libcm is a C development framework with an emphasis on audio signal processing applications.
Ви не можете вибрати більше 25 тем Теми мають розпочинатися з літери або цифри, можуть містити дефіси (-) і не повинні перевищувати 35 символів.

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  1. #include "cmGlobal.h"
  2. #include "cmFloatTypes.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 "cmGr.h"
  10. #include "cmGrDevCtx.h"
  11. // cmGr_t state flags
  12. enum
  13. {
  14. kDirtyGrFl = 0x01 // the cmGr object is dirty
  15. };
  16. typedef struct cmGrObj_str
  17. {
  18. unsigned id; //
  19. cmGrObjFunc_t f; //
  20. cmGrVExt_t wext; // world coord's contained within this object (children of this object are contained by these extents)
  21. unsigned wlimitFlags; // kLeftGrFl | kRightGrFl | kTopGrFl | kBottomGrFl
  22. cmGrVExt_t wlimitExt; // limit extents for wext (ext's with set flags always define the associated wext value)
  23. struct cmGrObj_str* parent;
  24. struct cmGrObj_str* children;
  25. struct cmGrObj_str* rsib;
  26. struct cmGrObj_str* lsib;
  27. } cmGrObj_t;
  28. typedef struct cmGrSync_str
  29. {
  30. cmGrH_t grH;
  31. unsigned flags; // kGrXXXSyncGrFl
  32. struct cmGrSync_str* link;
  33. } cmGrSync_t;
  34. typedef struct cmGrColorMap_str
  35. {
  36. const cmChar_t* label;
  37. unsigned id;
  38. cmGrColor_t* map;
  39. unsigned cnt;
  40. struct cmGrColorMap_str* link;
  41. } cmGrColorMap_t;
  42. typedef struct cmGrKeyMap_str
  43. {
  44. unsigned idx; // index of this keymap entry (used for debugging)
  45. char ascii; // printible ascii character associated with this keycode or 0 if not printable
  46. cmGrKeyCodeId_t keycode; // cmGr keycode
  47. } cmGrKeyMap_t;
  48. typedef struct
  49. {
  50. cmCtx_t ctx;
  51. cmErr_t err;
  52. unsigned id; // user definable id
  53. cmLHeapH_t lhH;
  54. unsigned cfgFlags;
  55. unsigned stateFlags;
  56. cmGrObj_t* msDnObj; // obj under last ms dn
  57. cmGrPPt_t msDnPPt; // last ms dn loc'n
  58. cmGrVPt_t msDnVPt; // last ms dn in same coords as msDnObj->vext (inside msDnObj->parent->wxt)
  59. cmGrVPt_t msVPt; // cur ms pt in same coords as msDnObj->vext (inside msDnObj->parent->wxt)
  60. cmGrVSz_t msDnVOffs;
  61. bool selValidFl;
  62. cmGrVPt_t sel0Pt;
  63. cmGrVPt_t sel1Pt;
  64. cmGrVPt_t localPt;
  65. cmGrVPt_t globalPt;
  66. cmGrVExt_t vext; // view virtual extents
  67. cmGrPExt_t pext; // view physical extents
  68. cmGrObj_t* objs; // object tree
  69. cmGrObj_t* rootObj; // current root object
  70. unsigned char* img; // temporary image inversion buffer
  71. cmGrCbFunc_t cbFunc; //
  72. void* cbArg; //
  73. cmGrSync_t* syncs; //
  74. cmGrColorMap_t* maps; // color maps
  75. } cmGr_t;
  76. cmGrH_t cmGrNullHandle = cmSTATIC_NULL_HANDLE;
  77. cmGrObjH_t cmGrObjNullHandle = cmSTATIC_NULL_HANDLE;
  78. cmGrKeyMap_t _cmGrKeyMap[] =
  79. {
  80. { 0, 0, 0 },
  81. { 1, 0, 0 },
  82. { 2, 0, 0 },
  83. { 3, 0, 0 },
  84. { 4, 0, 0 },
  85. { 5, 0, kHomeGrId},
  86. { 6, 0, kPageUpGrId},
  87. { 7, 0, kEndGrId},
  88. { 8, 8, kBackSpaceGrId },
  89. { 9, 9, kTabGrId },
  90. { 10, 0, kPageDownGrId},
  91. { 11, 0, kLeftGrId},
  92. { 12, 0, kUpGrId},
  93. { 13, 13, kEnterGrId },
  94. { 14, 0, kRightGrId},
  95. { 15, 0, kDownGrId},
  96. { 16, 0, kInsertGrId},
  97. { 17, 0, kPrintGrId},
  98. { 18, 0, kScrollLockGrId},
  99. { 19, 0, kPauseGrId},
  100. { 20, 0, kMenuGrId},
  101. { 21, 0, kLShiftGrId},
  102. { 22, 0, kRShiftGrId},
  103. { 23, 0, kLCtrlGrId},
  104. { 24, 0, kRCtrlGrId},
  105. { 25, 0, kLAltGrId},
  106. { 26, 0, kRAltGrId},
  107. { 27, 27, kEscapeGrId },
  108. { 28, 0, kLSuperGrId},
  109. { 29, 0, kRSuperGrId},
  110. { 30, 0, kNumLockGrId},
  111. { 31, 0, kCapsLockGrId},
  112. { 32, 32, kSpaceGrId },
  113. { 33, 33, kExclMarkGrId },
  114. { 34, 34, kDQuoteGrId },
  115. { 35, 35, kPoundGrId },
  116. { 36, 36, kDollarGrId },
  117. { 37, 37, kPercentGrId },
  118. { 38, 38, kAmpersandGrId },
  119. { 39, 39, kApostropheGrId },
  120. { 40, 40, kLParenGrId },
  121. { 41, 41, kRParenGrId },
  122. { 42, 42, kAsteriskGrId },
  123. { 43, 43, kPlusGrId },
  124. { 44, 44, kCommaGrId },
  125. { 45, 45, kHyphenGrId },
  126. { 46, 46, kPeriodGrId },
  127. { 47, 47, kForwardSlashGrId },
  128. { 48, 48, k0GrId },
  129. { 49, 49, k1GrId },
  130. { 50, 50, k2GrId },
  131. { 51, 51, k3GrId },
  132. { 52, 52, k4GrId },
  133. { 53, 53, k5GrId },
  134. { 54, 54, k6GrId },
  135. { 55, 55, k7GrId },
  136. { 56, 56, k8GrId },
  137. { 57, 57, k9GrId },
  138. { 58, 58, kColonGrId },
  139. { 59, 59, kSemiColonGrId },
  140. { 60, 60, kLesserGrId },
  141. { 61, 61, kEqualGrId },
  142. { 62, 62, kGreaterGrId },
  143. { 63, 63, kQMarkGrId },
  144. { 64, 64, kAtGrId },
  145. { 65, 65, kA_GrId },
  146. { 66, 66, kB_GrId },
  147. { 67, 67, kC_GrId },
  148. { 68, 68, kD_GrId },
  149. { 69, 69, kE_GrId },
  150. { 70, 70, kF_GrId },
  151. { 71, 71, kG_GrId },
  152. { 72, 72, kH_GrId },
  153. { 73, 73, kI_GrId },
  154. { 74, 74, kJ_GrId },
  155. { 75, 75, kK_GrId },
  156. { 76, 76, kL_GrId },
  157. { 77, 77, kM_GrId },
  158. { 78, 78, kN_GrId },
  159. { 79, 79, kO_GrId },
  160. { 80, 80, kP_GrId },
  161. { 81, 81, kQ_GrId },
  162. { 82, 82, kR_GrId },
  163. { 83, 83, kS_GrId },
  164. { 84, 84, kT_GrId },
  165. { 85, 85, kU_GrId },
  166. { 86, 86, kV_GrId },
  167. { 87, 87, kW_GrId },
  168. { 88, 88, kX_GrId },
  169. { 89, 89, kY_GrId },
  170. { 90, 90, kZ_GrId },
  171. { 91, 91, kLBracketGrId },
  172. { 92, 92, kBackSlashGrId },
  173. { 93, 93, kRBracketGrId },
  174. { 94, 94, kCaretGrId },
  175. { 95, 95, kUnderScoreGrId },
  176. { 96, 96, kAccentGrId },
  177. { 97, 97, ka_GrId },
  178. { 98, 98, kb_GrId },
  179. { 99, 99, kc_GrId },
  180. { 100, 100, kd_GrId },
  181. { 101, 101, ke_GrId },
  182. { 102, 102, kf_GrId },
  183. { 103, 103, kg_GrId },
  184. { 104, 104, kh_GrId },
  185. { 105, 105, ki_GrId },
  186. { 106, 106, kj_GrId },
  187. { 107, 107, kk_GrId },
  188. { 108, 108, kl_GrId },
  189. { 109, 109, km_GrId },
  190. { 110, 110, kn_GrId },
  191. { 111, 111, ko_GrId },
  192. { 112, 112, kp_GrId },
  193. { 113, 113, kq_GrId },
  194. { 114, 114, kr_GrId },
  195. { 115, 115, ks_GrId },
  196. { 116, 116, kt_GrId },
  197. { 117, 117, ku_GrId },
  198. { 118, 118, kv_GrId },
  199. { 119, 119, kw_GrId },
  200. { 120, 120, kx_GrId },
  201. { 121, 121, ky_GrId },
  202. { 122, 122, kz_GrId },
  203. { 123, 123, kLBraceGrId },
  204. { 124, 124, kPipeGrId },
  205. { 125, 125, kRBraceGrId },
  206. { 126, 126, kTildeGrId },
  207. { 127, 127, kDeleteGrId },
  208. { 128, 42, kNP_MultGrId },
  209. { 129, 43, kNP_PlusGrId },
  210. { 130, 45, kNP_MinusGrId },
  211. { 131, 46, kNP_DecPtGrId},
  212. { 132, 47, kNP_DivGrId},
  213. { 133, 48, kNP_0GrId},
  214. { 134, 49, kNP_1GrId},
  215. { 135, 50, kNP_2GrId},
  216. { 136, 51, kNP_3GrId},
  217. { 137, 52, kNP_4GrId},
  218. { 138, 53, kNP_5GrId},
  219. { 139, 54, kNP_6GrId},
  220. { 140, 55, kNP_7GrId},
  221. { 141, 56, kNP_8GrId},
  222. { 142, 57, kNP_9GrId},
  223. { 143, 61, kNP_EqualGrId},
  224. { 144, 13, kNP_EnterGrId},
  225. { 145, 0, kFunc_1GrId},
  226. { 146, 0, kFunc_2GrId},
  227. { 147, 0, kFunc_3GrId},
  228. { 148, 0, kFunc_4GrId},
  229. { 149, 0, kFunc_5GrId},
  230. { 150, 0, kFunc_6GrId},
  231. { 151, 0, kFunc_7GrId},
  232. { 152, 0, kFunc_8GrId},
  233. { 153, 0, kFunc_9GrId},
  234. { 154, 0, kFunc_10GrId},
  235. { 155, 0, kFunc_11GrId},
  236. { 156, 0, kFunc_12GrId},
  237. { 157, 0, kBrightUpGrId},
  238. { 158, 0, kBrightDnGrId},
  239. { 159, 0, kAudio_PrevGrId},
  240. { 160, 0, kAudio_PlayGrId},
  241. { 161, 0, kAudio_NextGrId},
  242. { 162, 0, kAudio_MuteGrId},
  243. { 163, 0, kAudio_DnGrId },
  244. { 164, 0, kAudio_UpGrId },
  245. { 165, 0, kEjectGrId },
  246. { cmInvalidIdx, 0, cmInvalidId}
  247. };
  248. void _cmGrKeyMapValidate()
  249. {
  250. unsigned i;
  251. for(i=0; _cmGrKeyMap[i].idx != cmInvalidIdx; ++i)
  252. {
  253. assert( _cmGrKeyMap[i].idx == i );
  254. }
  255. }
  256. cmGrKeyMap_t* _cmGrFindKeyMap( unsigned keycode )
  257. {
  258. // printable ascii codes match their indexes
  259. if( 32 <= keycode && keycode <= 126 )
  260. return _cmGrKeyMap + keycode;
  261. unsigned i;
  262. for(i=0; i<32; ++i)
  263. if( _cmGrKeyMap[i].keycode == keycode )
  264. return _cmGrKeyMap + i;
  265. for(i=127; _cmGrKeyMap[i].idx != cmInvalidIdx; ++i)
  266. if( _cmGrKeyMap[i].keycode == keycode )
  267. return _cmGrKeyMap + i;
  268. assert(0);
  269. return NULL;
  270. }
  271. bool _cmGrSetViewExtents( cmGr_t* p, cmGrV_t minx, cmGrV_t miny, cmGrV_t maxx, cmGrV_t maxy );
  272. bool _cmGrSetViewExtentsE( cmGr_t* p, const cmGrVExt_t* e )
  273. { return _cmGrSetViewExtents(p, cmGrVExtMinX(e), cmGrVExtMinY(e), cmGrVExtMaxX(e), cmGrVExtMaxY(e) ); }
  274. //====================================================================================================
  275. // Expand cmGrVExt_t e0 to hold e1.
  276. // Return true if e0 is actually changed.
  277. bool cmGrVExtExpandToContain(cmGrVExt_t* e0, const cmGrVExt_t* e1)
  278. {
  279. bool fl = false;
  280. if( cmGrVExtIsNullOrEmpty(e0) )
  281. {
  282. *e0 = *e1;
  283. return true;
  284. }
  285. assert( cmGrVExtIsNorm(e0) && cmGrVExtIsNorm(e1) );
  286. // min-x
  287. if( cmGrVExtMinX(e0) > cmGrVExtMinX(e1) )
  288. {
  289. cmGrVExtSetMinX(e0, cmGrVExtMinX(e1));
  290. fl = true;
  291. }
  292. // min-y
  293. if( cmGrVExtMinY(e0) > cmGrVExtMinY(e1) )
  294. {
  295. cmGrVExtSetMinY(e0, cmGrVExtMinY(e1));
  296. fl = true;
  297. }
  298. // max-y
  299. if( cmGrVExtMaxY(e0) < cmGrVExtMaxY(e1) )
  300. {
  301. cmGrVExtSetMaxY(e0, cmGrVExtMaxY(e1));
  302. fl = true;
  303. }
  304. // max-x
  305. if( cmGrVExtMaxX(e0) < cmGrVExtMaxX(e1) )
  306. {
  307. cmGrVExtSetMaxX(e0, cmGrVExtMaxX(e1));
  308. fl = true;
  309. }
  310. return fl;
  311. }
  312. bool cmGrVExtContain( const cmGrVExt_t* e0, cmGrVExt_t* e1 )
  313. {
  314. bool fl = false;
  315. assert( cmGrVExtIsNorm(e0) && cmGrVExtIsNorm(e1) );
  316. // e1 must be able to fit inside e0
  317. assert( e1->sz.w <= e0->sz.w && e1->sz.h <= e0->sz.h );
  318. // if left edge of e1 is to left of e0
  319. if( cmGrVExtMinX(e1) < cmGrVExtMinX(e0) )
  320. {
  321. cmGrVExtSetMinX(e1,cmGrVExtMinX(e0));
  322. fl = true;
  323. }
  324. // if right edge of e1 is to right of e0
  325. if( cmGrVExtMaxX(e1) > cmGrVExtMaxX(e0) )
  326. {
  327. cmGrVExtSetMaxX(e1,cmGrVExtMaxX(e0));
  328. fl = true;
  329. }
  330. // if the bottom edge of e1 is below the bottom edge of e0
  331. if( cmGrVExtMinY(e1) < cmGrVExtMinY(e0) )
  332. {
  333. cmGrVExtSetMinY(e1,cmGrVExtMinY(e0));
  334. fl = true;
  335. }
  336. // if top edge of e1 is above the top edge of e0
  337. if( cmGrVExtMaxY(e1) > cmGrVExtMaxY(e0) )
  338. {
  339. cmGrVExtSetMaxY(e1,cmGrVExtMaxY(e0));
  340. fl = true;
  341. }
  342. return fl;
  343. }
  344. void cmGrPExtIntersect( cmGrPExt_t* r, const cmGrPExt_t* e0, const cmGrPExt_t* e1 )
  345. {
  346. if( cmGrPExtR(e0) < cmGrPExtL(e1) || cmGrPExtL(e0) > cmGrPExtR(e1)
  347. || cmGrPExtB(e0) < cmGrPExtT(e1) || cmGrPExtT(e0) > cmGrPExtB(e1) )
  348. {
  349. cmGrPExtSetEmpty(r);
  350. return;
  351. }
  352. cmGrPExtSetD(r,
  353. cmMax( cmGrPExtL(e0), cmGrPExtL(e1) ),
  354. cmMax( cmGrPExtT(e0), cmGrPExtT(e1) ),
  355. cmMin( cmGrPExtR(e0), cmGrPExtR(e1) ),
  356. cmMin( cmGrPExtB(e0), cmGrPExtB(e1) ) );
  357. }
  358. void cmGrVExtIntersect( cmGrVExt_t* r, const cmGrVExt_t* e0, const cmGrVExt_t* e1 )
  359. {
  360. if( cmGrVExtMaxX(e0) < cmGrVExtMinX(e1) || cmGrVExtMinX(e0) > cmGrVExtMaxX(e1)
  361. || cmGrVExtMaxY(e0) < cmGrVExtMinY(e1) || cmGrVExtMinY(e0) > cmGrVExtMaxY(e1) )
  362. {
  363. cmGrVExtSetEmpty(r);
  364. return;
  365. }
  366. cmGrVExtSetD(r,
  367. cmMax( cmGrVExtMinX(e0), cmGrVExtMinX(e1) ),
  368. cmMax( cmGrVExtMinY(e0), cmGrVExtMinY(e1) ),
  369. cmMin( cmGrVExtMaxX(e0), cmGrVExtMaxX(e1) ),
  370. cmMin( cmGrVExtMaxY(e0), cmGrVExtMaxY(e1) ) );
  371. }
  372. //====================================================================================================
  373. //====================================================================================================
  374. cmGr_t* _cmGrHandleToPtr( cmGrH_t h )
  375. {
  376. cmGr_t* p = (cmGr_t*)h.h;
  377. assert( p != NULL );
  378. return p;
  379. }
  380. cmGrObj_t* _cmGrObjHandleToPtr( cmGrObjH_t h )
  381. {
  382. cmGrObj_t* p = (cmGrObj_t*)h.h;
  383. assert( p != NULL );
  384. return p;
  385. }
  386. //====================================================================================================
  387. unsigned cmGrColorMapCount( cmGrH_t grH )
  388. {
  389. cmGr_t* p = _cmGrHandleToPtr(grH);
  390. cmGrColorMap_t* cmp = p->maps;
  391. unsigned n = 0;
  392. for(; cmp!=NULL; cmp=cmp->link)
  393. ++n;
  394. return n;
  395. }
  396. cmGrColorMap_t* _cmGrColorMapFromIndex( cmGr_t* p, unsigned idx )
  397. {
  398. unsigned i = 0;
  399. cmGrColorMap_t* cmp = p->maps;
  400. for(; cmp!=NULL; ++i,cmp=cmp->link)
  401. if( i == idx )
  402. break;
  403. return cmp;
  404. }
  405. cmGrColorMap_t* _cmGrColorMapFromId( cmGr_t* p, unsigned id )
  406. {
  407. cmGrColorMap_t* cmp = p->maps;
  408. for(; cmp!=NULL; cmp=cmp->link)
  409. if( cmp->id == id )
  410. break;
  411. return cmp;
  412. }
  413. unsigned cmGrColorMapId( cmGrH_t grH, unsigned mapIdx )
  414. {
  415. cmGr_t* p = _cmGrHandleToPtr(grH);
  416. cmGrColorMap_t* cmp;
  417. if((cmp = _cmGrColorMapFromIndex(p,mapIdx)) == NULL )
  418. return cmInvalidId;
  419. return cmp->id;
  420. }
  421. const cmChar_t* cmGrColorMapLabel( cmGrH_t grH, unsigned id )
  422. {
  423. cmGr_t* p = _cmGrHandleToPtr(grH);
  424. cmGrColorMap_t* cmp;
  425. if((cmp = _cmGrColorMapFromId(p,id)) == NULL )
  426. return NULL;
  427. return cmp->label;
  428. }
  429. unsigned _cmGrColorMapRegister( cmGr_t* p, cmChar_t* label, const cmGrColor_t* array, unsigned cnt )
  430. {
  431. // locate an available id
  432. unsigned id = 0;
  433. while( _cmGrColorMapFromId(p,id)!=NULL )
  434. ++id;
  435. cmGrColorMap_t* cmp = cmLhAllocZ(p->lhH,cmGrColorMap_t,1);
  436. cmp->label = cmLhAllocStr(p->lhH,label);
  437. cmp->id = id;
  438. cmp->map = cmLhAllocZ(p->lhH,cmGrColor_t,cnt);
  439. cmp->cnt = cnt;
  440. cmp->link = p->maps;
  441. p->maps = cmp;
  442. memcpy(cmp->map,array,sizeof(cmGrColor_t)*cnt);
  443. return id;
  444. }
  445. unsigned cmGrColorMapRegister( cmGrH_t grH, cmChar_t* label, const cmGrColor_t* array, unsigned cnt )
  446. { return _cmGrColorMapRegister( _cmGrHandleToPtr(grH),label, array, cnt ); }
  447. cmGrColor_t* cmGrColorMap( cmGrH_t grH, unsigned mapId )
  448. {
  449. cmGr_t* p = _cmGrHandleToPtr(grH);
  450. cmGrColorMap_t* cmp;
  451. if((cmp = _cmGrColorMapFromId(p,mapId)) == NULL )
  452. return NULL;
  453. return cmp->map;
  454. }
  455. unsigned cmGrColorMapEleCount( cmGrH_t grH, unsigned mapId )
  456. {
  457. cmGr_t* p = _cmGrHandleToPtr(grH);
  458. cmGrColorMap_t* cmp;
  459. if((cmp = _cmGrColorMapFromId(p,mapId)) == NULL )
  460. return cmInvalidId;
  461. return cmp->cnt;
  462. }
  463. void _cmGrRgbInitDefaultColorMap( cmGr_t* p )
  464. {
  465. unsigned map[] =
  466. {
  467. 0x000000, // black
  468. 0x00008b, // dark blue
  469. 0x0000ff, // blue
  470. 0x008080, // teal
  471. 0x00ffff, // cyan
  472. 0x00ff7f, // spring green
  473. 0x00ff00, // green
  474. 0x7cfc00, // lawn green
  475. 0xffff00, // yellow
  476. 0xff7f7f, // pink
  477. 0xff00ff, // magenta
  478. 0xff007f, //
  479. 0xff0000, // red
  480. 0x7f0000, //
  481. 0xffffff // white
  482. };
  483. unsigned n = sizeof(map)/sizeof(unsigned);
  484. _cmGrColorMapRegister(p,"default",map,n);
  485. }
  486. //====================================================================================================
  487. // Object Callback Functions
  488. //====================================================================================================
  489. void _cmGrObjSetupFuncArgs( cmGrObjFuncArgs_t* a, cmGr_t* p, cmGrObj_t* op )
  490. {
  491. cmGrH_t h;
  492. cmGrObjH_t oh;
  493. h.h = p;
  494. oh.h = op;
  495. a->ctx = &p->ctx;
  496. a->grH = h;
  497. a->objH = oh;
  498. a->msDnPPt = p->msDnPPt;
  499. a->msDnVPt = p->msDnVPt;
  500. a->msDnVOffs = p->msDnVOffs;
  501. a->msVPt = p->msVPt;
  502. oh.h = p->msDnObj;
  503. a->msDnObjH = oh;
  504. }
  505. cmGrRC_t _cmGrObjCbCreate( cmGr_t* p, cmGrObj_t* op )
  506. {
  507. cmGrRC_t rc = kOkGrRC;
  508. if( op->f.createCbFunc != NULL )
  509. {
  510. cmGrObjFuncArgs_t a;
  511. _cmGrObjSetupFuncArgs(&a,p,op);
  512. a.cbArg = op->f.createCbArg;
  513. if((rc = op->f.createCbFunc(&a)) != kOkGrRC )
  514. rc = cmErrMsg(&p->err,kAppErrGrRC,"An application object (id=%i) failed on 'create'",op->id);
  515. }
  516. return rc;
  517. }
  518. void _cmGrObjCbDestroy( cmGr_t* p, cmGrObj_t* op )
  519. {
  520. if( op->f.destroyCbFunc != NULL )
  521. {
  522. cmGrObjFuncArgs_t a;
  523. _cmGrObjSetupFuncArgs(&a,p,op);
  524. a.cbArg = op->f.destroyCbArg;
  525. op->f.destroyCbFunc(&a);
  526. }
  527. }
  528. void _cmGrObjCbRender( cmGr_t* p, cmGrDcH_t dcH, const cmGrObj_t* op )
  529. {
  530. if( op->f.renderCbFunc != NULL )
  531. {
  532. cmGrObjFuncArgs_t a;
  533. _cmGrObjSetupFuncArgs(&a,p,(cmGrObj_t*)op);
  534. a.cbArg = op->f.renderCbArg;
  535. op->f.renderCbFunc(&a, dcH );
  536. }
  537. }
  538. int _cmGrObjCbDistance( cmGr_t* p, const cmGrObj_t* op, int px, int py )
  539. {
  540. int d = INT_MAX;
  541. if( op->f.distanceCbFunc != NULL )
  542. {
  543. cmGrObjFuncArgs_t a;
  544. _cmGrObjSetupFuncArgs(&a,p,(cmGrObj_t*)op);
  545. a.cbArg = op->f.distanceCbArg;
  546. d = op->f.distanceCbFunc(&a,px,py);
  547. }
  548. return d;
  549. }
  550. bool _cmGrObjCbEvent( cmGr_t* p, cmGrObj_t* op, unsigned flags, unsigned key, int px, int py )
  551. {
  552. bool fl = false;
  553. if( op->f.eventCbFunc != NULL )
  554. {
  555. cmGrObjFuncArgs_t a;
  556. _cmGrObjSetupFuncArgs(&a,p,op);
  557. a.cbArg = op->f.eventCbArg;
  558. fl = op->f.eventCbFunc(&a,flags,key,px,py);
  559. }
  560. return fl;
  561. }
  562. void _cmGrObjCbVExt( cmGr_t* p, const cmGrObj_t* op, cmGrVExt_t* vext )
  563. {
  564. if( op->f.vextCbFunc == NULL )
  565. cmGrVExtSetEmpty(vext);
  566. else
  567. {
  568. cmGrObjFuncArgs_t a;
  569. _cmGrObjSetupFuncArgs(&a,p,(cmGrObj_t*)op);
  570. a.cbArg = op->f.vextCbArg;
  571. op->f.vextCbFunc(&a,vext);
  572. }
  573. }
  574. bool _cmGrObjCbIsInside( cmGr_t* p, const cmGrObj_t* op, unsigned evtFlags, int px, int py, cmGrV_t vx, cmGrV_t vy )
  575. {
  576. bool fl = false;
  577. if( op->f.isInsideCbFunc != NULL )
  578. {
  579. cmGrObjFuncArgs_t a;
  580. _cmGrObjSetupFuncArgs(&a,p,(cmGrObj_t*)op);
  581. a.cbArg = op->f.isInsideCbArg;
  582. fl = op->f.isInsideCbFunc(&a,evtFlags,px,py,vx,vy);
  583. }
  584. return fl;
  585. }
  586. //====================================================================================================
  587. // Object Private Functions
  588. //====================================================================================================
  589. // Return true if pp is an ancestor (parent,grand-parent,great-grand-parent,...) of cp.
  590. bool _cmGrObjIsAncestor( cmGrObj_t* pp, cmGrObj_t* cp )
  591. {
  592. cmGrObj_t* tp = cp->parent;
  593. for(; tp != NULL; tp=tp->parent )
  594. if( tp == pp )
  595. break;
  596. return tp!=NULL;
  597. }
  598. // Append 'op' as the right-most child of 'pp'.
  599. void _cmGrObjAppendChild( cmGrObj_t* pp, cmGrObj_t* cp)
  600. {
  601. cp->parent = pp;
  602. if( pp->children == NULL )
  603. {
  604. pp->children = cp;
  605. cp->lsib = NULL;
  606. cp->rsib = NULL;
  607. }
  608. else
  609. {
  610. cmGrObj_t* op = pp->children;
  611. while( op->rsib != NULL )
  612. op = op->rsib;
  613. op->rsib = cp;
  614. cp->rsib = NULL;
  615. cp->lsib = op;
  616. }
  617. }
  618. // Insert 'op' on the left of 'rp'.
  619. void _cmGrObjInsertOnLeft( cmGrObj_t* op, cmGrObj_t* rp )
  620. {
  621. op->parent = rp->parent;
  622. op->rsib = rp;
  623. op->lsib = rp->lsib;
  624. if( rp->lsib == NULL )
  625. {
  626. assert( rp->parent == rp->parent->children);
  627. rp->parent->children = op;
  628. }
  629. else
  630. {
  631. rp->lsib->rsib = op;
  632. }
  633. rp->lsib = op;
  634. }
  635. // Insert 'op' on the right of 'lp'.
  636. // 'pp' is the parent of 'lp'. 'pp' must be given explicitely to cover
  637. // the case where lp is NULL - in which case the new parent for op
  638. // cannot be determined from lp.
  639. void _cmGrObjInsertOnRight( cmGrObj_t* op, cmGrObj_t* lp, cmGrObj_t* pp )
  640. {
  641. op->parent = pp;
  642. if( lp == NULL )
  643. {
  644. assert( pp != NULL && pp->children==NULL );
  645. pp->children = op;
  646. op->lsib = NULL;
  647. op->rsib = NULL;
  648. return;
  649. }
  650. assert( lp->parent == pp );
  651. op->lsib = lp;
  652. op->rsib = lp->rsib;
  653. if( lp->rsib != NULL )
  654. lp->rsib->lsib = op;
  655. lp->rsib = op;
  656. }
  657. // Unlink 'op' from the tree but leave it's children attached.
  658. void _cmGrObjUnlink( cmGrObj_t * op )
  659. {
  660. if( op->parent != NULL && op->parent->children == op )
  661. op->parent->children = op->parent->children->rsib;
  662. if( op->rsib != NULL )
  663. op->rsib->lsib = op->lsib;
  664. if( op->lsib != NULL )
  665. op->lsib->rsib = op->rsib;
  666. op->parent = NULL;
  667. op->rsib = NULL;
  668. op->lsib = NULL;
  669. }
  670. // Free 'op' and all of its children.
  671. // 'op' must be unlinked before calling this function
  672. cmGrRC_t _cmGrObjFree( cmGr_t* p, cmGrObj_t* op )
  673. {
  674. cmGrRC_t rc = kOkGrRC;
  675. // go to the deepest child
  676. if( op->children != NULL )
  677. if((rc = _cmGrObjFree(p,op->children)) != kOkGrRC )
  678. return rc;
  679. // go right
  680. if( op->rsib != NULL )
  681. if((rc = _cmGrObjFree(p,op->rsib)) != kOkGrRC )
  682. return rc;
  683. // inform the application that we are destroying this object
  684. _cmGrObjCbDestroy(p,op);
  685. _cmGrObjUnlink(op);
  686. cmMemFree(op);
  687. return rc;
  688. }
  689. cmGrRC_t _cmGrObjUnlinkAndFree( cmGr_t* p, cmGrObj_t* op )
  690. {
  691. cmGrRC_t rc = kOkGrRC;
  692. cmGrObj_t* rsib = op->rsib;
  693. cmGrObj_t* par = op->parent;
  694. _cmGrObjUnlink(op);
  695. // if the free fails ...
  696. if((rc = _cmGrObjFree(p,op)) != kOkGrRC )
  697. {
  698. // ... then restore the objects position
  699. if( rsib == NULL )
  700. _cmGrObjInsertOnLeft(op,rsib);
  701. else
  702. _cmGrObjAppendChild(par,op);
  703. }
  704. return rc;
  705. }
  706. // Return kL,T,R,BGrFl indicating which directions of wext are in violation of op->wlimitExt.
  707. // Return's 0 if no limits are in violation
  708. unsigned _cmGrObjWorldLimitsTestViolation( const cmGrObj_t* op, const cmGrVExt_t* wext )
  709. {
  710. unsigned violFlags = 0;
  711. if( cmIsFlag( op->wlimitFlags, kLeftGrFl) )
  712. if( cmGrVExtMinX(wext) < cmGrVExtMinX(&op->wlimitExt) )
  713. violFlags = kLeftGrFl;
  714. if( cmIsFlag( op->wlimitFlags, kTopGrFl) )
  715. if( cmGrVExtMaxY(wext) < cmGrVExtMaxY(&op->wlimitExt) )
  716. violFlags = kTopGrFl;
  717. if( cmIsFlag( op->wlimitFlags, kRightGrFl) )
  718. if( cmGrVExtMaxX(wext) > cmGrVExtMaxX(&op->wlimitExt) )
  719. violFlags = kRightGrFl;
  720. if( cmIsFlag( op->wlimitFlags, kBottomGrFl) )
  721. if( cmGrVExtMinY(wext) > cmGrVExtMinY(&op->wlimitExt) )
  722. violFlags = kBottomGrFl;
  723. return violFlags;
  724. }
  725. // If op has world extent limits then apply them to 'ext'.
  726. // Extent directions in 'ext' which do not have limits in 'op' are unchanged.
  727. // Extent directions in 'ext' which have limits are set to the limit.
  728. void _cmGrObjApplyExtLimits( cmGrObj_t* op, cmGrVExt_t* ext )
  729. {
  730. if( cmIsFlag(op->wlimitFlags,kLeftGrFl) )
  731. cmGrVExtSetMinX(ext,cmGrVExtMinX(&op->wlimitExt));
  732. if( cmIsFlag(op->wlimitFlags,kBottomGrFl) )
  733. cmGrVExtSetMinY(ext,cmGrVExtMinY(&op->wlimitExt));
  734. if( cmIsFlag(op->wlimitFlags,kTopGrFl) )
  735. cmGrVExtSetMaxY(ext,cmGrVExtMaxY(&op->wlimitExt));
  736. if( cmIsFlag(op->wlimitFlags,kRightGrFl) )
  737. cmGrVExtSetMaxX(ext,cmGrVExtMaxX(&op->wlimitExt));
  738. }
  739. // Return the outside extents of the children of 'op'.
  740. // Returns false if there are no children and leaves wext set to NULL.
  741. bool _cmGrObjChildExts( cmGr_t* p, const cmGrObj_t* op, cmGrVExt_t* ext )
  742. {
  743. cmGrVExtSetNull(ext);
  744. op = op->children;
  745. if( op == NULL )
  746. return false;
  747. _cmGrObjCbVExt(p,op,ext);
  748. for(op=op->rsib; op!=NULL; op=op->rsib)
  749. {
  750. cmGrVExt_t e;
  751. _cmGrObjCbVExt(p,op,&e);
  752. cmGrVExtExpandToContain(ext,&e);
  753. }
  754. return true;
  755. }
  756. cmGrRC_t _cmGrObjSetWorldExt( cmGr_t* p, cmGrObj_t* op, const cmGrVExt_t* wext );
  757. // The world extents changed to 'ref_wext' on an object.
  758. // Examine all 'sync'ed' objects and expand them to be contained by 'ref_wext'.
  759. cmGrRC_t _cmGrSyncWorldExtentsExpand( cmGr_t* p, const cmGrVExt_t* ref_wext )
  760. {
  761. cmGrRC_t rc = kOkGrRC;
  762. // apply changes to synch targets
  763. cmGrSync_t* sp = p->syncs;
  764. for(; sp!=NULL; sp=sp->link)
  765. if( cmIsFlag(sp->flags,kWorldSyncGrFl) )
  766. {
  767. // get the target ROOT object
  768. cmGrObj_t* top = _cmGrObjHandleToPtr(cmGrRootObjH(sp->grH));
  769. bool fl = false;
  770. cmGrVExt_t top_wext = top->wext;
  771. //printf("sync %i ",top->id);
  772. //cmGrVExtPrint("top_wext",&top_wext);
  773. //cmGrVExtPrint("ref_wext",ref_wext);
  774. // if horz sync was requested ...
  775. if( !fl && cmIsFlag(sp->flags,kHorzSyncGrFl) )
  776. {
  777. if( cmGrVExtIsNullOrEmpty(&top_wext) )
  778. {
  779. cmGrVExtSetMinX(&top_wext,cmGrVExtMinX(ref_wext));
  780. cmGrVExtSetMaxX(&top_wext,cmGrVExtMaxX(ref_wext));
  781. fl = true;
  782. }
  783. else
  784. {
  785. // ... and the target needs to expand and can expand
  786. if( cmGrVExtMinX(&top_wext) > cmGrVExtMinX(ref_wext) && cmIsNotFlag(top->wlimitFlags,kLeftGrFl) )
  787. {
  788. cmGrVExtSetMinX(&top_wext,cmGrVExtMinX(ref_wext)); // .. expand the view
  789. fl = true;
  790. }
  791. if( cmGrVExtMaxX(&top_wext) < cmGrVExtMaxX(ref_wext) && cmIsNotFlag(top->wlimitFlags,kRightGrFl) )
  792. {
  793. cmGrVExtSetMaxX(&top_wext,cmGrVExtMaxX(ref_wext));
  794. fl = true;
  795. }
  796. }
  797. }
  798. // if vert sync was requested ...
  799. if( !fl && cmIsFlag(sp->flags,kVertSyncGrFl) )
  800. {
  801. if( cmGrVExtIsNullOrEmpty(&top_wext) )
  802. {
  803. cmGrVExtSetMinY(&top_wext,cmGrVExtMinY(ref_wext));
  804. cmGrVExtSetMaxY(&top_wext,cmGrVExtMaxY(ref_wext));
  805. fl = true;
  806. }
  807. else
  808. {
  809. if( cmGrVExtMinY(&top_wext) > cmGrVExtMinY(ref_wext) && cmIsNotFlag(top->wlimitFlags,kBottomGrFl))
  810. {
  811. cmGrVExtSetMinY(&top_wext,cmGrVExtMinY(ref_wext));
  812. fl = true;
  813. }
  814. if( cmGrVExtMaxY(&top_wext) < cmGrVExtMaxY(ref_wext) && cmIsNotFlag(top->wlimitFlags,kTopGrFl) )
  815. {
  816. cmGrVExtSetMaxY(&top_wext,cmGrVExtMaxY(ref_wext));
  817. fl = true;
  818. }
  819. }
  820. }
  821. // If fl is set then top_wext contains an expanded world view
  822. if( fl )
  823. {
  824. //cmGrVExtPrint("out top_wext",&top_wext);
  825. // this call may result in a recursion back into this function
  826. if((rc = _cmGrObjSetWorldExt( _cmGrHandleToPtr(sp->grH), top, &top_wext )) != kOkGrRC )
  827. goto errLabel;
  828. }
  829. }
  830. errLabel:
  831. return rc;
  832. }
  833. cmGrRC_t _cmGrObjSetWorldExt( cmGr_t* p, cmGrObj_t* op, const cmGrVExt_t* wext )
  834. {
  835. cmGrRC_t rc = kOkGrRC;
  836. cmGrVExt_t ce;
  837. cmGrVExt_t we = *wext; // make a copy of the new extents to override the 'const' on 'wext'.
  838. // apply the world ext limits to 'we'.
  839. _cmGrObjApplyExtLimits(op,&we);
  840. assert(cmGrVExtIsNorm(&we)); // assert w/h are positive
  841. // get the extents around all children
  842. if( _cmGrObjChildExts(p, op, &ce ) )
  843. {
  844. // if 'ce' is not entirely inside 'we'
  845. if( cmGrVExtIsExtInside(&we,&ce) == false )
  846. return cmErrMsg(&p->err,kExtsErrGrRC,"The change in world extents would have resulted in child objects outside the requested world extents.");
  847. }
  848. // if world extents are actually changing
  849. if( !cmGrVExtIsEqual(&op->wext,&we) )
  850. {
  851. // update the world extents for this object
  852. op->wext = we;
  853. //op->stateFlags = cmSetFlag(op->stateFlags,kDirtyObjFl);
  854. //cmGrVExtPrint(cmTsPrintf("set w: %i ",op->id),&we);
  855. // if this is the root object
  856. if( p->rootObj == op )
  857. {
  858. // this call may result in recursion back into this function
  859. // if two cmGr's are mutual sync targets - an infinite loop
  860. // should be avoided by the cmGrVExtIsEqual() test above.
  861. rc = _cmGrSyncWorldExtentsExpand(p, wext );
  862. }
  863. }
  864. return rc;
  865. }
  866. void _cmGrObjReport( cmGr_t* p, cmGrObj_t* op, cmRpt_t* rpt )
  867. {
  868. cmGrVExt_t vext;
  869. cmRptPrintf(rpt,"id:0x%x \n",op->id);
  870. _cmGrObjCbVExt( p, op, &vext);
  871. cmGrVExtRpt(&vext,rpt);
  872. cmRptPrintf(rpt,"\n");
  873. }
  874. void _cmGrObjReportR( cmGr_t* p, cmGrObj_t* op, cmRpt_t* rpt)
  875. {
  876. _cmGrObjReport(p, op,rpt);
  877. if( op->children != NULL )
  878. _cmGrObjReport(p,op->children,rpt);
  879. if( op->rsib != NULL )
  880. _cmGrObjReport(p,op->rsib,rpt);
  881. }
  882. //====================================================================================================
  883. cmGrRC_t cmGrObjCreate( cmGrH_t h, cmGrObjH_t* ohp, cmGrObjH_t parentH, cmGrObjFunc_t* f, unsigned id, unsigned flags, const cmGrVExt_t* wext )
  884. {
  885. cmGrRC_t rc;
  886. if((rc = cmGrObjDestroy(h,ohp)) != kOkGrRC )
  887. return rc;
  888. cmGr_t* p = _cmGrHandleToPtr(h);
  889. // allocate the new object
  890. cmGrObj_t* op = cmMemAllocZ(cmGrObj_t,1);
  891. op->id = id;
  892. op->f = *f;
  893. if( wext != NULL )
  894. {
  895. op->wext = *wext;
  896. if( cmGrVExtIsNotNull(wext) )
  897. cmGrVExtNorm(&op->wext);
  898. }
  899. // if an explicit parent was not provided
  900. // then assign the root object as the parent
  901. if( cmGrObjIsValid(h,parentH) == false )
  902. parentH.h = p->rootObj;
  903. // insert the object into the tree
  904. if( cmGrObjIsValid(h,parentH) )
  905. _cmGrObjAppendChild(_cmGrObjHandleToPtr(parentH),op);
  906. else
  907. {
  908. // no root object exits - so make this obj the root
  909. assert(p->objs == NULL );
  910. p->objs = op;
  911. }
  912. ohp->h = op;
  913. // Notify the application that an object was created.
  914. if((rc = _cmGrObjCbCreate(p,op)) != kOkGrRC )
  915. goto errLabel;
  916. if( f->vextCbFunc != NULL )
  917. {
  918. cmGrVExt_t vext;
  919. cmGrVExtSetEmpty(&vext);
  920. // get the local virtual extents for the new object
  921. cmGrObjLocalVExt(h, *ohp, &vext );
  922. if( cmGrVExtIsNotNullOrEmpty(&vext) )
  923. {
  924. // expand the parents world to contain the new object
  925. if( op->parent != NULL )
  926. {
  927. cmGrVExt_t parent_wext = op->parent->wext;
  928. if( cmGrVExtExpandToContain(&parent_wext,&vext) )
  929. _cmGrObjSetWorldExt(p,op->parent,&parent_wext);
  930. assert( cmGrVExtIsExtInside(&op->parent->wext,&vext) );
  931. }
  932. // if cfg'd to expand the view to contain new objects then do so here
  933. if( op->parent!=NULL && op->parent->parent==NULL && cmIsFlag(p->cfgFlags,kExpandViewGrFl) && cmGrVExtIsExtInside(&p->vext,&vext) == false )
  934. {
  935. cmGrVExt_t v = p->vext;
  936. if( cmGrVExtExpandToContain(&v,&vext) )
  937. _cmGrSetViewExtentsE(p,&v);
  938. assert( cmGrVExtIsExtInside(&op->parent->wext,&p->vext));
  939. }
  940. // if the new object is inside the view extents then mark
  941. // the object as dirty
  942. //if( cmGrVExtIsExtInside(&p->vext,&vext) )
  943. // op->stateFlags = cmSetFlag(op->stateFlags,kDirtyObjFl);
  944. }
  945. }
  946. errLabel:
  947. if( rc != kOkGrRC )
  948. cmGrObjDestroy(h,ohp);
  949. return rc;
  950. }
  951. cmGrRC_t _cmGrObjDestroy( cmGr_t* p, cmGrObj_t* op )
  952. {
  953. if( op == NULL )
  954. return kOkGrRC;
  955. return _cmGrObjUnlinkAndFree( p, op);
  956. }
  957. cmGrRC_t cmGrObjDestroy( cmGrH_t h, cmGrObjH_t* ohp )
  958. {
  959. cmGrRC_t rc = kOkGrRC;
  960. if( ohp==NULL || cmGrObjIsValid(h,*ohp) == false )
  961. return kOkGrRC;
  962. cmGrObj_t* op = _cmGrObjHandleToPtr(*ohp);
  963. if((rc = _cmGrObjDestroy(_cmGrHandleToPtr(h),op)) != kOkGrRC )
  964. return rc;
  965. ohp->h = NULL;
  966. return rc;
  967. }
  968. cmGrRC_t cmGrObjIsValid( cmGrH_t h, cmGrObjH_t oh )
  969. { return oh.h != NULL; }
  970. unsigned cmGrObjId( cmGrObjH_t oh )
  971. { return _cmGrObjHandleToPtr(oh)->id; }
  972. void cmGrObjSetId( cmGrObjH_t oh, unsigned id )
  973. {
  974. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  975. op->id = id;
  976. }
  977. cmGrObjH_t cmGrObjParent( cmGrObjH_t oh )
  978. {
  979. cmGrObjH_t poh;
  980. poh.h = _cmGrObjHandleToPtr(oh)->parent;
  981. return poh;
  982. }
  983. cmGrRC_t cmGrObjSetWorldExt( cmGrH_t h, cmGrObjH_t oh, const cmGrVExt_t* wext )
  984. {
  985. cmGr_t* p = _cmGrHandleToPtr(h);
  986. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  987. return _cmGrObjSetWorldExt(p,op,wext);
  988. }
  989. void cmGrObjWorldExt( cmGrObjH_t oh, cmGrVExt_t* wext )
  990. {
  991. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  992. *wext = op->wext;
  993. }
  994. cmGrRC_t cmGrObjSetWorldLimitExt( cmGrH_t h, cmGrObjH_t oh, const cmGrVExt_t* vext, unsigned limitFlags )
  995. {
  996. cmGrRC_t rc;
  997. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  998. // store the current world extents
  999. cmGrVExt_t lext = op->wlimitExt;
  1000. unsigned lfl = op->wlimitFlags;
  1001. // set the new limits
  1002. op->wlimitExt = *vext;
  1003. op->wlimitFlags = limitFlags;
  1004. cmGrVExtNorm(&op->wlimitExt);
  1005. // attempt to apply the current world extents with the new limits
  1006. // (this may fail if their are child objects out of range of the new extents)
  1007. if( cmGrVExtIsNotNull(&op->wext ) )
  1008. {
  1009. if((rc = cmGrObjSetWorldExt(h,oh,&op->wext)) != kOkGrRC )
  1010. {
  1011. // we failed - restore the old limits
  1012. op->wlimitExt = lext;
  1013. op->wlimitFlags = lfl;
  1014. }
  1015. }
  1016. return rc;
  1017. }
  1018. void cmGrObjWorldLimitExt( cmGrObjH_t oh, cmGrVExt_t* vext, unsigned* limitFlags )
  1019. {
  1020. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1021. if( vext != NULL )
  1022. *vext = op->wlimitExt;
  1023. if( limitFlags != NULL )
  1024. *limitFlags = op->wlimitFlags;
  1025. }
  1026. void cmGrObjSetCreateCb( cmGrObjH_t oh, cmGrCreateObjCb_t cbFunc, void* cbArg )
  1027. {
  1028. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1029. op->f.createCbFunc = cbFunc;
  1030. op->f.createCbArg = cbArg;
  1031. }
  1032. void cmGrObjSetDestroyCb( cmGrObjH_t oh, cmGrDestroyObjCb_t cbFunc, void* cbArg )
  1033. {
  1034. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1035. op->f.destroyCbFunc = cbFunc;
  1036. op->f.destroyCbArg = cbArg;
  1037. }
  1038. void cmGrObjSetRenderCb( cmGrObjH_t oh, cmGrRenderObjCb_t cbFunc, void* cbArg )
  1039. {
  1040. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1041. op->f.renderCbFunc = cbFunc;
  1042. op->f.renderCbArg = cbArg;
  1043. }
  1044. void cmGrObjSetDistanceCb( cmGrObjH_t oh, cmGrDistanceObjCb_t cbFunc, void* cbArg )
  1045. {
  1046. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1047. op->f.distanceCbFunc = cbFunc;
  1048. op->f.distanceCbArg = cbArg;
  1049. }
  1050. void cmGrObjSetEventCb( cmGrObjH_t oh, cmGrEventObjCb_t cbFunc, void* cbArg )
  1051. {
  1052. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1053. op->f.eventCbFunc = cbFunc;
  1054. op->f.eventCbArg = cbArg;
  1055. }
  1056. void cmGrObjSetVExtCb( cmGrObjH_t oh, cmGrVExtObjCb_t cbFunc, void* cbArg )
  1057. {
  1058. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1059. op->f.vextCbFunc = cbFunc;
  1060. op->f.vextCbArg = cbArg;
  1061. }
  1062. void cmGrObjSetIsInsideCb( cmGrObjH_t oh, cmGrIsInsideObjCb_t cbFunc, void* cbArg )
  1063. {
  1064. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1065. op->f.isInsideCbFunc = cbFunc;
  1066. op->f.isInsideCbArg = cbArg;
  1067. }
  1068. cmGrCreateObjCb_t cmGrObjCreateCbFunc( cmGrObjH_t oh )
  1069. {
  1070. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1071. return op->f.createCbFunc;
  1072. }
  1073. cmGrDestroyObjCb_t cmGrObjDestroyCbFunc( cmGrObjH_t oh )
  1074. {
  1075. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1076. return op->f.destroyCbFunc;
  1077. }
  1078. cmGrRenderObjCb_t cmGrObjRenderCbFunc( cmGrObjH_t oh )
  1079. {
  1080. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1081. return op->f.renderCbFunc;
  1082. }
  1083. cmGrDistanceObjCb_t cmGrObjDistanceCbFunc( cmGrObjH_t oh )
  1084. {
  1085. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1086. return op->f.distanceCbFunc;
  1087. }
  1088. cmGrEventObjCb_t cmGrObjEventCbFunc( cmGrObjH_t oh )
  1089. {
  1090. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1091. return op->f.eventCbFunc;
  1092. }
  1093. cmGrVExtObjCb_t cmGrObjVExtCbFunc( cmGrObjH_t oh )
  1094. {
  1095. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1096. return op->f.vextCbFunc;
  1097. }
  1098. cmGrIsInsideObjCb_t cmGrObjIsInsideCbFunc( cmGrObjH_t oh )
  1099. {
  1100. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1101. return op->f.isInsideCbFunc;
  1102. }
  1103. void* cmGrObjCreateCbArg( cmGrObjH_t oh )
  1104. {
  1105. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1106. return op->f.createCbArg;
  1107. }
  1108. void* cmGrObjDestroyCbArg( cmGrObjH_t oh )
  1109. {
  1110. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1111. return op->f.createCbArg;
  1112. }
  1113. void* cmGrObjRenderCbArg( cmGrObjH_t oh )
  1114. {
  1115. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1116. return op->f.destroyCbArg;
  1117. }
  1118. void* cmGrObjDistanceCbArg( cmGrObjH_t oh )
  1119. {
  1120. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1121. return op->f.distanceCbArg;
  1122. }
  1123. void* cmGrObjEventCbArg( cmGrObjH_t oh )
  1124. {
  1125. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1126. return op->f.eventCbArg;
  1127. }
  1128. void* cmGrObjVExtCbArg( cmGrObjH_t oh )
  1129. {
  1130. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1131. return op->f.vextCbArg;
  1132. }
  1133. void* cmGrObjIsInsideCbArg( cmGrObjH_t oh )
  1134. {
  1135. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1136. return op->f.isInsideCbArg;
  1137. }
  1138. void cmGrObjLocalVExt( cmGrH_t h, cmGrObjH_t oh, cmGrVExt_t* vext )
  1139. {
  1140. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1141. return _cmGrObjCbVExt( _cmGrHandleToPtr(h), op, vext);
  1142. }
  1143. cmGrObj_t* _cmGrObjIdToHandle( cmGrObj_t* op, unsigned id )
  1144. {
  1145. cmGrObj_t* rp = NULL;
  1146. if( op->id == id )
  1147. return op;
  1148. if( op->children != NULL )
  1149. if((rp = _cmGrObjIdToHandle(op->children,id)) != NULL )
  1150. return rp;
  1151. if( op->rsib != NULL )
  1152. if((rp = _cmGrObjIdToHandle(op->rsib,id)) != NULL )
  1153. return rp;
  1154. return NULL;
  1155. }
  1156. cmGrObjH_t cmGrObjIdToHandle( cmGrH_t h, unsigned id )
  1157. {
  1158. cmGr_t* p = _cmGrHandleToPtr(h);
  1159. cmGrObjH_t oh = cmGrObjNullHandle;
  1160. cmGrObj_t* op;
  1161. if((op = _cmGrObjIdToHandle(p->objs,id)) != NULL )
  1162. oh.h = op;
  1163. return oh;
  1164. }
  1165. // Move 'aoH' such that it is above 'boH' in the z-order.
  1166. // This means that 'boH' must be drawn before 'aoH'.
  1167. // This algorithm is designed to not break object hierarchies
  1168. // when moving objects. It achieves this by only moving
  1169. // the ancestor objects of boH and aoH at the level where
  1170. // they do not share a common ancestor.
  1171. void cmGrObjDrawAbove( cmGrObjH_t boH, cmGrObjH_t aoH )
  1172. {
  1173. cmGrObj_t* bp = _cmGrObjHandleToPtr(boH);
  1174. cmGrObj_t* ap = _cmGrObjHandleToPtr(aoH);
  1175. cmGrObj_t* rp = bp;
  1176. // set rp to the root object
  1177. while( rp->parent != NULL )
  1178. rp=rp->parent;
  1179. while(1)
  1180. {
  1181. cmGrObj_t* a[] = {NULL,NULL};
  1182. cmGrObj_t* bpp = NULL;
  1183. cmGrObj_t* app = NULL;
  1184. unsigned i = 0;
  1185. rp = rp->children;
  1186. for(; rp!=NULL; rp=rp->rsib)
  1187. {
  1188. if( bp==rp || _cmGrObjIsAncestor(rp,bp) )
  1189. {
  1190. assert( a[i]==NULL );
  1191. bpp = rp;
  1192. a[i++] = rp;
  1193. if( i==2 )
  1194. break;
  1195. }
  1196. if( ap==rp || _cmGrObjIsAncestor(rp,ap) )
  1197. {
  1198. assert( a[i]==NULL );
  1199. app = rp;
  1200. a[i++] = rp;
  1201. if( i==2 )
  1202. break;
  1203. }
  1204. }
  1205. assert( rp != NULL && i==2 );
  1206. // bpp and app share the same ancestor - keep looking
  1207. // for the level where the they do not share same ancestor
  1208. if( bpp == app )
  1209. rp = bpp;
  1210. else
  1211. {
  1212. // if bp is not already being drawn before ap
  1213. if( a[0] != bpp )
  1214. {
  1215. _cmGrObjUnlink(app);
  1216. _cmGrObjInsertOnRight(app,bpp,bpp->parent);
  1217. }
  1218. return;
  1219. }
  1220. }
  1221. }
  1222. void cmGrObjReport( cmGrH_t h, cmGrObjH_t oh, cmRpt_t* rpt )
  1223. {
  1224. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1225. _cmGrObjReport(_cmGrHandleToPtr(h),op,rpt);
  1226. }
  1227. void cmGrObjReportR( cmGrH_t h, cmGrObjH_t oh, cmRpt_t* rpt )
  1228. {
  1229. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1230. _cmGrObjReportR(_cmGrHandleToPtr(h),op,rpt);
  1231. }
  1232. //====================================================================================================
  1233. //====================================================================================================
  1234. #define _cmGr_X_VperP(p) (p->vext.sz.w / (p->pext.sz.w-1) )
  1235. #define _cmGr_Y_VperP(p) (p->vext.sz.h / (p->pext.sz.h-1) )
  1236. #define _cmGr_X_PperV(p) ((p->pext.sz.w-1) / p->vext.sz.w )
  1237. #define _cmGr_Y_PperV(p) ((p->pext.sz.h-1) / p->vext.sz.h )
  1238. int _cmGr_X_VtoP( cmGr_t* p, cmGrV_t vx )
  1239. { return p->pext.loc.x + lround( (vx - p->vext.loc.x) * _cmGr_X_PperV(p)); }
  1240. int _cmGr_Y_VtoP(cmGr_t* p, cmGrV_t vy )
  1241. { return p->pext.loc.y + (p->pext.sz.h-1) + lround(-(vy - p->vext.loc.y) * _cmGr_Y_PperV(p) ); }
  1242. cmGrV_t _cmGr_X_PtoV( cmGr_t* p, int px )
  1243. { return p->vext.loc.x + (px - p->pext.loc.x) * _cmGr_X_VperP(p); }
  1244. cmGrV_t _cmGr_Y_PtoV( cmGr_t* p, int py )
  1245. { return p->vext.loc.y + (p->pext.loc.y + (p->pext.sz.h-1) - py) * _cmGr_Y_VperP(p); }
  1246. #define _cmGrParentToLocalX( op, vext, x ) (op)->wext.loc.x + ((x) - (vext).loc.x) * (op)->wext.sz.w / (vext).sz.w
  1247. #define _cmGrParentToLocalY( op, vext, y ) (op)->wext.loc.y + ((y) - (vext).loc.y) * (op)->wext.sz.h / (vext).sz.h
  1248. #define _cmGrLocalToParentX( op, vext, x ) (vext).loc.x + ((x) - (op)->wext.loc.x) * (vext).sz.w / (op)->wext.sz.w
  1249. #define _cmGrLocalToParentY( op, vext, y ) (vext).loc.y + ((y) - (op)->wext.loc.y) * (vext).sz.h / (op)->wext.sz.h
  1250. // On input x,y are in the same coord's as op->vext.
  1251. // On output pt is converted to op's internal coord system (i.e. the pt is inside op->wext)
  1252. // Using pt as the src and dst is always safe. (i.e. _cmGrLocalToParent(p,op,pt->x,pt->y,pt) is safe.)
  1253. bool _cmGrParentToLocal( cmGr_t* p, cmGrObj_t* op, cmGrV_t x, cmGrV_t y, cmGrVPt_t* pt )
  1254. {
  1255. cmGrVExt_t vext;
  1256. _cmGrObjCbVExt(p,op,&vext);
  1257. if( cmGrVExtIsNullOrEmpty(&vext) )
  1258. return false;
  1259. pt->x = _cmGrParentToLocalX( op, vext, x);
  1260. pt->y = _cmGrParentToLocalY( op, vext, y );
  1261. //pt->x = op->wext.loc.x + (x - vext.loc.x) * op->wext.sz.w / vext.sz.w;
  1262. //pt->y = op->wext.loc.y + (y - vext.loc.y) * op->wext.sz.h / vext.sz.h;
  1263. return true;
  1264. }
  1265. // On input x,y are in the same coords as op->wext.
  1266. // On output pt is converted to be in the same coord's as op->vext (i.e.the pt is inside op->parent->wext)
  1267. // Using pt as the src and dst is always safe. (i.e. _cmGrLocalToParent(p,op,pt->x,pt->y,pt) is safe.)
  1268. void _cmGrLocalToParent( cmGr_t* p, cmGrObj_t* op, cmGrV_t x, cmGrV_t y, cmGrVPt_t* pt )
  1269. {
  1270. cmGrVExt_t vext;
  1271. _cmGrObjCbVExt(p,op,&vext);
  1272. pt->x = _cmGrLocalToParentX(op,vext, x);
  1273. pt->y = _cmGrLocalToParentY(op,vext, y);
  1274. //pt->x = vext.loc.x + (x - op->wext.loc.x) * vext.sz.w / op->wext.sz.w;
  1275. //pt->y = vext.loc.y + (y - op->wext.loc.y) * vext.sz.h / op->wext.sz.h;
  1276. }
  1277. // On input x is in coord's inside op->wext.
  1278. // Return is in phys coord's
  1279. int _cmGrX_VtoP( cmGr_t* p, cmGrObj_t* op, cmGrV_t x )
  1280. {
  1281. cmGrVExt_t vext;
  1282. for(; op->parent != NULL; op=op->parent )
  1283. {
  1284. _cmGrObjCbVExt(p,op,&vext);
  1285. x = _cmGrLocalToParentX(op->parent,vext,x);
  1286. }
  1287. return _cmGr_X_VtoP(p,x);
  1288. }
  1289. // On input y is in coord's inside op->wext.
  1290. // Return is in phys coord's
  1291. int _cmGrY_VtoP( cmGr_t* p, cmGrObj_t* op, cmGrV_t y )
  1292. {
  1293. cmGrVExt_t vext;
  1294. for(; op->parent != NULL; op=op->parent )
  1295. {
  1296. _cmGrObjCbVExt(p,op,&vext);
  1297. y = _cmGrLocalToParentY(op->parent,vext,y);
  1298. }
  1299. return _cmGr_Y_VtoP(p,y);
  1300. }
  1301. // On input x,y are coord's inside op->wext.
  1302. // On output rp is in physical coord's
  1303. void _cmGrXY_VtoP( cmGr_t* p, cmGrObj_t* op, cmGrV_t x, cmGrV_t y, cmGrPPt_t* rp )
  1304. {
  1305. cmGrVPt_t pt;
  1306. cmGrVPtSet(&pt,x,y);
  1307. for(; op->parent != NULL; op=op->parent )
  1308. _cmGrLocalToParent(p,op->parent,pt.x,pt.y,&pt);
  1309. rp->x = _cmGr_X_VtoP(p,pt.x);
  1310. rp->y = _cmGr_Y_VtoP(p,pt.y);
  1311. }
  1312. // pt is converted from the root obj coord system to be in the same coord's
  1313. // as op->vext (inside of op->parent->wext)
  1314. void _cmGrXY_GlobalToLocal( cmGr_t* p, cmGrObj_t* op, cmGrVPt_t* pt )
  1315. {
  1316. if( op->parent != NULL )
  1317. _cmGrXY_GlobalToLocal(p,op->parent,pt);
  1318. // convert from parent coord to child coords
  1319. _cmGrParentToLocal(p,op,pt->x,pt->y,pt);
  1320. }
  1321. // On input x,y are in physical coordindates.
  1322. // On output rp is inside op->parent->wext (the same coord's as op->vext)
  1323. void _cmGrXY_PtoV( cmGr_t* p, cmGrObj_t* op, int px, int py, cmGrVPt_t* rp )
  1324. {
  1325. // convert the phys points to points in the root coord system
  1326. rp->x = _cmGr_X_PtoV(p,px);
  1327. rp->y = _cmGr_Y_PtoV(p,py);
  1328. _cmGrXY_GlobalToLocal(p, op, rp );
  1329. }
  1330. int cmGrX_VtoP( cmGrH_t hh, cmGrObjH_t oh, cmGrV_t x )
  1331. {
  1332. cmGr_t* p = _cmGrHandleToPtr(hh);
  1333. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1334. return _cmGrX_VtoP(p,op,x);
  1335. }
  1336. int cmGrY_VtoP( cmGrH_t hh, cmGrObjH_t oh, cmGrV_t y )
  1337. {
  1338. cmGr_t* p = _cmGrHandleToPtr(hh);
  1339. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1340. return _cmGrY_VtoP(p,op,y);
  1341. }
  1342. void cmGrXY_VtoP( cmGrH_t h, cmGrObjH_t oh, cmGrV_t x, cmGrV_t y, cmGrPPt_t* rp )
  1343. { _cmGrXY_VtoP(_cmGrHandleToPtr(h), _cmGrObjHandleToPtr(oh), x, y, rp ); }
  1344. void cmGrXYWH_VtoP( cmGrH_t hh, cmGrObjH_t oh, cmGrV_t x, cmGrV_t y, cmGrV_t w, cmGrV_t h, cmGrPExt_t* pext )
  1345. {
  1346. cmGr_t* p = _cmGrHandleToPtr(hh);
  1347. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1348. cmGrPPt_t pt0,pt1;
  1349. _cmGrXY_VtoP(p,op,x, y, &pt0);
  1350. _cmGrXY_VtoP(p,op,x+w,y+h,&pt1);
  1351. cmGrPExtSetD(pext,pt0.x,pt0.y,pt1.x,pt1.y);
  1352. }
  1353. void cmGrVExt_VtoP( cmGrH_t hh, cmGrObjH_t oh, const cmGrVExt_t* vext, cmGrPExt_t* pext )
  1354. { cmGrXYWH_VtoP(hh,oh,vext->loc.x,vext->loc.y,vext->sz.w,vext->sz.h,pext); }
  1355. void cmGrXY_PtoV( cmGrH_t h, cmGrObjH_t oh, int x, int y, cmGrVPt_t* rp )
  1356. { _cmGrXY_PtoV(_cmGrHandleToPtr(h), _cmGrObjHandleToPtr(oh), x, y, rp ); }
  1357. void cmGrXYWH_PtoV( cmGrH_t hh, cmGrObjH_t oh, int x, int y, int w, int h, cmGrVExt_t* vext )
  1358. {
  1359. cmGr_t* p = _cmGrHandleToPtr(hh);
  1360. cmGrObj_t* op = _cmGrObjHandleToPtr(oh);
  1361. cmGrVPt_t pt0,pt1;
  1362. _cmGrXY_PtoV(p,op,x,y,&pt0);
  1363. _cmGrXY_PtoV(p,op,x+w-1,y+h-1,&pt1);
  1364. cmGrVExtSetD(vext,pt0.x,pt0.y,pt1.x,pt1.y);
  1365. }
  1366. void cmGrPExt_PtoV( cmGrH_t hh, cmGrObjH_t oh, const cmGrPExt_t* pext, cmGrVExt_t* vext )
  1367. { cmGrXYWH_PtoV(hh,oh,pext->loc.x,pext->loc.y,pext->sz.w,pext->sz.h,vext); }
  1368. void cmGrDrawVLine( cmGrH_t h, cmGrDcH_t dcH, cmGrObjH_t oh, cmGrV_t x0, cmGrV_t y0, cmGrV_t x1, cmGrV_t y1 )
  1369. {
  1370. cmGrPPt_t loc0;
  1371. cmGrPPt_t loc1;
  1372. cmGrXY_VtoP(h,oh,x0,y0,&loc0);
  1373. cmGrXY_VtoP(h,oh,x1,y1,&loc1);
  1374. cmGrDcDrawLine(dcH,loc0.x,loc0.y,loc1.x,loc1.y);
  1375. }
  1376. void cmGrDrawVRect( cmGrH_t hh, cmGrDcH_t dcH, cmGrObjH_t oh, cmGrV_t x, cmGrV_t y, cmGrV_t w, cmGrV_t h )
  1377. {
  1378. cmGrDrawVLine(hh,dcH,oh,x, y, x, y+h);
  1379. cmGrDrawVLine(hh,dcH,oh,x, y+h,x+w,y+h);
  1380. cmGrDrawVLine(hh,dcH,oh,x+w,y+h,x+w,y);
  1381. cmGrDrawVLine(hh,dcH,oh,x+w,y, x, y);
  1382. }
  1383. //====================================================================================================
  1384. //====================================================================================================
  1385. cmGrRC_t _cmGrDestroy( cmGr_t* p )
  1386. {
  1387. cmGrRC_t rc = kOkGrRC;
  1388. if( p->objs != NULL )
  1389. {
  1390. // destroy the root object and all of it's children
  1391. if((rc = _cmGrObjDestroy(p,p->objs)) != kOkGrRC )
  1392. return rc;
  1393. }
  1394. cmGrSync_t* sp = p->syncs;
  1395. while( sp != NULL )
  1396. {
  1397. cmGrH_t h;
  1398. h.h = p;
  1399. cmGrSync_t* np = sp->link;
  1400. // break sync with any mutually sync'ed gr's to prevent
  1401. // attempted calls to this gr.
  1402. cmGrSetSync( sp->grH, h, 0 );
  1403. cmMemFree(sp);
  1404. sp = np;
  1405. }
  1406. p->syncs = NULL;
  1407. cmLHeapDestroy(&p->lhH);
  1408. cmMemPtrFree(&p->img);
  1409. cmMemFree(p);
  1410. return rc;
  1411. }
  1412. void _cmGrObjRootVExt( cmGrObjFuncArgs_t* args, cmGrVExt_t* vext )
  1413. {
  1414. // the root object's virtual extent is the same as it's world extent
  1415. cmGrObjWorldExt( args->objH, vext );
  1416. }
  1417. bool _cmGrObjRootIsInside( cmGrObjFuncArgs_t* args, unsigned evtFlags, int px, int py, cmGrV_t vx, cmGrV_t vy )
  1418. {
  1419. cmGrVExt_t vext;
  1420. _cmGrObjRootVExt(args,&vext);
  1421. return cmGrVExtIsXyInside(&vext,vx,vy);
  1422. }
  1423. void _cmGrSetCfgFlags( cmGr_t* p, unsigned flags )
  1424. {
  1425. p->cfgFlags = flags;
  1426. // kSelectHorzFl and kSelectVertFl are mutually exclusive
  1427. if( cmIsFlag(p->cfgFlags,kSelectHorzGrFl) )
  1428. p->cfgFlags = cmClrFlag(p->cfgFlags,kSelectVertGrFl);
  1429. }
  1430. void _cmGrCallback( cmGr_t* p, cmGrCbId_t id, unsigned eventFlags, cmGrKeyCodeId_t keycode )
  1431. {
  1432. if( p->cbFunc != NULL )
  1433. {
  1434. cmGrH_t h;
  1435. h.h = p;
  1436. p->cbFunc(p->cbArg,h,id,eventFlags,keycode);
  1437. }
  1438. }
  1439. cmGrRC_t cmGrCreate( cmCtx_t* ctx, cmGrH_t* hp, unsigned id, unsigned cfgFlags, cmGrCbFunc_t cbFunc, void* cbArg, const cmGrVExt_t* wext )
  1440. {
  1441. cmGrRC_t rc = kOkGrRC;
  1442. cmGrVExt_t null_ext;
  1443. cmGrObjH_t rootObjH = cmGrObjNullHandle;
  1444. if(( rc = cmGrDestroy(hp)) != kOkGrRC )
  1445. return rc;
  1446. // create the cmGr_t
  1447. cmGr_t* p = cmMemAllocZ(cmGr_t,1);
  1448. p->ctx = *ctx;
  1449. p->id = id;
  1450. p->stateFlags = kDirtyGrFl;
  1451. p->cbFunc = cbFunc;
  1452. p->cbArg = cbArg;
  1453. _cmGrSetCfgFlags(p,cfgFlags);
  1454. if( wext == NULL )
  1455. {
  1456. cmGrVExtSetNull(&null_ext);
  1457. wext = &null_ext;
  1458. }
  1459. cmErrSetup(&p->err,&ctx->rpt,"cmGr");
  1460. if( cmLHeapIsValid( p->lhH = cmLHeapCreate(8192,ctx)) == false )
  1461. {
  1462. rc = cmErrMsg(&p->err,kLHeapFailGrRC,"Linked heap create failed.");
  1463. goto errLabel;
  1464. }
  1465. cmGrVExtSetEmpty(&p->vext);
  1466. cmGrPExtSetEmpty(&p->pext);
  1467. hp->h = p;
  1468. // create the root object
  1469. cmGrObjFunc_t funcs;
  1470. memset(&funcs,0,sizeof(funcs));
  1471. funcs.vextCbFunc = _cmGrObjRootVExt;
  1472. funcs.isInsideCbFunc = _cmGrObjRootIsInside;
  1473. if((rc = cmGrObjCreate(*hp, &rootObjH, cmGrObjNullHandle, &funcs, cmInvalidId, 0, wext )) != kOkGrRC )
  1474. {
  1475. rc = cmErrMsg(&p->err,kRootObjCreateFailGrRC,"The root object creation failed.");
  1476. goto errLabel;
  1477. }
  1478. // create the default color map
  1479. _cmGrRgbInitDefaultColorMap(p);
  1480. p->objs = _cmGrObjHandleToPtr(rootObjH);
  1481. p->rootObj = p->objs;
  1482. _cmGrCallback(p,kCreateCbGrId,0,kInvalidKeyCodeGrId);
  1483. errLabel:
  1484. if( rc != kOkGrRC )
  1485. {
  1486. _cmGrDestroy(p);
  1487. hp->h = NULL;
  1488. }
  1489. return rc;
  1490. }
  1491. cmGrRC_t cmGrDestroy( cmGrH_t* hp )
  1492. {
  1493. cmGrRC_t rc = kOkGrRC;
  1494. if( hp==NULL || cmGrIsValid(*hp) == false )
  1495. return kOkGrRC;
  1496. cmGr_t* p = _cmGrHandleToPtr(*hp);
  1497. if((rc = _cmGrDestroy(p)) != kOkGrRC )
  1498. goto errLabel;
  1499. hp->h = NULL;
  1500. errLabel:
  1501. return rc;
  1502. }
  1503. // Destroy all objects (except the root object)
  1504. cmGrRC_t _cmGrObjDestroyAll( cmGr_t* p )
  1505. {
  1506. cmGrObj_t* op = p->objs;
  1507. if( op != NULL )
  1508. {
  1509. op = op->children;
  1510. while( op != NULL )
  1511. {
  1512. cmGrObj_t* np = op->rsib;
  1513. _cmGrObjUnlinkAndFree(p,op);
  1514. op = np;
  1515. }
  1516. }
  1517. return kOkGrRC;
  1518. }
  1519. cmGrRC_t cmGrClear( cmGrH_t h )
  1520. {
  1521. cmGrRC_t rc;
  1522. cmGr_t* p = _cmGrHandleToPtr(h);
  1523. if((rc = _cmGrObjDestroyAll(p)) != kOkGrRC )
  1524. return rc;
  1525. p->rootObj = p->objs;
  1526. p->stateFlags = kDirtyGrFl;
  1527. cmGrVExtSetEmpty(&p->vext);
  1528. p->msDnObj = NULL;
  1529. cmGrPPtSet(&p->msDnPPt,0,0);
  1530. cmGrVPtSet(&p->msDnVPt,0,0);
  1531. cmGrVPtSet(&p->msVPt,0,0);
  1532. cmGrVSzSet(&p->msDnVOffs,0,0);
  1533. p->selValidFl = false;
  1534. cmGrVPtSet(&p->sel0Pt,0,0);
  1535. cmGrVPtSet(&p->sel1Pt,0,0);
  1536. cmGrVPtSet(&p->localPt,0,0);
  1537. cmGrVPtSet(&p->globalPt,0,0);
  1538. cmGrVExtSetNull(&p->rootObj->wext);
  1539. return rc;
  1540. }
  1541. cmGrObjH_t cmGrRootObjH( cmGrH_t h )
  1542. {
  1543. cmGr_t* p = _cmGrHandleToPtr(h);
  1544. cmGrObjH_t oh;
  1545. oh.h = p->rootObj;
  1546. return oh;
  1547. }
  1548. unsigned cmGrCfgFlags( cmGrH_t h )
  1549. {
  1550. cmGr_t* p = _cmGrHandleToPtr(h);
  1551. return p->cfgFlags;
  1552. }
  1553. void cmGrSetCfgFlags( cmGrH_t h, unsigned cfgFlags )
  1554. {
  1555. cmGr_t* p = _cmGrHandleToPtr(h);
  1556. _cmGrSetCfgFlags(p,cfgFlags);
  1557. }
  1558. void _cmGrObjDraw( cmGr_t* p, cmGrObj_t* op, cmGrDcH_t dcH )
  1559. {
  1560. _cmGrObjCbRender(p,dcH,op);
  1561. if( op->children != NULL )
  1562. _cmGrObjDraw(p,op->children,dcH);
  1563. if( op->rsib != NULL )
  1564. _cmGrObjDraw(p,op->rsib,dcH);
  1565. }
  1566. void _cmInvertImage( cmGr_t* p, cmGrDcH_t dcH, const cmGrPExt_t* pext )
  1567. {
  1568. if( cmGrPExtIsNullOrEmpty(pext) )
  1569. return;
  1570. cmGrPExt_t r;
  1571. cmGrPExtIntersect( &r, pext, &p->pext );
  1572. unsigned n = r.sz.w * r.sz.h * 3;
  1573. if( n > 0 )
  1574. {
  1575. unsigned i;
  1576. p->img = cmMemResizeZ(unsigned char,p->img,n);
  1577. //p->dd.read_image(p->ddUser, p->img, r.loc.x, r.loc.y, r.sz.w, r.sz.h );
  1578. cmGrDcReadImage( dcH, p->img, &r );
  1579. for(i=0; i<n; ++i)
  1580. p->img[i] = 255 - p->img[i];
  1581. //p->dd.draw_image(p->ddUser, p->img, r.loc.x, r.loc.y, r.sz.w, r.sz.h);
  1582. cmGrDcDrawImage( dcH, p->img, &r);
  1583. }
  1584. }
  1585. cmGrRC_t cmGrDraw( cmGrH_t h, cmGrDcH_t dcH )
  1586. {
  1587. cmGr_t* p = _cmGrHandleToPtr(h);
  1588. _cmGrObjDraw(p,p->rootObj,dcH);
  1589. cmGrPExt_t pext;
  1590. cmGrVExt_t vext;
  1591. cmGrSelectExtents(h,&vext,&pext);
  1592. if( cmGrPExtIsNotNull(&pext))
  1593. {
  1594. if( pext.sz.w<=1 && pext.sz.h<=1 )
  1595. {
  1596. cmGrPExt_t ipext;
  1597. if( !cmIsFlag(p->cfgFlags,kSelectHorzGrFl) )
  1598. {
  1599. cmGrPExtSet(&ipext,p->pext.loc.x,pext.loc.y,p->pext.sz.w,1);
  1600. _cmInvertImage(p,dcH,&ipext);
  1601. }
  1602. if( !cmIsFlag(p->cfgFlags,kSelectVertGrFl) )
  1603. {
  1604. cmGrPExtSet(&ipext,pext.loc.x,p->pext.loc.y,1,p->pext.sz.h);
  1605. _cmInvertImage(p,dcH,&ipext);
  1606. }
  1607. }
  1608. else
  1609. {
  1610. _cmInvertImage(p,dcH,&pext);
  1611. }
  1612. }
  1613. return kOkGrRC;
  1614. }
  1615. bool _cmGrSetViewExtents( cmGr_t* p, cmGrV_t minx, cmGrV_t miny, cmGrV_t maxx, cmGrV_t maxy )
  1616. {
  1617. cmGrVExt_t vext;
  1618. // load a vext with the new view extents
  1619. cmGrVExtSetD(&vext,minx,miny,maxx,maxy);
  1620. // if the view ext is not changing
  1621. if( cmGrVExtIsEqual(&p->vext,&vext) )
  1622. return false;
  1623. // the root object must exist
  1624. assert( p->rootObj != NULL );
  1625. // the view extents must be in the world extents
  1626. if( cmGrVExtIsExtInside(&p->rootObj->wext,&vext)==false )
  1627. {
  1628. cmErrMsg(&p->err,kInvalidCoordsGrRC,"View extent is not inside the world extents.");
  1629. return false;
  1630. }
  1631. //cmGrVExtPrint("set vw:",&vext);
  1632. p->vext = vext;
  1633. p->stateFlags = cmSetFlag(p->stateFlags,kDirtyGrFl);
  1634. _cmGrCallback(p, kViewExtCbGrId,0,kInvalidKeyCodeGrId );
  1635. // apply changes to synch target
  1636. cmGrSync_t* sp = p->syncs;
  1637. for(; sp!=NULL; sp=sp->link)
  1638. if( cmIsFlag(sp->flags,kViewSyncGrFl) )
  1639. {
  1640. cmGrViewExtents( sp->grH, &vext );
  1641. bool fl = false;
  1642. if( cmIsFlag(sp->flags,kHorzSyncGrFl) )
  1643. {
  1644. fl = true;
  1645. vext.loc.x = p->vext.loc.x;
  1646. vext.sz.w = p->vext.sz.w;
  1647. }
  1648. if( cmIsFlag(sp->flags,kVertSyncGrFl) )
  1649. {
  1650. fl = true;
  1651. vext.loc.y = p->vext.loc.y;
  1652. vext.sz.h = p->vext.sz.h;
  1653. }
  1654. if( fl )
  1655. cmGrSetViewExtentsE( sp->grH, &vext );
  1656. }
  1657. //printf("s:%p %f %f %f %f\n",p,p->vext.loc.x, p->vext.loc.y, p->vext.sz.w, p->vext.sz.h );
  1658. return true;
  1659. }
  1660. bool _cmGrSetScrollH( cmGr_t* p, int x )
  1661. {
  1662. assert( p->rootObj != NULL );
  1663. cmGrV_t vx = p->rootObj->wext.loc.x + (x * p->vext.sz.w / p->pext.sz.w);
  1664. return _cmGrSetViewExtents(p,vx, p->vext.loc.y, vx+p->vext.sz.w, p->vext.loc.y+p->vext.sz.h);
  1665. }
  1666. int _cmGrScrollH( cmGr_t* p )
  1667. { return round((p->vext.loc.x - p->rootObj->wext.loc.x) * p->pext.sz.w / p->vext.sz.w); }
  1668. bool _cmGrSetScrollV( cmGr_t* p, int y )
  1669. {
  1670. assert( p->rootObj != NULL );
  1671. cmGrV_t vy = p->rootObj->wext.loc.y + (y * p->vext.sz.h / p->pext.sz.h);
  1672. return _cmGrSetViewExtents(p, p->vext.loc.x, vy, p->vext.loc.x+p->vext.sz.w, vy + p->vext.sz.h);
  1673. }
  1674. int _cmGrScrollV( cmGr_t* p )
  1675. { return round((p->vext.loc.y - p->rootObj->wext.loc.y) * p->pext.sz.h / p->vext.sz.h); }
  1676. void _cmGrSetSelectPoints(cmGr_t* p, const cmGrVPt_t* pt0, const cmGrVPt_t* pt1)
  1677. {
  1678. bool deltaFl = false;
  1679. p->selValidFl = true;
  1680. if( pt0 != NULL )
  1681. {
  1682. if( cmGrVPtIsNotEqual(&p->sel0Pt,pt0) )
  1683. {
  1684. p->sel0Pt = *pt0;
  1685. deltaFl = true;
  1686. }
  1687. if( pt1 == NULL && cmGrVPtIsNotEqual(&p->sel1Pt,pt0) )
  1688. {
  1689. p->sel1Pt = *pt0;
  1690. deltaFl = true;
  1691. }
  1692. }
  1693. if( pt1 != NULL && cmGrVPtIsNotEqual(&p->sel1Pt,pt1) )
  1694. {
  1695. p->sel1Pt = *pt1;
  1696. deltaFl = true;
  1697. }
  1698. if( !deltaFl )
  1699. return;
  1700. _cmGrCallback(p,kSelectExtCbGrId,0,kInvalidKeyCodeGrId);
  1701. // apply changes to synch target
  1702. cmGrSync_t* sp = p->syncs;
  1703. for(; sp!=NULL; sp=sp->link)
  1704. if( cmIsFlag(sp->flags,kSelectSyncGrFl) )
  1705. {
  1706. cmGrVPt_t pt0, pt1;
  1707. cmGrSelectPoints(sp->grH, &pt0, &pt1 );
  1708. bool fl = false;
  1709. if( cmIsFlag(sp->flags,kHorzSyncGrFl) )
  1710. {
  1711. fl = true;
  1712. pt0.x = p->sel0Pt.x;
  1713. pt1.x = p->sel1Pt.x;
  1714. }
  1715. if( cmIsFlag(sp->flags,kVertSyncGrFl) )
  1716. {
  1717. fl = true;
  1718. pt0.y = p->sel0Pt.y;
  1719. pt1.y = p->sel1Pt.y;
  1720. }
  1721. if( fl )
  1722. cmGrSetSelectPoints( sp->grH, &pt0, &pt1 );
  1723. }
  1724. }
  1725. void _cmGrScrollExtents( cmGr_t* p, cmGrPSz_t* tot, cmGrPSz_t* vis, cmGrPSz_t* max, cmGrPPt_t* pos )
  1726. {
  1727. assert( p->rootObj != NULL );
  1728. if( tot != NULL )
  1729. {
  1730. tot->w = round(p->rootObj->wext.sz.w * p->pext.sz.w / p->vext.sz.w);
  1731. tot->h = round(p->rootObj->wext.sz.h * p->pext.sz.h / p->vext.sz.h);
  1732. }
  1733. if( vis != NULL )
  1734. {
  1735. vis->w = round(p->vext.sz.w * p->pext.sz.w / p->vext.sz.w);
  1736. vis->h = round(p->vext.sz.h * p->pext.sz.h / p->vext.sz.h);
  1737. }
  1738. if( max != NULL )
  1739. {
  1740. max->w = tot->w - vis->w;
  1741. max->h = tot->h - vis->h;
  1742. }
  1743. if( pos != NULL )
  1744. {
  1745. pos->x = _cmGrScrollH(p);
  1746. pos->y = _cmGrScrollV(p);
  1747. }
  1748. }
  1749. // vx,vy are in the same coord's as op->vext
  1750. cmGrObj_t* _cmGrFindObjRec( cmGr_t* p, cmGrObj_t* op, unsigned evtFlags, int px, int py, cmGrV_t vx, cmGrV_t vy )
  1751. {
  1752. cmGrObj_t* rop = NULL;
  1753. cmGrObj_t* top;
  1754. cmGrVExt_t vext;
  1755. // get the location of op inside op->parent->wext
  1756. _cmGrObjCbVExt(p,op,&vext);
  1757. // is vx,vy inside op - this is equiv to: cmGrVExtIsXyInside(&vext,vx,vy)
  1758. if( _cmGrObjCbIsInside(p,op,evtFlags,px,py,vx,vy) )
  1759. rop = op;
  1760. if( op->children != NULL )
  1761. {
  1762. cmGrVPt_t pt;
  1763. if( _cmGrParentToLocal(p,op,vx,vy,&pt) )
  1764. if((top = _cmGrFindObjRec(p,op->children,evtFlags,px,py,vx,vy)) != NULL )
  1765. rop = top;
  1766. }
  1767. if( op->rsib != NULL )
  1768. if((top = _cmGrFindObjRec(p,op->rsib,evtFlags,px,py,vx,vy)) != NULL )
  1769. rop = top;
  1770. return rop;
  1771. }
  1772. cmGrObj_t* _cmGrEventMsDown( cmGr_t* p, unsigned evtFlags, cmGrKeyCodeId_t key, int px, int py, cmGrV_t gx, cmGrV_t gy )
  1773. {
  1774. // store the phys loc. of the ms dn event
  1775. cmGrPPtSet(&p->msDnPPt,px,py);
  1776. // get a pointer to an object
  1777. cmGrObj_t* op = _cmGrFindObjRec(p, p->rootObj, evtFlags, px, py, gx, gy );
  1778. // if the mouse did not go down in an object that accepts mouse down events
  1779. // or the object was a root object
  1780. if( op == NULL || op->parent == NULL )
  1781. return NULL;
  1782. // store the object and coord's where the mouse went down.
  1783. cmGrVExt_t vext;
  1784. p->msDnObj = op; // set the msDnObj
  1785. // convert the phys ms dn point to the virt point inside op->parent.wext
  1786. _cmGrXY_PtoV(p, op->parent, px, py, &p->msDnVPt );
  1787. p->msVPt = p->msDnVPt; // set the current ms virt pt
  1788. p->localPt = p->msDnVPt; // set the current local pt
  1789. // notifiy the app of the local coord's
  1790. _cmGrCallback(p,kLocalPtCbGrId,0,kInvalidKeyCodeGrId);
  1791. // get the ms down obj virt extents
  1792. _cmGrObjCbVExt(p,op,&vext);
  1793. // store the offset from the lower left to the ms dn point
  1794. p->msDnVOffs.w = p->msDnVPt.x - vext.loc.x;
  1795. p->msDnVOffs.h = p->msDnVPt.y - vext.loc.y;
  1796. // notify the object that the mouse went down
  1797. if(_cmGrObjCbEvent(p,op,evtFlags,key,px,py))
  1798. return op;
  1799. return NULL;
  1800. }
  1801. cmGrObj_t* _cmGrEventMsUp( cmGr_t* p, unsigned evtFlags, cmGrKeyCodeId_t key, int px, int py, cmGrV_t gx, cmGrV_t gy )
  1802. {
  1803. bool fl = false;
  1804. cmGrObj_t* op = NULL;
  1805. cmGrPPt_t upPPt;
  1806. cmGrPPtSet(&upPPt,px,py);
  1807. // if a click occured ...
  1808. if( cmGrPPtIsEqual(&p->msDnPPt,&upPPt ) )
  1809. {
  1810. // ... and the click is in a non-root object which accepts click events ...
  1811. if( p->msDnObj!= NULL && p->msDnObj->parent!=NULL && _cmGrObjCbIsInside(p,p->msDnObj,evtFlags | kMsClickGrFl, px, py, gx, gy) )
  1812. {
  1813. // ... then generate a click event
  1814. unsigned newEvtFlags = cmClrFlag(evtFlags,kMsUpGrFl) | kMsClickGrFl;
  1815. fl = _cmGrObjCbEvent(p,p->msDnObj,newEvtFlags,key,px,py);
  1816. op = p->msDnObj;
  1817. }
  1818. else // ... else if the click occurred in the root object
  1819. //if( p->msDnObj==NULL || p->msDnObj->parent==NULL)
  1820. {
  1821. cmGrVPt_t pt;
  1822. cmGrVPtSet(&pt,gx,gy);
  1823. bool shFl = cmIsFlag(evtFlags,kShiftKeyGrFl);
  1824. _cmGrSetSelectPoints( p, shFl ? NULL : &pt, shFl ? &pt : NULL );
  1825. }
  1826. }
  1827. // if op is NULL then there was no-mouse down object to match with
  1828. // this mouse-up event - find an object to match with the mouse-up event
  1829. if( op == NULL )
  1830. op = _cmGrFindObjRec(p, p->rootObj, evtFlags, px, py, gx, gy );
  1831. // if a mouse-up object was found then
  1832. if( op != NULL && op->parent != NULL)
  1833. {
  1834. // notify the object under the mouse that the mouse went up
  1835. if( _cmGrObjCbEvent(p,op,evtFlags,key,px,py) )
  1836. fl = true;
  1837. // convert the phys ms dn point to the virt point inside op->parent.wext
  1838. _cmGrXY_PtoV(p, op->parent, px, py, &p->msVPt );
  1839. }
  1840. _cmGrCallback(p,kFocusCbGrId,0,kInvalidKeyCodeGrId);
  1841. p->msDnObj = NULL;
  1842. return fl ? op : NULL;
  1843. }
  1844. cmGrObj_t* _cmGrEventMsMove( cmGr_t* p, unsigned evtFlags, cmGrKeyCodeId_t key, int px, int py, cmGrV_t gx, cmGrV_t gy )
  1845. {
  1846. bool fl = false;
  1847. cmGrObj_t* op = _cmGrFindObjRec(p, p->rootObj, evtFlags, px, py, gx, gy );
  1848. if( op != NULL && op->parent != NULL )
  1849. {
  1850. fl = _cmGrObjCbEvent(p,op,evtFlags,key,px,py);
  1851. }
  1852. return fl ? op : NULL;
  1853. }
  1854. cmGrObj_t* _cmGrEventMsDrag( cmGr_t* p, unsigned evtFlags, cmGrKeyCodeId_t key, int px, int py, cmGrV_t gx, cmGrV_t gy )
  1855. {
  1856. bool fl = false;
  1857. cmGrObj_t* op = _cmGrFindObjRec(p, p->rootObj, evtFlags, px, py, gx, gy );
  1858. if( op != NULL && op->parent != NULL )
  1859. {
  1860. // set the current virtual point
  1861. _cmGrXY_PtoV(p, p->msDnObj->parent, px, py, &p->msVPt );
  1862. // callback the dragged object
  1863. fl = _cmGrObjCbEvent(p,p->msDnObj,evtFlags,key,px,py);
  1864. // if the px,py is outside the root phys extents then scroll
  1865. if( !cmGrPExtIsXyInside(&p->pext,px,py) )
  1866. {
  1867. bool hFl = false, vFl=false;
  1868. cmGrPSz_t tot,vis,max;
  1869. cmGrPPt_t pos;
  1870. _cmGrScrollExtents(p, &tot, &vis, &max, &pos );
  1871. if( px < cmGrPExtL(&p->pext) )
  1872. hFl = _cmGrSetScrollH(p, cmMax(0, _cmGrScrollH(p) - (cmGrPExtL(&p->pext) - px)));
  1873. else
  1874. if( px > cmGrPExtR(&p->pext) )
  1875. hFl = _cmGrSetScrollH(p, cmMin(max.w, _cmGrScrollH(p) + (px - cmGrPExtR(&p->pext))));
  1876. if( py < cmGrPExtT(&p->pext) )
  1877. vFl = _cmGrSetScrollV(p, cmMax(0, _cmGrScrollV(p) - (cmGrPExtT(&p->pext) - py)));
  1878. else
  1879. if( py > cmGrPExtB(&p->pext) )
  1880. vFl = _cmGrSetScrollV(p, cmMin(max.h, _cmGrScrollV(p) + (py - cmGrPExtB(&p->pext))));
  1881. fl = fl || vFl || hFl;
  1882. }
  1883. }
  1884. return fl ? op : NULL;
  1885. }
  1886. bool cmGrEvent( cmGrH_t h, unsigned evtFlags, cmGrKeyCodeId_t key, int px, int py )
  1887. {
  1888. bool fl = false;
  1889. cmGrObj_t* op = NULL;
  1890. cmGr_t* p = _cmGrHandleToPtr(h);
  1891. cmGrVPtSet(&p->localPt,0,0);
  1892. // convert the phys points to points in the root coord system
  1893. cmGrV_t gx = _cmGr_X_PtoV(p,px);
  1894. cmGrV_t gy = _cmGr_Y_PtoV(p,py);
  1895. // set the global point
  1896. cmGrVPtSet(&p->globalPt,gx,gy);
  1897. // inform the app of the possibly new global point
  1898. _cmGrCallback(p,kGlobalPtCbGrId,0,kInvalidKeyCodeGrId);
  1899. switch( evtFlags & kEvtMask)
  1900. {
  1901. case kKeyUpGrFl:
  1902. _cmGrCallback(p,kKeyUpCbGrId,evtFlags,key);
  1903. break;
  1904. case kKeyDnGrFl:
  1905. _cmGrCallback(p,kKeyDnCbGrId,evtFlags,key);
  1906. break;
  1907. case kMsDownGrFl:
  1908. op = _cmGrEventMsDown(p,evtFlags,key,px,py,gx,gy);
  1909. break;
  1910. case kMsUpGrFl: // handle mouse-up, mouse-click, and focus events
  1911. op = _cmGrEventMsUp(p,evtFlags,key,px,py,gx,gy);
  1912. break;
  1913. case kMsMoveGrFl:
  1914. op = _cmGrEventMsMove(p,evtFlags,key,px,py,gx,gy);
  1915. break;
  1916. case kMsDragGrFl:
  1917. op = _cmGrEventMsDrag(p,evtFlags,key,px,py,gx,gy);
  1918. break;
  1919. }
  1920. if( op != NULL )
  1921. {
  1922. // convert gx,gy to be inside op->wext
  1923. cmGrVPtSet(&p->localPt,gx,gy);
  1924. _cmGrXY_GlobalToLocal(p,op,&p->localPt);
  1925. _cmGrCallback(p,kLocalPtCbGrId,0,kInvalidKeyCodeGrId);
  1926. fl = true;
  1927. }
  1928. return fl;
  1929. }
  1930. bool cmGrEvent1( cmGrH_t h, unsigned flags, cmGrKeyCodeId_t key, int px, int py )
  1931. {
  1932. bool fl = false;
  1933. cmGr_t* p = _cmGrHandleToPtr(h);
  1934. cmGrObj_t* op;
  1935. cmGrVPtSet(&p->localPt,0,0);
  1936. // convert the phys points to points in the root coord system
  1937. cmGrV_t gx = _cmGr_X_PtoV(p,px);
  1938. cmGrV_t gy = _cmGr_Y_PtoV(p,py);
  1939. cmGrVPtSet(&p->globalPt,gx,gy);
  1940. _cmGrCallback(p,kGlobalPtCbGrId,0,kInvalidKeyCodeGrId);
  1941. // find the obj under the mouse
  1942. if((op = _cmGrFindObjRec(p,p->rootObj,flags&kEvtMask,px,py,gx,gy)) != NULL )
  1943. {
  1944. // convert gx,gy to be inside op->wext
  1945. cmGrVPtSet(&p->localPt,gx,gy);
  1946. _cmGrXY_GlobalToLocal(p,op,&p->localPt);
  1947. _cmGrCallback(p,kLocalPtCbGrId,0,kInvalidKeyCodeGrId);
  1948. }
  1949. if( (flags&kEvtMask)==kKeyUpGrFl )
  1950. _cmGrCallback(p,kKeyUpCbGrId,flags,key);
  1951. if( (flags&kEvtMask)==kKeyDnGrFl )
  1952. _cmGrCallback(p,kKeyDnCbGrId,flags,key);
  1953. if( op != NULL )
  1954. {
  1955. switch( flags & kEvtMask )
  1956. {
  1957. case kMsDownGrFl:
  1958. // store the phys loc. of the ms dn event
  1959. cmGrPPtSet(&p->msDnPPt,px,py);
  1960. if( op != NULL )
  1961. {
  1962. // if the click was in not in the root object
  1963. if( op->parent != NULL )
  1964. {
  1965. // store the object and coord's where the mouse went down.
  1966. cmGrVExt_t vext;
  1967. p->msDnObj = op; // set the msDnObj
  1968. // convert the phys ms dn point to the virt point inside op->parent.wext
  1969. _cmGrXY_PtoV(p, op->parent, px, py, &p->msDnVPt );
  1970. // set the current ms virt pt
  1971. p->msVPt = p->msDnVPt;
  1972. // get the ms down obj virt extents
  1973. _cmGrObjCbVExt(p,op,&vext);
  1974. // store the offset from the lower left to the ms dn point
  1975. p->msDnVOffs.w = p->msDnVPt.x - vext.loc.x;
  1976. p->msDnVOffs.h = p->msDnVPt.y - vext.loc.y;
  1977. // notify the object that the mouse went down
  1978. fl = _cmGrObjCbEvent(p,op,flags,key,px,py);
  1979. }
  1980. }
  1981. break;
  1982. case kMsUpGrFl:
  1983. {
  1984. cmGrPPt_t upPPt;
  1985. cmGrPPtSet(&upPPt,px,py);
  1986. bool clickFl = cmGrPPtIsEqual(&p->msDnPPt,&upPPt );
  1987. // if a click occured ...
  1988. if( clickFl )
  1989. {
  1990. // ... and the click is in a non-root object ...
  1991. if( p->msDnObj!= NULL && p->msDnObj->parent!=NULL )
  1992. {
  1993. // ... then generate a click event
  1994. unsigned evtFlags = cmClrFlag(flags,kMsUpGrFl) | kMsClickGrFl;
  1995. fl = _cmGrObjCbEvent(p,op,evtFlags,key,px,py);
  1996. }
  1997. else // ... else if the click occurred in the root object
  1998. {
  1999. cmGrVPt_t pt;
  2000. cmGrVPtSet(&pt,gx,gy);
  2001. bool shFl = cmIsFlag(flags,kShiftKeyGrFl);
  2002. _cmGrSetSelectPoints( p, shFl ? NULL : &pt, shFl ? &pt : NULL );
  2003. }
  2004. }
  2005. // notify the object under the mouse that the mouse went up
  2006. if( _cmGrObjCbEvent(p,op,flags,key,px,py) )
  2007. fl = true;
  2008. _cmGrCallback(p,kFocusCbGrId,0,kInvalidKeyCodeGrId);
  2009. p->msDnObj = NULL;
  2010. }
  2011. break;
  2012. case kMsMoveGrFl:
  2013. fl = _cmGrObjCbEvent(p,op,flags,key,px,py);
  2014. break;
  2015. case kMsWheelGrFl:
  2016. break;
  2017. case kMsDragGrFl:
  2018. if( p->msDnObj != NULL )
  2019. {
  2020. // set the current virtual point
  2021. _cmGrXY_PtoV(p, p->msDnObj->parent, px, py, &p->msVPt );
  2022. // callback the dragged object
  2023. fl = _cmGrObjCbEvent(p,p->msDnObj,flags,key,px,py);
  2024. // if the px,py is outside the root phys extents then scroll
  2025. if( !cmGrPExtIsXyInside(&p->pext,px,py) )
  2026. {
  2027. bool hFl = false, vFl=false;
  2028. cmGrPSz_t tot,vis,max;
  2029. cmGrPPt_t pos;
  2030. cmGrScrollExtents(h, &tot, &vis, &max, &pos );
  2031. if( px < cmGrPExtL(&p->pext) )
  2032. hFl = _cmGrSetScrollH(p, cmMax(0, _cmGrScrollH(p) - (cmGrPExtL(&p->pext) - px)));
  2033. else
  2034. if( px > cmGrPExtR(&p->pext) )
  2035. hFl = _cmGrSetScrollH(p, cmMin(max.w, _cmGrScrollH(p) + (px - cmGrPExtR(&p->pext))));
  2036. if( py < cmGrPExtT(&p->pext) )
  2037. vFl = _cmGrSetScrollV(p, cmMax(0, _cmGrScrollV(p) - (cmGrPExtT(&p->pext) - py)));
  2038. else
  2039. if( py > cmGrPExtB(&p->pext) )
  2040. vFl = _cmGrSetScrollV(p, cmMin(max.h, _cmGrScrollV(p) + (py - cmGrPExtB(&p->pext))));
  2041. fl = fl || vFl || hFl;
  2042. }
  2043. }
  2044. break;
  2045. case kKeyDnGrFl:
  2046. case kKeyUpGrFl:
  2047. //fl = _cmGrObjCbEvent(p,p->msDnObj,flags,key,px,py);
  2048. break;
  2049. }
  2050. }
  2051. return fl;
  2052. }
  2053. bool cmGrIsValid( cmGrH_t h )
  2054. { return h.h != NULL; }
  2055. unsigned cmGrId( cmGrH_t h )
  2056. {
  2057. cmGr_t* p = _cmGrHandleToPtr(h);
  2058. return p->id;
  2059. }
  2060. const cmGrVPt_t* cmGrGlobalPt( cmGrH_t h )
  2061. {
  2062. cmGr_t* p = _cmGrHandleToPtr(h);
  2063. return &p->globalPt;
  2064. }
  2065. const cmGrVPt_t* cmGrLocalPt( cmGrH_t h )
  2066. {
  2067. cmGr_t* p = _cmGrHandleToPtr(h);
  2068. return &p->localPt;
  2069. }
  2070. bool cmGrSetViewExtents( cmGrH_t h, cmGrV_t minx, cmGrV_t miny, cmGrV_t maxx, cmGrV_t maxy )
  2071. { return _cmGrSetViewExtents( _cmGrHandleToPtr(h), minx,miny,maxx,maxy); }
  2072. bool cmGrSetViewExtentsE( cmGrH_t h, const cmGrVExt_t* e )
  2073. { return cmGrSetViewExtents( h, cmGrVExtMinX(e), cmGrVExtMinY(e), cmGrVExtMaxX(e), cmGrVExtMaxY(e) ); }
  2074. void cmGrViewExtents( cmGrH_t h, cmGrVExt_t* vext )
  2075. {
  2076. cmGr_t* p = _cmGrHandleToPtr(h);
  2077. *vext = p->vext;
  2078. //printf("g0:%p %f %f %f %f\n",p,p->vext.loc.x, p->vext.loc.y, p->vext.sz.w, p->vext.sz.h );
  2079. //printf("g1:%p %f %f %f %f\n",p,vext->loc.x, vext->loc.y, vext->sz.w, vext->sz.h );
  2080. }
  2081. bool cmGrSetPhysExtents( cmGrH_t hh, int x, int y, int w, int h )
  2082. {
  2083. cmGr_t* p = _cmGrHandleToPtr(hh);
  2084. cmGrPExt_t pext;
  2085. cmGrPExtSet(&pext,x,y,w,h);
  2086. assert( cmGrPExtIsNull(&pext)==false );
  2087. if( cmGrPExtIsEqual(&pext,&p->pext) )
  2088. return false;
  2089. p->pext = pext;
  2090. p->stateFlags = cmSetFlag(p->stateFlags,kDirtyGrFl);
  2091. _cmGrCallback(p,kPhysExtCbGrId,0,kInvalidKeyCodeGrId);
  2092. //cmGrPExtPrint("pext",&p->pext);
  2093. return true;
  2094. }
  2095. bool cmGrSetPhysExtentsE(cmGrH_t h, const cmGrPExt_t* e )
  2096. { return cmGrSetPhysExtents(h, cmGrPExtL(e), cmGrPExtT(e), cmGrPExtW(e), cmGrPExtH(e) ); }
  2097. void cmGrPhysExtents( cmGrH_t h, cmGrPExt_t* exts )
  2098. {
  2099. cmGr_t* p = _cmGrHandleToPtr(h);
  2100. *exts = p->pext;
  2101. }
  2102. void cmGrScrollExtents( cmGrH_t h, cmGrPSz_t* tot, cmGrPSz_t* vis, cmGrPSz_t* max, cmGrPPt_t* pos )
  2103. {
  2104. cmGr_t* p = _cmGrHandleToPtr(h);
  2105. _cmGrScrollExtents(p,tot,vis,max,pos);
  2106. }
  2107. bool cmGrSetScrollH( cmGrH_t h, int x )
  2108. { return _cmGrSetScrollH( _cmGrHandleToPtr(h), x ); }
  2109. int cmGrScrollH( cmGrH_t h )
  2110. { return _cmGrScrollH( _cmGrHandleToPtr(h) ); }
  2111. bool cmGrSetScrollV( cmGrH_t h, int y )
  2112. { return _cmGrSetScrollV( _cmGrHandleToPtr(h), y ); }
  2113. int cmGrScrollV( cmGrH_t h )
  2114. { return _cmGrScrollV( _cmGrHandleToPtr(h) ); }
  2115. bool cmGrSelectExtents( cmGrH_t h, cmGrVExt_t* vext, cmGrPExt_t* pext )
  2116. {
  2117. cmGrPPt_t pt0,pt1;
  2118. cmGr_t* p = _cmGrHandleToPtr(h);
  2119. if( !p->selValidFl )
  2120. {
  2121. cmGrVExtSetNull(vext);
  2122. cmGrPExtSetNull(pext);
  2123. return false;
  2124. }
  2125. if( p->sel0Pt.x == p->sel1Pt.x && p->sel0Pt.y == p->sel1Pt.y )
  2126. cmGrVExtSet(vext, p->sel0Pt.x, p->sel0Pt.y, 0, 0);
  2127. else
  2128. {
  2129. cmGrV_t gx0=p->sel0Pt.x, gy0=p->sel0Pt.y;
  2130. cmGrV_t gx1=p->sel1Pt.x, gy1=p->sel1Pt.y;
  2131. if( cmIsFlag(p->cfgFlags,kSelectHorzGrFl) )
  2132. {
  2133. gy0 = cmGrVExtMaxY(&p->rootObj->wext);
  2134. gy1 = cmGrVExtMinY(&p->rootObj->wext);
  2135. }
  2136. else
  2137. if( cmIsFlag(p->cfgFlags,kSelectVertGrFl ) )
  2138. {
  2139. gx0 = cmGrVExtMinX(&p->rootObj->wext);
  2140. gx1 = cmGrVExtMaxX(&p->rootObj->wext);
  2141. }
  2142. cmGrVExtSetD(vext,cmMin(gx0,gx1),cmMin(gy0,gy1),cmMax(gx0,gx1),cmMax(gy0,gy1));
  2143. }
  2144. _cmGrXY_VtoP(p, p->rootObj, vext->loc.x, vext->loc.y, &pt0 );
  2145. _cmGrXY_VtoP(p, p->rootObj, vext->loc.x + vext->sz.w, vext->loc.y + vext->sz.h, &pt1 );
  2146. cmGrPExtSetD(pext,cmMin(pt0.x,pt1.x),cmMin(pt0.y,pt1.y),cmMax(pt0.x,pt1.x),cmMax(pt0.y,pt1.y));
  2147. //printf("%f %f %f %f\n",vext->loc.x,vext->loc.y,vext->sz.w,vext->sz.h);
  2148. //printf("%i %i %i %i\n",pext->loc.x,pext->loc.y,pext->sz.w,pext->sz.h);
  2149. return true;
  2150. }
  2151. void cmGrSetSelectPoints( cmGrH_t h, const cmGrVPt_t* pt0, const cmGrVPt_t* pt1 )
  2152. {
  2153. cmGr_t* p = _cmGrHandleToPtr(h);
  2154. _cmGrSetSelectPoints(p,pt0,pt1);
  2155. }
  2156. void cmGrSelectPoints( cmGrH_t h, cmGrVPt_t* pt0, cmGrVPt_t* pt1 )
  2157. {
  2158. cmGr_t* p = _cmGrHandleToPtr(h);
  2159. if( pt0 != NULL )
  2160. *pt0 = p->sel0Pt;
  2161. if( pt1 != NULL )
  2162. *pt1 = p->sel1Pt;
  2163. }
  2164. void cmGrZoom( cmGrH_t h, unsigned flags )
  2165. {
  2166. cmGr_t* p = _cmGrHandleToPtr(h);
  2167. bool hfl = cmIsFlag(flags,kXAxisGrFl);
  2168. bool vfl = cmIsFlag(flags,kYAxisGrFl);
  2169. bool inFl = cmIsFlag(flags,kZoomInGrFl);
  2170. bool allFl = cmIsFlag(flags,kShowAllGrFl);
  2171. double magn = 3.0;
  2172. double ratio = inFl ? 1.0/magn : magn;
  2173. cmGrVPt_t c;
  2174. cmGrVExt_t z;
  2175. cmGrVExt_t v;
  2176. cmGrVExt_t w;
  2177. cmGrVExtSetNull(&z);
  2178. cmGrViewExtents( h,&v); // get the current view extents
  2179. cmGrObjWorldExt( cmGrRootObjH(h),&w); // get the current world extents
  2180. // if show all was requested ...
  2181. if( allFl )
  2182. {
  2183. // .. then the world ext's become the view extents.
  2184. cmGrVExtSetD(&z,
  2185. hfl ? cmGrVExtMinX(&w) : cmGrVExtMinX(&v),
  2186. vfl ? cmGrVExtMinY(&w) : cmGrVExtMinY(&v),
  2187. hfl ? cmGrVExtMaxX(&w) : cmGrVExtMaxX(&v),
  2188. vfl ? cmGrVExtMaxY(&w) : cmGrVExtMaxY(&v));
  2189. }
  2190. else
  2191. {
  2192. // if the selection flag is not set or the selection pt/area is not valid
  2193. if( cmIsNotFlag(flags,kSelectGrFl) || p->selValidFl==false )
  2194. {
  2195. // center the zoom on the current view
  2196. c.x = v.loc.x + v.sz.w/2;
  2197. c.y = v.loc.y + v.sz.h/2;
  2198. }
  2199. else
  2200. {
  2201. // if the selection area is a point
  2202. if( p->sel0Pt.x == p->sel1Pt.x && p->sel0Pt.y == p->sel1Pt.y )
  2203. {
  2204. // center the zoom on the current view
  2205. c.x = p->sel0Pt.x;
  2206. c.y = p->sel1Pt.y;
  2207. }
  2208. else
  2209. {
  2210. cmGrPExt_t dum;
  2211. // The selection area exist - make it the new view area
  2212. // Note that f the selection area is greater than the
  2213. // current view area then this may not be a magnification.
  2214. cmGrSelectExtents(h,&z,&dum);
  2215. }
  2216. }
  2217. // if no zoom area has been created then create
  2218. // one centered on 'c'.
  2219. if( cmGrVExtIsNull(&z) )
  2220. {
  2221. cmGrVExt_t t;
  2222. cmGrV_t zw = v.sz.w * ratio / 2;
  2223. cmGrV_t zh = v.sz.h * ratio / 2;
  2224. cmGrVExtSetD(&t,
  2225. hfl ? c.x-zw : cmGrVExtMinX(&v),
  2226. vfl ? c.y-zh : cmGrVExtMinY(&v),
  2227. hfl ? c.x+zw : cmGrVExtMaxX(&v),
  2228. vfl ? c.y+zh : cmGrVExtMaxY(&v));
  2229. cmGrVExtIntersect(&z,&t,&w);
  2230. }
  2231. }
  2232. //cmGrVExtPrint("w:",&w);
  2233. //cmGrVExtPrint("z:",&z);
  2234. //cmGrVExtPrint("v:",&v);
  2235. assert( cmGrVExtIsNorm(&z));
  2236. cmGrSetViewExtentsE(h,&z);
  2237. }
  2238. void cmGrSetSync( cmGrH_t h, cmGrH_t syncGrH, unsigned flags )
  2239. {
  2240. cmGr_t* p = _cmGrHandleToPtr(h);
  2241. // attempt to locate syncGrH on the sync list
  2242. cmGrSync_t* pp = NULL;
  2243. cmGrSync_t* sp = p->syncs;
  2244. for(; sp != NULL; sp=sp->link)
  2245. {
  2246. if( cmHandlesAreEqual(sp->grH,syncGrH) )
  2247. break;
  2248. pp = sp;
  2249. }
  2250. // if the handle was not found ...
  2251. if( sp == NULL )
  2252. {
  2253. // ... and a valid flags value was given ...
  2254. if( flags != 0 )
  2255. {
  2256. // ... then create a new sync target.
  2257. sp = cmMemAllocZ(cmGrSync_t,1);
  2258. sp->grH = syncGrH;
  2259. sp->flags = flags;
  2260. sp->link = p->syncs;
  2261. p->syncs = sp;
  2262. }
  2263. }
  2264. else // ... otherwise syncGrH is already a sync target
  2265. {
  2266. // if flags is non-zero then update the target sync flags
  2267. if( flags != 0 )
  2268. sp->flags = flags;
  2269. else
  2270. {
  2271. // otherwise delete the sync recd assoc'd with syncGrH
  2272. if( pp == NULL )
  2273. p->syncs = sp->link;
  2274. else
  2275. pp->link = sp->link;
  2276. cmMemFree(sp);
  2277. }
  2278. }
  2279. }
  2280. void cmGrReport( cmGrH_t h,cmRpt_t* r )
  2281. {
  2282. cmGr_t* p = _cmGrHandleToPtr(h);
  2283. cmRpt_t* rpt = r==NULL ? p->err.rpt : r;
  2284. cmRptPrintf(rpt,"cfg:0x%x state:0x%x\n",p->cfgFlags, p->stateFlags);
  2285. //cmRptPrintf(rpt,"World: "); cmGrVExtMaxXpt(&p->wext,rpt); cmRptPrintf(rpt,"\n");
  2286. cmRptPrintf(rpt,"View: "); cmGrVExtRpt(&p->vext,rpt); cmRptPrintf(rpt,"\n");
  2287. cmRptPrintf(rpt,"Phys: "); cmGrPExtRpt(&p->pext,rpt); cmRptPrintf(rpt,"\n");
  2288. _cmGrObjReportR(p,p->rootObj,rpt);
  2289. }