一. 存储过程
1. 语法
create or replace procedure procedureName(seqName varchar2)
is
/*声明变量*/
n number(10);
cursor cur is select * from tableName;
/*用来放置游标中的一行*/
cRow cur%rowtype; begin
/*变量赋值*/
n := 5; /*循环方式一*/
for i in 1..n loop
/*做点什么*/
end loop; /*循环方式二*/
loop
exit when n = 0;
n := n - 1;
end loop; /*循环方式三*/
while i < n loop
exit;
end loop; /*游标用法一:隐式打开和关闭*/
for c in cur loop
/*做点什么*/
end loop; /*游标用法一:显式打开和关闭*/
open cur;
loop
fetch cur into cRow;
exit when cur%notfound;
end loop;
close cur; /*修改游标的所在行*/
update tableName set columnName=columnValue where current of cur; /*判断*/
if (n = 0) then
/*动态执行sql语句*/
execute immediate 'select '||seqName||'.nextval from dual' into n;
else
/*控制台输出*/
dbms_output.put_line(n);
end if; commit;
end procedureName;
二. 函数
1. 常用函数
to_char(timestamp, ''yyyy-mm-dd hh:mm:ss''):把 timestamp 转换成字符串
length(字符串):计算字符串所占的字符长度,返回字符串长度
instr(源字符串, 目标字符串, 开始位置, 第几次出现):在一个字符串中查找指定的字符,返回被查找到的指定的字符的位置。
substr(字符串, 截取开始位置, 截取长度):返回截取的字
decode(条件,值1,返回值1,值2,返回值2,...值n,返回值n,缺省值):它将输入数值与函数中的参数列表相比较,根据输入值返回一个对应值。如果未能与任何一个实参序偶匹配成功,则函数也有默认的返回值。
power(x,y):计算x^y次方
to_number(字符串):将字符串转化为数字
floor(数字):对给定的数字取整数位
2. c2b函数:clob转blob
create or replace function c2b (b in clob default empty_clob())
return blob
is
res blob;
bLen number := dbms_lob.getlength(b);
destOffset1 number := 1;
srcOffset1 number := 1;
amountC integer := dbms_lob.lobmaxsize;
blobCsid number := dbms_lob.default_csid;
langCtx integer := dbms_lob.default_lang_ctx;
warning integer;
begin
if bLen > 0 then
dbms_lob.createtemporary(res, true);
dbms_lob.open(res, dbms_lob.lob_readwrite);
dbms_lob.convertToBlob(res, b, amountC, destOffset1, srcOffset1, blobCsid, langCtx, warning );
else
select empty_blob() into res from dual;
end if; return res;
end c2b;
3. hexToDec函数:十六进制字符串转数值型字符串
create or replace function hexToDec(icHex in varchar2)
return varchar2
is
iDecimal integer;
cNewHex varchar2(1);
iHexLen integer;
result integer;
begin
result :=0;
iHexLen := length(icHex);
for i in 1..iHexLen loop
cNewHex :=substr(icHex,iHexLen - i + 1,1);
select decode(cNewHex,'A',10,'B',11,'C',12,'D',13,'E',14,'F',15,to_number(cNewHex))
into iDecimal from dual;
result := result + iDecimal * power(16,(i-1));
end loop;
return(to_char(result));
end hexToDec;
4. decToHex函数:数值型字符串转十六进制字符串
create or replace function decToHex(iDecimal in varchar2)
return varchar2
is
nDecimal integer;
quotient integer;
residue integer;
result varchar2(50);
begin
nDecimal := to_number(iDecimal);
loop
quotient := floor(nDecimal/16);
residue := nDecimal mod 16;
select decode(residue,10,'A',11,'B',12,'C',13,'D',14,'E',15,'F',to_char(residue)) || result
into result from dual;
exit when quotient = 0;
nDecimal := quotient;
end loop;
return(result);
end decToHex;
5. splitCount函数:查找字符串中包含指定字符的个数
create or replace function splitCount (vSource in varchar2, vDelimiter in varchar2)
return integer
is
j integer;
i integer;
len integer;
delimLen integer;
cnt integer;
begin
j := 0;
i := 1;
len := 0;
delimLen := 0;
cnt := 0;
len := length(vSource);
delimLen := length(vDelimiter); while j < len loop
j := instr(vSource, vDelimiter, i);
if j = 0 then
j := len;
if i >= len then
exit;
end if;
else
i := j + delimLen;
cnt := cnt+1;
end if;
end loop; return cnt;
end splitArrayLength;
6. TRUNC():类似截取函数,按指定的格式截取输入的数据
1. 处理日期
select trunc(sysdate) from dual;--2017/2/13,返回当前时间
select trunc(sysdate,'yy') from dual;--2017/1/1,返回当年第一天
select trunc(sysdate,'mm') from dual;--2017/2/1,返回当月的第一天
select trunc(sysdate,'d') from dual;--2017/2/12,返回当前星期的第一天,即星期天
select trunc(sysdate,'dd') from dual;--2017/2/13,返回当前日期,今天是2017/2/13
select trunc(sysdate ,'HH24') from dual;--2017/2/13 15:00:00,返回本小时的开始时间
select trunc(sysdate ,'MI') from dual;--2017/2/13 15:13:00,返回本分钟的开始时间
select trunc(sysdate-5) from dual;--2017/2/8,返回前五天的时间
select trunc(sysdate-interval'5'month,'mm') from dual;--2016/9/1,返回前5个月的第一天
select trunc(sysdate-interval'5'year,'yy') from dual;--2012/1/1,返回前5年的第一天
select trunc(sysdate)+1-1/86400 from dual;--2017/2/13 23:59:59,返回当天的最后一秒 2. 处理number型数字,截取时并不对数据进行四舍五入
select trunc(123.567,2) from dual;--123.56,将小数点右边指定位数后面的截去;
select trunc(123.567,-2) from dual;--100,第二个参数可以为负数,表示将小数点左边指定位数后面的部分截去,即均以0记;
select trunc(123.567) from dual;--123,默认截去小数点后面的部分;
三. 序列
1. 创建序列
create sequence seqEmp
minvalue 0
maxvalue 99999999
start with 1
increment by 1
nocache;
2. seqReset存储过程:重置序列
create or replace procedure seqReset(vSeqName varchar2)
is
n number(10);
tSql varchar2(100);
begin
execute immediate 'select '||vSeqName||'.nextval from dual' into n;
n:=-n;
tSql:='alter sequence '||vSeqName||' increment by '||n;
execute immediate tSql;
execute immediate 'select '||vSeqName||'.nextval from dual' into n;
tSql:='alter sequence '||vSeqName||' increment by 1';
execute immediate tSql;
end seqReset;
四. 包
1. base_convert:常用类型转换函数包
a. 包头
CREATE OR REPLACE PACKAGE base_convert AS FUNCTION hex_to_dec (hexin IN VARCHAR2) RETURN NUMBER;
PRAGMA restrict_references (HEX_TO_DEC,WNDS,RNDS,WNPS,WNPS); FUNCTION dec_to_hex (decin IN NUMBER) RETURN VARCHAR2;
PRAGMA restrict_references (DEC_TO_HEX,WNDS,RNDS,WNPS,WNPS); FUNCTION oct_to_dec (octin IN NUMBER) RETURN NUMBER;
PRAGMA restrict_references (OCT_TO_DEC,WNDS,RNDS,WNPS,WNPS); FUNCTION dec_to_oct (decin IN NUMBER) RETURN VARCHAR2;
PRAGMA restrict_references (DEC_TO_OCT,WNDS,RNDS,WNPS,WNPS); FUNCTION bin_to_dec (binin IN NUMBER) RETURN NUMBER;
PRAGMA restrict_references (BIN_TO_DEC,WNDS,RNDS,WNPS,WNPS); FUNCTION dec_to_bin (decin IN NUMBER) RETURN VARCHAR2;
PRAGMA restrict_references (DEC_TO_BIN,WNDS,RNDS,WNPS,WNPS); FUNCTION hex_to_bin (hexin IN VARCHAR2) RETURN NUMBER;
PRAGMA restrict_references (HEX_TO_BIN,WNDS,RNDS,WNPS,WNPS); FUNCTION bin_to_hex (binin IN NUMBER) RETURN VARCHAR2;
PRAGMA restrict_references (BIN_TO_HEX,WNDS,RNDS,WNPS,WNPS); FUNCTION oct_to_bin (octin IN NUMBER) RETURN NUMBER;
PRAGMA restrict_references (OCT_TO_BIN,WNDS,RNDS,WNPS,WNPS); FUNCTION bin_to_oct (binin IN NUMBER) RETURN NUMBER;
PRAGMA restrict_references (BIN_TO_OCT,WNDS,RNDS,WNPS,WNPS); FUNCTION oct_to_hex (octin IN NUMBER) RETURN VARCHAR2;
PRAGMA restrict_references (OCT_TO_HEX,WNDS,RNDS,WNPS,WNPS); FUNCTION hex_to_oct (hexin IN VARCHAR2) RETURN NUMBER;
PRAGMA restrict_references (HEX_TO_OCT,WNDS,RNDS,WNPS,WNPS); END base_convert;
b. 包体
CREATE OR REPLACE PACKAGE BODY base_convert AS FUNCTION hex_to_dec (hexin IN VARCHAR2) RETURN NUMBER IS
v_charpos NUMBER;
v_charval CHAR(1);
v_return NUMBER DEFAULT 0;
v_power NUMBER DEFAULT 0;
v_string VARCHAR2(2000);
BEGIN
v_string := UPPER(hexin);
v_charpos := LENGTH(v_string);
WHILE v_charpos > 0 LOOP
v_charval := SUBSTR(v_string,v_charpos,1);
IF v_charval BETWEEN '' AND '' THEN
v_return := v_return + TO_NUMBER(v_charval) * POWER(16,v_power);
ELSE
IF v_charval = 'A' THEN
v_return := v_return + 10 * POWER(16,v_power);
ELSIF v_charval = 'B' THEN
v_return := v_return + 11 * POWER(16,v_power);
ELSIF v_charval = 'C' THEN
v_return := v_return + 12 * POWER(16,v_power);
ELSIF v_charval = 'D' THEN
v_return := v_return + 13 * POWER(16,v_power);
ELSIF v_charval = 'E' THEN
v_return := v_return + 14 * POWER(16,v_power);
ELSIF v_charval = 'F' THEN
v_return := v_return + 15 * POWER(16,v_power);
ELSE
raise_application_error(-20621,'Invalid input');
END IF;
END IF;
v_charpos := v_charpos - 1;
v_power := v_power + 1;
END LOOP;
RETURN v_return;
END hex_to_dec; FUNCTION dec_to_hex (decin IN NUMBER) RETURN VARCHAR2 IS
v_decin NUMBER;
v_next_digit NUMBER;
v_result varchar(2000);
BEGIN
v_decin := decin;
WHILE v_decin > 0 LOOP
v_next_digit := mod(v_decin,16);
IF v_next_digit > 9 THEN
IF v_next_digit = 10 THEN v_result := 'A' || v_result;
ELSIF v_next_digit = 11 THEN v_result := 'B' || v_result;
ELSIF v_next_digit = 12 THEN v_result := 'C' || v_result;
ELSIF v_next_digit = 13 THEN v_result := 'D' || v_result;
ELSIF v_next_digit = 14 THEN v_result := 'E' || v_result;
ELSIF v_next_digit = 15 THEN v_result := 'F' || v_result;
ELSE raise_application_error(-20600,'Untrapped exception');
END IF;
ELSE
v_result := to_char(v_next_digit) || v_result;
END IF;
v_decin := floor(v_decin / 16);
END LOOP;
RETURN v_result;
END dec_to_hex; FUNCTION oct_to_dec (octin IN NUMBER) RETURN NUMBER IS
v_charpos NUMBER;
v_charval CHAR(1);
v_return NUMBER DEFAULT 0;
v_power NUMBER DEFAULT 0;
v_string VARCHAR2(2000);
BEGIN
v_string := TO_CHAR(octin);
v_charpos := LENGTH(v_string);
WHILE v_charpos > 0 LOOP
v_charval := SUBSTR(v_string,v_charpos,1);
IF v_charval BETWEEN '' AND '' THEN
v_return := v_return + TO_NUMBER(v_charval) * POWER(8,v_power);
ELSE
raise_application_error(-20621,'Invalid input');
END IF;
v_charpos := v_charpos - 1;
v_power := v_power + 1;
END LOOP;
RETURN v_return;
END oct_to_dec; FUNCTION dec_to_oct (decin IN NUMBER) RETURN VARCHAR2 IS
v_decin NUMBER;
v_next_digit NUMBER;
v_result varchar(2000);
BEGIN
v_decin := decin;
WHILE v_decin > 0 LOOP
v_next_digit := mod(v_decin,8);
v_result := to_char(v_next_digit) || v_result;
v_decin := floor(v_decin / 8);
END LOOP;
RETURN v_result;
END dec_to_oct; FUNCTION bin_to_dec (binin IN NUMBER) RETURN NUMBER IS
v_charpos NUMBER;
v_charval CHAR(1);
v_return NUMBER DEFAULT 0;
v_power NUMBER DEFAULT 0;
v_string VARCHAR2(2000);
BEGIN
v_string := TO_CHAR(binin);
v_charpos := LENGTH(v_string);
WHILE v_charpos > 0 LOOP
v_charval := SUBSTR(v_string,v_charpos,1);
IF v_charval BETWEEN '' AND '' THEN
v_return := v_return + TO_NUMBER(v_charval) * POWER(2,v_power);
ELSE
raise_application_error(-20621,'Invalid input');
END IF;
v_charpos := v_charpos - 1;
v_power := v_power + 1;
END LOOP;
RETURN v_return;
END bin_to_dec; FUNCTION dec_to_bin (decin IN NUMBER) RETURN VARCHAR2 IS
v_decin NUMBER;
v_next_digit NUMBER;
v_result varchar(2000);
BEGIN
v_decin := decin;
WHILE v_decin > 0 LOOP
v_next_digit := mod(v_decin,2);
v_result := to_char(v_next_digit) || v_result;
v_decin := floor(v_decin / 2);
END LOOP;
RETURN v_result;
END dec_to_bin; FUNCTION hex_to_bin (hexin IN VARCHAR2) RETURN NUMBER IS
BEGIN
RETURN dec_to_bin(hex_to_dec(hexin));
END hex_to_bin; FUNCTION bin_to_hex (binin IN NUMBER) RETURN VARCHAR2 IS
BEGIN
RETURN dec_to_hex(bin_to_dec(binin));
END bin_to_hex; FUNCTION oct_to_bin (octin IN NUMBER) RETURN NUMBER IS
BEGIN
RETURN dec_to_bin(oct_to_dec(octin));
END oct_to_bin; FUNCTION bin_to_oct (binin IN NUMBER) RETURN NUMBER IS
BEGIN
RETURN dec_to_oct(bin_to_dec(binin));
END bin_to_oct; FUNCTION oct_to_hex (octin IN NUMBER) RETURN VARCHAR2 IS
BEGIN
RETURN dec_to_hex(oct_to_dec(octin));
END oct_to_hex; FUNCTION hex_to_oct (hexin IN VARCHAR2) RETURN NUMBER IS
BEGIN
RETURN dec_to_oct(hex_to_dec(hexin));
END hex_to_oct; END base_convert;
c. 包中函数的调用,如:base_convert.hex_to_dec(hexString)