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-rw-r--r--src/unit_test.c1345
1 files changed, 754 insertions, 591 deletions
diff --git a/src/unit_test.c b/src/unit_test.c
index 06b7afac..a77fdb13 100644
--- a/src/unit_test.c
+++ b/src/unit_test.c
@@ -1,267 +1,258 @@
-#ifdef HAVE_CONFIG_H
-#include <config.h>
-#endif
-#include <stdio.h>
-#include <stdlib.h>
-#include <string.h>
-#include <sys/resource.h>
-
#include "common.h"
-#include "storage_number.h"
-#include "rrd.h"
-#include "log.h"
-#include "web_buffer.h"
int check_storage_number(calculated_number n, int debug) {
- char buffer[100];
- uint32_t flags = SN_EXISTS;
-
- storage_number s = pack_storage_number(n, flags);
- calculated_number d = unpack_storage_number(s);
-
- if(!does_storage_number_exist(s)) {
- fprintf(stderr, "Exists flags missing for number " CALCULATED_NUMBER_FORMAT "!\n", n);
- return 5;
- }
-
- calculated_number ddiff = d - n;
- calculated_number dcdiff = ddiff * 100.0 / n;
-
- if(dcdiff < 0) dcdiff = -dcdiff;
-
- size_t len = print_calculated_number(buffer, d);
- calculated_number p = strtold(buffer, NULL);
- calculated_number pdiff = n - p;
- calculated_number pcdiff = pdiff * 100.0 / n;
- if(pcdiff < 0) pcdiff = -pcdiff;
-
- if(debug) {
- fprintf(stderr,
- CALCULATED_NUMBER_FORMAT " original\n"
- CALCULATED_NUMBER_FORMAT " packed and unpacked, (stored as 0x%08X, diff " CALCULATED_NUMBER_FORMAT ", " CALCULATED_NUMBER_FORMAT "%%)\n"
- "%s printed after unpacked (%zu bytes)\n"
- CALCULATED_NUMBER_FORMAT " re-parsed from printed (diff " CALCULATED_NUMBER_FORMAT ", " CALCULATED_NUMBER_FORMAT "%%)\n\n",
- n,
- d, s, ddiff, dcdiff,
- buffer,
- len, p, pdiff, pcdiff
- );
- if(len != strlen(buffer)) fprintf(stderr, "ERROR: printed number %s is reported to have length %zu but it has %zu\n", buffer, len, strlen(buffer));
- if(dcdiff > ACCURACY_LOSS) fprintf(stderr, "WARNING: packing number " CALCULATED_NUMBER_FORMAT " has accuracy loss %0.7Lf %%\n", n, dcdiff);
- if(pcdiff > ACCURACY_LOSS) fprintf(stderr, "WARNING: re-parsing the packed, unpacked and printed number " CALCULATED_NUMBER_FORMAT " has accuracy loss %0.7Lf %%\n", n, pcdiff);
- }
-
- if(len != strlen(buffer)) return 1;
- if(dcdiff > ACCURACY_LOSS) return 3;
- if(pcdiff > ACCURACY_LOSS) return 4;
- return 0;
+ char buffer[100];
+ uint32_t flags = SN_EXISTS;
+
+ storage_number s = pack_storage_number(n, flags);
+ calculated_number d = unpack_storage_number(s);
+
+ if(!does_storage_number_exist(s)) {
+ fprintf(stderr, "Exists flags missing for number " CALCULATED_NUMBER_FORMAT "!\n", n);
+ return 5;
+ }
+
+ calculated_number ddiff = d - n;
+ calculated_number dcdiff = ddiff * 100.0 / n;
+
+ if(dcdiff < 0) dcdiff = -dcdiff;
+
+ size_t len = print_calculated_number(buffer, d);
+ calculated_number p = strtold(buffer, NULL);
+ calculated_number pdiff = n - p;
+ calculated_number pcdiff = pdiff * 100.0 / n;
+ if(pcdiff < 0) pcdiff = -pcdiff;
+
+ if(debug) {
+ fprintf(stderr,
+ CALCULATED_NUMBER_FORMAT " original\n"
+ CALCULATED_NUMBER_FORMAT " packed and unpacked, (stored as 0x%08X, diff " CALCULATED_NUMBER_FORMAT ", " CALCULATED_NUMBER_FORMAT "%%)\n"
+ "%s printed after unpacked (%zu bytes)\n"
+ CALCULATED_NUMBER_FORMAT " re-parsed from printed (diff " CALCULATED_NUMBER_FORMAT ", " CALCULATED_NUMBER_FORMAT "%%)\n\n",
+ n,
+ d, s, ddiff, dcdiff,
+ buffer,
+ len, p, pdiff, pcdiff
+ );
+ if(len != strlen(buffer)) fprintf(stderr, "ERROR: printed number %s is reported to have length %zu but it has %zu\n", buffer, len, strlen(buffer));
+ if(dcdiff > ACCURACY_LOSS) fprintf(stderr, "WARNING: packing number " CALCULATED_NUMBER_FORMAT " has accuracy loss %0.7Lf %%\n", n, dcdiff);
+ if(pcdiff > ACCURACY_LOSS) fprintf(stderr, "WARNING: re-parsing the packed, unpacked and printed number " CALCULATED_NUMBER_FORMAT " has accuracy loss %0.7Lf %%\n", n, pcdiff);
+ }
+
+ if(len != strlen(buffer)) return 1;
+ if(dcdiff > ACCURACY_LOSS) return 3;
+ if(pcdiff > ACCURACY_LOSS) return 4;
+ return 0;
}
void benchmark_storage_number(int loop, int multiplier) {
- int i, j;
- calculated_number n, d;
- storage_number s;
- unsigned long long user, system, total, mine, their;
+ int i, j;
+ calculated_number n, d;
+ storage_number s;
+ unsigned long long user, system, total, mine, their;
- char buffer[100];
+ char buffer[100];
- struct rusage now, last;
+ struct rusage now, last;
- fprintf(stderr, "\n\nBenchmarking %d numbers, please wait...\n\n", loop);
+ fprintf(stderr, "\n\nBenchmarking %d numbers, please wait...\n\n", loop);
- // ------------------------------------------------------------------------
+ // ------------------------------------------------------------------------
- fprintf(stderr, "SYSTEM LONG DOUBLE SIZE: %zu bytes\n", sizeof(calculated_number));
- fprintf(stderr, "NETDATA FLOATING POINT SIZE: %zu bytes\n", sizeof(storage_number));
+ fprintf(stderr, "SYSTEM LONG DOUBLE SIZE: %zu bytes\n", sizeof(calculated_number));
+ fprintf(stderr, "NETDATA FLOATING POINT SIZE: %zu bytes\n", sizeof(storage_number));
- mine = (calculated_number)sizeof(storage_number) * (calculated_number)loop;
- their = (calculated_number)sizeof(calculated_number) * (calculated_number)loop;
+ mine = (calculated_number)sizeof(storage_number) * (calculated_number)loop;
+ their = (calculated_number)sizeof(calculated_number) * (calculated_number)loop;
- if(mine > their) {
- fprintf(stderr, "\nNETDATA NEEDS %0.2Lf TIMES MORE MEMORY. Sorry!\n", (long double)(mine / their));
- }
- else {
- fprintf(stderr, "\nNETDATA INTERNAL FLOATING POINT ARITHMETICS NEEDS %0.2Lf TIMES LESS MEMORY.\n", (long double)(their / mine));
- }
+ if(mine > their) {
+ fprintf(stderr, "\nNETDATA NEEDS %0.2Lf TIMES MORE MEMORY. Sorry!\n", (long double)(mine / their));
+ }
+ else {
+ fprintf(stderr, "\nNETDATA INTERNAL FLOATING POINT ARITHMETICS NEEDS %0.2Lf TIMES LESS MEMORY.\n", (long double)(their / mine));
+ }
- fprintf(stderr, "\nNETDATA FLOATING POINT\n");
- fprintf(stderr, "MIN POSITIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_POSITIVE_MIN);
- fprintf(stderr, "MAX POSITIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_POSITIVE_MAX);
- fprintf(stderr, "MIN NEGATIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_NEGATIVE_MIN);
- fprintf(stderr, "MAX NEGATIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_NEGATIVE_MAX);
- fprintf(stderr, "Maximum accuracy loss: " CALCULATED_NUMBER_FORMAT "%%\n\n\n", (calculated_number)ACCURACY_LOSS);
+ fprintf(stderr, "\nNETDATA FLOATING POINT\n");
+ fprintf(stderr, "MIN POSITIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_POSITIVE_MIN);
+ fprintf(stderr, "MAX POSITIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_POSITIVE_MAX);
+ fprintf(stderr, "MIN NEGATIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_NEGATIVE_MIN);
+ fprintf(stderr, "MAX NEGATIVE VALUE " CALCULATED_NUMBER_FORMAT "\n", (calculated_number)STORAGE_NUMBER_NEGATIVE_MAX);
+ fprintf(stderr, "Maximum accuracy loss: " CALCULATED_NUMBER_FORMAT "%%\n\n\n", (calculated_number)ACCURACY_LOSS);
- // ------------------------------------------------------------------------
+ // ------------------------------------------------------------------------
- fprintf(stderr, "INTERNAL LONG DOUBLE PRINTING: ");
- getrusage(RUSAGE_SELF, &last);
+ fprintf(stderr, "INTERNAL LONG DOUBLE PRINTING: ");
+ getrusage(RUSAGE_SELF, &last);
- // do the job
- for(j = 1; j < 11 ;j++) {
- n = STORAGE_NUMBER_POSITIVE_MIN * j;
+ // do the job
+ for(j = 1; j < 11 ;j++) {
+ n = STORAGE_NUMBER_POSITIVE_MIN * j;
- for(i = 0; i < loop ;i++) {
- n *= multiplier;
- if(n > STORAGE_NUMBER_POSITIVE_MAX) n = STORAGE_NUMBER_POSITIVE_MIN;
+ for(i = 0; i < loop ;i++) {
+ n *= multiplier;
+ if(n > STORAGE_NUMBER_POSITIVE_MAX) n = STORAGE_NUMBER_POSITIVE_MIN;
- print_calculated_number(buffer, n);
- }
- }
+ print_calculated_number(buffer, n);
+ }
+ }
- getrusage(RUSAGE_SELF, &now);
- user = now.ru_utime.tv_sec * 1000000ULL + now.ru_utime.tv_usec - last.ru_utime.tv_sec * 1000000ULL + last.ru_utime.tv_usec;
- system = now.ru_stime.tv_sec * 1000000ULL + now.ru_stime.tv_usec - last.ru_stime.tv_sec * 1000000ULL + last.ru_stime.tv_usec;
- total = user + system;
- mine = total;
+ getrusage(RUSAGE_SELF, &now);
+ user = now.ru_utime.tv_sec * 1000000ULL + now.ru_utime.tv_usec - last.ru_utime.tv_sec * 1000000ULL + last.ru_utime.tv_usec;
+ system = now.ru_stime.tv_sec * 1000000ULL + now.ru_stime.tv_usec - last.ru_stime.tv_sec * 1000000ULL + last.ru_stime.tv_usec;
+ total = user + system;
+ mine = total;
- fprintf(stderr, "user %0.5Lf, system %0.5Lf, total %0.5Lf\n", (long double)(user / 1000000.0), (long double)(system / 1000000.0), (long double)(total / 1000000.0));
+ fprintf(stderr, "user %0.5Lf, system %0.5Lf, total %0.5Lf\n", (long double)(user / 1000000.0), (long double)(system / 1000000.0), (long double)(total / 1000000.0));
- // ------------------------------------------------------------------------
+ // ------------------------------------------------------------------------
- fprintf(stderr, "SYSTEM LONG DOUBLE PRINTING: ");
- getrusage(RUSAGE_SELF, &last);
+ fprintf(stderr, "SYSTEM LONG DOUBLE PRINTING: ");
+ getrusage(RUSAGE_SELF, &last);
- // do the job
- for(j = 1; j < 11 ;j++) {
- n = STORAGE_NUMBER_POSITIVE_MIN * j;
+ // do the job
+ for(j = 1; j < 11 ;j++) {
+ n = STORAGE_NUMBER_POSITIVE_MIN * j;
- for(i = 0; i < loop ;i++) {
- n *= multiplier;
- if(n > STORAGE_NUMBER_POSITIVE_MAX) n = STORAGE_NUMBER_POSITIVE_MIN;
- snprintfz(buffer, 100, CALCULATED_NUMBER_FORMAT, n);
- }
- }
+ for(i = 0; i < loop ;i++) {
+ n *= multiplier;
+ if(n > STORAGE_NUMBER_POSITIVE_MAX) n = STORAGE_NUMBER_POSITIVE_MIN;
+ snprintfz(buffer, 100, CALCULATED_NUMBER_FORMAT, n);
+ }
+ }
- getrusage(RUSAGE_SELF, &now);
- user = now.ru_utime.tv_sec * 1000000ULL + now.ru_utime.tv_usec - last.ru_utime.tv_sec * 1000000ULL + last.ru_utime.tv_usec;
- system = now.ru_stime.tv_sec * 1000000ULL + now.ru_stime.tv_usec - last.ru_stime.tv_sec * 1000000ULL + last.ru_stime.tv_usec;
- total = user + system;
- their = total;
+ getrusage(RUSAGE_SELF, &now);
+ user = now.ru_utime.tv_sec * 1000000ULL + now.ru_utime.tv_usec - last.ru_utime.tv_sec * 1000000ULL + last.ru_utime.tv_usec;
+ system = now.ru_stime.tv_sec * 1000000ULL + now.ru_stime.tv_usec - last.ru_stime.tv_sec * 1000000ULL + last.ru_stime.tv_usec;
+ total = user + system;
+ their = total;
- fprintf(stderr, "user %0.5Lf, system %0.5Lf, total %0.5Lf\n", (long double)(user / 1000000.0), (long double)(system / 1000000.0), (long double)(total / 1000000.0));
+ fprintf(stderr, "user %0.5Lf, system %0.5Lf, total %0.5Lf\n", (long double)(user / 1000000.0), (long double)(system / 1000000.0), (long double)(total / 1000000.0));
- if(mine > total) {
- fprintf(stderr, "NETDATA CODE IS SLOWER %0.2Lf %%\n", (long double)(mine * 100.0 / their - 100.0));
- }
- else {
- fprintf(stderr, "NETDATA CODE IS F A S T E R %0.2Lf %%\n", (long double)(their * 100.0 / mine - 100.0));
- }
+ if(mine > total) {
+ fprintf(stderr, "NETDATA CODE IS SLOWER %0.2Lf %%\n", (long double)(mine * 100.0 / their - 100.0));
+ }
+ else {
+ fprintf(stderr, "NETDATA CODE IS F A S T E R %0.2Lf %%\n", (long double)(their * 100.0 / mine - 100.0));
+ }
- // ------------------------------------------------------------------------
+ // ------------------------------------------------------------------------
- fprintf(stderr, "\nINTERNAL LONG DOUBLE PRINTING WITH PACK / UNPACK: ");
- getrusage(RUSAGE_SELF, &last);
+ fprintf(stderr, "\nINTERNAL LONG DOUBLE PRINTING WITH PACK / UNPACK: ");
+ getrusage(RUSAGE_SELF, &last);
- // do the job
- for(j = 1; j < 11 ;j++) {
- n = STORAGE_NUMBER_POSITIVE_MIN * j;
+ // do the job
+ for(j = 1; j < 11 ;j++) {
+ n = STORAGE_NUMBER_POSITIVE_MIN * j;
- for(i = 0; i < loop ;i++) {
- n *= multiplier;
- if(n > STORAGE_NUMBER_POSITIVE_MAX) n = STORAGE_NUMBER_POSITIVE_MIN;
+ for(i = 0; i < loop ;i++) {
+ n *= multiplier;
+ if(n > STORAGE_NUMBER_POSITIVE_MAX) n = STORAGE_NUMBER_POSITIVE_MIN;
- s = pack_storage_number(n, 1);
- d = unpack_storage_number(s);
- print_calculated_number(buffer, d);
- }
- }
+ s = pack_storage_number(n, 1);
+ d = unpack_storage_number(s);
+ print_calculated_number(buffer, d);
+ }
+ }
- getrusage(RUSAGE_SELF, &now);
- user = now.ru_utime.tv_sec * 1000000ULL + now.ru_utime.tv_usec - last.ru_utime.tv_sec * 1000000ULL + last.ru_utime.tv_usec;
- system = now.ru_stime.tv_sec * 1000000ULL + now.ru_stime.tv_usec - last.ru_stime.tv_sec * 1000000ULL + last.ru_stime.tv_usec;
- total = user + system;
- mine = total;
-
- fprintf(stderr, "user %0.5Lf, system %0.5Lf, total %0.5Lf\n", (long double)(user / 1000000.0), (long double)(system / 1000000.0), (long double)(total / 1000000.0));
+ getrusage(RUSAGE_SELF, &now);
+ user = now.ru_utime.tv_sec * 1000000ULL + now.ru_utime.tv_usec - last.ru_utime.tv_sec * 1000000ULL + last.ru_utime.tv_usec;
+ system = now.ru_stime.tv_sec * 1000000ULL + now.ru_stime.tv_usec - last.ru_stime.tv_sec * 1000000ULL + last.ru_stime.tv_usec;
+ total = user + system;
+ mine = total;
+
+ fprintf(stderr, "user %0.5Lf, system %0.5Lf, total %0.5Lf\n", (long double)(user / 1000000.0), (long double)(system / 1000000.0), (long double)(total / 1000000.0));
- if(mine > their) {
- fprintf(stderr, "WITH PACKING UNPACKING NETDATA CODE IS SLOWER %0.2Lf %%\n", (long double)(mine * 100.0 / their - 100.0));
- }
- else {
- fprintf(stderr, "EVEN WITH PACKING AND UNPACKING, NETDATA CODE IS F A S T E R %0.2Lf %%\n", (long double)(their * 100.0 / mine - 100.0));
- }
+ if(mine > their) {
+ fprintf(stderr, "WITH PACKING UNPACKING NETDATA CODE IS SLOWER %0.2Lf %%\n", (long double)(mine * 100.0 / their - 100.0));
+ }
+ else {
+ fprintf(stderr, "EVEN WITH PACKING AND UNPACKING, NETDATA CODE IS F A S T E R %0.2Lf %%\n", (long double)(their * 100.0 / mine - 100.0));
+ }
- // ------------------------------------------------------------------------
+ // ------------------------------------------------------------------------
}
static int check_storage_number_exists() {
- uint32_t flags = SN_EXISTS;
-
-
- for(flags = 0; flags < 7 ; flags++) {
- if(get_storage_number_flags(flags << 24) != flags << 24) {
- fprintf(stderr, "Flag 0x%08x is not checked correctly. It became 0x%08x\n", flags << 24, get_storage_number_flags(flags << 24));
- return 1;
- }
- }
-
- flags = SN_EXISTS;
- calculated_number n = 0.0;
-
- storage_number s = pack_storage_number(n, flags);
- calculated_number d = unpack_storage_number(s);
- if(get_storage_number_flags(s) != flags) {
- fprintf(stderr, "Wrong flags. Given %08x, Got %08x!\n", flags, get_storage_number_flags(s));
- return 1;
- }
- if(n != d) {
- fprintf(stderr, "Wrong number returned. Expected " CALCULATED_NUMBER_FORMAT ", returned " CALCULATED_NUMBER_FORMAT "!\n", n, d);
- return 1;
- }
-
- return 0;
+ uint32_t flags = SN_EXISTS;
+
+
+ for(flags = 0; flags < 7 ; flags++) {
+ if(get_storage_number_flags(flags << 24) != flags << 24) {
+ fprintf(stderr, "Flag 0x%08x is not checked correctly. It became 0x%08x\n", flags << 24, get_storage_number_flags(flags << 24));
+ return 1;
+ }
+ }
+
+ flags = SN_EXISTS;
+ calculated_number n = 0.0;
+
+ storage_number s = pack_storage_number(n, flags);
+ calculated_number d = unpack_storage_number(s);
+ if(get_storage_number_flags(s) != flags) {
+ fprintf(stderr, "Wrong flags. Given %08x, Got %08x!\n", flags, get_storage_number_flags(s));
+ return 1;
+ }
+ if(n != d) {
+ fprintf(stderr, "Wrong number returned. Expected " CALCULATED_NUMBER_FORMAT ", returned " CALCULATED_NUMBER_FORMAT "!\n", n, d);
+ return 1;
+ }
+
+ return 0;
}
int unit_test_storage()
{
- if(check_storage_number_exists()) return 0;
+ if(check_storage_number_exists()) return 0;
- calculated_number c, a = 0;
- int i, j, g, r = 0;
+ calculated_number c, a = 0;
+ int i, j, g, r = 0;
- for(g = -1; g <= 1 ; g++) {
- a = 0;
+ for(g = -1; g <= 1 ; g++) {
+ a = 0;
- if(!g) continue;
+ if(!g) continue;
- for(j = 0; j < 9 ;j++) {
- a += 0.0000001;
- c = a * g;
- for(i = 0; i < 21 ;i++, c *= 10) {
- if(c > 0 && c < STORAGE_NUMBER_POSITIVE_MIN) continue;
- if(c < 0 && c > STORAGE_NUMBER_NEGATIVE_MAX) continue;
+ for(j = 0; j < 9 ;j++) {
+ a += 0.0000001;
+ c = a * g;
+ for(i = 0; i < 21 ;i++, c *= 10) {
+ if(c > 0 && c < STORAGE_NUMBER_POSITIVE_MIN) continue;
+ if(c < 0 && c > STORAGE_NUMBER_NEGATIVE_MAX) continue;
- if(check_storage_number(c, 1)) return 1;
- }
- }
- }
+ if(check_storage_number(c, 1)) return 1;
+ }
+ }
+ }
- benchmark_storage_number(1000000, 2);
- return r;
+ benchmark_storage_number(1000000, 2);
+ return r;
}
// --------------------------------------------------------------------------------------------------------------------
struct feed_values {
- unsigned long long microseconds;
- calculated_number value;
+ unsigned long long microseconds;
+ collected_number value;
};
struct test {
- char name[100];
- char description[1024];
+ char name[100];
+ char description[1024];
+
+ int update_every;
+ unsigned long long multiplier;
+ unsigned long long divisor;
+ int algorithm;
- int update_every;
- unsigned long long multiplier;
- unsigned long long divisor;
- int algorithm;
+ unsigned long feed_entries;
+ unsigned long result_entries;
+ struct feed_values *feed;
+ calculated_number *results;
- unsigned long feed_entries;
- unsigned long result_entries;
- struct feed_values *feed;
- calculated_number *results;
+ collected_number *feed2;
+ calculated_number *results2;
};
// --------------------------------------------------------------------------------------------------------------------
@@ -269,33 +260,35 @@ struct test {
// test absolute values stored
struct feed_values test1_feed[] = {
- { 0, 10 },
- { 1000000, 20 },
- { 1000000, 30 },
- { 1000000, 40 },
- { 1000000, 50 },
- { 1000000, 60 },
- { 1000000, 70 },
- { 1000000, 80 },
- { 1000000, 90 },
- { 1000000, 100 },
+ { 0, 10 },
+ { 1000000, 20 },
+ { 1000000, 30 },
+ { 1000000, 40 },
+ { 1000000, 50 },
+ { 1000000, 60 },
+ { 1000000, 70 },
+ { 1000000, 80 },
+ { 1000000, 90 },
+ { 1000000, 100 },
};
calculated_number test1_results[] = {
- 20, 30, 40, 50, 60, 70, 80, 90, 100
+ 20, 30, 40, 50, 60, 70, 80, 90, 100
};
struct test test1 = {
- "test1", // name
- "test absolute values stored at exactly second boundaries",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_ABSOLUTE, // algorithm
- 10, // feed entries
- 9, // result entries
- test1_feed, // feed
- test1_results // results
+ "test1", // name
+ "test absolute values stored at exactly second boundaries",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_ABSOLUTE, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test1_feed, // feed
+ test1_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
@@ -303,497 +296,667 @@ struct test test1 = {
// test absolute values stored in the middle of second boundaries
struct feed_values test2_feed[] = {
- { 500000, 10 },
- { 1000000, 20 },
- { 1000000, 30 },
- { 1000000, 40 },
- { 1000000, 50 },
- { 1000000, 60 },
- { 1000000, 70 },
- { 1000000, 80 },
- { 1000000, 90 },
- { 1000000, 100 },
+ { 500000, 10 },
+ { 1000000, 20 },
+ { 1000000, 30 },
+ { 1000000, 40 },
+ { 1000000, 50 },
+ { 1000000, 60 },
+ { 1000000, 70 },
+ { 1000000, 80 },
+ { 1000000, 90 },
+ { 1000000, 100 },
};
calculated_number test2_results[] = {
- 20, 30, 40, 50, 60, 70, 80, 90, 100
+ 20, 30, 40, 50, 60, 70, 80, 90, 100
};
struct test test2 = {
- "test2", // name
- "test absolute values stored in the middle of second boundaries",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_ABSOLUTE, // algorithm
- 10, // feed entries
- 9, // result entries
- test2_feed, // feed
- test2_results // results
+ "test2", // name
+ "test absolute values stored in the middle of second boundaries",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_ABSOLUTE, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test2_feed, // feed
+ test2_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test3
struct feed_values test3_feed[] = {
- { 0, 10 },
- { 1000000, 20 },
- { 1000000, 30 },
- { 1000000, 40 },
- { 1000000, 50 },
- { 1000000, 60 },
- { 1000000, 70 },
- { 1000000, 80 },
- { 1000000, 90 },
- { 1000000, 100 },
+ { 0, 10 },
+ { 1000000, 20 },
+ { 1000000, 30 },
+ { 1000000, 40 },
+ { 1000000, 50 },
+ { 1000000, 60 },
+ { 1000000, 70 },
+ { 1000000, 80 },
+ { 1000000, 90 },
+ { 1000000, 100 },
};
calculated_number test3_results[] = {
- 10, 10, 10, 10, 10, 10, 10, 10, 10
+ 10, 10, 10, 10, 10, 10, 10, 10, 10
};
struct test test3 = {
- "test3", // name
- "test incremental values stored at exactly second boundaries",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_INCREMENTAL, // algorithm
- 10, // feed entries
- 9, // result entries
- test3_feed, // feed
- test3_results // results
+ "test3", // name
+ "test incremental values stored at exactly second boundaries",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_INCREMENTAL, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test3_feed, // feed
+ test3_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test4
struct feed_values test4_feed[] = {
- { 500000, 10 },
- { 1000000, 20 },
- { 1000000, 30 },
- { 1000000, 40 },
- { 1000000, 50 },
- { 1000000, 60 },
- { 1000000, 70 },
- { 1000000, 80 },
- { 1000000, 90 },
- { 1000000, 100 },
+ { 500000, 10 },
+ { 1000000, 20 },
+ { 1000000, 30 },
+ { 1000000, 40 },
+ { 1000000, 50 },
+ { 1000000, 60 },
+ { 1000000, 70 },
+ { 1000000, 80 },
+ { 1000000, 90 },
+ { 1000000, 100 },
};
calculated_number test4_results[] = {
- 5, 10, 10, 10, 10, 10, 10, 10, 10
+ 5, 10, 10, 10, 10, 10, 10, 10, 10
};
struct test test4 = {
- "test4", // name
- "test incremental values stored in the middle of second boundaries",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_INCREMENTAL, // algorithm
- 10, // feed entries
- 9, // result entries
- test4_feed, // feed
- test4_results // results
+ "test4", // name
+ "test incremental values stored in the middle of second boundaries",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_INCREMENTAL, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test4_feed, // feed
+ test4_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test5
struct feed_values test5_feed[] = {
- { 500000, 1000 },
- { 1000000, 2000 },
- { 1000000, 2000 },
- { 1000000, 2000 },
- { 1000000, 3000 },
- { 1000000, 2000 },
- { 1000000, 2000 },
- { 1000000, 2000 },
- { 1000000, 2000 },
- { 1000000, 2000 },
+ { 500000, 1000 },
+ { 1000000, 2000 },
+ { 1000000, 2000 },
+ { 1000000, 2000 },
+ { 1000000, 3000 },
+ { 1000000, 2000 },
+ { 1000000, 2000 },
+ { 1000000, 2000 },
+ { 1000000, 2000 },
+ { 1000000, 2000 },
};
calculated_number test5_results[] = {
- 500, 500, 0, 500, 500, 0, 0, 0, 0
+ 500, 500, 0, 500, 500, 0, 0, 0, 0
};
struct test test5 = {
- "test5", // name
- "test incremental values ups and downs",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_INCREMENTAL, // algorithm
- 10, // feed entries
- 9, // result entries
- test5_feed, // feed
- test5_results // results
+ "test5", // name
+ "test incremental values ups and downs",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_INCREMENTAL, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test5_feed, // feed
+ test5_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test6
struct feed_values test6_feed[] = {
- { 250000, 1000 },
- { 250000, 2000 },
- { 250000, 3000 },
- { 250000, 4000 },
- { 250000, 5000 },
- { 250000, 6000 },
- { 250000, 7000 },
- { 250000, 8000 },
- { 250000, 9000 },
- { 250000, 10000 },
- { 250000, 11000 },
- { 250000, 12000 },
- { 250000, 13000 },
- { 250000, 14000 },
- { 250000, 15000 },
- { 250000, 16000 },
+ { 250000, 1000 },
+ { 250000, 2000 },
+ { 250000, 3000 },
+ { 250000, 4000 },
+ { 250000, 5000 },
+ { 250000, 6000 },
+ { 250000, 7000 },
+ { 250000, 8000 },
+ { 250000, 9000 },
+ { 250000, 10000 },
+ { 250000, 11000 },
+ { 250000, 12000 },
+ { 250000, 13000 },
+ { 250000, 14000 },
+ { 250000, 15000 },
+ { 250000, 16000 },
};
calculated_number test6_results[] = {
- 3000, 4000, 4000, 4000
+ 3000, 4000, 4000, 4000
};
struct test test6 = {
- "test6", // name
- "test incremental values updated within the same second",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_INCREMENTAL, // algorithm
- 16, // feed entries
- 4, // result entries
- test6_feed, // feed
- test6_results // results
+ "test6", // name
+ "test incremental values updated within the same second",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_INCREMENTAL, // algorithm
+ 16, // feed entries
+ 4, // result entries
+ test6_feed, // feed
+ test6_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test7
struct feed_values test7_feed[] = {
- { 500000, 1000 },
- { 2000000, 2000 },
- { 2000000, 3000 },
- { 2000000, 4000 },
- { 2000000, 5000 },
- { 2000000, 6000 },
- { 2000000, 7000 },
- { 2000000, 8000 },
- { 2000000, 9000 },
- { 2000000, 10000 },
+ { 500000, 1000 },
+ { 2000000, 2000 },
+ { 2000000, 3000 },
+ { 2000000, 4000 },
+ { 2000000, 5000 },
+ { 2000000, 6000 },
+ { 2000000, 7000 },
+ { 2000000, 8000 },
+ { 2000000, 9000 },
+ { 2000000, 10000 },
};
calculated_number test7_results[] = {
- 250, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500
+ 250, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500, 500
};
struct test test7 = {
- "test7", // name
- "test incremental values updated in long durations",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_INCREMENTAL, // algorithm
- 10, // feed entries
- 18, // result entries
- test7_feed, // feed
- test7_results // results
+ "test7", // name
+ "test incremental values updated in long durations",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_INCREMENTAL, // algorithm
+ 10, // feed entries
+ 18, // result entries
+ test7_feed, // feed
+ test7_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test8
struct feed_values test8_feed[] = {
- { 500000, 1000 },
- { 2000000, 2000 },
- { 2000000, 3000 },
- { 2000000, 4000 },
- { 2000000, 5000 },
- { 2000000, 6000 },
+ { 500000, 1000 },
+ { 2000000, 2000 },
+ { 2000000, 3000 },
+ { 2000000, 4000 },
+ { 2000000, 5000 },
+ { 2000000, 6000 },
};
calculated_number test8_results[] = {
- 1250, 2000, 2250, 3000, 3250, 4000, 4250, 5000, 5250, 6000
+ 1250, 2000, 2250, 3000, 3250, 4000, 4250, 5000, 5250, 6000
};
struct test test8 = {
- "test8", // name
- "test absolute values updated in long durations",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_ABSOLUTE, // algorithm
- 6, // feed entries
- 10, // result entries
- test8_feed, // feed
- test8_results // results
+ "test8", // name
+ "test absolute values updated in long durations",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_ABSOLUTE, // algorithm
+ 6, // feed entries
+ 10, // result entries
+ test8_feed, // feed
+ test8_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test9
struct feed_values test9_feed[] = {
- { 250000, 1000 },
- { 250000, 2000 },
- { 250000, 3000 },
- { 250000, 4000 },
- { 250000, 5000 },
- { 250000, 6000 },
- { 250000, 7000 },
- { 250000, 8000 },
- { 250000, 9000 },
- { 250000, 10000 },
- { 250000, 11000 },
- { 250000, 12000 },
- { 250000, 13000 },
- { 250000, 14000 },
- { 250000, 15000 },
- { 250000, 16000 },
+ { 250000, 1000 },
+ { 250000, 2000 },
+ { 250000, 3000 },
+ { 250000, 4000 },
+ { 250000, 5000 },
+ { 250000, 6000 },
+ { 250000, 7000 },
+ { 250000, 8000 },
+ { 250000, 9000 },
+ { 250000, 10000 },
+ { 250000, 11000 },
+ { 250000, 12000 },
+ { 250000, 13000 },
+ { 250000, 14000 },
+ { 250000, 15000 },
+ { 250000, 16000 },
};
calculated_number test9_results[] = {
- 4000, 8000, 12000, 16000
+ 4000, 8000, 12000, 16000
};
struct test test9 = {
- "test9", // name
- "test absolute values updated within the same second",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_ABSOLUTE, // algorithm
- 16, // feed entries
- 4, // result entries
- test9_feed, // feed
- test9_results // results
+ "test9", // name
+ "test absolute values updated within the same second",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_ABSOLUTE, // algorithm
+ 16, // feed entries
+ 4, // result entries
+ test9_feed, // feed
+ test9_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
// test10
struct feed_values test10_feed[] = {
- { 500000, 1000 },
- { 600000, 1000 + 600 },
- { 200000, 1600 + 200 },
- { 1000000, 1800 + 1000 },
- { 200000, 2800 + 200 },
- { 2000000, 3000 + 2000 },
- { 600000, 5000 + 600 },
- { 400000, 5600 + 400 },
- { 900000, 6000 + 900 },
- { 1000000, 6900 + 1000 },
+ { 500000, 1000 },
+ { 600000, 1000 + 600 },
+ { 200000, 1600 + 200 },
+ { 1000000, 1800 + 1000 },
+ { 200000, 2800 + 200 },
+ { 2000000, 3000 + 2000 },
+ { 600000, 5000 + 600 },
+ { 400000, 5600 + 400 },
+ { 900000, 6000 + 900 },
+ { 1000000, 6900 + 1000 },
};
calculated_number test10_results[] = {
- 500, 1000, 1000, 1000, 1000, 1000, 1000
+ 500, 1000, 1000, 1000, 1000, 1000, 1000
};
struct test test10 = {
- "test10", // name
- "test incremental values updated in short and long durations",
- 1, // update_every
- 1, // multiplier
- 1, // divisor
- RRDDIM_INCREMENTAL, // algorithm
- 10, // feed entries
- 7, // result entries
- test10_feed, // feed
- test10_results // results
+ "test10", // name
+ "test incremental values updated in short and long durations",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_INCREMENTAL, // algorithm
+ 10, // feed entries
+ 7, // result entries
+ test10_feed, // feed
+ test10_results, // results
+ NULL, // feed2
+ NULL // results2
+};
+
+// --------------------------------------------------------------------------------------------------------------------
+// test11
+
+struct feed_values test11_feed[] = {
+ { 0, 10 },
+ { 1000000, 20 },
+ { 1000000, 30 },
+ { 1000000, 40 },
+ { 1000000, 50 },
+ { 1000000, 60 },
+ { 1000000, 70 },
+ { 1000000, 80 },
+ { 1000000, 90 },
+ { 1000000, 100 },
+};
+
+collected_number test11_feed2[] = {
+ 10, 20, 30, 40, 50, 60, 70, 80, 90, 100
+};
+
+calculated_number test11_results[] = {
+ 50, 50, 50, 50, 50, 50, 50, 50, 50
+};
+
+calculated_number test11_results2[] = {
+ 50, 50, 50, 50, 50, 50, 50, 50, 50
+};
+
+struct test test11 = {
+ "test11", // name
+ "test percentage-of-incremental-row with equal values",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_PCENT_OVER_DIFF_TOTAL, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test11_feed, // feed
+ test11_results, // results
+ test11_feed2, // feed2
+ test11_results2 // results2
+};
+
+// --------------------------------------------------------------------------------------------------------------------
+// test12
+
+struct feed_values test12_feed[] = {
+ { 0, 10 },
+ { 1000000, 20 },
+ { 1000000, 30 },
+ { 1000000, 40 },
+ { 1000000, 50 },
+ { 1000000, 60 },
+ { 1000000, 70 },
+ { 1000000, 80 },
+ { 1000000, 90 },
+ { 1000000, 100 },
+};
+
+collected_number test12_feed2[] = {
+ 10*3, 20*3, 30*3, 40*3, 50*3, 60*3, 70*3, 80*3, 90*3, 100*3
+};
+
+calculated_number test12_results[] = {
+ 25, 25, 25, 25, 25, 25, 25, 25, 25
+};
+
+calculated_number test12_results2[] = {
+ 75, 75, 75, 75, 75, 75, 75, 75, 75
+};
+
+struct test test12 = {
+ "test12", // name
+ "test percentage-of-incremental-row with equal values",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_PCENT_OVER_DIFF_TOTAL, // algorithm
+ 10, // feed entries
+ 9, // result entries
+ test12_feed, // feed
+ test12_results, // results
+ test12_feed2, // feed2
+ test12_results2 // results2
+};
+
+// --------------------------------------------------------------------------------------------------------------------
+// test13
+
+struct feed_values test13_feed[] = {
+ { 500000, 1000 },
+ { 600000, 1000 + 600 },
+ { 200000, 1600 + 200 },
+ { 1000000, 1800 + 1000 },
+ { 200000, 2800 + 200 },
+ { 2000000, 3000 + 2000 },
+ { 600000, 5000 + 600 },
+ { 400000, 5600 + 400 },
+ { 900000, 6000 + 900 },
+ { 1000000, 6900 + 1000 },
+};
+
+calculated_number test13_results[] = {
+ 83.3333300, 100, 100, 100, 100, 100, 100
+};
+
+struct test test13 = {
+ "test13", // name
+ "test incremental values updated in short and long durations",
+ 1, // update_every
+ 1, // multiplier
+ 1, // divisor
+ RRDDIM_PCENT_OVER_DIFF_TOTAL, // algorithm
+ 10, // feed entries
+ 7, // result entries
+ test13_feed, // feed
+ test13_results, // results
+ NULL, // feed2
+ NULL // results2
};
// --------------------------------------------------------------------------------------------------------------------
int run_test(struct test *test)
{
- fprintf(stderr, "\nRunning test '%s':\n%s\n", test->name, test->description);
-
- rrd_memory_mode = RRD_MEMORY_MODE_RAM;
- rrd_update_every = test->update_every;
-
- char name[101];
- snprintfz(name, 100, "unittest-%s", test->name);
-
- // create the chart
- RRDSET *st = rrdset_create("netdata", name, name, "netdata", NULL, "Unit Testing", "a value", 1, 1, RRDSET_TYPE_LINE);
- RRDDIM *rd = rrddim_add(st, "dimension", NULL, test->multiplier, test->divisor, test->algorithm);
- st->debug = 1;
-
- // feed it with the test data
- unsigned long c;
- for(c = 0; c < test->feed_entries; c++) {
- if(debug_flags) fprintf(stderr, "\n\n");
-
- if(c) {
- fprintf(stderr, " > %s: feeding position %lu, after %llu microseconds, with value " CALCULATED_NUMBER_FORMAT "\n", test->name, c+1, test->feed[c].microseconds, test->feed[c].value);
- rrdset_next_usec(st, test->feed[c].microseconds);
- }
- else {
- fprintf(stderr, " > %s: feeding position %lu with value " CALCULATED_NUMBER_FORMAT "\n", test->name, c+1, test->feed[c].value);
- }
-
- rrddim_set(st, "dimension", test->feed[c].value);
- rrdset_done(st);
-
- // align the first entry to second boundary
- if(!c) {
- fprintf(stderr, " > %s: fixing first collection time to be %llu microseconds to second boundary\n", test->name, test->feed[c].microseconds);
- rd->last_collected_time.tv_usec = st->last_collected_time.tv_usec = st->last_updated.tv_usec = test->feed[c].microseconds;
- }
- }
-
- // check the result
- int errors = 0;
-
- if(st->counter != test->result_entries) {
- fprintf(stderr, " %s stored %lu entries, but we were expecting %lu, ### E R R O R ###\n", test->name, st->counter, test->result_entries);
- errors++;
- }
-
- unsigned long max = (st->counter < test->result_entries)?st->counter:test->result_entries;
- for(c = 0 ; c < max ; c++) {
- calculated_number v = unpack_storage_number(rd->values[c]), n = test->results[c];
- fprintf(stderr, " %s: checking position %lu, expecting value " CALCULATED_NUMBER_FORMAT ", found " CALCULATED_NUMBER_FORMAT ", %s\n", test->name, c+1, n, v, (v == n)?"OK":"### E R R O R ###");
- if(v != n) errors++;
- }
-
- return errors;
+ fprintf(stderr, "\nRunning test '%s':\n%s\n", test->name, test->description);
+
+ rrd_memory_mode = RRD_MEMORY_MODE_RAM;
+ rrd_update_every = test->update_every;
+
+ char name[101];
+ snprintfz(name, 100, "unittest-%s", test->name);
+
+ // create the chart
+ RRDSET *st = rrdset_create("netdata", name, name, "netdata", NULL, "Unit Testing", "a value", 1, 1, RRDSET_TYPE_LINE);
+ RRDDIM *rd = rrddim_add(st, "dim1", NULL, test->multiplier, test->divisor, test->algorithm);
+
+ RRDDIM *rd2 = NULL;
+ if(test->feed2)
+ rd2 = rrddim_add(st, "dim2", NULL, test->multiplier, test->divisor, test->algorithm);
+
+ st->debug = 1;
+
+ // feed it with the test data
+ unsigned long c;
+ for(c = 0; c < test->feed_entries; c++) {
+ if(debug_flags) fprintf(stderr, "\n\n");
+
+ if(c) {
+ fprintf(stderr, " > %s: feeding position %lu, after %llu microseconds\n", test->name, c+1, test->feed[c].microseconds);
+ rrdset_next_usec(st, test->feed[c].microseconds);
+ }
+ else {
+ fprintf(stderr, " > %s: feeding position %lu\n", test->name, c+1);
+ }
+
+ fprintf(stderr, " >> %s with value " COLLECTED_NUMBER_FORMAT "\n", rd->name, test->feed[c].value);
+ rrddim_set(st, "dim1", test->feed[c].value);
+
+ if(rd2) {
+ fprintf(stderr, " >> %s with value " COLLECTED_NUMBER_FORMAT "\n", rd2->name, test->feed2[c]);
+ rrddim_set(st, "dim2", test->feed2[c]);
+ }
+
+ rrdset_done(st);
+
+ // align the first entry to second boundary
+ if(!c) {
+ fprintf(stderr, " > %s: fixing first collection time to be %llu microseconds to second boundary\n", test->name, test->feed[c].microseconds);
+ rd->last_collected_time.tv_usec = st->last_collected_time.tv_usec = st->last_updated.tv_usec = test->feed[c].microseconds;
+ }
+ }
+
+ // check the result
+ int errors = 0;
+
+ if(st->counter != test->result_entries) {
+ fprintf(stderr, " %s stored %lu entries, but we were expecting %lu, ### E R R O R ###\n", test->name, st->counter, test->result_entries);
+ errors++;
+ }
+
+ unsigned long max = (st->counter < test->result_entries)?st->counter:test->result_entries;
+ for(c = 0 ; c < max ; c++) {
+ calculated_number v = unpack_storage_number(rd->values[c]);
+ calculated_number n = test->results[c];
+ int same = (roundl(v * 10000000.0) == roundl(n * 10000000.0))?1:0;
+ fprintf(stderr, " %s/%s: checking position %lu, expecting value " CALCULATED_NUMBER_FORMAT ", found " CALCULATED_NUMBER_FORMAT ", %s\n", test->name, rd->name, c+1, n, v, (same)?"OK":"### E R R O R ###");
+ if(!same) errors++;
+
+ if(rd2) {
+ v = unpack_storage_number(rd2->values[c]);
+ n = test->results2[c];
+ same = (roundl(v * 10000000.0) == roundl(n * 10000000.0))?1:0;
+ fprintf(stderr, " %s/%s: checking position %lu, expecting value " CALCULATED_NUMBER_FORMAT ", found " CALCULATED_NUMBER_FORMAT ", %s\n", test->name, rd2->name, c+1, n, v, (same)?"OK":"### E R R O R ###");
+ if(!same) errors++;
+ }
+ }
+
+ return errors;
}
int run_all_mockup_tests(void)
{
- if(run_test(&test1))
- return 1;
+ if(run_test(&test1))
+ return 1;
+
+ if(run_test(&test2))
+ return 1;
+
+ if(run_test(&test3))
+ return 1;
+
+ if(run_test(&test4))
+ return 1;
- if(run_test(&test2))
- return 1;
+ if(run_test(&test5))
+ return 1;
- if(run_test(&test3))
- return 1;
+ if(run_test(&test6))
+ return 1;
- if(run_test(&test4))
- return 1;
+ if(run_test(&test7))
+ return 1;
- if(run_test(&test5))
- return 1;
+ if(run_test(&test8))
+ return 1;
- if(run_test(&test6))
- return 1;
+ if(run_test(&test9))
+ return 1;
- if(run_test(&test7))
- return 1;
+ if(run_test(&test10))
+ return 1;
- if(run_test(&test8))
- return 1;
+ if(run_test(&test11))
+ return 1;
- if(run_test(&test9))
- return 1;
+ if(run_test(&test12))
+ return 1;
- if(run_test(&test10))
- return 1;
+ if(run_test(&test13))
+ return 1;
- return 0;
+ return 0;
}
int unit_test(long delay, long shift)
{
- static int repeat = 0;
- repeat++;
-
- char name[101];
- snprintfz(name, 100, "unittest-%d-%ld-%ld", repeat, delay, shift);
-
- //debug_flags = 0xffffffff;
- rrd_memory_mode = RRD_MEMORY_MODE_RAM;
- rrd_update_every = 1;
-
- int do_abs = 1;
- int do_inc = 1;
- int do_abst = 0;
- int do_absi = 0;
-
- RRDSET *st = rrdset_create("netdata", name, name, "netdata", NULL, "Unit Testing", "a value", 1, 1, RRDSET_TYPE_LINE);
- st->debug = 1;
-
- RRDDIM *rdabs = NULL;
- RRDDIM *rdinc = NULL;
- RRDDIM *rdabst = NULL;
- RRDDIM *rdabsi = NULL;
-
- if(do_abs) rdabs = rrddim_add(st, "absolute", "absolute", 1, 1, RRDDIM_ABSOLUTE);
- if(do_inc) rdinc = rrddim_add(st, "incremental", "incremental", 1, 1, RRDDIM_INCREMENTAL);
- if(do_abst) rdabst = rrddim_add(st, "percentage-of-absolute-row", "percentage-of-absolute-row", 1, 1, RRDDIM_PCENT_OVER_ROW_TOTAL);
- if(do_absi) rdabsi = rrddim_add(st, "percentage-of-incremental-row", "percentage-of-incremental-row", 1, 1, RRDDIM_PCENT_OVER_DIFF_TOTAL);
-
- long increment = 1000;
- collected_number i = 0;
-
- unsigned long c, dimensions = 0;
- RRDDIM *rd;
- for(rd = st->dimensions ; rd ; rd = rd->next) dimensions++;
-
- for(c = 0; c < 20 ;c++) {
- i += increment;
-
- fprintf(stderr, "\n\nLOOP = %lu, DELAY = %ld, VALUE = " COLLECTED_NUMBER_FORMAT "\n", c, delay, i);
- if(c) {
- rrdset_next_usec(st, delay);
- }
- if(do_abs) rrddim_set(st, "absolute", i);
- if(do_inc) rrddim_set(st, "incremental", i);
- if(do_abst) rrddim_set(st, "percentage-of-absolute-row", i);
- if(do_absi) rrddim_set(st, "percentage-of-incremental-row", i);
-
- if(!c) {
- gettimeofday(&st->last_collected_time, NULL);
- st->last_collected_time.tv_usec = shift;
- }
-
- // prevent it from deleting the dimensions
- for(rd = st->dimensions ; rd ; rd = rd->next)
- rd->last_collected_time.tv_sec = st->last_collected_time.tv_sec;
-
- rrdset_done(st);
- }
-
- unsigned long oincrement = increment;
- increment = increment * st->update_every * 1000000 / delay;
- fprintf(stderr, "\n\nORIGINAL INCREMENT: %lu, INCREMENT %lu, DELAY %lu, SHIFT %lu\n", oincrement * 10, increment * 10, delay, shift);
-
- int ret = 0;
- storage_number sn;
- calculated_number cn, v;
- for(c = 0 ; c < st->counter ; c++) {
- fprintf(stderr, "\nPOSITION: c = %lu, EXPECTED VALUE %lu\n", c, (oincrement + c * increment + increment * (1000000 - shift) / 1000000 )* 10);
-
- for(rd = st->dimensions ; rd ; rd = rd->next) {
- sn = rd->values[c];
- cn = unpack_storage_number(sn);
- fprintf(stderr, "\t %s " CALCULATED_NUMBER_FORMAT " (PACKED AS " STORAGE_NUMBER_FORMAT ") -> ", rd->id, cn, sn);
-
- if(rd == rdabs) v =
- ( oincrement
- // + (increment * (1000000 - shift) / 1000000)
- + (c + 1) * increment
- );
-
- else if(rd == rdinc) v = (c?(increment):(increment * (1000000 - shift) / 1000000));
- else if(rd == rdabst) v = oincrement / dimensions / 10;
- else if(rd == rdabsi) v = oincrement / dimensions / 10;
- else v = 0;
-
- if(v == cn) fprintf(stderr, "passed.\n");
- else {
- fprintf(stderr, "ERROR! (expected " CALCULATED_NUMBER_FORMAT ")\n", v);
- ret = 1;
- }
- }
- }
-
- if(ret)
- fprintf(stderr, "\n\nUNIT TEST(%ld, %ld) FAILED\n\n", delay, shift);
-
- return ret;
+ static int repeat = 0;
+ repeat++;
+
+ char name[101];
+ snprintfz(name, 100, "unittest-%d-%ld-%ld", repeat, delay, shift);
+
+ //debug_flags = 0xffffffff;
+ rrd_memory_mode = RRD_MEMORY_MODE_RAM;
+ rrd_update_every = 1;
+
+ int do_abs = 1;
+ int do_inc = 1;
+ int do_abst = 0;
+ int do_absi = 0;
+
+ RRDSET *st = rrdset_create("netdata", name, name, "netdata", NULL, "Unit Testing", "a value", 1, 1, RRDSET_TYPE_LINE);
+ st->debug = 1;
+
+ RRDDIM *rdabs = NULL;
+ RRDDIM *rdinc = NULL;
+ RRDDIM *rdabst = NULL;
+ RRDDIM *rdabsi = NULL;
+
+ if(do_abs) rdabs = rrddim_add(st, "absolute", "absolute", 1, 1, RRDDIM_ABSOLUTE);
+ if(do_inc) rdinc = rrddim_add(st, "incremental", "incremental", 1, 1, RRDDIM_INCREMENTAL);
+ if(do_abst) rdabst = rrddim_add(st, "percentage-of-absolute-row", "percentage-of-absolute-row", 1, 1, RRDDIM_PCENT_OVER_ROW_TOTAL);
+ if(do_absi) rdabsi = rrddim_add(st, "percentage-of-incremental-row", "percentage-of-incremental-row", 1, 1, RRDDIM_PCENT_OVER_DIFF_TOTAL);
+
+ long increment = 1000;
+ collected_number i = 0;
+
+ unsigned long c, dimensions = 0;
+ RRDDIM *rd;
+ for(rd = st->dimensions ; rd ; rd = rd->next) dimensions++;
+
+ for(c = 0; c < 20 ;c++) {
+ i += increment;
+
+ fprintf(stderr, "\n\nLOOP = %lu, DELAY = %ld, VALUE = " COLLECTED_NUMBER_FORMAT "\n", c, delay, i);
+ if(c) {
+ rrdset_next_usec(st, delay);
+ }
+ if(do_abs) rrddim_set(st, "absolute", i);
+ if(do_inc) rrddim_set(st, "incremental", i);
+ if(do_abst) rrddim_set(st, "percentage-of-absolute-row", i);
+ if(do_absi) rrddim_set(st, "percentage-of-incremental-row", i);
+
+ if(!c) {
+ gettimeofday(&st->last_collected_time, NULL);
+ st->last_collected_time.tv_usec = shift;
+ }
+
+ // prevent it from deleting the dimensions
+ for(rd = st->dimensions ; rd ; rd = rd->next)
+ rd->last_collected_time.tv_sec = st->last_collected_time.tv_sec;
+
+ rrdset_done(st);
+ }
+
+ unsigned long oincrement = increment;
+ increment = increment * st->update_every * 1000000 / delay;
+ fprintf(stderr, "\n\nORIGINAL INCREMENT: %lu, INCREMENT %ld, DELAY %ld, SHIFT %ld\n", oincrement * 10, increment * 10, delay, shift);
+
+ int ret = 0;
+ storage_number sn;
+ calculated_number cn, v;
+ for(c = 0 ; c < st->counter ; c++) {
+ fprintf(stderr, "\nPOSITION: c = %lu, EXPECTED VALUE %lu\n", c, (oincrement + c * increment + increment * (1000000 - shift) / 1000000 )* 10);
+
+ for(rd = st->dimensions ; rd ; rd = rd->next) {
+ sn = rd->values[c];
+ cn = unpack_storage_number(sn);
+ fprintf(stderr, "\t %s " CALCULATED_NUMBER_FORMAT " (PACKED AS " STORAGE_NUMBER_FORMAT ") -> ", rd->id, cn, sn);
+
+ if(rd == rdabs) v =
+ ( oincrement
+ // + (increment * (1000000 - shift) / 1000000)
+ + (c + 1) * increment
+ );
+
+ else if(rd == rdinc) v = (c?(increment):(increment * (1000000 - shift) / 1000000));
+ else if(rd == rdabst) v = oincrement / dimensions / 10;
+ else if(rd == rdabsi) v = oincrement / dimensions / 10;
+ else v = 0;
+
+ if(v == cn) fprintf(stderr, "passed.\n");
+ else {
+ fprintf(stderr, "ERROR! (expected " CALCULATED_NUMBER_FORMAT ")\n", v);
+ ret = 1;
+ }
+ }
+ }
+
+ if(ret)
+ fprintf(stderr, "\n\nUNIT TEST(%ld, %ld) FAILED\n\n", delay, shift);
+
+ return ret;
}