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Lemon update 2010-01-07 03:53:04 on branch trunk
- Another attempt at fixing the table generator in lemon. Again, this does not effect the SQLite grammar. (user: drh)
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961188bc81
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7e8b9219a8
1 changed files with 42 additions and 14 deletions
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@ -412,7 +412,23 @@ char *arg;
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/*
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/*
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** The state of the yy_action table under construction is an instance of
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** The state of the yy_action table under construction is an instance of
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** the following structure
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** the following structure.
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**
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** The yy_action table maps the pair (state_number, lookahead) into an
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** action_number. The table is an array of integers pairs. The state_number
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** determines an initial offset into the yy_action array. The lookahead
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** value is then added to this initial offset to get an index X into the
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** yy_action array. If the aAction[X].lookahead equals the value of the
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** of the lookahead input, then the value of the action_number output is
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** aAction[X].action. If the lookaheads do not match then the
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** default action for the state_number is returned.
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**
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** All actions associated with a single state_number are first entered
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** into aLookahead[] using multiple calls to acttab_action(). Then the
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** actions for that single state_number are placed into the aAction[]
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** array with a single call to acttab_insert(). The acttab_insert() call
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** also resets the aLookahead[] array in preparation for the next
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** state number.
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*/
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*/
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typedef struct acttab acttab;
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typedef struct acttab acttab;
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struct acttab {
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struct acttab {
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@ -458,7 +474,10 @@ acttab *acttab_alloc(void){
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return p;
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return p;
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}
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}
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/* Add a new action to the current transaction set
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/* Add a new action to the current transaction set.
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**
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** This routine is called once for each lookahead for a particular
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** state.
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*/
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*/
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void acttab_action(acttab *p, int lookahead, int action){
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void acttab_action(acttab *p, int lookahead, int action){
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if( p->nLookahead>=p->nLookaheadAlloc ){
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if( p->nLookahead>=p->nLookaheadAlloc ){
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@ -495,7 +514,6 @@ void acttab_action(acttab *p, int lookahead, int action){
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*/
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*/
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int acttab_insert(acttab *p){
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int acttab_insert(acttab *p){
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int i, j, k, n;
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int i, j, k, n;
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int nActtab; /* Number of slots in the p->aAction[] table */
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assert( p->nLookahead>0 );
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assert( p->nLookahead>0 );
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/* Make sure we have enough space to hold the expanded action table
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/* Make sure we have enough space to hold the expanded action table
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@ -503,8 +521,7 @@ int acttab_insert(acttab *p){
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** must be appended to the current action table
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** must be appended to the current action table
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*/
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*/
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n = p->mxLookahead + 1;
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n = p->mxLookahead + 1;
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nActtab = p->nAction + n;
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if( p->nAction + n >= p->nActionAlloc ){
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if( nActtab >= p->nActionAlloc ){
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int oldAlloc = p->nActionAlloc;
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int oldAlloc = p->nActionAlloc;
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p->nActionAlloc = p->nAction + n + p->nActionAlloc + 20;
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p->nActionAlloc = p->nAction + n + p->nActionAlloc + 20;
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p->aAction = realloc( p->aAction,
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p->aAction = realloc( p->aAction,
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@ -519,16 +536,16 @@ int acttab_insert(acttab *p){
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}
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}
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}
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}
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/* Scan the existing action table looking for an offset where we can
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/* Scan the existing action table looking for an offset that is a
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** insert the current transaction set. Fall out of the loop when that
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** duplicate of the current transaction set. Fall out of the loop
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** offset is found. In the worst case, we fall out of the loop when
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** if and when the duplicate is found.
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** i reaches nActtab, which means we append the new transaction set.
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**
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**
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** i is the index in p->aAction[] where p->mnLookahead is inserted.
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** i is the index in p->aAction[] where p->mnLookahead is inserted.
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*/
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*/
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for(i=nActtab-1; i>=0; i--){
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for(i=p->nAction-1; i>=0; i--){
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/* First look for an existing action table entry that can be reused */
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if( p->aAction[i].lookahead==p->mnLookahead ){
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if( p->aAction[i].lookahead==p->mnLookahead ){
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/* All lookaheads and actions in the aLookahead[] transaction
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** must match against the candidate aAction[i] entry. */
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if( p->aAction[i].action!=p->mnAction ) continue;
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if( p->aAction[i].action!=p->mnAction ) continue;
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for(j=0; j<p->nLookahead; j++){
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for(j=0; j<p->nLookahead; j++){
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k = p->aLookahead[j].lookahead - p->mnLookahead + i;
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k = p->aLookahead[j].lookahead - p->mnLookahead + i;
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@ -537,19 +554,30 @@ int acttab_insert(acttab *p){
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if( p->aLookahead[j].action!=p->aAction[k].action ) break;
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if( p->aLookahead[j].action!=p->aAction[k].action ) break;
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}
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}
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if( j<p->nLookahead ) continue;
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if( j<p->nLookahead ) continue;
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/* No possible lookahead value that is not in the aLookahead[]
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** transaction is allowed to match aAction[i] */
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n = 0;
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n = 0;
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for(j=0; j<p->nAction; j++){
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for(j=0; j<p->nAction; j++){
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if( p->aAction[j].lookahead<0 ) continue;
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if( p->aAction[j].lookahead<0 ) continue;
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if( p->aAction[j].lookahead==j+p->mnLookahead-i ) n++;
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if( p->aAction[j].lookahead==j+p->mnLookahead-i ) n++;
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}
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}
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if( n==p->nLookahead ){
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if( n==p->nLookahead ){
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break; /* Same as a prior transaction set */
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break; /* An exact match is found at offset i */
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}
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}
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}
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}
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}
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}
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/* If no existing offsets exactly match the current transaction, find an
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** an empty offset in the aAction[] table in which we can add the
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** aLookahead[] transaction.
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*/
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if( i<0 ){
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if( i<0 ){
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/* If no reusable entry is found, look for an empty slot */
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/* Look for holes in the aAction[] table that fit the current
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for(i=0; i<nActtab; i++){
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** aLookahead[] transaction. Leave i set to the offset of the hole.
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** If no holes are found, i is left at p->nAction, which means the
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** transaction will be appended. */
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for(i=0; i<p->nActionAlloc - p->mxLookahead; i++){
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if( p->aAction[i].lookahead<0 ){
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if( p->aAction[i].lookahead<0 ){
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for(j=0; j<p->nLookahead; j++){
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for(j=0; j<p->nLookahead; j++){
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k = p->aLookahead[j].lookahead - p->mnLookahead + i;
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k = p->aLookahead[j].lookahead - p->mnLookahead + i;
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