/*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is furnished to do
* so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
package jdk.nashorn.internal.runtime.regexp.joni;
import java.lang.ref.WeakReference;
import jdk.nashorn.internal.runtime.regexp.joni.constants.StackPopLevel;
import jdk.nashorn.internal.runtime.regexp.joni.constants.StackType;
abstract class StackMachine extends Matcher implements StackType {
protected static final int INVALID_INDEX = -1;
protected StackEntry[]stack;
protected int stk; // stkEnd
protected final int[]repeatStk;
protected final int memStartStk, memEndStk;
protected StackMachine(final Regex regex, final char[] chars, final int p , final int end) {
super(regex, chars, p, end);
this.stack = regex.stackNeeded ? fetchStack() : null;
final int n = regex.numRepeat + (regex.numMem << 1);
this.repeatStk = n > 0 ? new int[n] : null;
memStartStk = regex.numRepeat - 1;
memEndStk = memStartStk + regex.numMem;
/* for index start from 1, mem_start_stk[1]..mem_start_stk[num_mem] */
/* for index start from 1, mem_end_stk[1]..mem_end_stk[num_mem] */
}
private static StackEntry[] allocateStack() {
final StackEntry[]stack = new StackEntry[Config.INIT_MATCH_STACK_SIZE];
stack[0] = new StackEntry();
return stack;
}
private void doubleStack() {
final StackEntry[] newStack = new StackEntry[stack.length << 1];
System.arraycopy(stack, 0, newStack, 0, stack.length);
stack = newStack;
}
static final ThreadLocal<WeakReference<StackEntry[]>> stacks
= new ThreadLocal<WeakReference<StackEntry[]>>() {
@SuppressWarnings("unused")
@Override
protected WeakReference<StackEntry[]> initialValue() {
return new WeakReference<StackEntry[]>(allocateStack());
}
};
@SuppressWarnings("unused")
private static StackEntry[] fetchStack() {
WeakReference<StackEntry[]> ref = stacks.get();
StackEntry[] stack = ref.get();
if (stack == null) {
ref = new WeakReference<StackEntry[]>(stack = allocateStack());
stacks.set(ref);
}
return stack;
}
protected final void init() {
if (stack != null) {
pushEnsured(ALT, regex.codeLength - 1); /* bottom stack */
}
if (repeatStk != null) {
for (int i=1; i<=regex.numMem; i++) {
repeatStk[i + memStartStk] = repeatStk[i + memEndStk] = INVALID_INDEX;
}
}
}
protected final StackEntry ensure1() {
if (stk >= stack.length) {
doubleStack();
}
StackEntry e = stack[stk];
if (e == null) {
stack[stk] = e = new StackEntry();
}
return e;
}
protected final void pushType(final int type) {
ensure1().type = type;
stk++;
}
private void push(final int type, final int pat, final int s, final int prev) {
final StackEntry e = ensure1();
e.type = type;
e.setStatePCode(pat);
e.setStatePStr(s);
e.setStatePStrPrev(prev);
stk++;
}
protected final void pushEnsured(final int type, final int pat) {
final StackEntry e = stack[stk];
e.type = type;
e.setStatePCode(pat);
stk++;
}
protected final void pushAlt(final int pat, final int s, final int prev) {
push(ALT, pat, s, prev);
}
protected final void pushPos(final int s, final int prev) {
push(POS, -1 /*NULL_UCHARP*/, s, prev);
}
protected final void pushPosNot(final int pat, final int s, final int prev) {
push(POS_NOT, pat, s, prev);
}
protected final void pushStopBT() {
pushType(STOP_BT);
}
protected final void pushLookBehindNot(final int pat, final int s, final int sprev) {
push(LOOK_BEHIND_NOT, pat, s, sprev);
}
protected final void pushRepeat(final int id, final int pat) {
final StackEntry e = ensure1();
e.type = REPEAT;
e.setRepeatNum(id);
e.setRepeatPCode(pat);
e.setRepeatCount(0);
stk++;
}
protected final void pushRepeatInc(final int sindex) {
final StackEntry e = ensure1();
e.type = REPEAT_INC;
e.setSi(sindex);
stk++;
}
protected final void pushMemStart(final int mnum, final int s) {
final StackEntry e = ensure1();
e.type = MEM_START;
e.setMemNum(mnum);
e.setMemPstr(s);
e.setMemStart(repeatStk[memStartStk + mnum]);
e.setMemEnd(repeatStk[memEndStk + mnum]);
repeatStk[memStartStk + mnum] = stk;
repeatStk[memEndStk + mnum] = INVALID_INDEX;
stk++;
}
protected final void pushMemEnd(final int mnum, final int s) {
final StackEntry e = ensure1();
e.type = MEM_END;
e.setMemNum(mnum);
e.setMemPstr(s);
e.setMemStart(repeatStk[memStartStk + mnum]);
e.setMemEnd(repeatStk[memEndStk + mnum]);
repeatStk[memEndStk + mnum] = stk;
stk++;
}
protected final void pushMemEndMark(final int mnum) {
final StackEntry e = ensure1();
e.type = MEM_END_MARK;
e.setMemNum(mnum);
stk++;
}
protected final int getMemStart(final int mnum) {
int level = 0;
int stkp = stk;
while (stkp > 0) {
stkp--;
final StackEntry e = stack[stkp];
if ((e.type & MASK_MEM_END_OR_MARK) != 0 && e.getMemNum() == mnum) {
level++;
} else if (e.type == MEM_START && e.getMemNum() == mnum) {
if (level == 0) {
break;
}
level--;
}
}
return stkp;
}
protected final void pushNullCheckStart(final int cnum, final int s) {
final StackEntry e = ensure1();
e.type = NULL_CHECK_START;
e.setNullCheckNum(cnum);
e.setNullCheckPStr(s);
stk++;
}
protected final void pushNullCheckEnd(final int cnum) {
final StackEntry e = ensure1();
e.type = NULL_CHECK_END;
e.setNullCheckNum(cnum);
stk++;
}
// stack debug routines here
// ...
protected final void popOne() {
stk--;
}
protected final StackEntry pop() {
switch (regex.stackPopLevel) {
case StackPopLevel.FREE:
return popFree();
case StackPopLevel.MEM_START:
return popMemStart();
default:
return popDefault();
}
}
private StackEntry popFree() {
while (true) {
final StackEntry e = stack[--stk];
if ((e.type & MASK_POP_USED) != 0) {
return e;
}
}
}
private StackEntry popMemStart() {
while (true) {
final StackEntry e = stack[--stk];
if ((e.type & MASK_POP_USED) != 0) {
return e;
} else if (e.type == MEM_START) {
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemEnd();
}
}
}
private StackEntry popDefault() {
while (true) {
final StackEntry e = stack[--stk];
if ((e.type & MASK_POP_USED) != 0) {
return e;
} else if (e.type == MEM_START) {
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemEnd();
} else if (e.type == REPEAT_INC) {
//int si = stack[stk + IREPEAT_INC_SI];
//stack[si + IREPEAT_COUNT]--;
stack[e.getSi()].decreaseRepeatCount();
} else if (e.type == MEM_END) {
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemEnd();
}
}
}
protected final void popTilPosNot() {
while (true) {
stk--;
final StackEntry e = stack[stk];
if (e.type == POS_NOT) {
break;
} else if (e.type == MEM_START) {
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemStart();
} else if (e.type == REPEAT_INC) {
//int si = stack[stk + IREPEAT_INC_SI];
//stack[si + IREPEAT_COUNT]--;
stack[e.getSi()].decreaseRepeatCount();
} else if (e.type == MEM_END){
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemStart();
}
}
}
protected final void popTilLookBehindNot() {
while (true) {
stk--;
final StackEntry e = stack[stk];
if (e.type == LOOK_BEHIND_NOT) {
break;
} else if (e.type == MEM_START) {
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemEnd();
} else if (e.type == REPEAT_INC) {
//int si = stack[stk + IREPEAT_INC_SI];
//stack[si + IREPEAT_COUNT]--;
stack[e.getSi()].decreaseRepeatCount();
} else if (e.type == MEM_END) {
repeatStk[memStartStk + e.getMemNum()] = e.getMemStart();
repeatStk[memEndStk + e.getMemNum()] = e.getMemEnd();
}
}
}
protected final int posEnd() {
int k = stk;
while (true) {
k--;
final StackEntry e = stack[k];
if ((e.type & MASK_TO_VOID_TARGET) != 0) {
e.type = VOID;
} else if (e.type == POS) {
e.type = VOID;
break;
}
}
return k;
}
protected final void stopBtEnd() {
int k = stk;
while (true) {
k--;
final StackEntry e = stack[k];
if ((e.type & MASK_TO_VOID_TARGET) != 0) {
e.type = VOID;
} else if (e.type == STOP_BT) {
e.type = VOID;
break;
}
}
}
// int for consistency with other null check routines
protected final int nullCheck(final int id, final int s) {
int k = stk;
while (true) {
k--;
final StackEntry e = stack[k];
if (e.type == NULL_CHECK_START) {
if (e.getNullCheckNum() == id) {
return e.getNullCheckPStr() == s ? 1 : 0;
}
}
}
}
protected final int nullCheckMemSt(final int id, final int s) {
// Return -1 here to cause operation to fail
return -nullCheck(id, s);
}
protected final int getRepeat(final int id) {
int level = 0;
int k = stk;
while (true) {
k--;
final StackEntry e = stack[k];
if (e.type == REPEAT) {
if (level == 0) {
if (e.getRepeatNum() == id) {
return k;
}
}
} else if (e.type == CALL_FRAME) {
level--;
} else if (e.type == RETURN) {
level++;
}
}
}
protected final int sreturn() {
int level = 0;
int k = stk;
while (true) {
k--;
final StackEntry e = stack[k];
if (e.type == CALL_FRAME) {
if (level == 0) {
return e.getCallFrameRetAddr();
}
level--;
} else if (e.type == RETURN) {
level++;
}
}
}
}
