gecko-dev/js/js2/icodeasm.cpp

551 строка
16 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
*
* The contents of this file are subject to the Netscape Public
* License Version 1.1 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.mozilla.org/NPL/
*
* Software distributed under the License is distributed on an "AS
* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express oqr
* implied. See the License for the specific language governing
* rights and limitations under the License.
*
* The Original Code is the JavaScript 2 Prototype.
*
* The Initial Developer of the Original Code is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All
* Rights Reserved.
*
* Contributor(s):
*
* Alternatively, the contents of this file may be used under the
* terms of the GNU Public License (the "GPL"), in which case the
* provisions of the GPL are applicable instead of those above.
* If you wish to allow use of your version of this file only
* under the terms of the GPL and not to allow others to use your
* version of this file under the NPL, indicate your decision by
* deleting the provisions above and replace them with the notice
* and other provisions required by the GPL. If you do not delete
* the provisions above, a recipient may use your version of this
* file under either the NPL or the GPL.
*/
#include <stdio.h>
#include "icodeasm.h"
#include "icodemap.h"
namespace JavaScript {
namespace ICodeASM {
int cmp_nocase (const string& s1, string::const_iterator s2_begin,
string::const_iterator s2_end)
{
string::const_iterator p1 = s1.begin();
string::const_iterator p2 = s2_begin;
uint s2_size = s2_end - s2_begin;
while (p1 != s1.end() && p2 != s2_end) {
if (toupper(*p1) != toupper(*p2))
return (toupper(*p1) < toupper(*p2)) ? -1 : 1;
++p1; ++p2;
}
return (s1.size() == s2_size) ? 0 : (s1.size() < s2_size) ? -1 : 1;
}
void
ICodeParser::ParseSourceFromString (string source)
{
uint statementNo = 0;
try
{
++statementNo;
ParseStatement (source.begin(), source.end());
}
catch (ICodeParseException e)
{
fprintf (stderr, "Parse Error: %s at statement %u\n", e.msg.c_str(),
statementNo);
return;
}
}
TokenLocation
ICodeParser::SeekTokenStart (iter begin, iter end)
{
TokenLocation tl;
iter curpos;
tl.type = ttUndetermined;
for (curpos = begin; curpos < end; ++curpos) {
switch (*curpos)
{
case ' ':
case '\t':
case '\n':
/* look past the whitespace */
break;
case 'a'...'z':
case 'A'...'Z':
case '_':
tl.estimate = teAlpha;
tl.begin = curpos;
return tl;
case '0'...'9':
tl.estimate = teNumeric;
tl.begin = curpos;
return tl;
case ',':
tl.estimate = teComma;
tl.begin = curpos;
return tl;
case '"':
case '\'':
tl.estimate = teString;
tl.begin = curpos;
return tl;
case '<':
tl.estimate = teNotARegister;
tl.begin = curpos;
return tl;
default:
tl.estimate = teUnknown;
tl.begin = curpos;
return tl;
}
}
tl.begin = curpos;
tl.estimate = teEOF;
return tl;
}
iter
ICodeParser::ParseAlpha (iter begin, iter end, string *rval)
{
iter curpos;
string *str = new string();
for (curpos = begin; curpos < end; ++curpos) {
switch (*curpos)
{
case 'a'...'z':
case 'A'...'Z':
case '0'...'9':
case '_':
*str += *curpos;
break;
default:
goto scan_done;
}
}
scan_done:
rval = str;
return curpos;
}
iter
ICodeParser::ParseBool (iter begin, iter end, bool *rval)
{
iter curpos = begin;
if ((curpos != end) && (*curpos == 'T' || *curpos == 't')) {
if ((++curpos != end) && (*curpos == 'R' || *curpos == 'r'))
if ((++curpos != end) && (*curpos == 'U' || *curpos == 'u'))
if ((++curpos != end) &&
(*curpos == 'E' || *curpos == 'e')) {
*rval = true;
return ++curpos;
}
} else if ((curpos != end) && (*curpos == 'F' || *curpos == 'f')) {
if ((++curpos != end) && (*curpos == 'A' || *curpos == 'a'))
if ((++curpos != end) && (*curpos == 'L' || *curpos == 'l'))
if ((++curpos != end) && (*curpos == 'S' || *curpos == 's'))
if ((++curpos != end) &&
(*curpos == 'E' || *curpos == 'e')) {
*rval = false;
return ++curpos;
}
}
throw new ICodeParseException ("Expected boolean value.");
}
iter
ICodeParser::ParseDouble (iter begin, iter end, double *rval)
{
/* XXX add overflow checking */
uint32 integer;
iter curpos = ParseUInt32 (begin, end, &integer);
*rval = static_cast<double>(integer);
if (*curpos != '.')
return curpos;
++curpos;
uint32 position = 0;
for (curpos = begin; curpos < end; ++curpos) {
switch (*curpos)
{
case '0'...'9':
*rval += (*curpos - '0') * (1 / pow (10, ++position));
break;
default:
goto scan_done;
}
}
scan_done:
return curpos;
}
iter
ICodeParser::ParseString (iter begin, iter end, string *rval)
{
char delim = *begin;
bool isTerminated = false;
/* XXX not exactly exception safe, string may never get deleted */
string *str = new string();
if (delim != '\'' && delim != '"') {
ASSERT ("|begin| does not point at a string");
return 0;
}
iter curpos = 0;
bool isEscaped = false;
for (curpos = ++begin; curpos < end; ++curpos) {
switch (*curpos) {
case '\\':
if (isEscaped) {
*str += '\\';
isEscaped = false;
} else {
isEscaped = true;
}
break;
case 't':
if (isEscaped) {
*str += '\t';
isEscaped = false;
} else {
*str += 't';
}
break;
case 'n':
if (isEscaped) {
*str += '\n';
isEscaped = false;
} else {
*str += 'n';
}
break;
case 'r':
if (isEscaped) {
*str += '\r';
isEscaped = false;
} else {
*str += 'r';
}
break;
case '\n':
if (isEscaped) {
*str += '\n';
isEscaped = false;
} else {
/* unescaped newline == unterminated string */
goto scan_done;
}
break;
case '\'':
case '"':
if (*curpos == delim) {
if (isEscaped) {
*str += delim;
isEscaped = false;
} else {
++curpos;
isTerminated = true;
goto scan_done;
}
break;
}
default:
isEscaped = false;
*str += *curpos;
}
}
scan_done:
if (!isTerminated)
{
delete str;
throw new ICodeParseException ("Unterminated string literal.");
}
rval = str;
return curpos;
}
iter
ICodeParser::ParseUInt32 (iter begin, iter end, uint32 *rval)
{
/* XXX add overflow checking */
int32 position = 0;
iter curpos;
for (curpos = begin; curpos < end; ++curpos) {
switch (*curpos)
{
case '0'...'9':
position++;
break;
default:
goto scan_done;
}
}
scan_done:
for (curpos = begin; position >= 0; --position)
*rval += (*curpos++ - '0') * static_cast<uint32>(pow (10, position));
return curpos;
}
iter ICodeParser::ParseInstruction (uint icodeID, iter start, iter end)
{
iter curpos = start;
StatementNode *node = new StatementNode();
node->icodeID = icodeID;
# define CASE_TYPE(T) \
case ot##T: \
{ \
curpos = Parse##T##Operand (curpos, end, &node->operand[i]); \
break; \
}
for (uint i = 0; i < 4; ++i)
{
switch (icodemap[icodeID].otype[i])
{
CASE_TYPE(ArgumentList);
CASE_TYPE(BinaryOp);
CASE_TYPE(Bool);
CASE_TYPE(Double);
CASE_TYPE(ICodeModule);
CASE_TYPE(JSClass);
CASE_TYPE(JSString);
CASE_TYPE(JSFunction);
CASE_TYPE(JSType);
CASE_TYPE(Label);
CASE_TYPE(UInt32);
CASE_TYPE(Register);
CASE_TYPE(StringAtom);
default:
break;
}
}
# undef CASE_TYPE
return curpos;
}
iter
ICodeParser::ParseStatement (iter begin, iter end)
{
TokenLocation tl = SeekTokenStart (begin, end);
if (tl.estimate != teAlpha)
throw new ICodeParseException ("Expected an alphanumeric token (like maybe an instruction or a label.)");
for (iter curpos = tl.begin; curpos < end; ++curpos) {
switch (*curpos)
{
case ':':
tl.type = ttLabel;
tl.end = ++curpos;
goto scan_done;
case 'a'...'z':
case 'A'...'Z':
case '0'...'9':
case '_':
break;
default:
tl.type = ttInstruction;
tl.end = curpos;
goto scan_done;
}
}
scan_done:
if (tl.type == ttUndetermined) {
tl.type = ttInstruction;
tl.end = end;
}
if (tl.type == ttLabel) {
string label_str(tl.begin, tl.end - 1); /* ignore the trailing : */
mLabels[label_str] = mStatementNodes.end();
return tl.end;
} else if (tl.type == ttInstruction) {
string icode_str(tl.begin, tl.end);
for (uint i = 0; i < icodemap_size; ++i)
if (cmp_nocase(icode_str, &icodemap[i].name[0],
&icodemap[i].name[0] +
strlen(icodemap[i].name) + 1))
return ParseInstruction (i, tl.end, end);
throw new ICodeParseException ("Unknown ICode " + icode_str);
} else {
throw new ICodeParseException ("Internal error in ParseStatement.");
}
}
iter
ICodeParser::ParseArgumentListOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
/* XXX this is hard, lets go shopping */
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseBinaryOpOperand (iter begin, iter end, AnyOperand *o)
{
TokenLocation tl = SeekTokenStart (begin, end);
if (tl.estimate != teString)
throw new ICodeParseException ("Expected BinaryOp as a quoted string.");
string *str;
end = ParseString (tl.begin, end, str);
o->asString = str;
return end;
}
iter
ICodeParser::ParseBoolOperand (iter begin, iter end, AnyOperand *o)
{
TokenLocation tl = SeekTokenStart (begin, end);
if (tl.estimate != teAlpha)
throw new ICodeParseException ("Expected boolean value.");
return ParseBool (tl.begin, end, &o->asBoolean);
}
iter
ICodeParser::ParseDoubleOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseICodeModuleOperand (iter begin, iter end, AnyOperand *o)
{
TokenLocation tl = SeekTokenStart (begin, end);
if (tl.estimate != teString)
throw new ICodeParseException ("Expected ICode Module as a quoted string.");
string *str;
end = ParseString (tl.begin, end, str);
o->asString = str;
return end;
}
iter
ICodeParser::ParseJSClassOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseJSStringOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseJSFunctionOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseJSTypeOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseLabelOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseUInt32Operand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseRegisterOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
iter
ICodeParser::ParseStringAtomOperand (iter begin, iter /*end*/,
AnyOperand */*o*/)
{
ASSERT ("Not Implemented.");
return begin;
}
}
}