-/* ------------------------------------------------\r
-Copyright 2014 AT&T Intellectual Property\r
- Licensed under the Apache License, Version 2.0 (the "License");\r
- you may not use this file except in compliance with the License.\r
- You may obtain a copy of the License at\r
-\r
- http://www.apache.org/licenses/LICENSE-2.0\r
-\r
- Unless required by applicable law or agreed to in writing, software\r
- distributed under the License is distributed on an "AS IS" BASIS,\r
- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.\r
- See the License for the specific language governing permissions and\r
- limitations under the License.\r
- ------------------------------------------- */\r
-\r
-#include "rts_udaf.h"\r
-#include "gsconfig.h"\r
-#include "gstypes.h"\r
-#include <stdio.h>\r
-#include <limits.h>\r
-#include <math.h>\r
-\r
-\r
-#define max(a,b) ((a) > (b) ? (a) : (b))\r
-#define MAX_BUFSIZE 128\r
-\r
-\r
-/****************************************************************/\r
-/* LFTA functions */\r
-/****************************************************************/\r
-\r
-\r
-////////////////////////////////////////////////////////////////////////\r
-//// avg_udaf\r
-\r
-typedef struct avg_udaf_lfta_struct_t{\r
- gs_int64_t sum;\r
- gs_uint32_t cnt;\r
-} avg_udaf_lfta_struct_t;\r
-\r
-void avg_udaf_lfta_LFTA_AGGR_INIT_(gs_sp_t b){\r
- avg_udaf_lfta_struct_t *s = (avg_udaf_lfta_struct_t *)b;\r
- s->sum = 0;\r
- s->cnt = 0;\r
-}\r
-\r
-void avg_udaf_lfta_LFTA_AGGR_UPDATE_(gs_sp_t b,gs_uint32_t v){\r
- avg_udaf_lfta_struct_t *s = (avg_udaf_lfta_struct_t *)b;\r
- s->sum += v;\r
- s->cnt++;\r
-}\r
-\r
-gs_retval_t avg_udaf_lfta_LFTA_AGGR_FLUSHME_(gs_sp_t b){\r
- return 0;\r
-}\r
-\r
-void avg_udaf_lfta_LFTA_AGGR_OUTPUT_(struct gs_string *r,gs_sp_t b){\r
- r->length = 12;\r
- r->data = b;\r
-}\r
-\r
-void avg_udaf_lfta_LFTA_AGGR_DESTROY_(gs_sp_t b){\r
- return;\r
-}\r
-\r
-/////////////////////////////////////////////////////////\r
-// Moving sum\r
-\r
-typedef struct moving_sum_lfta_struct{\r
- gs_uint32_t sum;\r
- gs_uint32_t N;\r
-} moving_sum_lfta_struct;\r
-\r
-void moving_sum_lfta_LFTA_AGGR_INIT_(gs_sp_t b){\r
- moving_sum_lfta_struct *s = (moving_sum_lfta_struct *)b;\r
- s->sum = 0;\r
- s->N = 0;\r
-}\r
-\r
-void moving_sum_lfta_LFTA_AGGR_UPDATE_(gs_sp_t b, gs_uint32_t v, gs_uint32_t N){\r
- moving_sum_lfta_struct *s = (moving_sum_lfta_struct *)b;\r
- s->sum += v;\r
- s->N = N;\r
-}\r
- \r
-gs_retval_t moving_sum_lfta_LFTA_AGGR_FLUSHME_(gs_sp_t b){\r
- return 0;\r
-}\r
-\r
-void moving_sum_lfta_LFTA_AGGR_OUTPUT_(gs_uint64_t *r, gs_sp_t b){\r
- moving_sum_lfta_struct *s = (moving_sum_lfta_struct *)b;\r
- *r = ((gs_uint64_t)(s->N) << 32) | (gs_uint64_t)(s->sum);\r
-}\r
-\r
-gs_retval_t moving_sum_lfta_LFTA_AGGR_DESTROY_(gs_sp_t b){\r
- return 0;\r
-}\r
-\r
-/////////////////////////////////////////////////////////\r
-// FIRST and LAST aggregates\r
-\r
-void FIRST_lfta_LFTA_AGGR_INIT_(gs_uint32_t* scratch) {\r
- *scratch = UINT_MAX; // we will encode uninitialized value of UINT_MAX\r
- return;\r
-}\r
-\r
-void FIRST_lfta_LFTA_AGGR_UPDATE_(gs_uint32_t* scratch, gs_uint32_t val) {\r
- if (*scratch == UINT_MAX)\r
- *scratch = val;\r
- return;\r
-}\r
-\r
-gs_retval_t FIRST_lfta_LFTA_AGGR_FLUSHME_( gs_uint32_t* scratch) { return 0; }\r
-\r
-void FIRST_lfta_LFTA_AGGR_OUTPUT_(gs_uint32_t* res, gs_uint32_t* scratch) {\r
- *res = *scratch;\r
-}\r
-\r
-void FIRST_lfta_LFTA_AGGR_DESTROY_(gs_uint32_t* scratch) { return; }\r
-\r
-void FIRST_ULL_lfta_LFTA_AGGR_INIT_(gs_uint64_t* scratch) {\r
- *scratch = ULLONG_MAX; // we will encode uninitialized value of ULLONG_MAX\r
- return;\r
-}\r
-\r
-void FIRST_ULL_lfta_LFTA_AGGR_UPDATE_(gs_uint64_t* scratch, gs_uint64_t val) {\r
- if (*scratch == ULLONG_MAX)\r
- *scratch = val;\r
- return;\r
-}\r
-\r
-gs_retval_t FIRST_ULL_lfta_LFTA_AGGR_FLUSHME_( gs_uint64_t* scratch) { return 0; }\r
-\r
-void FIRST_ULL_lfta_LFTA_AGGR_OUTPUT_(gs_uint64_t* res, gs_uint64_t* scratch) {\r
- *res = *scratch;\r
-}\r
-\r
-void FIRST_ULL_lfta_LFTA_AGGR_DESTROY_(gs_uint64_t* scratch) { return; }\r
-\r
-\r
-\r
-void FIRST_STR_lfta_LFTA_AGGR_INIT_(struct gs_string* scratch) {\r
- scratch->data = NULL;\r
- return;\r
-}\r
-\r
-void FIRST_STR_lfta_LFTA_AGGR_UPDATE_(struct gs_string* scratch, struct gs_string* val) {\r
- if (!scratch->data) {\r
- str_assign_with_copy(NULL, scratch, val);\r
- }\r
- return;\r
-}\r
-\r
-gs_retval_t FIRST_STR_lfta_LFTA_AGGR_FLUSHME_(struct gs_string* scratch) { return 0; }\r
-\r
-void FIRST_STR_lfta_LFTA_AGGR_OUTPUT_(struct gs_string* res, struct gs_string* scratch) {\r
- *res = *scratch;\r
-}\r
-\r
-void FIRST_STR_lfta_LFTA_AGGR_DESTROY_(struct gs_string* scratch) { \r
- if (scratch->data) \r
- fta_free(NULL, scratch->data);\r
-}\r
-\r
-void LAST_lfta_LFTA_AGGR_INIT_(gs_uint32_t* scratch) { }\r
-\r
-void LAST_lfta_LFTA_AGGR_UPDATE_(gs_uint32_t* scratch, gs_uint32_t val) {\r
- *scratch = val;\r
- return;\r
-}\r
-\r
-gs_retval_t LAST_lfta_LFTA_AGGR_FLUSHME_( gs_uint32_t* scratch) { return 0; }\r
-\r
-void LAST_lfta_LFTA_AGGR_OUTPUT_(gs_uint32_t* res, gs_uint32_t* scratch) {\r
- *res = *scratch;\r
-}\r
-\r
-void LAST_lfta_LFTA_AGGR_DESTROY_(gs_uint32_t* scratch) { return; }\r
-\r
-void LAST_ULL_lfta_LFTA_AGGR_INIT_(gs_uint64_t* scratch) { }\r
-\r
-void LAST_ULL_lfta_LFTA_AGGR_UPDATE_(gs_uint64_t* scratch, gs_uint64_t val) {\r
- *scratch = val;\r
- return;\r
-}\r
-\r
-gs_retval_t LAST_ULL_lfta_LFTA_AGGR_FLUSHME_( gs_uint64_t* scratch) { return 0; }\r
-\r
-void LAST_ULL_lfta_LFTA_AGGR_OUTPUT_(gs_uint64_t* res, gs_uint64_t* scratch) {\r
- *res = *scratch;\r
-}\r
-\r
-void LAST_ULL_lfta_LFTA_AGGR_DESTROY_(gs_uint64_t* scratch) { return; }\r
-\r
-\r
-\r
-void LAST_STR_lfta_LFTA_AGGR_INIT_(struct gs_string* scratch) {\r
- scratch->data = NULL;\r
- return;\r
-}\r
-\r
-void LAST_STR_lfta_LFTA_AGGR_UPDATE_(struct gs_string* scratch, struct gs_string* val) {\r
- if (!scratch->data) {\r
- str_assign_with_copy(NULL, scratch, val);\r
- } else {\r
- if (!str_compare(scratch, val)) {\r
- fta_free(NULL, scratch->data);\r
- str_assign_with_copy(NULL, scratch, val);\r
- }\r
- }\r
- return;\r
-}\r
-\r
-gs_retval_t LAST_STR_lfta_LFTA_AGGR_FLUSHME_(struct gs_string* scratch) { return 0; }\r
-\r
-void LAST_STR_lfta_LFTA_AGGR_OUTPUT_(struct gs_string* res, struct gs_string* scratch) {\r
- *res = *scratch;\r
-}\r
-\r
-void LAST_STR_lfta_LFTA_AGGR_DESTROY_(struct gs_string* scratch) { \r
- if (scratch->data) \r
- fta_free(NULL, scratch->data);\r
-}\r
-\r
-\r
-/////////////////////////////////////////////////////////\r
-// running_array_aggr aggregate\r
-\r
-struct running_array_aggr_str{\r
- gs_uint32_t num_list[4];\r
- gs_uint8_t n_num;\r
-};\r
-\r
-void running_array_aggr_lfta_LFTA_AGGR_INIT_(char* scratch) {\r
- struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;\r
- aggr->n_num = 0;\r
-}\r
-\r
-void running_array_aggr_lfta_LFTA_AGGR_UPDATE_(char* scratch, gs_uint32_t val) {\r
- struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;\r
- aggr->num_list[aggr->n_num++] = val;\r
-}\r
-\r
-gs_retval_t running_array_aggr_lfta_LFTA_AGGR_FLUSHME_(char* scratch) {\r
- struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;\r
- return (aggr->n_num == 4);\r
-}\r
-void running_array_aggr_lfta_LFTA_AGGR_OUTPUT_(struct gs_string* res, char* scratch) {\r
- struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch; \r
- res->data = scratch;\r
- res->length = aggr->n_num * sizeof(gs_uint32_t);\r
- res->owner = NULL;\r
-}\r
-\r
-void running_array_aggr_lfta_LFTA_AGGR_DESTROY_(char* scratch) { }\r
-\r
+/* ------------------------------------------------
+Copyright 2014 AT&T Intellectual Property
+ Licensed under the Apache License, Version 2.0 (the "License");
+ you may not use this file except in compliance with the License.
+ You may obtain a copy of the License at
+
+ http://www.apache.org/licenses/LICENSE-2.0
+
+ Unless required by applicable law or agreed to in writing, software
+ distributed under the License is distributed on an "AS IS" BASIS,
+ WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ See the License for the specific language governing permissions and
+ limitations under the License.
+ ------------------------------------------- */
+
+#include "rts_udaf.h"
+#include "gsconfig.h"
+#include "gstypes.h"
+#include <stdio.h>
+#include <limits.h>
+#include <math.h>
+
+
+#define max(a,b) ((a) > (b) ? (a) : (b))
+#define MAX_BUFSIZE 128
+
+
+/****************************************************************/
+/* LFTA functions */
+/****************************************************************/
+
+
+////////////////////////////////////////////////////////////////////////
+//// avg_udaf
+
+typedef struct avg_udaf_lfta_struct_t{
+ gs_int64_t sum;
+ gs_uint32_t cnt;
+} avg_udaf_lfta_struct_t;
+
+void avg_udaf_lfta_LFTA_AGGR_INIT_(gs_sp_t b){
+ avg_udaf_lfta_struct_t *s = (avg_udaf_lfta_struct_t *)b;
+ s->sum = 0;
+ s->cnt = 0;
+}
+
+void avg_udaf_lfta_LFTA_AGGR_UPDATE_(gs_sp_t b,gs_uint32_t v){
+ avg_udaf_lfta_struct_t *s = (avg_udaf_lfta_struct_t *)b;
+ s->sum += v;
+ s->cnt++;
+}
+
+gs_retval_t avg_udaf_lfta_LFTA_AGGR_FLUSHME_(gs_sp_t b){
+ return 0;
+}
+
+void avg_udaf_lfta_LFTA_AGGR_OUTPUT_(struct gs_string *r,gs_sp_t b){
+ r->length = 12;
+ r->data = b;
+}
+
+void avg_udaf_lfta_LFTA_AGGR_DESTROY_(gs_sp_t b){
+ return;
+}
+
+/////////////////////////////////////////////////////////
+// Moving sum
+
+typedef struct moving_sum_lfta_struct{
+ gs_uint32_t sum;
+ gs_uint32_t N;
+} moving_sum_lfta_struct;
+
+void moving_sum_lfta_LFTA_AGGR_INIT_(gs_sp_t b){
+ moving_sum_lfta_struct *s = (moving_sum_lfta_struct *)b;
+ s->sum = 0;
+ s->N = 0;
+}
+
+void moving_sum_lfta_LFTA_AGGR_UPDATE_(gs_sp_t b, gs_uint32_t v, gs_uint32_t N){
+ moving_sum_lfta_struct *s = (moving_sum_lfta_struct *)b;
+ s->sum += v;
+ s->N = N;
+}
+
+gs_retval_t moving_sum_lfta_LFTA_AGGR_FLUSHME_(gs_sp_t b){
+ return 0;
+}
+
+void moving_sum_lfta_LFTA_AGGR_OUTPUT_(gs_uint64_t *r, gs_sp_t b){
+ moving_sum_lfta_struct *s = (moving_sum_lfta_struct *)b;
+ *r = ((gs_uint64_t)(s->N) << 32) | (gs_uint64_t)(s->sum);
+}
+
+gs_retval_t moving_sum_lfta_LFTA_AGGR_DESTROY_(gs_sp_t b){
+ return 0;
+}
+
+/////////////////////////////////////////////////////////
+// FIRST and LAST aggregates
+
+///////////////// FIRST
+
+// uint
+void FIRST_lfta_LFTA_AGGR_INIT_(gs_uint32_t* scratch) {
+ *scratch = UINT_MAX; // we will encode uninitialized value of UINT_MAX
+ return;
+}
+
+void FIRST_lfta_LFTA_AGGR_UPDATE_(gs_uint32_t* scratch, gs_uint32_t val) {
+ if (*scratch == UINT_MAX)
+ *scratch = val;
+ return;
+}
+gs_retval_t FIRST_lfta_LFTA_AGGR_FLUSHME_( gs_uint32_t* scratch) { return 0; }
+void FIRST_lfta_LFTA_AGGR_OUTPUT_(gs_uint32_t* res, gs_uint32_t* scratch) {
+ *res = *scratch;
+}
+void FIRST_lfta_LFTA_AGGR_DESTROY_(gs_uint32_t* scratch) { return; }
+
+// int
+void FIRST_INT_lfta_LFTA_AGGR_INIT_(gs_int32_t* scratch) {
+ *scratch = INT_MAX; // we will encode uninitialized value of ULLONG_MAX
+ return;
+}
+void FIRST_INT_lfta_LFTA_AGGR_UPDATE_(gs_int32_t* scratch, gs_int32_t val) {
+ if (*scratch == INT_MAX)
+ *scratch = val;
+ return;
+}
+gs_retval_t FIRST_INT_lfta_LFTA_AGGR_FLUSHME_( gs_int32_t* scratch) { return 0; }
+void FIRST_INT_lfta_LFTA_AGGR_OUTPUT_(gs_int32_t* res, gs_int32_t* scratch) {
+ *res = *scratch;
+}
+void FIRST_INT_lfta_LFTA_AGGR_DESTROY_(gs_int32_t* scratch) { return; }
+
+// ullong
+void FIRST_ULL_lfta_LFTA_AGGR_INIT_(gs_uint64_t* scratch) {
+ *scratch = ULLONG_MAX; // we will encode uninitialized value of ULLONG_MAX
+ return;
+}
+void FIRST_ULL_lfta_LFTA_AGGR_UPDATE_(gs_uint64_t* scratch, gs_uint64_t val) {
+ if (*scratch == ULLONG_MAX)
+ *scratch = val;
+ return;
+}
+gs_retval_t FIRST_ULL_lfta_LFTA_AGGR_FLUSHME_( gs_uint64_t* scratch) { return 0; }
+void FIRST_ULL_lfta_LFTA_AGGR_OUTPUT_(gs_uint64_t* res, gs_uint64_t* scratch) {
+ *res = *scratch;
+}
+void FIRST_ULL_lfta_LFTA_AGGR_DESTROY_(gs_uint64_t* scratch) { return; }
+
+// llong
+void FIRST_LL_lfta_LFTA_AGGR_INIT_(gs_int64_t* scratch) {
+ *scratch = LLONG_MAX; // we will encode uninitialized value of ULLONG_MAX
+ return;
+}
+void FIRST_LL_lfta_LFTA_AGGR_UPDATE_(gs_int64_t* scratch, gs_int64_t val) {
+ if (*scratch == LLONG_MAX)
+ *scratch = val;
+ return;
+}
+gs_retval_t FIRST_LL_lfta_LFTA_AGGR_FLUSHME_( gs_int64_t* scratch) { return 0; }
+void FIRST_LL_lfta_LFTA_AGGR_OUTPUT_(gs_int64_t* res, gs_int64_t* scratch) {
+ *res = *scratch;
+}
+void FIRST_LL_lfta_LFTA_AGGR_DESTROY_(gs_int64_t* scratch) { return; }
+
+// string
+void FIRST_STR_lfta_LFTA_AGGR_INIT_(struct gs_string* scratch) {
+ scratch->data = NULL;
+ return;
+}
+void FIRST_STR_lfta_LFTA_AGGR_UPDATE_(struct gs_string* scratch, struct gs_string* val) {
+ if (!scratch->data) {
+ str_assign_with_copy(NULL, scratch, val);
+ }
+ return;
+}
+gs_retval_t FIRST_STR_lfta_LFTA_AGGR_FLUSHME_(struct gs_string* scratch) { return 0; }
+void FIRST_STR_lfta_LFTA_AGGR_OUTPUT_(struct gs_string* res, struct gs_string* scratch) {
+ *res = *scratch;
+}
+void FIRST_STR_lfta_LFTA_AGGR_DESTROY_(struct gs_string* scratch) {
+ if (scratch->data)
+ fta_free(NULL, scratch->data);
+}
+
+///////////////// LAST
+
+// uint
+void LAST_lfta_LFTA_AGGR_INIT_(gs_uint32_t* scratch) { }
+void LAST_lfta_LFTA_AGGR_UPDATE_(gs_uint32_t* scratch, gs_uint32_t val) {
+ *scratch = val;
+ return;
+}
+gs_retval_t LAST_lfta_LFTA_AGGR_FLUSHME_( gs_uint32_t* scratch) { return 0; }
+
+void LAST_lfta_LFTA_AGGR_OUTPUT_(gs_uint32_t* res, gs_uint32_t* scratch) {
+ *res = *scratch;
+}
+void LAST_lfta_LFTA_AGGR_DESTROY_(gs_uint32_t* scratch) { return; }
+
+// int
+void LAST_INT_lfta_LFTA_AGGR_INIT_(gs_int32_t* scratch) { }
+void LAST_INT_lfta_LFTA_AGGR_UPDATE_(gs_int32_t* scratch, gs_int32_t val) {
+ *scratch = val;
+ return;
+}
+gs_retval_t LAST_INT_lfta_LFTA_AGGR_FLUSHME_( gs_int32_t* scratch) { return 0; }
+void LAST_INT_lfta_LFTA_AGGR_OUTPUT_(gs_int32_t* res, gs_int32_t* scratch) {
+ *res = *scratch;
+}
+void LAST_INT_lfta_LFTA_AGGR_DESTROY_(gs_int32_t* scratch) { return; }
+
+// ullong
+void LAST_ULL_lfta_LFTA_AGGR_INIT_(gs_uint64_t* scratch) { }
+void LAST_ULL_lfta_LFTA_AGGR_UPDATE_(gs_uint64_t* scratch, gs_uint64_t val) {
+ *scratch = val;
+ return;
+}
+gs_retval_t LAST_ULL_lfta_LFTA_AGGR_FLUSHME_( gs_uint64_t* scratch) { return 0; }
+void LAST_ULL_lfta_LFTA_AGGR_OUTPUT_(gs_uint64_t* res, gs_uint64_t* scratch) {
+ *res = *scratch;
+}
+void LAST_ULL_lfta_LFTA_AGGR_DESTROY_(gs_uint64_t* scratch) { return; }
+
+// llong
+void LAST_LL_lfta_LFTA_AGGR_INIT_(gs_int64_t* scratch) { }
+void LAST_LL_lfta_LFTA_AGGR_UPDATE_(gs_int64_t* scratch, gs_int64_t val) {
+ *scratch = val;
+ return;
+}
+gs_retval_t LAST_LL_lfta_LFTA_AGGR_FLUSHME_( gs_int64_t* scratch) { return 0; }
+void LAST_LL_lfta_LFTA_AGGR_OUTPUT_(gs_int64_t* res, gs_int64_t* scratch) {
+ *res = *scratch;
+}
+void LAST_LL_lfta_LFTA_AGGR_DESTROY_(gs_int64_t* scratch) { return; }
+
+// string
+void LAST_STR_lfta_LFTA_AGGR_INIT_(struct gs_string* scratch) {
+ scratch->data = NULL;
+ return;
+}
+void LAST_STR_lfta_LFTA_AGGR_UPDATE_(struct gs_string* scratch, struct gs_string* val) {
+ if (!scratch->data) {
+ str_assign_with_copy(NULL, scratch, val);
+ } else {
+ if (!str_compare(scratch, val)) {
+ fta_free(NULL, scratch->data);
+ str_assign_with_copy(NULL, scratch, val);
+ }
+ }
+ return;
+}
+gs_retval_t LAST_STR_lfta_LFTA_AGGR_FLUSHME_(struct gs_string* scratch) { return 0; }
+
+void LAST_STR_lfta_LFTA_AGGR_OUTPUT_(struct gs_string* res, struct gs_string* scratch) {
+ *res = *scratch;
+}
+
+void LAST_STR_lfta_LFTA_AGGR_DESTROY_(struct gs_string* scratch) {
+ if (scratch->data)
+ fta_free(NULL, scratch->data);
+}
+
+////////////////////////////////////////////////////////
+// count_diff aggregate
+struct lfta_count_diff_scratch{
+ gs_uint32_t count;
+ union{
+ gs_uint32_t ui;
+ gs_int32_t i;
+ gs_uint64_t ul;
+ gs_int64_t l;
+ } first;
+ union{
+ gs_uint32_t ui;
+ gs_int32_t i;
+ gs_uint64_t ul;
+ gs_int64_t l;
+ } last;
+};
+
+// unsigned int
+void count_diff_lfta_ui_LFTA_AGGR_INIT_(gs_sp_t s) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ scratch->count = 0;
+ scratch->first.l = 0;
+ scratch->last.l = 0;
+}
+void count_diff_lfta_ui_LFTA_AGGR_UPDATE_(gs_sp_t s, gs_uint32_t val) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ if(scratch->count==0){
+ scratch->count = 1;
+ scratch->first.ui = val;
+ }else{
+ if(scratch->last.ui != val)
+ scratch->count++;
+ }
+ scratch->last.ui = val;
+}
+void count_diff_lfta_ui_LFTA_AGGR_OUTPUT_(struct gs_string * res, gs_sp_t scratch) {
+ res->data = (gs_sp_t)scratch;
+ res->length = sizeof(struct lfta_count_diff_scratch);
+ res->owner = NULL;
+}
+void count_diff_lfta_ui_LFTA_AGGR_DESTROY_(gs_sp_t s) { }
+
+gs_retval_t count_diff_lfta_ui_LFTA_AGGR_FLUSHME_(gs_sp_t s) {
+ return 0;
+}
+
+// int
+void count_diff_lfta_i_LFTA_AGGR_INIT_(gs_sp_t s) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ scratch->count = 0;
+ scratch->first.l = 0;
+ scratch->last.l = 0;
+}
+void count_diff_lfta_i_LFTA_AGGR_UPDATE_(gs_sp_t s, gs_int32_t val) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ if(scratch->count==0){
+ scratch->count = 1;
+ scratch->first.i = val;
+ }else{
+ if(scratch->last.i != val)
+ scratch->count++;
+ }
+ scratch->last.i = val;
+}
+void count_diff_lfta_i_LFTA_AGGR_OUTPUT_(struct gs_string * res, gs_sp_t scratch) {
+ res->data = (gs_sp_t)scratch;
+ res->length = sizeof(struct lfta_count_diff_scratch);
+ res->owner = NULL;
+}
+void count_diff_lfta_i_LFTA_AGGR_DESTROY_(gs_sp_t s) { }
+gs_retval_t count_diff_lfta_i_LFTA_AGGR_FLUSHME_(gs_sp_t s) {
+ return 0;
+}
+
+// unsigned long long int
+void count_diff_lfta_ul_LFTA_AGGR_INIT_(gs_sp_t s) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ scratch->count = 0;
+ scratch->first.l = 0;
+ scratch->last.l = 0;
+}
+void count_diff_lfta_ul_LFTA_AGGR_UPDATE_(gs_sp_t s, gs_uint64_t val) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ if(scratch->count==0){
+ scratch->count = 1;
+ scratch->first.ul = val;
+ }else{
+ if(scratch->last.ul != val)
+ scratch->count++;
+ }
+ scratch->last.ul = val;
+}
+void count_diff_lfta_ul_LFTA_AGGR_OUTPUT_(struct gs_string * res, gs_sp_t scratch) {
+ res->data = (gs_sp_t)scratch;
+ res->length = sizeof(struct lfta_count_diff_scratch);
+ res->owner = NULL;
+}
+void count_diff_lfta_ul_LFTA_AGGR_DESTROY_(gs_sp_t s) { }
+gs_retval_t count_diff_lfta_ul_LFTA_AGGR_FLUSHME_(gs_sp_t s) {
+ return 0;
+}
+
+// long long int
+void count_diff_lfta_l_LFTA_AGGR_INIT_(gs_sp_t s) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ scratch->count = 0;
+ scratch->first.l = 0;
+ scratch->last.l = 0;
+}
+void count_diff_lfta_l_LFTA_AGGR_UPDATE_(gs_sp_t s, gs_int64_t val) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ if(scratch->count==0){
+ scratch->count = 1;
+ scratch->first.l = val;
+ }else{
+ if(scratch->last.l != val)
+ scratch->count++;
+ }
+ scratch->last.l = val;
+}
+void count_diff_lfta_l_LFTA_AGGR_OUTPUT_(struct gs_string* res, gs_sp_t scratch) {
+ res->data = (gs_sp_t)scratch;
+ res->length = sizeof(struct lfta_count_diff_scratch);
+ res->owner = NULL;
+}
+void count_diff_lfta_l_LFTA_AGGR_DESTROY_(gs_sp_t s) { }
+gs_retval_t count_diff_lfta_l_LFTA_AGGR_FLUSHME_(gs_sp_t s) {
+ return 0;
+}
+
+// string
+
+static gs_uint64_t local_hash_string(struct gs_string *x){
+ gs_uint32_t i;
+ gs_uint64_t ret=0,tmp_sum = 0;
+ for(i=0;i<x->length;++i){
+ tmp_sum |= (x->data[i]) << (8*(i%4));
+ if((i%4) == 3){
+ ret = tmp_sum + 12916008961267169387ull * ret;
+ tmp_sum = 0;
+ }
+ }
+ if((i%4)!=0) ret = tmp_sum + 12916008961267169387ull * ret;
+ return(ret);
+}
+
+
+void count_diff_lfta_s_LFTA_AGGR_INIT_(gs_sp_t s) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ scratch->count = 0;
+ scratch->first.ul = 0;
+ scratch->last.ul = 0;
+}
+void count_diff_lfta_s_LFTA_AGGR_UPDATE_(gs_sp_t s, struct gs_string* val) {
+ struct lfta_count_diff_scratch* scratch = (struct lfta_count_diff_scratch*)s;
+ gs_uint64_t hashval;
+ hashval = local_hash_string(val);
+ if(scratch->count==0){
+ scratch->count = 1;
+ scratch->first.ul = hashval;
+ }else{
+ if(scratch->last.ul != hashval)
+ scratch->count++;
+ }
+ scratch->last.ul = hashval;
+}
+void count_diff_lfta_s_LFTA_AGGR_OUTPUT_(struct gs_string* res, gs_sp_t scratch) {
+ res->data = (gs_sp_t)scratch;
+ res->length = sizeof(struct lfta_count_diff_scratch);
+ res->owner = NULL;
+}
+void count_diff_lfta_s_LFTA_AGGR_DESTROY_(gs_sp_t s) { }
+gs_retval_t count_diff_lfta_s_LFTA_AGGR_FLUSHME_(gs_sp_t s) {
+ return 0;
+}
+
+
+
+
+
+
+
+
+
+
+
+/////////////////////////////////////////////////////////
+// running_array_aggr aggregate
+
+struct running_array_aggr_str{
+ gs_uint32_t num_list[4];
+ gs_uint8_t n_num;
+};
+
+void running_array_aggr_lfta_LFTA_AGGR_INIT_(char* scratch) {
+ struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;
+ aggr->n_num = 0;
+}
+
+void running_array_aggr_lfta_LFTA_AGGR_UPDATE_(char* scratch, gs_uint32_t val) {
+ struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;
+ aggr->num_list[aggr->n_num++] = val;
+}
+
+gs_retval_t running_array_aggr_lfta_LFTA_AGGR_FLUSHME_(char* scratch) {
+ struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;
+ return (aggr->n_num == 4);
+}
+void running_array_aggr_lfta_LFTA_AGGR_OUTPUT_(struct gs_string* res, char* scratch) {
+ struct running_array_aggr_str* aggr = (struct running_array_aggr_str*)scratch;
+ res->data = scratch;
+ res->length = aggr->n_num * sizeof(gs_uint32_t);
+ res->owner = NULL;
+}
+
+void running_array_aggr_lfta_LFTA_AGGR_DESTROY_(char* scratch) { }
+