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265 lines
7.0 KiB
265 lines
7.0 KiB
15 years ago
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/*
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* vm.c
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*
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* Copyright (c) 2000 Artur Rataj
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* Distributed under the terms of the GNU General Public License
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*
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*/
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#include "vm.h"
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#define ERROR_VALUE INT_MAX
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int vm_init_pool( struct tvm_pool** pool,
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int area_size,
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int max_stack_size,
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int max_threads_num ) {
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int position;
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( *pool ) = (struct tvm_pool*)malloc( sizeof(struct tvm_pool) );
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( *pool )->area_size = area_size;
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( *pool )->area = (int*)malloc( (*pool)->area_size*sizeof(int) );
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( *pool )->processes = NULL;
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( *pool )->max_stack_size = max_stack_size;
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( *pool )->max_threads_num = max_threads_num;
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vm_enable_reverse( *pool, 0 );
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for( position = 0; position < (*pool)->area_size; ++position )
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( *pool )->area[position] = VM_OP_STOP;
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return 1;
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}
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void vm_done_pool( struct tvm_pool* pool ) {
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struct tvm_process* curr_process;
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free( pool->area );
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curr_process = pool->processes;
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while( curr_process ) {
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struct tvm_process* tmp_process;
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tmp_process = curr_process;
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curr_process = curr_process->next;
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free( tmp_process->stack );
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free( tmp_process );
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}
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free( pool );
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}
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static int push( struct tvm_pool* pool,
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struct tvm_process* process,
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int value ) {
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if( process->stack_top == pool->max_stack_size )
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return ERROR_VALUE;
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else
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process->stack[process->stack_top++] = value;
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return 1;
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}
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static int pop( struct tvm_pool* pool,
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struct tvm_process* process ) {
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if( process->stack_top == 0 )
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return ERROR_VALUE;
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else
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{
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return process->stack[--process->stack_top];
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}
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}
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void vm_modify( struct tvm_pool* pool,
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int position,
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int op ) {
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pool->area[position] = op;
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}
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void vm_exec( struct tvm_pool* pool,
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int position,
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int age,
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int reverse ) {
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struct tvm_process* new_process;
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new_process = (struct tvm_process*)malloc( sizeof(struct tvm_process) );
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new_process->position = position;
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new_process->stack = (int*)malloc( pool->max_stack_size*sizeof(int) );
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new_process->stack_top = 0;
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new_process->age = age;
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new_process->reverse = reverse;
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new_process->next = pool->processes;
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pool->processes = new_process;
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}
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void vm_enable_reverse( struct tvm_pool* pool,
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const int enabled ) {
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pool->reverse_enabled = enabled;
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}
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int vm_get_reverse( struct tvm_pool* pool ) {
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if( pool->reverse_enabled )
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return (int)( vm_random(&(pool->vm_random_data))*2.0/
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( VM_RAND_MAX + 1.0 ) );
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else
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return 0;
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}
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void vm_iterate( struct tvm_pool* pool,
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char* modified ) {
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struct tvm_process* prev_process;
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struct tvm_process* curr_process;
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struct tvm_process* next_process;
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int processes_num;
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processes_num = 0;
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prev_process = NULL;
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curr_process = pool->processes;
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while( curr_process ) {
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int op;
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int arg;
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int arg_2;
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int arg_3;
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++curr_process->age;
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next_process = curr_process->next;
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op = pool->area[curr_process->position];
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if( curr_process->reverse )
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--curr_process->position;
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else
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++curr_process->position;
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curr_process->position = ( curr_process->position + pool->area_size )%
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pool->area_size;
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switch( op ) {
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case VM_OP_WAIT:
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break;
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case VM_OP_STOP:
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if( !prev_process )
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pool->processes = curr_process->next;
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else
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prev_process->next = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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curr_process = prev_process;
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--processes_num;
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break;
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case VM_OP_EXEC:
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if( (arg = pop( pool, curr_process )) == ERROR_VALUE ) {
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if( !prev_process )
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pool->processes = curr_process->next;
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else
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prev_process->next = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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curr_process = prev_process;
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--processes_num;
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} else {
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arg = curr_process->position + arg;
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if( arg < 0 )
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arg += pool->area_size;
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if( arg >= pool->area_size )
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arg -= pool->area_size;
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vm_exec( pool, arg, curr_process->age, vm_get_reverse(pool) );
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}
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break;
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case VM_OP_COPY:
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if( (arg = pop( pool, curr_process )) == ERROR_VALUE ) {
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if( !prev_process )
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pool->processes = curr_process->next;
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else
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prev_process->next = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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curr_process = prev_process;
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--processes_num;
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} else if( (arg_2 = pop( pool, curr_process )) == ERROR_VALUE ) {
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if( !prev_process )
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pool->processes = curr_process->next;
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else
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prev_process->next = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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curr_process = prev_process;
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--processes_num;
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} else if( 1 && (arg_3 = pop( pool, curr_process )) == ERROR_VALUE ) {
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if( !prev_process )
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pool->processes = curr_process->next;
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else
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prev_process->next = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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curr_process = prev_process;
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--processes_num;
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} else {
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int count;
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int direction;
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arg = curr_process->position + arg;
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if( arg < 0 )
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arg += pool->area_size;
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if( arg >= pool->area_size )
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arg -= pool->area_size;
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arg_2 = curr_process->position + arg_2;
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if( arg_2 < 0 )
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arg_2 += pool->area_size;
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if( arg_2 >= pool->area_size )
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arg_2 -= pool->area_size;
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if( curr_process->reverse )
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direction = -1;
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else
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direction = 1;
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for( count = 0; count < arg_3; ++count ) {
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int i, j;
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int offset;
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offset = count*direction + pool->area_size;
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i = pool->area[( arg_2 + offset )%pool->area_size];
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j = pool->area[( arg_2 + offset )%pool->area_size] = pool->area[( arg + offset )%pool->area_size];
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if( modified && i != j )
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modified[( arg_2 + offset )%pool->area_size] = 1;
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}
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}
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break;
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default: /* >= VM_OP_PUSH */
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arg = op - VM_OP_PUSH;
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if( push(pool, curr_process, arg) == ERROR_VALUE ) {
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if( !prev_process )
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pool->processes = curr_process->next;
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else
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prev_process->next = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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curr_process = prev_process;
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--processes_num;
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}
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break;
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}
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prev_process = curr_process;
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curr_process = next_process;
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++processes_num;
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}
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while( processes_num > pool->max_threads_num ) {
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int process_num;
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int curr_process_num;
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process_num = (int)( vm_random(&(pool->vm_random_data))*1.0*processes_num/
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( VM_RAND_MAX + 1.0 ) );
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/*
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process_num = (int)( rand()*1.0*processes_num/
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( RAND_MAX + 1.0 ) );
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*/
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curr_process_num = 0;
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curr_process = pool->processes;
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prev_process = NULL;
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while( curr_process_num != process_num ) {
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prev_process = curr_process;
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curr_process = curr_process->next;
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++curr_process_num;
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}
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if( prev_process )
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prev_process->next = curr_process->next;
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else
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pool->processes = curr_process->next;
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free( curr_process->stack );
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free( curr_process );
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--processes_num;
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}
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}
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