");
// sdf.append(" {cons(\"K12" + StringUtil.escapeSort(s) + "\")}");
sdf.append("\n");
}
}
sdf.append("}\n");
sdf.append("context-free syntax\n");
for (Production p : psdfv.outsides) {
if (p.isListDecl()) {
UserList si = (UserList) p.getItems().get(0);
sdf.append(
" "
+ StringUtil.escapeSort(si.getSort())
+ " "
+ StringUtil.enquoteCString(si.getSeparator())
+ " "
+ StringUtil.escapeSort(p.getSort())
+ " -> "
+ StringUtil.escapeSort(p.getSort()));
sdf.append(" {cons(\"" + context.getConses().inverse().get(p) + "\")}\n");
sdf.append(" \"." + p.getSort() + "\" -> " + StringUtil.escapeSort(p.getSort()));
sdf.append(" {cons(\"" + StringUtil.escapeSort(p.getSort()) + "1Empty\")}\n");
} else if (p.containsAttribute("bracket")) {
// don't add bracket attributes added by the user
} else {
sdf.append(" ");
List<ProductionItem> items = p.getItems();
for (int i = 0; i < items.size(); i++) {
ProductionItem itm = items.get(i);
if (itm instanceof Terminal) {
Terminal t = (Terminal) itm;
sdf.append(t.toString() + " ");
} else if (itm instanceof NonTerminal) {
NonTerminal srt = (NonTerminal) itm;
// if we are on the first or last place and this sort is not a list, just print the sort
if (i == 0 || i == items.size() - 1) {
sdf.append(StringUtil.escapeSort(srt) + " ");
} else {
// if this sort should be inserted to avoid the priority filter, then add it to the
// list
psdfv.insertSorts.add(srt);
String tempstr = srt.toString();
if (tempstr.endsWith("CellSort") || tempstr.endsWith("CellFragment")) tempstr = "Bag";
sdf.append("InsertDz" + StringUtil.escapeSort(tempstr) + " ");
}
}
}
sdf.append("-> " + StringUtil.escapeSort(p.getSort()));
sdf.append(SDFHelper.getSDFAttributes(p, context.getConses()) + "\n");
}
}
for (NonTerminal ss : psdfv.insertSorts)
sdf.append(
" " + StringUtil.escapeSort(ss) + " -> InsertDz" + StringUtil.escapeSort(ss) + "\n");
sdf.append("\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(
" K CastTypeDz \""
+ s.toString()
+ "\" -> VariableDz {cons(\""
+ StringUtil.escapeSort(s)
+ "1Cast\")}\n");
sdf.append(
" K CastTypeDz \""
+ s.toString()
+ "{\" TagListDz \"}\" -> VariableDz {cons(\""
+ StringUtil.escapeSort(s)
+ "1CastAttr\")}\n");
}
}
sdf.append(" K CastTypeDz \"K\" -> VariableDz {cons(\"K1Cast\")}\n");
sdf.append(" K CastTypeDz \"KItem\" -> VariableDz {cons(\"KItem1Cast\")}\n");
sdf.append(
" K CastTypeDz \"K{\" TagListDz \"}\" -> VariableDz {cons(\"K1CastAttr\")}\n");
sdf.append(
" K CastTypeDz \"KItem{\" TagListDz \"}\" -> VariableDz {cons(\"KItem1CastAttr\")}\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(
" " + StringUtil.escapeSort(s) + "DzVar -> " + StringUtil.escapeSort(s) + "\n");
}
}
sdf.append("\n");
sdf.append(" VariableDz -> K\n");
sdf.append("\n\n");
for (Sort sort : psdfv.constantSorts) {
String s = StringUtil.escapeSort(sort);
sdf.append(" Dz" + s + " -> " + s + " {cons(\"" + s + "1Const\")}\n");
}
sdf.append("\n");
// sdf.append(" DzDzINT -> DzDzInt\n");
// sdf.append(" DzDzID -> DzDzId\n");
// sdf.append(" DzDzSTRING -> DzDzString\n");
// sdf.append(" DzDzFLOAT -> DzDzFloat\n");
sdf.append("\n");
sdf.append("lexical syntax\n");
for (Production p : psdfv.constants) {
sdf.append(
" " + p.getItems().get(0) + " -> Dz" + StringUtil.escapeSort(p.getSort()) + "\n");
}
sdf.append("\n\n%% sort predicates\n");
// print is<Sort> predicates (actually KLabel)
for (NonTerminal sort : psdfv.userSorts) {
if (!sort.getSort().isKSort()) {
sdf.append(
" \"" + AddPredicates.syntaxPredicate(sort.getSort()) + "\" -> DzKLabel\n");
}
if (AddSymbolicK.allowKSymbolic(sort.getSort())) {
sdf.append(
" \"" + AddPredicates.symbolicPredicate(sort.getSort()) + "\" -> DzKLabel\n");
sdf.append(
" \"" + AddSymbolicK.symbolicConstructor(sort.getSort()) + "\" -> DzKLabel\n");
}
}
sdf.append("\n\n");
sdf.append("\n%% terminals reject\n");
sdf.append(SDFHelper.getFollowRestrictionsForTerminals(terminals.terminals));
sdf.append("context-free restrictions\n");
for (NonTerminal s : psdfv.userSorts) {
if (!s.getSort().isBaseSort()) {
sdf.append(" " + StringUtil.escapeSort(s) + "DzVar -/- [a-zA-Z0-9\\{]\n");
}
}
sdf.append(" VariableDz -/- [a-zA-Z0-9\\{]\n");
sdf.append("lexical restrictions\n");
sdf.append("%% some restrictions to ensure greedy matching for user defined constants\n");
// sdf.append(" DzDzInt -/- [0-9]\n");
sdf.append(" \"is\" -/- [\\#A-Z]\n");
sdf.append("\n");
// lexical rules
sdf.append("lexical syntax\n");
java.util.Set<Sort> lexerSorts = new HashSet<>();
for (Production p : psdfv.lexical) {
Lexical l = (Lexical) p.getItems().get(0);
lexerSorts.add(p.getSort());
sdf.append(
" " + l.getLexicalRule() + " -> " + StringUtil.escapeSort(p.getSort()) + "Dz\n");
if (l.getFollow() != null && !l.getFollow().equals("")) {
psdfv.restrictions.add(new Restrictions(new NonTerminal(p.getSort()), null, l.getFollow()));
}
if (!p.containsAttribute("noAutoReject")) {
// reject all terminals that match the regular expression of the lexical production
if (p.containsAttribute("regex")) {
Pattern pat = Pattern.compile(p.getAttribute("regex"));
for (Terminal t : terminals.terminals) {
Matcher m = pat.matcher(t.getTerminal());
if (m.matches())
sdf.append(
" "
+ t.toString()
+ " -> "
+ StringUtil.escapeSort(p.getSort())
+ "Dz {reject}\n");
}
} else {
// if there is no regex attribute, then do it the old fashioned way, but way more
// inefficient
// add rejects for all possible combinations
for (Terminal t : terminals.terminals) {
sdf.append(
" "
+ t.toString()
+ " -> "
+ StringUtil.escapeSort(p.getSort())
+ "Dz {reject}\n");
}
}
}
}
// adding cons over lexical rules
sdf.append("context-free syntax\n");
for (Sort s : lexerSorts) {
sdf.append(
" "
+ StringUtil.escapeSort(s)
+ "Dz -> "
+ StringUtil.escapeSort(s)
+ " {cons(\""
+ StringUtil.escapeSort(s)
+ "1Const\")}\n");
}
sdf.append("\n\n");
// follow restrictions
sdf.append("context-free restrictions\n");
for (Restrictions r : psdfv.restrictions) {
if (r.getTerminal() != null && !r.getTerminal().getTerminal().equals(""))
sdf.append(
" "
+ StringUtil.enquoteCString(r.getTerminal().getTerminal())
+ " -/- "
+ r.getPattern()
+ "\n");
else
sdf.append(
" " + StringUtil.escapeSort(r.getNonTerminal()) + " -/- " + r.getPattern() + "\n");
}
return sdf;
}
