From: oetiker Date: Tue, 10 Apr 2007 05:43:34 +0000 (+0000) Subject: untabified rrd_graph.c X-Git-Url: https://git.tokkee.org/?a=commitdiff_plain;h=34acbcb39d7f732b3cf03c928583f6774f6fe153;p=rrdtool.git untabified rrd_graph.c git-svn-id: svn://svn.oetiker.ch/rrdtool/branches/1.2/program@1032 a5681a0c-68f1-0310-ab6d-d61299d08faa --- diff --git a/src/rrd_graph.c b/src/rrd_graph.c index a23fb10..47c187a 100644 --- a/src/rrd_graph.c +++ b/src/rrd_graph.c @@ -56,7 +56,7 @@ xlab_t xlab[] = { {180, 24*3600, TMT_HOUR,1, TMT_HOUR,6, TMT_HOUR,12, 0,"%a %H:%M"}, /*{300, 0, TMT_HOUR,3, TMT_HOUR,12, TMT_HOUR,12, 12*3600,"%a %p"}, this looks silly*/ {600, 0, TMT_HOUR,6, TMT_DAY,1, TMT_DAY,1, 24*3600,"%a"}, - {1200, 0, TMT_HOUR,6, TMT_DAY,1, TMT_DAY,1, 24*3600,"%d"}, + {1200, 0, TMT_HOUR,6, TMT_DAY,1, TMT_DAY,1, 24*3600,"%d"}, {1800, 0, TMT_HOUR,12, TMT_DAY,1, TMT_DAY,2, 24*3600,"%a %d"}, {2400, 0, TMT_HOUR,12, TMT_DAY,1, TMT_DAY,2, 24*3600,"%a"}, {3600, 0, TMT_DAY,1, TMT_WEEK,1, TMT_WEEK,1, 7*24*3600,"Week %V"}, @@ -114,11 +114,11 @@ int xtr(image_desc_t *im,time_t mytime){ static double pixie; if (mytime==0){ - pixie = (double) im->xsize / (double)(im->end - im->start); - return im->xorigin; + pixie = (double) im->xsize / (double)(im->end - im->start); + return im->xorigin; } return (int)((double)im->xorigin - + pixie * ( mytime - im->start ) ); + + pixie * ( mytime - im->start ) ); } /* translate data values into y coordinates */ @@ -128,17 +128,17 @@ ytr(image_desc_t *im, double value){ double yval; if (isnan(value)){ if(!im->logarithmic) - pixie = (double) im->ysize / (im->maxval - im->minval); + pixie = (double) im->ysize / (im->maxval - im->minval); else - pixie = (double) im->ysize / (log10(im->maxval) - log10(im->minval)); + pixie = (double) im->ysize / (log10(im->maxval) - log10(im->minval)); yval = im->yorigin; } else if(!im->logarithmic) { yval = im->yorigin - pixie * (value - im->minval); } else { if (value < im->minval) { - yval = im->yorigin; + yval = im->yorigin; } else { - yval = im->yorigin - pixie * (log10(value) - log10(im->minval)); + yval = im->yorigin - pixie * (log10(value) - log10(im->minval)); } } /* make sure we don't return anything too unreasonable. GD lib can @@ -220,7 +220,7 @@ enum grc_en grc_conv(char *string){ conv_if(AXIS,GRC_AXIS) conv_if(FRAME,GRC_FRAME) - return -1; + return -1; } enum text_prop_en text_prop_conv(char *string){ @@ -239,18 +239,18 @@ enum text_prop_en text_prop_conv(char *string){ int im_free(image_desc_t *im) { - unsigned long i,ii; + unsigned long i,ii; if (im == NULL) return 0; for(i=0;i<(unsigned)im->gdes_c;i++){ if (im->gdes[i].data_first){ - /* careful here, because a single pointer can occur several times */ - free (im->gdes[i].data); - if (im->gdes[i].ds_namv){ - for (ii=0;iigdes[i].ds_cnt;ii++) - free(im->gdes[i].ds_namv[ii]); - free(im->gdes[i].ds_namv); - } + /* careful here, because a single pointer can occur several times */ + free (im->gdes[i].data); + if (im->gdes[i].ds_namv){ + for (ii=0;iigdes[i].ds_cnt;ii++) + free(im->gdes[i].ds_namv[ii]); + free(im->gdes[i].ds_namv); + } } free (im->gdes[i].p_data); free (im->gdes[i].rpnp); @@ -263,61 +263,61 @@ im_free(image_desc_t *im) /* find SI magnitude symbol for the given number*/ void auto_scale( - image_desc_t *im, /* image description */ - double *value, - char **symb_ptr, - double *magfact - ) + image_desc_t *im, /* image description */ + double *value, + char **symb_ptr, + double *magfact + ) { - + char *symbol[] = {"a", /* 10e-18 Atto */ - "f", /* 10e-15 Femto */ - "p", /* 10e-12 Pico */ - "n", /* 10e-9 Nano */ - "u", /* 10e-6 Micro */ - "m", /* 10e-3 Milli */ - " ", /* Base */ - "k", /* 10e3 Kilo */ - "M", /* 10e6 Mega */ - "G", /* 10e9 Giga */ - "T", /* 10e12 Tera */ - "P", /* 10e15 Peta */ - "E"};/* 10e18 Exa */ + "f", /* 10e-15 Femto */ + "p", /* 10e-12 Pico */ + "n", /* 10e-9 Nano */ + "u", /* 10e-6 Micro */ + "m", /* 10e-3 Milli */ + " ", /* Base */ + "k", /* 10e3 Kilo */ + "M", /* 10e6 Mega */ + "G", /* 10e9 Giga */ + "T", /* 10e12 Tera */ + "P", /* 10e15 Peta */ + "E"};/* 10e18 Exa */ int symbcenter = 6; int sindex; if (*value == 0.0 || isnan(*value) ) { - sindex = 0; - *magfact = 1.0; + sindex = 0; + *magfact = 1.0; } else { - sindex = floor(log(fabs(*value))/log((double)im->base)); - *magfact = pow((double)im->base, (double)sindex); - (*value) /= (*magfact); + sindex = floor(log(fabs(*value))/log((double)im->base)); + *magfact = pow((double)im->base, (double)sindex); + (*value) /= (*magfact); } if ( sindex <= symbcenter && sindex >= -symbcenter) { - (*symb_ptr) = symbol[sindex+symbcenter]; + (*symb_ptr) = symbol[sindex+symbcenter]; } else { - (*symb_ptr) = "?"; + (*symb_ptr) = "?"; } } static char si_symbol[] = { - 'a', /* 10e-18 Atto */ - 'f', /* 10e-15 Femto */ - 'p', /* 10e-12 Pico */ - 'n', /* 10e-9 Nano */ - 'u', /* 10e-6 Micro */ - 'm', /* 10e-3 Milli */ - ' ', /* Base */ - 'k', /* 10e3 Kilo */ - 'M', /* 10e6 Mega */ - 'G', /* 10e9 Giga */ - 'T', /* 10e12 Tera */ - 'P', /* 10e15 Peta */ - 'E', /* 10e18 Exa */ + 'a', /* 10e-18 Atto */ + 'f', /* 10e-15 Femto */ + 'p', /* 10e-12 Pico */ + 'n', /* 10e-9 Nano */ + 'u', /* 10e-6 Micro */ + 'm', /* 10e-3 Milli */ + ' ', /* Base */ + 'k', /* 10e3 Kilo */ + 'M', /* 10e6 Mega */ + 'G', /* 10e9 Giga */ + 'T', /* 10e12 Tera */ + 'P', /* 10e15 Peta */ + 'E', /* 10e18 Exa */ }; static const int si_symbcenter = 6; @@ -333,10 +333,10 @@ si_unit( 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 */ + /* unitsexponent = 9, 6, 3, 0, -3, -6, -9, etc */ viewdigits = floor(im->unitsexponent / 3); } else { - viewdigits = digits; + viewdigits = digits; } im->magfact = pow((double)im->base , digits); @@ -348,10 +348,10 @@ si_unit( im->viewfactor = im->magfact / pow((double)im->base , viewdigits); if ( ((viewdigits+si_symbcenter) < sizeof(si_symbol)) && - ((viewdigits+si_symbcenter) >= 0) ) + ((viewdigits+si_symbcenter) >= 0) ) im->symbol = si_symbol[(int)viewdigits+si_symbcenter]; else - im->symbol = '?'; + im->symbol = '?'; } /* move min and max values around to become sensible */ @@ -360,13 +360,13 @@ void expand_range(image_desc_t *im) { double sensiblevalues[] ={1000.0,900.0,800.0,750.0,700.0, - 600.0,500.0,400.0,300.0,250.0, - 200.0,125.0,100.0,90.0,80.0, - 75.0,70.0,60.0,50.0,40.0,30.0, - 25.0,20.0,10.0,9.0,8.0, - 7.0,6.0,5.0,4.0,3.5,3.0, - 2.5,2.0,1.8,1.5,1.2,1.0, - 0.8,0.7,0.6,0.5,0.4,0.3,0.2,0.1,0.0,-1}; + 600.0,500.0,400.0,300.0,250.0, + 200.0,125.0,100.0,90.0,80.0, + 75.0,70.0,60.0,50.0,40.0,30.0, + 25.0,20.0,10.0,9.0,8.0, + 7.0,6.0,5.0,4.0,3.5,3.0, + 2.5,2.0,1.8,1.5,1.2,1.0, + 0.8,0.7,0.6,0.5,0.4,0.3,0.2,0.1,0.0,-1}; double scaled_min,scaled_max; double adj; @@ -376,69 +376,69 @@ expand_range(image_desc_t *im) #ifdef DEBUG printf("Min: %6.2f Max: %6.2f MagFactor: %6.2f\n", - im->minval,im->maxval,im->magfact); + im->minval,im->maxval,im->magfact); #endif if (isnan(im->ygridstep)){ - if(im->extra_flags & ALTAUTOSCALE) { - /* measure the amplitude of the function. Make sure that - graph boundaries are slightly higher then max/min vals - so we can see amplitude on the graph */ - double delt, fact; - - delt = im->maxval - im->minval; - adj = delt * 0.1; - fact = 2.0 * pow(10.0, - floor(log10(max(fabs(im->minval), fabs(im->maxval))/im->magfact)) - 2); - if (delt < fact) { - adj = (fact - delt) * 0.55; + if(im->extra_flags & ALTAUTOSCALE) { + /* measure the amplitude of the function. Make sure that + graph boundaries are slightly higher then max/min vals + so we can see amplitude on the graph */ + double delt, fact; + + delt = im->maxval - im->minval; + adj = delt * 0.1; + fact = 2.0 * pow(10.0, + floor(log10(max(fabs(im->minval), fabs(im->maxval))/im->magfact)) - 2); + if (delt < fact) { + adj = (fact - delt) * 0.55; #ifdef DEBUG - printf("Min: %6.2f Max: %6.2f delt: %6.2f fact: %6.2f adj: %6.2f\n", im->minval, im->maxval, delt, fact, adj); + printf("Min: %6.2f Max: %6.2f delt: %6.2f fact: %6.2f adj: %6.2f\n", im->minval, im->maxval, delt, fact, adj); #endif - } - im->minval -= adj; - im->maxval += adj; - } - else if(im->extra_flags & ALTAUTOSCALE_MAX) { - /* measure the amplitude of the function. Make sure that - graph boundaries are slightly higher than max vals - so we can see amplitude on the graph */ - adj = (im->maxval - im->minval) * 0.1; - im->maxval += adj; - } - else { - scaled_min = im->minval / im->magfact; - scaled_max = im->maxval / im->magfact; - - for (i=1; sensiblevalues[i] > 0; i++){ - if (sensiblevalues[i-1]>=scaled_min && - sensiblevalues[i]<=scaled_min) - im->minval = sensiblevalues[i]*(im->magfact); - - if (-sensiblevalues[i-1]<=scaled_min && - -sensiblevalues[i]>=scaled_min) - im->minval = -sensiblevalues[i-1]*(im->magfact); - - if (sensiblevalues[i-1] >= scaled_max && - sensiblevalues[i] <= scaled_max) - im->maxval = sensiblevalues[i-1]*(im->magfact); - - if (-sensiblevalues[i-1]<=scaled_max && - -sensiblevalues[i] >=scaled_max) - im->maxval = -sensiblevalues[i]*(im->magfact); - } - } + } + im->minval -= adj; + im->maxval += adj; + } + else if(im->extra_flags & ALTAUTOSCALE_MAX) { + /* measure the amplitude of the function. Make sure that + graph boundaries are slightly higher than max vals + so we can see amplitude on the graph */ + adj = (im->maxval - im->minval) * 0.1; + im->maxval += adj; + } + else { + scaled_min = im->minval / im->magfact; + scaled_max = im->maxval / im->magfact; + + for (i=1; sensiblevalues[i] > 0; i++){ + if (sensiblevalues[i-1]>=scaled_min && + sensiblevalues[i]<=scaled_min) + im->minval = sensiblevalues[i]*(im->magfact); + + if (-sensiblevalues[i-1]<=scaled_min && + -sensiblevalues[i]>=scaled_min) + im->minval = -sensiblevalues[i-1]*(im->magfact); + + if (sensiblevalues[i-1] >= scaled_max && + sensiblevalues[i] <= scaled_max) + im->maxval = sensiblevalues[i-1]*(im->magfact); + + if (-sensiblevalues[i-1]<=scaled_max && + -sensiblevalues[i] >=scaled_max) + im->maxval = -sensiblevalues[i]*(im->magfact); + } + } } else { - /* adjust min and max to the grid definition if there is one */ - im->minval = (double)im->ylabfact * im->ygridstep * - floor(im->minval / ((double)im->ylabfact * im->ygridstep)); - im->maxval = (double)im->ylabfact * im->ygridstep * - ceil(im->maxval /( (double)im->ylabfact * im->ygridstep)); + /* adjust min and max to the grid definition if there is one */ + im->minval = (double)im->ylabfact * im->ygridstep * + floor(im->minval / ((double)im->ylabfact * im->ygridstep)); + im->maxval = (double)im->ylabfact * im->ygridstep * + ceil(im->maxval /( (double)im->ylabfact * im->ygridstep)); } #ifdef DEBUG fprintf(stderr,"SCALED Min: %6.2f Max: %6.2f Factor: %6.2f\n", - im->minval,im->maxval,im->magfact); + im->minval,im->maxval,im->magfact); #endif } @@ -459,8 +459,8 @@ apply_gridfit(image_desc_t *im) yb = ya * 10; if (yb <= im->maxval) { /* we have at least 2 y=10^x gridlines. - Make sure distance between them in pixels - are an integer by expanding im->maxval */ + Make sure distance between them in pixels + are an integer by expanding im->maxval */ double y_pixel_delta = ytr(im, ya) - ytr(im, yb); double factor = y_pixel_delta / floor(y_pixel_delta); double new_log10_range = factor * log10_range; @@ -535,11 +535,11 @@ reduce_data( #endif #ifdef DEBUG_REDUCE printf("Reducing %lu rows with factor %i time %lu to %lu, step %lu\n", - row_cnt,reduce_factor,*start,*end,cur_step); + row_cnt,reduce_factor,*start,*end,cur_step); for (col=0;col=reduce_factor;dst_row++) { - for (col=0;col<(*ds_cnt);col++) { - rrd_value_t newval=DNAN; - unsigned long validval=0; - - for (i=0;igdes_c;i++){ - /* only GF_DEF elements fetch data */ - if (im->gdes[i].gf != GF_DEF) - continue; - - skip=0; - /* do we have it already ?*/ - for (ii=0;iigdes[ii].gf != GF_DEF) - continue; - if ((strcmp(im->gdes[i].rrd, im->gdes[ii].rrd) == 0) - && (im->gdes[i].cf == im->gdes[ii].cf) - && (im->gdes[i].cf_reduce == im->gdes[ii].cf_reduce) - && (im->gdes[i].start_orig == im->gdes[ii].start_orig) - && (im->gdes[i].end_orig == im->gdes[ii].end_orig) - && (im->gdes[i].step_orig == im->gdes[ii].step_orig)) { - /* OK, the data is already there. - ** Just copy the header portion - */ - im->gdes[i].start = im->gdes[ii].start; - im->gdes[i].end = im->gdes[ii].end; - im->gdes[i].step = im->gdes[ii].step; - im->gdes[i].ds_cnt = im->gdes[ii].ds_cnt; - im->gdes[i].ds_namv = im->gdes[ii].ds_namv; - im->gdes[i].data = im->gdes[ii].data; - im->gdes[i].data_first = 0; - skip=1; - } - if (skip) - break; - } - if (! skip) { - unsigned long ft_step = im->gdes[i].step ; /* ft_step will record what we got from fetch */ - - if((rrd_fetch_fn(im->gdes[i].rrd, - im->gdes[i].cf, - &im->gdes[i].start, - &im->gdes[i].end, - &ft_step, - &im->gdes[i].ds_cnt, - &im->gdes[i].ds_namv, - &im->gdes[i].data)) == -1){ - return -1; - } - im->gdes[i].data_first = 1; - - if (ft_step < im->gdes[i].step) { - reduce_data(im->gdes[i].cf_reduce, - ft_step, - &im->gdes[i].start, - &im->gdes[i].end, - &im->gdes[i].step, - &im->gdes[i].ds_cnt, - &im->gdes[i].data); - } else { - im->gdes[i].step = ft_step; - } - } - + /* only GF_DEF elements fetch data */ + if (im->gdes[i].gf != GF_DEF) + continue; + + skip=0; + /* do we have it already ?*/ + for (ii=0;iigdes[ii].gf != GF_DEF) + continue; + if ((strcmp(im->gdes[i].rrd, im->gdes[ii].rrd) == 0) + && (im->gdes[i].cf == im->gdes[ii].cf) + && (im->gdes[i].cf_reduce == im->gdes[ii].cf_reduce) + && (im->gdes[i].start_orig == im->gdes[ii].start_orig) + && (im->gdes[i].end_orig == im->gdes[ii].end_orig) + && (im->gdes[i].step_orig == im->gdes[ii].step_orig)) { + /* OK, the data is already there. + ** Just copy the header portion + */ + im->gdes[i].start = im->gdes[ii].start; + im->gdes[i].end = im->gdes[ii].end; + im->gdes[i].step = im->gdes[ii].step; + im->gdes[i].ds_cnt = im->gdes[ii].ds_cnt; + im->gdes[i].ds_namv = im->gdes[ii].ds_namv; + im->gdes[i].data = im->gdes[ii].data; + im->gdes[i].data_first = 0; + skip=1; + } + if (skip) + break; + } + if (! skip) { + unsigned long ft_step = im->gdes[i].step ; /* ft_step will record what we got from fetch */ + + if((rrd_fetch_fn(im->gdes[i].rrd, + im->gdes[i].cf, + &im->gdes[i].start, + &im->gdes[i].end, + &ft_step, + &im->gdes[i].ds_cnt, + &im->gdes[i].ds_namv, + &im->gdes[i].data)) == -1){ + return -1; + } + im->gdes[i].data_first = 1; + + if (ft_step < im->gdes[i].step) { + reduce_data(im->gdes[i].cf_reduce, + ft_step, + &im->gdes[i].start, + &im->gdes[i].end, + &im->gdes[i].step, + &im->gdes[i].ds_cnt, + &im->gdes[i].data); + } else { + im->gdes[i].step = ft_step; + } + } + /* lets see if the required data source is really there */ - for(ii=0;ii<(int)im->gdes[i].ds_cnt;ii++){ - if(strcmp(im->gdes[i].ds_namv[ii],im->gdes[i].ds_nam) == 0){ - im->gdes[i].ds=ii; } - } - if (im->gdes[i].ds== -1){ - rrd_set_error("No DS called '%s' in '%s'", - im->gdes[i].ds_nam,im->gdes[i].rrd); - return -1; - } - + for(ii=0;ii<(int)im->gdes[i].ds_cnt;ii++){ + if(strcmp(im->gdes[i].ds_namv[ii],im->gdes[i].ds_nam) == 0){ + im->gdes[i].ds=ii; } + } + if (im->gdes[i].ds== -1){ + rrd_set_error("No DS called '%s' in '%s'", + im->gdes[i].ds_nam,im->gdes[i].rrd); + return -1; + } + } return 0; } @@ -777,13 +777,13 @@ long find_var(image_desc_t *im, char *key){ long ii; for(ii=0;iigdes_c-1;ii++){ - if((im->gdes[ii].gf == GF_DEF - || im->gdes[ii].gf == GF_VDEF - || im->gdes[ii].gf == GF_CDEF) - && (strcmp(im->gdes[ii].vname,key) == 0)){ - return ii; - } - } + if((im->gdes[ii].gf == GF_DEF + || im->gdes[ii].gf == GF_VDEF + || im->gdes[ii].gf == GF_CDEF) + && (strcmp(im->gdes[ii].vname,key) == 0)){ + return ii; + } + } return -1; } @@ -794,11 +794,11 @@ lcd(long *num){ long rest; int i; for (i=0;num[i+1]!=0;i++){ - do { - rest=num[i] % num[i+1]; - num[i]=num[i+1]; num[i+1]=rest; - } while (rest!=0); - num[i+1] = num[i]; + do { + rest=num[i] % num[i+1]; + num[i]=num[i+1]; num[i+1]=rest; + } while (rest!=0); + num[i+1] = num[i]; } /* return i==0?num[i]:num[i-1]; */ return num[i]; @@ -818,180 +818,180 @@ data_calc( image_desc_t *im){ rpnstack_init(&rpnstack); for (gdi=0;gdigdes_c;gdi++){ - /* Look for GF_VDEF and GF_CDEF in the same loop, - * so CDEFs can use VDEFs and vice versa - */ - switch (im->gdes[gdi].gf) { - case GF_XPORT: - break; - case GF_SHIFT: { - graph_desc_t *vdp = &im->gdes[im->gdes[gdi].vidx]; - - /* remove current shift */ - vdp->start -= vdp->shift; - vdp->end -= vdp->shift; - - /* vdef */ - if (im->gdes[gdi].shidx >= 0) - vdp->shift = im->gdes[im->gdes[gdi].shidx].vf.val; - /* constant */ - else - vdp->shift = im->gdes[gdi].shval; - - /* normalize shift to multiple of consolidated step */ - vdp->shift = (vdp->shift / (long)vdp->step) * (long)vdp->step; - - /* apply shift */ - vdp->start += vdp->shift; - vdp->end += vdp->shift; - break; - } - case GF_VDEF: - /* A VDEF has no DS. This also signals other parts - * of rrdtool that this is a VDEF value, not a CDEF. - */ - im->gdes[gdi].ds_cnt = 0; - if (vdef_calc(im,gdi)) { - rrd_set_error("Error processing VDEF '%s'" - ,im->gdes[gdi].vname - ); - rpnstack_free(&rpnstack); - return -1; - } - break; - case GF_CDEF: - im->gdes[gdi].ds_cnt = 1; - im->gdes[gdi].ds = 0; - im->gdes[gdi].data_first = 1; - im->gdes[gdi].start = 0; - im->gdes[gdi].end = 0; - steparray=NULL; - stepcnt = 0; - dataidx=-1; - - /* Find the variables in the expression. - * - VDEF variables are substituted by their values - * and the opcode is changed into OP_NUMBER. - * - CDEF variables are analized for their step size, - * the lowest common denominator of all the step - * sizes of the data sources involved is calculated - * 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) { /* this is a VDEF data source */ + /* Look for GF_VDEF and GF_CDEF in the same loop, + * so CDEFs can use VDEFs and vice versa + */ + switch (im->gdes[gdi].gf) { + case GF_XPORT: + break; + case GF_SHIFT: { + graph_desc_t *vdp = &im->gdes[im->gdes[gdi].vidx]; + + /* remove current shift */ + vdp->start -= vdp->shift; + vdp->end -= vdp->shift; + + /* vdef */ + if (im->gdes[gdi].shidx >= 0) + vdp->shift = im->gdes[im->gdes[gdi].shidx].vf.val; + /* constant */ + else + vdp->shift = im->gdes[gdi].shval; + + /* normalize shift to multiple of consolidated step */ + vdp->shift = (vdp->shift / (long)vdp->step) * (long)vdp->step; + + /* apply shift */ + vdp->start += vdp->shift; + vdp->end += vdp->shift; + break; + } + case GF_VDEF: + /* A VDEF has no DS. This also signals other parts + * of rrdtool that this is a VDEF value, not a CDEF. + */ + im->gdes[gdi].ds_cnt = 0; + if (vdef_calc(im,gdi)) { + rrd_set_error("Error processing VDEF '%s'" + ,im->gdes[gdi].vname + ); + rpnstack_free(&rpnstack); + return -1; + } + break; + case GF_CDEF: + im->gdes[gdi].ds_cnt = 1; + im->gdes[gdi].ds = 0; + im->gdes[gdi].data_first = 1; + im->gdes[gdi].start = 0; + im->gdes[gdi].end = 0; + steparray=NULL; + stepcnt = 0; + dataidx=-1; + + /* Find the variables in the expression. + * - VDEF variables are substituted by their values + * and the opcode is changed into OP_NUMBER. + * - CDEF variables are analized for their step size, + * the lowest common denominator of all the step + * sizes of the data sources involved is calculated + * 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) { /* 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 { /* 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; - }; - - steparray[stepcnt-1] = im->gdes[ptr].step; - - /* adjust start and end of cdef (gdi) so - * that it runs from the latest start point - * 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; - - if(im->gdes[gdi].end == 0 || - im->gdes[gdi].end > im->gdes[ptr].end) - im->gdes[gdi].end = im->gdes[ptr].end; - - /* store pointer to the first element of - * the rra providing data for variable, - * further save step size and data source - * count of this rra - */ + im->gdes[gdi].rpnp[rpi].val = im->gdes[ptr].vf.val; + im->gdes[gdi].rpnp[rpi].op = OP_NUMBER; + } 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; + }; + + steparray[stepcnt-1] = im->gdes[ptr].step; + + /* adjust start and end of cdef (gdi) so + * that it runs from the latest start point + * 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; + + if(im->gdes[gdi].end == 0 || + im->gdes[gdi].end > im->gdes[ptr].end) + im->gdes[gdi].end = im->gdes[ptr].end; + + /* store pointer to the first element of + * the rra providing data for variable, + * 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].ds_cnt = im->gdes[ptr].ds_cnt; + 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 - * rpncalc() function doesn't have to treat - * the first case differently - */ - } /* if ds_cnt != 0 */ - } /* if OP_VARIABLE */ - } /* loop through all rpi */ + /* backoff the *.data ptr; this is done so + * rpncalc() function doesn't have to treat + * the first case differently + */ + } /* if ds_cnt != 0 */ + } /* if OP_VARIABLE */ + } /* loop through all rpi */ /* 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; - long diff = im->gdes[gdi].start - im->gdes[ptr].start; + 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) - im->gdes[gdi].rpnp[rpi].data += (diff / im->gdes[ptr].step) * im->gdes[ptr].ds_cnt; + im->gdes[gdi].rpnp[rpi].data += (diff / im->gdes[ptr].step) * im->gdes[ptr].ds_cnt; } } - if(steparray == NULL){ - rrd_set_error("rpn expressions without DEF" - " or CDEF variables are not supported"); - rpnstack_free(&rpnstack); - return -1; - } - steparray[stepcnt]=0; - /* Now find the resulting step. All steps in all - * used RRAs have to be visited - */ - im->gdes[gdi].step = lcd(steparray); - free(steparray); - if((im->gdes[gdi].data = malloc(( - (im->gdes[gdi].end-im->gdes[gdi].start) - / im->gdes[gdi].step) - * sizeof(double)))==NULL){ - rrd_set_error("malloc im->gdes[gdi].data"); - rpnstack_free(&rpnstack); - return -1; - } - - /* Step through the new cdef results array and - * calculate the values - */ - for (now = im->gdes[gdi].start + im->gdes[gdi].step; - now<=im->gdes[gdi].end; - now += im->gdes[gdi].step) - { - rpnp_t *rpnp = im -> gdes[gdi].rpnp; - - /* 3rd arg of rpn_calc is for OP_VARIABLE lookups; - * in this case we are advancing by timesteps; - * we use the fact that time_t is a synonym for long - */ - if (rpn_calc(rpnp,&rpnstack,(long) now, - im->gdes[gdi].data,++dataidx) == -1) { - /* rpn_calc sets the error string */ - rpnstack_free(&rpnstack); - return -1; - } - } /* enumerate over time steps within a CDEF */ - break; - default: - continue; - } + if(steparray == NULL){ + rrd_set_error("rpn expressions without DEF" + " or CDEF variables are not supported"); + rpnstack_free(&rpnstack); + return -1; + } + steparray[stepcnt]=0; + /* Now find the resulting step. All steps in all + * used RRAs have to be visited + */ + im->gdes[gdi].step = lcd(steparray); + free(steparray); + if((im->gdes[gdi].data = malloc(( + (im->gdes[gdi].end-im->gdes[gdi].start) + / im->gdes[gdi].step) + * sizeof(double)))==NULL){ + rrd_set_error("malloc im->gdes[gdi].data"); + rpnstack_free(&rpnstack); + return -1; + } + + /* Step through the new cdef results array and + * calculate the values + */ + for (now = im->gdes[gdi].start + im->gdes[gdi].step; + now<=im->gdes[gdi].end; + now += im->gdes[gdi].step) + { + rpnp_t *rpnp = im -> gdes[gdi].rpnp; + + /* 3rd arg of rpn_calc is for OP_VARIABLE lookups; + * in this case we are advancing by timesteps; + * we use the fact that time_t is a synonym for long + */ + if (rpn_calc(rpnp,&rpnstack,(long) now, + im->gdes[gdi].data,++dataidx) == -1) { + /* rpn_calc sets the error string */ + rpnstack_free(&rpnstack); + return -1; + } + } /* enumerate over time steps within a CDEF */ + break; + default: + continue; + } } /* enumerate over CDEFs */ rpnstack_free(&rpnstack); return 0; @@ -1002,8 +1002,8 @@ int data_proc( image_desc_t *im ){ long i,ii; double pixstep = (double)(im->end-im->start) - /(double)im->xsize; /* how much time - passes in one pixel */ + /(double)im->xsize; /* how much time + passes in one pixel */ double paintval; double minval=DNAN,maxval=DNAN; @@ -1011,77 +1011,77 @@ data_proc( image_desc_t *im ){ /* memory for the processed data */ for(i=0;igdes_c;i++) { - if((im->gdes[i].gf==GF_LINE) || - (im->gdes[i].gf==GF_AREA) || - (im->gdes[i].gf==GF_TICK)) { - if((im->gdes[i].p_data = malloc((im->xsize +1) - * sizeof(rrd_value_t)))==NULL){ - rrd_set_error("malloc data_proc"); - return -1; - } - } - } - - for (i=0;ixsize;i++) { /* for each pixel */ - long vidx; - gr_time = im->start+pixstep*i; /* time of the current step */ - paintval=0.0; - - for (ii=0;iigdes_c;ii++) { - double value; - switch (im->gdes[ii].gf) { - case GF_LINE: - case GF_AREA: - case GF_TICK: - if (!im->gdes[ii].stack) - paintval = 0.0; - value = im->gdes[ii].yrule; - if (isnan(value) || (im->gdes[ii].gf == GF_TICK)) { - /* The time of the data doesn't necessarily match - ** the time of the graph. Beware. - */ - vidx = im->gdes[ii].vidx; - if (im->gdes[vidx].gf == GF_VDEF) { - value = im->gdes[vidx].vf.val; - } else if (((long int)gr_time >= (long int)im->gdes[vidx].start) && - ((long int)gr_time <= (long int)im->gdes[vidx].end) ) { - value = im->gdes[vidx].data[ - (unsigned long) floor( - (double)(gr_time - im->gdes[vidx].start) - / im->gdes[vidx].step) - * im->gdes[vidx].ds_cnt - + im->gdes[vidx].ds - ]; - } else { - value = DNAN; - } - }; - - if (! isnan(value)) { - paintval += value; - im->gdes[ii].p_data[i] = paintval; - /* GF_TICK: the data values are not - ** relevant for min and max - */ - if (finite(paintval) && im->gdes[ii].gf != GF_TICK ) { - if ((isnan(minval) || paintval < minval ) && - ! (im->logarithmic && paintval <= 0.0)) - minval = paintval; - if (isnan(maxval) || paintval > maxval) - maxval = paintval; - } - } else { - im->gdes[ii].p_data[i] = DNAN; - } - break; - case GF_STACK: + if((im->gdes[i].gf==GF_LINE) || + (im->gdes[i].gf==GF_AREA) || + (im->gdes[i].gf==GF_TICK)) { + if((im->gdes[i].p_data = malloc((im->xsize +1) + * sizeof(rrd_value_t)))==NULL){ + rrd_set_error("malloc data_proc"); + return -1; + } + } + } + + for (i=0;ixsize;i++) { /* for each pixel */ + long vidx; + gr_time = im->start+pixstep*i; /* time of the current step */ + paintval=0.0; + + for (ii=0;iigdes_c;ii++) { + double value; + switch (im->gdes[ii].gf) { + case GF_LINE: + case GF_AREA: + case GF_TICK: + if (!im->gdes[ii].stack) + paintval = 0.0; + value = im->gdes[ii].yrule; + if (isnan(value) || (im->gdes[ii].gf == GF_TICK)) { + /* The time of the data doesn't necessarily match + ** the time of the graph. Beware. + */ + vidx = im->gdes[ii].vidx; + if (im->gdes[vidx].gf == GF_VDEF) { + value = im->gdes[vidx].vf.val; + } else if (((long int)gr_time >= (long int)im->gdes[vidx].start) && + ((long int)gr_time <= (long int)im->gdes[vidx].end) ) { + value = im->gdes[vidx].data[ + (unsigned long) floor( + (double)(gr_time - im->gdes[vidx].start) + / im->gdes[vidx].step) + * im->gdes[vidx].ds_cnt + + im->gdes[vidx].ds + ]; + } else { + value = DNAN; + } + }; + + if (! isnan(value)) { + paintval += value; + im->gdes[ii].p_data[i] = paintval; + /* GF_TICK: the data values are not + ** relevant for min and max + */ + if (finite(paintval) && im->gdes[ii].gf != GF_TICK ) { + if ((isnan(minval) || paintval < minval ) && + ! (im->logarithmic && paintval <= 0.0)) + minval = paintval; + if (isnan(maxval) || paintval > maxval) + maxval = paintval; + } + } else { + im->gdes[ii].p_data[i] = DNAN; + } + break; + case GF_STACK: rrd_set_error("STACK should already be turned into LINE or AREA here"); return -1; break; - default: - break; - } - } + default: + break; + } + } } /* if min or max have not been asigned a value this is because @@ -1089,31 +1089,31 @@ data_proc( image_desc_t *im ){ lets set these to dummy values then ... */ if (im->logarithmic) { - if (isnan(minval)) minval = 0.2; - if (isnan(maxval)) maxval = 5.1; + if (isnan(minval)) minval = 0.2; + if (isnan(maxval)) maxval = 5.1; } else { - if (isnan(minval)) minval = 0.0; - if (isnan(maxval)) maxval = 1.0; + if (isnan(minval)) minval = 0.0; + if (isnan(maxval)) maxval = 1.0; } /* adjust min and max values */ if (isnan(im->minval) - /* don't adjust low-end with log scale */ /* why not? */ - || ((!im->rigid) && im->minval > minval) - ) { - if (im->logarithmic) - im->minval = minval * 0.5; - else - im->minval = minval; + /* don't adjust low-end with log scale */ /* why not? */ + || ((!im->rigid) && im->minval > minval) + ) { + if (im->logarithmic) + im->minval = minval * 0.5; + else + im->minval = minval; } if (isnan(im->maxval) - || (!im->rigid && im->maxval < maxval) - ) { - if (im->logarithmic) - im->maxval = maxval * 2.0; - else - im->maxval = maxval; + || (!im->rigid && im->maxval < maxval) + ) { + if (im->logarithmic) + im->maxval = maxval * 2.0; + else + im->maxval = maxval; } /* make sure min is smaller than max */ if (im->minval > im->maxval) { @@ -1122,14 +1122,14 @@ data_proc( image_desc_t *im ){ /* make sure min and max are not equal */ if (im->minval == im->maxval) { - im->maxval *= 1.01; - if (! im->logarithmic) { - im->minval *= 0.99; - } - /* make sure min and max are not both zero */ - if (im->maxval == 0.0) { - im->maxval = 1.0; - } + im->maxval *= 1.01; + if (! im->logarithmic) { + im->minval *= 0.99; + } + /* make sure min and max are not both zero */ + if (im->maxval == 0.0) { + im->maxval = 1.0; + } } return 0; } @@ -1149,43 +1149,43 @@ find_first_time( localtime_r(&start, &tm); switch(baseint){ case TMT_SECOND: - tm.tm_sec -= tm.tm_sec % basestep; break; + tm.tm_sec -= tm.tm_sec % basestep; break; case TMT_MINUTE: - tm.tm_sec=0; - tm.tm_min -= tm.tm_min % basestep; - break; + tm.tm_sec=0; + tm.tm_min -= tm.tm_min % basestep; + break; case TMT_HOUR: - tm.tm_sec=0; - tm.tm_min = 0; - tm.tm_hour -= tm.tm_hour % basestep; break; + tm.tm_sec=0; + tm.tm_min = 0; + tm.tm_hour -= tm.tm_hour % basestep; break; case TMT_DAY: - /* we do NOT look at the basestep for this ... */ - tm.tm_sec=0; - tm.tm_min = 0; - tm.tm_hour = 0; break; + /* we do NOT look at the basestep for this ... */ + tm.tm_sec=0; + tm.tm_min = 0; + tm.tm_hour = 0; break; case TMT_WEEK: - /* we do NOT look at the basestep for this ... */ - tm.tm_sec=0; - tm.tm_min = 0; - tm.tm_hour = 0; - tm.tm_mday -= tm.tm_wday -1; /* -1 because we want the monday */ - if (tm.tm_wday==0) tm.tm_mday -= 7; /* we want the *previous* monday */ - break; + /* we do NOT look at the basestep for this ... */ + tm.tm_sec=0; + tm.tm_min = 0; + tm.tm_hour = 0; + tm.tm_mday -= tm.tm_wday -1; /* -1 because we want the monday */ + if (tm.tm_wday==0) tm.tm_mday -= 7; /* we want the *previous* monday */ + break; case TMT_MONTH: - tm.tm_sec=0; - tm.tm_min = 0; - tm.tm_hour = 0; - tm.tm_mday = 1; - tm.tm_mon -= tm.tm_mon % basestep; break; + tm.tm_sec=0; + tm.tm_min = 0; + tm.tm_hour = 0; + tm.tm_mday = 1; + tm.tm_mon -= tm.tm_mon % basestep; break; case TMT_YEAR: - tm.tm_sec=0; - tm.tm_min = 0; - tm.tm_hour = 0; - tm.tm_mday = 1; - tm.tm_mon = 0; - tm.tm_year -= (tm.tm_year+1900) % basestep; - + tm.tm_sec=0; + tm.tm_min = 0; + tm.tm_hour = 0; + tm.tm_mday = 1; + tm.tm_mon = 0; + tm.tm_year -= (tm.tm_year+1900) % basestep; + } return mktime(&tm); } @@ -1201,27 +1201,27 @@ find_next_time( time_t madetime; localtime_r(¤t, &tm); do { - switch(baseint){ - case TMT_SECOND: - tm.tm_sec += basestep; break; - case TMT_MINUTE: - tm.tm_min += basestep; break; - case TMT_HOUR: - tm.tm_hour += basestep; break; - case TMT_DAY: - tm.tm_mday += basestep; break; - case TMT_WEEK: - tm.tm_mday += 7*basestep; break; - case TMT_MONTH: - tm.tm_mon += basestep; break; - case TMT_YEAR: - tm.tm_year += basestep; - } - madetime = mktime(&tm); + switch(baseint){ + case TMT_SECOND: + tm.tm_sec += basestep; break; + case TMT_MINUTE: + tm.tm_min += basestep; break; + case TMT_HOUR: + tm.tm_hour += basestep; break; + case TMT_DAY: + tm.tm_mday += basestep; break; + case TMT_WEEK: + tm.tm_mday += 7*basestep; break; + case TMT_MONTH: + tm.tm_mon += basestep; break; + case TMT_YEAR: + tm.tm_year += basestep; + } + madetime = mktime(&tm); } while (madetime == -1); /* this is necessary to skip impssible times - like the daylight saving time skips */ + like the daylight saving time skips */ return madetime; - + } @@ -1235,7 +1235,7 @@ print_calc(image_desc_t *im, char ***prdata) struct tm tmvdef; int graphelement = 0; long vidx; - int max_ii; + int max_ii; double magfact = -1; char *si_symb = ""; char *percent_s; @@ -1245,153 +1245,153 @@ print_calc(image_desc_t *im, char ***prdata) localtime_r(&now,&tmvdef); if (im->imginfo) prlines++; for(i=0;igdes_c;i++){ - switch(im->gdes[i].gf){ - case GF_PRINT: - prlines++; - if(((*prdata) = rrd_realloc((*prdata),prlines*sizeof(char *)))==NULL){ - rrd_set_error("realloc prdata"); - return 0; - } - case GF_GPRINT: - /* PRINT and GPRINT can now print VDEF generated values. - * There's no need to do any calculations on them as these - * calculations were already made. - */ - vidx = im->gdes[i].vidx; - if (im->gdes[vidx].gf==GF_VDEF) { /* simply use vals */ - printval = im->gdes[vidx].vf.val; - localtime_r(&im->gdes[vidx].vf.when,&tmvdef); - } else { /* need to calculate max,min,avg etcetera */ - max_ii =((im->gdes[vidx].end - - im->gdes[vidx].start) - / im->gdes[vidx].step - * im->gdes[vidx].ds_cnt); - printval = DNAN; - validsteps = 0; - for( ii=im->gdes[vidx].ds; - ii < max_ii; - ii+=im->gdes[vidx].ds_cnt){ - if (! finite(im->gdes[vidx].data[ii])) - continue; - if (isnan(printval)){ - printval = im->gdes[vidx].data[ii]; - validsteps++; - continue; - } - - switch (im->gdes[i].cf){ - case CF_HWPREDICT: - case CF_DEVPREDICT: - case CF_DEVSEASONAL: - case CF_SEASONAL: - case CF_AVERAGE: - validsteps++; - printval += im->gdes[vidx].data[ii]; - break; - case CF_MINIMUM: - printval = min( printval, im->gdes[vidx].data[ii]); - break; - case CF_FAILURES: - case CF_MAXIMUM: - printval = max( printval, im->gdes[vidx].data[ii]); - break; - case CF_LAST: - printval = im->gdes[vidx].data[ii]; - } - } - if (im->gdes[i].cf==CF_AVERAGE || im->gdes[i].cf > CF_LAST) { - if (validsteps > 1) { - printval = (printval / validsteps); - } - } - } /* prepare printval */ - - if ((percent_s = strstr(im->gdes[i].format,"%S")) != NULL) { - /* Magfact is set to -1 upon entry to print_calc. If it - * is still less than 0, then we need to run auto_scale. - * Otherwise, put the value into the correct units. If - * the value is 0, then do not set the symbol or magnification - * so next the calculation will be performed again. */ - if (magfact < 0.0) { - auto_scale(im,&printval,&si_symb,&magfact); - if (printval == 0.0) - magfact = -1.0; - } else { - printval /= magfact; - } - *(++percent_s) = 's'; - } else if (strstr(im->gdes[i].format,"%s") != NULL) { - auto_scale(im,&printval,&si_symb,&magfact); - } + vidx = im->gdes[i].vidx; + switch(im->gdes[i].gf){ + case GF_PRINT: + prlines++; + if(((*prdata) = rrd_realloc((*prdata),prlines*sizeof(char *)))==NULL){ + rrd_set_error("realloc prdata"); + return 0; + } + case GF_GPRINT: + /* PRINT and GPRINT can now print VDEF generated values. + * There's no need to do any calculations on them as these + * calculations were already made. + */ + if (im->gdes[vidx].gf==GF_VDEF) { /* simply use vals */ + printval = im->gdes[vidx].vf.val; + localtime_r(&im->gdes[vidx].vf.when,&tmvdef); + } else { /* need to calculate max,min,avg etcetera */ + max_ii =((im->gdes[vidx].end + - im->gdes[vidx].start) + / im->gdes[vidx].step + * im->gdes[vidx].ds_cnt); + printval = DNAN; + validsteps = 0; + for( ii=im->gdes[vidx].ds; + ii < max_ii; + ii+=im->gdes[vidx].ds_cnt){ + if (! finite(im->gdes[vidx].data[ii])) + continue; + if (isnan(printval)){ + printval = im->gdes[vidx].data[ii]; + validsteps++; + continue; + } + + switch (im->gdes[i].cf){ + case CF_HWPREDICT: + case CF_DEVPREDICT: + case CF_DEVSEASONAL: + case CF_SEASONAL: + case CF_AVERAGE: + validsteps++; + printval += im->gdes[vidx].data[ii]; + break; + case CF_MINIMUM: + printval = min( printval, im->gdes[vidx].data[ii]); + break; + case CF_FAILURES: + case CF_MAXIMUM: + printval = max( printval, im->gdes[vidx].data[ii]); + break; + case CF_LAST: + printval = im->gdes[vidx].data[ii]; + } + } + if (im->gdes[i].cf==CF_AVERAGE || im->gdes[i].cf > CF_LAST) { + if (validsteps > 1) { + printval = (printval / validsteps); + } + } + } /* prepare printval */ + + if ((percent_s = strstr(im->gdes[i].format,"%S")) != NULL) { + /* Magfact is set to -1 upon entry to print_calc. If it + * is still less than 0, then we need to run auto_scale. + * Otherwise, put the value into the correct units. If + * the value is 0, then do not set the symbol or magnification + * so next the calculation will be performed again. */ + if (magfact < 0.0) { + auto_scale(im,&printval,&si_symb,&magfact); + if (printval == 0.0) + magfact = -1.0; + } else { + printval /= magfact; + } + *(++percent_s) = 's'; + } else if (strstr(im->gdes[i].format,"%s") != NULL) { + auto_scale(im,&printval,&si_symb,&magfact); + } if (im->gdes[i].gf == GF_PRINT){ - (*prdata)[prlines-2] = malloc((FMT_LEG_LEN+2)*sizeof(char)); - (*prdata)[prlines-1] = NULL; + (*prdata)[prlines-2] = malloc((FMT_LEG_LEN+2)*sizeof(char)); + (*prdata)[prlines-1] = NULL; if (im->gdes[i].strftm){ - strftime((*prdata)[prlines-2],FMT_LEG_LEN,im->gdes[i].format,&tmvdef); + strftime((*prdata)[prlines-2],FMT_LEG_LEN,im->gdes[i].format,&tmvdef); } else { - if (bad_format(im->gdes[i].format)) { - rrd_set_error("bad format for PRINT in '%s'", im->gdes[i].format); - return -1; - } + if (bad_format(im->gdes[i].format)) { + rrd_set_error("bad format for PRINT in '%s'", im->gdes[i].format); + return -1; + } #ifdef HAVE_SNPRINTF - snprintf((*prdata)[prlines-2],FMT_LEG_LEN,im->gdes[i].format,printval,si_symb); + snprintf((*prdata)[prlines-2],FMT_LEG_LEN,im->gdes[i].format,printval,si_symb); #else - sprintf((*prdata)[prlines-2],im->gdes[i].format,printval,si_symb); + sprintf((*prdata)[prlines-2],im->gdes[i].format,printval,si_symb); #endif } } else { - /* GF_GPRINT */ + /* GF_GPRINT */ if (im->gdes[i].strftm){ - strftime(im->gdes[i].legend,FMT_LEG_LEN,im->gdes[i].format,&tmvdef); + strftime(im->gdes[i].legend,FMT_LEG_LEN,im->gdes[i].format,&tmvdef); } else { - if (bad_format(im->gdes[i].format)) { - rrd_set_error("bad format for GPRINT in '%s'", im->gdes[i].format); - return -1; - } + if (bad_format(im->gdes[i].format)) { + rrd_set_error("bad format for GPRINT in '%s'", im->gdes[i].format); + return -1; + } #ifdef HAVE_SNPRINTF - snprintf(im->gdes[i].legend,FMT_LEG_LEN-2,im->gdes[i].format,printval,si_symb); + snprintf(im->gdes[i].legend,FMT_LEG_LEN-2,im->gdes[i].format,printval,si_symb); #else - sprintf(im->gdes[i].legend,im->gdes[i].format,printval,si_symb); + sprintf(im->gdes[i].legend,im->gdes[i].format,printval,si_symb); #endif } - graphelement = 1; - } - break; - case GF_LINE: - case GF_AREA: - case GF_TICK: - graphelement = 1; - break; - case GF_HRULE: + graphelement = 1; + } + break; + case GF_LINE: + case GF_AREA: + case GF_TICK: + graphelement = 1; + break; + case GF_HRULE: if(isnan(im->gdes[i].yrule)) { /* we must set this here or the legend printer can not decide to print the legend */ im->gdes[i].yrule=im->gdes[vidx].vf.val; }; - graphelement = 1; - break; - case GF_VRULE: + graphelement = 1; + break; + case GF_VRULE: if(im->gdes[i].xrule == 0) { /* again ... the legend printer needs it*/ im->gdes[i].xrule = im->gdes[vidx].vf.when; }; - graphelement = 1; - break; + graphelement = 1; + break; case GF_COMMENT: - case GF_DEF: - case GF_CDEF: - case GF_VDEF: + case GF_DEF: + case GF_CDEF: + case GF_VDEF: #ifdef WITH_PIECHART - case GF_PART: + case GF_PART: #endif - case GF_SHIFT: - case GF_XPORT: - break; - case GF_STACK: + case GF_SHIFT: + case GF_XPORT: + break; + case GF_STACK: rrd_set_error("STACK should already be turned into LINE or AREA here"); return -1; break; - } + } } return graphelement; } @@ -1421,46 +1421,46 @@ leg_place(image_desc_t *im) } for(i=0;igdes_c;i++){ - fill_last = fill; + fill_last = fill; /* hid legends for rules which are not displayed */ - if(!(im->extra_flags & FORCE_RULES_LEGEND)) { - if (im->gdes[i].gf == GF_HRULE && - (im->gdes[i].yrule < im->minval || im->gdes[i].yrule > im->maxval)) - im->gdes[i].legend[0] = '\0'; - - if (im->gdes[i].gf == GF_VRULE && - (im->gdes[i].xrule < im->start || im->gdes[i].xrule > im->end)) - im->gdes[i].legend[0] = '\0'; - } - - leg_cc = strlen(im->gdes[i].legend); - - /* is there a controle code ant the end of the legend string ? */ - /* and it is not a tab \\t */ - if (leg_cc >= 2 && im->gdes[i].legend[leg_cc-2] == '\\' && im->gdes[i].legend[leg_cc-1] != 't') { - prt_fctn = im->gdes[i].legend[leg_cc-1]; - leg_cc -= 2; - im->gdes[i].legend[leg_cc] = '\0'; - } else { - prt_fctn = '\0'; - } - /* only valid control codes */ + if(!(im->extra_flags & FORCE_RULES_LEGEND)) { + if (im->gdes[i].gf == GF_HRULE && + (im->gdes[i].yrule < im->minval || im->gdes[i].yrule > im->maxval)) + im->gdes[i].legend[0] = '\0'; + + if (im->gdes[i].gf == GF_VRULE && + (im->gdes[i].xrule < im->start || im->gdes[i].xrule > im->end)) + im->gdes[i].legend[0] = '\0'; + } + + leg_cc = strlen(im->gdes[i].legend); + + /* is there a controle code ant the end of the legend string ? */ + /* and it is not a tab \\t */ + if (leg_cc >= 2 && im->gdes[i].legend[leg_cc-2] == '\\' && im->gdes[i].legend[leg_cc-1] != 't') { + prt_fctn = im->gdes[i].legend[leg_cc-1]; + leg_cc -= 2; + im->gdes[i].legend[leg_cc] = '\0'; + } else { + prt_fctn = '\0'; + } + /* only valid control codes */ if (prt_fctn != 'l' && - prt_fctn != 'n' && /* a synonym for l */ - prt_fctn != 'r' && - prt_fctn != 'j' && - prt_fctn != 'c' && - prt_fctn != 's' && + prt_fctn != 'n' && /* a synonym for l */ + prt_fctn != 'r' && + prt_fctn != 'j' && + prt_fctn != 'c' && + prt_fctn != 's' && prt_fctn != 't' && prt_fctn != '\0' && prt_fctn != 'g' ) { - free(legspace); - rrd_set_error("Unknown control code at the end of '%s\\%c'",im->gdes[i].legend,prt_fctn); - return -1; + free(legspace); + rrd_set_error("Unknown control code at the end of '%s\\%c'",im->gdes[i].legend,prt_fctn); + return -1; - } + } /* remove exess space */ if ( prt_fctn == 'n' ){ @@ -1468,89 +1468,89 @@ leg_place(image_desc_t *im) } while (prt_fctn=='g' && - leg_cc > 0 && - im->gdes[i].legend[leg_cc-1]==' '){ - leg_cc--; - im->gdes[i].legend[leg_cc]='\0'; - } - if (leg_cc != 0 ){ - legspace[i]=(prt_fctn=='g' ? 0 : interleg); - - if (fill > 0){ - /* no interleg space if string ends in \g */ - fill += legspace[i]; - } - fill += gfx_get_text_width(im->canvas, fill+border, - im->text_prop[TEXT_PROP_LEGEND].font, - im->text_prop[TEXT_PROP_LEGEND].size, - im->tabwidth, - im->gdes[i].legend, 0); - leg_c++; - } else { - legspace[i]=0; - } + leg_cc > 0 && + im->gdes[i].legend[leg_cc-1]==' '){ + leg_cc--; + im->gdes[i].legend[leg_cc]='\0'; + } + if (leg_cc != 0 ){ + legspace[i]=(prt_fctn=='g' ? 0 : interleg); + + if (fill > 0){ + /* no interleg space if string ends in \g */ + fill += legspace[i]; + } + fill += gfx_get_text_width(im->canvas, fill+border, + im->text_prop[TEXT_PROP_LEGEND].font, + im->text_prop[TEXT_PROP_LEGEND].size, + im->tabwidth, + im->gdes[i].legend, 0); + leg_c++; + } else { + legspace[i]=0; + } /* who said there was a special tag ... ?*/ - if (prt_fctn=='g') { - prt_fctn = '\0'; - } - if (prt_fctn == '\0') { - if (i == im->gdes_c -1 ) prt_fctn ='l'; - - /* is it time to place the legends ? */ - if (fill > im->ximg - 2*border){ - if (leg_c > 1) { - /* go back one */ - i--; - fill = fill_last; - leg_c--; - prt_fctn = 'j'; - } else { - prt_fctn = 'l'; - } - - } - } - - - if (prt_fctn != '\0'){ - leg_x = border; - if (leg_c >= 2 && prt_fctn == 'j') { - glue = (im->ximg - fill - 2* border) / (leg_c-1); - } else { - glue = 0; - } - if (prt_fctn =='c') leg_x = (im->ximg - fill) / 2.0; - if (prt_fctn =='r') leg_x = im->ximg - fill - border; - - for(ii=mark;ii<=i;ii++){ - if(im->gdes[ii].legend[0]=='\0') - continue; /* skip empty legends */ - im->gdes[ii].leg_x = leg_x; - im->gdes[ii].leg_y = leg_y; - leg_x += - gfx_get_text_width(im->canvas, leg_x, - im->text_prop[TEXT_PROP_LEGEND].font, - im->text_prop[TEXT_PROP_LEGEND].size, - im->tabwidth, - im->gdes[ii].legend, 0) - + legspace[ii] - + glue; - } + if (prt_fctn=='g') { + prt_fctn = '\0'; + } + if (prt_fctn == '\0') { + if (i == im->gdes_c -1 ) prt_fctn ='l'; + + /* is it time to place the legends ? */ + if (fill > im->ximg - 2*border){ + if (leg_c > 1) { + /* go back one */ + i--; + fill = fill_last; + leg_c--; + prt_fctn = 'j'; + } else { + prt_fctn = 'l'; + } + + } + } + + + if (prt_fctn != '\0'){ + leg_x = border; + if (leg_c >= 2 && prt_fctn == 'j') { + glue = (im->ximg - fill - 2* border) / (leg_c-1); + } else { + glue = 0; + } + if (prt_fctn =='c') leg_x = (im->ximg - fill) / 2.0; + if (prt_fctn =='r') leg_x = im->ximg - fill - border; + + for(ii=mark;ii<=i;ii++){ + if(im->gdes[ii].legend[0]=='\0') + continue; /* skip empty legends */ + im->gdes[ii].leg_x = leg_x; + im->gdes[ii].leg_y = leg_y; + leg_x += + gfx_get_text_width(im->canvas, leg_x, + im->text_prop[TEXT_PROP_LEGEND].font, + im->text_prop[TEXT_PROP_LEGEND].size, + im->tabwidth, + im->gdes[ii].legend, 0) + + legspace[ii] + + glue; + } leg_y_prev = leg_y; /* only add y space if there was text on the line */ if (leg_x > border || prt_fctn == 's') - 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; - mark = ii; - } + 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; + mark = ii; + } } im->yimg = leg_y_prev; /* if we did place some legends we have to add vertical space */ if (leg_y != im->yimg){ - im->yimg += im->text_prop[TEXT_PROP_LEGEND].size*1.8; + im->yimg += im->text_prop[TEXT_PROP_LEGEND].size*1.8; } free(legspace); } @@ -1578,70 +1578,70 @@ calc_horizontal_grid(image_desc_t *im) range = im->maxval - im->minval; scaledrange = range / im->magfact; - /* does the scale of this graph make it impossible to put lines - on it? If so, give up. */ - if (isnan(scaledrange)) { - return 0; - } + /* does the scale of this graph make it impossible to put lines + on it? If so, give up. */ + if (isnan(scaledrange)) { + return 0; + } /* find grid spaceing */ pixel=1; 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))*im->viewfactor/im->magfact)); - if(decimals <= 0) /* everything is small. make place for zero */ - decimals = 1; - - 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 */ - if(range/im->ygrid_scale.gridstep < 5) + 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))*im->viewfactor/im->magfact)); + if(decimals <= 0) /* everything is small. make place for zero */ + decimals = 1; + + 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 */ + if(range/im->ygrid_scale.gridstep < 5) im->ygrid_scale.gridstep /= 10; - if(range/im->ygrid_scale.gridstep > 15) + if(range/im->ygrid_scale.gridstep > 15) im->ygrid_scale.gridstep *= 10; - if(range/im->ygrid_scale.gridstep > 5) { - im->ygrid_scale.labfact = 1; - if(range/im->ygrid_scale.gridstep > 8) - im->ygrid_scale.labfact = 2; - } - else { - 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); - gridind = i; - if (pixel > 7) + if(range/im->ygrid_scale.gridstep > 5) { + im->ygrid_scale.labfact = 1; + if(range/im->ygrid_scale.gridstep > 8) + im->ygrid_scale.labfact = 2; + } + else { + 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); + gridind = i; + if (pixel > 7) break; - } - - for(i=0; i<4;i++) { - if (pixel * ylab[gridind].lfac[i] >= 2.5 * im->text_prop[TEXT_PROP_AXIS].size) { - im->ygrid_scale.labfact = ylab[gridind].lfac[i]; - break; + } + + for(i=0; i<4;i++) { + if (pixel * ylab[gridind].lfac[i] >= 2.5 * im->text_prop[TEXT_PROP_AXIS].size) { + im->ygrid_scale.labfact = ylab[gridind].lfac[i]; + break; } - } - - im->ygrid_scale.gridstep = ylab[gridind].grid * im->magfact; - } + } + + im->ygrid_scale.gridstep = ylab[gridind].grid * im->magfact; + } } else { - im->ygrid_scale.gridstep = im->ygridstep; - im->ygrid_scale.labfact = im->ylabfact; + im->ygrid_scale.gridstep = im->ygridstep; + im->ygrid_scale.labfact = im->ylabfact; } return 1; } @@ -1664,57 +1664,57 @@ int draw_horizontal_grid(image_desc_t *im) double Y0=ytr(im,im->ygrid_scale.gridstep*i); double YN=ytr(im,im->ygrid_scale.gridstep*(i+1)); if ( Y0 >= im->yorigin-im->ysize - && Y0 <= im->yorigin){ - /* Make sure at least 2 grid labels are shown, even if it doesn't agree - with the chosen settings. Add a label if required by settings, or if - there is only one label so far and the next grid line is out of bounds. */ - if(i % im->ygrid_scale.labfact == 0 || ( nlabels==1 && (YN < im->yorigin-im->ysize || YN > im->yorigin) )){ - if (im->symbol == ' ') { - if(im->extra_flags & ALTYGRID) { - sprintf(graph_label,im->ygrid_scale.labfmt,scaledstep*(double)i); + && Y0 <= im->yorigin){ + /* Make sure at least 2 grid labels are shown, even if it doesn't agree + with the chosen settings. Add a label if required by settings, or if + there is only one label so far and the next grid line is out of bounds. */ + if(i % im->ygrid_scale.labfact == 0 || ( nlabels==1 && (YN < im->yorigin-im->ysize || YN > im->yorigin) )){ + 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); - } + sprintf(graph_label,"%4.1f",scaledstep*(double)i); + } else { + sprintf(graph_label,"%4.0f",scaledstep*(double)i); + } } - }else { - char sisym = ( i == 0 ? ' ' : im->symbol); - if(im->extra_flags & ALTYGRID) { - sprintf(graph_label,im->ygrid_scale.labfmt,scaledstep*(double)i,sisym); + }else { + 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); - } + if(MaxY < 10){ + sprintf(graph_label,"%4.1f %c",scaledstep*(double)i, sisym); + } else { + sprintf(graph_label,"%4.0f %c",scaledstep*(double)i, sisym); + } } - } - nlabels++; - - gfx_new_text ( im->canvas, - 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, - im->tabwidth, 0.0, GFX_H_RIGHT, GFX_V_CENTER, - graph_label ); - gfx_new_dashed_line ( im->canvas, - X0-2,Y0, - X1+2,Y0, - MGRIDWIDTH, im->graph_col[GRC_MGRID], - im->grid_dash_on, im->grid_dash_off); - - } else if (!(im->extra_flags & NOMINOR)) { - gfx_new_dashed_line ( im->canvas, - X0-1,Y0, - X1+1,Y0, - GRIDWIDTH, im->graph_col[GRC_GRID], - im->grid_dash_on, im->grid_dash_off); - - } - } + } + nlabels++; + + gfx_new_text ( im->canvas, + 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, + im->tabwidth, 0.0, GFX_H_RIGHT, GFX_V_CENTER, + graph_label ); + gfx_new_dashed_line ( im->canvas, + X0-2,Y0, + X1+2,Y0, + MGRIDWIDTH, im->graph_col[GRC_MGRID], + im->grid_dash_on, im->grid_dash_off); + + } else if (!(im->extra_flags & NOMINOR)) { + gfx_new_dashed_line ( im->canvas, + X0-1,Y0, + X1+1,Y0, + GRIDWIDTH, im->graph_col[GRC_GRID], + im->grid_dash_on, im->grid_dash_off); + + } + } } return 1; } @@ -1728,8 +1728,8 @@ double frexp10(double x, double *e) { iexp = floor(log(fabs(x)) / log(10)); mnt = x / pow(10.0, iexp); if(mnt >= 10.0) { - iexp++; - mnt = x / pow(10.0, iexp); + iexp++; + mnt = x / pow(10.0, iexp); } *e = iexp; return mnt; @@ -1769,20 +1769,20 @@ int horizontal_log_grid(image_desc_t *im) { double yloglab[][10] = { - {1.0, 10., 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0}, - {1.0, 5.0, 10., 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0}, - {1.0, 2.0, 5.0, 7.0, 10., 0.0, 0.0, 0.0, 0.0, 0.0}, - {1.0, 2.0, 4.0, 6.0, 8.0, 10., 0.0, 0.0, 0.0, 0.0}, - {1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.}, - {0,0,0,0,0, 0,0,0,0,0} /* last line */ }; + {1.0, 10., 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0}, + {1.0, 5.0, 10., 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0}, + {1.0, 2.0, 5.0, 7.0, 10., 0.0, 0.0, 0.0, 0.0, 0.0}, + {1.0, 2.0, 4.0, 6.0, 8.0, 10., 0.0, 0.0, 0.0, 0.0}, + {1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.}, + {0,0,0,0,0, 0,0,0,0,0} /* last line */ }; int i, j, val_exp, min_exp; - double nex; /* number of decades in data */ - double logscale; /* scale in logarithmic space */ - int exfrac = 1; /* decade spacing */ - int mid = -1; /* row in yloglab for major grid */ - double mspac; /* smallest major grid spacing (pixels) */ - int flab; /* first value in yloglab to use */ + double nex; /* number of decades in data */ + double logscale; /* scale in logarithmic space */ + int exfrac = 1; /* decade spacing */ + int mid = -1; /* row in yloglab for major grid */ + double mspac; /* smallest major grid spacing (pixels) */ + int flab; /* first value in yloglab to use */ double value, tmp, pre_value; double X0,X1,Y0; char graph_label[100]; @@ -1792,24 +1792,24 @@ horizontal_log_grid(image_desc_t *im) /* major spacing for data with high dynamic range */ while(logscale * exfrac < 3 * im->text_prop[TEXT_PROP_LEGEND].size) { - if(exfrac == 1) exfrac = 3; - else exfrac += 3; + if(exfrac == 1) exfrac = 3; + else exfrac += 3; } /* major spacing for less dynamic data */ do { - /* search best row in yloglab */ - mid++; - for(i = 0; yloglab[mid][i + 1] < 10.0; i++); - mspac = logscale * log10(10.0 / yloglab[mid][i]); + /* search best row in yloglab */ + mid++; + for(i = 0; yloglab[mid][i + 1] < 10.0; i++); + mspac = logscale * log10(10.0 / yloglab[mid][i]); } while(mspac > 2 * im->text_prop[TEXT_PROP_LEGEND].size && yloglab[mid][0] > 0); if(mid) mid--; /* find first value in yloglab */ for(flab = 0; yloglab[mid][flab] < 10 && frexp10(im->minval, &tmp) > yloglab[mid][flab] ; flab++); if(yloglab[mid][flab] == 10.0) { - tmp += 1.0; - flab = 0; + tmp += 1.0; + flab = 0; } val_exp = tmp; if(val_exp % exfrac) val_exp += abs(-val_exp % exfrac); @@ -1821,155 +1821,155 @@ horizontal_log_grid(image_desc_t *im) pre_value = DNAN; while(1) { - value = yloglab[mid][flab] * pow(10.0, val_exp); + value = yloglab[mid][flab] * pow(10.0, val_exp); if ( AlmostEqual2sComplement(value,pre_value,4) ) break; /* it seems we are not converging */ pre_value = value; - Y0 = ytr(im, value); - if(Y0 <= im->yorigin - im->ysize) break; - - /* major grid line */ - gfx_new_dashed_line ( im->canvas, - X0-2,Y0, - X1+2,Y0, - MGRIDWIDTH, im->graph_col[GRC_MGRID], - im->grid_dash_on, im->grid_dash_off); - - /* label */ - if (im->extra_flags & FORCE_UNITS_SI) { - int scale; - double pvalue; - char symbol; - - scale = floor(val_exp / 3.0); - if( value >= 1.0 ) pvalue = pow(10.0, val_exp % 3); - else pvalue = pow(10.0, ((val_exp + 1) % 3) + 2); - pvalue *= yloglab[mid][flab]; - - if ( ((scale+si_symbcenter) < (int)sizeof(si_symbol)) && - ((scale+si_symbcenter) >= 0) ) - symbol = si_symbol[scale+si_symbcenter]; - else - symbol = '?'; - - sprintf(graph_label,"%3.0f %c", pvalue, symbol); + Y0 = ytr(im, value); + if(Y0 <= im->yorigin - im->ysize) break; + + /* major grid line */ + gfx_new_dashed_line ( im->canvas, + X0-2,Y0, + X1+2,Y0, + MGRIDWIDTH, im->graph_col[GRC_MGRID], + im->grid_dash_on, im->grid_dash_off); + + /* label */ + if (im->extra_flags & FORCE_UNITS_SI) { + int scale; + double pvalue; + char symbol; + + scale = floor(val_exp / 3.0); + if( value >= 1.0 ) pvalue = pow(10.0, val_exp % 3); + else pvalue = pow(10.0, ((val_exp + 1) % 3) + 2); + pvalue *= yloglab[mid][flab]; + + if ( ((scale+si_symbcenter) < (int)sizeof(si_symbol)) && + ((scale+si_symbcenter) >= 0) ) + symbol = si_symbol[scale+si_symbcenter]; + else + symbol = '?'; + + sprintf(graph_label,"%3.0f %c", pvalue, symbol); } else - sprintf(graph_label,"%3.0e", value); - gfx_new_text ( im->canvas, - 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, - im->tabwidth,0.0, GFX_H_RIGHT, GFX_V_CENTER, - graph_label ); - - /* minor grid */ - if(mid < 4 && exfrac == 1) { - /* find first and last minor line behind current major line - * i is the first line and j tha last */ - if(flab == 0) { - min_exp = val_exp - 1; - for(i = 1; yloglab[mid][i] < 10.0; i++); - i = yloglab[mid][i - 1] + 1; - j = 10; - } - else { - min_exp = val_exp; - i = yloglab[mid][flab - 1] + 1; - j = yloglab[mid][flab]; - } - - /* draw minor lines below current major line */ - for(; i < j; i++) { - - value = i * pow(10.0, min_exp); - if(value < im->minval) continue; - - Y0 = ytr(im, value); - if(Y0 <= im->yorigin - im->ysize) break; - - /* draw lines */ - gfx_new_dashed_line ( im->canvas, - X0-1,Y0, - X1+1,Y0, - GRIDWIDTH, im->graph_col[GRC_GRID], - im->grid_dash_on, im->grid_dash_off); - } - } - else if(exfrac > 1) { - for(i = val_exp - exfrac / 3 * 2; i < val_exp; i += exfrac / 3) { - value = pow(10.0, i); - if(value < im->minval) continue; - - Y0 = ytr(im, value); - if(Y0 <= im->yorigin - im->ysize) break; - - /* draw lines */ - gfx_new_dashed_line ( im->canvas, - X0-1,Y0, - X1+1,Y0, - GRIDWIDTH, im->graph_col[GRC_GRID], - im->grid_dash_on, im->grid_dash_off); - } - } - - /* next decade */ - if(yloglab[mid][++flab] == 10.0) { - flab = 0; - val_exp += exfrac; - } + sprintf(graph_label,"%3.0e", value); + gfx_new_text ( im->canvas, + 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, + im->tabwidth,0.0, GFX_H_RIGHT, GFX_V_CENTER, + graph_label ); + + /* minor grid */ + if(mid < 4 && exfrac == 1) { + /* find first and last minor line behind current major line + * i is the first line and j tha last */ + if(flab == 0) { + min_exp = val_exp - 1; + for(i = 1; yloglab[mid][i] < 10.0; i++); + i = yloglab[mid][i - 1] + 1; + j = 10; + } + else { + min_exp = val_exp; + i = yloglab[mid][flab - 1] + 1; + j = yloglab[mid][flab]; + } + + /* draw minor lines below current major line */ + for(; i < j; i++) { + + value = i * pow(10.0, min_exp); + if(value < im->minval) continue; + + Y0 = ytr(im, value); + if(Y0 <= im->yorigin - im->ysize) break; + + /* draw lines */ + gfx_new_dashed_line ( im->canvas, + X0-1,Y0, + X1+1,Y0, + GRIDWIDTH, im->graph_col[GRC_GRID], + im->grid_dash_on, im->grid_dash_off); + } + } + else if(exfrac > 1) { + for(i = val_exp - exfrac / 3 * 2; i < val_exp; i += exfrac / 3) { + value = pow(10.0, i); + if(value < im->minval) continue; + + Y0 = ytr(im, value); + if(Y0 <= im->yorigin - im->ysize) break; + + /* draw lines */ + gfx_new_dashed_line ( im->canvas, + X0-1,Y0, + X1+1,Y0, + GRIDWIDTH, im->graph_col[GRC_GRID], + im->grid_dash_on, im->grid_dash_off); + } + } + + /* next decade */ + if(yloglab[mid][++flab] == 10.0) { + flab = 0; + val_exp += exfrac; + } } /* draw minor lines after highest major line */ if(mid < 4 && exfrac == 1) { - /* find first and last minor line below current major line - * i is the first line and j tha last */ - if(flab == 0) { - min_exp = val_exp - 1; - for(i = 1; yloglab[mid][i] < 10.0; i++); - i = yloglab[mid][i - 1] + 1; - j = 10; - } - else { - min_exp = val_exp; - i = yloglab[mid][flab - 1] + 1; - j = yloglab[mid][flab]; - } - - /* draw minor lines below current major line */ - for(; i < j; i++) { - - value = i * pow(10.0, min_exp); - if(value < im->minval) continue; - - Y0 = ytr(im, value); - if(Y0 <= im->yorigin - im->ysize) break; - - /* draw lines */ - gfx_new_dashed_line ( im->canvas, - X0-1,Y0, - X1+1,Y0, - GRIDWIDTH, im->graph_col[GRC_GRID], - im->grid_dash_on, im->grid_dash_off); - } + /* find first and last minor line below current major line + * i is the first line and j tha last */ + if(flab == 0) { + min_exp = val_exp - 1; + for(i = 1; yloglab[mid][i] < 10.0; i++); + i = yloglab[mid][i - 1] + 1; + j = 10; + } + else { + min_exp = val_exp; + i = yloglab[mid][flab - 1] + 1; + j = yloglab[mid][flab]; + } + + /* draw minor lines below current major line */ + for(; i < j; i++) { + + value = i * pow(10.0, min_exp); + if(value < im->minval) continue; + + Y0 = ytr(im, value); + if(Y0 <= im->yorigin - im->ysize) break; + + /* draw lines */ + gfx_new_dashed_line ( im->canvas, + X0-1,Y0, + X1+1,Y0, + GRIDWIDTH, im->graph_col[GRC_GRID], + im->grid_dash_on, im->grid_dash_off); + } } /* fancy minor gridlines */ else if(exfrac > 1) { - for(i = val_exp - exfrac / 3 * 2; i < val_exp; i += exfrac / 3) { - value = pow(10.0, i); - if(value < im->minval) continue; - - Y0 = ytr(im, value); - if(Y0 <= im->yorigin - im->ysize) break; - - /* draw lines */ - gfx_new_dashed_line ( im->canvas, - X0-1,Y0, - X1+1,Y0, - GRIDWIDTH, im->graph_col[GRC_GRID], - im->grid_dash_on, im->grid_dash_off); - } + for(i = val_exp - exfrac / 3 * 2; i < val_exp; i += exfrac / 3) { + value = pow(10.0, i); + if(value < im->minval) continue; + + Y0 = ytr(im, value); + if(Y0 <= im->yorigin - im->ysize) break; + + /* draw lines */ + gfx_new_dashed_line ( im->canvas, + X0-1,Y0, + X1+1,Y0, + GRIDWIDTH, im->graph_col[GRC_GRID], + im->grid_dash_on, im->grid_dash_off); + } } return 1; @@ -1980,7 +1980,7 @@ void vertical_grid( image_desc_t *im ) { - int xlab_sel; /* which sort of label and grid ? */ + int xlab_sel; /* which sort of label and grid ? */ time_t ti, tilab, timajor; long factor; char graph_label[100]; @@ -1992,20 +1992,20 @@ vertical_grid( if(im->xlab_user.minsec == -1){ - factor=(im->end - im->start)/im->xsize; - xlab_sel=0; - while ( xlab[xlab_sel+1].minsec != -1 - && xlab[xlab_sel+1].minsec <= factor) { xlab_sel++; } /* pick the last one */ - while ( xlab[xlab_sel-1].minsec == xlab[xlab_sel].minsec - && xlab[xlab_sel].length > (im->end - im->start)) { xlab_sel--; } /* go back to the smallest size */ - im->xlab_user.gridtm = xlab[xlab_sel].gridtm; - im->xlab_user.gridst = xlab[xlab_sel].gridst; - im->xlab_user.mgridtm = xlab[xlab_sel].mgridtm; - im->xlab_user.mgridst = xlab[xlab_sel].mgridst; - im->xlab_user.labtm = xlab[xlab_sel].labtm; - im->xlab_user.labst = xlab[xlab_sel].labst; - im->xlab_user.precis = xlab[xlab_sel].precis; - im->xlab_user.stst = xlab[xlab_sel].stst; + factor=(im->end - im->start)/im->xsize; + xlab_sel=0; + while ( xlab[xlab_sel+1].minsec != -1 + && xlab[xlab_sel+1].minsec <= factor) { xlab_sel++; } /* pick the last one */ + while ( xlab[xlab_sel-1].minsec == xlab[xlab_sel].minsec + && xlab[xlab_sel].length > (im->end - im->start)) { xlab_sel--; } /* go back to the smallest size */ + im->xlab_user.gridtm = xlab[xlab_sel].gridtm; + im->xlab_user.gridst = xlab[xlab_sel].gridst; + im->xlab_user.mgridtm = xlab[xlab_sel].mgridtm; + im->xlab_user.mgridst = xlab[xlab_sel].mgridst; + im->xlab_user.labtm = xlab[xlab_sel].labtm; + im->xlab_user.labst = xlab[xlab_sel].labst; + im->xlab_user.precis = xlab[xlab_sel].precis; + im->xlab_user.stst = xlab[xlab_sel].stst; } /* y coords are the same for every line ... */ @@ -2042,43 +2042,43 @@ vertical_grid( /* paint the major grid */ for(ti = find_first_time(im->start, - im->xlab_user.mgridtm, - im->xlab_user.mgridst); - ti < im->end; - ti = find_next_time(ti,im->xlab_user.mgridtm,im->xlab_user.mgridst) - ){ - /* are we inside the graph ? */ - if (ti < im->start || ti > im->end) continue; + im->xlab_user.mgridtm, + im->xlab_user.mgridst); + ti < im->end; + ti = find_next_time(ti,im->xlab_user.mgridtm,im->xlab_user.mgridst) + ){ + /* are we inside the graph ? */ + if (ti < im->start || ti > im->end) continue; X0 = xtr(im,ti); gfx_new_dashed_line(im->canvas,X0,Y0+3, X0,Y1-2,MGRIDWIDTH, - im->graph_col[GRC_MGRID], - im->grid_dash_on, im->grid_dash_off); + im->graph_col[GRC_MGRID], + im->grid_dash_on, im->grid_dash_off); } /* paint the labels below the graph */ for(ti = find_first_time(im->start - im->xlab_user.precis/2, - im->xlab_user.labtm, - im->xlab_user.labst); - ti <= im->end - im->xlab_user.precis/2; - ti = find_next_time(ti,im->xlab_user.labtm,im->xlab_user.labst) - ){ + im->xlab_user.labtm, + im->xlab_user.labst); + 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 (tilab < im->start || tilab > im->end) continue; + /* are we inside the graph ? */ + if (tilab < im->start || tilab > im->end) continue; #if HAVE_STRFTIME - localtime_r(&tilab, &tm); - strftime(graph_label,99,im->xlab_user.stst, &tm); + localtime_r(&tilab, &tm); + strftime(graph_label,99,im->xlab_user.stst, &tm); #else # 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*1.4+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_BOTTOM, - graph_label ); + 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_BOTTOM, + graph_label ); } @@ -2088,38 +2088,38 @@ vertical_grid( void axis_paint( image_desc_t *im - ) + ) { /* draw x and y axis */ /* gfx_new_line ( im->canvas, im->xorigin+im->xsize,im->yorigin, - im->xorigin+im->xsize,im->yorigin-im->ysize, - GRIDWIDTH, im->graph_col[GRC_AXIS]); + im->xorigin+im->xsize,im->yorigin-im->ysize, + GRIDWIDTH, im->graph_col[GRC_AXIS]); gfx_new_line ( im->canvas, im->xorigin,im->yorigin-im->ysize, - im->xorigin+im->xsize,im->yorigin-im->ysize, - GRIDWIDTH, im->graph_col[GRC_AXIS]); */ + im->xorigin+im->xsize,im->yorigin-im->ysize, + GRIDWIDTH, im->graph_col[GRC_AXIS]); */ gfx_new_line ( im->canvas, im->xorigin-4,im->yorigin, - im->xorigin+im->xsize+4,im->yorigin, - MGRIDWIDTH, im->graph_col[GRC_AXIS]); + im->xorigin+im->xsize+4,im->yorigin, + MGRIDWIDTH, im->graph_col[GRC_AXIS]); gfx_new_line ( im->canvas, im->xorigin,im->yorigin+4, - im->xorigin,im->yorigin-im->ysize-4, - MGRIDWIDTH, im->graph_col[GRC_AXIS]); + im->xorigin,im->yorigin-im->ysize-4, + MGRIDWIDTH, im->graph_col[GRC_AXIS]); /* arrow for X and Y axis direction */ gfx_new_area ( im->canvas, - 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]); + 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]); + 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]); } @@ -2154,22 +2154,22 @@ grid_paint(image_desc_t *im) vertical_grid(im); if (im->draw_y_grid == 1){ - if(im->logarithmic){ - res = horizontal_log_grid(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"; - gfx_new_text(im->canvas,im->ximg/2, (2*im->yorigin-im->ysize) / 2, - 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_CENTER, - nodata ); - } + if(im->logarithmic){ + res = horizontal_log_grid(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"; + gfx_new_text(im->canvas,im->ximg/2, (2*im->yorigin-im->ysize) / 2, + 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_CENTER, + nodata ); + } } /* yaxis unit description */ @@ -2184,30 +2184,30 @@ grid_paint(image_desc_t *im) /* graph title */ gfx_new_text( im->canvas, - 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); + 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"); + 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 watermark */ if(im->watermark[0] != '\0') { gfx_new_text( im->canvas, im->ximg/2, im->yimg-6, - ( im->graph_col[GRC_FONT] & 0xffffff00 ) | 0x00000044, - im->text_prop[TEXT_PROP_AXIS].font, - 5.5, im->tabwidth, 0, - GFX_H_CENTER, GFX_V_BOTTOM, - im->watermark); + ( im->graph_col[GRC_FONT] & 0xffffff00 ) | 0x00000044, + im->text_prop[TEXT_PROP_AXIS].font, + 5.5, im->tabwidth, 0, + GFX_H_CENTER, GFX_V_BOTTOM, + im->watermark); } /* graph labels */ @@ -2220,15 +2220,15 @@ grid_paint(image_desc_t *im) X0 = im->gdes[i].leg_x; Y0 = im->gdes[i].leg_y; gfx_new_text ( im->canvas, X0, Y0, - im->graph_col[GRC_FONT], - im->text_prop[TEXT_PROP_LEGEND].font, - im->text_prop[TEXT_PROP_LEGEND].size, - im->tabwidth,0.0, GFX_H_LEFT, GFX_V_BOTTOM, - im->gdes[i].legend ); - /* The legend for GRAPH items starts with "M " to have + im->graph_col[GRC_FONT], + im->text_prop[TEXT_PROP_LEGEND].font, + im->text_prop[TEXT_PROP_LEGEND].size, + im->tabwidth,0.0, GFX_H_LEFT, GFX_V_BOTTOM, + im->gdes[i].legend ); + /* The legend for GRAPH items starts with "M " to have enough space for the box */ - if ( im->gdes[i].gf != GF_PRINT && - im->gdes[i].gf != GF_GPRINT && + if ( im->gdes[i].gf != GF_PRINT && + im->gdes[i].gf != GF_GPRINT && im->gdes[i].gf != GF_COMMENT) { int boxH, boxV; @@ -2239,7 +2239,7 @@ grid_paint(image_desc_t *im) boxV = boxH*1.1; /* make sure transparent colors show up the same way as in the graph */ - node = gfx_new_area(im->canvas, + node = gfx_new_area(im->canvas, X0,Y0-boxV, X0,Y0, X0+boxH,Y0, @@ -2271,7 +2271,7 @@ grid_paint(image_desc_t *im) int lazy_check(image_desc_t *im){ FILE *fd = NULL; - int size = 1; + int size = 1; struct stat imgstat; if (im->lazy == 0) return 0; /* no lazy option */ @@ -2280,16 +2280,16 @@ int lazy_check(image_desc_t *im){ /* one pixel in the existing graph is more then what we would change here ... */ if (time(NULL) - imgstat.st_mtime > - (im->end - im->start) / im->xsize) + (im->end - im->start) / im->xsize) return 0; if ((fd = fopen(im->graphfile,"rb")) == NULL) return 0; /* the file does not exist */ switch (im->canvas->imgformat) { case IF_PNG: - size = PngSize(fd,&(im->ximg),&(im->yimg)); - break; + size = PngSize(fd,&(im->ximg),&(im->yimg)); + break; default: - size = 1; + size = 1; } fclose(fd); return size; @@ -2298,15 +2298,15 @@ int lazy_check(image_desc_t *im){ #ifdef WITH_PIECHART void pie_part(image_desc_t *im, gfx_color_t color, - double PieCenterX, double PieCenterY, double Radius, - double startangle, double endangle) + double PieCenterX, double PieCenterY, double Radius, + double startangle, double endangle) { gfx_node_t *node; double angle; double step=M_PI/50; /* Number of iterations for the circle; - ** 10 is definitely too low, more than - ** 50 seems to be overkill - */ + ** 10 is definitely too low, more than + ** 50 seems to be overkill + */ /* Strange but true: we have to work clockwise or else ** anti aliasing nor transparency don't work. @@ -2323,22 +2323,22 @@ pie_part(image_desc_t *im, gfx_color_t color, /* Hidden feature: Radius decreases each full circle */ angle=startangle; while (angle>=2*M_PI) { - angle -= 2*M_PI; - Radius *= 0.8; + angle -= 2*M_PI; + Radius *= 0.8; } node=gfx_new_area(im->canvas, - PieCenterX+sin(startangle)*Radius, - PieCenterY-cos(startangle)*Radius, - PieCenterX, - PieCenterY, - PieCenterX+sin(endangle)*Radius, - PieCenterY-cos(endangle)*Radius, - color); + PieCenterX+sin(startangle)*Radius, + PieCenterY-cos(startangle)*Radius, + PieCenterX, + PieCenterY, + PieCenterX+sin(endangle)*Radius, + PieCenterY-cos(endangle)*Radius, + color); for (angle=endangle;angle-startangle>=step;angle-=step) { - gfx_add_point(node, - PieCenterX+sin(angle)*Radius, - PieCenterY-cos(angle)*Radius ); + gfx_add_point(node, + PieCenterX+sin(angle)*Radius, + PieCenterY-cos(angle)*Radius ); } } @@ -2375,28 +2375,28 @@ graph_size_location(image_desc_t *im, int elements ** | watermark | ** +---------------------------------------------+ */ - int Xvertical=0, - Ytitle =0, - Xylabel =0, - Xmain =0, Ymain =0, + int Xvertical=0, + Ytitle =0, + Xylabel =0, + Xmain =0, Ymain =0, #ifdef WITH_PIECHART - Xpie =0, Ypie =0, + Xpie =0, Ypie =0, #endif - Yxlabel =0, + Yxlabel =0, #if 0 - Xlegend =0, Ylegend =0, + Xlegend =0, Ylegend =0, #endif Xspacing =15, Yspacing =15, Ywatermark =4; if (im->extra_flags & ONLY_GRAPH) { - im->xorigin =0; - im->ximg = im->xsize; + im->xorigin =0; + im->ximg = im->xsize; im->yimg = im->ysize; im->yorigin = im->ysize; ytr(im,DNAN); - return 0; + return 0; } if (im->ylegend[0] != '\0' ) { @@ -2405,39 +2405,39 @@ graph_size_location(image_desc_t *im, int elements 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. - */ - /* 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*2.6+10; + /* The title is placed "inbetween" two text lines so it + ** automatically has some vertical spacing. The horizontal + ** spacing is added here, on each side. + */ + /* 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*2.6+10; } if (elements) { - Xmain=im->xsize; - Ymain=im->ysize; - if (im->draw_x_grid) { - Yxlabel=im->text_prop[TEXT_PROP_AXIS].size *2.5; - } - if (im->draw_y_grid || im->forceleftspace ) { - 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; - } + Xmain=im->xsize; + Ymain=im->ysize; + if (im->draw_x_grid) { + Yxlabel=im->text_prop[TEXT_PROP_AXIS].size *2.5; + } + if (im->draw_y_grid || im->forceleftspace ) { + 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; + im->piesize=im->xsizeysize?im->xsize:im->ysize; + Xpie=im->piesize; + Ypie=im->piesize; } #endif @@ -2469,8 +2469,8 @@ graph_size_location(image_desc_t *im, int elements if (Xtitle > im->ximg) im->ximg = Xtitle; */ if (Xvertical) { /* unit description */ - im->ximg += Xvertical; - im->xorigin += Xvertical; + im->ximg += Xvertical; + im->xorigin += Xvertical; } xtr(im,0); @@ -2496,11 +2496,11 @@ graph_size_location(image_desc_t *im, int elements /* reserve space for the title *or* some padding above the graph */ if (Ytitle) { - im->yimg += Ytitle; - im->yorigin += Ytitle; + im->yimg += Ytitle; + im->yorigin += Ytitle; } else { - im->yimg += 1.5*Yspacing; - im->yorigin += 1.5*Yspacing; + im->yimg += 1.5*Yspacing; + im->yorigin += 1.5*Yspacing; } /* reserve space for padding below the graph */ im->yimg += Yspacing; @@ -2509,16 +2509,16 @@ graph_size_location(image_desc_t *im, int elements ** Adjust im->yimg to match the space requirements. */ if(leg_place(im)==-1) - return -1; - + return -1; + if (im->watermark[0] != '\0') { im->yimg += Ywatermark; } #if 0 if (Xlegend > im->ximg) { - im->ximg = Xlegend; - /* reposition Pie */ + im->ximg = Xlegend; + /* reposition Pie */ } #endif @@ -2528,10 +2528,10 @@ graph_size_location(image_desc_t *im, int elements ** padding. */ if (elements) { - im->pie_x = im->ximg - Xspacing - Xpie/2; + im->pie_x = im->ximg - Xspacing - Xpie/2; im->pie_y = im->yorigin-Ymain+Ypie/2; } else { - im->pie_x = im->ximg/2; + im->pie_x = im->ximg/2; im->pie_y = im->yorigin-Ypie/2; } #endif @@ -2635,7 +2635,7 @@ graph_paint(image_desc_t *im, char ***calcpr) node=gfx_new_area ( im->canvas, 0, 0, 0, im->yimg, - im->ximg, im->yimg, + im->ximg, im->yimg, im->graph_col[GRC_BACK]); gfx_add_point(node,im->ximg, 0); @@ -2684,19 +2684,19 @@ graph_paint(image_desc_t *im, char ***calcpr) if (!isnan(im->gdes[i].p_data[ii]) && im->gdes[i].p_data[ii] != 0.0) { - if (im -> gdes[i].yrule > 0 ) { - gfx_new_line(im->canvas, + if (im -> gdes[i].yrule > 0 ) { + gfx_new_line(im->canvas, im -> xorigin + ii, im->yorigin, - im -> xorigin + ii, im->yorigin - im -> gdes[i].yrule * im -> ysize, - 1.0, - im -> gdes[i].col ); + im -> xorigin + ii, im->yorigin - im -> gdes[i].yrule * im -> ysize, + 1.0, + im -> gdes[i].col ); } else if ( im -> gdes[i].yrule < 0 ) { - gfx_new_line(im->canvas, + gfx_new_line(im->canvas, im -> xorigin + ii, im->yorigin - im -> ysize, - im -> xorigin + ii, im->yorigin - ( 1 - im -> gdes[i].yrule ) * im -> ysize, - 1.0, - im -> gdes[i].col ); - + im -> xorigin + ii, im->yorigin - ( 1 - im -> gdes[i].yrule ) * im -> ysize, + 1.0, + im -> gdes[i].col ); + } } } @@ -2717,7 +2717,7 @@ graph_paint(image_desc_t *im, char ***calcpr) /* ******************************************************* a ___. (a,t) - | | ___ + | | ___ ____| | | | | |___| -------|--t-1--t-------------------------------- @@ -2732,45 +2732,45 @@ graph_paint(image_desc_t *im, char ***calcpr) double last_y=0.0; node = NULL; 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 (isnan(im->gdes[i].p_data[ii]) || (im->slopemode==1 && isnan(im->gdes[i].p_data[ii-1]))){ + node = NULL; + continue; + } if ( node == NULL ) { - last_y = ytr(im,im->gdes[i].p_data[ii]); - if ( im->slopemode == 0 ){ + last_y = ytr(im,im->gdes[i].p_data[ii]); + if ( im->slopemode == 0 ){ node = gfx_new_line(im->canvas, ii-1+im->xorigin,last_y, ii+im->xorigin,last_y, im->gdes[i].linewidth, im->gdes[i].col); - } else { + } else { node = gfx_new_line(im->canvas, ii-1+im->xorigin,ytr(im,im->gdes[i].p_data[ii-1]), ii+im->xorigin,last_y, im->gdes[i].linewidth, im->gdes[i].col); - } + } } else { double new_y = ytr(im,im->gdes[i].p_data[ii]); - if ( im->slopemode==0 && ! AlmostEqual2sComplement(new_y,last_y,4)){ + if ( im->slopemode==0 && ! AlmostEqual2sComplement(new_y,last_y,4)){ gfx_add_point(node,ii-1+im->xorigin,new_y); - }; + }; last_y = new_y; gfx_add_point(node,ii+im->xorigin,new_y); }; } } else { - 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; + 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)){ + double ybase,ytop; + if ( idxI > 0 && ( drawem != 0 || ii==im->xsize)){ int cntI=1; int lastI=0; while (cntI < idxI && AlmostEqual2sComplement(foreY[lastI],foreY[cntI],4) && AlmostEqual2sComplement(foreY[lastI],foreY[cntI+1],4)){cntI++;} @@ -2800,34 +2800,34 @@ graph_paint(image_desc_t *im, char ***calcpr) } 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 ( im->slopemode == 0 && ii==0){ - continue; - } - if ( isnan(im->gdes[i].p_data[ii]) ) { - drawem = 1; - continue; - } + /* keep things simple for now, just draw these bars + do not try to build a big and complex area */ + + + 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 ) { + 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; - } + 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; @@ -2861,14 +2861,14 @@ graph_paint(image_desc_t *im, char ***calcpr) #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; + im->gdes[i].yrule = im->gdes[im->gdes[i].vidx].vf.val; - if (finite(im->gdes[i].yrule)) { /* even the fetched var can be NaN */ - pie_part(im,im->gdes[i].col, - im->pie_x,im->pie_y,im->piesize*0.4, - M_PI*2.0*PieStart/100.0, - M_PI*2.0*(PieStart+im->gdes[i].yrule)/100.0); - PieStart += im->gdes[i].yrule; + if (finite(im->gdes[i].yrule)) { /* even the fetched var can be NaN */ + pie_part(im,im->gdes[i].col, + im->pie_x,im->pie_y,im->piesize*0.4, + M_PI*2.0*PieStart/100.0, + M_PI*2.0*(PieStart+im->gdes[i].yrule)/100.0); + PieStart += im->gdes[i].yrule; } break; #endif @@ -2876,7 +2876,7 @@ graph_paint(image_desc_t *im, char ***calcpr) rrd_set_error("STACK should already be turned into LINE or AREA here"); return -1; break; - + } /* switch */ } #ifdef WITH_PIECHART @@ -2950,9 +2950,9 @@ gdes_alloc(image_desc_t *im){ im->gdes_c++; if ((im->gdes = (graph_desc_t *) rrd_realloc(im->gdes, (im->gdes_c) - * sizeof(graph_desc_t)))==NULL){ - rrd_set_error("realloc graph_descs"); - return -1; + * sizeof(graph_desc_t)))==NULL){ + rrd_set_error("realloc graph_descs"); + return -1; } @@ -2993,18 +2993,18 @@ scan_for_col(const char *const input, int len, char *const output) { int inp,outp=0; for (inp=0; - inp < len && - input[inp] != ':' && - input[inp] != '\0'; - inp++){ + inp < len && + input[inp] != ':' && + input[inp] != '\0'; + inp++){ if (input[inp] == '\\' && - input[inp+1] != '\0' && - (input[inp+1] == '\\' || - input[inp+1] == ':')){ - output[outp++] = input[++inp]; + input[inp+1] != '\0' && + (input[inp+1] == '\\' || + input[inp+1] == ':')){ + output[outp++] = input[++inp]; } else { - output[outp++] = input[inp]; + output[outp++] = input[inp]; } } output[outp] = '\0'; @@ -3025,30 +3025,30 @@ rrd_graph(int argc, char **argv, char ***prdata, int *xsize, int *ysize, FILE *s rrd_graph_options(argc,argv,&im); if (rrd_test_error()) { - im_free(&im); - return -1; + im_free(&im); + return -1; } if (strlen(argv[optind])>=MAXPATH) { - rrd_set_error("filename (including path) too long"); - im_free(&im); - return -1; + rrd_set_error("filename (including path) too long"); + im_free(&im); + return -1; } strncpy(im.graphfile,argv[optind],MAXPATH-1); im.graphfile[MAXPATH-1]='\0'; rrd_graph_script(argc,argv,&im,1); if (rrd_test_error()) { - im_free(&im); - return -1; + im_free(&im); + return -1; } /* Everything is now read and the actual work can start */ (*prdata)=NULL; if (graph_paint(&im,prdata)==-1){ - im_free(&im); - return -1; + im_free(&im); + return -1; } /* The image is generated and needs to be output. @@ -3060,26 +3060,26 @@ rrd_graph(int argc, char **argv, char ***prdata, int *xsize, int *ysize, FILE *s *ymin=im.minval; *ymax=im.maxval; if (im.imginfo) { - char *filename; - if (!(*prdata)) { - /* maybe prdata is not allocated yet ... lets do it now */ - if ((*prdata = calloc(2,sizeof(char *)))==NULL) { - rrd_set_error("malloc imginfo"); - return -1; - }; - } - if(((*prdata)[0] = malloc((strlen(im.imginfo)+200+strlen(im.graphfile))*sizeof(char))) - ==NULL){ - rrd_set_error("malloc imginfo"); - return -1; - } - filename=im.graphfile+strlen(im.graphfile); - while(filename > im.graphfile) { - if (*(filename-1)=='/' || *(filename-1)=='\\' ) break; - filename--; - } - - sprintf((*prdata)[0],im.imginfo,filename,(long)(im.canvas->zoom*im.ximg),(long)(im.canvas->zoom*im.yimg)); + char *filename; + if (!(*prdata)) { + /* maybe prdata is not allocated yet ... lets do it now */ + if ((*prdata = calloc(2,sizeof(char *)))==NULL) { + rrd_set_error("malloc imginfo"); + return -1; + }; + } + if(((*prdata)[0] = malloc((strlen(im.imginfo)+200+strlen(im.graphfile))*sizeof(char))) + ==NULL){ + rrd_set_error("malloc imginfo"); + return -1; + } + filename=im.graphfile+strlen(im.graphfile); + while(filename > im.graphfile) { + if (*(filename-1)=='/' || *(filename-1)=='\\' ) break; + filename--; + } + + sprintf((*prdata)[0],im.imginfo,filename,(long)(im.canvas->zoom*im.ximg),(long)(im.canvas->zoom*im.yimg)); } im_free(&im); return 0; @@ -3143,14 +3143,14 @@ rrd_graph_init(image_desc_t *im) #if defined(_WIN32) && !defined(__CYGWIN__) && !defined(__CYGWIN32__) { char *windir; - char rrd_win_default_font[1000]; + char rrd_win_default_font[1000]; windir = getenv("windir"); /* %windir% is something like D:\windows or C:\winnt */ if (windir != NULL) { strncpy(rrd_win_default_font,windir,500); rrd_win_default_font[500] = '\0'; strcat(rrd_win_default_font,"\\fonts\\"); - strcat(rrd_win_default_font,RRD_DEFAULT_FONT); + strcat(rrd_win_default_font,RRD_DEFAULT_FONT); for(i=0;iextra_flags |= NOMINOR; break; - case 'Y': - im->extra_flags |= ALTYGRID; - break; - case 'A': - im->extra_flags |= ALTAUTOSCALE; - break; - case 'M': - im->extra_flags |= ALTAUTOSCALE_MAX; - break; + case 'Y': + im->extra_flags |= ALTYGRID; + break; + case 'A': + im->extra_flags |= ALTAUTOSCALE; + break; + case 'M': + im->extra_flags |= ALTAUTOSCALE_MAX; + break; case 'j': im->extra_flags |= ONLY_GRAPH; break; - case 'g': - im->extra_flags |= NOLEGEND; - break; - case 'F': - im->extra_flags |= FORCE_RULES_LEGEND; - break; - case LONGOPT_UNITS_SI: - if(im->extra_flags & FORCE_UNITS) { - rrd_set_error("--units can only be used once!"); - return; - } - if(strcmp(optarg,"si")==0) - im->extra_flags |= FORCE_UNITS_SI; - else { - rrd_set_error("invalid argument for --units: %s", optarg ); - return; - } - break; - case 'X': - im->unitsexponent = atoi(optarg); - break; - case 'L': - im->unitslength = atoi(optarg); + case 'g': + im->extra_flags |= NOLEGEND; + break; + case 'F': + im->extra_flags |= FORCE_RULES_LEGEND; + break; + case LONGOPT_UNITS_SI: + if(im->extra_flags & FORCE_UNITS) { + rrd_set_error("--units can only be used once!"); + return; + } + if(strcmp(optarg,"si")==0) + im->extra_flags |= FORCE_UNITS_SI; + else { + rrd_set_error("invalid argument for --units: %s", optarg ); + return; + } + break; + case 'X': + im->unitsexponent = atoi(optarg); + break; + case 'L': + im->unitslength = atoi(optarg); im->forceleftspace = 1; - break; - case 'T': - im->tabwidth = atof(optarg); - break; - case 'S': - im->step = atoi(optarg); - break; - case 'N': - im->gridfit = 0; - break; - case 's': - if ((parsetime_error = parsetime(optarg, &start_tv))) { - rrd_set_error( "start time: %s", parsetime_error ); - return; - } - break; - case 'e': - if ((parsetime_error = parsetime(optarg, &end_tv))) { - rrd_set_error( "end time: %s", parsetime_error ); - return; - } - break; - case 'x': - if(strcmp(optarg,"none") == 0){ - im->draw_x_grid=0; - break; - }; - - if(sscanf(optarg, - "%10[A-Z]:%ld:%10[A-Z]:%ld:%10[A-Z]:%ld:%ld:%n", - scan_gtm, - &im->xlab_user.gridst, - scan_mtm, - &im->xlab_user.mgridst, - scan_ltm, - &im->xlab_user.labst, - &im->xlab_user.precis, - &stroff) == 7 && stroff != 0){ + break; + case 'T': + im->tabwidth = atof(optarg); + break; + case 'S': + im->step = atoi(optarg); + break; + case 'N': + im->gridfit = 0; + break; + case 's': + if ((parsetime_error = parsetime(optarg, &start_tv))) { + rrd_set_error( "start time: %s", parsetime_error ); + return; + } + break; + case 'e': + if ((parsetime_error = parsetime(optarg, &end_tv))) { + rrd_set_error( "end time: %s", parsetime_error ); + return; + } + break; + case 'x': + if(strcmp(optarg,"none") == 0){ + im->draw_x_grid=0; + break; + }; + + if(sscanf(optarg, + "%10[A-Z]:%ld:%10[A-Z]:%ld:%10[A-Z]:%ld:%ld:%n", + scan_gtm, + &im->xlab_user.gridst, + scan_mtm, + &im->xlab_user.mgridst, + scan_ltm, + &im->xlab_user.labst, + &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; - } else if ((int)(im->xlab_user.mgridtm = tmt_conv(scan_mtm)) == -1){ - rrd_set_error("unknown keyword %s",scan_mtm); - return; - } else if ((int)(im->xlab_user.labtm = tmt_conv(scan_ltm)) == -1){ - rrd_set_error("unknown keyword %s",scan_ltm); - return; - } - im->xlab_user.minsec = 1; - im->xlab_user.stst = im->xlab_form; - } else { - rrd_set_error("invalid x-grid format"); - return; - } - break; - case 'y': - - if(strcmp(optarg,"none") == 0){ - im->draw_y_grid=0; - break; - }; - - if(sscanf(optarg, - "%lf:%d", - &im->ygridstep, - &im->ylabfact) == 2) { - if(im->ygridstep<=0){ - rrd_set_error("grid step must be > 0"); - return; - } else if (im->ylabfact < 1){ - rrd_set_error("label factor must be > 0"); - return; - } - } else { - rrd_set_error("invalid y-grid format"); - return; - } - break; - case 'v': - strncpy(im->ylegend,optarg,150); - im->ylegend[150]='\0'; - break; - case 'u': - im->maxval = atof(optarg); - break; - case 'l': - im->minval = atof(optarg); - break; - case 'b': - im->base = atol(optarg); - if(im->base != 1024 && im->base != 1000 ){ - rrd_set_error("the only sensible value for base apart from 1000 is 1024"); - return; - } - break; - case 'w': - long_tmp = atol(optarg); - if (long_tmp < 10) { - rrd_set_error("width below 10 pixels"); - return; - } - im->xsize = long_tmp; - break; - case 'h': - long_tmp = atol(optarg); - if (long_tmp < 10) { - rrd_set_error("height below 10 pixels"); - return; - } - im->ysize = long_tmp; - break; - case 'i': - im->canvas->interlaced = 1; - break; - case 'r': - im->rigid = 1; - break; - case 'f': - im->imginfo = optarg; - break; - case 'a': - if((int)(im->canvas->imgformat = if_conv(optarg)) == -1) { - rrd_set_error("unsupported graphics format '%s'",optarg); - return; - } - break; - case 'z': - im->lazy = 1; - break; - case 'E': - im->slopemode = 1; - break; - - case 'o': - im->logarithmic = 1; - break; + 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; + } else if ((int)(im->xlab_user.mgridtm = tmt_conv(scan_mtm)) == -1){ + rrd_set_error("unknown keyword %s",scan_mtm); + return; + } else if ((int)(im->xlab_user.labtm = tmt_conv(scan_ltm)) == -1){ + rrd_set_error("unknown keyword %s",scan_ltm); + return; + } + im->xlab_user.minsec = 1; + im->xlab_user.stst = im->xlab_form; + } else { + rrd_set_error("invalid x-grid format"); + return; + } + break; + case 'y': + + if(strcmp(optarg,"none") == 0){ + im->draw_y_grid=0; + break; + }; + + if(sscanf(optarg, + "%lf:%d", + &im->ygridstep, + &im->ylabfact) == 2) { + if(im->ygridstep<=0){ + rrd_set_error("grid step must be > 0"); + return; + } else if (im->ylabfact < 1){ + rrd_set_error("label factor must be > 0"); + return; + } + } else { + rrd_set_error("invalid y-grid format"); + return; + } + break; + case 'v': + strncpy(im->ylegend,optarg,150); + im->ylegend[150]='\0'; + break; + case 'u': + im->maxval = atof(optarg); + break; + case 'l': + im->minval = atof(optarg); + break; + case 'b': + im->base = atol(optarg); + if(im->base != 1024 && im->base != 1000 ){ + rrd_set_error("the only sensible value for base apart from 1000 is 1024"); + return; + } + break; + case 'w': + long_tmp = atol(optarg); + if (long_tmp < 10) { + rrd_set_error("width below 10 pixels"); + return; + } + im->xsize = long_tmp; + break; + case 'h': + long_tmp = atol(optarg); + if (long_tmp < 10) { + rrd_set_error("height below 10 pixels"); + return; + } + im->ysize = long_tmp; + break; + case 'i': + im->canvas->interlaced = 1; + break; + case 'r': + im->rigid = 1; + break; + case 'f': + im->imginfo = optarg; + break; + case 'a': + if((int)(im->canvas->imgformat = if_conv(optarg)) == -1) { + rrd_set_error("unsupported graphics format '%s'",optarg); + return; + } + break; + case 'z': + im->lazy = 1; + break; + case 'E': + im->slopemode = 1; + break; + + case 'o': + im->logarithmic = 1; + break; case 'c': if(sscanf(optarg, "%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; - } + 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; + return; } } else { rrd_set_error("invalid color def format"); @@ -3468,76 +3468,76 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) } break; case 'n':{ - char prop[15]; - double size = 1; - char font[1024] = ""; - - if(sscanf(optarg, - "%10[A-Z]:%lf:%1000s", - prop,&size,font) >= 2){ - int sindex,propidx; - if((sindex=text_prop_conv(prop)) != -1){ - for (propidx=sindex;propidx 0){ - im->text_prop[propidx].size=size; + char prop[15]; + double size = 1; + char font[1024] = ""; + + if(sscanf(optarg, + "%10[A-Z]:%lf:%1000s", + prop,&size,font) >= 2){ + int sindex,propidx; + if((sindex=text_prop_conv(prop)) != -1){ + for (propidx=sindex;propidx 0){ + im->text_prop[propidx].size=size; } - if (strlen(font) > 0){ - strcpy(im->text_prop[propidx].font,font); + 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; - } - } else { - rrd_set_error("invalid text property format"); - return; - } - break; - } + } else { + rrd_set_error("invalid fonttag '%s'",prop); + return; + } + } else { + rrd_set_error("invalid text property format"); + return; + } + break; + } case 'm': - im->canvas->zoom = atof(optarg); - if (im->canvas->zoom <= 0.0) { - rrd_set_error("zoom factor must be > 0"); - return; - } + im->canvas->zoom = atof(optarg); + if (im->canvas->zoom <= 0.0) { + rrd_set_error("zoom factor must be > 0"); + return; + } break; - case 't': - strncpy(im->title,optarg,150); - 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 't': + strncpy(im->title,optarg,150); + 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 'W': strncpy(im->watermark,optarg,100); im->watermark[99]='\0'; break; - case '?': + case '?': if (optopt != 0) rrd_set_error("unknown option '%c'", optopt); else rrd_set_error("unknown option '%s'",argv[optind-1]); return; - } + } } if (optind >= argc) { @@ -3546,24 +3546,24 @@ rrd_graph_options(int argc, char *argv[],image_desc_t *im) } if (im->logarithmic == 1 && im->minval <= 0){ - rrd_set_error("for a logarithmic yaxis you must specify a lower-limit > 0"); - return; + rrd_set_error("for a logarithmic yaxis you must specify a lower-limit > 0"); + return; } if (proc_start_end(&start_tv,&end_tv,&start_tmp,&end_tmp) == -1){ - /* error string is set in parsetime.c */ - return; + /* error string is set in parsetime.c */ + return; } if (start_tmp < 3600*24*365*10){ - rrd_set_error("the first entry to fetch should be after 1980 (%ld)",start_tmp); - return; + rrd_set_error("the first entry to fetch should be after 1980 (%ld)",start_tmp); + return; } if (end_tmp < start_tmp) { - rrd_set_error("start (%ld) should be less than end (%ld)", - start_tmp, end_tmp); - return; + rrd_set_error("start (%ld) should be less than end (%ld)", + start_tmp, end_tmp); + return; } im->start = start_tmp; @@ -3579,37 +3579,37 @@ rrd_graph_color(image_desc_t *im, char *var, char *err, int optional) color=strstr(var,"#"); if (color==NULL) { - if (optional==0) { - rrd_set_error("Found no color in %s",err); - return 0; - } - return 0; + if (optional==0) { + rrd_set_error("Found no color in %s",err); + return 0; + } + return 0; } else { - int n=0; - char *rest; - gfx_color_t col; - - rest=strstr(color,":"); - if (rest!=NULL) - n=rest-color; - else - n=strlen(color); - - switch (n) { - case 7: - sscanf(color,"#%6lx%n",&col,&n); + int n=0; + char *rest; + gfx_color_t col; + + rest=strstr(color,":"); + if (rest!=NULL) + n=rest-color; + else + n=strlen(color); + + switch (n) { + case 7: + sscanf(color,"#%6lx%n",&col,&n); col = (col << 8) + 0xff /* shift left by 8 */; - if (n!=7) rrd_set_error("Color problem in %s",err); - break; - case 9: - sscanf(color,"#%8lx%n",&col,&n); - if (n==9) break; - default: - rrd_set_error("Color problem in %s",err); - } - if (rrd_test_error()) return 0; - gdp->col = col; - return n; + if (n!=7) rrd_set_error("Color problem in %s",err); + break; + case 9: + sscanf(color,"#%8lx%n",&col,&n); + if (n==9) break; + default: + rrd_set_error("Color problem in %s",err); + } + if (rrd_test_error()) return 0; + gdp->col = col; + return n; } } @@ -3628,10 +3628,10 @@ int bad_format(char *fmt) { if (*ptr == 's' || *ptr == 'S' || *ptr == '%') ptr++; /* %c is allowed (but use only with vdef!) */ - else if (*ptr == 'c') { - ptr++; - n=1; - } + else if (*ptr == 'c') { + ptr++; + n=1; + } /* or else '% 6.2lf' and such are allowed */ else { @@ -3663,87 +3663,87 @@ const char *const str; /* A VDEF currently is either "func" or "param,func" * so the parsing is rather simple. Change if needed. */ - double param; - char func[30]; - int n; + double param; + char func[30]; + int n; n=0; sscanf(str,"%le,%29[A-Z]%n",¶m,func,&n); if (n== (int)strlen(str)) { /* matched */ - ; + ; } else { - n=0; - sscanf(str,"%29[A-Z]%n",func,&n); - if (n== (int)strlen(str)) { /* matched */ - param=DNAN; - } else { - rrd_set_error("Unknown function string '%s' in VDEF '%s'" - ,str - ,gdes->vname - ); - return -1; - } - } - if (!strcmp("PERCENT",func)) gdes->vf.op = VDEF_PERCENT; - else if (!strcmp("MAXIMUM",func)) gdes->vf.op = VDEF_MAXIMUM; - else if (!strcmp("AVERAGE",func)) gdes->vf.op = VDEF_AVERAGE; - else if (!strcmp("MINIMUM",func)) gdes->vf.op = VDEF_MINIMUM; - else if (!strcmp("TOTAL", func)) gdes->vf.op = VDEF_TOTAL; - else if (!strcmp("FIRST", func)) gdes->vf.op = VDEF_FIRST; - else if (!strcmp("LAST", func)) gdes->vf.op = VDEF_LAST; + n=0; + sscanf(str,"%29[A-Z]%n",func,&n); + if (n== (int)strlen(str)) { /* matched */ + param=DNAN; + } else { + rrd_set_error("Unknown function string '%s' in VDEF '%s'" + ,str + ,gdes->vname + ); + return -1; + } + } + if (!strcmp("PERCENT",func)) gdes->vf.op = VDEF_PERCENT; + else if (!strcmp("MAXIMUM",func)) gdes->vf.op = VDEF_MAXIMUM; + else if (!strcmp("AVERAGE",func)) gdes->vf.op = VDEF_AVERAGE; + else if (!strcmp("MINIMUM",func)) gdes->vf.op = VDEF_MINIMUM; + else if (!strcmp("TOTAL", func)) gdes->vf.op = VDEF_TOTAL; + else if (!strcmp("FIRST", func)) gdes->vf.op = VDEF_FIRST; + else if (!strcmp("LAST", func)) gdes->vf.op = VDEF_LAST; else if (!strcmp("LSLSLOPE", func)) gdes->vf.op = VDEF_LSLSLOPE; else if (!strcmp("LSLINT", func)) gdes->vf.op = VDEF_LSLINT; else if (!strcmp("LSLCORREL",func)) gdes->vf.op = VDEF_LSLCORREL; else { - rrd_set_error("Unknown function '%s' in VDEF '%s'\n" - ,func - ,gdes->vname - ); - return -1; + rrd_set_error("Unknown function '%s' in VDEF '%s'\n" + ,func + ,gdes->vname + ); + return -1; }; switch (gdes->vf.op) { - case VDEF_PERCENT: - if (isnan(param)) { /* no parameter given */ - rrd_set_error("Function '%s' needs parameter in VDEF '%s'\n" - ,func - ,gdes->vname - ); - return -1; - }; - if (param>=0.0 && param<=100.0) { - gdes->vf.param = param; - gdes->vf.val = DNAN; /* undefined */ - gdes->vf.when = 0; /* undefined */ - } else { - rrd_set_error("Parameter '%f' out of range in VDEF '%s'\n" - ,param - ,gdes->vname - ); - return -1; - }; - break; - case VDEF_MAXIMUM: - case VDEF_AVERAGE: - case VDEF_MINIMUM: - case VDEF_TOTAL: - case VDEF_FIRST: - case VDEF_LAST: - case VDEF_LSLSLOPE: - case VDEF_LSLINT: - case VDEF_LSLCORREL: - if (isnan(param)) { - gdes->vf.param = DNAN; - gdes->vf.val = DNAN; - gdes->vf.when = 0; - } else { - rrd_set_error("Function '%s' needs no parameter in VDEF '%s'\n" - ,func - ,gdes->vname - ); - return -1; - }; - break; + case VDEF_PERCENT: + if (isnan(param)) { /* no parameter given */ + rrd_set_error("Function '%s' needs parameter in VDEF '%s'\n" + ,func + ,gdes->vname + ); + return -1; + }; + if (param>=0.0 && param<=100.0) { + gdes->vf.param = param; + gdes->vf.val = DNAN; /* undefined */ + gdes->vf.when = 0; /* undefined */ + } else { + rrd_set_error("Parameter '%f' out of range in VDEF '%s'\n" + ,param + ,gdes->vname + ); + return -1; + }; + break; + case VDEF_MAXIMUM: + case VDEF_AVERAGE: + case VDEF_MINIMUM: + case VDEF_TOTAL: + case VDEF_FIRST: + case VDEF_LAST: + case VDEF_LSLSLOPE: + case VDEF_LSLINT: + case VDEF_LSLCORREL: + if (isnan(param)) { + gdes->vf.param = DNAN; + gdes->vf.val = DNAN; + gdes->vf.when = 0; + } else { + rrd_set_error("Function '%s' needs no parameter in VDEF '%s'\n" + ,func + ,gdes->vname + ); + return -1; + }; + break; }; return 0; } @@ -3754,9 +3754,9 @@ vdef_calc(im,gdi) image_desc_t *im; int gdi; { - graph_desc_t *src,*dst; - rrd_value_t *data; - long step,steps; + graph_desc_t *src,*dst; + rrd_value_t *data; + long step,steps; dst = &im->gdes[gdi]; src = &im->gdes[dst->vidx]; @@ -3772,166 +3772,166 @@ printf("DEBUG: start == %lu, end == %lu, %lu steps\n" #endif switch (dst->vf.op) { - case VDEF_PERCENT: { - rrd_value_t * array; - int field; - - - if ((array = malloc(steps*sizeof(double)))==NULL) { - rrd_set_error("malloc VDEV_PERCENT"); - return -1; - } - for (step=0;step < steps; step++) { - array[step]=data[step*src->ds_cnt]; - } - qsort(array,step,sizeof(double),vdef_percent_compar); - - field = (steps-1)*dst->vf.param/100; - dst->vf.val = array[field]; - dst->vf.when = 0; /* no time component */ - free(array); + case VDEF_PERCENT: { + rrd_value_t * array; + int field; + + + if ((array = malloc(steps*sizeof(double)))==NULL) { + rrd_set_error("malloc VDEV_PERCENT"); + return -1; + } + for (step=0;step < steps; step++) { + array[step]=data[step*src->ds_cnt]; + } + qsort(array,step,sizeof(double),vdef_percent_compar); + + field = (steps-1)*dst->vf.param/100; + dst->vf.val = array[field]; + dst->vf.when = 0; /* no time component */ + free(array); #if 0 for(step=0;stepds_cnt])) step++; - if (step == steps) { - dst->vf.val = DNAN; - dst->vf.when = 0; - } else { - dst->vf.val = data[step*src->ds_cnt]; - dst->vf.when = src->start + (step+1)*src->step; - } - while (step != steps) { - if (finite(data[step*src->ds_cnt])) { - if (data[step*src->ds_cnt] > dst->vf.val) { - dst->vf.val = data[step*src->ds_cnt]; - dst->vf.when = src->start + (step+1)*src->step; - } - } - step++; - } - break; - case VDEF_TOTAL: - case VDEF_AVERAGE: { - int cnt=0; - double sum=0.0; - for (step=0;stepds_cnt])) { - sum += data[step*src->ds_cnt]; - cnt ++; - }; - } - if (cnt) { - if (dst->vf.op == VDEF_TOTAL) { - dst->vf.val = sum*src->step; - dst->vf.when = 0; /* no time component */ - } else { - dst->vf.val = sum/cnt; - dst->vf.when = 0; /* no time component */ - }; - } else { - dst->vf.val = DNAN; - dst->vf.when = 0; - } - } - break; - case VDEF_MINIMUM: - step=0; - while (step != steps && isnan(data[step*src->ds_cnt])) step++; - if (step == steps) { - dst->vf.val = DNAN; - dst->vf.when = 0; - } else { - dst->vf.val = data[step*src->ds_cnt]; - dst->vf.when = src->start + (step+1)*src->step; - } - while (step != steps) { - if (finite(data[step*src->ds_cnt])) { - if (data[step*src->ds_cnt] < dst->vf.val) { - dst->vf.val = data[step*src->ds_cnt]; - dst->vf.when = src->start + (step+1)*src->step; - } - } - step++; - } - break; - case VDEF_FIRST: - /* The time value returned here is one step before the - * actual time value. This is the start of the first - * non-NaN interval. - */ - step=0; - while (step != steps && isnan(data[step*src->ds_cnt])) step++; - if (step == steps) { /* all entries were NaN */ - dst->vf.val = DNAN; - dst->vf.when = 0; - } else { - dst->vf.val = data[step*src->ds_cnt]; - dst->vf.when = src->start + step*src->step; - } - break; - case VDEF_LAST: - /* The time value returned here is the - * actual time value. This is the end of the last - * non-NaN interval. - */ - step=steps-1; - while (step >= 0 && isnan(data[step*src->ds_cnt])) step--; - if (step < 0) { /* all entries were NaN */ - dst->vf.val = DNAN; - dst->vf.when = 0; - } else { - dst->vf.val = data[step*src->ds_cnt]; - dst->vf.when = src->start + (step+1)*src->step; - } - break; - case VDEF_LSLSLOPE: - case VDEF_LSLINT: - case VDEF_LSLCORREL:{ - /* Bestfit line by linear least squares method */ - - int cnt=0; - double SUMx, SUMy, SUMxy, SUMxx, SUMyy, slope, y_intercept, correl ; - SUMx = 0; SUMy = 0; SUMxy = 0; SUMxx = 0; SUMyy = 0; - - for (step=0;stepds_cnt])) { - cnt++; - SUMx += step; - SUMxx += step * step; - SUMxy += step * data[step*src->ds_cnt]; - SUMy += data[step*src->ds_cnt]; - SUMyy += data[step*src->ds_cnt]*data[step*src->ds_cnt]; - }; - } - - slope = ( SUMx*SUMy - cnt*SUMxy ) / ( SUMx*SUMx - cnt*SUMxx ); - y_intercept = ( SUMy - slope*SUMx ) / cnt; - correl = (SUMxy - (SUMx*SUMy)/cnt) / sqrt((SUMxx - (SUMx*SUMx)/cnt)*(SUMyy - (SUMy*SUMy)/cnt)); - - if (cnt) { - if (dst->vf.op == VDEF_LSLSLOPE) { - dst->vf.val = slope; - dst->vf.when = 0; - } else if (dst->vf.op == VDEF_LSLINT) { - dst->vf.val = y_intercept; - dst->vf.when = 0; - } else if (dst->vf.op == VDEF_LSLCORREL) { - dst->vf.val = correl; - dst->vf.when = 0; - }; - - } else { - dst->vf.val = DNAN; - dst->vf.when = 0; - } - } - break; + } + break; + case VDEF_MAXIMUM: + step=0; + while (step != steps && isnan(data[step*src->ds_cnt])) step++; + if (step == steps) { + dst->vf.val = DNAN; + dst->vf.when = 0; + } else { + dst->vf.val = data[step*src->ds_cnt]; + dst->vf.when = src->start + (step+1)*src->step; + } + while (step != steps) { + if (finite(data[step*src->ds_cnt])) { + if (data[step*src->ds_cnt] > dst->vf.val) { + dst->vf.val = data[step*src->ds_cnt]; + dst->vf.when = src->start + (step+1)*src->step; + } + } + step++; + } + break; + case VDEF_TOTAL: + case VDEF_AVERAGE: { + int cnt=0; + double sum=0.0; + for (step=0;stepds_cnt])) { + sum += data[step*src->ds_cnt]; + cnt ++; + }; + } + if (cnt) { + if (dst->vf.op == VDEF_TOTAL) { + dst->vf.val = sum*src->step; + dst->vf.when = 0; /* no time component */ + } else { + dst->vf.val = sum/cnt; + dst->vf.when = 0; /* no time component */ + }; + } else { + dst->vf.val = DNAN; + dst->vf.when = 0; + } + } + break; + case VDEF_MINIMUM: + step=0; + while (step != steps && isnan(data[step*src->ds_cnt])) step++; + if (step == steps) { + dst->vf.val = DNAN; + dst->vf.when = 0; + } else { + dst->vf.val = data[step*src->ds_cnt]; + dst->vf.when = src->start + (step+1)*src->step; + } + while (step != steps) { + if (finite(data[step*src->ds_cnt])) { + if (data[step*src->ds_cnt] < dst->vf.val) { + dst->vf.val = data[step*src->ds_cnt]; + dst->vf.when = src->start + (step+1)*src->step; + } + } + step++; + } + break; + case VDEF_FIRST: + /* The time value returned here is one step before the + * actual time value. This is the start of the first + * non-NaN interval. + */ + step=0; + while (step != steps && isnan(data[step*src->ds_cnt])) step++; + if (step == steps) { /* all entries were NaN */ + dst->vf.val = DNAN; + dst->vf.when = 0; + } else { + dst->vf.val = data[step*src->ds_cnt]; + dst->vf.when = src->start + step*src->step; + } + break; + case VDEF_LAST: + /* The time value returned here is the + * actual time value. This is the end of the last + * non-NaN interval. + */ + step=steps-1; + while (step >= 0 && isnan(data[step*src->ds_cnt])) step--; + if (step < 0) { /* all entries were NaN */ + dst->vf.val = DNAN; + dst->vf.when = 0; + } else { + dst->vf.val = data[step*src->ds_cnt]; + dst->vf.when = src->start + (step+1)*src->step; + } + break; + case VDEF_LSLSLOPE: + case VDEF_LSLINT: + case VDEF_LSLCORREL:{ + /* Bestfit line by linear least squares method */ + + int cnt=0; + double SUMx, SUMy, SUMxy, SUMxx, SUMyy, slope, y_intercept, correl ; + SUMx = 0; SUMy = 0; SUMxy = 0; SUMxx = 0; SUMyy = 0; + + for (step=0;stepds_cnt])) { + cnt++; + SUMx += step; + SUMxx += step * step; + SUMxy += step * data[step*src->ds_cnt]; + SUMy += data[step*src->ds_cnt]; + SUMyy += data[step*src->ds_cnt]*data[step*src->ds_cnt]; + }; + } + + slope = ( SUMx*SUMy - cnt*SUMxy ) / ( SUMx*SUMx - cnt*SUMxx ); + y_intercept = ( SUMy - slope*SUMx ) / cnt; + correl = (SUMxy - (SUMx*SUMy)/cnt) / sqrt((SUMxx - (SUMx*SUMx)/cnt)*(SUMyy - (SUMy*SUMy)/cnt)); + + if (cnt) { + if (dst->vf.op == VDEF_LSLSLOPE) { + dst->vf.val = slope; + dst->vf.when = 0; + } else if (dst->vf.op == VDEF_LSLINT) { + dst->vf.val = y_intercept; + dst->vf.when = 0; + } else if (dst->vf.op == VDEF_LSLCORREL) { + dst->vf.val = correl; + dst->vf.when = 0; + }; + + } else { + dst->vf.val = DNAN; + dst->vf.when = 0; + } + } + break; } return 0; }