Optimize the halloc implementation so that mutiple calls to halloc can be satisfied by a single malloc, also add wcsdup and wcsndup workalikes using halloc

darcs-hash:20060211001317-ac50b-c9cf234c334b4d697fe1251c21013c8ec7f7b0a1.gz
This commit is contained in:
axel 2006-02-11 10:13:17 +10:00
parent e9e32f980b
commit 20c83ba605
9 changed files with 157 additions and 40 deletions

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@ -1037,7 +1037,7 @@ static int builtin_function( wchar_t **argv )
if( !e )
die_mem();
e->type = EVENT_VARIABLE;
e->param1.variable = halloc_register( current_block, wcsdup( woptarg ));
e->param1.variable = halloc_wcsdup( current_block, woptarg );
e->function_name=0;
al_push( events, e );
break;
@ -1201,8 +1201,8 @@ static int builtin_function( wchar_t **argv )
}
else
{
current_block->param1.function_name=halloc_register( current_block, wcsdup(argv[woptind]));
current_block->param2.function_description=desc?halloc_register( current_block, wcsdup(desc)):0;
current_block->param1.function_name=halloc_wcsdup( current_block, argv[woptind]);
current_block->param2.function_description=desc?halloc_wcsdup( current_block, desc):0;
current_block->param3.function_is_binding = is_binding;
current_block->param4.function_events = events;
@ -2579,11 +2579,11 @@ static int builtin_for( wchar_t **argv )
int i;
current_block->tok_pos = parser_get_pos();
current_block->param1.for_variable = halloc_register( current_block, wcsdup( argv[1] ));
current_block->param1.for_variable = halloc_wcsdup( current_block, argv[1] );
for( i=argc-1; i>3; i-- )
{
al_push( &current_block->param2.for_vars, halloc_register( current_block, wcsdup(argv[ i ] ) ) );
al_push( &current_block->param2.for_vars, halloc_wcsdup( current_block, argv[ i ] ) );
}
halloc_register( current_block, current_block->param2.for_vars.arr );
@ -2899,7 +2899,7 @@ static int builtin_switch( wchar_t **argv )
else
{
parser_push_block( SWITCH );
current_block->param1.switch_value = halloc_register( current_block, wcsdup( argv[1]));
current_block->param1.switch_value = halloc_wcsdup( current_block, argv[1]);
current_block->skip=1;
current_block->param2.switch_taken=0;
}

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@ -270,8 +270,7 @@ void debug( int level, const wchar_t *msg, ... );
\return The escaped string, or 0 if there is not enough memory
*/
wchar_t *escape( const wchar_t *in,
int escape_all );
wchar_t *escape( const wchar_t *in, int escape_all );
/**
Expand backslashed escapes and substitute them with their unescaped

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@ -380,7 +380,6 @@ void complete_add( const wchar_t *cmd,
if( !(c = malloc( sizeof(complete_entry) )))
die_mem();
c->next = first_entry;
first_entry = c;

107
halloc.c
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@ -15,9 +15,22 @@
#include "common.h"
#include "halloc.h"
#define HALLOC_BLOCK_SIZE 256
#define HALLOC_SCRAP_SIZE 16
static int child_count=0;
static int child_size=0;
static int alloc_count =0;
static int alloc_spill = 0;
static pid_t pid=0;
static int parent_count=0;
typedef struct halloc
{
array_list_t children;
void *scratch;
size_t scratch_free;
long long data[0];
}
halloc_t;
@ -27,26 +40,80 @@ static halloc_t *halloc_from_data( void *data )
return (halloc_t *)(data - sizeof( halloc_t ) );
}
static void late_free( void *data)
{
}
static void woot()
{
if( getpid() == pid )
{
debug( 1, L"%d parents, %d children with average child size of %.2f bytes caused %d allocs, average spill of %.2f bytes",
parent_count, child_count, (double)child_size/child_count,
parent_count+alloc_count, (double)alloc_spill/(parent_count+alloc_count) );
}
}
void *halloc( void *context, size_t size )
{
halloc_t *me, *parent;
me = (halloc_t *)calloc( 1, sizeof(halloc_t) + size );
if( !me )
return 0;
al_init( &me->children );
if( context )
{
{
void *res;
if( !child_count )
{
pid = getpid();
atexit( woot );
}
child_count++;
child_size += size;
parent = halloc_from_data( context );
al_push( &parent->children, &halloc_free );
al_push( &parent->children, &me->data );
}
if( size <= parent->scratch_free )
{
res = parent->scratch;
parent->scratch_free -= size;
parent->scratch += size;
}
else
{
alloc_count++;
if( parent->scratch_free < HALLOC_SCRAP_SIZE )
{
alloc_spill += parent->scratch_free;
res = calloc( 1, size + HALLOC_BLOCK_SIZE );
parent->scratch = res + size;
parent->scratch_free = HALLOC_BLOCK_SIZE;
}
else
{
res = calloc( 1, size );
}
al_push( &parent->children, &late_free );
al_push( &parent->children, res );
}
return res;
return &me->data;
}
else
{
me = (halloc_t *)calloc( 1, sizeof(halloc_t) + size + HALLOC_BLOCK_SIZE );
if( !me )
return 0;
parent_count++;
me->scratch = ((void *)me) + sizeof(halloc_t) + size;
me->scratch_free = HALLOC_BLOCK_SIZE;
al_init( &me->children );
return &me->data;
}
}
void halloc_register_function( void *context, void (*func)(void *), void *data )
@ -67,13 +134,25 @@ void halloc_free( void *context )
if( !context )
return;
me = halloc_from_data( context );
alloc_spill += me->scratch_free;
for( i=0; i<al_get_count(&me->children); i+=2 )
{
void (*func)(void *) = (void (*)(void *))al_get( &me->children, i );
void * data = (void *)al_get( &me->children, i+1 );
func( data );
if( func != &late_free )
func( data );
}
for( i=0; i<al_get_count(&me->children); i+=2 )
{
void (*func)(void *) = (void (*)(void *))al_get( &me->children, i );
void * data = (void *)al_get( &me->children, i+1 );
if( func == &late_free )
free( data );
}
al_destroy( &me->children );
free(me);

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@ -1,6 +1,6 @@
/** \file halloc.h
A hierarchical memory allocation system. Works just like talloc
A hierarchical memory allocation system. Works mostly like talloc
used in Samba, except that an arbitrary block allocated with
malloc() can be registered to be freed by halloc_free.
@ -13,23 +13,33 @@
Allocate new memory using specified parent memory context. Context
_must_ be either 0 or the result of a previous call to halloc.
If \c context is null, the resulting block is a root context, and
If \c context is null, the resulting block is a root block, and
must be freed with a call to halloc_free().
If \c context is not null, the resulting memory block is a child
context, and must never be explicitly freed, it will be
automatically freed whenever the parent context is freed.
If \c context is not null, context must be a halloc root block. the
resulting memory block is a child context, and must never be
explicitly freed, it will be automatically freed whenever the
parent context is freed. Child blocks can never be used as the
context in calls to halloc_register_function, halloc_free, etc.
*/
void *halloc( void *context, size_t size );
/**
Make the specified function run whenever context is free'd, using data as argument.
\c context a halloc root block
*/
void halloc_register_function( void *context, void (*func)(void *), void *data );
/**
Free memory context and all children contexts. Only root contexts
may be freed explicitly.
All functions registered with halloc_register_function are run in
the order they where added. Afterwards, all memory allocated using
halloc itself is free'd.
\c context a halloc root block
*/
void halloc_free( void *context );

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@ -10,6 +10,7 @@
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
#include "util.h"
#include "common.h"
@ -33,7 +34,7 @@ array_list_t *al_halloc( void *context )
if( !res )
die_mem();
al_init( res );
halloc_register_function( res, (void (*)(void *)) &al_destroy, res );
halloc_register_function( context, (void (*)(void *)) &al_destroy, res );
return res;
}
@ -43,7 +44,7 @@ string_buffer_t *sb_halloc( void *context )
if( !res )
die_mem();
sb_init( res );
halloc_register_function( res, (void (*)(void *)) &sb_destroy, res );
halloc_register_function( context, (void (*)(void *)) &sb_destroy, res );
return res;
}
@ -67,3 +68,27 @@ void *halloc_register( void *context, void *data )
return data;
}
wchar_t *halloc_wcsdup( void *context, wchar_t *in )
{
size_t len=wcslen(in);
wchar_t *out = halloc( context, sizeof( wchar_t)*(len+1));
if( out == 0 )
{
die_mem();
}
memcpy( out, in, sizeof( wchar_t)*(len+1));
return out;
}
wchar_t *halloc_wcsndup( void * context, const wchar_t *in, int c )
{
wchar_t *res = halloc( context, sizeof(wchar_t)*(c+1) );
if( res == 0 )
{
die_mem();
}
wcslcpy( res, in, c );
res[c] = L'\0';
return res;
}

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@ -26,4 +26,10 @@ void halloc_register_function_void( void *context, void (*func)() );
using a call to halloc() can be used as a context.
*/
void *halloc_register( void *context, void *data );
wchar_t *halloc_wcsdup( void *context, wchar_t *str );
wchar_t *halloc_wcsndup( void * context, const wchar_t *in, int c );
#endif

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@ -19,6 +19,7 @@
#include "reader.h"
#include "env.h"
#include "sanity.h"
#include "signal.h"
/*
The history is implemented using a linked list. Searches are done

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@ -1321,8 +1321,7 @@ static void parse_job_main_loop( process_t *p,
return;
}
p->pipe_fd = wcstol( tok_last( tok ), 0, 10 );
p->argv = list_to_char_arr( args );
halloc_register( j, p->argv );
halloc_register( j, p->argv=list_to_char_arr( args ) );
p->next = halloc( j, sizeof( process_t ) );
if( p->next == 0 )
{
@ -1344,8 +1343,7 @@ static void parse_job_main_loop( process_t *p,
case TOK_END:
{
p->argv = list_to_char_arr( args );
halloc_register( j, p->argv );
halloc_register( j, p->argv=list_to_char_arr( args ) );
if( tok_has_next(tok))
tok_next(tok);
@ -1412,7 +1410,7 @@ static void parse_job_main_loop( process_t *p,
unmatched_wildcard = 1;
if( !unmatched )
{
unmatched = halloc_register( j, wcsdup( tok_last( tok )));
unmatched = halloc_wcsdup( j, tok_last( tok ));
unmatched_pos = tok_get_pos( tok );
}
@ -2034,9 +2032,8 @@ static int parse_job( process_t *p,
if( !error_code )
{
if( p->type == INTERNAL_BUILTIN && parser_skip_arguments( (wchar_t *)al_get(args, 0) ) )
{
p->argv = list_to_char_arr( args );
halloc_register( j, p->argv );
{
halloc_register( j, p->argv = list_to_char_arr( args ) );
// tok_next(tok);
}
else
@ -2173,8 +2170,9 @@ static void eval_job( tokenizer *tok )
if( newline )
stop_pos = mini( stop_pos, newline - tok_string(tok) );
j->command = halloc_register( j, wcsndup( tok_string(tok)+start_pos,
stop_pos-start_pos ));
j->command = halloc_wcsndup( j,
tok_string(tok)+start_pos,
stop_pos-start_pos );
}
else
j->command = L"";