void CMeth2DLin::Draw(CDC *pDC, double scx, double offx, double scy, double offy)
{
TRACE("Entering CMeth2DLinWerner::Draw\n");
CSize ls(2, 0);
pDC->DPtoLP( &ls );
int l = ls.cx;
if( m_bVisible ) {
double x, y;
double dClusNum, dTrash;
int i;
CResult *pRes;
// first draw hiden solutions
for( i=0; i<m_results.GetSize(); i++) {
pRes = m_results[i];
if( pRes->m_bGrey && pRes->m_bShow) {
x = offx + scx*pRes->m_dX;
y = offy + scy*pRes->m_dZ;
DrawSymbol(pDC, (int)x, (int)y, l, 1, RGB(230, 230, 230), CROSS, false, 0);
}
}
// visible solutions
for( i=0; i<m_results.GetSize(); i++ ) {
// draw solution that are checked
pRes = m_results[i];
if( !pRes->m_bGrey && pRes->m_bShow) {
switch( m_nClstType ) {
case CLST_NORMAL:
dClusNum = pRes->m_dClsN;
dTrash = m_dTrashN;
break;
case CLST_POWER:
dClusNum = pRes->m_dClsP;
dTrash = m_dTrashP;
break;
case CLST_NONE:
dClusNum = 0;
break;
}
x = pRes->m_dX;
y = pRes->m_dZ;
// draw only solutions that are within graph
if( (x > m_prof.min) && (x < m_prof.max) && (y > m_depth.min) && (y < m_depth.max) ) {
x = offx + scx*x; // (offset + scale * value)
y = offy + scy*y;
//if(m_bSymbol) {
//UINT symbL = (UINT) (50 + nPtInClus*symbSc);
UINT symbL = (UINT) (3*l*(dClusNum-dTrash)/(1-dTrash));
DrawSymbol(pDC, (int) x, (int) y, symbL, 1, m_color, CROSS, false, 0);
/*if(m_bDip) {
int dip = int (pWR->GetAt(pos)->m_dDip*10);
DrawSymbol(pDC, (int) x, (int) y, symbL, 1, m_logPen.lopnColor, ARROW, FALSE, dip);
}*/
//}
}
}
}
}
}
void ViewText(char *arg_list, ...)
{
Label label;
va_list arg_buffer;
uint16_t x,y;
char tobuf[100],i;
label.TextColor = &cAll;
label.BGColor = (void*)0;
label.StartPoint.X = TEXT_START_POSITION_X;
label.StartPoint.Y = TEXT_START_POSITION_Y + 10 * currentTextPosition;
label.StartPoint.Z = 0;
x = label.StartPoint.X;
y = label.StartPoint.Y;
va_start(arg_buffer,arg_list);
vsprintf(tobuf, arg_list, arg_buffer);
for(i=0;i<100;i++)
{
if(tobuf[i]!=0) DrawSymbol(i*6+x,y,tobuf[i], label.TextColor, label.BGColor);
else break;
}
currentTextPosition++;
}
RESULTCODE TriangleMarkerImpl::Draw(WKBPoint* pWKBPoint, Renderer* pRenderer, Transformation* pTransform)
{
if(m_size==0)
{
return AG_FAILURE;
}
RendererCairo* pRendererCairo = static_cast<RendererCairo*>(pRenderer);
cairo_t *canvas_cairo = pRendererCairo->GetCairo();
cairo_surface_t *canvas_surface=pRendererCairo->GetCairoSurface();
int sx=0, sy=0;
pTransform->ToScreenPoint(pWKBPoint->point.x, pWKBPoint->point.y, sx, sy);
//cairo_surface_t *image = cairo_image_surface_create_from_png(resource);
if(m_cairo==NULL)
{
DrawSymbol();
}
if(m_cairo!=NULL)
{
cairo_save(canvas_cairo);
cairo_translate(canvas_cairo, sx-m_size, sy-m_size);
cairo_set_source_surface(canvas_cairo, m_icon, 0,0);
cairo_paint(canvas_cairo);
cairo_surface_flush(canvas_surface);
cairo_restore(canvas_cairo);
}
return AG_SUCCESS;
}
void
SymbolButtonRenderer::DrawButton(Canvas &canvas, const PixelRect &rc,
bool enabled,
bool focused, bool pressed) const
{
frame_renderer.DrawButton(canvas, rc, focused, pressed);
if (!caption.empty())
DrawSymbol(canvas, frame_renderer.GetDrawingRect(rc, pressed),
enabled, focused, pressed);
}
void CCardRegion::DrawCardStack(SDL_Surface *s)
{
if(!(Attributes&CRD_VISIBLE))
return;
DrawSymbol(xCoord, yCoord, Symbol);
for(VI vi = InternalStack.begin(); vi != InternalStack.end(); ++vi)
{
if(vi->FaceUp())
DrawCard(vi->x, vi->y, vi->Idx, s);
else
DrawCardBack(vi->x, vi->y, s);
}
}
__monitor void DrawText(char x,char y,char* text,char interval)
{
asm("sim");
unsigned int i,pos;
pos=x;
i=0;
while (1)
{
if (text[i]=='/') {if (text[i+1]=='@'){goto EndDrawText;}};
DrawSymbol(pos,y,text[i]);
pos=pos+5+interval;
i++;
}
EndDrawText:
asm("rim");
}
virtual void Draw(BRect updateRect)
{
BRect bounds(Bounds());
rgb_color base = ui_color(B_PANEL_BACKGROUND_COLOR);
SetHighColor(tint_color(base, B_DARKEN_2_TINT));
StrokeLine(bounds.LeftBottom(), bounds.RightBottom());
bounds.bottom--;
uint32 flags = be_control_look->Flags(this);
uint32 borders = BControlLook::B_TOP_BORDER
| BControlLook::B_BOTTOM_BORDER;
be_control_look->DrawInactiveTab(this, bounds, updateRect, base,
0, borders);
if (IsEnabled()) {
rgb_color button = tint_color(base, 1.07);
be_control_look->DrawButtonBackground(this, bounds, updateRect,
button, flags, 0);
}
bounds.left = (bounds.left + bounds.right) / 2 - 6;
bounds.top = (bounds.top + bounds.bottom) / 2 - 6;
bounds.right = bounds.left + 12;
bounds.bottom = bounds.top + 12;
DrawSymbol(bounds, updateRect, base);
}
void CSymbolTypeComboBox::DrawItem(LPDRAWITEMSTRUCT pDIStruct)
{
CRect rItemRect = pDIStruct->rcItem;
COLORREF clrNormal = ::GetSysColor(COLOR_WINDOW);
COLORREF clrSelected = ::GetSysColor(COLOR_HIGHLIGHT);
COLORREF drawColor = symColor;
CDC dcContext;
if (!dcContext.Attach(pDIStruct->hDC)) {
return;
}
int iState = pDIStruct->itemState;
if (iState & ODS_SELECTED)
{
drawColor = 0x00FFFFFF & ~(drawColor);
dcContext.SetBkColor(clrSelected);
dcContext.FillSolidRect(&rItemRect, clrSelected);
}
else
{
dcContext.SetBkColor(clrNormal);
dcContext.FillSolidRect(&rItemRect, clrNormal);
}
if (iState & ODS_FOCUS) {
dcContext.DrawFocusRect(&rItemRect);
}
int iItem = pDIStruct->itemID;
if (iItem != -1)
{
dcContext.SetBkMode(TRANSPARENT);
if (iState & ODS_DISABLED)
{
drawColor = ::GetSysColor(COLOR_INACTIVECAPTIONTEXT);
}
PlotSymbol currSym = PlotSymbol(iItem);
bool filledSym = PlotSymbolOps::SymbolIsFilled(currSym);
rItemRect.DeflateRect(4, 0);
int lThick = IMin(rItemRect.bottom - rItemRect.top - 2, symLThick);
if (filledSym)
lThick = 1;
CPen drawPen(PS_SOLID, lThick, drawColor);
CPen* pOldPen = dcContext.SelectObject(&drawPen);
CBrush brush(drawColor);
CBrush* pOldBrush = dcContext.SelectObject(&brush);
int drawSymSize = IMin((rItemRect.bottom - rItemRect.top), symSize);
int rectMidY = (rItemRect.top + rItemRect.bottom) / 2;
int rectMidX = (rItemRect.left + rItemRect.right) / 2;
switch (currSym) {
case ps_X : {
drawSymSize /= 2;
dcContext.MoveTo(rectMidX - drawSymSize, rectMidY - drawSymSize);
dcContext.LineTo(rectMidX + drawSymSize, rectMidY + drawSymSize);
dcContext.MoveTo(rectMidX + drawSymSize, rectMidY - drawSymSize);
dcContext.LineTo(rectMidX - drawSymSize, rectMidY + drawSymSize);
break;
}
case ps_Plus : {
drawSymSize /= 2;
dcContext.MoveTo(rectMidX - drawSymSize, rectMidY);
dcContext.LineTo(rectMidX + drawSymSize, rectMidY);
dcContext.MoveTo(rectMidX, rectMidY - drawSymSize);
dcContext.LineTo(rectMidX, rectMidY + drawSymSize);
break;
}
case ps_Square : case ps_FSquare :{
drawSymSize /= 2;
CPoint pts[4];
pts[0].x = rectMidX - drawSymSize;
pts[0].y = rectMidY - drawSymSize;
pts[1].x = rectMidX + drawSymSize;
pts[1].y = rectMidY - drawSymSize;
pts[2].x = rectMidX + drawSymSize;
pts[2].y = rectMidY + drawSymSize;
pts[3].x = rectMidX - drawSymSize;
pts[3].y = rectMidY + drawSymSize;
DrawSymbol(dcContext, pts, 4, filledSym);
break;
}
case ps_Circle : case ps_FCircle: {
static const Point2D cicoords[] = {Point2D(0.00000 ,0.50000),
Point2D(0.25000 ,0.43301),
Point2D(0.43301 ,0.25000),
Point2D(0.50000 ,0.00000),
Point2D(0.43301 ,-0.25000),
Point2D(0.25000 ,-0.43301),
Point2D(0.00000 ,-0.50000),
Point2D(-0.25000,-0.43301),
Point2D(-0.43301,-0.25000),
Point2D(-0.50000,0.00000),
Point2D(-0.43301,0.25000),
Point2D(-0.25000,0.43301)};
CPoint pts[12];
for (int i = 0; i < 12; i++)
{
int offX = int(double(drawSymSize) * cicoords[i].pX);
int offY = int(double(drawSymSize) * cicoords[i].pY);
pts[i].x = rectMidX + offX;
pts[i].y = rectMidY + offY;
}
DrawSymbol(dcContext, pts, 12, filledSym);
break;
}
case ps_Triangle : case ps_FTriangle : {
int offX = int(double(drawSymSize) * 0.4330);
int offY = int(double(drawSymSize) * 0.25);
CPoint pts[3];
pts[0].x = rectMidX - offX;
pts[0].y = rectMidY + offY;
pts[1].x = rectMidX + offX;
pts[1].y = rectMidY + offY;
pts[2].x = rectMidX;
pts[2].y = rectMidY - drawSymSize / 2;
DrawSymbol(dcContext, pts, 3, filledSym);
break;
}
case ps_Diamond : case ps_FDiamond : {
drawSymSize /= 2;
CPoint pts[4];
pts[0].x = rectMidX;
pts[0].y = rectMidY - drawSymSize;
pts[1].x = rectMidX + drawSymSize;
pts[1].y = rectMidY;
pts[2].x = rectMidX;
pts[2].y = rectMidY + drawSymSize;
pts[3].x = rectMidX - drawSymSize;
pts[3].y = rectMidY;
DrawSymbol(dcContext, pts, 4, filledSym);
break;
}
}
}
dcContext.Detach();
}
void RwrClass::DrawEmitterSymbol( int symbolID, int boxed )
{
DrawSymbol (display, symbolID, boxed);
}
int main(int argc, const char* argv[]) {
int N = 100000000;
int pdf_type = 2;
int pdf_param = 5;
int max_symbol = MAX_SYMBOLS;
int print_pdf = 0;
int log_tab_size = LOG_TAB_SIZE;
FSCCodingMethod method = CODING_METHOD_DEFAULT;
const char* in_file = NULL;
const char* pdf_file = NULL;
int c;
for (c = 1; c < argc; ++c) {
if (!strcmp(argv[c], "-t") && c + 1 < argc) {
pdf_type = atoi(argv[++c]);
if (pdf_type < 0) pdf_type = 0;
else if (pdf_type > 5) pdf_type = 5;
} else if (!strcmp(argv[c], "-p") && c + 1 < argc) {
pdf_param = atoi(argv[++c]);
if (pdf_type < 0) pdf_param = 0;
} else if (!strcmp(argv[c], "-s") && c + 1 < argc) {
max_symbol = atoi(argv[++c]);
if (max_symbol < 2) max_symbol = 2;
else if (max_symbol > 256) max_symbol = 256;
} else if (!strcmp(argv[c], "-l") && c + 1 < argc) {
log_tab_size = atoi(argv[++c]);
if (log_tab_size > LOG_TAB_SIZE) log_tab_size = LOG_TAB_SIZE;
} else if (!strcmp(argv[c], "-f") && c + 1 < argc) {
in_file = argv[++c];
} else if (FSCParseCodingMethodOpt(argv[c], &method)) {
continue;
} else if (!strcmp(argv[c], "-m") && c + 1 < argc) {
method = (FSCCodingMethod)atoi(argv[++c]);
} else if (!strcmp(argv[c], "-save") && c + 1 < argc) {
pdf_file = argv[++c];
} else if (!strcmp(argv[c], "-d")) {
print_pdf = 1;
} else if (!strcmp(argv[c], "-h")) {
Help();
} else {
N = atoi(argv[c]);
if (N <= 2) N = 2;
}
}
uint8_t* base;
FILE* file = NULL;
if (in_file != NULL) {
file = fopen(in_file, "rb");
if (file == NULL) {
fprintf(stderr, "Error opening file %s!\n", in_file);
exit(-1);
}
fseek(file, 0L, SEEK_END);
N = ftell(file);
fseek(file, 0L, SEEK_SET);
printf("Read File [%s] (%d bytes)\n", in_file, N);
}
base = (uint8_t*)malloc(N * sizeof(*base));
if (base == NULL) {
fprintf(stderr, "Malloc(%d) failed!\n", N);
exit(-1);
}
if (file != NULL) {
N = fread(base, 1, N, file);
fclose(file);
} else {
uint32_t pdf[256] = { 0 };
int i;
FSCRandom r;
FSCInitRandom(&r);
const int total = GeneratePdf(pdf_type, pdf_param, pdf, &r, max_symbol);
const int nb_bits = 1 + log2(total - 1);
uint64_t cumul[256 + 1];
cumul[0] = 0;
for (i = 1; i <= max_symbol; ++i) {
cumul[i] = cumul[i - 1] + pdf[i - 1];
}
for (i = 0; i < N; ++i) {
base[i] = DrawSymbol(cumul, max_symbol, total, nb_bits, &r);
}
}
printf("PDF generated OK (max symbol:%d).\n", max_symbol);
if (print_pdf) {
PrintPdf(base, N);
printf("[Params: type=%d param=%d max_symbol=%d size=%d]\n",
pdf_type, pdf_param, max_symbol, N);
}
if (pdf_file != NULL) {
SavePdfToFile(base, N, pdf_file);
}
const double entropy = GetEntropy(base, N);
int nb_errors = 0;
uint8_t* out = NULL;
size_t out_size = 0;
// Encode
uint8_t* bits = NULL;
size_t bits_size = 0;
MyClock start, tmp;
GetElapsed(&start, NULL);
int ok = FSCEncode(base, N, &bits, &bits_size, log_tab_size, method);
double elapsed = GetElapsed(&tmp, &start);
const double MS = 1.e-6 * N; // 8.e-6 * bits_size;
const double reduction = 1. * bits_size / N;
printf("Enc time: %.3f sec [%.2lf MS/s] (%ld bytes out, %d in).\n",
elapsed, MS / elapsed, bits_size, N);
printf("Entropy: %.4lf vs expected %.4lf "
"(off by %.5lf bit/symbol [%.3lf%%])\n",
reduction, entropy, reduction - entropy,
100. * (reduction - entropy) / entropy);
if (!ok) {
fprintf(stderr, "ERROR while encoding!\n");
nb_errors = 1;
} else { // Decode
GetElapsed(&start, NULL);
ok = FSCDecode(bits, bits_size, &out, &out_size);
elapsed = GetElapsed(&tmp, &start);
printf("Dec time: %.3f sec [%.2lf MS/s].\n", elapsed, MS / elapsed);
ok &= (out_size == N);
if (!ok) {
fprintf(stderr, "Decoding error!\n");
nb_errors = 1;
} else {
int i;
for (i = 0; i < N; ++i) {
nb_errors += (out[i] != base[i]);
}
printf("#%d errors\n", nb_errors);
if (nb_errors) fprintf(stderr, "*** PROBLEM!! ***\n");
}
}
End:
free(base);
free(out);
free(bits);
return (nb_errors != 0);
}
//====================================================================
void CLEDScreen::RedrawBkCanvas()
{
ASSERT(backDC);
// ASSERT(symbDC);
if (!backDC) return;
backDC->m_crBackground = m_crBackground;
backDC->m_bDrawTransparent = m_bDrawTransparent;
CRect clip;
backDC->GetClipBox(&clip);
backDC->FillSolidRect(&m_recClient, m_crBackground);
int nIndex;
int nColPos = 0;
int nSpaceCount = 0;
int nLength = m_contents.GetLength();
m_Capacity = 0;
if(m_SymbolRect.right > 0) // if matrix is created
{
m_Capacity = (m_recClient.right - m_recClient.left - 2 * m_FieldsWidth + m_Offset) / (m_SymbolRect.right + m_Offset);
nSpaceCount = m_Capacity - nLength;
}
for (int nCount = 0; nCount < m_Capacity && symbDC != NULL; nCount++)
{
nColPos = m_FieldsWidth + nCount * (m_SymbolRect.right + m_Offset);
nIndex = (m_RightAligned ? nCount - m_Capacity + nLength - m_ScrollPos : nCount + m_ScrollPos);
// draw symbols (or draw back faded symbol) to buffer
if ( (!m_RightAligned && nCount < nLength)
|| (m_RightAligned && nIndex > -1 && nIndex < nLength) )
{
if ( m_contents[nIndex] == '0' ) DrawSymbol( backDC, ss_0, nColPos );
else if ( m_contents[nIndex] == '1' ) DrawSymbol( backDC, ss_1, nColPos );
else if ( m_contents[nIndex] == '2' ) DrawSymbol( backDC, ss_2, nColPos );
else if ( m_contents[nIndex] == '3' ) DrawSymbol( backDC, ss_3, nColPos );
else if ( m_contents[nIndex] == '4' ) DrawSymbol( backDC, ss_4, nColPos );
else if ( m_contents[nIndex] == '5' ) DrawSymbol( backDC, ss_5, nColPos );
else if ( m_contents[nIndex] == '6' ) DrawSymbol( backDC, ss_6, nColPos );
else if ( m_contents[nIndex] == '7' ) DrawSymbol( backDC, ss_7, nColPos );
else if ( m_contents[nIndex] == '8' ) DrawSymbol( backDC, ss_8, nColPos );
else if ( m_contents[nIndex] == '9' ) DrawSymbol( backDC, ss_9, nColPos );
else if ( m_contents[nIndex] == '#' ) DrawSymbol( backDC, ss_Sharp, nColPos );
else if ( m_contents[nIndex] == '*' ) DrawSymbol( backDC, ss_Star, nColPos );
}
else DrawSymbol( backDC, ss_Space, nColPos );
}
}
