/* * draw.c * * accept dvi function calls and translate to X */ #include #include #include #include #include #include /* math.h on a Sequent doesn't define M_PI, apparently */ #ifndef M_PI #define M_PI 3.14159265358979323846 #endif #include "DviP.h" #define DeviceToX(dw, n) ((int)((n) * (dw)->dvi.scale_factor + .5)) #define XPos(dw) (DeviceToX((dw), (dw)->dvi.state->x - \ (dw)->dvi.text_device_width) + (dw)->dvi.text_x_width) #define YPos(dw) (DeviceToX((dw), (dw)->dvi.state->y)) static int FakeCharacter(); HorizontalMove(dw, delta) DviWidget dw; int delta; { dw->dvi.state->x += delta; } HorizontalGoto(dw, NewPosition) DviWidget dw; int NewPosition; { dw->dvi.state->x = NewPosition; } VerticalMove(dw, delta) DviWidget dw; int delta; { dw->dvi.state->y += delta; } VerticalGoto(dw, NewPosition) DviWidget dw; int NewPosition; { dw->dvi.state->y = NewPosition; } AdjustCacheDeltas (dw) DviWidget dw; { int extra; int nadj; int i; nadj = 0; extra = DeviceToX(dw, dw->dvi.text_device_width) - dw->dvi.text_x_width; if (extra == 0) return; for (i = 0; i <= dw->dvi.cache.index; i++) if (dw->dvi.cache.adjustable[i]) ++nadj; if (nadj == 0) return; dw->dvi.text_x_width += extra; for (i = 0; i <= dw->dvi.cache.index; i++) if (dw->dvi.cache.adjustable[i]) { int x; int *deltap; x = extra/nadj; deltap = &dw->dvi.cache.cache[i].delta; #define MIN_DELTA 2 if (*deltap > 0 && x + *deltap < MIN_DELTA) { x = MIN_DELTA - *deltap; if (x <= 0) *deltap = MIN_DELTA; else x = 0; } else *deltap += x; extra -= x; --nadj; dw->dvi.cache.adjustable[i] = 0; } } FlushCharCache (dw) DviWidget dw; { if (dw->dvi.cache.char_index != 0) { AdjustCacheDeltas (dw); XDrawText (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, dw->dvi.cache.start_x, dw->dvi.cache.start_y, dw->dvi.cache.cache, dw->dvi.cache.index + 1); } dw->dvi.cache.index = 0; dw->dvi.cache.max = DVI_TEXT_CACHE_SIZE; #if 0 if (dw->dvi.noPolyText) dw->dvi.cache.max = 1; #endif dw->dvi.cache.char_index = 0; dw->dvi.cache.cache[0].nchars = 0; dw->dvi.cache.start_x = dw->dvi.cache.x = XPos (dw); dw->dvi.cache.start_y = dw->dvi.cache.y = YPos (dw); } Newline (dw) DviWidget dw; { FlushCharCache (dw); dw->dvi.text_x_width = dw->dvi.text_device_width = 0; dw->dvi.word_flag = 0; } Word (dw) DviWidget dw; { dw->dvi.word_flag = 1; } #define charWidth(fi,c) (\ (fi)->per_char ?\ (fi)->per_char[(c) - (fi)->min_char_or_byte2].width\ :\ (fi)->max_bounds.width\ ) static int charExists (fi, c) XFontStruct *fi; int c; { XCharStruct *p; if (fi->per_char == NULL || c < fi->min_char_or_byte2 || c > fi->max_char_or_byte2) return 0; p = fi->per_char + (c - fi->min_char_or_byte2); return (p->lbearing != 0 || p->rbearing != 0 || p->width != 0 || p->ascent != 0 || p->descent != 0 || p->attributes != 0); } static DoCharacter (dw, c, wid) DviWidget dw; int c; int wid; /* width in device units */ { register XFontStruct *font; register XTextItem *text; int x, y; x = XPos(dw); y = YPos(dw); /* * quick and dirty extents calculation: */ if (!(y + 24 >= dw->dvi.extents.y1 && y - 24 <= dw->dvi.extents.y2 #if 0 && x + 24 >= dw->dvi.extents.x1 && x - 24 <= dw->dvi.extents.x2 #endif )) return; if (y != dw->dvi.cache.y || dw->dvi.cache.char_index >= DVI_CHAR_CACHE_SIZE) { FlushCharCache (dw); x = dw->dvi.cache.x; } /* * load a new font, if the current block is not empty, * step to the next. */ if (dw->dvi.cache.font_size != dw->dvi.state->font_size || dw->dvi.cache.font_number != dw->dvi.state->font_number) { dw->dvi.cache.font_size = dw->dvi.state->font_size; dw->dvi.cache.font_number = dw->dvi.state->font_number; dw->dvi.cache.font = QueryFont (dw, dw->dvi.cache.font_number, dw->dvi.cache.font_size); if (dw->dvi.cache.cache[dw->dvi.cache.index].nchars != 0) { ++dw->dvi.cache.index; if (dw->dvi.cache.index >= dw->dvi.cache.max) FlushCharCache (dw); dw->dvi.cache.cache[dw->dvi.cache.index].nchars = 0; dw->dvi.cache.adjustable[dw->dvi.cache.index] = 0; } } if (x != dw->dvi.cache.x || dw->dvi.word_flag) { if (dw->dvi.cache.cache[dw->dvi.cache.index].nchars != 0) { ++dw->dvi.cache.index; if (dw->dvi.cache.index >= dw->dvi.cache.max) FlushCharCache (dw); dw->dvi.cache.cache[dw->dvi.cache.index].nchars = 0; } dw->dvi.cache.adjustable[dw->dvi.cache.index] = dw->dvi.word_flag; dw->dvi.word_flag = 0; } font = dw->dvi.cache.font; text = &dw->dvi.cache.cache[dw->dvi.cache.index]; if (text->nchars == 0) { text->chars = &dw->dvi.cache.char_cache[dw->dvi.cache.char_index]; text->delta = x - dw->dvi.cache.x; if (font != dw->dvi.font) { text->font = font->fid; dw->dvi.font = font; } else text->font = None; dw->dvi.cache.x += text->delta; } if (charExists(font, c)) { int w; dw->dvi.cache.char_cache[dw->dvi.cache.char_index++] = (char) c; ++text->nchars; w = charWidth(font, c); dw->dvi.cache.x += w; if (wid != 0) { dw->dvi.text_x_width += w; dw->dvi.text_device_width += wid; } } } static int FindCharWidth (dw, buf, widp) DviWidget dw; char *buf; int *widp; { int maxpos; int i; if (dw->dvi.device_font == 0 || dw->dvi.state->font_number != dw->dvi.device_font_number) { dw->dvi.device_font_number = dw->dvi.state->font_number; dw->dvi.device_font = QueryDeviceFont (dw, dw->dvi.device_font_number); } if (dw->dvi.device_font && device_char_width (dw->dvi.device_font, dw->dvi.state->font_size, buf, widp)) return 1; maxpos = MaxFontPosition (dw); for (i = 1; i <= maxpos; i++) { DeviceFont *f = QueryDeviceFont (dw, i); if (f && device_font_special (f) && device_char_width (f, dw->dvi.state->font_size, buf, widp)) { dw->dvi.state->font_number = i; return 1; } } return 0; } /* Return the width of the character in device units. */ int PutCharacter (dw, buf) DviWidget dw; char *buf; { int prevFont; int c = -1; int wid = 0; DviCharNameMap *map; if (!dw->dvi.display_enable) return 0; /* The width doesn't matter in this case. */ prevFont = dw->dvi.state->font_number; if (!FindCharWidth (dw, buf, &wid)) return 0; map = QueryFontMap (dw, dw->dvi.state->font_number); if (map) c = DviCharIndex (map, buf); if (c >= 0) DoCharacter (dw, c, wid); else (void) FakeCharacter (dw, buf, wid); dw->dvi.state->font_number = prevFont; return wid; } /* Return 1 if we can fake it; 0 otherwise. */ static int FakeCharacter (dw, buf, wid) DviWidget dw; char *buf; int wid; { int oldx, oldw; char ch[2]; char *chars = 0; if (buf[0] == '\0' || buf[1] == '\0' || buf[2] != '\0') return 0; #define pack2(c1, c2) (((c1) << 8) | (c2)) switch (pack2(buf[0], buf[1])) { case pack2('f', 'i'): chars = "fi"; break; case pack2('f', 'l'): chars = "fl"; break; case pack2('f', 'f'): chars = "ff"; break; case pack2('F', 'i'): chars = "ffi"; break; case pack2('F', 'l'): chars = "ffl"; break; } if (!chars) return 0; oldx = dw->dvi.state->x; oldw = dw->dvi.text_device_width; ch[1] = '\0'; for (; *chars; chars++) { ch[0] = *chars; dw->dvi.state->x += PutCharacter (dw, ch); } dw->dvi.state->x = oldx; dw->dvi.text_device_width = oldw + wid; return 1; } PutNumberedCharacter (dw, c) DviWidget dw; int c; { char *name; int wid; DviCharNameMap *map; if (!dw->dvi.display_enable) return; if (dw->dvi.device_font == 0 || dw->dvi.state->font_number != dw->dvi.device_font_number) { dw->dvi.device_font_number = dw->dvi.state->font_number; dw->dvi.device_font = QueryDeviceFont (dw, dw->dvi.device_font_number); } if (dw->dvi.device_font == 0 || !device_code_width (dw->dvi.device_font, dw->dvi.state->font_size, c, &wid)) return; if (dw->dvi.native) { DoCharacter (dw, c, wid); return; } map = QueryFontMap (dw, dw->dvi.state->font_number); if (!map) return; for (name = device_name_for_code (dw->dvi.device_font, c); name; name = device_name_for_code ((DeviceFont *)0, c)) { int code = DviCharIndex (map, name); if (code >= 0) { DoCharacter (dw, code, wid); break; } if (FakeCharacter (dw, name, wid)) break; } } ClearPage (dw) DviWidget dw; { XClearWindow (XtDisplay (dw), XtWindow (dw)); } static setGC (dw) DviWidget dw; { int desired_line_width; if (dw->dvi.line_thickness < 0) desired_line_width = (int)(((double)dw->dvi.device_resolution * dw->dvi.state->font_size) / (10.0*72.0*dw->dvi.sizescale)); else desired_line_width = dw->dvi.line_thickness; if (desired_line_width != dw->dvi.line_width) { XGCValues values; values.line_width = DeviceToX(dw, desired_line_width); if (values.line_width == 0) values.line_width = 1; XChangeGC(XtDisplay (dw), dw->dvi.normal_GC, GCLineWidth, &values); dw->dvi.line_width = desired_line_width; } } static setFillGC (dw) DviWidget dw; { int fill_type; unsigned long mask = GCFillStyle | GCForeground; fill_type = (dw->dvi.fill * 10) / (DVI_FILL_MAX + 1); if (dw->dvi.fill_type != fill_type) { XGCValues values; if (fill_type <= 0) { values.foreground = dw->dvi.background; values.fill_style = FillSolid; } else if (fill_type >= 9) { values.foreground = dw->dvi.foreground; values.fill_style = FillSolid; } else { values.foreground = dw->dvi.foreground; values.fill_style = FillOpaqueStippled; values.stipple = dw->dvi.gray[fill_type - 1]; mask |= GCStipple; } XChangeGC(XtDisplay (dw), dw->dvi.fill_GC, mask, &values); dw->dvi.fill_type = fill_type; } } DrawLine (dw, x, y) DviWidget dw; int x, y; { int xp, yp; AdjustCacheDeltas (dw); setGC (dw); xp = XPos (dw); yp = YPos (dw); XDrawLine (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, xp, yp, xp + DeviceToX (dw, x), yp + DeviceToX (dw, y)); } DrawCircle (dw, diam) DviWidget dw; int diam; { int d; AdjustCacheDeltas (dw); setGC (dw); d = DeviceToX (dw, diam); XDrawArc (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, XPos (dw), YPos (dw) - d/2, d, d, 0, 64*360); } DrawFilledCircle (dw, diam) DviWidget dw; int diam; { int d; AdjustCacheDeltas (dw); setFillGC (dw); d = DeviceToX (dw, diam); XFillArc (XtDisplay (dw), XtWindow (dw), dw->dvi.fill_GC, XPos (dw), YPos (dw) - d/2, d, d, 0, 64*360); XDrawArc (XtDisplay (dw), XtWindow (dw), dw->dvi.fill_GC, XPos (dw), YPos (dw) - d/2, d, d, 0, 64*360); } DrawEllipse (dw, a, b) DviWidget dw; int a, b; { AdjustCacheDeltas (dw); setGC (dw); XDrawArc (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, XPos (dw), YPos (dw) - DeviceToX (dw, b/2), DeviceToX (dw, a), DeviceToX (dw, b), 0, 64*360); } DrawFilledEllipse (dw, a, b) DviWidget dw; int a, b; { AdjustCacheDeltas (dw); setFillGC (dw); XFillArc (XtDisplay (dw), XtWindow (dw), dw->dvi.fill_GC, XPos (dw), YPos (dw) - DeviceToX (dw, b/2), DeviceToX (dw, a), DeviceToX (dw, b), 0, 64*360); XDrawArc (XtDisplay (dw), XtWindow (dw), dw->dvi.fill_GC, XPos (dw), YPos (dw) - DeviceToX (dw, b/2), DeviceToX (dw, a), DeviceToX (dw, b), 0, 64*360); } DrawArc (dw, x0, y0, x1, y1) DviWidget dw; int x0, y0, x1, y1; { int angle1, angle2; int rad = (int)((sqrt ((double)x0*x0 + (double)y0*y0) + sqrt ((double)x1*x1 + (double)y1*y1) + 1.0)/2.0); if ((x0 == 0 && y0 == 0) || (x1 == 0 && y1 == 0)) return; angle1 = (int)(atan2 ((double)y0, (double)-x0)*180.0*64.0/M_PI); angle2 = (int)(atan2 ((double)-y1, (double)x1)*180.0*64.0/M_PI); angle2 -= angle1; if (angle2 < 0) angle2 += 64*360; AdjustCacheDeltas (dw); setGC (dw); rad = DeviceToX (dw, rad); XDrawArc (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, XPos (dw) + DeviceToX (dw, x0) - rad, YPos (dw) + DeviceToX (dw, y0) - rad, rad*2, rad*2, angle1, angle2); } DrawPolygon (dw, v, n) DviWidget dw; int *v; int n; { XPoint *p; int i; int dx, dy; n /= 2; AdjustCacheDeltas (dw); setGC (dw); p = (XPoint *)XtMalloc((n + 2)*sizeof(XPoint)); p[0].x = XPos (dw); p[0].y = YPos (dw); dx = 0; dy = 0; for (i = 0; i < n; i++) { dx += v[2*i]; p[i + 1].x = DeviceToX (dw, dx) + p[0].x; dy += v[2*i + 1]; p[i + 1].y = DeviceToX (dw, dy) + p[0].y; } p[n+1].x = p[0].x; p[n+1].y = p[0].y; XDrawLines (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, p, n + 2, CoordModeOrigin); XtFree((char *)p); } DrawFilledPolygon (dw, v, n) DviWidget dw; int *v; int n; { XPoint *p; int i; int dx, dy; n /= 2; if (n < 2) return; AdjustCacheDeltas (dw); setFillGC (dw); p = (XPoint *)XtMalloc((n + 2)*sizeof(XPoint)); p[0].x = p[n+1].x = XPos (dw); p[0].y = p[n+1].y = YPos (dw); dx = 0; dy = 0; for (i = 0; i < n; i++) { dx += v[2*i]; p[i + 1].x = DeviceToX (dw, dx) + p[0].x; dy += v[2*i + 1]; p[i + 1].y = DeviceToX (dw, dy) + p[0].y; } XFillPolygon (XtDisplay (dw), XtWindow (dw), dw->dvi.fill_GC, p, n + 1, Complex, CoordModeOrigin); XDrawLines (XtDisplay (dw), XtWindow (dw), dw->dvi.fill_GC, p, n + 2, CoordModeOrigin); XtFree((char *)p); } #define POINTS_MAX 10000 static appendPoint(points, pointi, x, y) XPoint *points; int *pointi; int x, y; { if (*pointi < POINTS_MAX) { points[*pointi].x = x; points[*pointi].y = y; *pointi += 1; } } #define FLATNESS 1 static flattenCurve(points, pointi, x2, y2, x3, y3, x4, y4) XPoint *points; int *pointi; int x2, y2, x3, y3, x4, y4; { int x1, y1, dx, dy, n1, n2, n; x1 = points[*pointi - 1].x; y1 = points[*pointi - 1].y; dx = x4 - x1; dy = y4 - y1; n1 = dy*(x2 - x1) - dx*(y2 - y1); n2 = dy*(x3 - x1) - dx*(y3 - y1); if (n1 < 0) n1 = -n1; if (n2 < 0) n2 = -n2; n = n1 > n2 ? n1 : n2; if (n*n / (dy*dy + dx*dx) <= FLATNESS*FLATNESS) appendPoint (points, pointi, x4, y4); else { flattenCurve (points, pointi, (x1 + x2)/2, (y1 + y2)/2, (x1 + x2*2 + x3)/4, (y1 + y2*2 + y3)/4, (x1 +3*x2 + 3*x3 + x4)/8, (y1 +3*y2 + 3*y3 + y4)/8); flattenCurve (points, pointi, (x2 + x3*2 + x4)/4, (y2 + y3*2 + y4)/4, (x3 + x4)/2, (y3 + y4)/2, x4, y4); } } DrawSpline (dw, v, n) DviWidget dw; int *v; int n; { int sx, sy, tx, ty; int ox, oy, dx, dy; int i; int pointi; XPoint points[POINTS_MAX]; if (n == 0 || (n & 1) != 0) return; AdjustCacheDeltas (dw); setGC (dw); ox = XPos (dw); oy = YPos (dw); dx = v[0]; dy = v[1]; sx = ox; sy = oy; tx = sx + DeviceToX (dw, dx); ty = sy + DeviceToX (dw, dy); pointi = 0; appendPoint (points, &pointi, sx, sy); appendPoint (points, &pointi, (sx + tx)/2, (sy + ty)/2); for (i = 2; i < n; i += 2) { int ux = ox + DeviceToX (dw, dx += v[i]); int uy = oy + DeviceToX (dw, dy += v[i+1]); flattenCurve (points, &pointi, (sx + tx*5)/6, (sy + ty*5)/6, (tx*5 + ux)/6, (ty*5 + uy)/6, (tx + ux)/2, (ty + uy)/2); sx = tx; sy = ty; tx = ux; ty = uy; } appendPoint (points, &pointi, tx, ty); XDrawLines (XtDisplay (dw), XtWindow (dw), dw->dvi.normal_GC, points, pointi, CoordModeOrigin); } /* Local Variables: c-indent-level: 8 c-continued-statement-offset: 8 c-brace-offset: -8 c-argdecl-indent: 8 c-label-offset: -8 c-tab-always-indent: nil End: */