Committed sorting natives as per request am23838

This commit is contained in:
David Anderson 2006-08-20 04:46:34 +00:00
parent afe7df87d2
commit df7ee94b83
8 changed files with 595 additions and 1 deletions

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@ -19,7 +19,7 @@ OBJECTS = meta_api.cpp CFile.cpp CVault.cpp vault.cpp float.cpp file.cpp modules
srvcmd.cpp strptime.cpp amxcore.cpp amxtime.cpp power.cpp amxxlog.cpp fakemeta.cpp \ srvcmd.cpp strptime.cpp amxcore.cpp amxtime.cpp power.cpp amxxlog.cpp fakemeta.cpp \
amxxfile.cpp CLang.cpp md5.cpp emsg.cpp CForward.cpp CPlugin.cpp CModule.cpp \ amxxfile.cpp CLang.cpp md5.cpp emsg.cpp CForward.cpp CPlugin.cpp CModule.cpp \
CMenu.cpp util.cpp amx.cpp amxdbg.cpp natives.cpp newmenus.cpp debugger.cpp \ CMenu.cpp util.cpp amx.cpp amxdbg.cpp natives.cpp newmenus.cpp debugger.cpp \
optimizer.cpp format.cpp messages.cpp libraries.cpp vector.cpp optimizer.cpp format.cpp messages.cpp libraries.cpp vector.cpp sorting.cpp
LINK = /lib/libstdc++.a LINK = /lib/libstdc++.a

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@ -85,6 +85,7 @@ extern AMX_NATIVE_INFO string_Natives[];
extern AMX_NATIVE_INFO vault_Natives[]; extern AMX_NATIVE_INFO vault_Natives[];
extern AMX_NATIVE_INFO msg_Natives[]; extern AMX_NATIVE_INFO msg_Natives[];
extern AMX_NATIVE_INFO vector_Natives[]; extern AMX_NATIVE_INFO vector_Natives[];
extern AMX_NATIVE_INFO g_SortNatives[];
#ifndef __linux__ #ifndef __linux__
#define DLLOAD(path) (DLHANDLE)LoadLibrary(path) #define DLLOAD(path) (DLHANDLE)LoadLibrary(path)

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@ -556,6 +556,7 @@ int set_amxnatives(AMX* amx, char error[128])
amx_Register(amx, g_DebugNatives, -1); amx_Register(amx, g_DebugNatives, -1);
amx_Register(amx, msg_Natives, -1); amx_Register(amx, msg_Natives, -1);
amx_Register(amx, vector_Natives, -1); amx_Register(amx, vector_Natives, -1);
amx_Register(amx, g_SortNatives, -1);
//we're not actually gonna check these here anymore //we're not actually gonna check these here anymore
amx->flags |= AMX_FLAG_PRENIT; amx->flags |= AMX_FLAG_PRENIT;

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@ -442,6 +442,9 @@
<File <File
RelativePath="..\power.cpp"> RelativePath="..\power.cpp">
</File> </File>
<File
RelativePath="..\sorting.cpp">
</File>
<File <File
RelativePath="..\srvcmd.cpp"> RelativePath="..\srvcmd.cpp">
</File> </File>

359
amxmodx/sorting.cpp Normal file
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@ -0,0 +1,359 @@
#include "amxmodx.h"
#include <stdlib.h>
/***********************************
* About the double array hack *
***************************
Double arrays in Pawn are vectors offset but the current offset. For example:
new array[2][2]
In this array, index 0 contains the offset from the current offset which
results in the final vector [2] (at [0][2]). Meaning, to dereference [1][2],
it is equivalent to:
address = &array[1] + array[1] + 2 * sizeof(cell)
The fact that each offset is from the _current_ position rather than the _base_
position is very important. It means that if you to try to swap vector positions,
the offsets will no longer match, because their current position has changed. A
simple and ingenious way around this is to back up the positions in a separate array,
then to overwrite each position in the old array with absolute indices. Pseudo C++ code:
cell *array; //assumed to be set to the 2+D array
cell *old_offsets = new cell[2];
for (int i=0; i<2; i++)
{
old_offsets = array[i];
array[i] = i;
}
Now, you can swap the array indices with no problem, and do a reverse-lookup to find the original addresses.
After sorting/modification is done, you must relocate the new indices. For example, if the two vectors in our
demo array were swapped, array[0] would be 1 and array[1] would be 0. This is invalid to the virtual machine.
Luckily, this is also simple -- all the information is there.
for (int i=0; i<2; i++)
{
//get the # of the vector we want to relocate in
cell vector_index = array[i];
//get the real address of this vector
char *real_address = (char *)array + (vector_index * sizeof(cell)) + old_offsets[vector_index];
//calc and store the new distance offset
array[i] = real_address - ( (char *)array + (vector_index + sizeof(cell)) )
}
Note that the inner expression can be heavily reduced; it is expanded for readability.
**********************************/
enum SortOrder
{
Sort_Ascending = 0,
Sort_Descending = 1,
};
int sort_ints_asc(const void *int1, const void *int2)
{
return (*(int *)int1) - (*(int *)int2);
}
int sort_ints_desc(const void *int1, const void *int2)
{
return (*(int *)int2) - (*(int *)int1);
}
static cell AMX_NATIVE_CALL SortIntegers(AMX *amx, cell *params)
{
cell *array = get_amxaddr(amx, params[1]);
cell array_size = params[2];
cell type = params[3];
if (type == Sort_Ascending)
{
qsort(array, array_size, sizeof(cell), sort_ints_asc);
} else {
qsort(array, array_size, sizeof(cell), sort_ints_desc);
}
return 1;
}
int sort_floats_asc(const void *float1, const void *float2)
{
REAL r1 = *(REAL *)float1;
REAL r2 = *(REAL *)float2;
if (r1 < r2)
{
return -1;
} else if (r2 < r1) {
return 1;
} else {
return 0;
}
}
int sort_floats_desc(const void *float1, const void *float2)
{
REAL r1 = *(REAL *)float1;
REAL r2 = *(REAL *)float2;
if (r1 < r2)
{
return 1;
} else if (r2 < r1) {
return -1;
} else {
return 0;
}
}
static cell AMX_NATIVE_CALL SortFloats(AMX *amx, cell *params)
{
cell *array = get_amxaddr(amx, params[1]);
cell array_size = params[2];
cell type = params[3];
if (type == Sort_Ascending)
{
qsort(array, array_size, sizeof(cell), sort_floats_asc);
} else {
qsort(array, array_size, sizeof(cell), sort_floats_desc);
}
return 1;
}
static cell *g_CurStringArray = NULL;
static cell *g_CurRebaseMap = NULL;
int sort_strings_asc(const void *blk1, const void *blk2)
{
cell reloc1 = *(cell *)blk1;
cell reloc2 = *(cell *)blk2;
register cell *str1 = (cell *)((char *)(&g_CurStringArray[reloc1]) + g_CurRebaseMap[reloc1]);
register cell *str2 = (cell *)((char *)(&g_CurStringArray[reloc2]) + g_CurRebaseMap[reloc2]);
while (*str1 == *str2++)
{
if (*str1++ == 0)
{
return 0;
}
}
return (*str1 - *(str2 - 1));
}
int sort_strings_desc(const void *blk1, const void *blk2)
{
cell reloc1 = *(cell *)blk1;
cell reloc2 = *(cell *)blk2;
register cell *str1 = (cell *)((char *)(&g_CurStringArray[reloc1]) + g_CurRebaseMap[reloc1]);
register cell *str2 = (cell *)((char *)(&g_CurStringArray[reloc2]) + g_CurRebaseMap[reloc2]);
while (*str1 == *str2++)
{
if (*str1++ == 0)
{
return 0;
}
}
return (*(str2 - 1) - *str1);
}
static cell AMX_NATIVE_CALL SortStrings(AMX *amx, cell *params)
{
cell *array = get_amxaddr(amx, params[1]);
cell array_size = params[2];
cell type = params[3];
/** HACKHACK - back up the old indices, replace the indices with something easier */
cell amx_addr, *phys_addr;
int err;
if ((err=amx_Allot(amx, array_size, &amx_addr, &phys_addr)) != AMX_ERR_NONE)
{
LogError(amx, err, "Ran out of memory");
return 0;
}
g_CurStringArray = array;
g_CurRebaseMap = phys_addr;
for (int i=0; i<array_size; i++)
{
phys_addr[i] = array[i];
array[i] = i;
}
if (type == Sort_Ascending)
{
qsort(array, array_size, sizeof(cell), sort_strings_asc);
} else {
qsort(array, array_size, sizeof(cell), sort_strings_desc);
}
/* END HACKHACK - restore what we damaged so Pawn doesn't throw up.
* We'll browse through each index of the array and patch up the distance.
*/
for (int i=0; i<array_size; i++)
{
/* Compute the final address of the old array and subtract the new location.
* This is the fixed up distance.
*/
array[i] = ((char *)&array[array[i]] + phys_addr[array[i]]) - (char *)&array[i];
}
amx_Release(amx, amx_addr);
g_CurStringArray = NULL;
g_CurRebaseMap = NULL;
return 1;
}
struct sort_info
{
int pfn;
cell data_addr;
cell data_size;
cell array_addr;
cell *array_base;
cell *array_remap;
AMX *amx;
};
static CStack<sort_info *> g_AMXSortStack;
int sort1d_amx_custom(const void *elem1, const void *elem2)
{
cell c1 = *(cell *)elem1;
cell c2 = *(cell *)elem2;
sort_info *pInfo = g_AMXSortStack.front();
return executeForwards(pInfo->pfn, c1, c2, pInfo->array_addr, pInfo->data_addr, pInfo->data_size);
}
static cell AMX_NATIVE_CALL SortCustom1D(AMX *amx, cell *params)
{
cell *array = get_amxaddr(amx, params[1]);
cell array_size = params[2];
int len;
const char *funcname = get_amxstring(amx, params[3], 0, len);
int pfn = registerSPForwardByName(amx, funcname, FP_CELL, FP_CELL, FP_CELL, FP_CELL, FP_CELL);
if (pfn < 0)
{
LogError(amx, AMX_ERR_NATIVE, "The public function \"%s\" was not found.", funcname);
return 0;
}
sort_info *pInfo = new sort_info;
pInfo->pfn = pfn;
pInfo->data_addr = params[4];
pInfo->data_size = params[5];
pInfo->array_addr = params[1];
pInfo->array_remap = NULL;
pInfo->array_base = NULL;
g_AMXSortStack.push(pInfo);
qsort(array, array_size, sizeof(cell), sort1d_amx_custom);
g_AMXSortStack.pop();
delete pInfo;
return 1;
}
int sort2d_amx_custom(const void *elem1, const void *elem2)
{
cell c1 = *(cell *)elem1;
cell c2 = *(cell *)elem2;
sort_info *pInfo = g_AMXSortStack.front();
cell c1_addr = pInfo->array_addr + (c1 * sizeof(cell)) + pInfo->array_remap[c1];
cell c2_addr = pInfo->array_addr + (c2 * sizeof(cell)) + pInfo->array_remap[c2];
cell *c1_r = get_amxaddr(pInfo->amx, c1_addr);
cell *c2_r = get_amxaddr(pInfo->amx, c2_addr);
return executeForwards(pInfo->pfn, c1_addr, c2_addr, pInfo->array_addr, pInfo->data_addr, pInfo->data_size);
}
static cell AMX_NATIVE_CALL SortCustom2D(AMX *amx, cell *params)
{
cell *array = get_amxaddr(amx, params[1]);
cell array_size = params[2];
int len;
const char *funcname = get_amxstring(amx, params[3], 0, len);
/** back up the old indices, replace the indices with something easier */
cell amx_addr, *phys_addr;
int err;
if ((err=amx_Allot(amx, array_size, &amx_addr, &phys_addr)) != AMX_ERR_NONE)
{
LogError(amx, err, "Ran out of memory");
return 0;
}
int pfn = registerSPForwardByName(amx, funcname, FP_CELL, FP_CELL, FP_CELL, FP_CELL, FP_CELL);
if (pfn < 0)
{
amx_Release(amx, amx_addr);
LogError(amx, AMX_ERR_NATIVE, "The public function \"%s\" was not found.", funcname);
return 0;
}
sort_info *pInfo = new sort_info;
pInfo->pfn = pfn;
pInfo->data_addr = params[4];
pInfo->data_size = params[5];
pInfo->array_addr = params[1];
pInfo->amx = amx;
/** Same process as in strings, back up the old indices for later fixup */
pInfo->array_base = array;
pInfo->array_remap = phys_addr;
for (int i=0; i<array_size; i++)
{
phys_addr[i] = array[i];
array[i] = i;
}
g_AMXSortStack.push(pInfo);
qsort(array, array_size, sizeof(cell), sort2d_amx_custom);
g_AMXSortStack.pop();
/** Fixup process! */
for (int i=0; i<array_size; i++)
{
/* Compute the final address of the old array and subtract the new location.
* This is the fixed up distance.
*/
array[i] = ((char *)&array[array[i]] + phys_addr[array[i]]) - (char *)&array[i];
}
amx_Release(amx, amx_addr);
unregisterSPForward(pInfo->pfn);
delete pInfo;
return 1;
}
AMX_NATIVE_INFO g_SortNatives[] =
{
{"SortIntegers", SortIntegers},
{"SortFloats", SortFloats},
{"SortStrings", SortStrings},
{"SortCustom1D", SortCustom1D},
{"SortCustom2D", SortCustom2D},
{NULL, NULL},
};

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@ -20,6 +20,7 @@
#include <lang> #include <lang>
#include <messages> #include <messages>
#include <vector> #include <vector>
#include <sorting>
/* Function is called just after server activation. /* Function is called just after server activation.
* Good place for configuration loading, commands and cvars registration. */ * Good place for configuration loading, commands and cvars registration. */

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@ -0,0 +1,76 @@
/* Sorting functions.
*
* by the AMX Mod X Development Team
*
* This file is provided as is (no warranties).
*
* All sort functions are based off the qsort() function from the
* C standard library, which uses the Quick Sort algorithm.
* For more info, see: http://linux.wku.edu/~lamonml/algor/sort/sort.html
*/
#if defined _time_included
#endinput
#endif
#define _time_included
enum SortMethod
{
Sort_Ascending = 0,
Sort_Descending = 1,
};
/**
* Basic sorting functions below.
*/
native SortIntegers(array[], array_size, SortMethod:order = Sort_Ascending);
native SortFloats(Float:array[], array_size, SortMethod:order = Sort_Ascending);
native SortStrings(array[][], num_strings, SortMethod:order = Sort_Ascending);
/**
* Custom sorting functions below.
*/
/**
* Sorts a custom 1D array. You must pass in a comparison function.
* The sorting algorithm then uses your comparison function to sort the data.
* The function is called in the following manner:
*
* public MySortFunc(elem1, elem2, const array[], const data[], data_size)
*
* elem1, elem2 - Current element pair being compared
* array[] - Array in its current mid-sorted state.
* data[] - Extra data array you passed to the sort func.
* data_size - Size of extra data you passed to the sort func.
*
* Your function should return:
* -1 if elem1 should go before elem2
* 0 if elem1 and elem2 are equal
* 1 if elem1 should go after elem2
* Note that the parameters after elem2 are all optional and you do not need to specify them.
*/
native SortCustom1D(array[], array_size, const comparefunc[], data[]="", data_size=0);
/**
* Sorts a custom 2D array.
* The sorting algorithm then uses your comparison function to sort the data.
* The function is called in the following manner:
*
* public MySortFunc(const elem1[], const elem2[], const array[], data[], data_size)
*
* elem1[], elem2[] - Current element array pairs being compared
* array[][] - Array in its currently being sorted state.
* data[] - Extra data array you passed to the sort func.
* data_size - Size of extra data you passed to the sort func.
*
* Your function should return:
* -1 if elem1[] should go before elem2[]
* 0 if elem1[] and elem2 are equal[]
* 1 if elem1[] should go after elem2[]
* Note that the parameters after elem2[] are all optional and you do not need to specify them.
*/
native SortCustom2D(array[][], array_size, const comparefunc[], data[]="", data_size=0);

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@ -0,0 +1,153 @@
#include <amxmodx>
public plugin_init()
{
register_plugin("Sort Test", "1.0", "BAILOPAN")
register_srvcmd("test_sort_ints", "Command_TestSortInts")
register_srvcmd("test_sort_floats", "Command_TestSortFloats")
register_srvcmd("test_sort_strings", "Command_TestSortStrings")
register_srvcmd("test_sort_1d", "Command_TestSort1D")
register_srvcmd("test_sort_2d", "Command_TestSort2D")
}
/*****************
* INTEGER TESTS *
*****************/
// Note that integer comparison is just int1-int2 (or a variation therein)
PrintIntegers(const array[], size)
{
for (new i=0; i<size; i++)
{
server_print("array[%d] = %d", i, array[i])
}
}
public Command_TestSortInts()
{
new array[10] = {6, 7, 3, 2, 8, 5, 0, 1, 4, 9}
server_print("Testing ascending sort:")
SortIntegers(array, 10, Sort_Ascending)
PrintIntegers(array, 10)
server_print("Testing descending sort:")
SortIntegers(array, 10, Sort_Descending)
PrintIntegers(array, 10)
}
/**************************
* Float comparison tests *
**************************/
PrintFloats(const Float:array[], size)
{
for (new i=0; i<size; i++)
{
server_print("array[%d] = %f", i, array[i])
}
}
public Command_TestSortFloats()
{
new Float:array[10] = {6.3, 7.6, 3.2, 2.1, 8.5, 5.2, 0.4, 1.7, 4.8, 8.2}
server_print("Testing ascending sort:")
SortFloats(array, 10, Sort_Ascending)
PrintFloats(array, 10)
server_print("Testing descending sort:")
SortFloats(array, 10, Sort_Descending)
PrintFloats(array, 10)
return PLUGIN_HANDLED
}
public Custom1DSort(Float:elem1, Float:elem2)
{
if (elem1 > elem2)
{
return -1;
} else if (elem1 < elem2) {
return 1;
}
return 0;
}
public Command_TestSort1D()
{
new Float:array[10] = {6.3, 7.6, 3.2, 2.1, 8.5, 5.2, 0.4, 1.7, 4.8, 8.2}
SortCustom1D(_:array, 10, "Custom1DSort")
PrintFloats(array, 10)
return PLUGIN_HANDLED
}
/***************************
* String comparison tests *
***************************/
PrintStrings(const array[][], size)
{
for (new i=0; i<size; i++)
{
server_print("array[%d] = %s", i, array[i])
}
}
public Command_TestSortStrings()
{
new array[][] =
{
"faluco",
"bailopan",
"pm onoto",
"damaged soul",
"sniperbeamer",
"sidluke",
"johnny got his gun",
"gabe newell",
"hello",
"WHAT?!"
}
server_print("Testing ascending sort:")
SortStrings(array, 10, Sort_Ascending)
PrintStrings(array, 10)
server_print("Testing descending sort:")
SortStrings(array, 10, Sort_Descending)
PrintStrings(array, 10)
return PLUGIN_HANDLED
}
public Custom2DSort(const elem1[], const elem2[])
{
return strcmp(elem1, elem2)
}
public Command_TestSort2D()
{
new array[][] =
{
"faluco",
"bailopan",
"pm onoto",
"damaged soul",
"sniperbeamer",
"sidluke",
"johnny got his gun",
"gabe newell",
"hello",
"WHAT?!"
}
SortCustom2D(array, 10, "Custom2DSort")
PrintStrings(array, 10)
return PLUGIN_HANDLED
}