X-Git-Url: https://git.octo.it/?a=blobdiff_plain;f=src%2Frrd_graph.c;h=5f656aa36947b1c843eee6e76386a86a6d80f7d7;hb=3a6729d5faf3d99f9f282ebe00881c790414c14c;hp=3be36d066da81bdc388f551812314579860ba45e;hpb=963ea81c470181470ba8f3260c43d171fc403902;p=rrdtool.git diff --git a/src/rrd_graph.c b/src/rrd_graph.c index 3be36d0..5f656aa 100644 --- a/src/rrd_graph.c +++ b/src/rrd_graph.c @@ -1,5 +1,5 @@ /**************************************************************************** - * RRDtool 1.2.x Copyright Tobias Oetiker, 1997 - 2005 + * RRDtool 1.2.10 Copyright by Tobi Oetiker, 1997-2005 **************************************************************************** * rrd__graph.c produce graphs from data in rrdfiles ****************************************************************************/ @@ -9,7 +9,7 @@ #include "rrd_tool.h" -#ifdef WIN32 +#if defined(_WIN32) && !defined(__CYGWIN__) && !defined(__CYGWIN32__) #include #include #endif @@ -27,21 +27,18 @@ /* some constant definitions */ -#ifdef WIN32 -char rrd_win_default_font[80]; -#endif #ifndef RRD_DEFAULT_FONT /* there is special code later to pick Cour.ttf when running on windows */ -#define RRD_DEFAULT_FONT "VeraMono.ttf" +#define RRD_DEFAULT_FONT "DejaVuSansMono-Roman.ttf" #endif text_prop_t text_prop[] = { - { 9.0, RRD_DEFAULT_FONT }, /* default */ - { 11.0, RRD_DEFAULT_FONT }, /* title */ - { 8.0, RRD_DEFAULT_FONT }, /* axis */ - { 9.0, RRD_DEFAULT_FONT }, /* unit */ - { 9.0, RRD_DEFAULT_FONT } /* legend */ + { 8.0, RRD_DEFAULT_FONT }, /* default */ + { 9.0, RRD_DEFAULT_FONT }, /* title */ + { 7.0, RRD_DEFAULT_FONT }, /* axis */ + { 8.0, RRD_DEFAULT_FONT }, /* unit */ + { 8.0, RRD_DEFAULT_FONT } /* legend */ }; xlab_t xlab[] = { @@ -102,9 +99,10 @@ gfx_color_t graph_col[] = /* default colors */ 0x90909080, /* grid */ 0xE0505080, /* major grid */ 0x000000FF, /* font */ - 0xFF0000FF, /* arrow */ - 0x404040FF /* axis */ -}; + 0x802020FF, /* arrow */ + 0x202020FF, /* axis */ + 0x000000FF /* frame */ +}; /* #define DEBUG */ @@ -154,9 +152,9 @@ ytr(image_desc_t *im, double value){ if (! im->rigid) { /* keep yval as-is */ } else if (yval > im->yorigin) { - yval = im->yorigin+2; + yval = im->yorigin +0.00001; } else if (yval < im->yorigin - im->ysize){ - yval = im->yorigin - im->ysize - 2; + yval = im->yorigin - im->ysize - 0.00001; } return yval; } @@ -183,7 +181,9 @@ enum gf_en gf_conv(char *string){ conv_if(DEF,GF_DEF) conv_if(CDEF,GF_CDEF) conv_if(VDEF,GF_VDEF) +#ifdef WITH_PIECHART conv_if(PART,GF_PART) +#endif conv_if(XPORT,GF_XPORT) conv_if(SHIFT,GF_SHIFT) @@ -223,6 +223,7 @@ enum grc_en grc_conv(char *string){ conv_if(FONT,GRC_FONT) conv_if(ARROW,GRC_ARROW) conv_if(AXIS,GRC_AXIS) + conv_if(FRAME,GRC_FRAME) return -1; } @@ -330,25 +331,30 @@ si_unit( 'E'};/* 10e18 Exa */ int symbcenter = 6; - double digits; + double digits,viewdigits=0; + digits = floor( log( max( fabs(im->minval),fabs(im->maxval)))/log((double)im->base)); + if (im->unitsexponent != 9999) { /* unitsexponent = 9, 6, 3, 0, -3, -6, -9, etc */ - digits = floor(im->unitsexponent / 3); + viewdigits = floor(im->unitsexponent / 3); } else { - digits = floor( log( max( fabs(im->minval),fabs(im->maxval)))/log((double)im->base)); + viewdigits = digits; } - im->magfact = pow((double)im->base , digits); + im->magfact = pow((double)im->base , digits); + #ifdef DEBUG printf("digits %6.3f im->magfact %6.3f\n",digits,im->magfact); #endif - if ( ((digits+symbcenter) < sizeof(symbol)) && - ((digits+symbcenter) >= 0) ) - im->symbol = symbol[(int)digits+symbcenter]; + im->viewfactor = im->magfact / pow((double)im->base , viewdigits); + + if ( ((viewdigits+symbcenter) < sizeof(symbol)) && + ((viewdigits+symbcenter) >= 0) ) + im->symbol = symbol[(int)viewdigits+symbcenter]; else - im->symbol = ' '; + im->symbol = '?'; } /* move min and max values around to become sensible */ @@ -386,7 +392,7 @@ expand_range(image_desc_t *im) delt = im->maxval - im->minval; adj = delt * 0.1; fact = 2.0 * pow(10.0, - floor(log10(max(fabs(im->minval), fabs(im->maxval)))) - 2); + floor(log10(max(fabs(im->minval), fabs(im->maxval))/im->magfact)) - 2); if (delt < fact) { adj = (fact - delt) * 0.55; #ifdef DEBUG @@ -876,26 +882,29 @@ data_calc( image_desc_t *im){ * and the resulting number is the step size for the * resulting data source. */ - for(rpi=0;im->gdes[gdi].rpnp[rpi].op != OP_END;rpi++){ - if(im->gdes[gdi].rpnp[rpi].op == OP_VARIABLE || - im->gdes[gdi].rpnp[rpi].op == OP_PREV_OTHER){ - long ptr = im->gdes[gdi].rpnp[rpi].ptr; - if (im->gdes[ptr].ds_cnt == 0) { + for(rpi=0;im->gdes[gdi].rpnp[rpi].op != OP_END;rpi++){ + if(im->gdes[gdi].rpnp[rpi].op == OP_VARIABLE || + im->gdes[gdi].rpnp[rpi].op == OP_PREV_OTHER){ + long ptr = im->gdes[gdi].rpnp[rpi].ptr; + if (im->gdes[ptr].ds_cnt == 0) { /* this is a VDEF data source */ #if 0 - printf("DEBUG: inside CDEF '%s' processing VDEF '%s'\n", - im->gdes[gdi].vname, - im->gdes[ptr].vname); - printf("DEBUG: value from vdef is %f\n",im->gdes[ptr].vf.val); + printf("DEBUG: inside CDEF '%s' processing VDEF '%s'\n", + im->gdes[gdi].vname, + im->gdes[ptr].vname); + printf("DEBUG: value from vdef is %f\n",im->gdes[ptr].vf.val); #endif im->gdes[gdi].rpnp[rpi].val = im->gdes[ptr].vf.val; im->gdes[gdi].rpnp[rpi].op = OP_NUMBER; - } else { - if ((steparray = + } else { /* normal variables and PREF(variables) */ + + /* add one entry to the array that keeps track of the step sizes of the + * data sources going into the CDEF. */ + if ((steparray = rrd_realloc(steparray, (++stepcnt+1)*sizeof(*steparray)))==NULL){ - rrd_set_error("realloc steparray"); - rpnstack_free(&rpnstack); - return -1; + rrd_set_error("realloc steparray"); + rpnstack_free(&rpnstack); + return -1; }; steparray[stepcnt-1] = im->gdes[ptr].step; @@ -905,6 +914,7 @@ data_calc( image_desc_t *im){ * to the earliest endpoint of any of the * rras involved (ptr) */ + if(im->gdes[gdi].start < im->gdes[ptr].start) im->gdes[gdi].start = im->gdes[ptr].start; @@ -917,8 +927,8 @@ data_calc( image_desc_t *im){ * further save step size and data source * count of this rra */ - im->gdes[gdi].rpnp[rpi].data = im->gdes[ptr].data + im->gdes[ptr].ds; - im->gdes[gdi].rpnp[rpi].step = im->gdes[ptr].step; + im->gdes[gdi].rpnp[rpi].data = im->gdes[ptr].data + im->gdes[ptr].ds; + im->gdes[gdi].rpnp[rpi].step = im->gdes[ptr].step; im->gdes[gdi].rpnp[rpi].ds_cnt = im->gdes[ptr].ds_cnt; /* backoff the *.data ptr; this is done so @@ -931,9 +941,9 @@ data_calc( image_desc_t *im){ /* move the data pointers to the correct period */ for(rpi=0;im->gdes[gdi].rpnp[rpi].op != OP_END;rpi++){ - if(im->gdes[gdi].rpnp[rpi].op == OP_VARIABLE || - im->gdes[gdi].rpnp[rpi].op == OP_PREV_OTHER){ - long ptr = im->gdes[gdi].rpnp[rpi].ptr; + if(im->gdes[gdi].rpnp[rpi].op == OP_VARIABLE || + im->gdes[gdi].rpnp[rpi].op == OP_PREV_OTHER){ + long ptr = im->gdes[gdi].rpnp[rpi].ptr; long diff = im->gdes[gdi].start - im->gdes[ptr].start; if(diff > 0) @@ -1286,14 +1296,16 @@ print_calc(image_desc_t *im, char ***prdata) if (!strcmp(im->gdes[i].format,"%c")) { /* VDEF time print */ char ctime_buf[128]; /* PS: for ctime_r, must be >= 26 chars */ + int iii=0; + ctime_r(&printtime,ctime_buf); + while(isprint(ctime_buf[iii])){iii++;} + ctime_buf[iii]='\0'; if (im->gdes[i].gf == GF_PRINT){ (*prdata)[prlines-2] = malloc((FMT_LEG_LEN+2)*sizeof(char)); - sprintf((*prdata)[prlines-2],"%s (%lu)", - ctime_r(&printtime,ctime_buf),printtime); + sprintf((*prdata)[prlines-2],"%s (%lu)",ctime_buf,printtime); (*prdata)[prlines-1] = NULL; } else { - sprintf(im->gdes[i].legend,"%s (%lu)", - ctime_r(&printtime,ctime_buf),printtime); + sprintf(im->gdes[i].legend,"%s (%lu)",ctime_buf,printtime); graphelement = 1; } } else { @@ -1355,7 +1367,9 @@ print_calc(image_desc_t *im, char ***prdata) case GF_DEF: case GF_CDEF: case GF_VDEF: +#ifdef WITH_PIECHART case GF_PART: +#endif case GF_SHIFT: case GF_XPORT: break; @@ -1483,7 +1497,7 @@ leg_place(image_desc_t *im) + legspace[ii] + glue; } - leg_y += im->text_prop[TEXT_PROP_LEGEND].size*1.7; + leg_y += im->text_prop[TEXT_PROP_LEGEND].size*1.8; if (prt_fctn == 's') leg_y -= im->text_prop[TEXT_PROP_LEGEND].size; fill = 0; leg_c = 0; @@ -1529,16 +1543,12 @@ calc_horizontal_grid(image_desc_t *im) if(isnan(im->ygridstep)){ if(im->extra_flags & ALTYGRID) { /* find the value with max number of digits. Get number of digits */ - decimals = ceil(log10(max(fabs(im->maxval), fabs(im->minval)))); + decimals = ceil(log10(max(fabs(im->maxval), fabs(im->minval))*im->viewfactor/im->magfact)); if(decimals <= 0) /* everything is small. make place for zero */ decimals = 1; - fractionals = floor(log10(range)); - if(fractionals < 0) /* small amplitude. */ - sprintf(im->ygrid_scale.labfmt, "%%%d.%df", decimals - fractionals + 1, -fractionals + 1); - else - sprintf(im->ygrid_scale.labfmt, "%%%d.1f", decimals + 1); - im->ygrid_scale.gridstep = pow((double)10, (double)fractionals); + im->ygrid_scale.gridstep = pow((double)10, floor(log10(range*im->viewfactor/im->magfact)))/im->viewfactor*im->magfact; + if(im->ygrid_scale.gridstep == 0) /* range is one -> 0.1 is reasonable scale */ im->ygrid_scale.gridstep = 0.1; /* should have at least 5 lines but no more then 15 */ @@ -1555,18 +1565,28 @@ calc_horizontal_grid(image_desc_t *im) im->ygrid_scale.gridstep /= 5; im->ygrid_scale.labfact = 5; } + fractionals = floor(log10(im->ygrid_scale.gridstep*(double)im->ygrid_scale.labfact*im->viewfactor/im->magfact)); + if(fractionals < 0) { /* small amplitude. */ + int len = decimals - fractionals + 1; + if (im->unitslength < len+2) im->unitslength = len+2; + sprintf(im->ygrid_scale.labfmt, "%%%d.%df%s", len, -fractionals,(im->symbol != ' ' ? " %c" : "")); + } else { + int len = decimals + 1; + if (im->unitslength < len+2) im->unitslength = len+2; + sprintf(im->ygrid_scale.labfmt, "%%%d.0f%s", len, ( im->symbol != ' ' ? " %c" : "" )); + } } else { for(i=0;ylab[i].grid > 0;i++){ pixel = im->ysize / (scaledrange / ylab[i].grid); - if (gridind == -1 && pixel > 5) { + if (pixel > 7) { gridind = i; break; } } for(i=0; i<4;i++) { - if (pixel * ylab[gridind].lfac[i] >= 2 * im->text_prop[TEXT_PROP_AXIS].size) { + if (pixel * ylab[gridind].lfac[i] >= 2.5 * im->text_prop[TEXT_PROP_AXIS].size) { im->ygrid_scale.labfact = ylab[gridind].lfac[i]; break; } @@ -1591,33 +1611,39 @@ int draw_horizontal_grid(image_desc_t *im) int sgrid = (int)( im->minval / im->ygrid_scale.gridstep - 1); int egrid = (int)( im->maxval / im->ygrid_scale.gridstep + 1); - scaledstep = im->ygrid_scale.gridstep/im->magfact; + double MaxY; + scaledstep = im->ygrid_scale.gridstep/(double)im->magfact*(double)im->viewfactor; + MaxY = scaledstep*(double)egrid; for (i = sgrid; i <= egrid; i++){ double Y0=ytr(im,im->ygrid_scale.gridstep*i); if ( Y0 >= im->yorigin-im->ysize && Y0 <= im->yorigin){ if(i % im->ygrid_scale.labfact == 0){ - if (i==0 || im->symbol == ' ') { - if(scaledstep < 1){ - if(im->extra_flags & ALTYGRID) { - sprintf(graph_label,im->ygrid_scale.labfmt,scaledstep*i); - } - else { - sprintf(graph_label,"%4.1f",scaledstep*i); - } - } else { - sprintf(graph_label,"%4.0f",scaledstep*i); - } + if (im->symbol == ' ') { + if(im->extra_flags & ALTYGRID) { + sprintf(graph_label,im->ygrid_scale.labfmt,scaledstep*(double)i); + } else { + if(MaxY < 10) { + sprintf(graph_label,"%4.1f",scaledstep*(double)i); + } else { + sprintf(graph_label,"%4.0f",scaledstep*(double)i); + } + } }else { - if(scaledstep < 1){ - sprintf(graph_label,"%4.1f %c",scaledstep*i, im->symbol); - } else { - sprintf(graph_label,"%4.0f %c",scaledstep*i, im->symbol); - } + char sisym = ( i == 0 ? ' ' : im->symbol); + if(im->extra_flags & ALTYGRID) { + sprintf(graph_label,im->ygrid_scale.labfmt,scaledstep*(double)i,sisym); + } else { + if(MaxY < 10){ + sprintf(graph_label,"%4.1f %c",scaledstep*(double)i, sisym); + } else { + sprintf(graph_label,"%4.0f %c",scaledstep*(double)i, sisym); + } + } } gfx_new_text ( im->canvas, - X0-im->text_prop[TEXT_PROP_AXIS].size/1.5, Y0, + X0-im->text_prop[TEXT_PROP_AXIS].size, Y0, im->graph_col[GRC_FONT], im->text_prop[TEXT_PROP_AXIS].font, im->text_prop[TEXT_PROP_AXIS].size, @@ -1711,7 +1737,7 @@ horizontal_log_grid(image_desc_t *im) sprintf(graph_label,"%3.0e",value * yloglab[majoridx][i]); gfx_new_text ( im->canvas, - X0-im->text_prop[TEXT_PROP_AXIS].size/1.5, Y0, + X0-im->text_prop[TEXT_PROP_AXIS].size, Y0, im->graph_col[GRC_FONT], im->text_prop[TEXT_PROP_AXIS].font, im->text_prop[TEXT_PROP_AXIS].size, @@ -1801,15 +1827,15 @@ vertical_grid( } /* paint the labels below the graph */ - for(ti = find_first_time(im->start, + for(ti = find_first_time(im->start - im->xlab_user.precis/2, im->xlab_user.labtm, im->xlab_user.labst); - ti <= im->end; + ti <= im->end - im->xlab_user.precis/2; ti = find_next_time(ti,im->xlab_user.labtm,im->xlab_user.labst) ){ tilab= ti + im->xlab_user.precis/2; /* correct time for the label */ /* are we inside the graph ? */ - if (ti < im->start || ti > im->end) continue; + if (tilab < im->start || tilab > im->end) continue; #if HAVE_STRFTIME localtime_r(&tilab, &tm); @@ -1818,11 +1844,11 @@ vertical_grid( # error "your libc has no strftime I guess we'll abort the exercise here." #endif gfx_new_text ( im->canvas, - xtr(im,tilab), Y0+im->text_prop[TEXT_PROP_AXIS].size/1.5, + xtr(im,tilab), Y0+im->text_prop[TEXT_PROP_AXIS].size*1.4+5, im->graph_col[GRC_FONT], im->text_prop[TEXT_PROP_AXIS].font, im->text_prop[TEXT_PROP_AXIS].size, - im->tabwidth, 0.0, GFX_H_CENTER, GFX_V_TOP, + im->tabwidth, 0.0, GFX_H_CENTER, GFX_V_BOTTOM, graph_label ); } @@ -1853,11 +1879,17 @@ axis_paint( MGRIDWIDTH, im->graph_col[GRC_AXIS]); - /* arrow for X axis direction */ + /* arrow for X and Y axis direction */ gfx_new_area ( im->canvas, - im->xorigin+im->xsize+3, im->yorigin-3, - im->xorigin+im->xsize+3, im->yorigin+4, - im->xorigin+im->xsize+8, im->yorigin+0.5, /* LINEOFFSET */ + im->xorigin+im->xsize+2, im->yorigin-2, + im->xorigin+im->xsize+2, im->yorigin+3, + im->xorigin+im->xsize+7, im->yorigin+0.5, /* LINEOFFSET */ + im->graph_col[GRC_ARROW]); + + gfx_new_area ( im->canvas, + im->xorigin-2, im->yorigin-im->ysize-2, + im->xorigin+3, im->yorigin-im->ysize-2, + im->xorigin+0.5, im->yorigin-im->ysize-7, /* LINEOFFSET */ im->graph_col[GRC_ARROW]); } @@ -1898,7 +1930,7 @@ grid_paint(image_desc_t *im) } else { res = draw_horizontal_grid(im); } - + /* dont draw horizontal grid if there is no min and max val */ if (! res ) { char *nodata = "No Data found"; @@ -1913,7 +1945,7 @@ grid_paint(image_desc_t *im) /* yaxis unit description */ gfx_new_text( im->canvas, - 7, (im->yorigin - im->ysize/2), + 10, (im->yorigin - im->ysize/2), im->graph_col[GRC_FONT], im->text_prop[TEXT_PROP_UNIT].font, im->text_prop[TEXT_PROP_UNIT].size, im->tabwidth, @@ -1923,12 +1955,20 @@ grid_paint(image_desc_t *im) /* graph title */ gfx_new_text( im->canvas, - im->ximg/2, im->text_prop[TEXT_PROP_TITLE].size*1.2, + im->ximg/2, im->text_prop[TEXT_PROP_TITLE].size*1.3+4, im->graph_col[GRC_FONT], im->text_prop[TEXT_PROP_TITLE].font, im->text_prop[TEXT_PROP_TITLE].size, im->tabwidth, 0.0, GFX_H_CENTER, GFX_V_CENTER, im->title); + /* rrdtool 'logo' */ + gfx_new_text( im->canvas, + im->ximg-7, 7, + ( im->graph_col[GRC_FONT] & 0xffffff00 ) | 0x00000044, + im->text_prop[TEXT_PROP_AXIS].font, + 5.5, im->tabwidth, 270, + GFX_H_RIGHT, GFX_V_TOP, + "RRDTOOL / TOBI OETIKER"); /* graph labels */ if( !(im->extra_flags & NOLEGEND) & !(im->extra_flags & ONLY_GRAPH) ) { @@ -1955,9 +1995,17 @@ grid_paint(image_desc_t *im) boxH = gfx_get_text_width(im->canvas, 0, im->text_prop[TEXT_PROP_LEGEND].font, im->text_prop[TEXT_PROP_LEGEND].size, - im->tabwidth,"M", 0)*1.2; - boxV = boxH; + im->tabwidth,"o", 0) * 1.2; + boxV = boxH*1.1; + /* make sure transparent colors show up the same way as in the graph */ + node = gfx_new_area(im->canvas, + X0,Y0-boxV, + X0,Y0, + X0+boxH,Y0, + im->graph_col[GRC_BACK]); + gfx_add_point ( node, X0+boxH, Y0-boxV ); + node = gfx_new_area(im->canvas, X0,Y0-boxV, X0,Y0, @@ -1965,8 +2013,9 @@ grid_paint(image_desc_t *im) im->gdes[i].col); gfx_add_point ( node, X0+boxH, Y0-boxV ); node = gfx_new_line(im->canvas, - X0,Y0-boxV, X0,Y0, - 1,0x000000FF); + X0,Y0-boxV, + X0,Y0, + 1.0,im->graph_col[GRC_FRAME]); gfx_add_point(node,X0+boxH,Y0); gfx_add_point(node,X0+boxH,Y0-boxV); gfx_close_path(node); @@ -2006,6 +2055,7 @@ int lazy_check(image_desc_t *im){ return size; } +#ifdef WITH_PIECHART void pie_part(image_desc_t *im, gfx_color_t color, double PieCenterX, double PieCenterY, double Radius, @@ -2052,8 +2102,16 @@ pie_part(image_desc_t *im, gfx_color_t color, } } +#endif + int -graph_size_location(image_desc_t *im, int elements, int piechart ) +graph_size_location(image_desc_t *im, int elements + +#ifdef WITH_PIECHART +, int piechart +#endif + + ) { /* The actual size of the image to draw is determined from ** several sources. The size given on the command line is @@ -2075,61 +2133,68 @@ graph_size_location(image_desc_t *im, int elements, int piechart ) ** | |..............legends......................| ** +-+-------------------------------------------+ */ - int Xvertical=0, Yvertical=0, - Xtitle =0, Ytitle =0, - Xylabel =0, Yylabel =0, + int Xvertical=0, + Ytitle =0, + Xylabel =0, Xmain =0, Ymain =0, +#ifdef WITH_PIECHART Xpie =0, Ypie =0, - Xxlabel =0, Yxlabel =0, +#endif + Yxlabel =0, #if 0 Xlegend =0, Ylegend =0, #endif - Xspacing =10, Yspacing =10; + Xspacing =15, Yspacing =15; if (im->extra_flags & ONLY_GRAPH) { - Xspacing =0; - Yspacing =0; - } else { - if (im->ylegend[0] != '\0') { + im->xorigin =0; + im->ximg = im->xsize; + im->yimg = im->ysize; + im->yorigin = im->ysize; + return 0; + } + + if (im->ylegend[0] != '\0' ) { Xvertical = im->text_prop[TEXT_PROP_UNIT].size *2; - Yvertical = gfx_get_text_width(im->canvas, 0, - im->text_prop[TEXT_PROP_UNIT].font, - im->text_prop[TEXT_PROP_UNIT].size, - im->tabwidth,im->ylegend, 0); - } } + if (im->title[0] != '\0') { /* The title is placed "inbetween" two text lines so it ** automatically has some vertical spacing. The horizontal ** spacing is added here, on each side. */ - Xtitle = gfx_get_text_width(im->canvas, 0, + /* don't care for the with of the title + Xtitle = gfx_get_text_width(im->canvas, 0, im->text_prop[TEXT_PROP_TITLE].font, im->text_prop[TEXT_PROP_TITLE].size, im->tabwidth, - im->title, 0) + 2*Xspacing; - Ytitle = im->text_prop[TEXT_PROP_TITLE].size*2.5; + im->title, 0) + 2*Xspacing; */ + Ytitle = im->text_prop[TEXT_PROP_TITLE].size*2.6+10; } if (elements) { Xmain=im->xsize; Ymain=im->ysize; if (im->draw_x_grid) { - Xxlabel=Xmain; Yxlabel=im->text_prop[TEXT_PROP_AXIS].size *2.5; } if (im->draw_y_grid) { - Xylabel=im->text_prop[TEXT_PROP_AXIS].size *6; - Yylabel=Ymain; + Xylabel=gfx_get_text_width(im->canvas, 0, + im->text_prop[TEXT_PROP_AXIS].font, + im->text_prop[TEXT_PROP_AXIS].size, + im->tabwidth, + "0", 0) * im->unitslength; } } +#ifdef WITH_PIECHART if (piechart) { im->piesize=im->xsizeysize?im->xsize:im->ysize; Xpie=im->piesize; Ypie=im->piesize; } +#endif /* Now calculate the total size. Insert some spacing where desired. im->xorigin and im->yorigin need to correspond @@ -2142,23 +2207,23 @@ graph_size_location(image_desc_t *im, int elements, int piechart ) ** forget about it at all; the legend will have to fit in the ** size already allocated. */ - im->ximg = Xmain; + im->ximg = Xylabel + Xmain + 2 * Xspacing; - if ( !(im->extra_flags & ONLY_GRAPH) ) { - im->ximg = Xylabel + Xmain + Xpie + 2 * Xspacing; - } +#ifdef WITH_PIECHART + im->ximg += Xpie; +#endif if (Xmain) im->ximg += Xspacing; +#ifdef WITH_PIECHART if (Xpie) im->ximg += Xspacing; +#endif - if (im->extra_flags & ONLY_GRAPH) { - im->xorigin = 0; - } else { - im->xorigin = Xspacing + Xylabel; - } + im->xorigin = Xspacing + Xylabel; + + /* the length of the title should not influence with width of the graph + if (Xtitle > im->ximg) im->ximg = Xtitle; */ - if (Xtitle > im->ximg) im->ximg = Xtitle; - if (Xvertical) { + if (Xvertical) { /* unit description */ im->ximg += Xvertical; im->xorigin += Xvertical; } @@ -2175,27 +2240,21 @@ graph_size_location(image_desc_t *im, int elements, int piechart ) /* reserve space for main and/or pie */ - if (im->extra_flags & ONLY_GRAPH) { - im->yimg = Ymain; - } else { - im->yimg = Ymain + Yxlabel; - } + im->yimg = Ymain + Yxlabel; +#ifdef WITH_PIECHART if (im->yimg < Ypie) im->yimg = Ypie; +#endif - if (im->extra_flags & ONLY_GRAPH) { - im->yorigin = im->yimg; - } else { - im->yorigin = im->yimg - Yxlabel; - } + im->yorigin = im->yimg - Yxlabel; /* reserve space for the title *or* some padding above the graph */ if (Ytitle) { im->yimg += Ytitle; im->yorigin += Ytitle; } else { - im->yimg += Yspacing; - im->yorigin += Yspacing; + im->yimg += 1.5*Yspacing; + im->yorigin += 1.5*Yspacing; } /* reserve space for padding below the graph */ im->yimg += Yspacing; @@ -2207,8 +2266,6 @@ graph_size_location(image_desc_t *im, int elements, int piechart ) if(leg_place(im)==-1) return -1; - /* last of three steps: check total height of image */ - if (im->yimg < Yvertical) im->yimg = Yvertical; #if 0 if (Xlegend > im->ximg) { @@ -2217,6 +2274,7 @@ graph_size_location(image_desc_t *im, int elements, int piechart ) } #endif +#ifdef WITH_PIECHART /* The pie is placed in the upper right hand corner, ** just below the title (if any) and with sufficient ** padding. @@ -2228,6 +2286,7 @@ graph_size_location(image_desc_t *im, int elements, int piechart ) im->pie_x = im->ximg/2; im->pie_y = im->yorigin-Ypie/2; } +#endif return 0; } @@ -2238,8 +2297,10 @@ graph_paint(image_desc_t *im, char ***calcpr) { int i,ii; int lazy = lazy_check(im); +#ifdef WITH_PIECHART int piechart = 0; double PieStart=0.0; +#endif FILE *fo; gfx_node_t *node; @@ -2258,7 +2319,8 @@ graph_paint(image_desc_t *im, char ***calcpr) /* evaluate VDEF and CDEF operations ... */ if(data_calc(im)==-1) return -1; - + +#ifdef WITH_PIECHART /* check if we need to draw a piechart */ for(i=0;igdes_c;i++){ if (im->gdes[i].gf == GF_PART) { @@ -2266,6 +2328,7 @@ graph_paint(image_desc_t *im, char ***calcpr) break; } } +#endif /* calculate and PRINT and GPRINT definitions. We have to do it at * this point because it will affect the length of the legends @@ -2274,10 +2337,16 @@ graph_paint(image_desc_t *im, char ***calcpr) */ i=print_calc(im,calcpr); if(i<0) return -1; - if(((i==0)&&(piechart==0)) || lazy) return 0; + if(((i==0) +#ifdef WITH_PIECHART +&&(piechart==0) +#endif +) || lazy) return 0; +#ifdef WITH_PIECHART /* If there's only the pie chart to draw, signal this */ if (i==0) piechart=2; +#endif /* get actual drawing data and find min and max values*/ if(data_proc(im)==-1) @@ -2300,7 +2369,11 @@ graph_paint(image_desc_t *im, char ***calcpr) *** Calculating sizes and locations became a bit confusing *** *** so I moved this into a separate function. *** **************************************************************/ - if(graph_size_location(im,i,piechart)==-1) + if(graph_size_location(im,i +#ifdef WITH_PIECHART +,piechart +#endif +)==-1) return -1; /* the actual graph is created by going through the individual @@ -2308,13 +2381,15 @@ graph_paint(image_desc_t *im, char ***calcpr) node=gfx_new_area ( im->canvas, 0, 0, - im->ximg, 0, - im->ximg, im->yimg, + 0, im->yimg, + im->ximg, im->yimg, im->graph_col[GRC_BACK]); - gfx_add_point(node,0, im->yimg); + gfx_add_point(node,im->ximg, 0); +#ifdef WITH_PIECHART if (piechart != 2) { +#endif node=gfx_new_area ( im->canvas, im->xorigin, im->yorigin, im->xorigin + im->xsize, im->yorigin, @@ -2327,11 +2402,15 @@ graph_paint(image_desc_t *im, char ***calcpr) areazero = im->minval; if (im->maxval < 0.0) areazero = im->maxval; - } +#ifdef WITH_PIECHART + } +#endif +#ifdef WITH_PIECHART if (piechart) { pie_part(im,im->graph_col[GRC_CANVAS],im->pie_x,im->pie_y,im->piesize*0.5,0,2*M_PI); } +#endif for(i=0;igdes_c;i++){ switch(im->gdes[i].gf){ @@ -2377,81 +2456,138 @@ graph_paint(image_desc_t *im, char ***calcpr) } } /* for */ - - if (im->gdes[i].col != 0x0){ + + /* ******************************************************* + a ___. (a,t) + | | ___ + ____| | | | + | |___| + -------|--t-1--t-------------------------------- + + if we know the value at time t was a then + we draw a square from t-1 to t with the value a. + + ********************************************************* */ + if (im->gdes[i].col != 0x0){ /* GF_LINE and friend */ if(stack_gf == GF_LINE ){ node = NULL; - for(ii=1;iixsize;ii++){ - if ( ! isnan(im->gdes[i].p_data[ii-1]) - && ! isnan(im->gdes[i].p_data[ii])){ - if (node == NULL){ - node = gfx_new_line(im->canvas, + for(ii=1;iixsize;ii++){ + if (isnan(im->gdes[i].p_data[ii]) || (im->slopemode==1 && isnan(im->gdes[i].p_data[ii-1]))){ + node = NULL; + continue; + } + if ( node == NULL ) { + if ( im->slopemode == 0 ){ + node = gfx_new_line(im->canvas, + ii-1+im->xorigin,ytr(im,im->gdes[i].p_data[ii]), + ii+im->xorigin,ytr(im,im->gdes[i].p_data[ii]), + im->gdes[i].linewidth, + im->gdes[i].col); + } else { + node = gfx_new_line(im->canvas, ii-1+im->xorigin,ytr(im,im->gdes[i].p_data[ii-1]), ii+im->xorigin,ytr(im,im->gdes[i].p_data[ii]), im->gdes[i].linewidth, im->gdes[i].col); - } else { - gfx_add_point(node,ii+im->xorigin,ytr(im,im->gdes[i].p_data[ii])); - } - } else { - node = NULL; - } + } + } else { + if ( im->slopemode==0 ){ + gfx_add_point(node,ii-1+im->xorigin,ytr(im,im->gdes[i].p_data[ii])); + }; + gfx_add_point(node,ii+im->xorigin,ytr(im,im->gdes[i].p_data[ii])); + }; + } } else { - int area_start=-1; - node = NULL; - for(ii=1;iixsize;ii++){ - /* open an area */ - if ( ! isnan(im->gdes[i].p_data[ii-1]) - && ! isnan(im->gdes[i].p_data[ii])){ - if (node == NULL){ - float ybase = 0.0; -/* - if (im->gdes[i].gf == GF_STACK) { -*/ - if ( (im->gdes[i].gf == GF_STACK) - || (im->gdes[i].stack) ) { - - ybase = ytr(im,lastgdes->p_data[ii-1]); - } else { - ybase = ytr(im,areazero); - } - area_start = ii-1; - node = gfx_new_area(im->canvas, - ii-1+im->xorigin,ybase, - ii-1+im->xorigin,ytr(im,im->gdes[i].p_data[ii-1]), - ii+im->xorigin,ytr(im,im->gdes[i].p_data[ii]), - im->gdes[i].col - ); - } else { - gfx_add_point(node,ii+im->xorigin,ytr(im,im->gdes[i].p_data[ii])); - } + int idxI=-1; + double *foreY=malloc(sizeof(double)*im->xsize*2); + double *foreX=malloc(sizeof(double)*im->xsize*2); + double *backY=malloc(sizeof(double)*im->xsize*2); + double *backX=malloc(sizeof(double)*im->xsize*2); + int drawem = 0; + for(ii=0;ii<=im->xsize;ii++){ + double ybase,ytop; + if ( idxI > 0 && ( drawem != 0 || ii==im->xsize)){ + int cntI=1; + int lastI=0; + while (cntI < idxI && foreY[lastI] == foreY[cntI] && foreY[lastI] == foreY[cntI+1]){cntI++;} + node = gfx_new_area(im->canvas, + backX[0],backY[0], + foreX[0],foreY[0], + foreX[cntI],foreY[cntI], im->gdes[i].col); + while (cntI < idxI) { + lastI = cntI; + cntI++; + while ( cntI < idxI && foreY[lastI] == foreY[cntI] && foreY[lastI] == foreY[cntI+1]){cntI++;} + gfx_add_point(node,foreX[cntI],foreY[cntI]); + } + gfx_add_point(node,backX[idxI],backY[idxI]); + while (idxI > 1){ + lastI = idxI; + idxI--; + while ( idxI > 1 && backY[lastI] == backY[idxI] && backY[lastI] == backY[idxI-1]){idxI--;} + gfx_add_point(node,backX[idxI],backY[idxI]); + } + idxI=-1; + drawem = 0; } + if (drawem != 0){ + drawem = 0; + idxI=-1; + } + if (ii == im->xsize) break; + + /* keep things simple for now, just draw these bars + do not try to build a big and complex area */ - if ( node != NULL && (ii+1==im->xsize || isnan(im->gdes[i].p_data[ii]) )){ - /* GF_AREA STACK type*/ -/* - if (im->gdes[i].gf == GF_STACK ) { -*/ - if ( (im->gdes[i].gf == GF_STACK) - || (im->gdes[i].stack) ) { - int iii; - for (iii=ii-1;iii>area_start;iii--){ - gfx_add_point(node,iii+im->xorigin,ytr(im,lastgdes->p_data[iii])); - } - } else { - gfx_add_point(node,ii+im->xorigin,ytr(im,areazero)); - }; - node=NULL; - }; - } + + if ( im->slopemode == 0 && ii==0){ + continue; + } + if ( isnan(im->gdes[i].p_data[ii]) ) { + drawem = 1; + continue; + } + ytop = ytr(im,im->gdes[i].p_data[ii]); + if ( lastgdes && im->gdes[i].stack ) { + ybase = ytr(im,lastgdes->p_data[ii]); + } else { + ybase = ytr(im,areazero); + } + if ( ybase == ytop ){ + drawem = 1; + continue; + } + /* every area has to be wound clock-wise, + so we have to make sur base remains base */ + if (ybase > ytop){ + double extra = ytop; + ytop = ybase; + ybase = extra; + } + if ( im->slopemode == 0 ){ + backY[++idxI] = ybase-0.2; + backX[idxI] = ii+im->xorigin-1; + foreY[idxI] = ytop+0.2; + foreX[idxI] = ii+im->xorigin-1; + } + backY[++idxI] = ybase-0.2; + backX[idxI] = ii+im->xorigin; + foreY[idxI] = ytop+0.2; + foreX[idxI] = ii+im->xorigin; + } + /* close up any remaining area */ + free(foreY); + free(foreX); + free(backY); + free(backX); } /* else GF_LINE */ } /* if color != 0x0 */ /* make sure we do not run into trouble when stacking on NaN */ for(ii=0;iixsize;ii++){ if (isnan(im->gdes[i].p_data[ii])) { - if (lastgdes && (im->gdes[i].gf == GF_STACK)) { + if (lastgdes && (im->gdes[i].stack)) { im->gdes[i].p_data[ii] = lastgdes->p_data[ii]; } else { im->gdes[i].p_data[ii] = ytr(im,areazero); @@ -2460,6 +2596,7 @@ graph_paint(image_desc_t *im, char ***calcpr) } lastgdes = &(im->gdes[i]); break; +#ifdef WITH_PIECHART case GF_PART: if(isnan(im->gdes[i].yrule)) /* fetch variable */ im->gdes[i].yrule = im->gdes[im->gdes[i].vidx].vf.val; @@ -2472,19 +2609,25 @@ graph_paint(image_desc_t *im, char ***calcpr) PieStart += im->gdes[i].yrule; } break; +#endif + } /* switch */ } +#ifdef WITH_PIECHART if (piechart==2) { im->draw_x_grid=0; im->draw_y_grid=0; } +#endif - if( !(im->extra_flags & ONLY_GRAPH) ) - axis_paint(im); /* grid_paint also does the text */ if( !(im->extra_flags & ONLY_GRAPH) ) grid_paint(im); + + + if( !(im->extra_flags & ONLY_GRAPH) ) + axis_paint(im); /* the RULES are the last thing to paint ... */ for(i=0;igdes_c;i++){ @@ -2520,7 +2663,7 @@ graph_paint(image_desc_t *im, char ***calcpr) if (strcmp(im->graphfile,"-")==0) { fo = im->graphhandle ? im->graphhandle : stdout; -#ifdef WIN32 +#if defined(_WIN32) && !defined(__CYGWIN__) && !defined(__CYGWIN32__) /* Change translation mode for stdout to BINARY */ _setmode( _fileno( fo ), O_BINARY ); #endif @@ -2531,7 +2674,7 @@ graph_paint(image_desc_t *im, char ***calcpr) return (-1); } } - gfx_render (im->canvas,im->ximg,im->yimg,0x0,fo); + gfx_render (im->canvas,im->ximg,im->yimg,0x00000000,fo); if (strcmp(im->graphfile,"-") != 0) fclose(fo); return 0; @@ -2610,7 +2753,6 @@ int rrd_graph(int argc, char **argv, char ***prdata, int *xsize, int *ysize, FILE *stream, double *ymin, double *ymax) { image_desc_t im; - rrd_graph_init(&im); im.graphhandle = stream; @@ -2687,7 +2829,9 @@ rrd_graph_init(image_desc_t *im) #ifdef HAVE_SETLOCALE setlocale(LC_TIME,""); #endif - + im->yorigin=0; + im->xorigin=0; + im->minval=0; im->xlab_user.minsec = -1; im->ximg=0; im->yimg=0; @@ -2699,11 +2843,15 @@ rrd_graph_init(image_desc_t *im) im->minval = DNAN; im->maxval = DNAN; im->unitsexponent= 9999; + im->unitslength= 6; + im->symbol = ' '; + im->viewfactor = 1.0; im->extra_flags= 0; im->rigid = 0; im->gridfit = 1; im->imginfo = NULL; im->lazy = 0; + im->slopemode = 0; im->logarithmic = 0; im->ygridstep = DNAN; im->draw_x_grid = 1; @@ -2719,19 +2867,35 @@ rrd_graph_init(image_desc_t *im) for(i=0;igraph_col[i]=graph_col[i]; -#ifdef WIN32 + +#if defined(_WIN32) && !defined(__CYGWIN__) && !defined(__CYGWIN32__) { char *windir; + char rrd_win_default_font[1000]; windir = getenv("windir"); /* %windir% is something like D:\windows or C:\winnt */ if (windir != NULL) { - strcpy(rrd_win_default_font,windir); - strcat(rrd_win_default_font,"\\fonts\\cour.ttf"); - for(i=0;itext_prop[i].size = text_prop[i].size; strcpy(im->text_prop[i].font,text_prop[i].font); @@ -2748,6 +2912,7 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) long long_tmp; struct rrd_time_value start_tv, end_tv; gfx_color_t color; + optind = 0; opterr = 0; /* initialize getopt */ parsetime("end-24h", &start_tv); parsetime("now", &end_tv); @@ -2780,19 +2945,24 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) {"only-graph", no_argument, 0, 'j'}, {"alt-y-grid", no_argument, 0, 'Y'}, {"no-minor", no_argument, 0, 'I'}, + {"slope-mode", no_argument, 0, 'E'}, {"alt-autoscale", no_argument, 0, 'A'}, {"alt-autoscale-max", no_argument, 0, 'M'}, + {"no-gridfit", no_argument, 0, 'N'}, {"units-exponent",required_argument, 0, 'X'}, + {"units-length",required_argument, 0, 'L'}, {"step", required_argument, 0, 'S'}, {"tabwidth", required_argument, 0, 'T'}, - {"no-gridfit", no_argument, 0, 'N'}, + {"font-render-mode", required_argument, 0, 'R'}, + {"font-smoothing-threshold", required_argument, 0, 'B'}, + {"alt-y-mrtg", no_argument, 0, 1000}, /* this has no effect it is just here to save old apps from crashing when they use it */ {0,0,0,0}}; int option_index = 0; int opt; - + int col_start,col_end; opt = getopt_long(argc, argv, - "s:e:x:y:v:w:h:iu:l:rb:oc:n:m:t:f:a:I:zgjFYAMX:S:NT:", + "s:e:x:y:v:w:h:iu:l:rb:oc:n:m:t:f:a:I:zgjFYAMEX:L:S:T:NR:B:", long_options, &option_index); if (opt == EOF) @@ -2823,13 +2993,16 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) case 'X': im->unitsexponent = atoi(optarg); break; + case 'L': + im->unitslength = atoi(optarg); + break; case 'T': im->tabwidth = atof(optarg); break; case 'S': im->step = atoi(optarg); break; - case 262: + case 'N': im->gridfit = 0; break; case 's': @@ -2861,6 +3034,7 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) &im->xlab_user.precis, &stroff) == 7 && stroff != 0){ strncpy(im->xlab_form, optarg+stroff, sizeof(im->xlab_form) - 1); + im->xlab_form[sizeof(im->xlab_form)-1] = '\0'; if((int)(im->xlab_user.gridtm = tmt_conv(scan_gtm)) == -1){ rrd_set_error("unknown keyword %s",scan_gtm); return; @@ -2952,6 +3126,10 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) case 'z': im->lazy = 1; break; + case 'E': + im->slopemode = 1; + break; + case 'o': im->logarithmic = 1; if (isnan(im->minval)) @@ -2959,13 +3137,41 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) break; case 'c': if(sscanf(optarg, - "%10[A-Z]#%8lx", - col_nam,&color) == 2){ + "%10[A-Z]#%n%8lx%n", + col_nam,&col_start,&color,&col_end) == 2){ int ci; + int col_len = col_end - col_start; + switch (col_len){ + case 3: + color = ( + ((color & 0xF00) * 0x110000) | + ((color & 0x0F0) * 0x011000) | + ((color & 0x00F) * 0x001100) | + 0x000000FF + ); + break; + case 4: + color = ( + ((color & 0xF000) * 0x11000) | + ((color & 0x0F00) * 0x01100) | + ((color & 0x00F0) * 0x00110) | + ((color & 0x000F) * 0x00011) + ); + break; + case 6: + color = (color << 8) + 0xff /* shift left by 8 */; + break; + case 8: + break; + default: + rrd_set_error("the color format is #RRGGBB[AA]"); + return; + } if((ci=grc_conv(col_nam)) != -1){ im->graph_col[ci]=color; } else { rrd_set_error("invalid color name '%s'",col_nam); + return; } } else { rrd_set_error("invalid color def format"); @@ -2979,21 +3185,18 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) if(sscanf(optarg, "%10[A-Z]:%lf:%1000s", - prop,&size,font) == 3){ - int sindex; + prop,&size,font) >= 2){ + int sindex,propidx; if((sindex=text_prop_conv(prop)) != -1){ - im->text_prop[sindex].size=size; - strcpy(im->text_prop[sindex].font,font); - if (sindex==0) { /* the default */ - im->text_prop[TEXT_PROP_TITLE].size=size; - strcpy(im->text_prop[TEXT_PROP_TITLE].font,font); - im->text_prop[TEXT_PROP_AXIS].size=size; - strcpy(im->text_prop[TEXT_PROP_AXIS].font,font); - im->text_prop[TEXT_PROP_UNIT].size=size; - strcpy(im->text_prop[TEXT_PROP_UNIT].font,font); - im->text_prop[TEXT_PROP_LEGEND].size=size; - strcpy(im->text_prop[TEXT_PROP_LEGEND].font,font); - } + for (propidx=sindex;propidx 0){ + im->text_prop[propidx].size=size; + } + if (strlen(font) > 0){ + strcpy(im->text_prop[propidx].font,font); + } + if (propidx==sindex && sindex != 0) break; + } } else { rrd_set_error("invalid fonttag '%s'",prop); return; @@ -3016,6 +3219,24 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) im->title[150]='\0'; break; + case 'R': + if ( strcmp( optarg, "normal" ) == 0 ) + im->canvas->aa_type = AA_NORMAL; + else if ( strcmp( optarg, "light" ) == 0 ) + im->canvas->aa_type = AA_LIGHT; + else if ( strcmp( optarg, "mono" ) == 0 ) + im->canvas->aa_type = AA_NONE; + else + { + rrd_set_error("unknown font-render-mode '%s'", optarg ); + return; + } + break; + + case 'B': + im->canvas->font_aa_threshold = atof(optarg); + break; + case '?': if (optopt != 0) rrd_set_error("unknown option '%c'", optopt);