04-20-2022, 02:38 AM
The following routine is a quick and efficient way to sort almost any type of array, regardless of data type. (The one thing it doesn't sort is variable-length strings, as _MEM doesn't support those at all.)
And, an example of the routine in action with various different data type arrays:
This should work on all current and future versions of QB64 (after 08-02-2017).
Code: (Select All)
SUB Sort (m AS _MEM)
DIM i AS _UNSIGNED LONG
$IF 64BIT THEN
DIM ES AS _INTEGER64, EC AS _INTEGER64
$ELSE
DIM ES AS LONG, EC AS LONG
$END IF
IF NOT m.TYPE AND 65536 THEN EXIT SUB 'We won't work without an array
IF m.TYPE AND 1024 THEN DataType = 10
IF m.TYPE AND 1 THEN DataType = DataType + 1
IF m.TYPE AND 2 THEN DataType = DataType + 2
IF m.TYPE AND 4 THEN IF m.TYPE AND 128 THEN DataType = DataType + 4 ELSE DataType = 3
IF m.TYPE AND 8 THEN IF m.TYPE AND 128 THEN DataType = DataType + 8 ELSE DataType = 5
IF m.TYPE AND 32 THEN DataType = 6
IF m.TYPE AND 512 THEN DataType = 7
'Convert our offset data over to something we can work with
DIM m1 AS _MEM: m1 = _MEMNEW(LEN(ES))
_MEMPUT m1, m1.OFFSET, m.ELEMENTSIZE: _MEMGET m1, m1.OFFSET, ES 'Element Size
_MEMPUT m1, m1.OFFSET, m.SIZE: _MEMGET m1, m1.OFFSET, EC 'Element Count will temporily hold the WHOLE array size
_MEMFREE m1
EC = EC / ES - 1 'Now we take the whole element size / the size of the elements and get our actual element count. We subtract 1 so our arrays start at 0 and not 1.
'And work with it!
DIM o AS _OFFSET, o1 AS _OFFSET, counter AS _UNSIGNED LONG
SELECT CASE DataType
CASE 1 'BYTE
DIM temp1(-128 TO 127) AS _UNSIGNED LONG
DIM t1 AS _BYTE
i = 0
DO
_MEMGET m, m.OFFSET + i, t1
temp1(t1) = temp1(t1) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = -128
DO
DO UNTIL temp1(i1) = 0
_MEMPUT m, m.OFFSET + counter, i1 AS _BYTE
counter = counter + 1
temp1(i1) = temp1(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 127
CASE 2: 'INTEGER
DIM temp2(-32768 TO 32767) AS _UNSIGNED LONG
DIM t2 AS INTEGER
i = 0
DO
_MEMGET m, m.OFFSET + i * 2, t2
temp2(t2) = temp2(t2) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = -32768
DO
DO UNTIL temp2(i1) = 0
_MEMPUT m, m.OFFSET + counter * 2, i1 AS INTEGER
counter = counter + 1
temp2(i1) = temp2(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 32767
CASE 3 'SINGLE
DIM T3a AS SINGLE, T3b AS SINGLE
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 4
o1 = m.OFFSET + (i + gap) * 4
IF _MEMGET(m, o, SINGLE) > _MEMGET(m, o1, SINGLE) THEN
_MEMGET m, o1, T3a
_MEMGET m, o, T3b
_MEMPUT m, o1, T3b
_MEMPUT m, o, T3a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 4 'LONG
DIM T4a AS LONG, T4b AS LONG
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 4
o1 = m.OFFSET + (i + gap) * 4
IF _MEMGET(m, o, LONG) > _MEMGET(m, o1, LONG) THEN
_MEMGET m, o1, T4a
_MEMGET m, o, T4b
_MEMPUT m, o1, T4b
_MEMPUT m, o, T4a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 5 'DOUBLE
DIM T5a AS DOUBLE, T5b AS DOUBLE
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 8
o1 = m.OFFSET + (i + gap) * 8
IF _MEMGET(m, o, DOUBLE) > _MEMGET(m, o1, DOUBLE) THEN
_MEMGET m, o1, T5a
_MEMGET m, o, T5b
_MEMPUT m, o1, T5b
_MEMPUT m, o, T5a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 6 ' _FLOAT
DIM T6a AS _FLOAT, T6b AS _FLOAT
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 32
o1 = m.OFFSET + (i + gap) * 32
IF _MEMGET(m, o, _FLOAT) > _MEMGET(m, o1, _FLOAT) THEN
_MEMGET m, o1, T6a
_MEMGET m, o, T6b
_MEMPUT m, o1, T6b
_MEMPUT m, o, T6a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 7 'String
DIM T7a AS STRING, T7b AS STRING, T7c AS STRING
T7a = SPACE$(ES): T7b = SPACE$(ES): T7c = SPACE$(ES)
gap = EC
DO
gap = INT(gap / 1.247330950103979)
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * ES
o1 = m.OFFSET + (i + gap) * ES
_MEMGET m, o, T7a
_MEMGET m, o1, T7b
IF T7a > T7b THEN
T7c = T7b
_MEMPUT m, o1, T7a
_MEMPUT m, o, T7c
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = false
CASE 8 '_INTEGER64
DIM T8a AS _INTEGER64, T8b AS _INTEGER64
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 8
o1 = m.OFFSET + (i + gap) * 8
IF _MEMGET(m, o, _INTEGER64) > _MEMGET(m, o1, _INTEGER64) THEN
_MEMGET m, o1, T8a
_MEMGET m, o, T8b
_MEMPUT m, o1, T8b
_MEMPUT m, o, T8a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 11: '_UNSIGNED _BYTE
DIM temp11(0 TO 255) AS _UNSIGNED LONG
DIM t11 AS _UNSIGNED _BYTE
i = 0
DO
_MEMGET m, m.OFFSET + i, t11
temp11(t11) = temp11(t11) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = 0
DO
DO UNTIL temp11(i1) = 0
_MEMPUT m, m.OFFSET + counter, i1 AS _UNSIGNED _BYTE
counter = counter + 1
temp11(i1) = temp11(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 255
CASE 12 '_UNSIGNED INTEGER
DIM temp12(0 TO 65535) AS _UNSIGNED LONG
DIM t12 AS _UNSIGNED INTEGER
i = 0
DO
_MEMGET m, m.OFFSET + i * 2, t12
temp12(t12) = temp12(t12) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = 0
DO
DO UNTIL temp12(i1) = 0
_MEMPUT m, m.OFFSET + counter * 2, i1 AS _UNSIGNED INTEGER
counter = counter + 1
temp12(i1) = temp12(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 65535
CASE 14 '_UNSIGNED LONG
DIM T14a AS _UNSIGNED LONG, T14b AS _UNSIGNED LONG
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 4
o1 = m.OFFSET + (i + gap) * 4
IF _MEMGET(m, o, _UNSIGNED LONG) > _MEMGET(m, o1, _UNSIGNED LONG) THEN
_MEMGET m, o1, T14a
_MEMGET m, o, T14b
_MEMPUT m, o1, T14b
_MEMPUT m, o, T14a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 18: '_UNSIGNED _INTEGER64
DIM T18a AS _UNSIGNED _INTEGER64, T18b AS _UNSIGNED _INTEGER64
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 8
o1 = m.OFFSET + (i + gap) * 8
IF _MEMGET(m, o, _UNSIGNED _INTEGER64) > _MEMGET(m, o1, _UNSIGNED _INTEGER64) THEN
_MEMGET m, o1, T18a
_MEMGET m, o, T18b
_MEMPUT m, o1, T18b
_MEMPUT m, o, T18a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
END SELECT
END SUB
And, an example of the routine in action with various different data type arrays:
Code: (Select All)
SCREEN _NEWIMAGE(1280, 720, 256)
RANDOMIZE TIMER
DIM m AS _MEM
DIM x(5) AS _BYTE
DIM y(7) AS DOUBLE
DIM z(5) AS STRING * 5
'Let's see if we can sort the integer array
'Initialize Data
FOR i = 0 TO 5: x(i) = RND * 100: PRINT x(i),: NEXT: PRINT
PRINT "----------------------------------------------------------------------------------------------------------------------------------------------------------------"
'Sort
m = _MEM(x())
Sort m
_MEMFREE m
'Result
FOR i = 0 TO 5: PRINT x(i),: NEXT: PRINT
PRINT "----------------------------------------------------------------------------------------------------------------------------------------------------------------"
PRINT
PRINT
'Try the same routine with a different data type array to sort
'Initialize Data
FOR i = 0 TO 7: y(i) = RND * 100: PRINT y(i),: NEXT
PRINT
PRINT "----------------------------------------------------------------------------------------------------------------------------------------------------------------"
'Sort
m = _MEM(y())
Sort m
_MEMFREE m
'Result
FOR i = 0 TO 7: PRINT y(i),: NEXT: PRINT
PRINT "----------------------------------------------------------------------------------------------------------------------------------------------------------------"
PRINT
PRINT
'To test with fixed length string arrays
z(0) = "Doggy": z(1) = "Pudding": z(2) = "Frog ": z(3) = "test2": z(4) = "Test2": z(5) = "test1"
FOR i = 0 TO 5: PRINT z(i),: NEXT: PRINT
PRINT "----------------------------------------------------------------------------------------------------------------------------------------------------------------"
m = _MEM(z())
Sort m
_MEMFREE m
'Result
FOR i = 0 TO 5: PRINT z(i),: NEXT: PRINT
SLEEP
SYSTEM
SUB Sort (m AS _MEM)
DIM i AS _UNSIGNED LONG
$IF 64BIT THEN
DIM ES AS _INTEGER64, EC AS _INTEGER64
$ELSE
DIM ES AS LONG, EC AS LONG
$END IF
IF NOT m.TYPE AND 65536 THEN EXIT SUB 'We won't work without an array
IF m.TYPE AND 1024 THEN DataType = 10
IF m.TYPE AND 1 THEN DataType = DataType + 1
IF m.TYPE AND 2 THEN DataType = DataType + 2
IF m.TYPE AND 4 THEN IF m.TYPE AND 128 THEN DataType = DataType + 4 ELSE DataType = 3
IF m.TYPE AND 8 THEN IF m.TYPE AND 128 THEN DataType = DataType + 8 ELSE DataType = 5
IF m.TYPE AND 32 THEN DataType = 6
IF m.TYPE AND 512 THEN DataType = 7
'Convert our offset data over to something we can work with
DIM m1 AS _MEM: m1 = _MEMNEW(LEN(ES))
_MEMPUT m1, m1.OFFSET, m.ELEMENTSIZE: _MEMGET m1, m1.OFFSET, ES 'Element Size
_MEMPUT m1, m1.OFFSET, m.SIZE: _MEMGET m1, m1.OFFSET, EC 'Element Count will temporily hold the WHOLE array size
_MEMFREE m1
EC = EC / ES - 1 'Now we take the whole element size / the size of the elements and get our actual element count. We subtract 1 so our arrays start at 0 and not 1.
'And work with it!
DIM o AS _OFFSET, o1 AS _OFFSET, counter AS _UNSIGNED LONG
SELECT CASE DataType
CASE 1 'BYTE
DIM temp1(-128 TO 127) AS _UNSIGNED LONG
DIM t1 AS _BYTE
i = 0
DO
_MEMGET m, m.OFFSET + i, t1
temp1(t1) = temp1(t1) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = -128
DO
DO UNTIL temp1(i1) = 0
_MEMPUT m, m.OFFSET + counter, i1 AS _BYTE
counter = counter + 1
temp1(i1) = temp1(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 127
CASE 2: 'INTEGER
DIM temp2(-32768 TO 32767) AS _UNSIGNED LONG
DIM t2 AS INTEGER
i = 0
DO
_MEMGET m, m.OFFSET + i * 2, t2
temp2(t2) = temp2(t2) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = -32768
DO
DO UNTIL temp2(i1) = 0
_MEMPUT m, m.OFFSET + counter * 2, i1 AS INTEGER
counter = counter + 1
temp2(i1) = temp2(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 32767
CASE 3 'SINGLE
DIM T3a AS SINGLE, T3b AS SINGLE
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 4
o1 = m.OFFSET + (i + gap) * 4
IF _MEMGET(m, o, SINGLE) > _MEMGET(m, o1, SINGLE) THEN
_MEMGET m, o1, T3a
_MEMGET m, o, T3b
_MEMPUT m, o1, T3b
_MEMPUT m, o, T3a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 4 'LONG
DIM T4a AS LONG, T4b AS LONG
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 4
o1 = m.OFFSET + (i + gap) * 4
IF _MEMGET(m, o, LONG) > _MEMGET(m, o1, LONG) THEN
_MEMGET m, o1, T4a
_MEMGET m, o, T4b
_MEMPUT m, o1, T4b
_MEMPUT m, o, T4a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 5 'DOUBLE
DIM T5a AS DOUBLE, T5b AS DOUBLE
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 8
o1 = m.OFFSET + (i + gap) * 8
IF _MEMGET(m, o, DOUBLE) > _MEMGET(m, o1, DOUBLE) THEN
_MEMGET m, o1, T5a
_MEMGET m, o, T5b
_MEMPUT m, o1, T5b
_MEMPUT m, o, T5a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 6 ' _FLOAT
DIM T6a AS _FLOAT, T6b AS _FLOAT
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 32
o1 = m.OFFSET + (i + gap) * 32
IF _MEMGET(m, o, _FLOAT) > _MEMGET(m, o1, _FLOAT) THEN
_MEMGET m, o1, T6a
_MEMGET m, o, T6b
_MEMPUT m, o1, T6b
_MEMPUT m, o, T6a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 7 'String
DIM T7a AS STRING, T7b AS STRING, T7c AS STRING
T7a = SPACE$(ES): T7b = SPACE$(ES): T7c = SPACE$(ES)
gap = EC
DO
gap = INT(gap / 1.247330950103979)
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * ES
o1 = m.OFFSET + (i + gap) * ES
_MEMGET m, o, T7a
_MEMGET m, o1, T7b
IF T7a > T7b THEN
T7c = T7b
_MEMPUT m, o1, T7a
_MEMPUT m, o, T7c
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = false
CASE 8 '_INTEGER64
DIM T8a AS _INTEGER64, T8b AS _INTEGER64
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 8
o1 = m.OFFSET + (i + gap) * 8
IF _MEMGET(m, o, _INTEGER64) > _MEMGET(m, o1, _INTEGER64) THEN
_MEMGET m, o1, T8a
_MEMGET m, o, T8b
_MEMPUT m, o1, T8b
_MEMPUT m, o, T8a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 11: '_UNSIGNED _BYTE
DIM temp11(0 TO 255) AS _UNSIGNED LONG
DIM t11 AS _UNSIGNED _BYTE
i = 0
DO
_MEMGET m, m.OFFSET + i, t11
temp11(t11) = temp11(t11) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = 0
DO
DO UNTIL temp11(i1) = 0
_MEMPUT m, m.OFFSET + counter, i1 AS _UNSIGNED _BYTE
counter = counter + 1
temp11(i1) = temp11(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 255
CASE 12 '_UNSIGNED INTEGER
DIM temp12(0 TO 65535) AS _UNSIGNED LONG
DIM t12 AS _UNSIGNED INTEGER
i = 0
DO
_MEMGET m, m.OFFSET + i * 2, t12
temp12(t12) = temp12(t12) + 1
i = i + 1
LOOP UNTIL i > EC
i1 = 0
DO
DO UNTIL temp12(i1) = 0
_MEMPUT m, m.OFFSET + counter * 2, i1 AS _UNSIGNED INTEGER
counter = counter + 1
temp12(i1) = temp12(i1) - 1
IF counter > EC THEN EXIT SUB
LOOP
i1 = i1 + 1
LOOP UNTIL i1 > 65535
CASE 14 '_UNSIGNED LONG
DIM T14a AS _UNSIGNED LONG, T14b AS _UNSIGNED LONG
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 4
o1 = m.OFFSET + (i + gap) * 4
IF _MEMGET(m, o, _UNSIGNED LONG) > _MEMGET(m, o1, _UNSIGNED LONG) THEN
_MEMGET m, o1, T14a
_MEMGET m, o, T14b
_MEMPUT m, o1, T14b
_MEMPUT m, o, T14a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
CASE 18: '_UNSIGNED _INTEGER64
DIM T18a AS _UNSIGNED _INTEGER64, T18b AS _UNSIGNED _INTEGER64
gap = EC
DO
gap = 10 * gap \ 13
IF gap < 1 THEN gap = 1
i = 0
swapped = 0
DO
o = m.OFFSET + i * 8
o1 = m.OFFSET + (i + gap) * 8
IF _MEMGET(m, o, _UNSIGNED _INTEGER64) > _MEMGET(m, o1, _UNSIGNED _INTEGER64) THEN
_MEMGET m, o1, T18a
_MEMGET m, o, T18b
_MEMPUT m, o1, T18b
_MEMPUT m, o, T18a
swapped = -1
END IF
i = i + 1
LOOP UNTIL i + gap > EC
LOOP UNTIL gap = 1 AND swapped = 0
END SELECT
END SUB
This should work on all current and future versions of QB64 (after 08-02-2017).