mirror of
https://github.com/alliedmodders/amxmodx.git
synced 2024-12-27 07:15:37 +03:00
375 lines
9.7 KiB
C++
375 lines
9.7 KiB
C++
#if !defined _JUDYHS_ENABLED_
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#define _JUDYHS_ENABLED_
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Pvoid_t MasterHashtable = (Pvoid_t) NULL; //Create the new array
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//Create an array that stores whether or not indices are used.
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Pvoid_t MasterHashtable_Binary = (Pvoid_t) NULL;
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void Delete_MasterHashtable(void);
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Word_t New_Hashtable(Word_t Index, Word_t reserve = 0);
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Pvoid_t* Find_Hashtable(Word_t Index, Word_t disable_check = 1, AMX *amx = 0);
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void Delete_Hashtable(Word_t Index);
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void Clear_Hashtable(Word_t Index);
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template <class Type>
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void Hashtable_Set(PPvoid_t Hashtable, char *Index, Word_t Length, Type value);
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PPvoid_t Hashtable_Get(AMX* amx, Pvoid_t Hashtable, char *Index, int ignore_error = 0);
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void Delete_MasterHashtable(void)
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{
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Word_t
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Index = 0,
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success;
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J1F(success, MasterHashtable_Binary, Index);
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while( success )
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{
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Delete_Hashtable(Index);
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J1F(success, MasterHashtable_Binary, Index);
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}
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}
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Word_t New_Hashtable(Word_t Index, Word_t reserve)
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{
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Word_t success; //Dummy for macros.
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J1T(success, MasterHashtable_Binary, Index);
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if (success && reserve)
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return Index; //If the bit is set but it's 'reserved', return the index.
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//Only do this if the bit is not set or not reserved.
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J1FE(success, MasterHashtable_Binary, Index);
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J1S(success, MasterHashtable_Binary, Index);
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PPvoid_t Hashtable = JudyLIns(&MasterHashtable, Index, PJE0);
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*Hashtable = (PWord_t) NULL;
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return Index;
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}
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PPvoid_t Find_Hashtable(Word_t Index, Word_t disable_check, AMX* amx)
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{
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Word_t success;
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J1T(success, MasterHashtable_Binary, Index);
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if (success || disable_check)
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{ //Bit is valid
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if(!success)
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New_Hashtable(Index);
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return JudyLGet(MasterHashtable, Index, PJE0);
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}
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MF_LogError(amx,AMX_ERR_NATIVE,"Hashtable %d is invalid.", Index);
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return NULL;
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}
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void Delete_Hashtable(Word_t Index)
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{
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int success;
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J1T(success, MasterHashtable_Binary, Index);
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if (success)
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{ //If the bit was set, clear, unset and delist hashtable.
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Clear_Hashtable(Index);
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J1U(success, MasterHashtable_Binary, Index);
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JudyLDel(&MasterHashtable, Index, PJE0);
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}
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}
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void Clear_Hashtable(Word_t Index)
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{
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int success;
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J1T(success, MasterHashtable_Binary, Index);
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if (success) //dont bother with unset hashtables.
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{
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PPvoid_t Hashtable = Find_Hashtable(Index);
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JHSFA(success, *Hashtable);
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}
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}
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template <class Type> //This will support input char*, Vector*, int, and cell_real*.
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void Hashtable_Set(PPvoid_t Hashtable, char* Index, Type value)
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{
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int Len = strlen(Index)+1;
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PPvoid_t PValue = JudyHSIns(Hashtable, Index, Len, PJE0);
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*PValue = reinterpret_cast<void*>(value);
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}
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PPvoid_t Hashtable_Get(AMX* amx,PPvoid_t Hashtable, char *Index, int ignore_error = 0)
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{
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PPvoid_t PValue = JudyHSGet(*Hashtable, Index, strlen(Index)+1);
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if (PValue == NULL && !ignore_error)
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MF_LogError(amx, AMX_ERR_NATIVE, "Hashtable get on index \"%s\" is invalid", Index);
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return PValue;
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}
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static cell AMX_NATIVE_CALL Hashtable_Create(AMX *amx, cell *params)
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{
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return New_Hashtable(params[1],params[2]);
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}
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static cell AMX_NATIVE_CALL Hashtable_Delete(AMX *amx, cell *params)
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{
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Delete_Hashtable( params[1] );
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_Clear(AMX *amx, cell *params)
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{
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Clear_Hashtable( params[1] );
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_SetVector(AMX *amx,cell *params)
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{
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[4], amx);
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if (Hashtable == NULL) return 0;
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cell *input_vec = MF_GetAmxAddr(amx, params[3]);
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Vector *value = new Vector(
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amx_ctof(input_vec[0]),
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amx_ctof(input_vec[1]),
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amx_ctof(input_vec[2])
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);
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int strlen;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlen);
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PPvoid_t PValue = Hashtable_Get(amx, Hashtable, Index, 1);
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element *elem_value = NULL;
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if ( PValue == NULL )
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elem_value = new element(value);
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else
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{
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elem_value = reinterpret_cast<element*>(*PValue);
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(*elem_value).set_vec(value);
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}
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Hashtable_Set(Hashtable,Index,elem_value);
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_GetVector(AMX *amx, cell *params)
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{
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[4], amx);
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if (Hashtable == NULL) return 0;
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int strlen;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlen);
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PPvoid_t PValue = Hashtable_Get(amx, Hashtable, Index, params[4]);
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cell *vAmx = MF_GetAmxAddr(amx, params[3]);
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if( PValue == NULL ) {
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vAmx[0] = amx_ftoc(0);
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vAmx[1] = amx_ftoc(0);
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vAmx[2] = amx_ftoc(0);
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return 0;
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}
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element elem_value = *reinterpret_cast<element*>(*PValue);
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int error = 0;
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const Vector retr_vec = *elem_value.get_vec(error);
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if (error)
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elem_value.issue_type_error(amx, params[1], Index);
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vAmx[0] = amx_ftoc(retr_vec.x);
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vAmx[1] = amx_ftoc(retr_vec.y);
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vAmx[2] = amx_ftoc(retr_vec.z);
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_SetString(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[4], amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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//params[3]: value
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int iLen = 0;
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char *value = MF_GetAmxString(amx,params[3],1,&iLen);
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PPvoid_t PValue = Hashtable_Get(amx, Hashtable, Index, 1);
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element *elem_value = NULL;
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if ( PValue == NULL )
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elem_value = new element(value);
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else
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{
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elem_value = reinterpret_cast<element*>(*PValue);
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(*elem_value).set_str(value);
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}
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Hashtable_Set(Hashtable,Index,elem_value);
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_GetString(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[5], amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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Pvoid_t * PValue = Hashtable_Get(amx, Hashtable, Index, params[5]);
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//params[3] and params[4] are the return string and length respectively.
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if( PValue == NULL )
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return MF_SetAmxString(amx, params[3] , "dne", params[4] );
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element elem_value = *reinterpret_cast<element*>(*PValue);
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int error = 0;
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if (error)
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elem_value.issue_type_error(amx, params[1], Index);
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const char* str_out = elem_value.get_str(error);
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return MF_SetAmxString( amx , params[3] , str_out, params[4] );
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}
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static cell AMX_NATIVE_CALL Hashtable_SetFloat(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[4], amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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//params[3]: value
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PPvoid_t PValue = Hashtable_Get(amx, Hashtable, Index, 1);
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element *elem_value = NULL;
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if ( PValue == NULL )
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elem_value = new element(amx_ctof(params[3]));
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else
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{
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elem_value = reinterpret_cast<element*>(*PValue);
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(*elem_value).set_flo(amx_ctof(params[3]));
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}
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Hashtable_Set(Hashtable,Index,elem_value);
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_GetFloat(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[3], amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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PPvoid_t PValue = Hashtable_Get(amx, Hashtable, Index, params[3]);
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if( PValue == NULL ) return amx_ftoc(0.0);
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element elem_value = *reinterpret_cast<element*>(*PValue);
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int error = 0;
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cell retr_float = amx_ftoc(elem_value.get_flo(error));
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if (error)
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elem_value.issue_type_error(amx, params[1], Index);
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return retr_float;
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}
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static cell AMX_NATIVE_CALL Hashtable_SetInt(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[4], amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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PPvoid_t PValue = Hashtable_Get(amx, Hashtable, Index, 1);
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element *elem_value = NULL;
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if ( PValue == NULL )
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elem_value = new element(params[3]);
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else
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{
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elem_value = reinterpret_cast<element*>(*PValue);
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(*elem_value).set_int(params[3]);
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}
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Hashtable_Set(Hashtable,Index,elem_value);
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return 1;
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}
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static cell AMX_NATIVE_CALL Hashtable_GetInt(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], params[3], amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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Pvoid_t * PValue = Hashtable_Get(amx, Hashtable, Index, params[3]);
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if( PValue == NULL ) return 0;
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element elem_value = *reinterpret_cast<element*>(*PValue);
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int error = 0;
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cell retr_int = elem_value.get_int(error);
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if (error)
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elem_value.issue_type_error(amx, params[1], Index);
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return retr_int;
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}
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static cell AMX_NATIVE_CALL Hashtable_Memory(AMX *amx,cell *params)
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{
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Pvoid_t * Array = Find_Hashtable(params[1],params[2],amx);
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if (Array == NULL) return 0;
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return JudyLMemUsed(*Array);
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}
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static cell AMX_NATIVE_CALL Hashtable_Remove(AMX *amx,cell *params)
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{
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//params[1]: hashtable
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PPvoid_t Hashtable = Find_Hashtable(params[1], 0, amx);
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if (Hashtable == NULL) return 0;
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//params[2]: key
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int strlength;
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char *Index = MF_GetAmxString(amx, params[2], 0, &strlength);
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JudyHSDel(Hashtable, Index, strlength+1, PJE0 );
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return 1;
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}
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AMX_NATIVE_INFO hashtable_exports[] = {
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{ "hashtable_set_str", Hashtable_SetString },
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{ "hashtable_get_str", Hashtable_GetString },
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{ "hashtable_set_vec", Hashtable_SetVector },
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{ "hashtable_get_vec", Hashtable_GetVector },
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{ "hashtable_set_int", Hashtable_SetInt },
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{ "hashtable_get_int", Hashtable_GetInt },
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{ "hashtable_set_float", Hashtable_SetFloat },
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{ "hashtable_get_float", Hashtable_GetFloat },
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{ "hashtable_memory", Hashtable_Memory },
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{ "hashtable_remove", Hashtable_Remove },
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{ "hashtable_create", Hashtable_Create },
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{ "hashtable_delete", Hashtable_Delete },
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{ "hashtable_clear", Hashtable_Clear },
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{ NULL, NULL }
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};
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#endif |