void SimpleDrawTextAlign(cdCanvas* canvas)
{
int w, h, i, xoff, yoff, use_vector;
int text_aligment[] = {
CD_NORTH,
CD_SOUTH,
CD_EAST,
CD_WEST,
CD_NORTH_EAST,
CD_NORTH_WEST,
CD_SOUTH_EAST,
CD_SOUTH_WEST,
CD_CENTER,
CD_BASE_CENTER,
CD_BASE_RIGHT,
CD_BASE_LEFT
};
#if 1
char* text_aligment_str[] = {
"North (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"South (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"East (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"West (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"North East (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"North West (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"South East (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"South West (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"Center (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"Base Center (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"Base Right (Ãyj)\nSecond Line (Ãyj)\nThird Line",
"Base Left (Ãyj)\nSecond Line (Ãyj)\nThird Line"
};
#else
char* text_aligment_str[] = {
"North (Ãyj)",
"South (Ãyj)",
"East (Ãyj)",
"West (Ãyj)",
"North East (Ãyj)",
"North West (Ãyj)",
"South East (Ãyj)",
"South West (Ãyj)",
"Center (Ãyj)",
"Base Center (Ãyj)",
"Base Right (Ãyj)",
"Base Left (Ãyj)"
};
#endif
cdCanvasGetSize(canvas, &w, &h, 0, 0);
cdCanvasBackground(canvas, CD_WHITE);
cdCanvasClear(canvas);
use_vector = 0;
#if 0
if (use_vector)
cdCanvasVectorTextDirection(canvas, 0, 0, 1, 1);
else
cdCanvasTextOrientation(canvas, 45);
#endif
xoff = w/4;
yoff = h/7;
if (use_vector)
cdCanvasVectorCharSize(canvas, 30);
else
{
//cdCanvasFont(canvas, "Times", CD_PLAIN, 14);
cdCanvasFont(canvas, "Helvetica", CD_PLAIN, 24);
}
for (i = 0; i < 12; i++)
{
cdCanvasTextAlignment(canvas, text_aligment[i]);
if (i < 6)
{
if (use_vector)
DrawVectorTextBox(canvas, xoff, yoff*(i+1), text_aligment_str[i]);
else
DrawTextBox(canvas, xoff, yoff*(i+1), text_aligment_str[i]);
}
else
{
if (use_vector)
DrawVectorTextBox(canvas, 3*xoff, yoff*(i-5), text_aligment_str[i]);
else
DrawTextBox(canvas, 3*xoff, yoff*(i-5), text_aligment_str[i]);
}
}
}
static int cdplay(cdCanvas* canvas, int xmin, int xmax, int ymin, int ymax, void *data)
{
char* filename = (char*)data;
FILE* file;
char TextBuffer[512];
int iparam1, iparam2, iparam3, iparam4, iparam5, iparam6, iparam7, iparam8, iparam9, iparam10;
int c, t, n, w, h, func;
double dparam1, dparam2, dparam3, dparam4, dparam5, dparam6;
unsigned char* stipple, * _stipple, *red, *green, *blue, *_red, *_green, *_blue, *index, *_index, *_alpha, *alpha;
long int *pattern, *palette, *_pattern, *_palette, *colors, *_colors;
int* dashes;
double matrix[6];
const char * font_family[] =
{
"System", /* CD_SYSTEM */
"Courier", /* CD_COURIER */
"Times", /* CD_TIMES_ROMAN */
"Helvetica" /* CD_HELVETICA */
};
file = fopen(filename, "r");
if (!file)
return CD_ERROR;
func = -1;
w = 0;
h = 0;
factorX = 1;
factorY = 1;
offsetX = 0;
offsetY = 0;
factorS = 1;
fscanf(file, "%s %d %d", TextBuffer, &w, &h);
if (strcmp(TextBuffer, "CDMF") != 0)
{
fclose(file);
return CD_ERROR;
}
if (w>1 && h>1 && xmax!=0 && ymax!=0)
{
offsetX = xmin;
offsetY = ymin;
factorX = ((double)(xmax-xmin)) / (w-1);
factorY = ((double)(ymax-ymin)) / (h-1);
if (factorX < factorY)
factorS = factorX;
else
factorS = factorY;
}
if (cdsizecb)
{
int err;
err = cdsizecb(canvas, w, h, w, h);
if (err)
return CD_ERROR;
}
while (!feof(file))
{
fscanf(file, "%d", &func);
if (feof(file))
break;
switch (func)
{
case CDMF_FLUSH:
cdCanvasFlush(canvas);
break;
case CDMF_CLEAR:
cdCanvasClear(canvas);
break;
case CDMF_CLIP:
fscanf(file, "%d", &iparam1);
cdCanvasClip(canvas, iparam1);
break;
case CDMF_CLIPAREA:
fscanf(file, "%d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4);
cdCanvasClipArea(canvas, sScaleX(iparam1), sScaleX(iparam2), sScaleY(iparam3), sScaleY(iparam4));
break;
case CDMF_FCLIPAREA:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
cdfCanvasClipArea(canvas, sfScaleX(dparam1), sfScaleX(dparam2), sfScaleY(dparam3), sfScaleY(dparam4));
break;
case CDMF_MATRIX:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &matrix[0], &matrix[1], &matrix[2], &matrix[3], &matrix[4], &matrix[5]);
cdCanvasTransform(canvas, matrix);
break;
case CDMF_RESETMATRIX:
cdCanvasTransform(canvas, NULL);
break;
case CDMF_WCLIPAREA:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
wdCanvasClipArea(canvas, dparam1, dparam2, dparam3, dparam4);
break;
case CDMF_LINE:
fscanf(file, "%d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4);
cdCanvasLine(canvas, sScaleX(iparam1), sScaleY(iparam2), sScaleX(iparam3), sScaleY(iparam4));
break;
case CDMF_FLINE:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
cdfCanvasLine(canvas, sfScaleX(dparam1), sfScaleY(dparam2), sfScaleX(dparam3), sfScaleY(dparam4));
break;
case CDMF_WLINE:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
wdCanvasLine(canvas, dparam1, dparam2, dparam3, dparam4);
break;
case CDMF_RECT:
fscanf(file, "%d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4);
cdCanvasRect(canvas, sScaleX(iparam1), sScaleX(iparam2), sScaleY(iparam3), sScaleY(iparam4));
break;
case CDMF_FRECT:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
cdfCanvasRect(canvas, sfScaleX(dparam1), sfScaleX(dparam2), sfScaleY(dparam3), sfScaleY(dparam4));
break;
case CDMF_WRECT:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
wdCanvasRect(canvas, dparam1, dparam2, dparam3, dparam4);
break;
case CDMF_BOX:
fscanf(file, "%d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4);
cdCanvasBox(canvas, sScaleX(iparam1), sScaleX(iparam2), sScaleY(iparam3), sScaleY(iparam4));
break;
case CDMF_WBOX:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
wdCanvasBox(canvas, dparam1, dparam2, dparam3, dparam4);
break;
case CDMF_FBOX:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
cdfCanvasBox(canvas, sfScaleX(dparam1), sfScaleX(dparam2), sfScaleY(dparam3), sfScaleY(dparam4));
break;
case CDMF_ARC:
fscanf(file, "%d %d %d %d %lg %lg", &iparam1, &iparam2, &iparam3, &iparam4, &dparam1, &dparam2);
cdCanvasArc(canvas, sScaleX(iparam1), sScaleY(iparam2), sScaleW(iparam3), sScaleH(iparam4), dparam1, dparam2);
break;
case CDMF_FARC:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4, &dparam5, &dparam6);
cdfCanvasArc(canvas, sfScaleX(dparam1), sfScaleY(dparam2), sfScaleW(dparam3), sfScaleH(dparam4), dparam5, dparam6);
break;
case CDMF_WARC:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4, &dparam5, &dparam6);
wdCanvasArc(canvas, dparam1, dparam2, dparam3, dparam4, dparam5, dparam6);
break;
case CDMF_SECTOR:
fscanf(file, "%d %d %d %d %lg %lg", &iparam1, &iparam2, &iparam3, &iparam4, &dparam1, &dparam2);
cdCanvasSector(canvas, sScaleX(iparam1), sScaleY(iparam2), sScaleW(iparam3), sScaleH(iparam4), dparam1, dparam2);
break;
case CDMF_FSECTOR:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4, &dparam5, &dparam6);
cdfCanvasSector(canvas, sfScaleX(dparam1), sfScaleY(dparam2), sfScaleW(dparam3), sfScaleH(dparam4), dparam5, dparam6);
break;
case CDMF_WSECTOR:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4, &dparam5, &dparam6);
wdCanvasSector(canvas, dparam1, dparam2, dparam3, dparam4, dparam5, dparam6);
break;
case CDMF_CHORD:
fscanf(file, "%d %d %d %d %lg %lg", &iparam1, &iparam2, &iparam3, &iparam4, &dparam1, &dparam2);
cdCanvasChord(canvas, sScaleX(iparam1), sScaleY(iparam2), sScaleW(iparam3), sScaleH(iparam4), dparam1, dparam2);
break;
case CDMF_FCHORD:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4, &dparam5, &dparam6);
cdfCanvasChord(canvas, sfScaleX(dparam1), sfScaleY(dparam2), sfScaleW(dparam3), sfScaleH(dparam4), dparam5, dparam6);
break;
case CDMF_WCHORD:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4, &dparam5, &dparam6);
wdCanvasChord(canvas, dparam1, dparam2, dparam3, dparam4, dparam5, dparam6);
break;
case CDMF_TEXT:
fscanf(file, "%d %d %[^\n\r]", &iparam1, &iparam2, TextBuffer);
cdCanvasText(canvas, sScaleX(iparam1), sScaleY(iparam2), TextBuffer);
break;
case CDMF_FTEXT:
fscanf(file, "%lg %lg %[^\n\r]", &dparam1, &dparam2, TextBuffer);
cdfCanvasText(canvas, sfScaleX(dparam1), sfScaleY(dparam2), TextBuffer);
break;
case CDMF_WTEXT:
fscanf(file, "%lg %lg %[^\n\r]", &dparam1, &dparam2, TextBuffer);
wdCanvasText(canvas, dparam1, dparam2, TextBuffer);
break;
case CDMF_BEGIN:
fscanf(file, "%d", &iparam1);
cdCanvasBegin(canvas, iparam1);
break;
case CDMF_VERTEX:
fscanf(file, "%d %d", &iparam1, &iparam2);
cdCanvasVertex(canvas, sScaleX(iparam1), sScaleY(iparam2));
break;
case CDMF_FVERTEX:
fscanf(file, "%lg %lg", &dparam1, &dparam2);
cdfCanvasVertex(canvas, sfScaleX(dparam1), sfScaleY(dparam2));
break;
case CDMF_WVERTEX:
fscanf(file, "%lg %lg", &dparam1, &dparam2);
wdCanvasVertex(canvas, dparam1, dparam2);
break;
case CDMF_END:
cdCanvasEnd(canvas);
break;
case CDMF_MARK:
fscanf(file, "%d %d", &iparam1, &iparam2);
cdCanvasMark(canvas, sScaleX(iparam1), sScaleY(iparam2));
break;
case CDMF_WMARK:
fscanf(file, "%lg %lg", &dparam1, &dparam2);
wdCanvasMark(canvas, dparam1, dparam2);
break;
case CDMF_BACKOPACITY:
fscanf(file, "%d", &iparam1);
cdCanvasBackOpacity(canvas, iparam1);
break;
case CDMF_WRITEMODE:
fscanf(file, "%d", &iparam1);
cdCanvasWriteMode(canvas, iparam1);
break;
case CDMF_LINESTYLE:
fscanf(file, "%d", &iparam1);
cdCanvasLineStyle(canvas, iparam1);
break;
case CDMF_LINEWIDTH:
fscanf(file, "%d", &iparam1);
cdCanvasLineWidth(canvas, sScaleS(iparam1));
break;
case CDMF_LINECAP:
fscanf(file, "%d", &iparam1);
cdCanvasLineCap(canvas, iparam1);
break;
case CDMF_LINEJOIN:
fscanf(file, "%d", &iparam1);
cdCanvasLineJoin(canvas, iparam1);
break;
case CDMF_LINESTYLEDASHES:
fscanf(file, "%d", &iparam1);
dashes = (int*)malloc(iparam1*sizeof(int));
for (c = 0; c < iparam1; c++)
fscanf(file, "%d", &dashes[c]);
cdCanvasLineStyleDashes(canvas, dashes, iparam1);
free(dashes);
break;
case CDMF_FILLMODE:
fscanf(file, "%d", &iparam1);
cdCanvasFillMode(canvas, iparam1);
break;
case CDMF_INTERIORSTYLE:
fscanf(file, "%d", &iparam1);
cdCanvasInteriorStyle(canvas, iparam1);
break;
case CDMF_HATCH:
fscanf(file, "%d", &iparam1);
cdCanvasHatch(canvas, iparam1);
break;
case CDMF_STIPPLE:
fscanf(file, "%d %d", &iparam1, &iparam2);
t = iparam1 * iparam2;
stipple = (unsigned char*)malloc(t);
_stipple = stipple;
for (c = 0; c < t; c++)
{
fscanf(file, "%d", &iparam3);
*_stipple++ = (unsigned char)iparam3;
}
cdCanvasStipple(canvas, iparam1, iparam2, stipple);
free(stipple);
break;
case CDMF_PATTERN:
fscanf(file, "%d %d", &iparam1, &iparam2);
t = iparam1 * iparam2;
pattern = (long int*)malloc(t * sizeof(long));
_pattern = pattern;
for (c = 0; c < t; c++)
{
fscanf(file, "%d %d %d", &iparam3, &iparam4, &iparam5);
*_pattern++ = cdEncodeColor((unsigned char)iparam3, (unsigned char)iparam4, (unsigned char)iparam5);
}
cdCanvasPattern(canvas, iparam1, iparam2, pattern);
free(pattern);
break;
case CDMF_OLDFONT:
fscanf(file, "%d %d %d", &iparam1, &iparam2, &iparam3);
if (iparam1 < 0 || iparam1 > 3) break;
if (iparam3 < 0)
{
iparam3 = -sScaleH(abs(iparam3));
if (iparam3 > -5) iparam3 = -5;
}
else
{
iparam3 = sScaleH(abs(iparam3));
if (iparam3 < 5) iparam3 = 5;
}
cdCanvasFont(canvas, font_family[iparam1], iparam2, iparam3);
break;
case CDMF_FONT:
fscanf(file, "%d %d %[^\n\r]", &iparam2, &iparam3, TextBuffer);
if (iparam3 < 0)
{
iparam3 = -sScaleH(abs(iparam3));
if (iparam3 > -5) iparam3 = -5;
}
else
{
iparam3 = sScaleH(abs(iparam3));
if (iparam3 < 5) iparam3 = 5;
}
cdCanvasFont(canvas, TextBuffer, iparam2, iparam3);
break;
case CDMF_NATIVEFONT:
fscanf(file, "%[^\n\r]", TextBuffer);
cdCanvasNativeFont(canvas, TextBuffer);
break;
case CDMF_TEXTALIGNMENT:
fscanf(file, "%d", &iparam1);
cdCanvasTextAlignment(canvas, iparam1);
break;
case CDMF_TEXTORIENTATION:
fscanf(file, "%lg", &dparam1);
cdCanvasTextOrientation(canvas, dparam1);
break;
case CDMF_MARKTYPE:
fscanf(file, "%d", &iparam1);
cdCanvasMarkType(canvas, iparam1);
break;
case CDMF_MARKSIZE:
fscanf(file, "%d", &iparam1);
cdCanvasMarkSize(canvas, sScaleS(iparam1));
break;
case CDMF_PALETTE:
fscanf(file, "%d %d", &iparam1, &iparam2);
_palette = palette = (long int*)malloc(iparam1);
for (c = 0; c < iparam1; c++)
{
fscanf(file, "%d %d %d", &iparam3, &iparam4, &iparam5);
*_palette++ = cdEncodeColor((unsigned char)iparam3, (unsigned char)iparam4, (unsigned char)iparam5);
}
cdCanvasPalette(canvas, iparam1, palette, iparam2);
free(palette);
break;
case CDMF_BACKGROUND:
fscanf(file, "%d %d %d", &iparam1, &iparam2, &iparam3);
cdCanvasSetBackground(canvas, cdEncodeColor((unsigned char)iparam1, (unsigned char)iparam2, (unsigned char)iparam3));
break;
case CDMF_FOREGROUND:
fscanf(file, "%d %d %d", &iparam1, &iparam2, &iparam3);
cdCanvasSetForeground(canvas, cdEncodeColor((unsigned char)iparam1, (unsigned char)iparam2, (unsigned char)iparam3));
break;
case CDMF_PUTIMAGERGB:
fscanf(file, "%d %d %d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4, &iparam5, &iparam6);
t = iparam1 * iparam2;
_red = red = (unsigned char*) malloc(t);
_green = green = (unsigned char*) malloc(t);
_blue = blue = (unsigned char*) malloc(t);
for (c = 0; c < t; c++)
{
fscanf(file, "%d %d %d", &iparam7, &iparam8, &iparam9);
*_red++ = (unsigned char)iparam7;
*_green++ = (unsigned char)iparam8;
*_blue++ = (unsigned char)iparam9;
}
cdCanvasPutImageRectRGB(canvas, iparam1, iparam2, red, green, blue, sScaleX(iparam3), sScaleY(iparam4), sScaleW(iparam5), sScaleH(iparam6), 0, 0, 0, 0);
free(red);
free(green);
free(blue);
break;
case CDMF_PUTIMAGERGBA:
fscanf(file, "%d %d %d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4, &iparam5, &iparam6);
t = iparam1 * iparam2;
_red = red = (unsigned char*) malloc(t);
_green = green = (unsigned char*) malloc(t);
_blue = blue = (unsigned char*) malloc(t);
_alpha = alpha = (unsigned char*) malloc(t);
for (c = 0; c < t; c++)
{
fscanf(file, "%d %d %d %d", &iparam7, &iparam8, &iparam9, &iparam10);
*_red++ = (unsigned char)iparam7;
*_green++ = (unsigned char)iparam8;
*_blue++ = (unsigned char)iparam9;
*_alpha++ = (unsigned char)iparam10;
}
cdCanvasPutImageRectRGBA(canvas, iparam1, iparam2, red, green, blue, alpha, sScaleX(iparam3), sScaleY(iparam4), sScaleW(iparam5), sScaleH(iparam6), 0, 0, 0, 0);
free(red);
free(green);
free(blue);
free(alpha);
break;
case CDMF_PUTIMAGEMAP:
fscanf(file, "%d %d %d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4, &iparam5, &iparam6);
t = iparam1 * iparam2;
n = 0;
_index = index = (unsigned char*) malloc(t);
for (c = 0; c < t; c++)
{
fscanf(file, "%d", &iparam7);
*_index++ = (unsigned char)iparam7;
if (iparam7 > n)
n = iparam7;
}
_colors = colors = (long int*)malloc(n);
for (c = 0; c < n; c++)
{
fscanf(file, "%d %d %d", &iparam7, &iparam8, &iparam9);
*_colors++ = cdEncodeColor((unsigned char)iparam7, (unsigned char)iparam8, (unsigned char)iparam9);
}
cdCanvasPutImageRectMap(canvas, iparam1, iparam2, index, colors, sScaleX(iparam3), sScaleY(iparam4), sScaleW(iparam5), sScaleH(iparam6), 0, 0, 0, 0);
free(index);
free(colors);
break;
case CDMF_PIXEL:
fscanf(file, "%d %d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4, &iparam5);
cdCanvasPixel(canvas, sScaleX(iparam1), sScaleY(iparam2), cdEncodeColor((unsigned char)iparam3, (unsigned char)iparam4, (unsigned char)iparam5));
break;
case CDMF_SCROLLAREA:
fscanf(file, "%d %d %d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4, &iparam5, &iparam6);
cdCanvasScrollArea(canvas, sScaleX(iparam1), sScaleX(iparam2), sScaleY(iparam3), sScaleY(iparam4), sScaleX(iparam5), sScaleY(iparam6));
break;
case CDMF_WVECTORTEXT:
fscanf(file, "%lg %lg %[^\n\r]", &dparam1, &dparam2, TextBuffer);
wdCanvasVectorText(canvas, dparam1, dparam2, TextBuffer);
break;
case CDMF_WMULTILINEVECTORTEXT:
fscanf(file, "%lg %lg %[^\n\r]", &dparam1, &dparam2, TextBuffer);
wdCanvasVectorText(canvas, dparam1, dparam2, TextBuffer);
break;
case CDMF_VECTORTEXT:
fscanf(file, "%d %d %[^\n\r]", &iparam1, &iparam2, TextBuffer);
cdCanvasVectorText(canvas, iparam1, iparam2, TextBuffer);
break;
case CDMF_MULTILINEVECTORTEXT:
fscanf(file, "%d %d %[^\n\r]", &iparam1, &iparam2, TextBuffer);
cdCanvasVectorText(canvas, iparam1, iparam2, TextBuffer);
break;
case CDMF_WVECTORCHARSIZE:
fscanf(file, "%lg", &dparam1);
wdCanvasVectorCharSize(canvas, dparam1);
break;
case CDMF_WVECTORTEXTSIZE:
fscanf(file, "%lg %lg %[^\n\r]", &dparam1, &dparam2, TextBuffer);
wdCanvasVectorTextSize(canvas, dparam1, dparam2, TextBuffer);
break;
case CDMF_WVECTORTEXTDIRECTION:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
wdCanvasVectorTextDirection(canvas, dparam1, dparam2, dparam3, dparam4);
break;
case CDMF_VECTORCHARSIZE:
fscanf(file, "%d", &iparam1);
cdCanvasVectorCharSize(canvas, iparam1);
break;
case CDMF_VECTORTEXTSIZE:
fscanf(file, "%d %d %[^\n\r]", &iparam1, &iparam2, TextBuffer);
cdCanvasVectorTextSize(canvas, iparam1, iparam2, TextBuffer);
break;
case CDMF_VECTORTEXTDIRECTION:
fscanf(file, "%d %d %d %d", &iparam1, &iparam2, &iparam3, &iparam4);
cdCanvasVectorTextDirection(canvas, iparam1, iparam2, iparam3, iparam4);
break;
case CDMF_VECTORFONT:
fscanf(file, "%[^\n\r]", TextBuffer);
cdCanvasVectorFont(canvas, TextBuffer);
break;
case CDMF_VECTORTEXTTRANSFORM:
fscanf(file, "%lg %lg %lg %lg %lg %lg", &matrix[0], &matrix[1], &matrix[2], &matrix[3], &matrix[4], &matrix[5]);
cdCanvasVectorTextTransform(canvas, matrix);
break;
case CDMF_WINDOW:
fscanf(file, "%lg %lg %lg %lg", &dparam1, &dparam2, &dparam3, &dparam4);
wdCanvasWindow(canvas, dparam1, dparam2, dparam3, dparam4);
break;
default:
fclose(file);
return CD_ERROR;
}
}
fclose(file);
return CD_OK;
}
