diff options
Diffstat (limited to 'lib')
-rw-r--r-- | lib/statement.cpp | 275 | ||||
-rw-r--r-- | lib/statement.h | 16 |
2 files changed, 234 insertions, 57 deletions
diff --git a/lib/statement.cpp b/lib/statement.cpp index f8d5346..64a4311 100644 --- a/lib/statement.cpp +++ b/lib/statement.cpp | |||
@@ -52,20 +52,24 @@ namespace verbly { | |||
52 | cteStream << cte.getCondition().toSql(); | 52 | cteStream << cte.getCondition().toSql(); |
53 | } | 53 | } |
54 | 54 | ||
55 | cteStream << " UNION SELECT l.* FROM "; | 55 | if (cte.isRecursive()) |
56 | cteStream << cte.getIdentifier(); | 56 | { |
57 | cteStream << " AS t INNER JOIN "; | 57 | cteStream << " UNION SELECT l.* FROM "; |
58 | cteStream << cte.getField().getTable(); | 58 | cteStream << cte.getIdentifier(); |
59 | cteStream << " AS j ON t."; | 59 | cteStream << " AS t INNER JOIN "; |
60 | cteStream << cte.getField().getColumn(); | 60 | cteStream << cte.getField().getTable(); |
61 | cteStream << " = j."; | 61 | cteStream << " AS j ON t."; |
62 | cteStream << cte.getField().getForeignJoinColumn(); | 62 | cteStream << cte.getField().getColumn(); |
63 | cteStream << " INNER JOIN "; | 63 | cteStream << " = j."; |
64 | cteStream << cte.getTableForId(cte.getTopTable()); | 64 | cteStream << cte.getField().getForeignJoinColumn(); |
65 | cteStream << " AS l ON j."; | 65 | cteStream << " INNER JOIN "; |
66 | cteStream << cte.getField().getJoinColumn(); | 66 | cteStream << cte.getTableForId(cte.getTopTable()); |
67 | cteStream << " = l."; | 67 | cteStream << " AS l ON j."; |
68 | cteStream << cte.getField().getColumn(); | 68 | cteStream << cte.getField().getJoinColumn(); |
69 | cteStream << " = l."; | ||
70 | cteStream << cte.getField().getColumn(); | ||
71 | } | ||
72 | |||
69 | cteStream << ")"; | 73 | cteStream << ")"; |
70 | 74 | ||
71 | ctes.push_back(cteStream.str()); | 75 | ctes.push_back(cteStream.str()); |
@@ -146,6 +150,13 @@ namespace verbly { | |||
146 | { | 150 | { |
147 | } | 151 | } |
148 | 152 | ||
153 | /** | ||
154 | * This function recursively parses the query's filter condition. It is not | ||
155 | * idempotent. It returns a condition object representing the passed filter, | ||
156 | * but it also modifies the statement object, specifically by adding any joins | ||
157 | * and CTEs that may be required to represent the passed filter. This may also | ||
158 | * involve instantiating tables. | ||
159 | */ | ||
149 | statement::condition statement::parseFilter(filter clause) | 160 | statement::condition statement::parseFilter(filter clause) |
150 | { | 161 | { |
151 | switch (clause.getType()) | 162 | switch (clause.getType()) |
@@ -164,6 +175,9 @@ namespace verbly { | |||
164 | return {}; | 175 | return {}; |
165 | } | 176 | } |
166 | 177 | ||
178 | // For primitive type filters, all we need to do is translate the | ||
179 | // filter object directly into a condition object. No joins are | ||
180 | // necessary. | ||
167 | case field::type::string: | 181 | case field::type::string: |
168 | case field::type::integer: | 182 | case field::type::integer: |
169 | case field::type::boolean: | 183 | case field::type::boolean: |
@@ -247,6 +261,7 @@ namespace verbly { | |||
247 | 261 | ||
248 | case field::type::join: | 262 | case field::type::join: |
249 | { | 263 | { |
264 | // First, figure out what table we need to join against. | ||
250 | std::string joinTableName; | 265 | std::string joinTableName; |
251 | if (clause.getField().hasTable()) | 266 | if (clause.getField().hasTable()) |
252 | { | 267 | { |
@@ -255,6 +270,9 @@ namespace verbly { | |||
255 | joinTableName = getTableForContext(clause.getField().getJoinObject()); | 270 | joinTableName = getTableForContext(clause.getField().getJoinObject()); |
256 | } | 271 | } |
257 | 272 | ||
273 | // Recursively parse the subquery, and therefore obtain an | ||
274 | // instantiated table to join against, as well as any joins or CTEs | ||
275 | // that the subquery may require to function. | ||
258 | statement joinStmt( | 276 | statement joinStmt( |
259 | joinTableName, | 277 | joinTableName, |
260 | clause.getJoinCondition().normalize(clause.getField().getJoinObject()), | 278 | clause.getJoinCondition().normalize(clause.getField().getJoinObject()), |
@@ -262,23 +280,71 @@ namespace verbly { | |||
262 | nextWithId_); | 280 | nextWithId_); |
263 | 281 | ||
264 | std::string joinTable = joinStmt.topTable_; | 282 | std::string joinTable = joinStmt.topTable_; |
265 | condition curCond = integrate(std::move(joinStmt)); | ||
266 | 283 | ||
267 | bool outer = false; | ||
268 | if (clause.getComparison() == filter::comparison::does_not_match) | 284 | if (clause.getComparison() == filter::comparison::does_not_match) |
269 | { | 285 | { |
270 | outer = true; | 286 | // If the comparison is actually a negative filter, we can't just |
287 | // integrate the subquery statement into this statement and then | ||
288 | // join against it. Even if we LEFT JOIN against the subquery's | ||
289 | // top level table and then condition on the join column being | ||
290 | // NULL, if that table joins against any other table, the query | ||
291 | // will return zero results. Instead, we create a non-recursive | ||
292 | // CTE that represents the subquery, then LEFT JOIN against it and | ||
293 | // condition on the join column being NULL as before. | ||
294 | std::string withName = instantiateWith(clause.getField().getTable()); | ||
295 | std::string withInstName = instantiateTable(withName); | ||
271 | 296 | ||
272 | curCond &= condition(joinTable, clause.getField().getColumn(), true); | 297 | // LEFT JOIN against the CTE. |
273 | } | 298 | joins_.emplace_back( |
274 | 299 | true, | |
275 | joins_.emplace_back(outer, joinTableName, topTable_, clause.getField().getColumn(), joinTable, clause.getField().getColumn()); | 300 | withName, |
301 | topTable_, | ||
302 | clause.getField().getColumn(), | ||
303 | withInstName, | ||
304 | clause.getField().getColumn()); | ||
305 | |||
306 | // All CTEs have to be in the main statement, so integrate any | ||
307 | // CTEs that our subquery uses. Also, retrieve the table mapping, | ||
308 | // joins list, and subquery condition, and use them to create the | ||
309 | // CTE. | ||
310 | std::map<std::string, std::string> cteTables = std::move(joinStmt.tables_); | ||
311 | std::list<join> cteJoins = std::move(joinStmt.joins_); | ||
312 | condition cteCondition = integrate(std::move(joinStmt), true); | ||
276 | 313 | ||
277 | return curCond; | 314 | withs_.emplace_back( |
315 | std::move(withName), | ||
316 | clause.getField(), | ||
317 | std::move(cteTables), | ||
318 | std::move(joinTable), | ||
319 | std::move(cteCondition), | ||
320 | std::move(cteJoins), | ||
321 | false); | ||
322 | |||
323 | // Condition on the join column being NULL, which causes the query | ||
324 | // to only return results that do not match the subquery. | ||
325 | return condition(std::move(withInstName), clause.getField().getColumn(), true); | ||
326 | } else { | ||
327 | // INNER JOIN against the top table of the subquery. | ||
328 | joins_.emplace_back( | ||
329 | false, | ||
330 | std::move(joinTableName), | ||
331 | topTable_, | ||
332 | clause.getField().getColumn(), | ||
333 | std::move(joinTable), | ||
334 | clause.getField().getColumn()); | ||
335 | |||
336 | // Integrate the subquery's table mappings, joins, and CTEs into | ||
337 | // this statement, and return the subquery condition as our | ||
338 | // condition. | ||
339 | return integrate(std::move(joinStmt)); | ||
340 | } | ||
278 | } | 341 | } |
279 | 342 | ||
280 | case field::type::join_through: | 343 | case field::type::join_through: |
281 | { | 344 | { |
345 | // Recursively parse the subquery, and therefore obtain an | ||
346 | // instantiated table to join against, as well as any joins or CTEs | ||
347 | // that the subquery may require to function. | ||
282 | statement joinStmt( | 348 | statement joinStmt( |
283 | getTableForContext(clause.getField().getJoinObject()), | 349 | getTableForContext(clause.getField().getJoinObject()), |
284 | clause.getJoinCondition().normalize(clause.getField().getJoinObject()), | 350 | clause.getJoinCondition().normalize(clause.getField().getJoinObject()), |
@@ -286,58 +352,143 @@ namespace verbly { | |||
286 | nextWithId_); | 352 | nextWithId_); |
287 | 353 | ||
288 | std::string joinTable = joinStmt.topTable_; | 354 | std::string joinTable = joinStmt.topTable_; |
289 | std::string throughTable = instantiateTable(clause.getField().getTable()); | ||
290 | condition curCond = integrate(std::move(joinStmt)); | ||
291 | 355 | ||
292 | bool outer = false; | ||
293 | if (clause.getComparison() == filter::comparison::does_not_match) | 356 | if (clause.getComparison() == filter::comparison::does_not_match) |
294 | { | 357 | { |
295 | outer = true; | 358 | // If the comparison is actually a negative filter, we can't just |
359 | // integrate the subquery statement into this statement and then | ||
360 | // join against it. Even if we LEFT JOIN against the subquery's | ||
361 | // through table and then condition on the join column being NULL, | ||
362 | // the query will return zero results because the through table | ||
363 | // joins against the subquery's top level table. Instead, we | ||
364 | // create a non-recursive CTE that represents the through table | ||
365 | // joined against the subquery, then LEFT JOIN against it and | ||
366 | // condition on the join column being NULL as before. | ||
367 | std::string withName = instantiateWith(clause.getField().getTable()); | ||
368 | std::string withInstName = instantiateTable(withName); | ||
296 | 369 | ||
297 | curCond &= condition(throughTable, clause.getField().getJoinColumn(), true); | 370 | // LEFT JOIN against the CTE. |
298 | } | 371 | joins_.emplace_back( |
299 | 372 | true, | |
300 | joins_.emplace_back(outer, clause.getField().getTable(), topTable_, clause.getField().getColumn(), throughTable, clause.getField().getJoinColumn()); | 373 | withName, |
301 | joins_.emplace_back(false, getTableForContext(clause.getField().getJoinObject()), throughTable, clause.getField().getForeignJoinColumn(), joinTable, clause.getField().getForeignColumn()); | 374 | topTable_, |
375 | clause.getField().getColumn(), | ||
376 | withInstName, | ||
377 | clause.getField().getJoinColumn()); | ||
378 | |||
379 | // Modify the substatement such that the through table is the top | ||
380 | // table, and such that it joins against the previous top table. | ||
381 | std::string throughTable = joinStmt.instantiateTable(clause.getField().getTable()); | ||
382 | joinStmt.joins_.emplace_back( | ||
383 | false, | ||
384 | getTableForContext(clause.getField().getJoinObject()), | ||
385 | throughTable, | ||
386 | clause.getField().getForeignJoinColumn(), | ||
387 | std::move(joinTable), | ||
388 | clause.getField().getForeignColumn()); | ||
389 | |||
390 | joinStmt.topTable_ = throughTable; | ||
391 | |||
392 | // All CTEs have to be in the main statement, so integrate any | ||
393 | // CTEs that our subquery uses. Also, retrieve the table mapping, | ||
394 | // joins list, and subquery condition, and use them to create the | ||
395 | // CTE. | ||
396 | std::map<std::string, std::string> cteTables = std::move(joinStmt.tables_); | ||
397 | std::list<join> cteJoins = std::move(joinStmt.joins_); | ||
398 | condition cteCondition = integrate(std::move(joinStmt), true); | ||
302 | 399 | ||
303 | return curCond; | 400 | withs_.emplace_back( |
401 | std::move(withName), | ||
402 | clause.getField(), | ||
403 | std::move(cteTables), | ||
404 | std::move(throughTable), | ||
405 | std::move(cteCondition), | ||
406 | std::move(cteJoins), | ||
407 | false); | ||
408 | |||
409 | // Condition on the join column being NULL, which causes the query | ||
410 | // to only return results that do not match the subquery. | ||
411 | return condition(std::move(withInstName), clause.getField().getJoinColumn(), true); | ||
412 | } else { | ||
413 | // Instantiate the through table. | ||
414 | std::string throughTable = instantiateTable(clause.getField().getTable()); | ||
415 | |||
416 | // INNER JOIN against the through table. | ||
417 | joins_.emplace_back( | ||
418 | false, | ||
419 | clause.getField().getTable(), | ||
420 | topTable_, | ||
421 | clause.getField().getColumn(), | ||
422 | throughTable, | ||
423 | clause.getField().getJoinColumn()); | ||
424 | |||
425 | // INNER JOIN from the through table to the top table of the subquery. | ||
426 | joins_.emplace_back( | ||
427 | false, | ||
428 | getTableForContext(clause.getField().getJoinObject()), | ||
429 | std::move(throughTable), | ||
430 | clause.getField().getForeignJoinColumn(), | ||
431 | std::move(joinTable), | ||
432 | clause.getField().getForeignColumn()); | ||
433 | |||
434 | // Integrate the subquery's table mappings, joins, and CTEs into | ||
435 | // this statement, and return the subquery condition as our | ||
436 | // condition. | ||
437 | return integrate(std::move(joinStmt)); | ||
438 | } | ||
304 | } | 439 | } |
305 | 440 | ||
306 | case field::type::hierarchal_join: | 441 | case field::type::hierarchal_join: |
307 | { | 442 | { |
308 | std::string withName = std::string(clause.getField().getTable()) + "_tree_" + std::to_string(nextWithId_++); | 443 | // Create a recursive CTE that represents the results of the subquery. |
444 | std::string withName = instantiateWith(clause.getField().getTable()); | ||
309 | std::string withInstName = instantiateTable(withName); | 445 | std::string withInstName = instantiateTable(withName); |
310 | 446 | ||
447 | // If we are matching against the subquery, we INNER JOIN with the | ||
448 | // CTE. If we are negatively matching the subquery, we LEFT JOIN | ||
449 | // with the CTE. | ||
311 | bool outer = false; | 450 | bool outer = false; |
312 | if (clause.getComparison() == filter::comparison::does_not_hierarchally_match) | 451 | if (clause.getComparison() == filter::comparison::does_not_hierarchally_match) |
313 | { | 452 | { |
314 | outer = true; | 453 | outer = true; |
315 | } | 454 | } |
316 | 455 | ||
317 | joins_.emplace_back(outer, withName, topTable_, clause.getField().getColumn(), withInstName, clause.getField().getColumn()); | 456 | // Join against the CTE. |
457 | joins_.emplace_back( | ||
458 | outer, | ||
459 | withName, | ||
460 | topTable_, | ||
461 | clause.getField().getColumn(), | ||
462 | withInstName, | ||
463 | clause.getField().getColumn()); | ||
318 | 464 | ||
465 | // Recursively parse the subquery in order to create the CTE. | ||
319 | statement withStmt( | 466 | statement withStmt( |
320 | getTableForContext(clause.getField().getObject()), | 467 | getTableForContext(clause.getField().getObject()), |
321 | clause.getJoinCondition().normalize(clause.getField().getObject()), | 468 | clause.getJoinCondition().normalize(clause.getField().getObject()), |
322 | nextTableId_, | 469 | nextTableId_, |
323 | nextWithId_); | 470 | nextWithId_); |
324 | 471 | ||
325 | for (auto& w : withStmt.withs_) | 472 | // All CTEs have to be in the main statement, so integrate any CTEs |
326 | { | 473 | // that our subquery uses. Also, retrieve the table mapping, joins |
327 | withs_.push_back(std::move(w)); | 474 | // list, and subquery condition, and use them to create the CTE. |
328 | } | 475 | std::string cteTopTable = std::move(withStmt.topTable_); |
329 | 476 | std::map<std::string, std::string> cteTables = std::move(withStmt.tables_); | |
330 | nextTableId_ = withStmt.nextTableId_; | 477 | std::list<join> cteJoins = std::move(withStmt.joins_); |
331 | nextWithId_ = withStmt.nextWithId_; | 478 | condition cteCondition = integrate(std::move(withStmt), true); |
332 | 479 | ||
333 | withs_.emplace_back( | 480 | withs_.emplace_back( |
334 | withName, | 481 | std::move(withName), |
335 | clause.getField(), | 482 | clause.getField(), |
336 | std::move(withStmt.tables_), | 483 | std::move(cteTables), |
337 | std::move(withStmt.topTable_), | 484 | std::move(cteTopTable), |
338 | std::move(withStmt.topCondition_), | 485 | std::move(cteCondition), |
339 | std::move(withStmt.joins_)); | 486 | std::move(cteJoins), |
487 | true); | ||
340 | 488 | ||
489 | // If we are matching against the subquery, no condition is | ||
490 | // necessary. If we are negatively matching the subquery, we | ||
491 | // condition on the join column being NULL. | ||
341 | if (clause.getComparison() == filter::comparison::does_not_hierarchally_match) | 492 | if (clause.getComparison() == filter::comparison::does_not_hierarchally_match) |
342 | { | 493 | { |
343 | return condition(withInstName, clause.getField().getColumn(), true); | 494 | return condition(withInstName, clause.getField().getColumn(), true); |
@@ -379,16 +530,32 @@ namespace verbly { | |||
379 | return identifier; | 530 | return identifier; |
380 | } | 531 | } |
381 | 532 | ||
382 | statement::condition statement::integrate(statement subStmt) | 533 | std::string statement::instantiateWith(std::string name) |
383 | { | 534 | { |
384 | for (auto& mapping : subStmt.tables_) | 535 | return name + "_tree_" + std::to_string(nextWithId_++); |
536 | } | ||
537 | |||
538 | /** | ||
539 | * This method integrates the parts of a recursively generated statement into | ||
540 | * this statement. This is used because filters are recursive objects, but | ||
541 | * statements need to be flat to be compiled into a SQL query. Thus, all CTEs | ||
542 | * have to be in the main statement, and all table mappings & joins that | ||
543 | * aren't part of a CTE have to be in the main statement as well. Finally, we | ||
544 | * need to copy up the next ID fields in order to properly prevent ID reuse. | ||
545 | */ | ||
546 | statement::condition statement::integrate(statement subStmt, bool cte) | ||
547 | { | ||
548 | if (!cte) | ||
385 | { | 549 | { |
386 | tables_[mapping.first] = mapping.second; | 550 | for (auto& mapping : subStmt.tables_) |
387 | } | 551 | { |
552 | tables_[mapping.first] = mapping.second; | ||
553 | } | ||
388 | 554 | ||
389 | for (auto& j : subStmt.joins_) | 555 | for (auto& j : subStmt.joins_) |
390 | { | 556 | { |
391 | joins_.push_back(j); | 557 | joins_.push_back(j); |
558 | } | ||
392 | } | 559 | } |
393 | 560 | ||
394 | for (auto& w : subStmt.withs_) | 561 | for (auto& w : subStmt.withs_) |
diff --git a/lib/statement.h b/lib/statement.h index a528d60..8188ec0 100644 --- a/lib/statement.h +++ b/lib/statement.h | |||
@@ -184,13 +184,15 @@ namespace verbly { | |||
184 | std::map<std::string, std::string> tables, | 184 | std::map<std::string, std::string> tables, |
185 | std::string topTable, | 185 | std::string topTable, |
186 | condition where, | 186 | condition where, |
187 | std::list<join> joins) : | 187 | std::list<join> joins, |
188 | bool recursive) : | ||
188 | identifier_(std::move(identifier)), | 189 | identifier_(std::move(identifier)), |
189 | field_(f), | 190 | field_(f), |
190 | tables_(std::move(tables)), | 191 | tables_(std::move(tables)), |
191 | topTable_(std::move(topTable)), | 192 | topTable_(std::move(topTable)), |
192 | topCondition_(std::move(where)), | 193 | topCondition_(std::move(where)), |
193 | joins_(std::move(joins)) | 194 | joins_(std::move(joins)), |
195 | recursive_(recursive) | ||
194 | { | 196 | { |
195 | } | 197 | } |
196 | 198 | ||
@@ -224,6 +226,11 @@ namespace verbly { | |||
224 | return joins_; | 226 | return joins_; |
225 | } | 227 | } |
226 | 228 | ||
229 | bool isRecursive() const | ||
230 | { | ||
231 | return recursive_; | ||
232 | } | ||
233 | |||
227 | private: | 234 | private: |
228 | std::string identifier_; | 235 | std::string identifier_; |
229 | field field_; | 236 | field field_; |
@@ -231,6 +238,7 @@ namespace verbly { | |||
231 | std::string topTable_; | 238 | std::string topTable_; |
232 | condition topCondition_; | 239 | condition topCondition_; |
233 | std::list<join> joins_; | 240 | std::list<join> joins_; |
241 | bool recursive_; | ||
234 | 242 | ||
235 | }; | 243 | }; |
236 | 244 | ||
@@ -254,7 +262,9 @@ namespace verbly { | |||
254 | 262 | ||
255 | std::string instantiateTable(std::string name); | 263 | std::string instantiateTable(std::string name); |
256 | 264 | ||
257 | condition integrate(statement subStmt); | 265 | std::string instantiateWith(std::string name); |
266 | |||
267 | condition integrate(statement subStmt, bool cte = false); | ||
258 | 268 | ||
259 | int nextTableId_; | 269 | int nextTableId_; |
260 | int nextWithId_; | 270 | int nextWithId_; |