text_prop_t text_prop[] = {
{ 10.0, RRD_DEFAULT_FONT }, /* default */
- { 12.0, RRD_DEFAULT_FONT }, /* title */
+ { 10.0, RRD_DEFAULT_FONT }, /* title */
{ 8.0, RRD_DEFAULT_FONT }, /* axis */
{ 10.0, RRD_DEFAULT_FONT }, /* unit */
{ 10.0, RRD_DEFAULT_FONT } /* legend */
** into one interval for the destination.
*/
- for (dst_row=0;row_cnt>=reduce_factor;dst_row++) {
+ for (dst_row=0;(long int)row_cnt>=reduce_factor;dst_row++) {
for (col=0;col<(*ds_cnt);col++) {
rrd_value_t newval=DNAN;
unsigned long validval=0;
int
data_fetch(image_desc_t *im )
{
- unsigned int i,ii;
+ int i,ii;
int skip;
/* pull the data from the log files ... */
- for (i=0;i<im->gdes_c;i++){
+ for (i=0;i< (int)im->gdes_c;i++){
/* only GF_DEF elements fetch data */
if (im->gdes[i].gf != GF_DEF)
continue;
}
}
- /* lets see if the required data source is realy there */
- for(ii=0;ii<im->gdes[i].ds_cnt;ii++){
+ /* 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; }
}
** the time of the graph. Beware.
*/
vidx = im->gdes[ii].vidx;
- if ( (gr_time >= im->gdes[vidx].start) &&
- (gr_time <= im->gdes[vidx].end) ) {
+ 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)
/* horrible hack until we can actually print vertically */
{
int n;
- int l=strlen(im->ylegend);
char s[2];
- for (n=0;n<strlen(im->ylegend);n++) {
+ for (n=0;n< (int)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*(n+1),
&im->xlab_user.precis,
&stroff) == 7 && stroff != 0){
strncpy(im->xlab_form, optarg+stroff, sizeof(im->xlab_form) - 1);
- if((im->xlab_user.gridtm = tmt_conv(scan_gtm)) == -1){
+ if((int)(im->xlab_user.gridtm = tmt_conv(scan_gtm)) == -1){
rrd_set_error("unknown keyword %s",scan_gtm);
return;
- } else if ((im->xlab_user.mgridtm = tmt_conv(scan_mtm)) == -1){
+ } else if ((int)(im->xlab_user.mgridtm = tmt_conv(scan_mtm)) == -1){
rrd_set_error("unknown keyword %s",scan_mtm);
return;
- } else if ((im->xlab_user.labtm = tmt_conv(scan_ltm)) == -1){
+ } else if ((int)(im->xlab_user.labtm = tmt_conv(scan_ltm)) == -1){
rrd_set_error("unknown keyword %s",scan_ltm);
return;
}
im->imginfo = optarg;
break;
case 'a':
- if((im->canvas->imgformat = if_conv(optarg)) == -1) {
+ if((int)(im->canvas->imgformat = if_conv(optarg)) == -1) {
rrd_set_error("unsupported graphics format '%s'",optarg);
return;
}
n=0;
sscanf(str,"%le,%29[A-Z]%n",¶m,func,&n);
- if (n==strlen(str)) { /* matched */
+ if (n== (int)strlen(str)) { /* matched */
;
} else {
n=0;
sscanf(str,"%29[A-Z]%n",func,&n);
- if (n==strlen(str)) { /* matched */
+ if (n== (int)strlen(str)) { /* matched */
param=DNAN;
} else {
rrd_set_error("Unknown function string '%s' in VDEF '%s'"