libcm is a C development framework with an emphasis on audio signal processing applications.
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cmPrefs.c 44KB

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  1. #include "cmPrefix.h"
  2. #include "cmGlobal.h"
  3. #include "cmRpt.h"
  4. #include "cmErr.h"
  5. #include "cmCtx.h"
  6. #include "cmMem.h"
  7. #include "cmMallocDebug.h"
  8. #include "cmLinkedHeap.h"
  9. #include "cmFileSys.h"
  10. #include "cmText.h"
  11. #include "cmJson.h"
  12. #include "cmPrefs.h"
  13. cmPrH_t cmPrNullHandle = cmSTATIC_NULL_HANDLE;
  14. typedef struct cmPrCb_str
  15. {
  16. cmPrefsOnChangeFunc_t cbFunc;
  17. void* cbDataPtr;
  18. struct cmPrCb_str* linkPtr;
  19. } cmPrCb_t;
  20. // Link record used by cmPrNode_t to form the
  21. // path labels for each pref. node.
  22. typedef struct cmPrPath_str
  23. {
  24. const cmChar_t* label;
  25. struct cmPrPath_str* parentPtr;
  26. } cmPrPath_t;
  27. // Every pair in the prefs JSON tree is given a unique id.
  28. // The 'path' chain forms a path of pair labels which names the variable.
  29. typedef struct cmPrNode_str
  30. {
  31. unsigned id; // unique id assigned to this pref node
  32. cmJsonNode_t* nodePtr; // pointer to the JSON value for this pref node
  33. cmPrPath_t* pathPtr; // pointer to the path label chain for this node
  34. struct cmPrNode_str* linkPtr; // link used to form the pref. node chain
  35. } cmPrNode_t;
  36. typedef struct
  37. {
  38. cmErr_t err; //
  39. cmJsonH_t jsH; // json tree
  40. cmLHeapH_t lhH; // linked heap handle
  41. cmChar_t* fn; // default filename
  42. bool dirtyFl; //
  43. cmPrCb_t* cbChainPtr; // callback record linked list
  44. cmPrNode_t* idChainPtr; //
  45. unsigned id; // next JSON node id
  46. cmChar_t* pathBuf;
  47. cmChar_t* pathPrefixStr;
  48. } cmPr_t;
  49. cmPr_t* _cmPrefsHandleToPtr( cmPrH_t h )
  50. {
  51. assert(h.h != NULL);
  52. return (cmPr_t*)h.h;
  53. }
  54. cmPrNode_t* _cmPrefsIdToNodePtr( cmPr_t* p, unsigned id, bool reportErrFl )
  55. {
  56. if( id == cmInvalidId )
  57. {
  58. cmErrMsg(&p->err,kInvalidIdPrRC,"No preference variables can use the id:%i.",id);
  59. return NULL;
  60. }
  61. cmPrNode_t* np = p->idChainPtr;
  62. for(; np!=NULL; np=np->linkPtr)
  63. if( np->id == id )
  64. return np;
  65. if( reportErrFl )
  66. cmErrMsg(&p->err,kVarNotFoundPrRC,"The preference variable associated with id:%i does not exist.",id);
  67. return NULL;
  68. }
  69. unsigned _cmPrefsCalcNextAvailId( cmPr_t* p )
  70. {
  71. while( _cmPrefsIdToNodePtr( p, p->id, false) != NULL )
  72. ++p->id;
  73. return p->id;
  74. }
  75. cmPrNode_t* _cmPrefsCreateNode( cmPr_t* p, const cmJsonNode_t* jsPairNodePtr, cmPrPath_t* parentPathPtr )
  76. {
  77. assert( jsPairNodePtr->typeId == kPairTId );
  78. cmPrNode_t* np = cmLHeapAllocZ( p->lhH, sizeof(cmPrNode_t) );
  79. np->id = cmInvalidId;
  80. np->pathPtr = cmLHeapAllocZ( p->lhH, sizeof(cmPrPath_t) );
  81. np->pathPtr->label = jsPairNodePtr->u.childPtr->u.stringVal;
  82. np->pathPtr->parentPtr = parentPathPtr;
  83. np->nodePtr = jsPairNodePtr->u.childPtr->siblingPtr;
  84. np->linkPtr = p->idChainPtr;
  85. p->idChainPtr = np;
  86. // object and pair nodes cannot be returned as pref values - so do not give them id's
  87. if( cmJsonIsObject(np->nodePtr)==false && cmJsonIsPair(np->nodePtr)==false )
  88. np->id = _cmPrefsCalcNextAvailId(p);
  89. return np;
  90. }
  91. void _cmPrefsBuildIdList( cmPr_t* p, const cmJsonNode_t* jsnPtr, cmPrPath_t* parentPathPtr )
  92. {
  93. assert( jsnPtr != NULL );
  94. if( jsnPtr->typeId == kPairTId )
  95. {
  96. cmPrNode_t* np = _cmPrefsCreateNode(p,jsnPtr,parentPathPtr);
  97. _cmPrefsBuildIdList( p, jsnPtr->u.childPtr->siblingPtr, np->pathPtr );
  98. }
  99. else
  100. if( cmJsonChildCount(jsnPtr) )
  101. {
  102. const cmJsonNode_t* np = jsnPtr->u.childPtr;
  103. for(; np != NULL; np = np->siblingPtr )
  104. _cmPrefsBuildIdList(p,np,parentPathPtr);
  105. }
  106. }
  107. void _cmPrefsInstallCallback( cmPr_t* p, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr )
  108. {
  109. cmPrCb_t* nrp = cmLHeapAllocZ( p->lhH, sizeof(cmPrCb_t));
  110. nrp->cbFunc = cbFunc;
  111. nrp->cbDataPtr = cbDataPtr;
  112. cmPrCb_t* cp = p->cbChainPtr;
  113. // if the cb chain is empty ...
  114. if(cp == NULL)
  115. p->cbChainPtr = nrp;// ... make the new cb the first on the chain
  116. else
  117. {
  118. // ... otherwise add the new cb to the end of the cb chain
  119. while( cp->linkPtr != NULL )
  120. cp = cp->linkPtr;
  121. cp->linkPtr = nrp;
  122. }
  123. }
  124. cmPrRC_t _cmPrefsFinalize( cmPr_t* p )
  125. {
  126. cmPrRC_t rc = kOkPrRC;
  127. if( cmLHeapIsValid(p->lhH) )
  128. cmLHeapDestroy(&p->lhH);
  129. if( cmJsonIsValid(p->jsH) )
  130. if( cmJsonFinalize(&p->jsH) != kOkJsRC )
  131. rc = cmErrMsg(&p->err,kJsonFailPrRC,"JSON finalization failed.");
  132. cmMemPtrFree(&p->pathBuf);
  133. cmMemFree(p);
  134. return rc;
  135. }
  136. // Convert 'pathString' to a sequence of zero terminated sub-strings.
  137. // The character string returned from this function must be released with a
  138. // call to cmMemFree()
  139. cmChar_t* _cmPrefsCreatePathStr( cmPr_t* p, const cmChar_t* pathString, int* cnt )
  140. {
  141. assert( pathString != NULL );
  142. cmChar_t* pathStr;
  143. // duplicate the path string
  144. if( p->pathPrefixStr == NULL )
  145. pathStr = cmMemAllocStr(pathString);
  146. else
  147. pathStr = cmTsPrintfP(NULL,"%s/%s",p->pathPrefixStr,pathString);
  148. int i = 0;
  149. int n = 1;
  150. for(i=0; pathStr[i]; ++i)
  151. if( pathStr[i]=='/' )
  152. {
  153. pathStr[i] = 0;
  154. ++n;
  155. }
  156. *cnt = n;
  157. return pathStr;
  158. }
  159. unsigned _cmPrefsId( cmPr_t* p, const cmChar_t* pathStr, bool reportErrFl )
  160. {
  161. int n = 1;
  162. int i;
  163. unsigned retId = cmInvalidId;
  164. cmChar_t* path = _cmPrefsCreatePathStr(p,pathStr, &n );
  165. const cmChar_t* pathArray[n];
  166. const cmChar_t* cp = path;
  167. // store path parts in reverse order - because this
  168. // is the way the node sees the path
  169. for(i=n-1; i>=0; --i)
  170. {
  171. pathArray[i] = cp;
  172. cp += strlen(cp) + 1;
  173. }
  174. const cmPrNode_t* np = p->idChainPtr;
  175. // go down the id chain
  176. for(; retId==cmInvalidId && np != NULL; np=np->linkPtr)
  177. {
  178. unsigned i = 0;
  179. const cmPrPath_t* pp = np->pathPtr;
  180. // go down the path chain from leaf to root
  181. while( strcmp(pp->label,pathArray[i]) == 0 )
  182. {
  183. ++i;
  184. pp = pp->parentPtr;
  185. // if the match is complete
  186. if( i==n && pp==NULL)
  187. {
  188. retId = np->id;
  189. break;
  190. }
  191. }
  192. }
  193. if( retId==cmInvalidId && reportErrFl )
  194. cmErrMsg(&p->err,kVarNotFoundPrRC,"The preference variable '%s' was not found.",pathStr);
  195. cmMemFree(path);
  196. return retId;
  197. }
  198. cmPrNode_t* _cmPrefsPathToNodePtr( cmPr_t* p, const cmChar_t* pathStr, bool reportErrFl )
  199. {
  200. unsigned id;
  201. if((id = _cmPrefsId(p,pathStr,reportErrFl)) == cmInvalidId )
  202. return NULL;
  203. return _cmPrefsIdToNodePtr(p,id, reportErrFl);
  204. }
  205. cmPrRC_t cmPrefsInit( cmCtx_t* ctx, cmPrH_t* prefsH, const cmChar_t* fnName, const cmChar_t* fnExt, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr, const cmChar_t* pathPrefixStr )
  206. {
  207. cmPrRC_t rc = kOkPrRC;
  208. const cmChar_t* prefsDir = cmFsPrefsDir();
  209. const cmChar_t* prefsFn = NULL;
  210. if( fnName == NULL )
  211. fnName = cmFsAppName();
  212. if( fnExt == NULL )
  213. fnExt = ".js";
  214. // if the prefs directory does not exist then create it
  215. if( cmFsIsDir(prefsDir) == false )
  216. {
  217. if( cmFsMkDir(prefsDir) != kOkFsRC )
  218. {
  219. rc = cmErrMsg(&ctx->err,kFileSysFailPrRC,"The preference directory '%s' could not be created.",prefsDir);
  220. goto errLabel;
  221. }
  222. }
  223. // create the preference file name
  224. if((prefsFn = cmFsMakeFn( prefsDir, fnName, fnExt, NULL )) == NULL )
  225. {
  226. rc = cmErrMsg(&ctx->err,kFileSysFailPrRC,"The preference file name could not be formed.");
  227. goto errLabel;
  228. }
  229. // initialize the preference manager
  230. rc = cmPrefsInitialize(ctx,prefsH,prefsFn,cbFunc,cbDataPtr,pathPrefixStr);
  231. errLabel:
  232. return rc;
  233. }
  234. cmPrRC_t cmPrefsInitialize( cmCtx_t* ctx, cmPrH_t* hp, const cmChar_t* fn, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr, const cmChar_t* pathPrefixStr )
  235. {
  236. cmPrRC_t rc = kOkPrRC;
  237. if((rc = cmPrefsFinalize(hp)) != kOkPrRC)
  238. return rc;
  239. cmPr_t* p = cmMemAllocZ( cmPr_t, 1 );
  240. cmErrSetup(&p->err,&ctx->rpt,"Preferences");
  241. // initialize a linked heap
  242. if( cmLHeapIsValid(p->lhH = cmLHeapCreate(1024,ctx))==false )
  243. {
  244. rc = cmErrMsg(&p->err,kLHeapFailPrRC,"Linked heap initialization failed.");
  245. goto errLabel;
  246. }
  247. // if the preference file exists
  248. if( cmFsIsFile(fn) )
  249. {
  250. // initialize the JSON tree from the preferences file
  251. if( cmJsonInitializeFromFile( &p->jsH, fn, ctx ) != kOkJsRC )
  252. {
  253. rc = cmErrMsg(&p->err,kJsonFailPrRC,"Preferences initialization failed on JSON initialization.");
  254. goto errLabel;
  255. }
  256. // build the id list
  257. _cmPrefsBuildIdList(p, cmJsonRoot(p->jsH), NULL );
  258. }
  259. else // otherwise create an empty JSON tree
  260. {
  261. if( cmJsonInitialize( &p->jsH, ctx ) != kOkJsRC )
  262. {
  263. rc = cmErrMsg(&p->err,kJsonFailPrRC,"An empty JSON tree could not be created.");
  264. goto errLabel;
  265. }
  266. if( cmJsonCreateObject( p->jsH, NULL ) == NULL )
  267. {
  268. rc = cmErrMsg(&p->err,kJsonFailPrRC,"The JSON root object could not be created.");
  269. goto errLabel;
  270. }
  271. }
  272. // install the callback function
  273. if( cbFunc != NULL )
  274. _cmPrefsInstallCallback(p,cbFunc,cbDataPtr);
  275. p->fn = cmLhAllocStr( p->lhH, fn );
  276. p->id = kMaxVarPrId;
  277. if( pathPrefixStr!=NULL && strlen(pathPrefixStr)>0 )
  278. p->pathPrefixStr = cmLhAllocStr(p->lhH, pathPrefixStr );
  279. hp->h = p;
  280. errLabel:
  281. if( rc != kOkPrRC )
  282. {
  283. _cmPrefsFinalize(p);
  284. hp-> h = NULL;
  285. }
  286. return rc;
  287. }
  288. cmPrRC_t cmPrefsFinalize( cmPrH_t* hp )
  289. {
  290. cmPrRC_t rc = kOkPrRC;
  291. if( hp==NULL || hp->h == NULL )
  292. return kOkPrRC;
  293. if((rc = _cmPrefsFinalize( _cmPrefsHandleToPtr(*hp))) == kOkPrRC )
  294. return rc;
  295. hp->h = NULL;
  296. return rc;
  297. }
  298. bool cmPrefsIsValid( cmPrH_t h )
  299. { return h.h != NULL; }
  300. const cmChar_t* cmPrefsFileName( cmPrH_t h )
  301. {
  302. cmPr_t* p = _cmPrefsHandleToPtr(h);
  303. return p->fn;
  304. }
  305. cmPrRC_t cmPrefsRC( cmPrH_t h)
  306. { return cmErrLastRC(&_cmPrefsHandleToPtr(h)->err); }
  307. cmPrRC_t cmPrefsSetRC( cmPrH_t h, cmPrRC_t rc )
  308. { return cmErrSetRC(&_cmPrefsHandleToPtr(h)->err,rc); }
  309. cmPrRC_t cmPrefsInstallCallback( cmPrH_t h, cmPrefsOnChangeFunc_t cbFunc, void* cbDataPtr )
  310. {
  311. cmPr_t* p = _cmPrefsHandleToPtr(h);
  312. _cmPrefsInstallCallback(p,cbFunc,cbDataPtr);
  313. return kOkPrRC;
  314. }
  315. cmPrRC_t cmPrefsRemoveCallback( cmPrH_t h, cmPrefsOnChangeFunc_t cbFunc )
  316. {
  317. cmPr_t* p = _cmPrefsHandleToPtr(h);
  318. cmPrCb_t* cc = p->cbChainPtr;
  319. cmPrCb_t* pc = NULL;
  320. while( cc == NULL )
  321. {
  322. if( cc->cbFunc == cbFunc )
  323. {
  324. if( pc == NULL )
  325. p->cbChainPtr = cc->linkPtr;
  326. else
  327. pc->linkPtr = cc->linkPtr;
  328. break;
  329. }
  330. pc = cc;
  331. cc = cc->linkPtr;
  332. }
  333. if( cc == NULL )
  334. return cmErrMsg(&p->err,kCbNotFoundPrRC,"The callback function %p could not be found.",cbFunc);
  335. return kOkPrRC;
  336. }
  337. unsigned cmPrefsId( cmPrH_t h, const cmChar_t* pathStr, bool reportErrFl )
  338. {
  339. cmPr_t* p = _cmPrefsHandleToPtr(h);
  340. return _cmPrefsId(p,pathStr,reportErrFl);
  341. }
  342. unsigned cmPrefsEleCount( cmPrH_t h, unsigned id )
  343. {
  344. cmPr_t* p = _cmPrefsHandleToPtr(h);
  345. cmPrNode_t* np = _cmPrefsIdToNodePtr(p,id,true);
  346. if( np == NULL )
  347. return -1;
  348. if( cmJsonIsArray(np->nodePtr) )
  349. return cmJsonChildCount(np->nodePtr);
  350. return 1;
  351. }
  352. void _cmPrefsFormPath( cmPr_t* p, const cmPrNode_t* np )
  353. {
  354. cmPrPath_t* pp = np->pathPtr;
  355. int n = 0;
  356. for(; pp!=NULL; pp=pp->parentPtr)
  357. ++n;
  358. const char* pathArray[n];
  359. unsigned i = n-1;
  360. for(pp = np->pathPtr; pp!=NULL; pp=pp->parentPtr,--i)
  361. pathArray[i] = pp->label;
  362. cmMemPtrFree(&p->pathBuf);
  363. for(i=0; i<n; ++i)
  364. {
  365. if( i > 0 )
  366. p->pathBuf = cmTextAppendSS(p->pathBuf,"/");
  367. p->pathBuf = cmTextAppendSS(p->pathBuf,pathArray[i]);
  368. }
  369. }
  370. cmPrRC_t _cmPrefsValue( cmPr_t* p, const cmPrNode_t* np, const cmJsonNode_t* jnp, bool* bvp, int* ivp, double* rvp, const cmChar_t** svp, unsigned retEleCnt )
  371. {
  372. cmJsRC_t jsRC = kOkJsRC;
  373. const char* typeLabel = NULL;
  374. // verify that adequate return space was provided
  375. if( retEleCnt < 1 )
  376. {
  377. _cmPrefsFormPath(p,np);
  378. return cmErrMsg(&p->err,kBufTooSmallPrRC,"No return space was provided for the preference variable '%s' (id:%i).",p->pathBuf,np->id);
  379. }
  380. if( bvp != NULL )
  381. {
  382. jsRC = cmJsonBoolValue(jnp,bvp);
  383. typeLabel = "bool";
  384. }
  385. else
  386. if( ivp != NULL )
  387. {
  388. jsRC = cmJsonIntValue(jnp,ivp);
  389. typeLabel = "int";
  390. }
  391. else
  392. if( rvp != NULL )
  393. {
  394. jsRC = cmJsonRealValue(jnp,rvp);
  395. typeLabel = "real";
  396. }
  397. else
  398. if( svp != NULL )
  399. {
  400. jsRC = cmJsonStringValue(jnp,svp);
  401. typeLabel = "string";
  402. }
  403. else
  404. {
  405. assert(0);
  406. }
  407. if( jsRC != kOkJsRC )
  408. {
  409. _cmPrefsFormPath(p,np);
  410. return cmErrMsg(&p->err,kCvtErrPrRC,"The perferences variable '%s' (id:%i) could not be converted to type '%s'.",p->pathBuf,np->id,typeLabel);
  411. }
  412. return kOkPrRC;
  413. }
  414. cmPrRC_t _cmPrefsGetValue( cmPrH_t h, unsigned id, bool* bvp, int* ivp, double* rvp, const cmChar_t** svp, unsigned* eleCntPtr, unsigned eleIdx )
  415. {
  416. cmPrRC_t rc = kOkPrRC;
  417. cmPr_t* p = _cmPrefsHandleToPtr(h);
  418. cmPrNode_t* np = NULL;
  419. // if no return buffer was given - do nothing
  420. if( *eleCntPtr == 0 )
  421. return kOkPrRC;
  422. // locate the pref node from 'id'
  423. if((np = _cmPrefsIdToNodePtr(p,id,true)) == NULL )
  424. {
  425. rc = cmErrMsg(&p->err,kVarNotFoundPrRC,"No preference variable was found for id:%i.",id);
  426. goto errLabel;
  427. }
  428. // if the requested pref. var is a scalar
  429. if( cmJsonIsArray(np->nodePtr) == false )
  430. {
  431. if((rc = _cmPrefsValue(p,np,np->nodePtr,bvp,ivp,rvp,svp,*eleCntPtr)) == kOkPrRC )
  432. *eleCntPtr = 1;
  433. }
  434. else // the request pref. var. is an array
  435. {
  436. unsigned i = 0;
  437. unsigned n = cmJsonChildCount(np->nodePtr);
  438. // if the entire array was requestedd
  439. if( eleIdx == cmInvalidIdx )
  440. {
  441. // if the return buffer is too small to hold all of the values.
  442. if( *eleCntPtr < n )
  443. {
  444. *eleCntPtr = 0;
  445. _cmPrefsFormPath(p,np);
  446. rc = cmErrMsg(&p->err,kBufTooSmallPrRC,"The return array for the preference variable '%s' (id:%i) is too small to hold '%i elements",p->pathBuf,np->id,n);
  447. goto errLabel;
  448. }
  449. // read each element
  450. for(i=0; i<n; ++i)
  451. {
  452. const cmJsonNode_t* cnp = cmJsonArrayElement(np->nodePtr,i);
  453. if((rc= _cmPrefsValue(p,np,cnp,bvp==NULL?NULL:bvp+i,ivp==NULL?NULL:ivp+i,rvp==NULL?NULL:rvp+i,svp==NULL?NULL:svp+i,1)) != kOkPrRC )
  454. goto errLabel;
  455. }
  456. *eleCntPtr = n;
  457. }
  458. else // a single ele of the array was requested
  459. {
  460. // validate the index
  461. if( eleIdx >= n )
  462. {
  463. _cmPrefsFormPath(p,np);
  464. rc = cmErrMsg(&p->err,kInvalidIndexPrRC,"The index %i is invalid for the variable '%s' of length %i.",eleIdx,p->pathBuf,n);
  465. goto errLabel;
  466. }
  467. // get the json element at array index 'eleIdx'
  468. const cmJsonNode_t* cnp = cmJsonArrayElement(np->nodePtr,eleIdx);
  469. assert(cnp != NULL );
  470. // read the element from the array
  471. if((rc = _cmPrefsValue(p,np,cnp,bvp,ivp,rvp,svp,*eleCntPtr)) == kOkPrRC )
  472. *eleCntPtr = 1;
  473. }
  474. }
  475. errLabel:
  476. if( rc != kOkPrRC )
  477. *eleCntPtr = 0;
  478. return rc;
  479. }
  480. cmPrRC_t cmPrefsGetBool( cmPrH_t h, unsigned id, bool* vp, unsigned* eleCntPtr )
  481. { return _cmPrefsGetValue(h, id, vp, NULL, NULL, NULL, eleCntPtr, cmInvalidIdx ); }
  482. cmPrRC_t cmPrefsGetInt( cmPrH_t h, unsigned id, int* vp, unsigned* eleCntPtr )
  483. { return _cmPrefsGetValue(h, id, NULL, vp, NULL, NULL, eleCntPtr, cmInvalidIdx ); }
  484. cmPrRC_t cmPrefsGetReal( cmPrH_t h, unsigned id, double* vp, unsigned* eleCntPtr )
  485. { return _cmPrefsGetValue(h, id, NULL, NULL, vp, NULL, eleCntPtr, cmInvalidIdx ); }
  486. cmPrRC_t cmPrefsGetString( cmPrH_t h, unsigned id, const cmChar_t** vp, unsigned* eleCntPtr )
  487. { return _cmPrefsGetValue(h, id, NULL, NULL, NULL, vp, eleCntPtr, cmInvalidIdx ); }
  488. bool cmPrefsBool( cmPrH_t h, unsigned id )
  489. {
  490. bool v = false;
  491. unsigned n = 1;
  492. cmPrefsGetBool(h,id,&v,&n);
  493. return v;
  494. }
  495. unsigned cmPrefsUInt( cmPrH_t h, unsigned id )
  496. {
  497. int v = 0;
  498. unsigned n = 1;
  499. cmPrefsGetInt(h,id,&v,&n);
  500. return (unsigned)v;
  501. }
  502. int cmPrefsInt( cmPrH_t h, unsigned id )
  503. {
  504. int v = 0;
  505. unsigned n = 1;
  506. cmPrefsGetInt(h,id,&v,&n);
  507. return v;
  508. }
  509. float cmPrefsFloat( cmPrH_t h, unsigned id )
  510. {
  511. double v = 0;
  512. unsigned n = 1;
  513. cmPrefsGetReal(h,id,&v,&n);
  514. return (float)v;
  515. }
  516. double cmPrefsReal( cmPrH_t h, unsigned id )
  517. {
  518. double v = 0;
  519. unsigned n = 1;
  520. cmPrefsGetReal(h,id,&v,&n);
  521. return v;
  522. }
  523. const cmChar_t* cmPrefsString( cmPrH_t h, unsigned id )
  524. {
  525. const cmChar_t* v = NULL;
  526. unsigned n = 1;
  527. if( cmPrefsGetString(h,id,&v,&n) == kOkPrRC )
  528. return v==NULL ? "" : v;
  529. return "";
  530. }
  531. bool cmPrefsBoolDef( cmPrH_t h, const cmChar_t* pathStr, bool dfltVal )
  532. {
  533. unsigned id;
  534. if( cmPrefsIsValid(h)==false || (id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  535. return dfltVal;
  536. return cmPrefsBool(h,id);
  537. }
  538. unsigned cmPrefsUIntDef( cmPrH_t h, const cmChar_t* pathStr, unsigned dfltVal )
  539. {
  540. unsigned id;
  541. if( cmPrefsIsValid(h)==false || (id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  542. return dfltVal;
  543. return cmPrefsUInt(h,id);
  544. }
  545. int cmPrefsIntDef( cmPrH_t h, const cmChar_t* pathStr, int dfltVal )
  546. {
  547. unsigned id;
  548. if( cmPrefsIsValid(h)==false || (id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  549. return dfltVal;
  550. return cmPrefsInt(h,id);
  551. }
  552. float cmPrefsFloatDef( cmPrH_t h, const cmChar_t* pathStr, float dfltVal )
  553. {
  554. unsigned id;
  555. if( cmPrefsIsValid(h)==false || (id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  556. return dfltVal;
  557. return cmPrefsFloat(h,id);
  558. }
  559. double cmPrefsRealDef( cmPrH_t h, const cmChar_t* pathStr, double dfltVal )
  560. {
  561. unsigned id;
  562. if( cmPrefsIsValid(h)==false || (id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  563. return dfltVal;
  564. return cmPrefsReal(h,id);
  565. }
  566. const cmChar_t* cmPrefsStringDef( cmPrH_t h, const cmChar_t* pathStr, const cmChar_t* dfltVal )
  567. {
  568. unsigned id;
  569. if( cmPrefsIsValid(h)==false || (id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  570. return dfltVal;
  571. const cmChar_t* v = cmPrefsString(h,id);
  572. return v==NULL || strlen(v)==0 ? dfltVal : v;
  573. }
  574. cmPrRC_t cmPrefsBoolRc( cmPrH_t h, const cmChar_t* pathStr, bool* retValPtr )
  575. {
  576. unsigned id;
  577. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  578. return kVarNotFoundPrRC;
  579. unsigned n = 1;
  580. return cmPrefsGetBool(h,id,retValPtr,&n);
  581. }
  582. cmPrRC_t cmPrefsUIntRc( cmPrH_t h, const cmChar_t* pathStr, unsigned* retValPtr )
  583. {
  584. unsigned id;
  585. unsigned n = 1;
  586. int v;
  587. cmPrRC_t rc;
  588. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  589. return kVarNotFoundPrRC;
  590. if((rc =cmPrefsGetInt(h,id,&v,&n)) == kOkPrRC )
  591. *retValPtr = v;
  592. return rc;
  593. }
  594. cmPrRC_t cmPrefsIntRc( cmPrH_t h, const cmChar_t* pathStr, int* retValPtr )
  595. {
  596. unsigned id;
  597. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  598. return kVarNotFoundPrRC;
  599. unsigned n = 1;
  600. return cmPrefsGetInt(h,id,retValPtr,&n);
  601. }
  602. cmPrRC_t cmPrefsFloatRc( cmPrH_t h, const cmChar_t* pathStr, float* retValPtr )
  603. {
  604. unsigned id;
  605. unsigned n = 1;
  606. double v;
  607. cmPrRC_t rc;
  608. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  609. return kVarNotFoundPrRC;
  610. if((rc =cmPrefsGetReal(h,id,&v,&n)) == kOkPrRC )
  611. *retValPtr = v;
  612. return rc;
  613. }
  614. cmPrRC_t cmPrefsRealRc( cmPrH_t h, const cmChar_t* pathStr, double* retValPtr )
  615. {
  616. unsigned id;
  617. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  618. return kVarNotFoundPrRC;
  619. unsigned n = 1;
  620. return cmPrefsGetReal(h,id,retValPtr,&n);
  621. }
  622. cmPrRC_t cmPrefsStringRc( cmPrH_t h, const cmChar_t* pathStr, const cmChar_t** retValPtr )
  623. {
  624. unsigned id;
  625. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  626. return kVarNotFoundPrRC;
  627. unsigned n = 1;
  628. return cmPrefsGetString(h,id,retValPtr,&n);
  629. }
  630. unsigned cmPrefsArrayElementCount( cmPrH_t h, unsigned id )
  631. {
  632. cmPrNode_t* np;
  633. cmPr_t* p = _cmPrefsHandleToPtr(h);
  634. // locate the pref node from 'id'
  635. if((np = _cmPrefsIdToNodePtr(p,id,true)) == NULL )
  636. {
  637. cmErrMsg(&p->err,kVarNotFoundPrRC,"No preference variable was found for id:%i.",id);
  638. return cmInvalidCnt;
  639. }
  640. // if the requested pref. var is a scalar
  641. if( cmJsonIsArray(np->nodePtr) )
  642. return cmJsonChildCount(np->nodePtr);
  643. return 0;
  644. }
  645. bool cmPrefsBoolEle( cmPrH_t h, unsigned id, unsigned idx )
  646. {
  647. bool v = false;;
  648. unsigned n = 1;
  649. _cmPrefsGetValue(h,id, &v, NULL, NULL, NULL, &n, idx );
  650. return v;
  651. }
  652. unsigned cmPrefsUIntEle( cmPrH_t h, unsigned id, unsigned idx )
  653. {
  654. int v = 0;
  655. unsigned n = 1;
  656. _cmPrefsGetValue(h,id, NULL, &v, NULL, NULL, &n, idx );
  657. return (unsigned)v;
  658. }
  659. int cmPrefsIntEle( cmPrH_t h, unsigned id, unsigned idx )
  660. {
  661. int v = 0;
  662. unsigned n = 1;
  663. _cmPrefsGetValue(h,id, NULL, &v, NULL, NULL, &n, idx );
  664. return v;
  665. }
  666. float cmPrefsFloatEle( cmPrH_t h, unsigned id, unsigned idx )
  667. {
  668. double v = 0;
  669. unsigned n = 1;
  670. _cmPrefsGetValue(h,id, NULL, NULL, &v, NULL, &n, idx );
  671. return (float)v;
  672. }
  673. double cmPrefsRealEle( cmPrH_t h, unsigned id, unsigned idx )
  674. {
  675. double v = 0;
  676. unsigned n = 1;
  677. _cmPrefsGetValue(h,id, NULL, NULL, &v, NULL, &n, idx );
  678. return v;
  679. }
  680. const cmChar_t* cmPrefsStringEle( cmPrH_t h, unsigned id, unsigned idx )
  681. {
  682. const cmChar_t* v = "";
  683. unsigned n = 1;
  684. if( _cmPrefsGetValue(h,id, NULL, NULL, NULL, &v, &n, idx ) == kOkPrRC )
  685. return v;
  686. return "";
  687. }
  688. cmPrRC_t _cmPrefsSetValue( cmPr_t* p, cmPrNode_t* np, cmJsonNode_t* jnp,const bool* bvp, const int* ivp, const double* rvp, const cmChar_t** svp, bool* deltaFlPtr )
  689. {
  690. cmJsRC_t jsRC = kOkJsRC;
  691. //const cmChar_t* typeLabel;
  692. if( bvp != NULL )
  693. {
  694. bool v;
  695. if((jsRC = cmJsonBoolValue(jnp,&v)) == kOkJsRC )
  696. if( (*deltaFlPtr = (v != *bvp)) )
  697. jsRC = cmJsonSetBool(p->jsH,jnp,*bvp);
  698. //typeLabel = "bool";
  699. }
  700. else
  701. if( ivp != NULL )
  702. {
  703. int v;
  704. if((jsRC = cmJsonIntValue(jnp,&v)) == kOkJsRC )
  705. if( (*deltaFlPtr = (v != *ivp)) )
  706. jsRC = cmJsonSetInt(p->jsH,jnp,*ivp);
  707. //typeLabel = "int";
  708. }
  709. else
  710. if( rvp != NULL )
  711. {
  712. double v;
  713. if((jsRC = cmJsonRealValue(jnp,&v)) == kOkJsRC )
  714. if( (*deltaFlPtr = (v != *rvp)) )
  715. jsRC = cmJsonSetReal(p->jsH,jnp,*rvp);
  716. //typeLabel = "real";
  717. }
  718. else
  719. if( svp != NULL )
  720. {
  721. const cmChar_t* v;
  722. if((jsRC = cmJsonStringValue(jnp,&v)) == kOkJsRC )
  723. {
  724. const cmChar_t* s0 = v ==NULL ? "" : v;
  725. const cmChar_t* s1 = *svp==NULL ? "" : *svp;
  726. if( (*deltaFlPtr = (strcmp(s0,s1)!=0)) )
  727. jsRC = cmJsonSetString(p->jsH,jnp,s1);
  728. }
  729. //typeLabel = "string";
  730. }
  731. else
  732. {
  733. assert(0);
  734. }
  735. if( jsRC != kOkJsRC )
  736. {
  737. _cmPrefsFormPath(p,np);
  738. return cmErrMsg(&p->err,kCvtErrPrRC,"The perferences variable '%s' (id:%i) could not be set.",p->pathBuf,np->id);
  739. }
  740. return kOkPrRC;
  741. }
  742. void _cmPrefsCallback( cmPr_t* p, unsigned id )
  743. {
  744. // notify any listeners that a node has changed values
  745. cmPrCb_t* cbNodePtr = p->cbChainPtr;
  746. for(; cbNodePtr!=NULL; cbNodePtr=cbNodePtr->linkPtr)
  747. {
  748. cmPrH_t h;
  749. h.h = p;
  750. cbNodePtr->cbFunc(h,cbNodePtr->cbDataPtr,id);
  751. }
  752. }
  753. cmPrRC_t _cmPrefsSetValues2( cmPr_t* p, cmPrNode_t* np, const bool* bvp, const int* ivp, const double* rvp, const cmChar_t** svp, const unsigned* eleCntPtr )
  754. {
  755. cmPrRC_t rc = kOkPrRC;
  756. bool deltaFl = false; // set to true if the value of the pref. var. identified by 'id' actually changes.
  757. // a scalar has been passed in and the existing json node is also a scalar
  758. if( cmJsonIsArray(np->nodePtr)== false && *eleCntPtr==1 )
  759. {
  760. rc = _cmPrefsSetValue(p,np,np->nodePtr,bvp,ivp,rvp,svp,&deltaFl);
  761. goto errLabel;
  762. }
  763. // the pref. variable is an array
  764. if( cmJsonIsArray(np->nodePtr) )
  765. {
  766. unsigned i;
  767. unsigned curArrCnt = cmJsonChildCount(np->nodePtr);
  768. unsigned n = cmMin(*eleCntPtr,curArrCnt);
  769. for(i=0; i<n; ++i)
  770. {
  771. cmJsonNode_t* jnp = cmJsonArrayElement(np->nodePtr,i);
  772. bool dfl = false;
  773. if((rc = _cmPrefsSetValue(p,np,jnp,bvp==NULL?NULL:bvp+i,ivp==NULL?NULL:ivp+i,rvp==NULL?NULL:rvp+i,svp==NULL?NULL:svp+i,&dfl)) != kOkPrRC )
  774. return rc;
  775. if( dfl )
  776. deltaFl = true;
  777. }
  778. // if elements should be removed
  779. if( curArrCnt > *eleCntPtr )
  780. {
  781. deltaFl = true; // ele's are being removed so the variable value is changing
  782. for(i=*eleCntPtr; i<curArrCnt; ++i)
  783. {
  784. cmJsonNode_t* jnp = cmJsonArrayElement(np->nodePtr,*eleCntPtr);
  785. assert(jnp!=NULL);
  786. cmJsonRemoveNode(p->jsH,jnp,true);
  787. }
  788. }
  789. // if elements should be added
  790. if( *eleCntPtr > curArrCnt )
  791. {
  792. unsigned typeId = cmInvalidId;
  793. cmJsonNode_t* jnp = NULL;
  794. cmJsonNode_t* snp = curArrCnt==0 ? NULL : cmJsonArrayElement(np->nodePtr,curArrCnt-1);
  795. assert(snp->ownerPtr==np->nodePtr && snp->siblingPtr==NULL);
  796. deltaFl = true; // ele's are being added so the variable value is changing
  797. if( ivp != NULL )
  798. typeId = kIntTId;
  799. else
  800. if( rvp != NULL )
  801. typeId = kRealTId;
  802. else
  803. if( svp != NULL )
  804. typeId = kStringTId;
  805. // for each new array element
  806. for(; i<*eleCntPtr; ++i)
  807. {
  808. if( bvp != NULL )
  809. typeId = bvp[i];
  810. // create the new array element node - the new node is automatically added to the end of the array
  811. if( cmJsonCreate(p->jsH, np->nodePtr, typeId, svp==NULL?NULL:svp[i], ivp==NULL?0:ivp[i], rvp==NULL?0:rvp[i], &jnp ) != kOkJsRC )
  812. {
  813. _cmPrefsFormPath(p,np);
  814. return cmErrMsg(&p->err,kJsonFailPrRC,"Unable to create a value node for '%s' (id=%i).",p->pathBuf,np->id);
  815. }
  816. }
  817. }
  818. errLabel:
  819. if( (rc == kOkPrRC) && deltaFl )
  820. {
  821. _cmPrefsCallback(p, np->id );
  822. // update the global delta flag
  823. p->dirtyFl = true;
  824. }
  825. return rc;
  826. }
  827. _cmPrefsFormPath(p,np);
  828. return cmErrMsg(&p->err,kCvtErrPrRC,"The new preference value could not be converted to the existing preference variable type for '%s' (id=%i).",p->pathBuf,np->id);
  829. }
  830. cmPrRC_t _cmPrefsSetValues( cmPrH_t h, unsigned id, const bool* bvp, const int* ivp, const double* rvp, const cmChar_t** svp, const unsigned* eleCntPtr )
  831. {
  832. cmPr_t* p = _cmPrefsHandleToPtr(h);
  833. cmPrNode_t* np;
  834. // locate the pref node
  835. if((np = _cmPrefsIdToNodePtr(p,id,true)) == NULL )
  836. return cmErrMsg(&p->err,kVarNotFoundPrRC,"The variable with id=%i was not found.",id);
  837. return _cmPrefsSetValues2( p, np, bvp, ivp, rvp, svp, eleCntPtr );
  838. }
  839. cmPrRC_t cmPrefsSetBoolArray( cmPrH_t h, unsigned id, const bool* vp, const unsigned* eleCntPtr )
  840. { return _cmPrefsSetValues(h, id, vp, NULL, NULL, NULL, eleCntPtr ); }
  841. cmPrRC_t cmPrefsSetIntArray( cmPrH_t h, unsigned id, const int* vp, const unsigned* eleCntPtr )
  842. { return _cmPrefsSetValues(h, id, NULL, vp, NULL, NULL, eleCntPtr ); }
  843. cmPrRC_t cmPrefsSetRealArray( cmPrH_t h, unsigned id, const double* vp, const unsigned* eleCntPtr )
  844. { return _cmPrefsSetValues(h, id, NULL, NULL, vp, NULL, eleCntPtr ); }
  845. cmPrRC_t cmPrefsSetStringArray( cmPrH_t h, unsigned id, const cmChar_t** vp, const unsigned* eleCntPtr )
  846. { return _cmPrefsSetValues(h, id, NULL, NULL, NULL, vp, eleCntPtr ); }
  847. cmPrRC_t cmPrefsSetBool( cmPrH_t h, unsigned id, bool val )
  848. {
  849. unsigned n = 1;
  850. return cmPrefsSetBoolArray(h,id,&val,&n);
  851. }
  852. cmPrRC_t cmPrefsSetUInt( cmPrH_t h, unsigned id, unsigned val )
  853. {
  854. unsigned n = 1;
  855. int ival = (int)val;
  856. return cmPrefsSetIntArray(h,id,&ival,&n);
  857. }
  858. cmPrRC_t cmPrefsSetInt( cmPrH_t h, unsigned id, int val )
  859. {
  860. unsigned n = 1;
  861. return cmPrefsSetIntArray(h,id,&val,&n);
  862. }
  863. cmPrRC_t cmPrefsSetFloat( cmPrH_t h, unsigned id, float val )
  864. {
  865. unsigned n = 1;
  866. double dval = val;
  867. return cmPrefsSetRealArray(h,id,&dval,&n);
  868. }
  869. cmPrRC_t cmPrefsSetReal( cmPrH_t h, unsigned id, double val )
  870. {
  871. unsigned n = 1;
  872. return cmPrefsSetRealArray(h,id,&val,&n);
  873. }
  874. cmPrRC_t cmPrefsSetString( cmPrH_t h, unsigned id, const cmChar_t* val )
  875. {
  876. unsigned n = 1;
  877. return cmPrefsSetStringArray(h,id,&val,&n);
  878. }
  879. cmPrRC_t cmPrefsPathSetBool( cmPrH_t h, const cmChar_t* pathStr, bool val )
  880. {
  881. unsigned id;
  882. unsigned n = 1;
  883. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  884. return kVarNotFoundPrRC;
  885. return cmPrefsSetBoolArray(h,id,&val,&n);
  886. }
  887. cmPrRC_t cmPrefsPathSetUInt( cmPrH_t h, const cmChar_t* pathStr, unsigned val )
  888. {
  889. unsigned id;
  890. unsigned n = 1;
  891. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  892. return kVarNotFoundPrRC;
  893. int ival = (int)val;
  894. return cmPrefsSetIntArray(h,id,&ival,&n);
  895. }
  896. cmPrRC_t cmPrefsPathSetInt( cmPrH_t h, const cmChar_t* pathStr, int val )
  897. {
  898. unsigned id;
  899. unsigned n = 1;
  900. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  901. return kVarNotFoundPrRC;
  902. return cmPrefsSetIntArray(h,id,&val,&n);
  903. }
  904. cmPrRC_t cmPrefsPathSetFloat( cmPrH_t h, const cmChar_t* pathStr, float val )
  905. {
  906. unsigned id;
  907. unsigned n = 1;
  908. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  909. return kVarNotFoundPrRC;
  910. double dval = val;
  911. return cmPrefsSetRealArray(h,id,&dval,&n);
  912. }
  913. cmPrRC_t cmPrefsPathSetReal( cmPrH_t h, const cmChar_t* pathStr, double val )
  914. {
  915. unsigned id;
  916. unsigned n = 1;
  917. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  918. return kVarNotFoundPrRC;
  919. return cmPrefsSetRealArray(h,id,&val,&n);
  920. }
  921. cmPrRC_t cmPrefsPathSetString( cmPrH_t h, const cmChar_t* pathStr, const cmChar_t* val )
  922. {
  923. unsigned id;
  924. unsigned n = 1;
  925. if((id = cmPrefsId(h,pathStr,true)) == cmInvalidId )
  926. return kVarNotFoundPrRC;
  927. return cmPrefsSetStringArray(h,id,&val,&n);
  928. }
  929. bool _cmPrefsValidateNodeType( cmJsonNode_t* np, unsigned jsTypeId, unsigned valCnt )
  930. {
  931. // if we are looking for a scalar node then the type must be jsTypeId
  932. if( valCnt == 1 )
  933. return np->typeId == jsTypeId;
  934. // if we are looking for an array node then the type must be kArrayTId ...
  935. if( np->typeId != kArrayTId )
  936. return false;
  937. unsigned n = cmJsonChildCount(np);
  938. unsigned i = 0;
  939. // ... and all of the array elements must be of type jsTypeId
  940. for(; i<n; ++i)
  941. {
  942. const cmJsonNode_t* cnp = cmJsonArrayElementC(np,i);
  943. assert( cnp != NULL );
  944. if( cnp->typeId != jsTypeId )
  945. return false;
  946. }
  947. return true;
  948. }
  949. //
  950. cmPrRC_t _cmPrefsCreateJsonNode(
  951. cmPr_t* p,
  952. unsigned id, // new variable id
  953. const cmChar_t* pathString, // new variable name
  954. unsigned jsTypeId, // type of new variable
  955. const cmChar_t** strVal, // value of new variable
  956. const double* realVal, //
  957. const int* intVal, //
  958. const bool* boolVal, //
  959. unsigned valCnt, // length of xxxVal[]
  960. bool setFlag ) // true== if same named variable already exists then set the value to xxxVal
  961. {
  962. cmPrRC_t rc = kOkPrRC;
  963. int pathCnt = 0;
  964. cmChar_t* pathStr = _cmPrefsCreatePathStr(p,pathString,&pathCnt);
  965. const cmChar_t* pathEleStr = pathStr;
  966. cmJsonNode_t* jsnp = cmJsonRoot(p->jsH);
  967. cmJsonNode_t* jsPairNodePtr = NULL;
  968. cmPrNode_t* pnp = NULL; // current pref node pointer
  969. bool existsFl = false; // set if variable already exists
  970. int i;
  971. assert( pathCnt >= 1 );
  972. if( id != cmInvalidId && id >= kMaxVarPrId )
  973. return cmErrMsg(&p->err,kNodeCreateFailPrRC,"User supplied id's must be less than 0x%x.",kMaxVarPrId);
  974. // for each path element
  975. for(i=0; i<pathCnt; ++i)
  976. {
  977. cmJsonNode_t* tnp = NULL;
  978. // find the child pair node of jsnp named 'pathEleStr'.
  979. if( (tnp = cmJsonNodeMemberValue(jsnp, pathEleStr )) == NULL )
  980. break;
  981. // the located json node must be an object (i<pathCnt-1) or the same type as jsTypeId (i=pathCnt-1)
  982. // This check guarantees that all nodes up to the leaf node are objects and the leaf node matches the created type.
  983. if( !(((i<pathCnt-1) && cmJsonIsObject(tnp)) || ((i==pathCnt-1) && _cmPrefsValidateNodeType(tnp,jsTypeId,valCnt))) )
  984. {
  985. rc = cmErrMsg(&p->err,kNodeCreateFailPrRC,"Node creation for '%s' failed because an existing node with the same name but different type (%i) was found.",pathString,tnp->typeId);
  986. goto errLabel;
  987. }
  988. // assert that the json nodes we are finding form a tree
  989. assert( (tnp->ownerPtr==NULL && jsnp==NULL) || (tnp->ownerPtr!=NULL && tnp->ownerPtr->ownerPtr==jsnp));
  990. jsnp = tnp;
  991. // find the pref node which refers to the located json node
  992. // (we need to track the pnp->pathPtr)
  993. pnp = p->idChainPtr;
  994. for(; pnp != NULL; pnp=pnp->linkPtr)
  995. if( pnp->nodePtr == jsnp )
  996. break;
  997. assert(pnp->pathPtr != NULL);
  998. // advance to the next path segment
  999. pathEleStr += strlen(pathEleStr) + 1;
  1000. }
  1001. // if i<pathCnt then json nodes must be created to
  1002. // if i==pathCnt then a matching variable already exists
  1003. if( i==pathCnt )
  1004. {
  1005. // the reference variable already exists and assignment was requested (setFlag==true).
  1006. // but the assignment cannot be made until the 'id' is updated.
  1007. existsFl = true;
  1008. }
  1009. // we have followed 'pathString' to the last node which already
  1010. // exists in the JSON tree - now we must create new JSON nodes to reflect
  1011. // the remaining path elements
  1012. for(; i<pathCnt; ++i)
  1013. {
  1014. // if this is the last element in the path - then it is a pair
  1015. if( i==pathCnt-1 )
  1016. {
  1017. // create a scalar value pair node
  1018. if( valCnt == 1 )
  1019. {
  1020. const char* sv = strVal==NULL ? NULL : *strVal;
  1021. double rv = realVal==NULL ? 0.0 : *realVal;
  1022. int iv = intVal ==NULL ? 0 : *intVal;
  1023. if( boolVal != NULL )
  1024. jsTypeId = *boolVal ? kTrueTId : kFalseTId;
  1025. if((jsnp = cmJsonInsertPair( p->jsH, jsnp, pathEleStr,jsTypeId, sv, iv, rv )) == NULL )
  1026. {
  1027. rc = cmErrMsg(&p->err,kInvalidIdPrRC,"Preference node create failed for '%s'",cmStringNullGuard(pathString));
  1028. goto errLabel;
  1029. }
  1030. }
  1031. else // create a vector value pair node
  1032. {
  1033. switch( jsTypeId )
  1034. {
  1035. case kStringTId: jsnp = cmJsonInsertPairStringArray2(p->jsH, jsnp, pathEleStr, valCnt, strVal); break;
  1036. case kRealTId: jsnp = cmJsonInsertPairRealArray2( p->jsH, jsnp, pathEleStr, valCnt, realVal);break;
  1037. case kIntTId: jsnp = cmJsonInsertPairIntArray2( p->jsH, jsnp, pathEleStr, valCnt, intVal); break;
  1038. case kBoolTId: jsnp = cmJsonInsertPairBoolArray2( p->jsH, jsnp, pathEleStr, valCnt, boolVal ); break;
  1039. default:
  1040. {
  1041. rc = cmErrMsg(&p->err,kInvalidIdPrRC,"Preference node insert failed on '%s' due to invalid type id '%i'.",cmStringNullGuard(pathString),jsTypeId);
  1042. goto errLabel;
  1043. }
  1044. }
  1045. }
  1046. assert( jsnp != NULL );
  1047. jsPairNodePtr = jsnp;
  1048. }
  1049. else // this is not the last element in the path - create an object node
  1050. {
  1051. // create the object associated with this new level
  1052. if((jsnp = cmJsonInsertPairObject( p->jsH, jsnp, pathEleStr )) == NULL )
  1053. {
  1054. rc = cmErrMsg(&p->err,kJsonFailPrRC,"Preference node create failed because JSON node create failed on '%s'.",cmStringNullGuard(pathString));
  1055. goto errLabel;
  1056. }
  1057. jsPairNodePtr = jsnp->ownerPtr;
  1058. }
  1059. unsigned nxtId = p->id;
  1060. // create a pref node to associate with this new level
  1061. if((pnp = _cmPrefsCreateNode(p, jsPairNodePtr, pnp==NULL ? NULL : pnp->pathPtr )) == NULL )
  1062. {
  1063. rc = cmErrMsg(&p->err,kNodeCreateFailPrRC,"Creation failed for the '%s' element of the preference node '%s'.",cmStringNullGuard(pathEleStr),cmStringNullGuard(pathString));
  1064. goto errLabel;
  1065. }
  1066. // always leave internal nodes with id=cmInvalidId, leaf node id's will be set below
  1067. p->id = nxtId;
  1068. pnp->id = cmInvalidId;
  1069. pathEleStr += strlen(pathEleStr) + 1;
  1070. }
  1071. assert( pnp != NULL );
  1072. // if an preference variable 'id' was given then set it here
  1073. if( id == cmInvalidId )
  1074. pnp->id = _cmPrefsCalcNextAvailId(p);
  1075. else
  1076. {
  1077. if( existsFl == false )
  1078. if( _cmPrefsIdToNodePtr(p, id, false ) != NULL )
  1079. cmErrWarnMsg(&p->err,kDuplicateIdPrRC,"The preference variable id '%i' is used by multiple preference variables including '%s'.",id,cmStringNullGuard(pathString));
  1080. pnp->id = id;
  1081. }
  1082. // if the variable already existed and setFlag==true then update the variable value here
  1083. // (note that this cannot occur earlier because the 'id' has not yet been updated
  1084. // which might result in the incorrect id being set with the callback function)
  1085. if( existsFl && setFlag )
  1086. if((rc = _cmPrefsSetValues2(p, pnp, boolVal, intVal, realVal, strVal, &valCnt )) != kOkPrRC )
  1087. goto errLabel;
  1088. // if a new variable was created then notify the application of the new value
  1089. if(existsFl==false)
  1090. {
  1091. assert(pnp!=NULL);
  1092. _cmPrefsCallback(p,pnp->id);
  1093. }
  1094. errLabel:
  1095. cmMemFree(pathStr);
  1096. return rc;
  1097. }
  1098. cmPrRC_t cmPrefsCreateBool( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, bool val )
  1099. {
  1100. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1101. bool v = val;
  1102. return _cmPrefsCreateJsonNode(p, id, pathStr, kBoolTId, NULL, NULL, NULL, &v, 1, cmIsFlag(flags, kForceValuePrFl) );
  1103. }
  1104. cmPrRC_t cmPrefsCreateUInt( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, unsigned val )
  1105. {
  1106. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1107. int v = val;
  1108. return _cmPrefsCreateJsonNode(p, id, pathStr, kIntTId, NULL, NULL, &v, NULL, 1, cmIsFlag(flags, kForceValuePrFl) );
  1109. }
  1110. cmPrRC_t cmPrefsCreateInt( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, int val )
  1111. {
  1112. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1113. int v = val;
  1114. return _cmPrefsCreateJsonNode(p, id, pathStr, kIntTId, NULL, NULL, &v, NULL, 1, cmIsFlag(flags, kForceValuePrFl) );
  1115. }
  1116. cmPrRC_t cmPrefsCreateFloat( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, float val )
  1117. {
  1118. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1119. double v = val;
  1120. return _cmPrefsCreateJsonNode(p, id, pathStr, kRealTId, NULL, &v, NULL, NULL, 1, cmIsFlag(flags, kForceValuePrFl) );
  1121. }
  1122. cmPrRC_t cmPrefsCreateReal( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, double val )
  1123. {
  1124. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1125. double v = val;
  1126. return _cmPrefsCreateJsonNode(p, id, pathStr, kRealTId, NULL, &v,NULL, NULL, 1, cmIsFlag(flags, kForceValuePrFl) );
  1127. }
  1128. cmPrRC_t cmPrefsCreateString( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const cmChar_t* val )
  1129. {
  1130. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1131. const cmChar_t* v = val;
  1132. return _cmPrefsCreateJsonNode(p, id, pathStr, kStringTId, &v, NULL, NULL, NULL, 1, cmIsFlag(flags,kForceValuePrFl) );
  1133. }
  1134. cmPrRC_t cmPrefsCreateBoolArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const bool* val, unsigned eleCnt )
  1135. {
  1136. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1137. return _cmPrefsCreateJsonNode(p, id, pathStr, kBoolTId, NULL, NULL, NULL, val, eleCnt, cmIsFlag(flags, kForceValuePrFl) );
  1138. }
  1139. cmPrRC_t cmPrefsCreateUIntArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const unsigned* val, unsigned eleCnt )
  1140. {
  1141. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1142. return _cmPrefsCreateJsonNode(p, id, pathStr, kIntTId, NULL, NULL, (int*)val, NULL, eleCnt, cmIsFlag(flags, kForceValuePrFl) );
  1143. }
  1144. cmPrRC_t cmPrefsCreateIntArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const int* val, unsigned eleCnt )
  1145. {
  1146. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1147. return _cmPrefsCreateJsonNode(p, id, pathStr, kIntTId, NULL, NULL, val, NULL, eleCnt, cmIsFlag(flags, kForceValuePrFl) );
  1148. }
  1149. cmPrRC_t cmPrefsCreateFloatArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const float* val, unsigned eleCnt )
  1150. {
  1151. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1152. double* a = cmMemAlloc(double,eleCnt);
  1153. unsigned i;
  1154. for(i=0; i<eleCnt; ++i)
  1155. a[i] = val[i];
  1156. cmPrRC_t rc = _cmPrefsCreateJsonNode(p, id, pathStr, kRealTId, NULL, a, NULL, NULL, eleCnt, cmIsFlag(flags, kForceValuePrFl) );
  1157. cmMemFree(a);
  1158. return rc;
  1159. }
  1160. cmPrRC_t cmPrefsCreateRealArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const double* val, unsigned eleCnt )
  1161. {
  1162. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1163. return _cmPrefsCreateJsonNode(p, id, pathStr, kRealTId, NULL, val, NULL, NULL, eleCnt, cmIsFlag(flags, kForceValuePrFl) );
  1164. }
  1165. cmPrRC_t cmPrefsCreateStringArray( cmPrH_t h, unsigned id, const cmChar_t* pathStr, unsigned flags, const cmChar_t** val, unsigned eleCnt )
  1166. {
  1167. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1168. return _cmPrefsCreateJsonNode(p, id, pathStr, kStringTId, val, NULL, NULL, NULL, eleCnt, cmIsFlag(flags,kForceValuePrFl) );
  1169. }
  1170. bool cmPrefsIsDirty( cmPrH_t h )
  1171. {
  1172. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1173. return p->dirtyFl;
  1174. }
  1175. cmPrRC_t cmPrefsWrite( cmPrH_t h, const cmChar_t* fn )
  1176. {
  1177. cmPrRC_t rc = kOkPrRC;
  1178. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1179. if( fn == NULL )
  1180. fn = p->fn;
  1181. if( cmJsonWrite( p->jsH, cmJsonRoot(p->jsH), fn) != kOkJsRC )
  1182. return cmErrMsg(&p->err,kWriteFileFailPrRC,"Preference writing failed.");
  1183. p->dirtyFl = false;
  1184. return rc;
  1185. }
  1186. void cmPrefsReport( cmPrH_t h )
  1187. {
  1188. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1189. cmJsonReport(p->jsH);
  1190. }
  1191. //=============================================================================================
  1192. // cmPrefsTest()
  1193. //
  1194. void _cmPrintNode( const cmPrNode_t* np )
  1195. {
  1196. const cmPrPath_t* pp = np->pathPtr;
  1197. const cmJsonNode_t* jnp = np->nodePtr;
  1198. const cmJsonNode_t* jpp = jnp->ownerPtr;
  1199. printf("id:%i type:0x%x parent:0x%x ",np->id,jnp->typeId,jpp==NULL?0:jpp->typeId);
  1200. while( pp != NULL )
  1201. {
  1202. printf("%s ",pp->label);
  1203. pp = pp->parentPtr;
  1204. }
  1205. printf("\n");
  1206. }
  1207. void _cmPrintNodes( const cmPrNode_t* np )
  1208. {
  1209. if( np == NULL )
  1210. return;
  1211. _cmPrintNode(np);
  1212. _cmPrintNodes(np->linkPtr);
  1213. }
  1214. /* example preferences file
  1215. {
  1216. "cfg" :
  1217. {
  1218. "inAudDevIdx" : 0
  1219. "outAudDevIdx" : 0
  1220. "syncInputFl" : false
  1221. "midiPortBufByteCnt" : 8192
  1222. "msgQueueByteCnt" : 64768
  1223. "devFramesPerCycle" : 128
  1224. "dspFramesPerCycle" : 64
  1225. "audioBufCnt" : 3
  1226. "srate" : 44100.000000
  1227. "chNames" :
  1228. {
  1229. "left" : 0
  1230. "right" : 1
  1231. "array" :
  1232. [
  1233. 0 ,
  1234. 1 ,
  1235. 2
  1236. ]
  1237. }
  1238. }
  1239. }
  1240. */
  1241. void cmPrefsTest1( cmCtx_t* ctx, const char* ifn, const char* ofn )
  1242. {
  1243. cmPrH_t h = cmPrNullHandle;
  1244. if( cmPrefsInitialize(ctx,&h,ifn,NULL,NULL,"pref") != kOkPrRC )
  1245. return;
  1246. cmPr_t* p = _cmPrefsHandleToPtr(h);
  1247. _cmPrintNodes(p->idChainPtr);
  1248. unsigned id;
  1249. id = cmPrefsId(h, "cfg/audioBufCnt", true );
  1250. printf("id:%i\n",id);
  1251. //id = cmPrefsId(h, "cfg/audioBuf", true );
  1252. //printf("id:%i\n",id);
  1253. int sr;
  1254. unsigned n=1;
  1255. cmPrefsGetInt(h, cmPrefsId(h,"cfg/srate",true), &sr, &n );
  1256. printf("sr:%i %i\n",sr,n);
  1257. cmPrefsGetInt(h, cmPrefsId(h,"cfg/chNames/array",true), &sr, &n );
  1258. printf("sr:%i %i\n",sr,n);
  1259. int arr[4];
  1260. n = 4;
  1261. cmPrefsGetInt(h, cmPrefsId(h,"cfg/chNames/array",true), arr, &n );
  1262. printf("array:%i %i %i n=%i\n",arr[0],arr[1],arr[2],n);
  1263. sr = 44100;
  1264. n = 1;
  1265. cmPrefsSetIntArray(h, cmPrefsId(h,"cfg/srate",true), &sr, &n);
  1266. cmPrefsGetInt(h, cmPrefsId(h,"cfg/chNames/array",true), &sr, &n );
  1267. printf("sr:%i %i\n",sr,n);
  1268. int sarr[] = {10,11,12,13 };
  1269. n = sizeof(sarr)/sizeof(sarr[0]);
  1270. cmPrefsSetIntArray(h, cmPrefsId(h,"cfg/chNames/array",true), sarr, &n);
  1271. cmPrefsGetInt(h, cmPrefsId(h,"cfg/chNames/array",true), sarr, &n );
  1272. printf("array:%i %i %i %i n=%i\n",sarr[0],sarr[1],sarr[2],sarr[3],n);
  1273. int tarr[] = {20,21 };
  1274. n = sizeof(tarr)/sizeof(tarr[0]);
  1275. cmPrefsSetIntArray(h, cmPrefsId(h,"cfg/chNames/array",true), tarr, &n);
  1276. cmPrefsGetInt(h, cmPrefsId(h,"cfg/chNames/array",true), tarr, &n );
  1277. printf("array:%i %i n=%i\n",tarr[0],tarr[1],n);
  1278. cmPrefsCreateBool(h, cmInvalidId, "cfg/flags/flag0", 0, true );
  1279. bool bv = cmPrefsBool(h, cmPrefsId(h,"cfg/flags/flag0",true));
  1280. printf("bool:%i\n",bv);
  1281. cmPrefsCreateString(h,cmInvalidId, "cfg/audioBufCnt",0,"hey");
  1282. const cmChar_t* strArray[] =
  1283. {
  1284. "snap", "crackle", "pop"
  1285. };
  1286. cmPrefsCreateStringArray(h, cmInvalidId, "cfg/chNames/strList",0,strArray,3);
  1287. cmPrefsWrite(h,ofn);
  1288. cmPrefsFinalize(&h);
  1289. }
  1290. void cmPrefsTest( cmCtx_t* ctx, const char* ifn, const char* ofn )
  1291. {
  1292. cmPrH_t h = cmPrNullHandle;
  1293. if( cmPrefsInitialize(ctx,&h,ifn,NULL,NULL,"pref") != kOkPrRC )
  1294. return;
  1295. cmPrefsCreateBool( h, cmInvalidIdx, "cfg/flag", 0, true );
  1296. cmPrefsCreateString(h, cmInvalidIdx, "cfg/string",0, "blah");
  1297. cmPrefsCreateInt( h, cmInvalidIdx, "cfg/stuff/thing0", 0, 1 );
  1298. cmPrefsCreateInt( h, cmInvalidIdx, "cfg/stuff/thing1", 0, 2 );
  1299. const char* strArray[] = { "blah", "bloo", "blug" };
  1300. cmPrefsCreateStringArray(h, cmInvalidId, "cfg/stuff/foo", 0, strArray, 3 );
  1301. cmPrefsPathSetInt( h, "cfg/stuff/thing0", 10 );
  1302. if( ofn != NULL )
  1303. cmPrefsWrite(h,ofn);
  1304. cmPrefsFinalize(&h);
  1305. }