#include "cmGlobal.h" #include "cmFloatTypes.h" #include "cmRpt.h" #include "cmErr.h" #include "cmCtx.h" #include "cmMem.h" #include "cmMallocDebug.h" #include "cmGr.h" #include "cmGrDevCtx.h" #include "cmGrPlot.h" #include "cmVectOpsTemplateMain.h" //------------------------------------------------------------------------------------------------------------------ //------------------------------------------------------------------------------------------------------------------ //------------------------------------------------------------------------------------------------------------------ //------------------------------------------------------------------------------------------------------------------ struct cmGrPl_str; typedef struct cmGrPlotObj_str { cmGrH_t grH; // the canvas this object is drawn on cmGrObjH_t grObjH; // the grObj this object is based on cmGrPlObjTypeId_t typeId; unsigned cfgFlags; unsigned stateFlags; cmGrVExt_t vext; cmChar_t* label; unsigned labelFlags; int labelAngle; cmGrColor_t labelColor; int loffs; int toffs; int roffs; int boffs; cmGrColor_t drawColors[ kMaxPlGrId ]; cmGrColor_t fillColors[ kMaxPlGrId ]; unsigned fontId; unsigned fontSize; unsigned fontStyle; void* userPtr; unsigned userByteCnt; // 0 if userPtr does not need to be realease on object destruction cmGrPlotCbFunc_t cbFunc; void* cbArg; struct cmGrPl_str* p; // owning plot object manager struct cmGrPlotObj_str* parent; // containing object struct cmGrPlotObj_str* xAnchor; // x-location reference object struct cmGrPlotObj_str* yAnchor; // y-location reference object struct cmGrPlotObj_str* next; struct cmGrPlotObj_str* prev; } cmGrPlotObj_t; typedef struct cmGrPl_str { cmCtx_t* ctx; // cmErr_t err; // cmGrPlotObj_t* list; // plot object linked list cmGrPlotObj_t* fop; // focused object ptr cmGrPlotCbFunc_t cbFunc; // dflt callback function void* cbArg; // dflt callback function arg. } cmGrPl_t; cmGrPlH_t cmGrPlNullHandle = cmSTATIC_NULL_HANDLE; cmGrPlObjH_t cmGrPlObjNullHandle = cmSTATIC_NULL_HANDLE; //------------------------------------------------------------------------------------------------------------------ // Plot Private Functions //------------------------------------------------------------------------------------------------------------------ cmGrPl_t* _cmGrPlHandleToPtr( cmGrPlH_t h ) { cmGrPl_t* p = (cmGrPl_t*)h.h; assert(p!=NULL); return p; } cmGrPlotObj_t* _cmGrPlObjHandleToPtr( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = (cmGrPlotObj_t*)oh.h; assert( op!=NULL); return op; } cmGrPlRC_t _cmGrPlotObjDelete( cmGrPlotObj_t* op ) { if( op==NULL || cmGrObjIsValid( op->grH, op->grObjH)==false ) return kOkGrPlRC; cmGrPl_t* p = op->p; // destroy the cmGrObj - which will call _cmGrPlotObjDestroy() if( cmGrObjDestroy( op->grH, &op->grObjH ) != kOkGrRC ) return cmErrMsg( &p->err, kGrFailGrPlRC, "Delete failed on the object label='%s' id=%i\n",cmStringNullGuard( op->label ), cmGrObjId(op->grObjH) ); if( op->userByteCnt != 0 ) { cmMemFree(op->userPtr); op->userByteCnt = 0; } return kOkGrPlRC; } void _cmGrPlotObjUnlink( cmGrPlotObj_t* op ) { cmGrPl_t* p = op->p; if( op->next != NULL ) op->next->prev = op->prev; if( op->prev != NULL ) op->prev->next = op->next; if( p->list == op ) p->list = op->next; } void _cmGrPlotObjLink( cmGrPl_t* p, cmGrPlotObj_t* op ) { if( p->list != NULL ) p->list->prev = op; op->next = p->list; op->prev = NULL; p->list = op; } // Destroy all objects cmGrPlRC_t _cmGrPlotClear( cmGrPl_t* p ) { cmGrPlRC_t rc = kOkGrPlRC; cmGrPlotObj_t* op = p->list; while( op!=NULL ) { cmGrPlotObj_t* t = op->next; if((rc = _cmGrPlotObjDelete(op)) != kOkGrPlRC ) break; op = t; } return rc; } // Destroy the plot mgr cmGrPlRC_t _cmGrPlotDestroy( cmGrPl_t* p ) { cmGrPlRC_t rc; if((rc = _cmGrPlotClear(p)) != kOkGrPlRC ) return rc; cmMemFree(p); return kOkGrPlRC; } bool _cmGrPlotObjIsVisible( cmGrPlotObj_t* op ) { return cmIsNotFlag(op->cfgFlags,kNoDrawGrPlFl); } bool _cmGrPlotObjIsEnabled( cmGrPlotObj_t* op ) { // invisible objects are never enabled if( _cmGrPlotObjIsVisible(op) == false ) return false; return cmIsFlag(op->stateFlags,kEnabledGrPlFl); } bool _cmGrPlotObjIsFocused(cmGrPlotObj_t* op) { return _cmGrPlotObjIsEnabled(op) && op->p->fop==op; } bool _cmGrPlotObjIsSelected(cmGrPlotObj_t* op) { return _cmGrPlotObjIsFocused(op) || cmIsFlag(op->stateFlags,kSelectGrPlFl); } void _cmGrPlotObjSetupCbArg( cmGrPlotCbArg_t* a, cmGrPlotObj_t* op, cmGrPlCbSelId_t selId ) { cmGrPlObjH_t oH; oH.h = op; memset(a,0,sizeof(a)); a->ctx = op->p->ctx; a->cbArg = op->cbArg; a->selId = selId; a->objH = oH; } bool _cmGrPlotObjCb( cmGrPlotObj_t* op, cmGrPlCbSelId_t selId, unsigned deltaFlags ) { if( op->cbFunc != NULL ) { cmGrPlotCbArg_t a; _cmGrPlotObjSetupCbArg(&a,op,selId); a.deltaFlags = deltaFlags; return op->cbFunc(&a); } return true; } void _cmGrPlotObjSetFocus( cmGrPlotObj_t* op ) { // if 'op' is not enabled then it cannot receive the focus if( _cmGrPlotObjIsEnabled(op) == false ) return; // if the focus cannot be set on 'op' - then try op->parent for(; op!=NULL; op=op->parent) if( cmIsNotFlag(op->cfgFlags,kNoFocusGrPlFl) && cmIsNotFlag(op->cfgFlags,kNoDrawGrPlFl) ) break; // if the focus is changing to a new object if( op != NULL && op->p->fop != op ) { if( op->p->fop != NULL ) { // if the application callback returns false then do no release focus from the current object if(_cmGrPlotObjCb(op->p->fop, kPreEventCbSelGrPlId, kFocusGrPlFl ) == false ) return; cmGrPlotObj_t* fop = op->p->fop; op->p->fop = NULL; // notify focus loser _cmGrPlotObjCb(fop, kStateChangeGrPlId, kFocusGrPlFl ); } // if the application callback returns false then do not give focus to the selected object if(_cmGrPlotObjCb(op, kPreEventCbSelGrPlId, kFocusGrPlFl ) == false ) return; op->p->fop = op; // notify focus winner _cmGrPlotObjCb(op, kStateChangeGrPlId, kFocusGrPlFl ); } } void _cmGrPlotObjSetSelect( cmGrPlotObj_t* op, bool clearFl ) { // if the object is disabled or not selectable if( _cmGrPlotObjIsEnabled(op)==false || cmIsFlag(op->cfgFlags,kNoSelectGrPlFl | kNoDrawGrPlFl) ) return; unsigned stateFlags = op->stateFlags; // if the application callback returns false then do change the select state of the object if(_cmGrPlotObjCb(op, kPreEventCbSelGrPlId, kSelectGrPlFl ) == false ) return; if( clearFl ) { cmGrObjH_t parentObjH = cmGrObjParent(op->grObjH); cmGrPlotObj_t* cop = op->p->list; // clear the select flag on all objects that share op->parent for(; cop!=NULL; cop=cop->next) if( cmHandlesAreEqual(cmGrObjParent(cop->grObjH),parentObjH) ) cop->stateFlags = cmClrFlag(cop->stateFlags,kSelectGrPlFl); } op->stateFlags = cmTogFlag(stateFlags,kSelectGrPlFl); // notify state change _cmGrPlotObjCb(op, kStateChangeGrPlId, kSelectGrPlFl ); } const cmGrColor_t _cmGrPlotColor( cmGrPlotObj_t* op, cmGrColor_t* array ) { if( _cmGrPlotObjIsFocused(op) ) return array[kFocusPlGrId]; if( _cmGrPlotObjIsSelected(op) ) return array[kSelectPlGrId]; if( _cmGrPlotObjIsEnabled(op) ) return array[kEnablePlGrId]; return array[kDisablePlGrId]; } unsigned _cmGrPlotObjTriShapeToFlags( unsigned typeId) { switch(typeId) { case kUTriGrPlId: return kTopGrFl; case kDTriGrPlId: return kBottomGrFl; case kLTriGrPlId: return kLeftGrFl; case kRTriGrPlId: return kRightGrFl; default: { assert(0); } } return 0; } //------------------------------------------------------------------------------------------------------------------ // Plot Object Callback Functions //------------------------------------------------------------------------------------------------------------------ cmGrRC_t _cmGrPlotObjCreate( cmGrObjFuncArgs_t* args ) { cmGrPlotObj_t* op = args->cbArg; _cmGrPlotObjCb(op,kCreatedCbSelGrPlId,0); // return kOkGrRC to indicate that the create was successful return kOkGrRC; } void _cmGrPlotObjDestroy( cmGrObjFuncArgs_t* args ) { cmGrPlotObj_t* op = args->cbArg; // TODO: is it possible to prevent destruction by returning // 'false' from the used defined callback. This feature is // slightly complicated by the fact // that in some circumstances the destroy request is not // optional - for example when the program is closing. _cmGrPlotObjCb(op,kDestroyedCbSelGrPlId,0); _cmGrPlotObjUnlink( op ); cmMemFree(op->label); cmMemFree(op); } void _cmGrPlotObjGetVExt( cmGrPlotObj_t* op, cmGrVExt_t* vext ) { switch( op->typeId ) { case kStarGrPlId: case kCrossGrPlId: case kPlusGrPlId: case kDiamondGrPlId: case kUTriGrPlId: case kDTriGrPlId: case kLTriGrPlId: case kRTriGrPlId: case kRectGrPlId: case kLineGrPlId: case kEllipseGrPlId: { *vext = op->vext; } break; case kHLineGrPlId: case kVLineGrPlId: { cmGrVExt_t wext; cmGrObjH_t oh = cmGrObjParent(op->grObjH); cmGrObjWorldExt(oh,&wext); // TODO: Put a check somewhere which can report an error // message when the parents world extent is not yet set. // Horz and Vert lines depend on the their parent's // world extents being set first. There is no automatic // way to set the parent world extents because we don't // know the range of values which the data set will cover. // Any number picked could result in a range much to large // thereby leaving the data invisible. It therefore must // be up to the application to set a good range. assert( cmGrVExtIsNotNullOrEmpty(&wext) ); vext->loc.x = op->typeId==kHLineGrPlId ? wext.loc.x : op->vext.loc.x; vext->loc.y = op->typeId==kVLineGrPlId ? wext.loc.y : op->vext.loc.y; vext->sz.w = op->typeId==kHLineGrPlId ? wext.sz.w : op->vext.sz.w; vext->sz.h = op->typeId==kVLineGrPlId ? wext.sz.h : op->vext.sz.h; } break; default: { assert(0); } } // add up the anchor offsets until the first object in the container cmGrPlotObj_t* ap = op->xAnchor; for(; ap!=NULL; ap=ap->xAnchor) { vext->loc.x += ap->vext.loc.x; if( ap->xAnchor==ap->parent) break; } ap = op->yAnchor; for(; ap!=NULL; ap=ap->yAnchor) { vext->loc.y += ap->vext.loc.y; if( ap->yAnchor==ap->parent) break; } } void _cmGrPlotObjVExt( cmGrObjFuncArgs_t* args, cmGrVExt_t* vext ) { cmGrPlotObj_t* op = args->cbArg; _cmGrPlotObjGetVExt(op, vext); } bool _cmGrPlotObjRender( cmGrObjFuncArgs_t* args, cmGrDcH_t dcH ) { cmGrPlotObj_t* op = args->cbArg; cmGrPExt_t pext; cmGrVExt_t vext; if( !_cmGrPlotObjIsVisible(op) ) return false; // get the virtual extents of this object _cmGrPlotObjVExt( args, &vext ); // convert the virtual ext's to phys ext's cmGrVExt_VtoP( op->grH, op->grObjH, &vext, &pext); // expand the ext's according to the physical offsets cmGrPExtExpand(&pext,op->loffs,op->toffs,op->roffs,op->boffs); switch( op->typeId ) { case kLineGrPlId: //cmGrDcSetColor( dcH, _cmGrPlotColor(op,op->drawColors) ); //cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtT(&pext), cmGrPExtR(&pext), cmGrPExtB(&pext) ); //break; case kStarGrPlId: case kCrossGrPlId: case kPlusGrPlId: case kEllipseGrPlId: case kDiamondGrPlId: case kUTriGrPlId: case kDTriGrPlId: case kLTriGrPlId: case kRTriGrPlId: case kRectGrPlId: case kHLineGrPlId: case kVLineGrPlId: { if( cmIsNotFlag(op->cfgFlags,kNoFillGrPlFl) ) { // set the fill color cmGrDcSetColor( dcH, _cmGrPlotColor(op,op->fillColors) ); // draw the fill switch(op->typeId) { case kEllipseGrPlId: cmGrDcFillEllipse( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h); break; case kDiamondGrPlId: cmGrDcFillDiamond( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h); break; case kUTriGrPlId: case kDTriGrPlId: case kLTriGrPlId: case kRTriGrPlId: cmGrDcFillTriangle( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h, _cmGrPlotObjTriShapeToFlags(op->typeId)); break; case kStarGrPlId: case kCrossGrPlId: case kPlusGrPlId: case kRectGrPlId: case kHLineGrPlId: case kVLineGrPlId: cmGrDcFillRect( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h); break; case kLineGrPlId: break; default: { assert(0); } } } if( cmIsNotFlag(op->cfgFlags,kNoBorderGrPlFl) ) { // set the border color cmGrDcSetColor( dcH, _cmGrPlotColor(op,op->drawColors) ); // draw the border switch(op->typeId) { case kEllipseGrPlId: cmGrDcDrawEllipse( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h); break; case kDiamondGrPlId: cmGrDcDrawDiamond( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h); break; case kUTriGrPlId: case kDTriGrPlId: case kLTriGrPlId: case kRTriGrPlId: cmGrDcDrawTriangle( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h, _cmGrPlotObjTriShapeToFlags(op->typeId)); break; case kStarGrPlId: cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtT(&pext), cmGrPExtR(&pext), cmGrPExtB(&pext)); cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtB(&pext), cmGrPExtR(&pext), cmGrPExtT(&pext)); cmGrDcDrawLine( dcH, cmGrPExtL(&pext) + cmGrPExtW(&pext)/2, cmGrPExtT(&pext), cmGrPExtL(&pext) + cmGrPExtW(&pext)/2, cmGrPExtB(&pext)); cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtT(&pext) + cmGrPExtH(&pext)/2, cmGrPExtR(&pext), cmGrPExtT(&pext) + cmGrPExtH(&pext)/2); break; case kCrossGrPlId: cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtT(&pext), cmGrPExtR(&pext), cmGrPExtB(&pext)); cmGrDcDrawLine( dcH, cmGrPExtR(&pext), cmGrPExtT(&pext), cmGrPExtL(&pext), cmGrPExtB(&pext)); break; case kPlusGrPlId: cmGrDcDrawLine( dcH, cmGrPExtL(&pext) + cmGrPExtW(&pext)/2, cmGrPExtT(&pext), cmGrPExtL(&pext) + cmGrPExtW(&pext)/2, cmGrPExtB(&pext)); cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtT(&pext) + cmGrPExtH(&pext)/2, cmGrPExtR(&pext), cmGrPExtT(&pext) + cmGrPExtH(&pext)/2); break; case kLineGrPlId: cmGrDcDrawLine( dcH, cmGrPExtL(&pext), cmGrPExtT(&pext), cmGrPExtR(&pext), cmGrPExtB(&pext) ); break; case kRectGrPlId: case kHLineGrPlId: case kVLineGrPlId: cmGrDcDrawRect( dcH, pext.loc.x, pext.loc.y, pext.sz.w, pext.sz.h); break; default: { assert(0); } } } if( (op->label != NULL) && cmIsNotFlag(op->cfgFlags, kNoLabelGrPlFl) ) { unsigned cc = cmGrDcColor(dcH); cmGrDcSetColor(dcH,op->labelColor); cmGrDcDrawTextJustify( dcH, op->fontId, op->fontSize, op->fontStyle, op->label, &pext, op->labelFlags ); cmGrDcSetColor(dcH,cc); /* cmGrPSz_t sz; cmGrPPt_t pt; cmGrDcFontSetAndMeasure( dcH, op->fontId, op->fontSize, op->fontStyle, op->label, &sz ); cmGrPExtCtr( &pext, &pt ); cmGrDcDrawText( dcH, op->label, pt.x - sz.w/2, pt.y + sz.h/2 ); */ } } break; default: { assert(0); } } return true; } int _cmGrPlotObjDistance( cmGrObjFuncArgs_t* args, int x, int y ) { return 0; } bool _cmGrPlotObjEvent( cmGrObjFuncArgs_t* args, unsigned flags, unsigned key, int px, int py ) { cmGrPlotObj_t* op = args->cbArg; bool fl = false; cmGrPlotCbArg_t a; if( op->cbFunc != NULL ) { cmGrPlotObj_t* cb_op = op; // if this is a key up/dn event and 'op' is not the 'focused op' then callback // callback on the 'focused op' instead of this 'op'. if( (cmIsFlag(flags,kKeyDnGrFl) || cmIsFlag(flags,kKeyUpGrFl)) && op->p->fop != op ) cb_op = op->p->fop; _cmGrPlotObjSetupCbArg(&a,cb_op,kPreEventCbSelGrPlId); a.eventFlags = flags; a.eventKey = key; a.eventX = px; a.eventY = py; if( op->cbFunc(&a) == false ) return true; } switch( flags & kEvtMask ) { case kMsDownGrFl: break; case kMsUpGrFl: _cmGrPlotObjSetFocus( op ); fl = true; break; case kMsClickGrFl: _cmGrPlotObjSetSelect(op, cmIsNotFlag(flags,kCtlKeyGrFl) ); fl = true; break; case kMsDragGrFl: { cmGrVExt_t vext; cmGrVExt_t wext; if( cmIsFlag(op->cfgFlags,kNoDragGrPlFl | kNoDrawGrPlFl) ) return false; // get the parent world extents cmGrObjWorldExt( cmGrObjParent( args->objH ), &wext ); // calc the new position of the obj cmGrV_t x = args->msVPt.x - args->msDnVOffs.w; cmGrV_t y = args->msVPt.y - args->msDnVOffs.h; cmGrVExtSet(&vext,x,y,op->vext.sz.w,op->vext.sz.h); // the obj must be remain inside the parent wext cmGrVExtContain(&wext,&vext); // calculate the obj's location as an offset from it's anchors cmGrPlotObj_t* ap = op->xAnchor; for(; ap!=NULL; ap=ap->xAnchor) vext.loc.x -= ap->vext.loc.x; ap = op->yAnchor; for(; ap!=NULL; ap=ap->yAnchor) vext.loc.y -= ap->vext.loc.y; if( !cmGrVExtIsEqual(&op->vext,&vext) ) { // move the object op->vext.loc.x = vext.loc.x; op->vext.loc.y = vext.loc.y; fl = true; } } break; case kKeyDnGrFl: case kKeyUpGrFl: break; } // notify the app of the event if( op->cbFunc != NULL ) { a.selId = kEventCbSelGrPlId; op->cbFunc(&a); } return fl; } bool _cmGrPlotObjIsInside( cmGrObjFuncArgs_t* args, int px, int py, cmGrV_t vx, cmGrV_t vy ) { cmGrVExt_t vext; cmGrPExt_t pext; cmGrPlotObj_t* op = args->cbArg; // get the virtual extents of this object _cmGrPlotObjVExt( args, &vext ); // convert the virtual ext's to phys ext's cmGrVExt_VtoP(args->grH,args->objH,&vext,&pext); // expand the ext's according to the off's cmGrPExtExpand(&pext,op->loffs,op->toffs,op->roffs,op->boffs); if( op->typeId == kLineGrPlId ) if( cmVOR_PtToLineDistance(cmGrPExtL(&pext),cmGrPExtT(&pext),cmGrPExtR(&pext),cmGrPExtB(&pext),px,py) < 3 ) return true; // check if the px,py is inside pext return cmGrPExtIsXyInside(&pext,px,py); } void _cmGrPlotFuncObjSetupDefault(cmGrObjFunc_t *f, void* arg ) { f->createCbFunc = _cmGrPlotObjCreate; f->createCbArg = arg; f->destroyCbFunc = _cmGrPlotObjDestroy; f->destroyCbArg = arg; f->renderCbFunc = _cmGrPlotObjRender; f->renderCbArg = arg; f->distanceCbFunc = _cmGrPlotObjDistance; f->distanceCbArg = arg; f->eventCbFunc = _cmGrPlotObjEvent; f->eventCbArg = arg; f->vextCbFunc = _cmGrPlotObjVExt; f->vextCbArg = arg; f->isInsideCbFunc = _cmGrPlotObjIsInside; f->isInsideCbArg = arg; } //------------------------------------------------------------------------------------------------------------------ // Plot Object Public Functions //------------------------------------------------------------------------------------------------------------------ cmGrPlRC_t cmGrPlotObjCreate( cmGrPlH_t hh, cmGrH_t grH, cmGrPlObjH_t* hp, unsigned id, cmGrPlObjH_t parentPlObjH, cmGrPlObjH_t xAnchorPlObjH, cmGrPlObjH_t yAnchorPlObjH, cmGrPlObjTypeId_t typeId, unsigned cfgFlags, cmReal_t x, cmReal_t y, cmReal_t w, cmReal_t h, const cmChar_t* label, const cmGrVExt_t* wext ) { cmGrPlRC_t rc; cmGrObjFunc_t funcs; if((rc = cmGrPlotObjDestroy(hp)) != kOkGrPlRC ) return rc; cmGrPl_t* p = _cmGrPlHandleToPtr(hh); cmGrPlotObj_t* op = cmMemAllocZ(cmGrPlotObj_t,1); _cmGrPlotObjLink(p,op); _cmGrPlotFuncObjSetupDefault(&funcs,op); // setup the object op->grH = grH; op->typeId = typeId; op->cfgFlags = cfgFlags; op->stateFlags = kEnabledGrPlFl; op->label = label==NULL ?NULL : cmMemAllocStr(label); op->labelFlags = kHorzCtrJsGrFl | kVertCtrJsGrFl; op->labelAngle = 0; op->labelColor = kBlackGrId; op->grObjH = cmGrObjNullHandle; op->parent = cmGrPlotObjIsValid(parentPlObjH) ? _cmGrPlObjHandleToPtr(parentPlObjH) : NULL; op->xAnchor = cmGrPlotObjIsValid(xAnchorPlObjH) ? _cmGrPlObjHandleToPtr(xAnchorPlObjH) : NULL; op->yAnchor = cmGrPlotObjIsValid(yAnchorPlObjH) ? _cmGrPlObjHandleToPtr(yAnchorPlObjH) : NULL; op->p = p; op->fontId = kHelveticaFfGrId; op->fontSize = 12; op->fontStyle = kNormalFsGrFl; op->cbFunc = p->cbFunc; op->cbArg = p->cbArg; if( cmIsFlag(op->cfgFlags,kSymbolGrPlFl) ) { int ww = w==0 ? kDefaultSymW : w; int hh = h==0 ? kDefaultSymH : h; op->loffs = ww/2; op->roffs = ww/2; op->toffs = hh/2; op->boffs = hh/2; w = 0; h = 0; } cmGrVExtSet(&op->vext,x,y,w,h); // set the default colors op->drawColors[kFocusPlGrId] = 0xcd853f; op->fillColors[kFocusPlGrId] = 0xdeb887; op->drawColors[kSelectPlGrId] = 0x483d8b; op->fillColors[kSelectPlGrId] = 0x8470ff; op->drawColors[kEnablePlGrId] = 0x000000; op->fillColors[kEnablePlGrId] = 0x009ff7; op->drawColors[kDisablePlGrId] = 0xbebebe; op->fillColors[kDisablePlGrId] = 0xd3d3de; unsigned grObjCfgFlags = 0; cmGrObjH_t parentGrH = op->parent == NULL ? cmGrObjNullHandle : op->parent->grObjH; // create the graphics system object - during this call a // call is made to funcs.create(). if( cmGrObjCreate(grH, &op->grObjH, parentGrH, &funcs, id, grObjCfgFlags, wext ) != kOkGrRC ) { rc = cmErrMsg(&p->err,kGrFailGrPlRC,"Graphic system object create failed for object (id=%i).",id); goto errLabel; } if( hp != NULL ) hp->h = op; errLabel: if( rc != kOkGrPlRC ) _cmGrPlotObjDelete(op); return rc; } cmGrPlRC_t cmGrPlotObjDestroy( cmGrPlObjH_t* hp ) { cmGrPlRC_t rc = kOkGrPlRC; if( hp==NULL || cmGrPlotObjIsValid(*hp)==false ) return kOkGrPlRC; cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(*hp); if((rc = _cmGrPlotObjDelete(op)) != kOkGrPlRC ) return rc; hp->h = NULL; return rc; } bool cmGrPlotObjIsValid( cmGrPlObjH_t h ) { return h.h != NULL; } cmGrPlH_t cmGrPlotObjMgrHandle( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); cmGrPlH_t grPlH; grPlH.h = op->p; return grPlH; } cmGrObjH_t cmGrPlotObjHandle( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->grObjH; } cmGrPlObjH_t cmGrPlotObjParent( cmGrPlObjH_t oh ) { cmGrPlObjH_t p_oh; cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); p_oh.h = op->parent; return p_oh; } cmGrPlObjH_t cmGrPlotObjXAnchor( cmGrPlObjH_t oh ) { cmGrPlObjH_t p_oh; cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); p_oh.h = op->xAnchor; return p_oh; } cmGrPlObjH_t cmGrPlotObjYAnchor( cmGrPlObjH_t oh ) { cmGrPlObjH_t p_oh; cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); p_oh.h = op->yAnchor; return p_oh; } void cmGrPlotObjSetId( cmGrPlObjH_t oh, unsigned id ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); cmGrObjSetId( op->grObjH, id ); } void cmGrPlotObjSetUserPtr( cmGrPlObjH_t oh, void* userPtr ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); if( op->userByteCnt != 0 ) { cmMemFree(op->userPtr); op->userByteCnt = 0; } op->userPtr = userPtr; } void cmGrPlotObjAllocUser( cmGrPlObjH_t oh, const void* data, unsigned byteCnt ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); if( op->userByteCnt != byteCnt ) { if( op->userByteCnt != 0 ) { cmMemFree(op->userPtr); op->userByteCnt = 0; } op->userPtr = cmMemAlloc(char,byteCnt); op->userByteCnt = byteCnt; } memcpy(op->userPtr,data,byteCnt); } void* cmGrPlotObjUserPtr( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->userPtr; } unsigned cmGrPlotObjId( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return cmGrObjId(op->grObjH); } void cmGrPlotObjSetLabel( cmGrPlObjH_t oh, const cmChar_t* label ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); if( label == op->label || (label != NULL && op->label!=NULL && strcmp(label,op->label)==0 )) return; cmMemPtrFree(&op->label); if( label != NULL ) { assert( op->label == NULL ); op->label = cmMemAllocStr(label); } } const cmChar_t* cmGrPlotObjLabel( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->label; } void cmGrPlotObjSetLabelAttr( cmGrPlObjH_t oh, unsigned flags, int angle, const cmGrColor_t color ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); op->labelFlags = flags; op->labelAngle = angle; op->labelColor = color; } unsigned cmGrPlotObjLabelFlags( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->labelFlags; } int cmGrPlotObjLabelAngle( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->labelAngle; } const cmGrColor_t cmGrPlotObjLabelColor( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->labelColor; } void cmGrPlotObjSetStateFlags( cmGrPlObjH_t oh, unsigned flags ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); if( cmIsFlag(flags,kVisibleGrPlFl) != _cmGrPlotObjIsVisible(op) ) { if( _cmGrPlotObjCb(op, kPreEventCbSelGrPlId, kVisibleGrPlFl ) == false ) return; op->cfgFlags = cmTogFlag(op->cfgFlags,kNoDrawGrPlFl); _cmGrPlotObjCb(op, kStateChangeGrPlId, kVisibleGrPlFl ); } if( cmIsFlag(flags,kEnabledGrPlFl) != _cmGrPlotObjIsEnabled(op) ) { if( _cmGrPlotObjCb(op, kPreEventCbSelGrPlId, kEnabledGrPlFl ) == false ) return; op->stateFlags = cmTogFlag(op->cfgFlags,kEnabledGrPlFl); _cmGrPlotObjCb(op, kStateChangeGrPlId, kEnabledGrPlFl ); } bool fl; if( cmIsFlag(flags,kSelectGrPlFl) != (fl=_cmGrPlotObjIsSelected(op)) ) _cmGrPlotObjSetSelect(op, !fl ); if( cmIsFlag(flags,kFocusGrPlFl) != (fl=_cmGrPlotObjIsFocused(op)) ) if( fl ) _cmGrPlotObjSetFocus(op); } unsigned cmGrPlotObjStateFlags( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return (_cmGrPlotObjIsEnabled(op) ? kEnabledGrPlFl : 0) | (_cmGrPlotObjIsVisible(op) ? kVisibleGrPlFl : 0) | (_cmGrPlotObjIsFocused(op) ? kFocusGrPlFl : 0) | (_cmGrPlotObjIsSelected(op) ? kSelectGrPlFl : 0); } void cmGrPlotObjSetCfgFlags( cmGrPlObjH_t oh, unsigned flags ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); op->cfgFlags = flags; } void cmGrPlotObjClrCfgFlags( cmGrPlObjH_t oh, unsigned flags ) { unsigned curFlags = cmGrPlotObjCfgFlags(oh); cmGrPlotObjSetCfgFlags(oh, cmClrFlag(curFlags,flags)); } void cmGrPlotObjTogCfgFlags( cmGrPlObjH_t oh, unsigned flags ) { unsigned curFlags = cmGrPlotObjCfgFlags(oh); cmGrPlotObjSetCfgFlags(oh, cmTogFlag(curFlags,flags)); } unsigned cmGrPlotObjCfgFlags( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->cfgFlags; } cmGrPlRC_t cmGrPlotObjSetPhysExt( cmGrPlObjH_t oh, int loffs, int toffs, int roffs, int boffs ) { cmGrPlRC_t rc = kOkGrPlRC; cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); op->loffs = loffs; op->toffs = toffs; op->roffs = roffs; op->boffs = boffs; return rc; } void cmGrPlotObjPhysExt( cmGrPlObjH_t oh, int* loffs, int* toffs, int* roffs, int* boffs ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); if( loffs != NULL ) *loffs = op->loffs; if( toffs != NULL ) *toffs = op->toffs; if( roffs != NULL ) *roffs = op->roffs; if( boffs != NULL ) *boffs = op->boffs; } void cmGrPlotObjVExt( cmGrPlObjH_t oh, cmGrVExt_t* vext ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); _cmGrPlotObjGetVExt(op, vext); } void cmGrPlotObjSetFontFamily( cmGrPlObjH_t oh, unsigned id ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); op->fontId = id; } unsigned cmGrPlotObjFontFamily( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->fontId; } void cmGrPlotObjSetFontStyle( cmGrPlObjH_t oh, unsigned style ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); op->fontStyle = style; } unsigned cmGrPlotObjFontStyle( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->fontStyle; } void cmGrPlotObjSetFontSize( cmGrPlObjH_t oh, unsigned size ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); op->fontSize = size; } unsigned cmGrPlotObjFontSize( cmGrPlObjH_t oh ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); return op->fontSize; } void cmGrPlotObjSetLineColor( cmGrPlObjH_t oh, cmGrPlStateId_t id, const cmGrColor_t c ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); assert( id < kMaxPlGrId ); op->drawColors[ id ] = c; } const cmGrColor_t cmGrPlotObjLineColor( cmGrPlObjH_t oh, cmGrPlStateId_t id ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); assert( id < kMaxPlGrId ); return op->drawColors[id]; } const cmGrColor_t cmGrPlotObjCurLineColor( cmGrPlObjH_t h ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(h); return _cmGrPlotColor(op,op->drawColors); } void cmGrPlotObjSetFillColor( cmGrPlObjH_t oh, cmGrPlStateId_t id, const cmGrColor_t c ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); assert( id < kMaxPlGrId ); op->fillColors[ id ] = c; } const cmGrColor_t cmGrPlotObjFillColor( cmGrPlObjH_t oh, cmGrPlStateId_t id ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(oh); assert( id < kMaxPlGrId ); return op->fillColors[id]; } const cmGrColor_t cmGrPlotObjCurFillColor( cmGrPlObjH_t h ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(h); return _cmGrPlotColor(op,op->fillColors); } void cmGrPlotObjSetCb( cmGrPlObjH_t h, cmGrPlotCbFunc_t func, void* arg ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(h); op->cbFunc = func; op->cbArg = arg; } cmGrPlotCbFunc_t cmGrPlotObjCbFunc( cmGrPlObjH_t h ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(h); return op->cbFunc; } void* cmGrPlotObjCbArg( cmGrPlObjH_t h ) { cmGrPlotObj_t* op = _cmGrPlObjHandleToPtr(h); return op->cbArg; } void cmGrPlotObjDrawAbove( cmGrPlObjH_t bH, cmGrPlObjH_t aH ) { cmGrPlotObj_t* bop = _cmGrPlObjHandleToPtr(bH); cmGrPlotObj_t* aop = _cmGrPlObjHandleToPtr(aH); cmGrObjDrawAbove(bop->grObjH,aop->grObjH); } //------------------------------------------------------------------------------------------------------------------ // Plot Object Manager Functions //------------------------------------------------------------------------------------------------------------------ cmGrPlRC_t cmGrPlotCreate( cmCtx_t* ctx, cmGrPlH_t* hp ) { cmGrPlRC_t rc; if((rc = cmGrPlotDestroy(hp)) != kOkGrPlRC ) return rc; cmGrPl_t* p = cmMemAllocZ(cmGrPl_t,1); cmErrSetup(&p->err,&ctx->rpt,"cmGrPlot"); p->ctx = ctx; hp->h = p; if( rc != kOkGrPlRC ) _cmGrPlotDestroy(p); return rc; } cmGrPlRC_t cmGrPlotDestroy( cmGrPlH_t* hp ) { cmGrPlRC_t rc; if( hp==NULL || cmGrPlotIsValid(*hp) == false ) return kOkGrPlRC; cmGrPl_t* p = _cmGrPlHandleToPtr(*hp); if((rc = _cmGrPlotDestroy(p)) != kOkGrPlRC ) return rc; hp->h = NULL; return rc; } bool cmGrPlotIsValid( cmGrPlH_t h ) { return h.h != NULL; } cmGrPlRC_t cmGrPlotClear( cmGrPlH_t h ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); return _cmGrPlotClear(p); } cmErr_t* cmGrPlotErr( cmGrPlH_t h ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); return &p->err; } cmRpt_t* cmGrPlotRpt( cmGrPlH_t h ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); return p->err.rpt; } cmGrPlObjH_t cmGrPlotObjectIdToHandle( cmGrPlH_t h, unsigned id ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); cmGrPlObjH_t oh = cmGrPlObjNullHandle; cmGrPlotObj_t* op = p->list; for(; op!=NULL; op=op->next) if( cmGrObjId(op->grObjH) == id ) { oh.h = op; break; } return oh; } unsigned cmGrPlotObjectCount( cmGrPlH_t h ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); cmGrPlotObj_t* op = p->list; unsigned n = 0; for(; op!=NULL; ++n ) op=op->next; return n; } cmGrPlObjH_t cmGrPlotObjectIndexToHandle( cmGrPlH_t h, unsigned index ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); cmGrPlotObj_t* op = p->list; unsigned i = 0; cmGrPlObjH_t oh = cmGrPlObjNullHandle; for(; inext; if( op != NULL ) oh.h = op; return oh; } void cmGrPlotKeyEvent( cmGrPlH_t h, cmGrH_t grH, unsigned eventFlags, cmGrKeyCodeId_t keycode ) { assert( cmIsFlag(eventFlags,kKeyDnGrFl | kKeyUpGrFl)); cmGrPl_t* p = _cmGrPlHandleToPtr(h); if( p->fop != NULL && cmHandlesAreEqual(p->fop->grH,grH) ) { cmGrObjFuncArgs_t a; memset(&a,0,sizeof(a)); a.cbArg = p->fop; a.ctx = p->ctx; a.grH = grH; a.objH = p->fop->grObjH; _cmGrPlotObjEvent(&a, eventFlags, keycode, 0, 0 ); } } void cmGrPlotSetCb( cmGrPlH_t h, cmGrPlotCbFunc_t func, void* arg ) { cmGrPl_t* p = _cmGrPlHandleToPtr(h); p->cbFunc = func; p->cbArg = arg; }