#endif
#include "rrd_graph.h"
-#include "rrd_graph_helper.h"
/* some constant definitions */
-#ifndef RRD_DEFAULT_FONT
#ifdef WIN32
-#define RRD_DEFAULT_FONT "c:/winnt/fonts/COUR.TTF"
-#else
-#define RRD_DEFAULT_FONT "/usr/share/fonts/truetype/openoffice/ariosor.ttf"
+char rrd_win_default_font[80];
+#endif
+
+#ifndef RRD_DEFAULT_FONT
+#ifndef WIN32
+#define RRD_DEFAULT_FONT "VeraMono.ttf"
+/* #define RRD_DEFAULT_FONT "/usr/share/fonts/truetype/openoffice/ariosor.ttf" */
/* #define RRD_DEFAULT_FONT "/usr/share/fonts/truetype/Arial.ttf" */
#endif
#endif
-
text_prop_t text_prop[] = {
{ 10.0, RRD_DEFAULT_FONT }, /* default */
{ 12.0, RRD_DEFAULT_FONT }, /* title */
#undef conv_if
-
-
int
im_free(image_desc_t *im)
{
- long i,ii;
+ unsigned long i,ii;
+
if (im == NULL) return 0;
- for(i=0;i<im->gdes_c;i++){
+ 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);
relevant rrds ... */
int
-data_fetch( image_desc_t *im )
+data_fetch(image_desc_t *im )
{
- int i,ii;
+ unsigned int i,ii;
int skip;
/* pull the data from the log files ... */
* resulting data source.
*/
for(rpi=0;im->gdes[gdi].rpnp[rpi].op != OP_END;rpi++){
- if(im->gdes[gdi].rpnp[rpi].op == OP_VARIABLE){
+ 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) {
#if 0
-printf("DEBUG: inside CDEF '%s' processing VDEF '%s'\n",
+ 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: value from vdef is %f\n",im->gdes[ptr].vf.val);
#endif
im->gdes[gdi].rpnp[rpi].val = im->gdes[ptr].vf.val;
im->gdes[gdi].rpnp[rpi].op = OP_NUMBER;
} else {
- if ((steparray = rrd_realloc(steparray, (++stepcnt+1)*sizeof(*steparray)))==NULL){
+ if ((steparray =
+ rrd_realloc(steparray,
+ (++stepcnt+1)*sizeof(*steparray)))==NULL){
rrd_set_error("realloc steparray");
rpnstack_free(&rpnstack);
return -1;
/* 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){
+ if(im->gdes[gdi].rpnp[rpi].op == OP_VARIABLE ||
+ im->gdes[gdi].rpnp[rpi].op == OP_PREV_OTHER){
long ptr = im->gdes[gdi].rpnp[rpi].ptr;
if(im->gdes[gdi].start > im->gdes[ptr].start) {
im->gdes[gdi].rpnp[rpi].data += im->gdes[gdi].rpnp[rpi].ds_cnt;
unsigned long gr_time;
/* memory for the processed data */
- for(i=0;i<im->gdes_c;i++){
- if((im->gdes[i].gf==GF_LINE) ||
- (im->gdes[i].gf==GF_AREA) ||
- (im->gdes[i].gf==GF_TICK) ||
- (im->gdes[i].gf==GF_STACK)){
- if((im->gdes[i].p_data = malloc((im->xsize +1)
+ for(i=0;i<im->gdes_c;i++) {
+ if((im->gdes[i].gf==GF_LINE) ||
+ (im->gdes[i].gf==GF_AREA) ||
+ (im->gdes[i].gf==GF_TICK) ||
+ (im->gdes[i].gf==GF_STACK)) {
+ if((im->gdes[i].p_data = malloc((im->xsize +1)
* sizeof(rrd_value_t)))==NULL){
- rrd_set_error("malloc data_proc");
- return -1;
+ rrd_set_error("malloc data_proc");
+ return -1;
+ }
}
- }
}
-
- for(i=0;i<im->xsize;i++){
+
+ for (i=0;i<im->xsize;i++) { /* for each pixel */
long vidx;
- gr_time = im->start+pixstep*i; /* time of the
- current step */
+ gr_time = im->start+pixstep*i; /* time of the current step */
paintval=0.0;
- for(ii=0;ii<im->gdes_c;ii++){
- double value;
- switch(im->gdes[ii].gf){
- case GF_LINE:
- case GF_AREA:
+ for (ii=0;ii<im->gdes_c;ii++) {
+ double value;
+ switch (im->gdes[ii].gf) {
+ case GF_LINE:
+ case GF_AREA:
case GF_TICK:
- paintval = 0.0;
- case GF_STACK:
- vidx = im->gdes[ii].vidx;
-
- 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];
-
- 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)
- minval = paintval;
- if (isnan(maxval) || paintval > maxval)
- maxval = paintval;
- }
- } else {
- im->gdes[ii].p_data[i] = DNAN;
- }
- break;
- case GF_PRINT:
- case GF_GPRINT:
- case GF_COMMENT:
- case GF_HRULE:
- case GF_VRULE:
- case GF_DEF:
- case GF_CDEF:
- case GF_VDEF:
- case GF_PART:
- case GF_XPORT:
- break;
+ if (!im->gdes[ii].stack)
+ paintval = 0.0;
+ case GF_STACK:
+ 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 ( (gr_time >= im->gdes[vidx].start) &&
+ (gr_time <= 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)
+ minval = paintval;
+ if (isnan(maxval) || paintval > maxval)
+ maxval = paintval;
+ }
+ } else {
+ im->gdes[ii].p_data[i] = DNAN;
+ }
+ break;
+ default:
+ break;
}
}
}
/* adjust min and max values */
if (isnan(im->minval)
- || ((!im->logarithmic && !im->rigid) /* don't adjust low-end with log scale */
- && im->minval > minval))
+ /* don't adjust low-end with log scale */
+ || ((!im->logarithmic && !im->rigid) && im->minval > minval)
+ )
im->minval = minval;
if (isnan(im->maxval)
- || (!im->rigid
- && im->maxval < maxval)){
+ || (!im->rigid && im->maxval < maxval)
+ ) {
if (im->logarithmic)
im->maxval = maxval * 1.1;
else
im->maxval = maxval;
}
+ /* make sure min is smaller than max */
+ if (im->minval > im->maxval) {
+ im->minval = 0.99 * im->maxval;
+ }
+
/* 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 *= 1.01;
+ 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;
}
)
{
struct tm tm;
- tm = *localtime(&start);
+ localtime_r(&start, &tm);
switch(baseint){
case TMT_SECOND:
tm.tm_sec -= tm.tm_sec % basestep; break;
{
struct tm tm;
time_t madetime;
- tm = *localtime(¤t);
+ localtime_r(¤t, &tm);
do {
switch(baseint){
case TMT_SECOND:
} /* prepare printval */
if (!strcmp(im->gdes[i].format,"%c")) { /* VDEF time print */
+ char ctime_buf[128]; /* PS: for ctime_r, must be >= 26 chars */
if (im->gdes[i].gf == GF_PRINT){
(*prdata)[prlines-2] = malloc((FMT_LEG_LEN+2)*sizeof(char));
sprintf((*prdata)[prlines-2],"%s (%lu)",
- ctime(&printtime),printtime);
+ ctime_r(&printtime,ctime_buf),printtime);
(*prdata)[prlines-1] = NULL;
} else {
sprintf(im->gdes[i].legend,"%s (%lu)",
- ctime(&printtime),printtime);
+ ctime_r(&printtime,ctime_buf),printtime);
graphelement = 1;
}
} else {
if (im->gdes[i].gf == GF_PRINT){
(*prdata)[prlines-2] = malloc((FMT_LEG_LEN+2)*sizeof(char));
+ (*prdata)[prlines-1] = NULL;
if (bad_format(im->gdes[i].format)) {
rrd_set_error("bad format for [G]PRINT in '%s'", im->gdes[i].format);
return -1;
#else
sprintf((*prdata)[prlines-2],im->gdes[i].format,printval,si_symb);
#endif
- (*prdata)[prlines-1] = NULL;
} else {
/* GF_GPRINT */
for(i=0;i<im->gdes_c;i++){
fill_last = fill;
+
+ /* hid legends for rules which are not displayed */
+
+ 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);
im->text_prop[TEXT_PROP_LEGEND].font,
im->text_prop[TEXT_PROP_LEGEND].size,
im->tabwidth,
- im->gdes[i].legend);
+ im->gdes[i].legend, 0);
leg_c++;
} else {
legspace[i]=0;
im->text_prop[TEXT_PROP_LEGEND].font,
im->text_prop[TEXT_PROP_LEGEND].size,
im->tabwidth,
- im->gdes[ii].legend)
+ im->gdes[ii].legend, 0)
+ legspace[ii]
+ glue;
if (im->gdes[ii].gf != GF_GPRINT &&
MGRIDWIDTH, im->graph_col[GRC_MGRID],
im->grid_dash_on, im->grid_dash_off);
- } else {
+ } else if (!(im->extra_flags & NOMINOR)) {
gfx_new_dashed_line ( im->canvas,
X0-1,Y0,
X1+1,Y0,
long factor;
char graph_label[100];
double X0,Y0,Y1; /* points for filled graph and more*/
-
+ struct tm tm;
/* the type of time grid is determined by finding
the number of seconds per pixel in the graph */
/* paint the minor grid */
- for(ti = find_first_time(im->start,
- im->xlab_user.gridtm,
- im->xlab_user.gridst),
- timajor = find_first_time(im->start,
- im->xlab_user.mgridtm,
- im->xlab_user.mgridst);
- ti < im->end;
- ti = find_next_time(ti,im->xlab_user.gridtm,im->xlab_user.gridst)
- ){
- /* are we inside the graph ? */
- if (ti < im->start || ti > im->end) continue;
- while (timajor < ti) {
- timajor = find_next_time(timajor,
- im->xlab_user.mgridtm, im->xlab_user.mgridst);
- }
- if (ti == timajor) continue; /* skip as falls on major grid line */
- X0 = xtr(im,ti);
- gfx_new_dashed_line(im->canvas,X0,Y0+1, X0,Y1-1,GRIDWIDTH,
- im->graph_col[GRC_GRID],
- im->grid_dash_on, im->grid_dash_off);
-
+ if (!(im->extra_flags & NOMINOR))
+ {
+ for(ti = find_first_time(im->start,
+ im->xlab_user.gridtm,
+ im->xlab_user.gridst),
+ timajor = find_first_time(im->start,
+ im->xlab_user.mgridtm,
+ im->xlab_user.mgridst);
+ ti < im->end;
+ ti = find_next_time(ti,im->xlab_user.gridtm,im->xlab_user.gridst)
+ ){
+ /* are we inside the graph ? */
+ if (ti < im->start || ti > im->end) continue;
+ while (timajor < ti) {
+ timajor = find_next_time(timajor,
+ im->xlab_user.mgridtm, im->xlab_user.mgridst);
+ }
+ if (ti == timajor) continue; /* skip as falls on major grid line */
+ X0 = xtr(im,ti);
+ gfx_new_dashed_line(im->canvas,X0,Y0+1, X0,Y1-1,GRIDWIDTH,
+ im->graph_col[GRC_GRID],
+ im->grid_dash_on, im->grid_dash_off);
+
+ }
}
/* paint the major grid */
if (ti < im->start || ti > im->end) continue;
#if HAVE_STRFTIME
- strftime(graph_label,99,im->xlab_user.stst,localtime(&tilab));
+ 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
}
/* yaxis description */
- if (im->canvas->imgformat != IF_PNG) {
+/* if (im->canvas->imgformat != IF_PNG) {*/
+ if (1) {
gfx_new_text( im->canvas,
7, (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, 270.0,
- GFX_H_CENTER, GFX_V_CENTER,
+ GFX_H_LEFT, GFX_V_CENTER,
im->ylegend);
} else {
/* horrible hack until we can actually print vertically */
for (n=0;n<strlen(im->ylegend);n++) {
s[0]=im->ylegend[n];
s[1]='\0';
- gfx_new_text(im->canvas,7,im->text_prop[TEXT_PROP_AXIS].size*(l-n),
+ gfx_new_text(im->canvas,7,im->text_prop[TEXT_PROP_AXIS].size*(n+1),
im->graph_col[GRC_FONT],
im->text_prop[TEXT_PROP_AXIS].font,
im->text_prop[TEXT_PROP_AXIS].size, im->tabwidth, 270.0,
boxH = gfx_get_text_width(im->canvas, 0,
im->text_prop[TEXT_PROP_AXIS].font,
im->text_prop[TEXT_PROP_AXIS].size,
- im->tabwidth,"M") * 1.25;
+ im->tabwidth,"M", 0) * 1.25;
boxV = boxH;
node = gfx_new_area(im->canvas,
im->text_prop[TEXT_PROP_TITLE].font,
im->text_prop[TEXT_PROP_TITLE].size,
im->tabwidth,
- im->title) + 2*Xspacing;
+ im->title, 0) + 2*Xspacing;
Ytitle = im->text_prop[TEXT_PROP_TITLE].size*2;
}
if (Xlegend > im->ximg) {
im->ximg = Xlegend;
/* reposition Pie */
+ }
#endif
/* The pie is placed in the upper right hand corner,
double areazero = 0.0;
enum gf_en stack_gf = GF_PRINT;
graph_desc_t *lastgdes = NULL;
-
+
/* if we are lazy and there is nothing to PRINT ... quit now */
if (lazy && im->prt_c==0) return 0;
-
+
/* pull the data from the rrd files ... */
if(data_fetch(im)==-1)
return -1;
-
+
/* evaluate VDEF and CDEF operations ... */
if(data_calc(im)==-1)
return -1;
&& ! isnan(im->gdes[i].p_data[ii])){
if (node == NULL){
float ybase = 0.0;
+/*
if (im->gdes[i].gf == GF_STACK) {
+*/
+ if ( (im->gdes[i].gf == GF_STACK)
+ || (im->gdes[i].stack) ) {
+
ybase = ytr(im,lastgdes->p_data[ii-1]);
} else {
ybase = ytr(im,areazero);
if ( node != NULL && (ii+1==im->xsize || isnan(im->gdes[i].p_data[ii]) )){
/* GF_AREA STACK type*/
+/*
if (im->gdes[i].gf == GF_STACK ) {
+*/
+ if ( (im->gdes[i].gf == GF_STACK)
+ || (im->gdes[i].stack) ) {
int iii;
for (iii=ii-1;iii>area_start;iii--){
gfx_add_point(node,iii+im->xorigin,ytr(im,lastgdes->p_data[iii]));
/* make sure we do not run into trouble when stacking on NaN */
for(ii=0;ii<im->xsize;ii++){
if (isnan(im->gdes[i].p_data[ii])) {
- double ybase = 0.0;
- if (lastgdes) {
- ybase = ytr(im,lastgdes->p_data[ii-1]);
- };
- if (isnan(ybase) || !lastgdes ){
- ybase = ytr(im,areazero);
+ if (lastgdes && (im->gdes[i].gf == GF_STACK)) {
+ im->gdes[i].p_data[ii] = lastgdes->p_data[ii];
+ } else {
+ im->gdes[i].p_data[ii] = ytr(im,areazero);
}
- im->gdes[i].p_data[ii] = ybase;
}
}
lastgdes = &(im->gdes[i]);
if (strcmp(im->graphfile,"-")==0) {
+ fo = im->graphhandle ? im->graphhandle : stdout;
#ifdef WIN32
/* Change translation mode for stdout to BINARY */
- _setmode( _fileno( stdout ), O_BINARY );
+ _setmode( _fileno( fo ), O_BINARY );
#endif
- fo = stdout;
} else {
if ((fo = fopen(im->graphfile,"wb")) == NULL) {
rrd_set_error("Opening '%s' for write: %s",im->graphfile,
- strerror(errno));
+ rrd_strerror(errno));
return (-1);
}
}
int
gdes_alloc(image_desc_t *im){
- long def_step = (im->end-im->start)/im->xsize;
+ unsigned long def_step = (im->end-im->start)/im->xsize;
if (im->step > def_step) /* step can be increassed ... no decreassed */
def_step = im->step;
im->gdes[im->gdes_c-1].step=def_step;
+ im->gdes[im->gdes_c-1].stack=0;
+ im->gdes[im->gdes_c-1].debug=0;
im->gdes[im->gdes_c-1].start=im->start;
im->gdes[im->gdes_c-1].end=im->end;
im->gdes[im->gdes_c-1].vname[0]='\0';
im->gdes[im->gdes_c-1].rrd[0]='\0';
im->gdes[im->gdes_c-1].ds=-1;
im->gdes[im->gdes_c-1].p_data=NULL;
+ im->gdes[im->gdes_c-1].yrule=DNAN;
+ im->gdes[im->gdes_c-1].xrule=0;
return 0;
}
** - script parsing now in rrd_graph_script()
*/
int
-rrd_graph(int argc, char **argv, char ***prdata, int *xsize, int *ysize)
+rrd_graph(int argc, char **argv, char ***prdata, int *xsize, int *ysize, FILE *stream)
{
image_desc_t im;
-
-#ifdef HAVE_TZSET
- tzset();
-#endif
-#ifdef HAVE_SETLOCALE
- setlocale(LC_TIME,"");
-#endif
-
rrd_graph_init(&im);
-
+ im.graphhandle = stream;
+
rrd_graph_options(argc,argv,&im);
- if (rrd_test_error()) return -1;
+ if (rrd_test_error()) {
+ im_free(&im);
+ return -1;
+ }
if (strlen(argv[optind])>=MAXPATH) {
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);
- if (rrd_test_error()) return -1;
+ if (rrd_test_error()) {
+ im_free(&im);
+ return -1;
+ }
/* Everything is now read and the actual work can start */
void
rrd_graph_init(image_desc_t *im)
{
- int i;
+ unsigned int i;
+
+#ifdef HAVE_TZSET
+ tzset();
+#endif
+#ifdef HAVE_SETLOCALE
+ setlocale(LC_TIME,"");
+#endif
im->xlab_user.minsec = -1;
im->ximg=0;
for(i=0;i<DIM(graph_col);i++)
im->graph_col[i]=graph_col[i];
-
+#ifdef WIN32
+ {
+ char *windir;
+ windir = getenv("windir");
+ /* %windir% is something like D:\windows or C:\winnt */
+ if (windir != NULL) {
+ strcpy(rrd_win_default_font,windir);
+ strcat(rrd_win_default_font,"\\fonts\\cour.ttf");
+ for(i=0;i<DIM(text_prop);i++)
+ text_prop[i].font = rrd_win_default_font;
+ }
+ }
+#endif
for(i=0;i<DIM(text_prop);i++){
im->text_prop[i].size = text_prop[i].size;
im->text_prop[i].font = text_prop[i].font;
char scan_gtm[12],scan_mtm[12],scan_ltm[12],col_nam[12];
time_t start_tmp=0,end_tmp=0;
long long_tmp;
- struct time_value start_tv, end_tv;
+ struct rrd_time_value start_tv, end_tv;
gfx_color_t color;
parsetime("end-24h", &start_tv);
{"lazy", no_argument, 0, 'z'},
{"zoom", required_argument, 0, 'm'},
{"no-legend", no_argument, 0, 'g'},
- {"alt-y-grid", no_argument, 0, 257 },
- {"alt-autoscale", no_argument, 0, 258 },
- {"alt-autoscale-max", no_argument, 0, 259 },
- {"units-exponent",required_argument, 0, 260},
- {"step", required_argument, 0, 261},
- {"no-gridfit", no_argument, 0, 262},
+ {"alt-y-grid", no_argument, 0, 'Y'},
+ {"no-minor", no_argument, 0, 'I'},
+ {"alt-autoscale", no_argument, 0, 'A'},
+ {"alt-autoscale-max", no_argument, 0, 'M'},
+ {"units-exponent",required_argument, 0, 'X'},
+ {"step", required_argument, 0, 'S'},
+ {"no-gridfit", no_argument, 0, 'N'},
{0,0,0,0}};
int option_index = 0;
int opt;
opt = getopt_long(argc, argv,
- "s:e:x:y:v:w:h:iu:l:rb:oc:n:m:t:f:a:z:g",
+ "s:e:x:y:v:w:h:iu:l:rb:oc:n:m:t:f:a:I:zgYAMX:S:N",
long_options, &option_index);
if (opt == EOF)
break;
switch(opt) {
- case 257:
+ case 'I':
+ im->extra_flags |= NOMINOR;
+ break;
+ case 'Y':
im->extra_flags |= ALTYGRID;
break;
- case 258:
+ case 'A':
im->extra_flags |= ALTAUTOSCALE;
break;
- case 259:
+ case 'M':
im->extra_flags |= ALTAUTOSCALE_MAX;
break;
case 'g':
im->extra_flags |= NOLEGEND;
break;
- case 260:
+ case 'X':
im->unitsexponent = atoi(optarg);
break;
- case 261:
+ case 'S':
im->step = atoi(optarg);
break;
case 262:
im->end = end_tmp;
}
-/* rrd_name_or_num()
-**
-** Scans for a VDEF-variable or a number
-**
-** Returns an integer describing what was found:
-**
-** 0: error
-** 1: found an integer; it is returned in both l and d
-** 2: found a float; it is returned in d
-** 3: found a vname; its index is returned in l
-**
-** l and d are undefined unless described above
-*/
-static int
-rrd_name_or_num(image_desc_t *im, char *param, long *l, double *d)
-{
- int i1=0,i2=0,i3=0,i4=0,i5=0,i6=0;
- char vname[MAX_VNAME_LEN+1];
-
- sscanf(param, "%li%n%*s%n", l,&i1,&i2);
- sscanf(param, "%lf%n%*s%n", d,&i3,&i4);
- sscanf(param, DEF_NAM_FMT "%n%*s%n", vname, &i5,&i6);
-
- if ( (i1) && (!i2) ) return 1;
- if ( (i3) && (!i4) ) return 2;
- if ( (i5) && (!i6) ) {
- if ((*l = find_var(im,vname))!=-1) return 3;
- }
- return 0;
-}
-
-/* rrd_vname_color()
-**
-** Parses "[<vname|number>][#color]" where at least one
-** of the optional strings must exist.
-**
-** Returns an integer describing what was found.
-** If the result is 0, the rrd_error string may be set.
-**
-** ...CVVVV
-** ---------:-----------------------------------
-** 00000000 : error
-** ....0000 : a value/variable was not found
-** ....0001 : an integer number was found, returned in both l and d
-** ....0010 : a floating point number was found, returned in d
-** ....0011 : reserved for future values
-** ....01xx : reserved for future values
-** ....1000 : an existing DEF vname was found, idx returned in l
-** ....1001 : an existing CDEF vname was found, idx returned in l
-** ....1010 : an existing VDEF vname was found, idx returned in l
-** ....1011 : reserved for future variables
-** ....11xx : reserved for future variables
-** ...0.... : a color was not found, returned in color
-** ...1.... : a color was found, returned in color
-*/
-static int
-rrd_vname_color(image_desc_t *im, char * param,
- long *l,
- double *d,
- gfx_color_t *color)
-{
- int result=0,i=0;
-
- if (param[0]!='#') { /* vname or num present or empty string */
- char *s,*c=param;
- while ((*c!='\0')&&(*c!='#')) c++,i++;
- if (*c!='\0') {
- s=malloc(i+1);
- if (s==NULL) {
- rrd_set_error("Out of memory in function rrd_vname_color");
- return 0;
- }
- strncpy(s,param,i);
- s[i]='\0';
- result=rrd_name_or_num(im, s, l, d);
- if (!result) {
- rrd_set_error("Use of uninitialized vname %s",s);
- free(s);
- }
- } else {
- result=rrd_name_or_num(im, param, l, d);
- if (!result) {
- rrd_set_error("Use of uninitialized vname %s",param);
- }
- }
- switch (result) {
- case 0: return 0; /* error set above */
- case 1:
- case 2: break;
- case 3:
- switch (im->gdes[*l].gf) {
- case GF_DEF: result=0x08;break;
- case GF_CDEF: result=0x09;break;
- case GF_VDEF: result=0x0A;break;
- default:
- rrd_set_error("Unexpected GF result from function "
- "rrd_name_or_num() called from rrd_vname_color");
- return 0;
- }
- break;
- default:
- rrd_set_error("Unexpected result from function "
- "rrd_name_or_num() called from rrd_vname_color");
- return 0;
- }
- }
- /* Parse color, if any. */
- if (param[i] == '\0') return result;
- else {
- unsigned int r=0,g=0,b=0,a=0xFF;
- int i1=0,i2=0;
- sscanf(¶m[i], "#%02x%02x%02x%n%02x%n",
- &r,&g,&b,&i1,&a,&i2);
- if (!i1) {
- rrd_set_error("Unparsable color %s",¶m[i]);
- return 0;
- }
- if (i2) i1=i2;
- i2=0;
- sscanf(¶m[i+i1],"%*s%n",&i2);
- if (i2) {
- rrd_set_error("Garbage after color %s",param[i]);
- return 0;
- }
- *color=r<<24|g<<16|b<<8|a;
- return result|0x10;
- }
-}
-
-/* rrd_find_function()
-**
-** Checks if the parameter is a valid function and
-** if so, returns it in the graph description pointer.
-**
-** The return value is a boolean; true if found
-*/
-static int
-rrd_find_function(char *param, graph_desc_t *gdp)
-{
- size_t i1=0,i2=0;
- char funcname[11];
-
- sscanf(param,"%10[A-Z]%n%*1[1-3]%n",funcname,(int *)&i1,(int *)&i2);
- gdp->gf=gf_conv(funcname);
- if ((int)gdp->gf == -1) {
- rrd_set_error("'%s' is not a valid function name",funcname);
- return 0;
- }
- if (gdp->gf==GF_LINE) {
- if (i2) {
- gdp->linewidth=param[i1]-'0';
- } else {
- rrd_set_error("LINE should have a width");
- return 0;
- }
- } else {
- if (i2) {
- rrd_set_error("Only LINE should have a width: %s",param);
- return 0;
- } else {
- i2=i1;
- }
- }
- if (strlen(param) != i2) {
- rrd_set_error("Garbage after function name: %s",param);
- return 0;
- }
- return 1;
-}
-/* rrd_split_line()
-**
-** Takes a string as input; splits this line into multiple
-** parameters on each ":" boundary.
-**
-** If this function returns successful, the caller will have
-** to free() the allocated memory for param.
-**
-** The input string is destroyed, its memory is used by the
-** output array.
-*/
-static int
-rrd_split_line(char *line,char ***param)
-{
- int i=0,n=0;
- char *c=line;
-
- /* scan the amount of colons in the line. We need
- ** at most this amount+1 pointers for the array. If
- ** any colons are escaped we waste some space.
- */
- if (*c!='\0') n=1;
- while (*c != '\0')
- if (*c++ == ':') n++;
-
- if (n==0) {
- rrd_set_error("No line to split. rrd_split_line was given the empty string.");
- return -1;
- }
-
- /* Allocate memory for an array of n char pointers */
- *param=calloc(n,sizeof(char *));
- if (*param==NULL) {
- rrd_set_error("Memory allocation failed inside rrd_split_line");
- return -1;
- }
-
- /* split the line and fill the array */
- c = line;
- i=0;
- (*param)[i] = c;
- while (*c != '\0') {
- switch (*c) {
- case '\\':
- c++;
- if (*c=='\0') {
- free(*param);
- rrd_set_error("Lone backslash found inside rrd_split_line");
- return -1;
- }
- c++;
- break;
- case ':':
- *c = '\0';
- c++;
- i++;
- (*param)[i] = c;
- break;
- default:
- c++;
- }
- }
- i++; /* i separators means i+1 parameters */
-
- return i;
-}
-void
-rrd_graph_script(int argc, char *argv[], image_desc_t *im)
-{
- int i;
- char symname[100];
- int linepass = 0; /* stack must follow LINE*, AREA or STACK */
- char ** param;
- int paramcnt,paramused;
-
- for (i=optind+1;i<argc;i++) {
- int argstart=0;
- int strstart=0;
- graph_desc_t *gdp;
- char *line;
- char tmpline[256];
- char vname[MAX_VNAME_LEN+1],sep[1];
-/* double d; */
- int j,k,l/*,m*/;
-
- /* Each command is one element from *argv[]. This command is
- ** split at every unescaped colon.
- **
- ** Each command defines the most current gdes inside struct im.
- ** In stead of typing "im->gdes[im->gdes_c-1]" we use "gdp".
- */
- gdes_alloc(im);
- gdp=&im->gdes[im->gdes_c-1];
- strcpy(tmpline,argv[i]);
- line=tmpline;
- if ((paramcnt=rrd_split_line(argv[i],¶m))==-1) return;
- paramused=0;
-
-#ifdef DEBUG
- printf("DEBUG: after splitting line:\n");
- for (j=0;j<paramcnt;j++)
- printf("DEBUG: %3i: %s\n",j,param[j]);
-#endif
-
- if (!rrd_find_function(param[paramused],gdp)) {
- im_free(im);
- free(param);
- return;
- }
- paramused++;
-
- /* function:newvname=string[:ds-name:CF] for xDEF
- ** function:vname[#color[:string]] for LINEx,AREA,STACK
- ** function:vname#color[:num[:string]] for TICK
- ** function:vname-or-num#color[:string] for xRULE,PART
- ** function:vname:CF:string for xPRINT
- ** function:string for COMMENT
- */
-
-/*TEMP*/argstart=strlen(param[paramused-1])+1;
-
- /* If anything fails just use rrd_set_error() and break from the
- ** switch. Just after the switch we call rrd_test_error() and
- ** clean up if it is set.
- */
- switch (gdp->gf) {
- case GF_XPORT:
- break;
- case GF_COMMENT:
- if (paramcnt<2) {
- rrd_set_error("Not enough parameters for %s",param[0]);
- break;
- }
- if (strlen(param[1])>FMT_LEG_LEN) {
- rrd_set_error("Comment too long: %s:%s",param[0],param[1]);
- break;
- }
- strcpy(gdp->legend,param[1]);
- paramused++;
- break;
- case GF_PART:
- case GF_VRULE:
- case GF_HRULE:
- if (paramcnt<2) {
- rrd_set_error("No name or number in %s",param[0]);
- break;
- }
- j=rrd_vname_color(im,param[1],
- &gdp->xrule,&gdp->yrule,&gdp->col);
- paramused++;
- if (!j) break; /* error string set by function */
- switch (j&0x0F) {
- case 0x00:
- rrd_set_error("Cannot parse name nor number "
- "in %s:%s",param[0],param[1]);
- break;
- case 0x08:
- case 0x09:
- rrd_set_error("Cannot use DEF or CDEF based "
- "variable in %s:%s",param[0],param[1]);
- break;
- case 0x0A:
- gdp->vidx=gdp->xrule;
- gdp->xrule=0;
- gdp->yrule=DNAN;
- break;
- case 0x01:
- case 0x02:
- break;
- default:
- rrd_set_error("Unexpected result while parsing "
- "%s:%s, program error",param[0],param[1]);
- }
- if (rrd_test_error()) break;
-
- if (paramcnt>paramused) {
- if (strlen(param[paramused])>FMT_LEG_LEN) {
- rrd_set_error("Comment too long: %s:%s",
- param[0],param[1]);
- break;
- }
- strcpy(gdp->legend,param[paramused]);
- paramused++;
- }
- break;
- case GF_STACK:
- if (linepass==0) {
- rrd_set_error("STACK must follow another graphing element");
- break;
- }
- case GF_LINE:
- case GF_AREA:
- case GF_TICK:
- j=k=0;
- linepass=1;
- sscanf(&line[argstart],DEF_NAM_FMT"%n%1[#:]%n",vname,&j,sep,&k);
- if (j+1!=k)
- rrd_set_error("Cannot parse vname in line: %s",line);
- else if (rrd_graph_check_vname(im,vname,line))
- rrd_set_error("Undefined vname '%s' in line: %s",line);
- else
- k=rrd_graph_color(im,&line[argstart],line,1);
- if (rrd_test_error()) break;
- argstart=argstart+j+k;
- if ((strlen(&line[argstart])!=0)&&(gdp->gf==GF_TICK)) {
- j=0;
- sscanf(&line[argstart], ":%lf%n", &gdp->yrule,&j);
- argstart+=j;
- }
- if (strlen(&line[argstart])!=0)
- if (rrd_graph_legend(gdp,&line[++argstart])==0)
- rrd_set_error("Cannot parse legend in line: %s",line);
- break;
- case GF_PRINT:
- im->prt_c++;
- case GF_GPRINT:
- j=0;
- sscanf(&line[argstart], DEF_NAM_FMT ":%n",gdp->vname,&j);
- if (j==0) {
- rrd_set_error("Cannot parse vname in line: '%s'",line);
- break;
- }
- argstart+=j;
- if (rrd_graph_check_vname(im,gdp->vname,line)) return;
- j=0;
- sscanf(&line[argstart], CF_NAM_FMT ":%n",symname,&j);
-
- k=(j!=0)?rrd_graph_check_CF(im,symname,line):1;
-#define VIDX im->gdes[gdp->vidx]
- switch (k) {
- case -1: /* looks CF but is not really CF */
- if (VIDX.gf == GF_VDEF) rrd_clear_error();
- break;
- case 0: /* CF present and correct */
- if (VIDX.gf == GF_VDEF)
- rrd_set_error("Don't use CF when printing VDEF");
- argstart+=j;
- break;
- case 1: /* CF not present */
- if (VIDX.gf == GF_VDEF) rrd_clear_error();
- else rrd_set_error("Printing DEF or CDEF needs CF");
- break;
- default:
- rrd_set_error("Oops, bug in GPRINT scanning");
- }
-#undef VIDX
- if (rrd_test_error()) break;
-
- if (strlen(&line[argstart])!=0) {
- if (rrd_graph_legend(gdp,&line[argstart])==0)
- rrd_set_error("Cannot parse legend in line: %s",line);
- } else rrd_set_error("No legend in (G)PRINT line: %s",line);
- strcpy(gdp->format, gdp->legend);
- break;
- case GF_DEF:
- case GF_VDEF:
- case GF_CDEF:
- j=0;
- if (paramcnt<2) {
- rrd_set_error("Nothing following %s",param[0]);
- break;
- }
- sscanf(param[1], DEF_NAM_FMT "=%n",gdp->vname,&j);
- if (j==0) {
- rrd_set_error("Could not parse %s:%s",param[0],param[1]);
- break;
- }
- if (find_var(im,gdp->vname)!=-1) {
- rrd_set_error("Variable '%s' in %s:%s' already in use\n",
- gdp->vname,param[0],param[1]);
- break;
- }
- paramused++;
- argstart+=j;
- switch (gdp->gf) {
- case GF_DEF:
- if (strlen(¶m[1][j])>MAXPATH) {
- rrd_set_error("Path too long: %s:%s",param[0],param[1]);
- break;
- }
- strcpy(gdp->rrd,¶m[1][j]);
-
- if (paramcnt<3) {
- rrd_set_error("No DS for %s:%s",param[0],param[1]);
- break;
- }
- j=k=0;
- sscanf(param[2],DS_NAM_FMT "%n%*s%n",gdp->ds_nam,&j,&k);
- if ((j==0)||(k!=0)) {
- rrd_set_error("Cannot parse DS in %s:%s:%s",
- param[0],param[1],param[2]);
- break;
- }
- paramused++;
- if (paramcnt<4) {
- rrd_set_error("No CF for %s:%s:%s",
- param[0],param[1],param[2]);
- break;
- }
- j=k=0;
- sscanf(param[3],CF_NAM_FMT "%n%*s%n",symname,&j,&k);
- if ((j==0)||(k!=0)) {
- rrd_set_error("Cannot parse CF in %s:%s:%s:%s",
- param[0],param[1],param[2],param[3]);
- break;
- }
- if ((gdp->cf = cf_conv(symname))==-1) {
- rrd_set_error("Unknown CF '%s' in %s:%s:%s:%s",
- param[0],param[1],param[2],param[3]);
- break;
- }
- paramused++;
- if (paramcnt>paramused) {
- k=0;l=0;
- sscanf(param[4],
- "step=%lu%n%*s%n",
- &gdp->step,&k,&l);
- if ((k==0)||(l!=0)) {
- rrd_set_error("Cannot parse step in "
- "%s:%s:%s:%s:%s",
- param[0],param[1],param[2],param[3],param[4]);
- break;
- }
- paramused++;
- }
- break;
- case GF_VDEF:
- j=0;
- sscanf(&line[argstart],DEF_NAM_FMT ",%n",vname,&j);
- if (j==0) {
- rrd_set_error("Cannot parse vname in line '%s'",line);
- break;
- }
- argstart+=j;
- if (rrd_graph_check_vname(im,vname,line)) return;
- if ( im->gdes[gdp->vidx].gf != GF_DEF
- && im->gdes[gdp->vidx].gf != GF_CDEF) {
- rrd_set_error("variable '%s' not DEF nor "
- "CDEF in VDEF '%s'", vname,gdp->vname);
- break;
- }
- vdef_parse(gdp,&line[argstart+strstart]);
- break;
- case GF_CDEF:
- if (strstr(&line[argstart],":")!=NULL) {
- rrd_set_error("Error in RPN, line: %s",line);
- break;
- }
- if ((gdp->rpnp = rpn_parse(
- (void *)im,
- &line[argstart],
- &find_var_wrapper)
- )==NULL)
- rrd_set_error("invalid rpn expression in: %s",line);
- break;
- default: break;
- }
- break;
- default: rrd_set_error("Big oops");
- }
- if (rrd_test_error()) {
- im_free(im);
- return;
- }
- }
-
- if (im->gdes_c==0){
- rrd_set_error("can't make a graph without contents");
- im_free(im); /* ??? is this set ??? */
- return;
- }
-}
-
int
rrd_graph_check_vname(image_desc_t *im, char *varname, char *err)
{
}
}
int
-rrd_graph_check_CF(image_desc_t *im, char *symname, char *err)
-{
- if ((im->gdes[im->gdes_c-1].cf=cf_conv(symname))==-1) {
- rrd_set_error("Unknown CF '%s' in %s",symname,err);
- return -1;
- }
- return 0;
-}
-int
rrd_graph_legend(graph_desc_t *gdp, char *line)
{
int i;
if (*ptr == '.') ptr++;
while (*ptr >= '0' && *ptr <= '9') ptr++;
- /* Either 'le' or 'lf' must follow here */
+ /* Either 'le', 'lf' or 'lg' must follow here */
if (*ptr++ != 'l') return 1;
- if (*ptr == 'e' || *ptr == 'f') ptr++;
+ if (*ptr == 'e' || *ptr == 'f' || *ptr == 'g') ptr++;
else return 1;
n++;
}
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;step<steps;step++)
printf("DEBUG: %3li:%10.2f %c\n",step,array[step],step==field?'*':' ');