采用如下report 研究asynchronous RFC call的性能提升:
PARAMETERS: num TYPE i OBLIGATORY DEFAULT 10.
DATA:ls_line TYPE zjerry1,
lv_start TYPE i,
lv_end TYPE i,
lv_taskid TYPE c LENGTH 8,
lv_index TYPE c LENGTH 4,
lv_finished TYPE i,
lv_count TYPE i.
START-OF-SELECTION.
PERFORM solution2.
FORM solution2.
DELETE FROM zjerry1.
GET RUN TIME FIELD lv_start.
DO num TIMES.
lv_index = sy-index.
lv_taskid = 'Task' && lv_index.
CALL FUNCTION 'ZINSERT' STARTING NEW TASK lv_taskid PERFORMING callback ON END OF TASK
EXPORTING
iv_index = CONV comm_product-product_id( sy-index ).
ENDDO.
WAIT UNTIL lv_finished = num.
GET RUN TIME FIELD lv_end.
lv_end = lv_end - lv_start.
WRITE: / 'Solution2: ' , lv_end COLOR COL_NEGATIVE.
SELECT COUNT( * ) INTO lv_count FROM zjerry1.
ASSERT lv_count = num.
ENDFORM.
FORM callback USING p_task TYPE clike.
ADD 1 TO lv_finished.
ENDFORM.
function module ZINSERTmonitor的是一个比较费时的操作,在末尾会有一个DB的insertion:
DATA: ls_line TYPE zjerry1,
lv_cal TYPE timestamp,
lv_cal1 TYPE timestamp.
GET TIME STAMP FIELD lv_cal.
DO 10000 TIMES.
lv_cal = lv_cal + 1.
lv_cal = ( lv_cal * 13 ) / 12.
DO 100 TIMES.
GET TIME STAMP FIELD lv_cal1.
lv_cal = lv_cal * 13 / 17.
ENDDO.
ENDDO.
ls_line-code_value = iv_index.
INSERT zjerry1 FROM ls_line.
ASSERT sy-subrc = 0.
COMMIT WORK AND WAIT.
DB的结构非常简单:
如果在report 里直接调用ZINSERT, response time为4.493 seconds.
如果在DO 2 TIMES里调用两次ZINSERT, 两次function module call是依次执行的,response time为8.493 seconds
如果用report 以参数2 以异步的方式调用ZINSERT 2次,report 本身的response time为3.074 seconds:
number = 3:
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