-/* Cycript - Inlining/Optimizing JavaScript Compiler
- * Copyright (C) 2009 Jay Freeman (saurik)
+/* Cycript - Optimizing JavaScript Compiler/Runtime
+ * Copyright (C) 2009-2010 Jay Freeman (saurik)
*/
-/* Modified BSD License {{{ */
+/* GNU Lesser General Public License, Version 3 {{{ */
/*
- * Redistribution and use in source and binary
- * forms, with or without modification, are permitted
- * provided that the following conditions are met:
+ * Cycript is free software: you can redistribute it and/or modify it under
+ * the terms of the GNU Lesser General Public License as published by the
+ * Free Software Foundation, either version 3 of the License, or (at your
+ * option) any later version.
*
- * 1. Redistributions of source code must retain the
- * above copyright notice, this list of conditions
- * and the following disclaimer.
- * 2. Redistributions in binary form must reproduce the
- * above copyright notice, this list of conditions
- * and the following disclaimer in the documentation
- * and/or other materials provided with the
- * distribution.
- * 3. The name of the author may not be used to endorse
- * or promote products derived from this software
- * without specific prior written permission.
+ * Cycript 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 Lesser General Public
+ * License for more details.
*
- * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS''
- * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING,
- * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
- * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
- * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE
- * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
- * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
- * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
- * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
- * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
- * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR
- * TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
- * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
- * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
-*/
+ * You should have received a copy of the GNU Lesser General Public License
+ * along with Cycript. If not, see <http://www.gnu.org/licenses/>.
+**/
/* }}} */
/* XXX: supposedly I will be screwed on very very long multi-line comments and need to replace these with a manual lexer. http://websrv.cs.fsu.edu/~engelen/courses/COP5621/Pr2.pdf */
#define YY_EXTRA_TYPE CYDriver *
+#define A new($pool)
+#define Y apr_pstrmemdup($pool, yytext, yyleng)
+
+#define I(type, Type, Name) do { \
+ yylval->type ## _ = A CY ## Type; \
+ return tk::Name; \
+} while (false)
+
#define T yylval->newline_ = yyextra->state_ == CYNewLine; BEGIN(Div);
#define C T yyextra->state_ = CYClear;
#define R T yyextra->state_ = CYRestricted;
-#define E(prefix) L C { \
- char *value(reinterpret_cast<char *>(apr_palloc(yyextra->pool_, yyleng + sizeof(prefix)))); \
- memcpy(value, prefix, sizeof(prefix) - 1); \
- memcpy(value + sizeof(prefix) - 1, yytext, yyleng); \
- value[yyleng + sizeof(prefix) - 1] = '\0'; \
- yylval->literal_ = new(yyextra->pool_) CYRegEx(value); \
- return tk::RegularExpressionLiteral; \
-}
+#define E L C I(literal, RegEx(Y), RegularExpressionLiteral);
#define N \
if (yyextra->state_ != CYNewLine) { \
- bool restricted(yyextra->state_ == CYRestricted); \
- if (restricted) { \
+ if (yyextra->state_ != CYRestricted) \
+ yyextra->state_ = CYNewLine; \
+ else { \
yyextra->state_ = CYClear; \
return tk::NewLine; \
- } else \
- yyextra->state_ = CYNewLine; \
+ } \
}
#define V(more) { \
} else if (yyextra->size_ == 0) \
value = YY_NULL; \
else { \
- size_t copy(std::min(size, yyextra->size_)); \
+ size_t copy(size); \
+ copy = (std::min(copy, yyextra->size_)); \
memcpy(data, yyextra->data_, copy); \
yyextra->data_ += copy; \
yyextra->size_ -= copy; \
%%
-<RegExp>\/{RegularExpressionBody}\/{RegularExpressionFlags} E("")
+<RegExp>\/{RegularExpressionBody}\/{RegularExpressionFlags} E
\/\/[^\n]* L
-\/\*(\n|[^\*]|\*[^/])*\*\/ V(N)
+
+ /* http://ostermiller.org/findcomment.html */
+ /* XXX: unify these two rules using !? */
+\/\*!([^*]|[\r\n]|(\*+([^*/]|[\r\n])))*\*+\/ V() C I(comment, Comment(Y), Comment);
+\/\*([^*]|[\r\n]|(\*+([^*/]|[\r\n])))*\*+\/ V(N)
@begin E4X
<RegExp>"<>" L return tk::LeftRight;
<XMLTag>"/>" L return tk::SlashRight;
<XMLTag>"{" L return tk::OpenBrace;
-<XMLTag>\"(\n|[^"])*\"|'(\n|[^'])*' V() {
- return tk::XMLAttributeValue;
-}
-
+<XMLTag>\"(\n|[^"])*\"|'(\n|[^'])*' V() return tk::XMLAttributeValue;
<XMLTag>{XMLName} L return tk::XMLName;
<XMLTag>[ \t\r\n] V() return tk::XMLWhitespace;
@end
@begin E4X
-"@" L C return tk::At;
"::" L C return tk::ColonColon;
".." L C return tk::PeriodPeriod;
@end
+@begin E4X ObjectiveC
+"@" L C return tk::At;
+@end
+
"&" L C return tk::Ampersand;
"&&" L C return tk::AmpersandAmpersand;
"&=" L C return tk::AmpersandEqual;
"(" L C return tk::OpenParen;
")" L C return tk::CloseParen;
-"{" L C return tk::OpenBrace;
+"{" L C return yylval->newline_ ? tk::OpenBrace_ : tk::OpenBrace;
"}" L C return tk::CloseBrace;
"[" L C return tk::OpenBracket;
"]" L C return tk::CloseBracket;
+@begin Java
+"@class" L C return tk::AtClass;
+@end
+
@begin ObjectiveC
-"@class" L C return tk::AtClass;
-"@end" L C return tk::AtEnd;
-"@selector" L C return tk::AtSelector;
+"@end" L C return tk::AtEnd;
+"@implementation" L C return tk::AtImplementation;
+"@import" L C return tk::AtImport;
+"@selector" L C return tk::AtSelector;
@end
-"false" L C yylval->false_ = new(yyextra->pool_) CYFalse(); return tk::False;
-"null" L C yylval->null_ = new(yyextra->pool_) CYNull(); return tk::Null;
-"true" L C yylval->true_ = new(yyextra->pool_) CYTrue(); return tk::True;
-
-"break" L R yylval->word_ = new(yyextra->pool_) CYWord("break"); return tk::Break;
-"case" L C yylval->word_ = new(yyextra->pool_) CYWord("case"); return tk::Case;
-"catch" L C yylval->word_ = new(yyextra->pool_) CYWord("catch"); return tk::Catch;
-"continue" L R yylval->word_ = new(yyextra->pool_) CYWord("continue"); return tk::Continue;
-"default" L C yylval->word_ = new(yyextra->pool_) CYWord("default"); return tk::Default;
-"delete" L C yylval->word_ = new(yyextra->pool_) CYWord("delete"); return tk::Delete;
-"do" L C yylval->word_ = new(yyextra->pool_) CYWord("do"); return tk::Do;
-"else" L C yylval->word_ = new(yyextra->pool_) CYWord("else"); return tk::Else;
-"finally" L C yylval->word_ = new(yyextra->pool_) CYWord("finally"); return tk::Finally;
-"for" L C yylval->word_ = new(yyextra->pool_) CYWord("for"); return tk::For;
-"function" L C yylval->word_ = new(yyextra->pool_) CYWord("function"); return tk::Function;
-"if" L C yylval->word_ = new(yyextra->pool_) CYWord("if"); return tk::If;
-"in" L C yylval->word_ = new(yyextra->pool_) CYWord("in"); return tk::In;
-"instanceof" L C yylval->word_ = new(yyextra->pool_) CYWord("instanceof"); return tk::InstanceOf;
-"new" L C yylval->word_ = new(yyextra->pool_) CYWord("new"); return tk::New;
-"return" L R yylval->word_ = new(yyextra->pool_) CYWord("return"); return tk::Return;
-"switch" L C yylval->word_ = new(yyextra->pool_) CYWord("switch"); return tk::Switch;
-"this" L C yylval->this_ = new(yyextra->pool_) CYThis(); return tk::This;
-"throw" L R yylval->word_ = new(yyextra->pool_) CYWord("throw"); return tk::Throw;
-"try" L C yylval->word_ = new(yyextra->pool_) CYWord("try"); return tk::Try;
-"typeof" L C yylval->word_ = new(yyextra->pool_) CYWord("typeof"); return tk::TypeOf;
-"var" L C yylval->word_ = new(yyextra->pool_) CYWord("var"); return tk::Var;
-"void" L C yylval->word_ = new(yyextra->pool_) CYWord("void"); return tk::Void;
-"while" L C yylval->word_ = new(yyextra->pool_) CYWord("while"); return tk::While;
-"with" L C yylval->word_ = new(yyextra->pool_) CYWord("with"); return tk::With;
-
-"debugger" L C yylval->word_ = new(yyextra->pool_) CYWord("debugger"); return tk::Debugger;
-
-"const" L C yylval->word_ = new(yyextra->pool_) CYWord("const"); return tk::Const;
-
-"class" L C yylval->word_ = new(yyextra->pool_) CYWord("class"); return tk::Class;
-"enum" L C yylval->word_ = new(yyextra->pool_) CYWord("enum"); return tk::Enum;
-"export" L C yylval->word_ = new(yyextra->pool_) CYWord("export"); return tk::Export;
-"extends" L C yylval->word_ = new(yyextra->pool_) CYWord("extends"); return tk::Extends;
-"import" L C yylval->word_ = new(yyextra->pool_) CYWord("import"); return tk::Import;
-"super" L C yylval->word_ = new(yyextra->pool_) CYWord("super"); return tk::Super;
-
-"implements" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("implements"); return tk::Implements;
-"interface" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("interface"); return tk::Interface;
-"package" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("package"); return tk::Package;
-"private" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("private"); return tk::Private;
-"protected" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("protected"); return tk::Protected;
-"public" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("public"); return tk::Public;
-"static" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("static"); return tk::Static;
-
-"abstract" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("abstract"); return tk::Abstract;
-"boolean" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("boolean"); return tk::Boolean;
-"byte" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("byte"); return tk::Byte;
-"char" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("char"); return tk::Char;
-"double" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("double"); return tk::Double;
-"final" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("final"); return tk::Final;
-"float" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("float"); return tk::Float;
-"goto" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("goto"); return tk::Goto;
-"int" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("int"); return tk::Int;
-"long" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("long"); return tk::Long;
-"native" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("native"); return tk::Native;
-"short" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("short"); return tk::Short;
-"synchronized" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("synchronized"); return tk::Synchronized;
-"throws" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("throws"); return tk::Throws;
-"transient" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("transient"); return tk::Transient;
-"volatile" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("volatile"); return tk::Volatile;
-
-"let" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("let"); return tk::Let;
-"yield" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("yield"); return tk::Yield;
-
-"each" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("each"); return tk::Each;
+"false" L C I(false, False(), False);
+"null" L C I(null, Null(), Null);
+"true" L C I(true, True(), True);
+
+"break" L R I(word, Word("break"), Break);
+"case" L C I(word, Word("case"), Case);
+"catch" L C I(word, Word("catch"), Catch);
+"continue" L R I(word, Word("continue"), Continue);
+"default" L C I(word, Word("default"), Default);
+"delete" L C I(word, Word("delete"), Delete);
+"do" L C I(word, Word("do"), Do);
+"else" L C I(word, Word("else"), Else);
+"finally" L C I(word, Word("finally"), Finally);
+"for" L C I(word, Word("for"), For);
+"function" L C I(word, Word("function"), Function);
+"if" L C I(word, Word("if"), If);
+"in" L C I(word, Word("in"), In);
+"instanceof" L C I(word, Word("instanceof"), InstanceOf);
+"new" L C I(word, Word("new"), New);
+"return" L R I(word, Word("return"), Return);
+"switch" L C I(word, Word("switch"), Switch);
+"this" L C I(this, This(), This);
+"throw" L R I(word, Word("throw"), Throw);
+"try" L C I(word, Word("try"), Try);
+"typeof" L C I(word, Word("typeof"), TypeOf);
+"var" L C I(word, Word("var"), Var);
+"void" L C I(word, Word("void"), Void);
+"while" L C I(word, Word("while"), While);
+"with" L C I(word, Word("with"), With);
+
+"debugger" L C I(word, Word("debugger"), Debugger);
+
+"const" L C I(word, Word("const"), Const);
+
+"class" L C I(word, Word("class"), Class);
+"enum" L C I(word, Word("enum"), Enum);
+"export" L C I(word, Word("export"), Export);
+"extends" L C I(word, Word("extends"), Extends);
+"import" L C I(word, Word("import"), Import);
+"super" L C I(word, Word("super"), Super);
+
+"implements" L C I(identifier, Identifier("implements"), Implements);
+"interface" L C I(identifier, Identifier("interface"), Interface);
+"package" L C I(identifier, Identifier("package"), Package);
+"private" L C I(identifier, Identifier("private"), Private);
+"protected" L C I(identifier, Identifier("protected"), Protected);
+"public" L C I(identifier, Identifier("public"), Public);
+"static" L C I(identifier, Identifier("static"), Static);
+
+"abstract" L C I(identifier, Identifier("abstract"), Abstract);
+"boolean" L C I(identifier, Identifier("boolean"), Boolean);
+"byte" L C I(identifier, Identifier("byte"), Byte);
+"char" L C I(identifier, Identifier("char"), Char);
+"double" L C I(identifier, Identifier("double"), Double);
+"final" L C I(identifier, Identifier("final"), Final);
+"float" L C I(identifier, Identifier("float"), Float);
+"goto" L C I(identifier, Identifier("goto"), Goto);
+"int" L C I(identifier, Identifier("int"), Int);
+"long" L C I(identifier, Identifier("long"), Long);
+"native" L C I(identifier, Identifier("native"), Native);
+"short" L C I(identifier, Identifier("short"), Short);
+"synchronized" L C I(identifier, Identifier("synchronized"), Synchronized);
+"throws" L C I(identifier, Identifier("throws"), Throws);
+"transient" L C I(identifier, Identifier("transient"), Transient);
+"volatile" L C I(identifier, Identifier("volatile"), Volatile);
+
+"let" L C I(identifier, Identifier("let"), Let);
+"yield" L C I(identifier, Identifier("yield"), Yield);
+
+"each" L C I(identifier, Identifier("each"), Each);
@begin E4X
-"namespace" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("namespace"); return tk::Namespace;
-"xml" L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier("xml"); return tk::XML;
+"namespace" L C I(identifier, Identifier("namespace"), Namespace);
+"xml" L C I(identifier, Identifier("xml"), XML);
@end
-{IdentifierStart}{IdentifierPart}* L C yylval->identifier_ = new(yyextra->pool_) CYIdentifier(apr_pstrmemdup(yyextra->pool_, yytext, yyleng)); return tk::Identifier_;
+{IdentifierStart}{IdentifierPart}* L C I(identifier, Identifier(Y), Identifier_);
-(\.[0-9]+|(0|[1-9][0-9]*)(\.[0-9]*)?){Exponent}? L C yylval->number_ = new(yyextra->pool_) CYNumber(strtod(yytext, NULL)); return tk::NumericLiteral;
+(\.[0-9]+|(0|[1-9][0-9]*)(\.[0-9]*)?){Exponent}? L C I(number, Number(strtod(yytext, NULL)), NumericLiteral);
-0[xX][0-9a-fA-F]+ L C yylval->number_ = new(yyextra->pool_) CYNumber(strtoull(yytext + 2, NULL, 16)); return tk::NumericLiteral;
-
-0[bB][0-1]+ L C yylval->number_ = new(yyextra->pool_) CYNumber(strtoull(yytext + 2, NULL, 2)); return tk::NumericLiteral;
+0[xX][0-9a-fA-F]+ L C I(number, Number(strtoull(yytext + 2, NULL, 16)), NumericLiteral);
+0[0-7]+ L C I(number, Number(strtoull(yytext + 1, NULL, 8)), NumericLiteral);
+0[bB][0-1]+ L C I(number, Number(strtoull(yytext + 2, NULL, 2)), NumericLiteral);
\"([^"\\\n]|{Escape})*\"|'([^'\\\n]|{Escape})*' L C {
- char *value(reinterpret_cast<char *>(apr_palloc(yyextra->pool_, yyleng)));
+ char *value(A char[yyleng]);
char *local(value);
- for (int i(1); i != yyleng - 1; ++i) {
+ for (yy_size_t i(1), e(yyleng - 1); i != e; ++i) {
char next(yytext[i]);
if (yytext[i] == '\\')
}
*local = '\0';
- yylval->string_ = new(yyextra->pool_) CYString(value, local - value);
- return tk::StringLiteral;
+ I(string, String(value, local - value), StringLiteral);
}
\r?\n yylloc->end.lines(); yylloc->step(); N
[ \t] L
-<<EOF>> L yyterminate();
+
+<<EOF>> if (yyextra->auto_) { yyextra->auto_ = false; return tk::AutoComplete; } L yyterminate();
. L {
CYDriver::Error error;
projects / cycript.git / blobdiff