Amiga Format CD 43

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/ Amiga Format CD 43 / Amiga Format CD43 (1999)(Future Publishing)(GB)(Track 1 of 2)[!][issue 1999-09].iso / -serious- / wb / backclock / sources / tracewin.c < prev next >

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C/C++ Source or Header | 1999-06-15 | 10KB | 273 lines

/***************************************************************************** * * Nom: tracewin.c * Desc: fonctions de traçage dans les fenetres * * * version : $VER: tracewin.c 2.5 (05.06.99) * * ver2.3: fill background or transparent * ver2.3ß3: CyberGraphics support (beta) * ver2.3ß4: BugFixed but beta CGX * ver2.3ß5: Filled needles(option), no direct CGX support (deleted) * ver2.4 : added shadow and middle point drawings * ver2.5 : uses rtracker.library * ***************************************************************************** */ #include <exec/memory.h> #include <graphics/rastport.h> #include <proto/graphics.h> #include <proto/exec.h> #include <math.h> #include "utils.h" #include "tracewin.h" #include <graphics/gfxmacros.h> #include <exec/libraries.h> #include <clib/rtracker_protos.h> #include <pragmas/rtracker_pragmas.h> extern struct Library * RTrackerLibrary ; /*UWORD area_pat[] = { 0xf0f0,0xf0f0,0xf0f0, 0xf0f0, 0x0f0f, 0x0f0f, 0x0f0f, 0x0f0f } ;*/ PLANEPTR tmpbitmap ; USHORT Xplane, Yplane ; struct pt ptSec, ptMin, ptHeu ; ULONG mX, mY ; void initwin(idWin * prj) { int i ; mX = prj->backWin.width / 2 ; mY = prj->backWin.height / 2 ; if (prj->RP1) { if(prj->backWin.fill) { SetAPen(prj->RP1, prj->backWin.cmap[COL_BAC].reg) ; RectFill(prj->RP1, 0, 0, prj->backWin.width-1, prj->backWin.height-1) ; } SetAPen(prj->RP1, prj->backWin.cmap[COL_TIC].reg) ; // couleur jaune for(i = 0; i < 360; i+=30) { /* trace les repères des heures */ Move(prj->RP1, ULONG(cos(PI*i/180.0) * (mX-mX/10L)) + mX, ULONG(sin(PI*i/180.0) * (mY-mY/10L)) + mY) ; Draw(prj->RP1, ULONG(cos(PI*i/180.0) * mX) + mX, ULONG(sin(PI*i/180.0) * mY) + mY) ; } } /* initalisation des points des aiguilles */ /* secondes */ ptSec.points = 2 ; ptSec.fill = FALSE ; ptSec.pt_buffer = NULL ; // idem ptSec.A[0] = 0 ; ptSec.A[1] = 180 ; ptSec.M[0] = 5.0 ; ptSec.M[1] = 1.2 ; ptSec.angle = ANGLE_S ; /* heures */ ptHeu.points = 5 ; ptHeu.fill = TRUE ; ptHeu.pt_buffer = NewAllocMem(10 * ptHeu.points, MEMF_PUBLIC) ; ptHeu.A[0] = 0 ; ptHeu.A[1] = 100 ; ptHeu.A[2] = 180 ; ptHeu.A[3] = -100 ; ptHeu.A[4] = 0 ; ptHeu.M[0] = 3.0 ; ptHeu.M[1] = 1.1 ; ptHeu.M[2] = 1.2 ; ptHeu.M[3] = 1.1 ; ptHeu.M[4] = 3.0 ; ptHeu.angle = ANGLE_H ; /* minutes */ ptMin.points = 5 ; ptMin.fill = TRUE ; ptMin.pt_buffer = NewAllocMem(10 * ptMin.points, MEMF_PUBLIC) ; ptMin.A[0] = 0 ; ptMin.A[1] = 150 ; ptMin.A[2] = 180 ; ptMin.A[3] = -150 ; ptMin.A[4] = 0 ; ptMin.M[0] = 4 ; ptMin.M[1] = 1.3 ; ptMin.M[2] = 1.2 ; ptMin.M[3] = 1.3 ; ptMin.M[4] = 4 ; ptMin.angle = ANGLE_M ; prj->ai = NewAllocMem(sizeof(struct AreaInfo), MEMF_PUBLIC|MEMF_CLEAR) ; //SetAfPt(prj->RP2, area_pat, 3) ; effacer(prj) ; retracer(prj) ; } void free_twin(idWin * prj) { /* free vertice buffer * areainfo and tmpras buffer */ if (ptSec.pt_buffer) NewFreeMem(ptSec.pt_buffer) ; if (ptMin.pt_buffer) NewFreeMem(ptMin.pt_buffer) ; if (ptHeu.pt_buffer) NewFreeMem(ptHeu.pt_buffer) ; if (prj->ai) NewFreeMem(prj->ai) ; } void reinit_win(idWin * prj) { free_twin(prj) ; initwin(prj) ; } void effacer(idWin * prj) { // BltBitMapRastPort(prj->wb->RastPort.BitMap, prj->backWin.posX, prj->backWin.posY, prj->RP1, 0, 0, prj->backWin.width, prj->backWin.height, 0xc0) ; WaitBlit() ; BltBitMapRastPort(prj->RP1->BitMap, 0,0, prj->RP2, 0, 0, prj->backWin.width, prj->backWin.height, 0xc0) ; } void retracer(idWin * prj) { UWORD patt[]={0x5555,0xaaaa} ; if (prj->backWin.drawsha) { //drawShadow() prj->RP2->AreaPtrn = patt ; prj->RP2->AreaPtSz = 1 ; SetDrMd(prj->RP2, JAM1) ; SetAPen(prj->RP2, prj->backWin.cmap[COL_BLA].reg) ; tracerOmbre(prj, &ptHeu, prj->heu, prj->min/2) ; tracerOmbre(prj, &ptMin, prj->min, NULL) ; if (prj->backWin.drawsec) { prj->RP2->LinePtrn = 0xaaaa ; tracerOmbre(prj, &ptSec, prj->sec, NULL) ; prj->RP2->LinePtrn = 0xffff ; } prj->RP2->AreaPtrn = NULL ; } SetAPen(prj->RP2, prj->backWin.cmap[COL_HEU].reg) ; tracerAiguilles(prj, &ptHeu, prj->heu, prj->min/2) ; SetAPen(prj->RP2, prj->backWin.cmap[COL_MIN].reg) ; tracerAiguilles(prj, &ptMin, prj->min, NULL) ; if (prj->backWin.drawsec) { SetAPen(prj->RP2, prj->backWin.cmap[COL_SEC].reg) ; tracerAiguilles(prj, &ptSec, prj->sec, NULL) ; } if(prj->backWin.drawmpo) { SetAPen(prj->RP2, prj->backWin.cmap[COL_MPO].reg) ; WritePixel(prj->RP2, mX, mY) ; WritePixel(prj->RP2, mX-1, mY) ; WritePixel(prj->RP2, mX, mY-1) ; WritePixel(prj->RP2, mX-1, mY-1) ; WritePixel(prj->RP2, mX+1, mY) ; WritePixel(prj->RP2, mX, mY+1) ; WritePixel(prj->RP2, mX+1, mY+1) ; } WaitBlit() ; BltBitMapRastPort(prj->RP2->BitMap, 0,0, prj->win->RPort, 0, 0, prj->backWin.width, prj->backWin.height, 0xc0) ; } void tracerAiguilles(idWin * prj, struct pt * ptAigu, UBYTE p_time, UBYTE an_inc) { /* * Trace une aiguille */ int i ; Move(prj->RP2, mX+(ULONG)(cos(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[0])), mY+(ULONG)(sin(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[0]))) ; if (!ptAigu->fill || (prj->backWin.filln == 0)) { // tracer sans remplissage // no fill for(i = 0; i<ptAigu->points; i++) Draw(prj->RP2, mX+(ULONG)(cos(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[i])), mY+(ULONG)(sin(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[i]))) ; }else { // avec remplissage // fill prj->RP2->AreaInfo = prj->ai ; InitArea(prj->ai, ptAigu->pt_buffer, ptAigu->points+2) ; AreaMove(prj->RP2, (SHORT)mX+(ULONG)(cos(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[0])), (SHORT)mY+(ULONG)(sin(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[0]))) ; for(i = 0; i < ptAigu->points; i++) AreaDraw(prj->RP2, (SHORT)mX+(ULONG)(cos(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[i])), (SHORT)mY+(ULONG)(sin(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[i]))) ; AreaEnd(prj->RP2) ; } } void tracerOmbre(idWin * prj, struct pt * ptAigu, UBYTE p_time, UBYTE an_inc) { /* trace l'ombre de l'aiguille */ int i ; LONG offset ; offset = (5 * ((mX*2 + mY*2) / 2.0))/135.0 ; Move(prj->RP2, offset+mX+(ULONG)(cos(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[0])), offset+mY+(ULONG)(sin(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[0]))) ; if (!ptAigu->fill || (prj->backWin.filln == 0)) { // tracer sans remplissage // no fill for(i = 0; i<ptAigu->points; i++) Draw(prj->RP2, offset+mX+(ULONG)(cos(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[i])), offset+mY+(ULONG)(sin(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[i]))) ; }else { // avec remplissage // fill prj->RP2->AreaInfo = prj->ai ; InitArea(prj->ai, ptAigu->pt_buffer, ptAigu->points+2) ; AreaMove(prj->RP2, offset+(SHORT)mX+(ULONG)(cos(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[0])), offset+(SHORT)mY+(ULONG)(sin(PI*(ptAigu->A[0]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[0]))) ; for(i = 0; i < ptAigu->points; i++) AreaDraw(prj->RP2, offset+(SHORT)mX+(ULONG)(cos(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mX-mX/ptAigu->M[i])), offset+(SHORT)mY+(ULONG)(sin(PI*(ptAigu->A[i]+p_time*ptAigu->angle+an_inc-90.0)/180.0)*(mY-mY/ptAigu->M[i]))) ; AreaEnd(prj->RP2) ; } } void init_bitmap(idWin * prj) { /* initialize tmp rastport and bitmap */ prj->tmpras = NewAllocMem(sizeof(struct TmpRas), MEMF_PUBLIC|MEMF_CLEAR) ; prj->RP1 = NewAllocMem(sizeof(struct RastPort), MEMF_PUBLIC) ; prj->RP2 = NewAllocMem(sizeof(struct RastPort), MEMF_PUBLIC) ; InitRastPort(prj->RP1) ; InitRastPort(prj->RP2) ; Xplane = prj->backWin.width ; Yplane = prj->backWin.height ; prj->RP1->BitMap = AllocBitMap(Xplane, Yplane, prj->wb->RastPort.BitMap->Depth, BMF_CLEAR|BMF_DISPLAYABLE, NULL) ; prj->RP2->BitMap = AllocBitMap(Xplane, Yplane, prj->wb->RastPort.BitMap->Depth, BMF_CLEAR|BMF_DISPLAYABLE, NULL) ; tmpbitmap = AllocRaster(Xplane, Yplane) ; prj->RP2->TmpRas = (struct TmpRas *) InitTmpRas(prj->tmpras, tmpbitmap, RASSIZE(Xplane, Yplane)) ; WaitBlit() ; BltBitMapRastPort(prj->wb->RastPort.BitMap, prj->backWin.posX, prj->backWin.posY, prj->RP1, 0, 0, prj->backWin.width, prj->backWin.height, 0xc0) ; } void free_bitmap(idWin * prj) { if (prj->tmpras) NewFreeMem(prj->tmpras) ; if (tmpbitmap) FreeRaster(tmpbitmap, Xplane, Yplane) ; if (prj->RP1 && prj->RP1->BitMap) FreeBitMap(prj->RP1->BitMap) ; if (prj->RP2 && prj->RP2->BitMap) FreeBitMap(prj->RP2->BitMap) ; if (prj->RP1) NewFreeMem(prj->RP1) ; if (prj->RP2) NewFreeMem(prj->RP2) ; prj->RP1 = prj->RP2 = NULL ; }